libvirt/src/libvirt.c
Eric Blake e9028f4b73 snapshot: add two more filter sets to API
As we enable more modes of snapshot creation, it becomes more important
to be able to quickly filter based on snapshot properties.  This patch
introduces new filter flags; subsequent patches will introduce virsh
back-compat filtering, as well as actual libvirt filtering.

* include/libvirt/libvirt.h.in (virDomainSnapshotListFlags): Add
five new flags in two new groups.
* src/libvirt.c (virDomainSnapshotNum, virDomainSnapshotListNames)
(virDomainListAllSnapshots, virDomainSnapshotNumChildren)
(virDomainSnapshotListChildrenNames)
(virDomainSnapshotListAllChildren): Document them.
* src/conf/snapshot_conf.h (VIR_DOMAIN_SNAPSHOT_FILTERS_STATUS)
(VIR_DOMAIN_SNAPSHOT_FILTERS_LOCATION): Add new convenience filter
collection macros.
* tools/virsh-snapshot.c (cmdSnapshotList): Add 5 new flags.
* tools/virsh.pod (snapshot-list): Document them.
2012-11-19 08:43:00 -07:00

20227 lines
600 KiB
C

/*
* libvirt.c: Main interfaces for the libvirt library to handle virtualization
* domains from a process running in domain 0
*
* Copyright (C) 2005-2006, 2008-2012 Red Hat, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see
* <http://www.gnu.org/licenses/>.
*
* Daniel Veillard <veillard@redhat.com>
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <sys/wait.h>
#include <time.h>
#include <gcrypt.h>
#include <libxml/parser.h>
#include <libxml/xpath.h>
#include "getpass.h"
#ifdef HAVE_WINSOCK2_H
# include <winsock2.h>
#endif
#ifdef HAVE_LIBCURL
# include <curl/curl.h>
#endif
#include "virterror_internal.h"
#include "logging.h"
#include "datatypes.h"
#include "driver.h"
#include "uuid.h"
#include "memory.h"
#include "configmake.h"
#include "intprops.h"
#include "conf.h"
#include "rpc/virnettlscontext.h"
#include "command.h"
#include "virrandom.h"
#include "viruri.h"
#include "threads.h"
#ifdef WITH_TEST
# include "test/test_driver.h"
#endif
#ifdef WITH_REMOTE
# include "remote/remote_driver.h"
#endif
#ifdef WITH_OPENVZ
# include "openvz/openvz_driver.h"
#endif
#ifdef WITH_VMWARE
# include "vmware/vmware_driver.h"
#endif
#ifdef WITH_PHYP
# include "phyp/phyp_driver.h"
#endif
#ifdef WITH_VBOX
# include "vbox/vbox_driver.h"
#endif
#ifdef WITH_ESX
# include "esx/esx_driver.h"
#endif
#ifdef WITH_HYPERV
# include "hyperv/hyperv_driver.h"
#endif
#ifdef WITH_XENAPI
# include "xenapi/xenapi_driver.h"
#endif
#ifdef WITH_PARALLELS
# include "parallels/parallels_driver.h"
#endif
#define VIR_FROM_THIS VIR_FROM_NONE
/*
* TODO:
* - use lock to protect against concurrent accesses ?
* - use reference counting to guarantee coherent pointer state ?
*/
#define MAX_DRIVERS 20
static virDriverPtr virDriverTab[MAX_DRIVERS];
static int virDriverTabCount = 0;
static virNetworkDriverPtr virNetworkDriverTab[MAX_DRIVERS];
static int virNetworkDriverTabCount = 0;
static virInterfaceDriverPtr virInterfaceDriverTab[MAX_DRIVERS];
static int virInterfaceDriverTabCount = 0;
static virStorageDriverPtr virStorageDriverTab[MAX_DRIVERS];
static int virStorageDriverTabCount = 0;
static virDeviceMonitorPtr virDeviceMonitorTab[MAX_DRIVERS];
static int virDeviceMonitorTabCount = 0;
static virSecretDriverPtr virSecretDriverTab[MAX_DRIVERS];
static int virSecretDriverTabCount = 0;
static virNWFilterDriverPtr virNWFilterDriverTab[MAX_DRIVERS];
static int virNWFilterDriverTabCount = 0;
#ifdef WITH_LIBVIRTD
static virStateDriverPtr virStateDriverTab[MAX_DRIVERS];
static int virStateDriverTabCount = 0;
#endif
#if defined(POLKIT_AUTH)
static int virConnectAuthGainPolkit(const char *privilege) {
virCommandPtr cmd;
int status;
int ret = -1;
if (getuid() == 0)
return 0;
cmd = virCommandNewArgList(POLKIT_AUTH, "--obtain", privilege, NULL);
if (virCommandRun(cmd, &status) < 0 ||
status > 0)
goto cleanup;
ret = 0;
cleanup:
virCommandFree(cmd);
return ret;
}
#endif
static int virConnectAuthCallbackDefault(virConnectCredentialPtr cred,
unsigned int ncred,
void *cbdata ATTRIBUTE_UNUSED) {
int i;
for (i = 0 ; i < ncred ; i++) {
char buf[1024];
char *bufptr = buf;
size_t len;
switch (cred[i].type) {
case VIR_CRED_EXTERNAL: {
if (STRNEQ(cred[i].challenge, "PolicyKit"))
return -1;
#if defined(POLKIT_AUTH)
if (virConnectAuthGainPolkit(cred[i].prompt) < 0)
return -1;
#else
/*
* Ignore & carry on. Although we can't auth
* directly, the user may have authenticated
* themselves already outside context of libvirt
*/
#endif
break;
}
case VIR_CRED_USERNAME:
case VIR_CRED_AUTHNAME:
case VIR_CRED_ECHOPROMPT:
case VIR_CRED_REALM:
if (printf("%s: ", cred[i].prompt) < 0)
return -1;
if (fflush(stdout) != 0)
return -1;
if (!fgets(buf, sizeof(buf), stdin)) {
if (feof(stdin)) { /* Treat EOF as "" */
buf[0] = '\0';
break;
}
return -1;
}
len = strlen(buf);
if (len != 0 && buf[len-1] == '\n')
buf[len-1] = '\0';
break;
case VIR_CRED_PASSPHRASE:
case VIR_CRED_NOECHOPROMPT:
if (printf("%s: ", cred[i].prompt) < 0)
return -1;
if (fflush(stdout) != 0)
return -1;
bufptr = getpass("");
if (!bufptr)
return -1;
break;
default:
return -1;
}
if (cred[i].type != VIR_CRED_EXTERNAL) {
if (STREQ(bufptr, "") && cred[i].defresult)
cred[i].result = strdup(cred[i].defresult);
else
cred[i].result = strdup(bufptr);
if (!cred[i].result)
return -1;
cred[i].resultlen = strlen(cred[i].result);
}
}
return 0;
}
/* Don't typically want VIR_CRED_USERNAME. It enables you to authenticate
* as one user, and act as another. It just results in annoying
* prompts for the username twice & is very rarely what you want
*/
static int virConnectCredTypeDefault[] = {
VIR_CRED_AUTHNAME,
VIR_CRED_ECHOPROMPT,
VIR_CRED_REALM,
VIR_CRED_PASSPHRASE,
VIR_CRED_NOECHOPROMPT,
VIR_CRED_EXTERNAL,
};
static virConnectAuth virConnectAuthDefault = {
virConnectCredTypeDefault,
sizeof(virConnectCredTypeDefault)/sizeof(int),
virConnectAuthCallbackDefault,
NULL,
};
/*
* virConnectAuthPtrDefault
*
* A default implementation of the authentication callbacks. This
* implementation is suitable for command line based tools. It will
* prompt for username, passwords, realm and one time keys as needed.
* It will print on STDOUT, and read from STDIN. If this is not
* suitable for the application's needs an alternative implementation
* should be provided.
*/
virConnectAuthPtr virConnectAuthPtrDefault = &virConnectAuthDefault;
#if HAVE_WINSOCK2_H
static int
winsock_init(void)
{
WORD winsock_version, err;
WSADATA winsock_data;
/* http://msdn2.microsoft.com/en-us/library/ms742213.aspx */
winsock_version = MAKEWORD (2, 2);
err = WSAStartup (winsock_version, &winsock_data);
return err == 0 ? 0 : -1;
}
#endif
static int virTLSMutexInit(void **priv)
{
virMutexPtr lock = NULL;
if (VIR_ALLOC(lock) < 0)
return ENOMEM;
if (virMutexInit(lock) < 0) {
VIR_FREE(lock);
return errno;
}
*priv = lock;
return 0;
}
static int virTLSMutexDestroy(void **priv)
{
virMutexPtr lock = *priv;
virMutexDestroy(lock);
VIR_FREE(lock);
return 0;
}
static int virTLSMutexLock(void **priv)
{
virMutexPtr lock = *priv;
virMutexLock(lock);
return 0;
}
static int virTLSMutexUnlock(void **priv)
{
virMutexPtr lock = *priv;
virMutexUnlock(lock);
return 0;
}
static struct gcry_thread_cbs virTLSThreadImpl = {
/* GCRY_THREAD_OPTION_VERSION was added in gcrypt 1.4.2 */
#ifdef GCRY_THREAD_OPTION_VERSION
(GCRY_THREAD_OPTION_PTHREAD | (GCRY_THREAD_OPTION_VERSION << 8)),
#else
GCRY_THREAD_OPTION_PTHREAD,
#endif
NULL,
virTLSMutexInit,
virTLSMutexDestroy,
virTLSMutexLock,
virTLSMutexUnlock,
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL
};
/* Helper macros to implement VIR_DOMAIN_DEBUG using just C99. This
* assumes you pass fewer than 15 arguments to VIR_DOMAIN_DEBUG, but
* can easily be expanded if needed.
*
* Note that gcc provides extensions of "define a(b...) b" or
* "define a(b,...) b,##__VA_ARGS__" as a means of eliding a comma
* when no var-args are present, but we don't want to require gcc.
*/
#define VIR_ARG15(_1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, _14, _15, ...) _15
#define VIR_HAS_COMMA(...) VIR_ARG15(__VA_ARGS__, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0)
/* Form the name VIR_DOMAIN_DEBUG_[01], then call that macro,
* according to how many arguments are present. Two-phase due to
* macro expansion rules. */
#define VIR_DOMAIN_DEBUG_EXPAND(a, b, ...) \
VIR_DOMAIN_DEBUG_PASTE(a, b, __VA_ARGS__)
#define VIR_DOMAIN_DEBUG_PASTE(a, b, ...) \
a##b(__VA_ARGS__)
/* Internal use only, when VIR_DOMAIN_DEBUG has one argument. */
#define VIR_DOMAIN_DEBUG_0(dom) \
VIR_DOMAIN_DEBUG_2(dom, "%s", "")
/* Internal use only, when VIR_DOMAIN_DEBUG has three or more arguments. */
#define VIR_DOMAIN_DEBUG_1(dom, fmt, ...) \
VIR_DOMAIN_DEBUG_2(dom, ", " fmt, __VA_ARGS__)
/* Internal use only, with final format. */
#define VIR_DOMAIN_DEBUG_2(dom, fmt, ...) \
do { \
char _uuidstr[VIR_UUID_STRING_BUFLEN]; \
const char *_domname = NULL; \
\
if (!VIR_IS_DOMAIN(dom)) { \
memset(_uuidstr, 0, sizeof(_uuidstr)); \
} else { \
virUUIDFormat((dom)->uuid, _uuidstr); \
_domname = (dom)->name; \
} \
\
VIR_DEBUG("dom=%p, (VM: name=%s, uuid=%s)" fmt, \
dom, NULLSTR(_domname), _uuidstr, __VA_ARGS__); \
} while (0)
/**
* VIR_DOMAIN_DEBUG:
* @dom: domain
* @fmt: optional format for additional information
* @...: optional arguments corresponding to @fmt.
*/
#define VIR_DOMAIN_DEBUG(...) \
VIR_DOMAIN_DEBUG_EXPAND(VIR_DOMAIN_DEBUG_, \
VIR_HAS_COMMA(__VA_ARGS__), \
__VA_ARGS__)
/**
* VIR_UUID_DEBUG:
* @conn: connection
* @uuid: possibly null UUID array
*/
#define VIR_UUID_DEBUG(conn, uuid) \
do { \
if (uuid) { \
char _uuidstr[VIR_UUID_STRING_BUFLEN]; \
virUUIDFormat(uuid, _uuidstr); \
VIR_DEBUG("conn=%p, uuid=%s", conn, _uuidstr); \
} else { \
VIR_DEBUG("conn=%p, uuid=(null)", conn); \
} \
} while (0)
static bool virGlobalError = false;
static virOnceControl virGlobalOnce = VIR_ONCE_CONTROL_INITIALIZER;
static void
virGlobalInit(void)
{
if (virThreadInitialize() < 0 ||
virErrorInitialize() < 0)
goto error;
gcry_control(GCRYCTL_SET_THREAD_CBS, &virTLSThreadImpl);
gcry_check_version(NULL);
virLogSetFromEnv();
virNetTLSInit();
#if HAVE_LIBCURL
curl_global_init(CURL_GLOBAL_DEFAULT);
#endif
VIR_DEBUG("register drivers");
#if HAVE_WINSOCK2_H
if (winsock_init() == -1)
goto error;
#endif
if (!bindtextdomain(PACKAGE, LOCALEDIR))
goto error;
/*
* Note that the order is important: the first ones have a higher
* priority when calling virConnectOpen.
*/
#ifdef WITH_TEST
if (testRegister() == -1)
goto error;
#endif
#ifdef WITH_OPENVZ
if (openvzRegister() == -1)
goto error;
#endif
#ifdef WITH_VMWARE
if (vmwareRegister() == -1)
goto error;
#endif
#ifdef WITH_PHYP
if (phypRegister() == -1)
goto error;
#endif
#ifdef WITH_VBOX
if (vboxRegister() == -1)
goto error;
#endif
#ifdef WITH_ESX
if (esxRegister() == -1)
goto error;
#endif
#ifdef WITH_HYPERV
if (hypervRegister() == -1)
goto error;
#endif
#ifdef WITH_XENAPI
if (xenapiRegister() == -1)
goto error;
#endif
#ifdef WITH_PARALLELS
if (parallelsRegister() == -1)
goto error;
#endif
#ifdef WITH_REMOTE
if (remoteRegister() == -1)
goto error;
#endif
return;
error:
virGlobalError = true;
}
/**
* virInitialize:
*
* Initialize the library.
*
* This method is invoked automatically by any of the virConnectOpen API
* calls. Since release 1.0.0, there is no need to call this method even
* in a multithreaded application, since initialization is performed in
* a thread safe manner.
*
* The only time it would be necessary to call virInitialize is if the
* application did not invoke virConnectOpen as its first API call.
*
* Returns 0 in case of success, -1 in case of error
*/
int
virInitialize(void)
{
if (virOnce(&virGlobalOnce, virGlobalInit) < 0)
return -1;
if (virGlobalError)
return -1;
return 0;
}
#ifdef WIN32
BOOL WINAPI
DllMain(HINSTANCE instance, DWORD reason, LPVOID ignore);
BOOL WINAPI
DllMain(HINSTANCE instance ATTRIBUTE_UNUSED,
DWORD reason,
LPVOID ignore ATTRIBUTE_UNUSED)
{
switch (reason) {
case DLL_PROCESS_ATTACH:
virInitialize();
break;
case DLL_THREAD_ATTACH:
/* Nothing todo in libvirt yet */
break;
case DLL_THREAD_DETACH:
/* Release per-thread local data */
virThreadOnExit();
break;
case DLL_PROCESS_DETACH:
/* Don't bother releasing per-thread data
since (hopefully) windows cleans up
everything on process exit */
break;
}
return TRUE;
}
#endif
#define virLibConnError(code, ...) \
virReportErrorHelper(VIR_FROM_NONE, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibDomainError(code, ...) \
virReportErrorHelper(VIR_FROM_DOM, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibNetworkError(code, ...) \
virReportErrorHelper(VIR_FROM_NETWORK, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibStoragePoolError(code, ...) \
virReportErrorHelper(VIR_FROM_STORAGE, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibStorageVolError(code, ...) \
virReportErrorHelper(VIR_FROM_STORAGE, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibInterfaceError(code, ...) \
virReportErrorHelper(VIR_FROM_INTERFACE, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibNodeDeviceError(code, ...) \
virReportErrorHelper(VIR_FROM_NODEDEV, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibSecretError(code, ...) \
virReportErrorHelper(VIR_FROM_SECRET, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibStreamError(code, ...) \
virReportErrorHelper(VIR_FROM_STREAMS, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibNWFilterError(code, ...) \
virReportErrorHelper(VIR_FROM_NWFILTER, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
#define virLibDomainSnapshotError(code, ...) \
virReportErrorHelper(VIR_FROM_DOMAIN_SNAPSHOT, code, __FILE__, \
__FUNCTION__, __LINE__, __VA_ARGS__)
/**
* virRegisterNetworkDriver:
* @driver: pointer to a network driver block
*
* Register a network virtualization driver
*
* Returns the driver priority or -1 in case of error.
*/
int
virRegisterNetworkDriver(virNetworkDriverPtr driver)
{
virCheckNonNullArgReturn(driver, -1);
if (virNetworkDriverTabCount >= MAX_DRIVERS) {
virLibConnError(VIR_ERR_INTERNAL_ERROR,
_("Too many drivers, cannot register %s"),
driver->name);
return -1;
}
VIR_DEBUG("registering %s as network driver %d",
driver->name, virNetworkDriverTabCount);
virNetworkDriverTab[virNetworkDriverTabCount] = driver;
return virNetworkDriverTabCount++;
}
/**
* virRegisterInterfaceDriver:
* @driver: pointer to an interface driver block
*
* Register an interface virtualization driver
*
* Returns the driver priority or -1 in case of error.
*/
int
virRegisterInterfaceDriver(virInterfaceDriverPtr driver)
{
virCheckNonNullArgReturn(driver, -1);
if (virInterfaceDriverTabCount >= MAX_DRIVERS) {
virLibConnError(VIR_ERR_INTERNAL_ERROR,
_("Too many drivers, cannot register %s"),
driver->name);
return -1;
}
VIR_DEBUG("registering %s as interface driver %d",
driver->name, virInterfaceDriverTabCount);
virInterfaceDriverTab[virInterfaceDriverTabCount] = driver;
return virInterfaceDriverTabCount++;
}
/**
* virRegisterStorageDriver:
* @driver: pointer to a storage driver block
*
* Register a storage virtualization driver
*
* Returns the driver priority or -1 in case of error.
*/
int
virRegisterStorageDriver(virStorageDriverPtr driver)
{
virCheckNonNullArgReturn(driver, -1);
if (virStorageDriverTabCount >= MAX_DRIVERS) {
virLibConnError(VIR_ERR_INTERNAL_ERROR,
_("Too many drivers, cannot register %s"),
driver->name);
return -1;
}
VIR_DEBUG("registering %s as storage driver %d",
driver->name, virStorageDriverTabCount);
virStorageDriverTab[virStorageDriverTabCount] = driver;
return virStorageDriverTabCount++;
}
/**
* virRegisterDeviceMonitor:
* @driver: pointer to a device monitor block
*
* Register a device monitor
*
* Returns the driver priority or -1 in case of error.
*/
int
virRegisterDeviceMonitor(virDeviceMonitorPtr driver)
{
virCheckNonNullArgReturn(driver, -1);
if (virDeviceMonitorTabCount >= MAX_DRIVERS) {
virLibConnError(VIR_ERR_INTERNAL_ERROR,
_("Too many drivers, cannot register %s"),
driver->name);
return -1;
}
VIR_DEBUG("registering %s as device driver %d",
driver->name, virDeviceMonitorTabCount);
virDeviceMonitorTab[virDeviceMonitorTabCount] = driver;
return virDeviceMonitorTabCount++;
}
/**
* virRegisterSecretDriver:
* @driver: pointer to a secret driver block
*
* Register a secret driver
*
* Returns the driver priority or -1 in case of error.
*/
int
virRegisterSecretDriver(virSecretDriverPtr driver)
{
virCheckNonNullArgReturn(driver, -1);
if (virSecretDriverTabCount >= MAX_DRIVERS) {
virLibConnError(VIR_ERR_INTERNAL_ERROR,
_("Too many drivers, cannot register %s"),
driver->name);
return -1;
}
VIR_DEBUG("registering %s as secret driver %d",
driver->name, virSecretDriverTabCount);
virSecretDriverTab[virSecretDriverTabCount] = driver;
return virSecretDriverTabCount++;
}
/**
* virRegisterNWFilterDriver:
* @driver: pointer to a network filter driver block
*
* Register a network filter virtualization driver
*
* Returns the driver priority or -1 in case of error.
*/
int
virRegisterNWFilterDriver(virNWFilterDriverPtr driver)
{
virCheckNonNullArgReturn(driver, -1);
if (virNWFilterDriverTabCount >= MAX_DRIVERS) {
virLibConnError(VIR_ERR_INTERNAL_ERROR,
_("Too many drivers, cannot register %s"),
driver->name);
return -1;
}
VIR_DEBUG("registering %s as network filter driver %d",
driver->name, virNWFilterDriverTabCount);
virNWFilterDriverTab[virNWFilterDriverTabCount] = driver;
return virNWFilterDriverTabCount++;
}
/**
* virRegisterDriver:
* @driver: pointer to a driver block
*
* Register a virtualization driver
*
* Returns the driver priority or -1 in case of error.
*/
int
virRegisterDriver(virDriverPtr driver)
{
VIR_DEBUG("driver=%p name=%s", driver, driver ? NULLSTR(driver->name) : "(null)");
virCheckNonNullArgReturn(driver, -1);
if (virDriverTabCount >= MAX_DRIVERS) {
virLibConnError(VIR_ERR_INTERNAL_ERROR,
_("Too many drivers, cannot register %s"),
driver->name);
return -1;
}
VIR_DEBUG("registering %s as driver %d",
driver->name, virDriverTabCount);
virDriverTab[virDriverTabCount] = driver;
return virDriverTabCount++;
}
#ifdef WITH_LIBVIRTD
/**
* virRegisterStateDriver:
* @driver: pointer to a driver block
*
* Register a virtualization driver
*
* Returns the driver priority or -1 in case of error.
*/
int
virRegisterStateDriver(virStateDriverPtr driver)
{
virCheckNonNullArgReturn(driver, -1);
if (virStateDriverTabCount >= MAX_DRIVERS) {
virLibConnError(VIR_ERR_INTERNAL_ERROR,
_("Too many drivers, cannot register %s"),
driver->name);
return -1;
}
virStateDriverTab[virStateDriverTabCount] = driver;
return virStateDriverTabCount++;
}
/**
* virStateInitialize:
* @privileged: set to 1 if running with root privilege, 0 otherwise
*
* Initialize all virtualization drivers.
*
* Returns 0 if all succeed, -1 upon any failure.
*/
int virStateInitialize(int privileged) {
int i;
if (virInitialize() < 0)
return -1;
for (i = 0 ; i < virStateDriverTabCount ; i++) {
if (virStateDriverTab[i]->initialize) {
VIR_DEBUG("Running global init for %s state driver",
virStateDriverTab[i]->name);
if (virStateDriverTab[i]->initialize(privileged) < 0) {
VIR_ERROR(_("Initialization of %s state driver failed"),
virStateDriverTab[i]->name);
return -1;
}
}
}
return 0;
}
/**
* virStateCleanup:
*
* Run each virtualization driver's cleanup method.
*
* Returns 0 if all succeed, -1 upon any failure.
*/
int virStateCleanup(void) {
int i, ret = 0;
for (i = 0 ; i < virStateDriverTabCount ; i++) {
if (virStateDriverTab[i]->cleanup &&
virStateDriverTab[i]->cleanup() < 0)
ret = -1;
}
return ret;
}
/**
* virStateReload:
*
* Run each virtualization driver's reload method.
*
* Returns 0 if all succeed, -1 upon any failure.
*/
int virStateReload(void) {
int i, ret = 0;
for (i = 0 ; i < virStateDriverTabCount ; i++) {
if (virStateDriverTab[i]->reload &&
virStateDriverTab[i]->reload() < 0)
ret = -1;
}
return ret;
}
/**
* virStateActive:
*
* Run each virtualization driver's "active" method.
*
* Returns 0 if none are active, 1 if at least one is.
*/
int virStateActive(void) {
int i, ret = 0;
for (i = 0 ; i < virStateDriverTabCount ; i++) {
if (virStateDriverTab[i]->active &&
virStateDriverTab[i]->active())
ret = 1;
}
return ret;
}
#endif
/**
* virGetVersion:
* @libVer: return value for the library version (OUT)
* @type: ignored; pass NULL
* @typeVer: pass NULL; for historical purposes duplicates @libVer if
* non-NULL
*
* Provides version information. @libVer is the version of the
* library and will always be set unless an error occurs, in which case
* an error code will be returned. @typeVer exists for historical
* compatibility; if it is not NULL it will duplicate @libVer (it was
* originally intended to return hypervisor information based on @type,
* but due to the design of remote clients this is not reliable). To
* get the version of the running hypervisor use the virConnectGetVersion
* function instead. To get the libvirt library version used by a
* connection use the virConnectGetLibVersion instead.
*
* Returns -1 in case of failure, 0 otherwise, and values for @libVer and
* @typeVer have the format major * 1,000,000 + minor * 1,000 + release.
*/
int
virGetVersion(unsigned long *libVer, const char *type ATTRIBUTE_UNUSED,
unsigned long *typeVer)
{
VIR_DEBUG("libVir=%p, type=%s, typeVer=%p", libVer, type, typeVer);
if (virInitialize() < 0)
goto error;
if (libVer == NULL)
goto error;
*libVer = LIBVIR_VERSION_NUMBER;
if (typeVer != NULL)
*typeVer = LIBVIR_VERSION_NUMBER;
return 0;
error:
virDispatchError(NULL);
return -1;
}
static char *
virConnectGetConfigFilePath(void)
{
char *path;
if (geteuid() == 0) {
if (virAsprintf(&path, "%s/libvirt/libvirt.conf",
SYSCONFDIR) < 0)
goto no_memory;
} else {
char *userdir = virGetUserConfigDirectory();
if (!userdir)
goto error;
if (virAsprintf(&path, "%s/libvirt.conf",
userdir) < 0) {
VIR_FREE(userdir);
goto no_memory;
}
VIR_FREE(userdir);
}
return path;
no_memory:
virReportOOMError();
error:
return NULL;
}
static int
virConnectGetConfigFile(virConfPtr *conf)
{
char *filename = NULL;
int ret = -1;
*conf = NULL;
if (!(filename = virConnectGetConfigFilePath()))
goto cleanup;
if (!virFileExists(filename)) {
ret = 0;
goto cleanup;
}
VIR_DEBUG("Loading config file '%s'", filename);
if (!(*conf = virConfReadFile(filename, 0)))
goto cleanup;
ret = 0;
cleanup:
VIR_FREE(filename);
return ret;
}
#define URI_ALIAS_CHARS "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789_-"
static int
virConnectOpenFindURIAliasMatch(virConfValuePtr value, const char *alias, char **uri)
{
virConfValuePtr entry;
size_t alias_len;
if (value->type != VIR_CONF_LIST) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("Expected a list for 'uri_aliases' config parameter"));
return -1;
}
entry = value->list;
alias_len = strlen(alias);
while (entry) {
char *offset;
size_t safe;
if (entry->type != VIR_CONF_STRING) {
virLibConnError(VIR_ERR_CONF_SYNTAX, "%s",
_("Expected a string for 'uri_aliases' config parameter list entry"));
return -1;
}
if (!(offset = strchr(entry->str, '='))) {
virLibConnError(VIR_ERR_CONF_SYNTAX,
_("Malformed 'uri_aliases' config entry '%s', expected 'alias=uri://host/path'"),
entry->str);
return -1;
}
safe = strspn(entry->str, URI_ALIAS_CHARS);
if (safe < (offset - entry->str)) {
virLibConnError(VIR_ERR_CONF_SYNTAX,
_("Malformed 'uri_aliases' config entry '%s', aliases may only contain 'a-Z, 0-9, _, -'"),
entry->str);
return -1;
}
if (alias_len == (offset - entry->str) &&
STREQLEN(entry->str, alias, alias_len)) {
VIR_DEBUG("Resolved alias '%s' to '%s'",
alias, offset+1);
if (!(*uri = strdup(offset+1))) {
virReportOOMError();
return -1;
}
return 0;
}
entry = entry->next;
}
VIR_DEBUG("No alias found for '%s', passing through to drivers",
alias);
return 0;
}
static int
virConnectOpenResolveURIAlias(virConfPtr conf,
const char *alias, char **uri)
{
int ret = -1;
virConfValuePtr value = NULL;
*uri = NULL;
if ((value = virConfGetValue(conf, "uri_aliases")))
ret = virConnectOpenFindURIAliasMatch(value, alias, uri);
else
ret = 0;
return ret;
}
static int
virConnectGetDefaultURI(virConfPtr conf,
const char **name)
{
int ret = -1;
virConfValuePtr value = NULL;
char *defname = getenv("LIBVIRT_DEFAULT_URI");
if (defname && *defname) {
VIR_DEBUG("Using LIBVIRT_DEFAULT_URI '%s'", defname);
*name = defname;
} else if ((value = virConfGetValue(conf, "uri_default"))) {
if (value->type != VIR_CONF_STRING) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("Expected a string for 'uri_default' config parameter"));
goto cleanup;
}
VIR_DEBUG("Using config file uri '%s'", value->str);
*name = value->str;
}
ret = 0;
cleanup:
return ret;
}
static virConnectPtr
do_open(const char *name,
virConnectAuthPtr auth,
unsigned int flags)
{
int i, res;
virConnectPtr ret;
virConfPtr conf = NULL;
virResetLastError();
ret = virGetConnect();
if (ret == NULL)
return NULL;
if (virConnectGetConfigFile(&conf) < 0)
goto failed;
if (name && name[0] == '\0')
name = NULL;
/*
* If no URI is passed, then check for an environment string if not
* available probe the compiled in drivers to find a default hypervisor
* if detectable.
*/
if (!name &&
virConnectGetDefaultURI(conf, &name) < 0)
goto failed;
if (name) {
char *alias = NULL;
/* Convert xen -> xen:/// for back compat */
if (STRCASEEQ(name, "xen"))
name = "xen:///";
/* Convert xen:// -> xen:/// because xmlParseURI cannot parse the
* former. This allows URIs such as xen://localhost to work.
*/
if (STREQ(name, "xen://"))
name = "xen:///";
if (!(flags & VIR_CONNECT_NO_ALIASES) &&
virConnectOpenResolveURIAlias(conf, name, &alias) < 0)
goto failed;
if (!(ret->uri = virURIParse(alias ? alias : name))) {
VIR_FREE(alias);
goto failed;
}
VIR_DEBUG("name \"%s\" to URI components:\n"
" scheme %s\n"
" server %s\n"
" user %s\n"
" port %d\n"
" path %s\n",
alias ? alias : name,
NULLSTR(ret->uri->scheme), NULLSTR(ret->uri->server),
NULLSTR(ret->uri->user), ret->uri->port,
NULLSTR(ret->uri->path));
VIR_FREE(alias);
} else {
VIR_DEBUG("no name, allowing driver auto-select");
}
/* Cleansing flags */
ret->flags = flags & VIR_CONNECT_RO;
for (i = 0; i < virDriverTabCount; i++) {
/* We're going to probe the remote driver next. So we have already
* probed all other client-side-only driver before, but none of them
* accepted the URI.
* If the scheme corresponds to a known but disabled client-side-only
* driver then report a useful error, instead of a cryptic one about
* not being able to connect to libvirtd or not being able to find
* certificates. */
if (virDriverTab[i]->no == VIR_DRV_REMOTE &&
ret->uri != NULL && ret->uri->scheme != NULL &&
(
#ifndef WITH_PHYP
STRCASEEQ(ret->uri->scheme, "phyp") ||
#endif
#ifndef WITH_ESX
STRCASEEQ(ret->uri->scheme, "vpx") ||
STRCASEEQ(ret->uri->scheme, "esx") ||
STRCASEEQ(ret->uri->scheme, "gsx") ||
#endif
#ifndef WITH_HYPERV
STRCASEEQ(ret->uri->scheme, "hyperv") ||
#endif
#ifndef WITH_XENAPI
STRCASEEQ(ret->uri->scheme, "xenapi") ||
#endif
#ifndef WITH_PARALLELS
STRCASEEQ(ret->uri->scheme, "parallels") ||
#endif
false)) {
virReportErrorHelper(VIR_FROM_NONE, VIR_ERR_CONFIG_UNSUPPORTED,
__FILE__, __FUNCTION__, __LINE__,
_("libvirt was built without the '%s' driver"),
ret->uri->scheme);
goto failed;
}
VIR_DEBUG("trying driver %d (%s) ...",
i, virDriverTab[i]->name);
res = virDriverTab[i]->open(ret, auth, flags);
VIR_DEBUG("driver %d %s returned %s",
i, virDriverTab[i]->name,
res == VIR_DRV_OPEN_SUCCESS ? "SUCCESS" :
(res == VIR_DRV_OPEN_DECLINED ? "DECLINED" :
(res == VIR_DRV_OPEN_ERROR ? "ERROR" : "unknown status")));
if (res == VIR_DRV_OPEN_ERROR) goto failed;
else if (res == VIR_DRV_OPEN_SUCCESS) {
ret->driver = virDriverTab[i];
break;
}
}
if (!ret->driver) {
/* If we reach here, then all drivers declined the connection. */
virLibConnError(VIR_ERR_NO_CONNECT,
_("No connection for URI %s"),
NULLSTR(name));
goto failed;
}
for (i = 0; i < virNetworkDriverTabCount; i++) {
res = virNetworkDriverTab[i]->open(ret, auth, flags);
VIR_DEBUG("network driver %d %s returned %s",
i, virNetworkDriverTab[i]->name,
res == VIR_DRV_OPEN_SUCCESS ? "SUCCESS" :
(res == VIR_DRV_OPEN_DECLINED ? "DECLINED" :
(res == VIR_DRV_OPEN_ERROR ? "ERROR" : "unknown status")));
if (res == VIR_DRV_OPEN_ERROR) {
break;
} else if (res == VIR_DRV_OPEN_SUCCESS) {
ret->networkDriver = virNetworkDriverTab[i];
break;
}
}
for (i = 0; i < virInterfaceDriverTabCount; i++) {
res = virInterfaceDriverTab[i]->open(ret, auth, flags);
VIR_DEBUG("interface driver %d %s returned %s",
i, virInterfaceDriverTab[i]->name,
res == VIR_DRV_OPEN_SUCCESS ? "SUCCESS" :
(res == VIR_DRV_OPEN_DECLINED ? "DECLINED" :
(res == VIR_DRV_OPEN_ERROR ? "ERROR" : "unknown status")));
if (res == VIR_DRV_OPEN_ERROR) {
break;
} else if (res == VIR_DRV_OPEN_SUCCESS) {
ret->interfaceDriver = virInterfaceDriverTab[i];
break;
}
}
/* Secondary driver for storage. Optional */
for (i = 0; i < virStorageDriverTabCount; i++) {
res = virStorageDriverTab[i]->open(ret, auth, flags);
VIR_DEBUG("storage driver %d %s returned %s",
i, virStorageDriverTab[i]->name,
res == VIR_DRV_OPEN_SUCCESS ? "SUCCESS" :
(res == VIR_DRV_OPEN_DECLINED ? "DECLINED" :
(res == VIR_DRV_OPEN_ERROR ? "ERROR" : "unknown status")));
if (res == VIR_DRV_OPEN_ERROR) {
break;
} else if (res == VIR_DRV_OPEN_SUCCESS) {
ret->storageDriver = virStorageDriverTab[i];
break;
}
}
/* Node driver (optional) */
for (i = 0; i < virDeviceMonitorTabCount; i++) {
res = virDeviceMonitorTab[i]->open(ret, auth, flags);
VIR_DEBUG("node driver %d %s returned %s",
i, virDeviceMonitorTab[i]->name,
res == VIR_DRV_OPEN_SUCCESS ? "SUCCESS" :
(res == VIR_DRV_OPEN_DECLINED ? "DECLINED" :
(res == VIR_DRV_OPEN_ERROR ? "ERROR" : "unknown status")));
if (res == VIR_DRV_OPEN_ERROR) {
break;
} else if (res == VIR_DRV_OPEN_SUCCESS) {
ret->deviceMonitor = virDeviceMonitorTab[i];
break;
}
}
/* Secret manipulation driver. Optional */
for (i = 0; i < virSecretDriverTabCount; i++) {
res = virSecretDriverTab[i]->open(ret, auth, flags);
VIR_DEBUG("secret driver %d %s returned %s",
i, virSecretDriverTab[i]->name,
res == VIR_DRV_OPEN_SUCCESS ? "SUCCESS" :
(res == VIR_DRV_OPEN_DECLINED ? "DECLINED" :
(res == VIR_DRV_OPEN_ERROR ? "ERROR" : "unknown status")));
if (res == VIR_DRV_OPEN_ERROR) {
break;
} else if (res == VIR_DRV_OPEN_SUCCESS) {
ret->secretDriver = virSecretDriverTab[i];
break;
}
}
/* Network filter driver. Optional */
for (i = 0; i < virNWFilterDriverTabCount; i++) {
res = virNWFilterDriverTab[i]->open(ret, auth, flags);
VIR_DEBUG("nwfilter driver %d %s returned %s",
i, virNWFilterDriverTab[i]->name,
res == VIR_DRV_OPEN_SUCCESS ? "SUCCESS" :
(res == VIR_DRV_OPEN_DECLINED ? "DECLINED" :
(res == VIR_DRV_OPEN_ERROR ? "ERROR" : "unknown status")));
if (res == VIR_DRV_OPEN_ERROR) {
break;
} else if (res == VIR_DRV_OPEN_SUCCESS) {
ret->nwfilterDriver = virNWFilterDriverTab[i];
break;
}
}
virConfFree(conf);
return ret;
failed:
virConfFree(conf);
virObjectUnref(ret);
return NULL;
}
/**
* virConnectOpen:
* @name: URI of the hypervisor
*
* This function should be called first to get a connection to the
* Hypervisor and xen store
*
* Returns a pointer to the hypervisor connection or NULL in case of error
*
* If @name is NULL, if the LIBVIRT_DEFAULT_URI environment variable is set,
* then it will be used. Otherwise if the client configuration file
* has the "uri_default" parameter set, then it will be used. Finally
* probing will be done to determine a suitable default driver to activate.
* This involves trying each hypervisor in turn until one successfully opens.
*
* If connecting to an unprivileged hypervisor driver which requires
* the libvirtd daemon to be active, it will automatically be launched
* if not already running. This can be prevented by setting the
* environment variable LIBVIRT_AUTOSTART=0
*
* URIs are documented at http://libvirt.org/uri.html
*/
virConnectPtr
virConnectOpen(const char *name)
{
virConnectPtr ret = NULL;
if (virInitialize() < 0)
goto error;
VIR_DEBUG("name=%s", name);
virResetLastError();
ret = do_open(name, NULL, 0);
if (!ret)
goto error;
return ret;
error:
virDispatchError(NULL);
return NULL;
}
/**
* virConnectOpenReadOnly:
* @name: URI of the hypervisor
*
* This function should be called first to get a restricted connection to the
* library functionalities. The set of APIs usable are then restricted
* on the available methods to control the domains.
*
* See virConnectOpen for notes about environment variables which can
* have an effect on opening drivers
*
* Returns a pointer to the hypervisor connection or NULL in case of error
*
* URIs are documented at http://libvirt.org/uri.html
*/
virConnectPtr
virConnectOpenReadOnly(const char *name)
{
virConnectPtr ret = NULL;
if (virInitialize() < 0)
goto error;
VIR_DEBUG("name=%s", name);
virResetLastError();
ret = do_open(name, NULL, VIR_CONNECT_RO);
if (!ret)
goto error;
return ret;
error:
virDispatchError(NULL);
return NULL;
}
/**
* virConnectOpenAuth:
* @name: URI of the hypervisor
* @auth: Authenticate callback parameters
* @flags: bitwise-OR of virConnectFlags
*
* This function should be called first to get a connection to the
* Hypervisor. If necessary, authentication will be performed fetching
* credentials via the callback
*
* See virConnectOpen for notes about environment variables which can
* have an effect on opening drivers
*
* Returns a pointer to the hypervisor connection or NULL in case of error
*
* URIs are documented at http://libvirt.org/uri.html
*/
virConnectPtr
virConnectOpenAuth(const char *name,
virConnectAuthPtr auth,
unsigned int flags)
{
virConnectPtr ret = NULL;
if (virInitialize() < 0)
goto error;
VIR_DEBUG("name=%s, auth=%p, flags=%x", NULLSTR(name), auth, flags);
virResetLastError();
ret = do_open(name, auth, flags);
if (!ret)
goto error;
return ret;
error:
virDispatchError(NULL);
return NULL;
}
/**
* virConnectClose:
* @conn: pointer to the hypervisor connection
*
* This function closes the connection to the Hypervisor. This should
* not be called if further interaction with the Hypervisor are needed
* especially if there is running domain which need further monitoring by
* the application.
*
* Connections are reference counted; the count is explicitly
* increased by the initial open (virConnectOpen, virConnectOpenAuth,
* and the like) as well as virConnectRef; it is also temporarily
* increased by other API that depend on the connection remaining
* alive. The open and every virConnectRef call should have a
* matching virConnectClose, and all other references will be released
* after the corresponding operation completes.
*
* Returns a positive number if at least 1 reference remains on
* success. The returned value should not be assumed to be the total
* reference count. A return of 0 implies no references remain and
* the connection is closed and memory has been freed. A return of -1
* implies a failure.
*
* It is possible for the last virConnectClose to return a positive
* value if some other object still has a temporary reference to the
* connection, but the application should not try to further use a
* connection after the virConnectClose that matches the initial open.
*/
int
virConnectClose(virConnectPtr conn)
{
int ret = -1;
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
goto error;
}
if (!virObjectUnref(conn))
return 0;
return 1;
error:
virDispatchError(NULL);
return ret;
}
/**
* virConnectRef:
* @conn: the connection to hold a reference on
*
* Increment the reference count on the connection. For each
* additional call to this method, there shall be a corresponding
* call to virConnectClose to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection remain open until all threads have finished using
* it. ie, each new thread using a connection would increment
* the reference count.
*
* Returns 0 in case of success, -1 in case of failure
*/
int
virConnectRef(virConnectPtr conn)
{
if ((!VIR_IS_CONNECT(conn))) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("conn=%p refs=%d", conn, conn->object.refs);
virObjectRef(conn);
return 0;
}
/*
* Not for public use. This function is part of the internal
* implementation of driver features in the remote case.
*/
int
virDrvSupportsFeature(virConnectPtr conn, int feature)
{
int ret;
VIR_DEBUG("conn=%p, feature=%d", conn, feature);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (!conn->driver->supports_feature)
ret = 0;
else
ret = conn->driver->supports_feature(conn, feature);
if (ret < 0)
virDispatchError(conn);
return ret;
}
/**
* virConnectGetType:
* @conn: pointer to the hypervisor connection
*
* Get the name of the Hypervisor software used.
*
* Returns NULL in case of error, a static zero terminated string otherwise.
*
* See also:
* http://www.redhat.com/archives/libvir-list/2007-February/msg00096.html
*/
const char *
virConnectGetType(virConnectPtr conn)
{
const char *ret;
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->driver->type) {
ret = conn->driver->type(conn);
if (ret) return ret;
}
return conn->driver->name;
}
/**
* virConnectGetVersion:
* @conn: pointer to the hypervisor connection
* @hvVer: return value for the version of the running hypervisor (OUT)
*
* Get the version level of the Hypervisor running. This may work only with
* hypervisor call, i.e. with privileged access to the hypervisor, not
* with a Read-Only connection.
*
* Returns -1 in case of error, 0 otherwise. if the version can't be
* extracted by lack of capacities returns 0 and @hvVer is 0, otherwise
* @hvVer value is major * 1,000,000 + minor * 1,000 + release
*/
int
virConnectGetVersion(virConnectPtr conn, unsigned long *hvVer)
{
VIR_DEBUG("conn=%p, hvVer=%p", conn, hvVer);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(hvVer, error);
if (conn->driver->version) {
int ret = conn->driver->version(conn, hvVer);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectGetLibVersion:
* @conn: pointer to the hypervisor connection
* @libVer: returns the libvirt library version used on the connection (OUT)
*
* Provides @libVer, which is the version of libvirt used by the
* daemon running on the @conn host
*
* Returns -1 in case of failure, 0 otherwise, and values for @libVer have
* the format major * 1,000,000 + minor * 1,000 + release.
*/
int
virConnectGetLibVersion(virConnectPtr conn, unsigned long *libVer)
{
int ret = -1;
VIR_DEBUG("conn=%p, libVir=%p", conn, libVer);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(libVer, error);
if (conn->driver->libvirtVersion) {
ret = conn->driver->libvirtVersion(conn, libVer);
if (ret < 0)
goto error;
return ret;
}
*libVer = LIBVIR_VERSION_NUMBER;
return 0;
error:
virDispatchError(conn);
return ret;
}
/**
* virConnectGetHostname:
* @conn: pointer to a hypervisor connection
*
* This returns the system hostname on which the hypervisor is
* running (the result of the gethostname system call). If
* we are connected to a remote system, then this returns the
* hostname of the remote system.
*
* Returns the hostname which must be freed by the caller, or
* NULL if there was an error.
*/
char *
virConnectGetHostname(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->driver->getHostname) {
char *ret = conn->driver->getHostname(conn);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virConnectGetURI:
* @conn: pointer to a hypervisor connection
*
* This returns the URI (name) of the hypervisor connection.
* Normally this is the same as or similar to the string passed
* to the virConnectOpen/virConnectOpenReadOnly call, but
* the driver may make the URI canonical. If name == NULL
* was passed to virConnectOpen, then the driver will return
* a non-NULL URI which can be used to connect to the same
* hypervisor later.
*
* Returns the URI string which must be freed by the caller, or
* NULL if there was an error.
*/
char *
virConnectGetURI(virConnectPtr conn)
{
char *name;
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (!(name = virURIFormat(conn->uri)))
goto error;
return name;
error:
virDispatchError(conn);
return NULL;
}
/**
* virConnectGetSysinfo:
* @conn: pointer to a hypervisor connection
* @flags: extra flags; not used yet, so callers should always pass 0
*
* This returns the XML description of the sysinfo details for the
* host on which the hypervisor is running, in the same format as the
* <sysinfo> element of a domain XML. This information is generally
* available only for hypervisors running with root privileges.
*
* Returns the XML string which must be freed by the caller, or
* NULL if there was an error.
*/
char *
virConnectGetSysinfo(virConnectPtr conn, unsigned int flags)
{
VIR_DEBUG("conn=%p, flags=%x", conn, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->driver->getSysinfo) {
char *ret = conn->driver->getSysinfo(conn, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virConnectGetMaxVcpus:
* @conn: pointer to the hypervisor connection
* @type: value of the 'type' attribute in the <domain> element
*
* Provides the maximum number of virtual CPUs supported for a guest VM of a
* specific type. The 'type' parameter here corresponds to the 'type'
* attribute in the <domain> element of the XML.
*
* Returns the maximum of virtual CPU or -1 in case of error.
*/
int
virConnectGetMaxVcpus(virConnectPtr conn,
const char *type)
{
VIR_DEBUG("conn=%p, type=%s", conn, type);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->getMaxVcpus) {
int ret = conn->driver->getMaxVcpus(conn, type);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListDomains:
* @conn: pointer to the hypervisor connection
* @ids: array to collect the list of IDs of active domains
* @maxids: size of @ids
*
* Collect the list of active domains, and store their IDs in array @ids
*
* For inactive domains, see virConnectListDefinedDomains(). For more
* control over the results, see virConnectListAllDomains().
*
* Returns the number of domains found or -1 in case of error. Note that
* this command is inherently racy; a domain can be started between a
* call to virConnectNumOfDomains() and this call; you are only guaranteed
* that all currently active domains were listed if the return is less
* than @maxids.
*/
int
virConnectListDomains(virConnectPtr conn, int *ids, int maxids)
{
VIR_DEBUG("conn=%p, ids=%p, maxids=%d", conn, ids, maxids);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(ids, error);
virCheckNonNegativeArgGoto(maxids, error);
if (conn->driver->listDomains) {
int ret = conn->driver->listDomains(conn, ids, maxids);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectNumOfDomains:
* @conn: pointer to the hypervisor connection
*
* Provides the number of active domains.
*
* Returns the number of domain found or -1 in case of error
*/
int
virConnectNumOfDomains(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->numOfDomains) {
int ret = conn->driver->numOfDomains(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainGetConnect:
* @dom: pointer to a domain
*
* Provides the connection pointer associated with a domain. The
* reference counter on the connection is not increased by this
* call.
*
* WARNING: When writing libvirt bindings in other languages, do
* not use this function. Instead, store the connection and
* the domain object together.
*
* Returns the virConnectPtr or NULL in case of failure.
*/
virConnectPtr
virDomainGetConnect(virDomainPtr dom)
{
VIR_DOMAIN_DEBUG(dom);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return dom->conn;
}
/**
* virDomainCreateXML:
* @conn: pointer to the hypervisor connection
* @xmlDesc: string containing an XML description of the domain
* @flags: bitwise-OR of supported virDomainCreateFlags
*
* Launch a new guest domain, based on an XML description similar
* to the one returned by virDomainGetXMLDesc()
* This function may require privileged access to the hypervisor.
* The domain is not persistent, so its definition will disappear when it
* is destroyed, or if the host is restarted (see virDomainDefineXML() to
* define persistent domains).
*
* If the VIR_DOMAIN_START_PAUSED flag is set, the guest domain
* will be started, but its CPUs will remain paused. The CPUs
* can later be manually started using virDomainResume.
*
* If the VIR_DOMAIN_START_AUTODESTROY flag is set, the guest
* domain will be automatically destroyed when the virConnectPtr
* object is finally released. This will also happen if the
* client application crashes / loses its connection to the
* libvirtd daemon. Any domains marked for auto destroy will
* block attempts at migration, save-to-file, or snapshots.
*
* Returns a new domain object or NULL in case of failure
*/
virDomainPtr
virDomainCreateXML(virConnectPtr conn, const char *xmlDesc,
unsigned int flags)
{
VIR_DEBUG("conn=%p, xmlDesc=%s, flags=%x", conn, xmlDesc, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(xmlDesc, error);
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainCreateXML) {
virDomainPtr ret;
ret = conn->driver->domainCreateXML(conn, xmlDesc, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainCreateLinux:
* @conn: pointer to the hypervisor connection
* @xmlDesc: string containing an XML description of the domain
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Deprecated after 0.4.6.
* Renamed to virDomainCreateXML() providing identical functionality.
* This existing name will left indefinitely for API compatibility.
*
* Returns a new domain object or NULL in case of failure
*/
virDomainPtr
virDomainCreateLinux(virConnectPtr conn, const char *xmlDesc,
unsigned int flags)
{
return virDomainCreateXML(conn, xmlDesc, flags);
}
/**
* virDomainLookupByID:
* @conn: pointer to the hypervisor connection
* @id: the domain ID number
*
* Try to find a domain based on the hypervisor ID number
* Note that this won't work for inactive domains which have an ID of -1,
* in that case a lookup based on the Name or UUId need to be done instead.
*
* Returns a new domain object or NULL in case of failure. If the
* domain cannot be found, then VIR_ERR_NO_DOMAIN error is raised.
*/
virDomainPtr
virDomainLookupByID(virConnectPtr conn, int id)
{
VIR_DEBUG("conn=%p, id=%d", conn, id);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNegativeArgGoto(id, error);
if (conn->driver->domainLookupByID) {
virDomainPtr ret;
ret = conn->driver->domainLookupByID(conn, id);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainLookupByUUID:
* @conn: pointer to the hypervisor connection
* @uuid: the raw UUID for the domain
*
* Try to lookup a domain on the given hypervisor based on its UUID.
*
* Returns a new domain object or NULL in case of failure. If the
* domain cannot be found, then VIR_ERR_NO_DOMAIN error is raised.
*/
virDomainPtr
virDomainLookupByUUID(virConnectPtr conn, const unsigned char *uuid)
{
VIR_UUID_DEBUG(conn, uuid);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuid, error);
if (conn->driver->domainLookupByUUID) {
virDomainPtr ret;
ret = conn->driver->domainLookupByUUID(conn, uuid);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainLookupByUUIDString:
* @conn: pointer to the hypervisor connection
* @uuidstr: the string UUID for the domain
*
* Try to lookup a domain on the given hypervisor based on its UUID.
*
* Returns a new domain object or NULL in case of failure. If the
* domain cannot be found, then VIR_ERR_NO_DOMAIN error is raised.
*/
virDomainPtr
virDomainLookupByUUIDString(virConnectPtr conn, const char *uuidstr)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("conn=%p, uuidstr=%s", conn, NULLSTR(uuidstr));
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuidstr, error);
if (virUUIDParse(uuidstr, uuid) < 0) {
virReportInvalidArg(uuidstr,
_("uuidstr in %s must be a valid UUID"),
__FUNCTION__);
goto error;
}
return virDomainLookupByUUID(conn, &uuid[0]);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainLookupByName:
* @conn: pointer to the hypervisor connection
* @name: name for the domain
*
* Try to lookup a domain on the given hypervisor based on its name.
*
* Returns a new domain object or NULL in case of failure. If the
* domain cannot be found, then VIR_ERR_NO_DOMAIN error is raised.
*/
virDomainPtr
virDomainLookupByName(virConnectPtr conn, const char *name)
{
VIR_DEBUG("conn=%p, name=%s", conn, name);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(name, error);
if (conn->driver->domainLookupByName) {
virDomainPtr dom;
dom = conn->driver->domainLookupByName(conn, name);
if (!dom)
goto error;
return dom;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainDestroy:
* @domain: a domain object
*
* Destroy the domain object. The running instance is shutdown if not down
* already and all resources used by it are given back to the hypervisor. This
* does not free the associated virDomainPtr object.
* This function may require privileged access.
*
* virDomainDestroy first requests that a guest terminate
* (e.g. SIGTERM), then waits for it to comply. After a reasonable
* timeout, if the guest still exists, virDomainDestroy will
* forcefully terminate the guest (e.g. SIGKILL) if necessary (which
* may produce undesirable results, for example unflushed disk cache
* in the guest). To avoid this possibility, it's recommended to
* instead call virDomainDestroyFlags, sending the
* VIR_DOMAIN_DESTROY_GRACEFUL flag.
*
* If the domain is transient and has any snapshot metadata (see
* virDomainSnapshotNum()), then that metadata will automatically
* be deleted when the domain quits.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainDestroy(virDomainPtr domain)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainDestroy) {
int ret;
ret = conn->driver->domainDestroy(domain);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainDestroyFlags:
* @domain: a domain object
* @flags: bitwise-OR of virDomainDestroyFlagsValues
*
* Destroy the domain object. The running instance is shutdown if not down
* already and all resources used by it are given back to the hypervisor.
* This does not free the associated virDomainPtr object.
* This function may require privileged access.
*
* Calling this function with no @flags set (equal to zero) is
* equivalent to calling virDomainDestroy, and after a reasonable
* timeout will forcefully terminate the guest (e.g. SIGKILL) if
* necessary (which may produce undesirable results, for example
* unflushed disk cache in the guest). Including
* VIR_DOMAIN_DESTROY_GRACEFUL in the flags will prevent the forceful
* termination of the guest, and virDomainDestroyFlags will instead
* return an error if the guest doesn't terminate by the end of the
* timeout; at that time, the management application can decide if
* calling again without VIR_DOMAIN_DESTROY_GRACEFUL is appropriate.
*
* Another alternative which may produce cleaner results for the
* guest's disks is to use virDomainShutdown() instead, but that
* depends on guest support (some hypervisor/guest combinations may
* ignore the shutdown request).
*
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainDestroyFlags(virDomainPtr domain,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainDestroyFlags) {
int ret;
ret = conn->driver->domainDestroyFlags(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainFree:
* @domain: a domain object
*
* Free the domain object. The running instance is kept alive.
* The data structure is freed and should not be used thereafter.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainFree(virDomainPtr domain)
{
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(domain);
return 0;
}
/**
* virDomainRef:
* @domain: the domain to hold a reference on
*
* Increment the reference count on the domain. For each
* additional call to this method, there shall be a corresponding
* call to virDomainFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection remain open until all threads have finished using
* it. ie, each new thread using a domain would increment
* the reference count.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainRef(virDomainPtr domain)
{
if ((!VIR_IS_CONNECTED_DOMAIN(domain))) {
virLibConnError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DOMAIN_DEBUG(domain, "refs=%d", domain->object.refs);
virObjectRef(domain);
return 0;
}
/**
* virDomainSuspend:
* @domain: a domain object
*
* Suspends an active domain, the process is frozen without further access
* to CPU resources and I/O but the memory used by the domain at the
* hypervisor level will stay allocated. Use virDomainResume() to reactivate
* the domain.
* This function may require privileged access.
* Moreover, suspend may not be supported if domain is in some
* special state like VIR_DOMAIN_PMSUSPENDED.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainSuspend(virDomainPtr domain)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainSuspend) {
int ret;
ret = conn->driver->domainSuspend(domain);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainResume:
* @domain: a domain object
*
* Resume a suspended domain, the process is restarted from the state where
* it was frozen by calling virDomainSuspend().
* This function may require privileged access
* Moreover, resume may not be supported if domain is in some
* special state like VIR_DOMAIN_PMSUSPENDED.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainResume(virDomainPtr domain)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainResume) {
int ret;
ret = conn->driver->domainResume(domain);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainPMSuspendForDuration:
* @dom: a domain object
* @target: a value from virNodeSuspendTarget
* @duration: duration in seconds to suspend, or 0 for indefinite
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Attempt to have the guest enter the given @target power management
* suspension level. If @duration is non-zero, also schedule the guest to
* resume normal operation after that many seconds, if nothing else has
* resumed it earlier. Some hypervisors require that @duration be 0, for
* an indefinite suspension.
*
* Dependent on hypervisor used, this may require a
* guest agent to be available, e.g. QEMU.
*
* Returns: 0 on success,
* -1 on failure.
*/
int
virDomainPMSuspendForDuration(virDomainPtr dom,
unsigned int target,
unsigned long long duration,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "target=%u duration=%llu flags=%x",
target, duration, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainPMSuspendForDuration) {
int ret;
ret = conn->driver->domainPMSuspendForDuration(dom, target,
duration, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainPMWakeup:
* @dom: a domain object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Inject a wakeup into the guest that previously used
* virDomainPMSuspendForDuration, rather than waiting for the
* previously requested duration (if any) to elapse.
*
* Returns: 0 on success,
* -1 on failure.
*/
int
virDomainPMWakeup(virDomainPtr dom,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainPMWakeup) {
int ret;
ret = conn->driver->domainPMWakeup(dom, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSave:
* @domain: a domain object
* @to: path for the output file
*
* This method will suspend a domain and save its memory contents to
* a file on disk. After the call, if successful, the domain is not
* listed as running anymore (this ends the life of a transient domain).
* Use virDomainRestore() to restore a domain after saving.
*
* See virDomainSaveFlags() for more control. Also, a save file can
* be inspected or modified slightly with virDomainSaveImageGetXMLDesc()
* and virDomainSaveImageDefineXML().
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainSave(virDomainPtr domain, const char *to)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "to=%s", to);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
virCheckNonNullArgGoto(to, error);
if (conn->driver->domainSave) {
int ret;
char *absolute_to;
/* We must absolutize the file path as the save is done out of process */
if (virFileAbsPath(to, &absolute_to) < 0) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("could not build absolute output file path"));
goto error;
}
ret = conn->driver->domainSave(domain, absolute_to);
VIR_FREE(absolute_to);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSaveFlags:
* @domain: a domain object
* @to: path for the output file
* @dxml: (optional) XML config for adjusting guest xml used on restore
* @flags: bitwise-OR of virDomainSaveRestoreFlags
*
* This method will suspend a domain and save its memory contents to
* a file on disk. After the call, if successful, the domain is not
* listed as running anymore (this ends the life of a transient domain).
* Use virDomainRestore() to restore a domain after saving.
*
* If the hypervisor supports it, @dxml can be used to alter
* host-specific portions of the domain XML that will be used when
* restoring an image. For example, it is possible to alter the
* backing filename that is associated with a disk device, in order to
* prepare for file renaming done as part of backing up the disk
* device while the domain is stopped.
*
* If @flags includes VIR_DOMAIN_SAVE_BYPASS_CACHE, then libvirt will
* attempt to bypass the file system cache while creating the file, or
* fail if it cannot do so for the given system; this can allow less
* pressure on file system cache, but also risks slowing saves to NFS.
*
* Normally, the saved state file will remember whether the domain was
* running or paused, and restore defaults to the same state.
* Specifying VIR_DOMAIN_SAVE_RUNNING or VIR_DOMAIN_SAVE_PAUSED in
* @flags will override what state gets saved into the file. These
* two flags are mutually exclusive.
*
* A save file can be inspected or modified slightly with
* virDomainSaveImageGetXMLDesc() and virDomainSaveImageDefineXML().
*
* Some hypervisors may prevent this operation if there is a current
* block copy operation; in that case, use virDomainBlockJobAbort()
* to stop the block copy first.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainSaveFlags(virDomainPtr domain, const char *to,
const char *dxml, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "to=%s, dxml=%s, flags=%x",
to, NULLSTR(dxml), flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
virCheckNonNullArgGoto(to, error);
if ((flags & VIR_DOMAIN_SAVE_RUNNING) && (flags & VIR_DOMAIN_SAVE_PAUSED)) {
virReportInvalidArg(flags, "%s",
_("running and paused flags are mutually exclusive"));
goto error;
}
if (conn->driver->domainSaveFlags) {
int ret;
char *absolute_to;
/* We must absolutize the file path as the save is done out of process */
if (virFileAbsPath(to, &absolute_to) < 0) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("could not build absolute output file path"));
goto error;
}
ret = conn->driver->domainSaveFlags(domain, absolute_to, dxml, flags);
VIR_FREE(absolute_to);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainRestore:
* @conn: pointer to the hypervisor connection
* @from: path to the input file
*
* This method will restore a domain saved to disk by virDomainSave().
*
* See virDomainRestoreFlags() for more control.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainRestore(virConnectPtr conn, const char *from)
{
VIR_DEBUG("conn=%p, from=%s", conn, from);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(from, error);
if (conn->driver->domainRestore) {
int ret;
char *absolute_from;
/* We must absolutize the file path as the restore is done out of process */
if (virFileAbsPath(from, &absolute_from) < 0) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("could not build absolute input file path"));
goto error;
}
ret = conn->driver->domainRestore(conn, absolute_from);
VIR_FREE(absolute_from);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainRestoreFlags:
* @conn: pointer to the hypervisor connection
* @from: path to the input file
* @dxml: (optional) XML config for adjusting guest xml used on restore
* @flags: bitwise-OR of virDomainSaveRestoreFlags
*
* This method will restore a domain saved to disk by virDomainSave().
*
* If the hypervisor supports it, @dxml can be used to alter
* host-specific portions of the domain XML that will be used when
* restoring an image. For example, it is possible to alter the
* backing filename that is associated with a disk device, in order to
* prepare for file renaming done as part of backing up the disk
* device while the domain is stopped.
*
* If @flags includes VIR_DOMAIN_SAVE_BYPASS_CACHE, then libvirt will
* attempt to bypass the file system cache while restoring the file, or
* fail if it cannot do so for the given system; this can allow less
* pressure on file system cache, but also risks slowing saves to NFS.
*
* Normally, the saved state file will remember whether the domain was
* running or paused, and restore defaults to the same state.
* Specifying VIR_DOMAIN_SAVE_RUNNING or VIR_DOMAIN_SAVE_PAUSED in
* @flags will override the default read from the file. These two
* flags are mutually exclusive.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainRestoreFlags(virConnectPtr conn, const char *from, const char *dxml,
unsigned int flags)
{
VIR_DEBUG("conn=%p, from=%s, dxml=%s, flags=%x",
conn, from, NULLSTR(dxml), flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(from, error);
if ((flags & VIR_DOMAIN_SAVE_RUNNING) && (flags & VIR_DOMAIN_SAVE_PAUSED)) {
virReportInvalidArg(flags, "%s",
_("running and paused flags are mutually exclusive"));
goto error;
}
if (conn->driver->domainRestoreFlags) {
int ret;
char *absolute_from;
/* We must absolutize the file path as the restore is done out of process */
if (virFileAbsPath(from, &absolute_from) < 0) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("could not build absolute input file path"));
goto error;
}
ret = conn->driver->domainRestoreFlags(conn, absolute_from, dxml,
flags);
VIR_FREE(absolute_from);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSaveImageGetXMLDesc:
* @conn: pointer to the hypervisor connection
* @file: path to saved state file
* @flags: bitwise-OR of subset of virDomainXMLFlags
*
* This method will extract the XML describing the domain at the time
* a saved state file was created. @file must be a file created
* previously by virDomainSave() or virDomainSaveFlags().
*
* No security-sensitive data will be included unless @flags contains
* VIR_DOMAIN_XML_SECURE; this flag is rejected on read-only
* connections. For this API, @flags should not contain either
* VIR_DOMAIN_XML_INACTIVE or VIR_DOMAIN_XML_UPDATE_CPU.
*
* Returns a 0 terminated UTF-8 encoded XML instance, or NULL in case of
* error. The caller must free() the returned value.
*/
char *
virDomainSaveImageGetXMLDesc(virConnectPtr conn, const char *file,
unsigned int flags)
{
VIR_DEBUG("conn=%p, file=%s, flags=%x",
conn, file, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(file, error);
if ((conn->flags & VIR_CONNECT_RO) && (flags & VIR_DOMAIN_XML_SECURE)) {
virLibConnError(VIR_ERR_OPERATION_DENIED, "%s",
_("virDomainSaveImageGetXMLDesc with secure flag"));
goto error;
}
if (conn->driver->domainSaveImageGetXMLDesc) {
char *ret;
char *absolute_file;
/* We must absolutize the file path as the read is done out of process */
if (virFileAbsPath(file, &absolute_file) < 0) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("could not build absolute input file path"));
goto error;
}
ret = conn->driver->domainSaveImageGetXMLDesc(conn, absolute_file,
flags);
VIR_FREE(absolute_file);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainSaveImageDefineXML:
* @conn: pointer to the hypervisor connection
* @file: path to saved state file
* @dxml: XML config for adjusting guest xml used on restore
* @flags: bitwise-OR of virDomainSaveRestoreFlags
*
* This updates the definition of a domain stored in a saved state
* file. @file must be a file created previously by virDomainSave()
* or virDomainSaveFlags().
*
* @dxml can be used to alter host-specific portions of the domain XML
* that will be used when restoring an image. For example, it is
* possible to alter the backing filename that is associated with a
* disk device, to match renaming done as part of backing up the disk
* device while the domain is stopped.
*
* Normally, the saved state file will remember whether the domain was
* running or paused, and restore defaults to the same state.
* Specifying VIR_DOMAIN_SAVE_RUNNING or VIR_DOMAIN_SAVE_PAUSED in
* @flags will override the default saved into the file; omitting both
* leaves the file's default unchanged. These two flags are mutually
* exclusive.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainSaveImageDefineXML(virConnectPtr conn, const char *file,
const char *dxml, unsigned int flags)
{
VIR_DEBUG("conn=%p, file=%s, dxml=%s, flags=%x",
conn, file, dxml, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(file, error);
virCheckNonNullArgGoto(dxml, error);
if ((flags & VIR_DOMAIN_SAVE_RUNNING) && (flags & VIR_DOMAIN_SAVE_PAUSED)) {
virReportInvalidArg(flags, "%s",
_("running and paused flags are mutually exclusive"));
goto error;
}
if (conn->driver->domainSaveImageDefineXML) {
int ret;
char *absolute_file;
/* We must absolutize the file path as the read is done out of process */
if (virFileAbsPath(file, &absolute_file) < 0) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("could not build absolute input file path"));
goto error;
}
ret = conn->driver->domainSaveImageDefineXML(conn, absolute_file,
dxml, flags);
VIR_FREE(absolute_file);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainCoreDump:
* @domain: a domain object
* @to: path for the core file
* @flags: bitwise-OR of virDomainCoreDumpFlags
*
* This method will dump the core of a domain on a given file for analysis.
* Note that for remote Xen Daemon the file path will be interpreted in
* the remote host. Hypervisors may require the user to manually ensure
* proper permissions on the file named by @to.
*
* If @flags includes VIR_DUMP_CRASH, then leave the guest shut off with
* a crashed state after the dump completes. If @flags includes
* VIR_DUMP_LIVE, then make the core dump while continuing to allow
* the guest to run; otherwise, the guest is suspended during the dump.
* VIR_DUMP_RESET flag forces reset of the quest after dump.
* The above three flags are mutually exclusive.
*
* Additionally, if @flags includes VIR_DUMP_BYPASS_CACHE, then libvirt
* will attempt to bypass the file system cache while creating the file,
* or fail if it cannot do so for the given system; this can allow less
* pressure on file system cache, but also risks slowing saves to NFS.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainCoreDump(virDomainPtr domain, const char *to, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "to=%s, flags=%x", to, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
virCheckNonNullArgGoto(to, error);
if ((flags & VIR_DUMP_CRASH) && (flags & VIR_DUMP_LIVE)) {
virReportInvalidArg(flags, "%s",
_("crash and live flags are mutually exclusive"));
goto error;
}
if ((flags & VIR_DUMP_CRASH) && (flags & VIR_DUMP_RESET)) {
virReportInvalidArg(flags, "%s",
_("crash and reset flags are mutually exclusive"));
goto error;
}
if ((flags & VIR_DUMP_LIVE) && (flags & VIR_DUMP_RESET)) {
virReportInvalidArg(flags, "%s",
_("live and reset flags are mutually exclusive"));
goto error;
}
if (conn->driver->domainCoreDump) {
int ret;
char *absolute_to;
/* We must absolutize the file path as the save is done out of process */
if (virFileAbsPath(to, &absolute_to) < 0) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("could not build absolute core file path"));
goto error;
}
ret = conn->driver->domainCoreDump(domain, absolute_to, flags);
VIR_FREE(absolute_to);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainScreenshot:
* @domain: a domain object
* @stream: stream to use as output
* @screen: monitor ID to take screenshot from
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Take a screenshot of current domain console as a stream. The image format
* is hypervisor specific. Moreover, some hypervisors supports multiple
* displays per domain. These can be distinguished by @screen argument.
*
* This call sets up a stream; subsequent use of stream API is necessary
* to transfer actual data, determine how much data is successfully
* transferred, and detect any errors.
*
* The screen ID is the sequential number of screen. In case of multiple
* graphics cards, heads are enumerated before devices, e.g. having
* two graphics cards, both with four heads, screen ID 5 addresses
* the second head on the second card.
*
* Returns a string representing the mime-type of the image format, or
* NULL upon error. The caller must free() the returned value.
*/
char *
virDomainScreenshot(virDomainPtr domain,
virStreamPtr stream,
unsigned int screen,
unsigned int flags)
{
VIR_DOMAIN_DEBUG(domain, "stream=%p, flags=%x", stream, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (!VIR_IS_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_STREAM, __FUNCTION__);
return NULL;
}
if (domain->conn->flags & VIR_CONNECT_RO ||
stream->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (domain->conn->driver->domainScreenshot) {
char * ret;
ret = domain->conn->driver->domainScreenshot(domain, stream,
screen, flags);
if (ret == NULL)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return NULL;
}
/**
* virDomainShutdown:
* @domain: a domain object
*
* Shutdown a domain, the domain object is still usable thereafter but
* the domain OS is being stopped. Note that the guest OS may ignore the
* request. For guests that react to a shutdown request, the differences
* from virDomainDestroy() are that the guests disk storage will be in a
* stable state rather than having the (virtual) power cord pulled, and
* this command returns as soon as the shutdown request is issued rather
* than blocking until the guest is no longer running.
*
* If the domain is transient and has any snapshot metadata (see
* virDomainSnapshotNum()), then that metadata will automatically
* be deleted when the domain quits.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainShutdown(virDomainPtr domain)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainShutdown) {
int ret;
ret = conn->driver->domainShutdown(domain);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainShutdownFlags:
* @domain: a domain object
* @flags: bitwise-OR of virDomainShutdownFlagValues
*
* Shutdown a domain, the domain object is still usable thereafter but
* the domain OS is being stopped. Note that the guest OS may ignore the
* request. For guests that react to a shutdown request, the differences
* from virDomainDestroy() are that the guest's disk storage will be in a
* stable state rather than having the (virtual) power cord pulled, and
* this command returns as soon as the shutdown request is issued rather
* than blocking until the guest is no longer running.
*
* If the domain is transient and has any snapshot metadata (see
* virDomainSnapshotNum()), then that metadata will automatically
* be deleted when the domain quits.
*
* If @flags is set to zero, then the hypervisor will choose the
* method of shutdown it considers best. To have greater control
* pass exactly one of the virDomainShutdownFlagValues.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainShutdownFlags(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_SHUTDOWN_ACPI_POWER_BTN) &&
(flags & VIR_DOMAIN_SHUTDOWN_GUEST_AGENT)) {
virReportInvalidArg(flags, "%s",
_("flags for acpi power button and guest agent are mutually exclusive"));
goto error;
}
conn = domain->conn;
if (conn->driver->domainShutdownFlags) {
int ret;
ret = conn->driver->domainShutdownFlags(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainReboot:
* @domain: a domain object
* @flags: bitwise-OR of virDomainRebootFlagValues
*
* Reboot a domain, the domain object is still usable there after but
* the domain OS is being stopped for a restart.
* Note that the guest OS may ignore the request.
*
* If @flags is set to zero, then the hypervisor will choose the
* method of shutdown it considers best. To have greater control
* pass exactly one of the virDomainRebootFlagValues.
*
* To use guest agent (VIR_DOMAIN_REBOOT_GUEST_AGENT) the domain XML
* must have <channel> configured.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainReboot(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_SHUTDOWN_ACPI_POWER_BTN) &&
(flags & VIR_DOMAIN_SHUTDOWN_GUEST_AGENT)) {
virReportInvalidArg(flags, "%s",
_("flags for acpi power button and guest agent are mutually exclusive"));
goto error;
}
conn = domain->conn;
if (conn->driver->domainReboot) {
int ret;
ret = conn->driver->domainReboot(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainReset:
* @domain: a domain object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Reset a domain immediately without any guest OS shutdown.
* Reset emulates the power reset button on a machine, where all
* hardware sees the RST line set and reinitializes internal state.
*
* Note that there is a risk of data loss caused by reset without any
* guest OS shutdown.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainReset(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainReset) {
int ret;
ret = conn->driver->domainReset(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetName:
* @domain: a domain object
*
* Get the public name for that domain
*
* Returns a pointer to the name or NULL, the string need not be deallocated
* its lifetime will be the same as the domain object.
*/
const char *
virDomainGetName(virDomainPtr domain)
{
VIR_DEBUG("domain=%p", domain);
virResetLastError();
if (!VIR_IS_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return domain->name;
}
/**
* virDomainGetUUID:
* @domain: a domain object
* @uuid: pointer to a VIR_UUID_BUFLEN bytes array
*
* Get the UUID for a domain
*
* Returns -1 in case of error, 0 in case of success
*/
int
virDomainGetUUID(virDomainPtr domain, unsigned char *uuid)
{
VIR_DOMAIN_DEBUG(domain, "uuid=%p", uuid);
virResetLastError();
if (!VIR_IS_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgReturn(uuid, -1);
memcpy(uuid, &domain->uuid[0], VIR_UUID_BUFLEN);
return 0;
}
/**
* virDomainGetUUIDString:
* @domain: a domain object
* @buf: pointer to a VIR_UUID_STRING_BUFLEN bytes array
*
* Get the UUID for a domain as string. For more information about
* UUID see RFC4122.
*
* Returns -1 in case of error, 0 in case of success
*/
int
virDomainGetUUIDString(virDomainPtr domain, char *buf)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DOMAIN_DEBUG(domain, "buf=%p", buf);
virResetLastError();
if (!VIR_IS_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(buf, error);
if (virDomainGetUUID(domain, &uuid[0]))
goto error;
virUUIDFormat(uuid, buf);
return 0;
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetID:
* @domain: a domain object
*
* Get the hypervisor ID number for the domain
*
* Returns the domain ID number or (unsigned int) -1 in case of error
*/
unsigned int
virDomainGetID(virDomainPtr domain)
{
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return (unsigned int)-1;
}
return domain->id;
}
/**
* virDomainGetOSType:
* @domain: a domain object
*
* Get the type of domain operation system.
*
* Returns the new string or NULL in case of error, the string must be
* freed by the caller.
*/
char *
virDomainGetOSType(virDomainPtr domain)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = domain->conn;
if (conn->driver->domainGetOSType) {
char *ret;
ret = conn->driver->domainGetOSType(domain);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return NULL;
}
/**
* virDomainGetMaxMemory:
* @domain: a domain object or NULL
*
* Retrieve the maximum amount of physical memory allocated to a
* domain. If domain is NULL, then this get the amount of memory reserved
* to Domain0 i.e. the domain where the application runs.
*
* Returns the memory size in kibibytes (blocks of 1024 bytes), or 0 in
* case of error.
*/
unsigned long
virDomainGetMaxMemory(virDomainPtr domain)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return 0;
}
conn = domain->conn;
if (conn->driver->domainGetMaxMemory) {
unsigned long long ret;
ret = conn->driver->domainGetMaxMemory(domain);
if (ret == 0)
goto error;
if ((unsigned long) ret != ret) {
virLibDomainError(VIR_ERR_OVERFLOW, _("result too large: %llu"),
ret);
goto error;
}
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return 0;
}
/**
* virDomainSetMaxMemory:
* @domain: a domain object or NULL
* @memory: the memory size in kibibytes (blocks of 1024 bytes)
*
* Dynamically change the maximum amount of physical memory allocated to a
* domain. If domain is NULL, then this change the amount of memory reserved
* to Domain0 i.e. the domain where the application runs.
* This function may require privileged access to the hypervisor.
*
* This command is hypervisor-specific for whether active, persistent,
* or both configurations are changed; for more control, use
* virDomainSetMemoryFlags().
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainSetMaxMemory(virDomainPtr domain, unsigned long memory)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "memory=%lu", memory);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonZeroArgGoto(memory, error);
conn = domain->conn;
if (conn->driver->domainSetMaxMemory) {
int ret;
ret = conn->driver->domainSetMaxMemory(domain, memory);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetMemory:
* @domain: a domain object or NULL
* @memory: the memory size in kibibytes (blocks of 1024 bytes)
*
* Dynamically change the target amount of physical memory allocated to a
* domain. If domain is NULL, then this change the amount of memory reserved
* to Domain0 i.e. the domain where the application runs.
* This function may require privileged access to the hypervisor.
*
* This command only changes the runtime configuration of the domain,
* so can only be called on an active domain.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainSetMemory(virDomainPtr domain, unsigned long memory)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "memory=%lu", memory);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonZeroArgGoto(memory, error);
conn = domain->conn;
if (conn->driver->domainSetMemory) {
int ret;
ret = conn->driver->domainSetMemory(domain, memory);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetMemoryFlags:
* @domain: a domain object or NULL
* @memory: the memory size in kibibytes (blocks of 1024 bytes)
* @flags: bitwise-OR of virDomainMemoryModFlags
*
* Dynamically change the target amount of physical memory allocated to a
* domain. If domain is NULL, then this change the amount of memory reserved
* to Domain0 i.e. the domain where the application runs.
* This function may require privileged access to the hypervisor.
*
* @flags may include VIR_DOMAIN_AFFECT_LIVE or VIR_DOMAIN_AFFECT_CONFIG.
* Both flags may be set. If VIR_DOMAIN_AFFECT_LIVE is set, the change affects
* a running domain and will fail if domain is not active.
* If VIR_DOMAIN_AFFECT_CONFIG is set, the change affects persistent state,
* and will fail for transient domains. If neither flag is specified
* (that is, @flags is VIR_DOMAIN_AFFECT_CURRENT), then an inactive domain
* modifies persistent setup, while an active domain is hypervisor-dependent
* on whether just live or both live and persistent state is changed.
* If VIR_DOMAIN_MEM_MAXIMUM is set, the change affects domain's maximum memory
* size rather than current memory size.
* Not all hypervisors can support all flag combinations.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainSetMemoryFlags(virDomainPtr domain, unsigned long memory,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "memory=%lu, flags=%x", memory, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonZeroArgGoto(memory, error);
conn = domain->conn;
if (conn->driver->domainSetMemoryFlags) {
int ret;
ret = conn->driver->domainSetMemoryFlags(domain, memory, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/* Helper function called to validate incoming client array on any
* interface that sets typed parameters in the hypervisor. */
static int
virTypedParameterValidateSet(virConnectPtr conn,
virTypedParameterPtr params,
int nparams)
{
bool string_okay;
int i;
string_okay = VIR_DRV_SUPPORTS_FEATURE(conn->driver,
conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING);
for (i = 0; i < nparams; i++) {
if (strnlen(params[i].field, VIR_TYPED_PARAM_FIELD_LENGTH) ==
VIR_TYPED_PARAM_FIELD_LENGTH) {
virReportInvalidArg(params,
_("string parameter name '%.*s' too long"),
VIR_TYPED_PARAM_FIELD_LENGTH,
params[i].field);
return -1;
}
if (params[i].type == VIR_TYPED_PARAM_STRING) {
if (string_okay) {
if (!params[i].value.s) {
virReportInvalidArg(params,
_("NULL string parameter '%s'"),
params[i].field);
return -1;
}
} else {
virReportInvalidArg(params,
_("string parameter '%s' unsupported"),
params[i].field);
return -1;
}
}
}
return 0;
}
/**
* virDomainSetMemoryParameters:
* @domain: pointer to domain object
* @params: pointer to memory parameter objects
* @nparams: number of memory parameter (this value can be the same or
* less than the number of parameters supported)
* @flags: bitwise-OR of virDomainModificationImpact
*
* Change all or a subset of the memory tunables.
* This function may require privileged access to the hypervisor.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainSetMemoryParameters(virDomainPtr domain,
virTypedParameterPtr params,
int nparams, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, flags=%x",
params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(params, error);
virCheckPositiveArgGoto(nparams, error);
if (virTypedParameterValidateSet(domain->conn, params, nparams) < 0)
goto error;
conn = domain->conn;
if (conn->driver->domainSetMemoryParameters) {
int ret;
ret = conn->driver->domainSetMemoryParameters(domain, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetMemoryParameters:
* @domain: pointer to domain object
* @params: pointer to memory parameter object
* (return value, allocated by the caller)
* @nparams: pointer to number of memory parameters; input and output
* @flags: bitwise-OR of virDomainModificationImpact and virTypedParameterFlags
*
* Get all memory parameters. On input, @nparams gives the size of the
* @params array; on output, @nparams gives how many slots were filled
* with parameter information, which might be less but will not exceed
* the input value.
*
* As a special case, calling with @params as NULL and @nparams as 0 on
* input will cause @nparams on output to contain the number of parameters
* supported by the hypervisor. The caller should then allocate @params
* array, i.e. (sizeof(@virTypedParameter) * @nparams) bytes and call the API
* again.
*
* Here is a sample code snippet:
*
* if ((virDomainGetMemoryParameters(dom, NULL, &nparams, 0) == 0) &&
* (nparams != 0)) {
* if ((params = malloc(sizeof(*params) * nparams)) == NULL)
* goto error;
* memset(params, 0, sizeof(*params) * nparams);
* if (virDomainGetMemoryParameters(dom, params, &nparams, 0))
* goto error;
* }
*
* This function may require privileged access to the hypervisor. This function
* expects the caller to allocate the @params.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainGetMemoryParameters(virDomainPtr domain,
virTypedParameterPtr params,
int *nparams, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, flags=%x",
params, (nparams) ? *nparams : -1, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (*nparams != 0)
virCheckNonNullArgGoto(params, error);
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_AFFECT_LIVE) &&
(flags & VIR_DOMAIN_AFFECT_CONFIG)) {
virReportInvalidArg(flags,
_("flags 'affect live' and 'affect config' in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainGetMemoryParameters) {
int ret;
ret = conn->driver->domainGetMemoryParameters(domain, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetNumaParameters:
* @domain: pointer to domain object
* @params: pointer to numa parameter objects
* @nparams: number of numa parameters (this value can be the same or
* less than the number of parameters supported)
* @flags: bitwise-OR of virDomainModificationImpact
*
* Change all or a subset of the numa tunables.
* This function may require privileged access to the hypervisor.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainSetNumaParameters(virDomainPtr domain,
virTypedParameterPtr params,
int nparams, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, flags=%x",
params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(params, error);
virCheckPositiveArgGoto(nparams, error);
if (virTypedParameterValidateSet(domain->conn, params, nparams) < 0)
goto error;
conn = domain->conn;
if (conn->driver->domainSetNumaParameters) {
int ret;
ret = conn->driver->domainSetNumaParameters(domain, params, nparams,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetNumaParameters:
* @domain: pointer to domain object
* @params: pointer to numa parameter object
* (return value, allocated by the caller)
* @nparams: pointer to number of numa parameters
* @flags: bitwise-OR of virDomainModificationImpact and virTypedParameterFlags
*
* Get all numa parameters. On input, @nparams gives the size of the
* @params array; on output, @nparams gives how many slots were filled
* with parameter information, which might be less but will not exceed
* the input value.
*
* As a special case, calling with @params as NULL and @nparams as 0 on
* input will cause @nparams on output to contain the number of parameters
* supported by the hypervisor. The caller should then allocate @params
* array, i.e. (sizeof(@virTypedParameter) * @nparams) bytes and call the API
* again.
*
* See virDomainGetMemoryParameters() for an equivalent usage example.
*
* This function may require privileged access to the hypervisor. This function
* expects the caller to allocate the @params.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainGetNumaParameters(virDomainPtr domain,
virTypedParameterPtr params,
int *nparams, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, flags=%x",
params, (nparams) ? *nparams : -1, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (*nparams != 0)
virCheckNonNullArgGoto(params, error);
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
conn = domain->conn;
if (conn->driver->domainGetNumaParameters) {
int ret;
ret = conn->driver->domainGetNumaParameters(domain, params, nparams,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetBlkioParameters:
* @domain: pointer to domain object
* @params: pointer to blkio parameter objects
* @nparams: number of blkio parameters (this value can be the same or
* less than the number of parameters supported)
* @flags: bitwise-OR of virDomainModificationImpact
*
* Change all or a subset of the blkio tunables.
* This function may require privileged access to the hypervisor.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainSetBlkioParameters(virDomainPtr domain,
virTypedParameterPtr params,
int nparams, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, flags=%x",
params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(params, error);
virCheckNonNegativeArgGoto(nparams, error);
if (virTypedParameterValidateSet(domain->conn, params, nparams) < 0)
goto error;
conn = domain->conn;
if (conn->driver->domainSetBlkioParameters) {
int ret;
ret = conn->driver->domainSetBlkioParameters(domain, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetBlkioParameters:
* @domain: pointer to domain object
* @params: pointer to blkio parameter object
* (return value, allocated by the caller)
* @nparams: pointer to number of blkio parameters; input and output
* @flags: bitwise-OR of virDomainModificationImpact and virTypedParameterFlags
*
* Get all blkio parameters. On input, @nparams gives the size of the
* @params array; on output, @nparams gives how many slots were filled
* with parameter information, which might be less but will not exceed
* the input value.
*
* As a special case, calling with @params as NULL and @nparams as 0 on
* input will cause @nparams on output to contain the number of parameters
* supported by the hypervisor. The caller should then allocate @params
* array, i.e. (sizeof(@virTypedParameter) * @nparams) bytes and call the API
* again.
*
* See virDomainGetMemoryParameters() for an equivalent usage example.
*
* This function may require privileged access to the hypervisor. This function
* expects the caller to allocate the @params.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainGetBlkioParameters(virDomainPtr domain,
virTypedParameterPtr params,
int *nparams, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, flags=%x",
params, (nparams) ? *nparams : -1, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (*nparams != 0)
virCheckNonNullArgGoto(params, error);
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_AFFECT_LIVE) &&
(flags & VIR_DOMAIN_AFFECT_CONFIG)) {
virReportInvalidArg(flags,
_("flags 'affect live' and 'affect config' in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainGetBlkioParameters) {
int ret;
ret = conn->driver->domainGetBlkioParameters(domain, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetInfo:
* @domain: a domain object
* @info: pointer to a virDomainInfo structure allocated by the user
*
* Extract information about a domain. Note that if the connection
* used to get the domain is limited only a partial set of the information
* can be extracted.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainGetInfo(virDomainPtr domain, virDomainInfoPtr info)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "info=%p", info);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(info, error);
memset(info, 0, sizeof(virDomainInfo));
conn = domain->conn;
if (conn->driver->domainGetInfo) {
int ret;
ret = conn->driver->domainGetInfo(domain, info);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetState:
* @domain: a domain object
* @state: returned state of the domain (one of virDomainState)
* @reason: returned reason which led to @state (one of virDomain*Reason
* corresponding to the current state); it is allowed to be NULL
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Extract domain state. Each state can be accompanied with a reason (if known)
* which led to the state.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainGetState(virDomainPtr domain,
int *state,
int *reason,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "state=%p, reason=%p, flags=%x",
state, reason, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(state, error);
conn = domain->conn;
if (conn->driver->domainGetState) {
int ret;
ret = conn->driver->domainGetState(domain, state, reason, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetControlInfo:
* @domain: a domain object
* @info: pointer to a virDomainControlInfo structure allocated by the user
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Extract details about current state of control interface to a domain.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainGetControlInfo(virDomainPtr domain,
virDomainControlInfoPtr info,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "info=%p, flags=%x", info, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(info, error);
conn = domain->conn;
if (conn->driver->domainGetControlInfo) {
int ret;
ret = conn->driver->domainGetControlInfo(domain, info, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetXMLDesc:
* @domain: a domain object
* @flags: bitwise-OR of virDomainXMLFlags
*
* Provide an XML description of the domain. The description may be reused
* later to relaunch the domain with virDomainCreateXML().
*
* No security-sensitive data will be included unless @flags contains
* VIR_DOMAIN_XML_SECURE; this flag is rejected on read-only
* connections. If @flags includes VIR_DOMAIN_XML_INACTIVE, then the
* XML represents the configuration that will be used on the next boot
* of a persistent domain; otherwise, the configuration represents the
* currently running domain. If @flags contains
* VIR_DOMAIN_XML_UPDATE_CPU, then the portion of the domain XML
* describing CPU capabilities is modified to match actual
* capabilities of the host.
*
* Returns a 0 terminated UTF-8 encoded XML instance, or NULL in case of error.
* the caller must free() the returned value.
*/
char *
virDomainGetXMLDesc(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = domain->conn;
if ((conn->flags & VIR_CONNECT_RO) && (flags & VIR_DOMAIN_XML_SECURE)) {
virLibConnError(VIR_ERR_OPERATION_DENIED, "%s",
_("virDomainGetXMLDesc with secure flag"));
goto error;
}
if (conn->driver->domainGetXMLDesc) {
char *ret;
ret = conn->driver->domainGetXMLDesc(domain, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return NULL;
}
/**
* virConnectDomainXMLFromNative:
* @conn: a connection object
* @nativeFormat: configuration format importing from
* @nativeConfig: the configuration data to import
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Reads native configuration data describing a domain, and
* generates libvirt domain XML. The format of the native
* data is hypervisor dependant.
*
* Returns a 0 terminated UTF-8 encoded XML instance, or NULL in case of error.
* the caller must free() the returned value.
*/
char *virConnectDomainXMLFromNative(virConnectPtr conn,
const char *nativeFormat,
const char *nativeConfig,
unsigned int flags)
{
VIR_DEBUG("conn=%p, format=%s, config=%s, flags=%x",
conn, nativeFormat, nativeConfig, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(nativeFormat, error);
virCheckNonNullArgGoto(nativeConfig, error);
if (conn->driver->domainXMLFromNative) {
char *ret;
ret = conn->driver->domainXMLFromNative(conn,
nativeFormat,
nativeConfig,
flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virConnectDomainXMLToNative:
* @conn: a connection object
* @nativeFormat: configuration format exporting to
* @domainXml: the domain configuration to export
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Reads a domain XML configuration document, and generates
* a native configuration file describing the domain.
* The format of the native data is hypervisor dependant.
*
* Returns a 0 terminated UTF-8 encoded native config datafile, or NULL in case of error.
* the caller must free() the returned value.
*/
char *virConnectDomainXMLToNative(virConnectPtr conn,
const char *nativeFormat,
const char *domainXml,
unsigned int flags)
{
VIR_DEBUG("conn=%p, format=%s, xml=%s, flags=%x",
conn, nativeFormat, domainXml, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(nativeFormat, error);
virCheckNonNullArgGoto(domainXml, error);
if (conn->driver->domainXMLToNative) {
char *ret;
ret = conn->driver->domainXMLToNative(conn,
nativeFormat,
domainXml,
flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/*
* Sequence v1:
*
* Dst: Prepare
* - Get ready to accept incoming VM
* - Generate optional cookie to pass to src
*
* Src: Perform
* - Start migration and wait for send completion
* - Kill off VM if successful, resume if failed
*
* Dst: Finish
* - Wait for recv completion and check status
* - Kill off VM if unsuccessful
*
*/
static virDomainPtr
virDomainMigrateVersion1(virDomainPtr domain,
virConnectPtr dconn,
unsigned long flags,
const char *dname,
const char *uri,
unsigned long bandwidth)
{
virDomainPtr ddomain = NULL;
char *uri_out = NULL;
char *cookie = NULL;
int cookielen = 0, ret;
virDomainInfo info;
VIR_DOMAIN_DEBUG(domain,
"dconn=%p, flags=%lx, dname=%s, uri=%s, bandwidth=%lu",
dconn, flags, NULLSTR(dname), NULLSTR(uri), bandwidth);
ret = virDomainGetInfo(domain, &info);
if (ret == 0 && info.state == VIR_DOMAIN_PAUSED) {
flags |= VIR_MIGRATE_PAUSED;
}
/* Prepare the migration.
*
* The destination host may return a cookie, or leave cookie as
* NULL.
*
* The destination host MUST set uri_out if uri_in is NULL.
*
* If uri_in is non-NULL, then the destination host may modify
* the URI by setting uri_out. If it does not wish to modify
* the URI, it should leave uri_out as NULL.
*/
if (dconn->driver->domainMigratePrepare
(dconn, &cookie, &cookielen, uri, &uri_out, flags, dname,
bandwidth) == -1)
goto done;
if (uri == NULL && uri_out == NULL) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("domainMigratePrepare did not set uri"));
goto done;
}
if (uri_out)
uri = uri_out; /* Did domainMigratePrepare change URI? */
/* Perform the migration. The driver isn't supposed to return
* until the migration is complete.
*/
if (domain->conn->driver->domainMigratePerform
(domain, cookie, cookielen, uri, flags, dname, bandwidth) == -1)
goto done;
/* Get the destination domain and return it or error.
* 'domain' no longer actually exists at this point
* (or so we hope), but we still use the object in memory
* in order to get the name.
*/
dname = dname ? dname : domain->name;
if (dconn->driver->domainMigrateFinish)
ddomain = dconn->driver->domainMigrateFinish
(dconn, dname, cookie, cookielen, uri, flags);
else
ddomain = virDomainLookupByName(dconn, dname);
done:
VIR_FREE(uri_out);
VIR_FREE(cookie);
return ddomain;
}
/*
* Sequence v2:
*
* Src: DumpXML
* - Generate XML to pass to dst
*
* Dst: Prepare
* - Get ready to accept incoming VM
* - Generate optional cookie to pass to src
*
* Src: Perform
* - Start migration and wait for send completion
* - Kill off VM if successful, resume if failed
*
* Dst: Finish
* - Wait for recv completion and check status
* - Kill off VM if unsuccessful
*
*/
static virDomainPtr
virDomainMigrateVersion2(virDomainPtr domain,
virConnectPtr dconn,
unsigned long flags,
const char *dname,
const char *uri,
unsigned long bandwidth)
{
virDomainPtr ddomain = NULL;
char *uri_out = NULL;
char *cookie = NULL;
char *dom_xml = NULL;
int cookielen = 0, ret;
virDomainInfo info;
virErrorPtr orig_err = NULL;
unsigned int getxml_flags = 0;
int cancelled;
VIR_DOMAIN_DEBUG(domain,
"dconn=%p, flags=%lx, dname=%s, uri=%s, bandwidth=%lu",
dconn, flags, NULLSTR(dname), NULLSTR(uri), bandwidth);
/* Prepare the migration.
*
* The destination host may return a cookie, or leave cookie as
* NULL.
*
* The destination host MUST set uri_out if uri_in is NULL.
*
* If uri_in is non-NULL, then the destination host may modify
* the URI by setting uri_out. If it does not wish to modify
* the URI, it should leave uri_out as NULL.
*/
/* In version 2 of the protocol, the prepare step is slightly
* different. We fetch the domain XML of the source domain
* and pass it to Prepare2.
*/
if (!domain->conn->driver->domainGetXMLDesc) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, __FUNCTION__);
virDispatchError(domain->conn);
return NULL;
}
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_XML_MIGRATABLE)) {
getxml_flags |= VIR_DOMAIN_XML_MIGRATABLE;
} else {
getxml_flags |= VIR_DOMAIN_XML_SECURE | VIR_DOMAIN_XML_UPDATE_CPU;
}
dom_xml = domain->conn->driver->domainGetXMLDesc(domain, getxml_flags);
if (!dom_xml)
return NULL;
ret = virDomainGetInfo(domain, &info);
if (ret == 0 && info.state == VIR_DOMAIN_PAUSED) {
flags |= VIR_MIGRATE_PAUSED;
}
VIR_DEBUG("Prepare2 %p flags=%lx", dconn, flags);
ret = dconn->driver->domainMigratePrepare2
(dconn, &cookie, &cookielen, uri, &uri_out, flags, dname,
bandwidth, dom_xml);
VIR_FREE(dom_xml);
if (ret == -1)
goto done;
if (uri == NULL && uri_out == NULL) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("domainMigratePrepare2 did not set uri"));
virDispatchError(domain->conn);
cancelled = 1;
goto finish;
}
if (uri_out)
uri = uri_out; /* Did domainMigratePrepare2 change URI? */
/* Perform the migration. The driver isn't supposed to return
* until the migration is complete.
*/
VIR_DEBUG("Perform %p", domain->conn);
ret = domain->conn->driver->domainMigratePerform
(domain, cookie, cookielen, uri, flags, dname, bandwidth);
/* Perform failed. Make sure Finish doesn't overwrite the error */
if (ret < 0)
orig_err = virSaveLastError();
/* If Perform returns < 0, then we need to cancel the VM
* startup on the destination
*/
cancelled = ret < 0 ? 1 : 0;
finish:
/* In version 2 of the migration protocol, we pass the
* status code from the sender to the destination host,
* so it can do any cleanup if the migration failed.
*/
dname = dname ? dname : domain->name;
VIR_DEBUG("Finish2 %p ret=%d", dconn, ret);
ddomain = dconn->driver->domainMigrateFinish2
(dconn, dname, cookie, cookielen, uri, flags, cancelled);
done:
if (orig_err) {
virSetError(orig_err);
virFreeError(orig_err);
}
VIR_FREE(uri_out);
VIR_FREE(cookie);
return ddomain;
}
/*
* Sequence v3:
*
* Src: Begin
* - Generate XML to pass to dst
* - Generate optional cookie to pass to dst
*
* Dst: Prepare
* - Get ready to accept incoming VM
* - Generate optional cookie to pass to src
*
* Src: Perform
* - Start migration and wait for send completion
* - Generate optional cookie to pass to dst
*
* Dst: Finish
* - Wait for recv completion and check status
* - Kill off VM if failed, resume if success
* - Generate optional cookie to pass to src
*
* Src: Confirm
* - Kill off VM if success, resume if failed
*
*/
static virDomainPtr
virDomainMigrateVersion3(virDomainPtr domain,
virConnectPtr dconn,
const char *xmlin,
unsigned long flags,
const char *dname,
const char *uri,
unsigned long bandwidth)
{
virDomainPtr ddomain = NULL;
char *uri_out = NULL;
char *cookiein = NULL;
char *cookieout = NULL;
char *dom_xml = NULL;
int cookieinlen = 0;
int cookieoutlen = 0;
int ret;
virDomainInfo info;
virErrorPtr orig_err = NULL;
int cancelled = 1;
unsigned long protection = 0;
bool notify_source = true;
VIR_DOMAIN_DEBUG(domain, "dconn=%p xmlin=%s, flags=%lx, "
"dname=%s, uri=%s, bandwidth=%lu",
dconn, NULLSTR(xmlin), flags,
NULLSTR(dname), NULLSTR(uri), bandwidth);
if (!domain->conn->driver->domainMigrateBegin3 ||
!domain->conn->driver->domainMigratePerform3 ||
!domain->conn->driver->domainMigrateConfirm3 ||
!dconn->driver->domainMigratePrepare3 ||
!dconn->driver->domainMigrateFinish3) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, __FUNCTION__);
virDispatchError(domain->conn);
return NULL;
}
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATE_CHANGE_PROTECTION))
protection = VIR_MIGRATE_CHANGE_PROTECTION;
VIR_DEBUG("Begin3 %p", domain->conn);
dom_xml = domain->conn->driver->domainMigrateBegin3
(domain, xmlin, &cookieout, &cookieoutlen,
flags | protection, dname, bandwidth);
if (!dom_xml)
goto done;
ret = virDomainGetInfo(domain, &info);
if (ret == 0 && info.state == VIR_DOMAIN_PAUSED) {
flags |= VIR_MIGRATE_PAUSED;
}
VIR_DEBUG("Prepare3 %p flags=%lx", dconn, flags);
cookiein = cookieout;
cookieinlen = cookieoutlen;
cookieout = NULL;
cookieoutlen = 0;
ret = dconn->driver->domainMigratePrepare3
(dconn, cookiein, cookieinlen, &cookieout, &cookieoutlen,
uri, &uri_out, flags, dname, bandwidth, dom_xml);
VIR_FREE(dom_xml);
if (ret == -1) {
if (protection) {
/* Begin already started a migration job so we need to cancel it by
* calling Confirm while making sure it doesn't overwrite the error
*/
orig_err = virSaveLastError();
goto confirm;
} else {
goto done;
}
}
if (uri == NULL && uri_out == NULL) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("domainMigratePrepare3 did not set uri"));
virDispatchError(domain->conn);
goto finish;
}
if (uri_out)
uri = uri_out; /* Did domainMigratePrepare3 change URI? */
/* Perform the migration. The driver isn't supposed to return
* until the migration is complete. The src VM should remain
* running, but in paused state until the destination can
* confirm migration completion.
*/
VIR_DEBUG("Perform3 %p uri=%s", domain->conn, uri);
VIR_FREE(cookiein);
cookiein = cookieout;
cookieinlen = cookieoutlen;
cookieout = NULL;
cookieoutlen = 0;
/* dconnuri not relevant in non-P2P modes, so left NULL here */
ret = domain->conn->driver->domainMigratePerform3
(domain, NULL, cookiein, cookieinlen,
&cookieout, &cookieoutlen, NULL,
uri, flags | protection, dname, bandwidth);
/* Perform failed. Make sure Finish doesn't overwrite the error */
if (ret < 0) {
orig_err = virSaveLastError();
/* Perform failed so we don't need to call confirm to let source know
* about the failure.
*/
notify_source = false;
}
/* If Perform returns < 0, then we need to cancel the VM
* startup on the destination
*/
cancelled = ret < 0 ? 1 : 0;
finish:
/*
* The status code from the source is passed to the destination.
* The dest can cleanup if the source indicated it failed to
* send all migration data. Returns NULL for ddomain if
* the dest was unable to complete migration.
*/
VIR_DEBUG("Finish3 %p ret=%d", dconn, ret);
VIR_FREE(cookiein);
cookiein = cookieout;
cookieinlen = cookieoutlen;
cookieout = NULL;
cookieoutlen = 0;
dname = dname ? dname : domain->name;
ddomain = dconn->driver->domainMigrateFinish3
(dconn, dname, cookiein, cookieinlen, &cookieout, &cookieoutlen,
NULL, uri, flags, cancelled);
/* If ddomain is NULL, then we were unable to start
* the guest on the target, and must restart on the
* source. There is a small chance that the ddomain
* is NULL due to an RPC failure, in which case
* ddomain could in fact be running on the dest.
* The lock manager plugins should take care of
* safety in this scenario.
*/
cancelled = ddomain == NULL ? 1 : 0;
/* If finish3 set an error, and we don't have an earlier
* one we need to preserve it in case confirm3 overwrites
*/
if (!orig_err)
orig_err = virSaveLastError();
confirm:
/*
* If cancelled, then src VM will be restarted, else it will be killed.
* Don't do this if migration failed on source and thus it was already
* cancelled there.
*/
if (notify_source) {
VIR_DEBUG("Confirm3 %p ret=%d domain=%p", domain->conn, ret, domain);
VIR_FREE(cookiein);
cookiein = cookieout;
cookieinlen = cookieoutlen;
cookieout = NULL;
cookieoutlen = 0;
ret = domain->conn->driver->domainMigrateConfirm3
(domain, cookiein, cookieinlen,
flags | protection, cancelled);
/* If Confirm3 returns -1, there's nothing more we can
* do, but fortunately worst case is that there is a
* domain left in 'paused' state on source.
*/
if (ret < 0) {
VIR_WARN("Guest %s probably left in 'paused' state on source",
domain->name);
}
}
done:
if (orig_err) {
virSetError(orig_err);
virFreeError(orig_err);
}
VIR_FREE(uri_out);
VIR_FREE(cookiein);
VIR_FREE(cookieout);
return ddomain;
}
/*
* In normal migration, the libvirt client co-ordinates communication
* between the 2 libvirtd instances on source & dest hosts.
*
* In this peer-2-peer migration alternative, the libvirt client
* only talks to the source libvirtd instance. The source libvirtd
* then opens its own connection to the destination and co-ordinates
* migration itself.
*/
static int
virDomainMigratePeer2Peer(virDomainPtr domain,
const char *xmlin,
unsigned long flags,
const char *dname,
const char *dconnuri,
const char *uri,
unsigned long bandwidth)
{
virURIPtr tempuri = NULL;
VIR_DOMAIN_DEBUG(domain, "xmlin=%s, flags=%lx, dname=%s, "
"dconnuri=%s, uri=%s, bandwidth=%lu",
NULLSTR(xmlin), flags, NULLSTR(dname),
NULLSTR(dconnuri), NULLSTR(uri), bandwidth);
if (!domain->conn->driver->domainMigratePerform) {
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
virDispatchError(domain->conn);
return -1;
}
if (!(tempuri = virURIParse(dconnuri))) {
virDispatchError(domain->conn);
return -1;
}
if (!tempuri->server) {
virReportInvalidArg(dconnuri,
_("unable to parse server from dconnuri in %s"),
__FUNCTION__);
virDispatchError(domain->conn);
virURIFree(tempuri);
return -1;
}
if (STRPREFIX(tempuri->server, "localhost")) {
virReportInvalidArg(dconnuri,
_("unable to parse server from dconnuri in %s"),
__FUNCTION__);
virDispatchError(domain->conn);
virURIFree(tempuri);
return -1;
}
virURIFree(tempuri);
/* Perform the migration. The driver isn't supposed to return
* until the migration is complete.
*/
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_V3)) {
VIR_DEBUG("Using migration protocol 3");
return domain->conn->driver->domainMigratePerform3(domain,
xmlin,
NULL, /* cookiein */
0, /* cookieinlen */
NULL, /* cookieoutlen */
NULL, /* cookieoutlen */
dconnuri,
uri,
flags,
dname,
bandwidth);
} else {
VIR_DEBUG("Using migration protocol 2");
if (xmlin) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("Unable to change target guest XML during migration"));
return -1;
}
if (uri) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("Unable to override peer2peer migration URI"));
return -1;
}
return domain->conn->driver->domainMigratePerform(domain,
NULL, /* cookie */
0, /* cookielen */
dconnuri,
flags,
dname,
bandwidth);
}
}
/*
* In normal migration, the libvirt client co-ordinates communication
* between the 2 libvirtd instances on source & dest hosts.
*
* Some hypervisors support an alternative, direct migration where
* there is no requirement for a libvirtd instance on the dest host.
* In this case
*
* eg, XenD can talk direct to XenD, so libvirtd on dest does not
* need to be involved at all, or even running
*/
static int
virDomainMigrateDirect(virDomainPtr domain,
const char *xmlin,
unsigned long flags,
const char *dname,
const char *uri,
unsigned long bandwidth)
{
VIR_DOMAIN_DEBUG(domain,
"xmlin=%s, flags=%lx, dname=%s, uri=%s, bandwidth=%lu",
NULLSTR(xmlin), flags, NULLSTR(dname), NULLSTR(uri),
bandwidth);
if (!domain->conn->driver->domainMigratePerform) {
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
virDispatchError(domain->conn);
return -1;
}
/* Perform the migration. The driver isn't supposed to return
* until the migration is complete.
*/
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_V3)) {
VIR_DEBUG("Using migration protocol 3");
/* dconn URI not relevant in direct migration, since no
* target libvirtd is involved */
return domain->conn->driver->domainMigratePerform3(domain,
xmlin,
NULL, /* cookiein */
0, /* cookieinlen */
NULL, /* cookieoutlen */
NULL, /* cookieoutlen */
NULL, /* dconnuri */
uri,
flags,
dname,
bandwidth);
} else {
VIR_DEBUG("Using migration protocol 2");
if (xmlin) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("Unable to change target guest XML during migration"));
return -1;
}
return domain->conn->driver->domainMigratePerform(domain,
NULL, /* cookie */
0, /* cookielen */
uri,
flags,
dname,
bandwidth);
}
}
/**
* virDomainMigrate:
* @domain: a domain object
* @dconn: destination host (a connection object)
* @flags: bitwise-OR of virDomainMigrateFlags
* @dname: (optional) rename domain to this at destination
* @uri: (optional) dest hostname/URI as seen from the source host
* @bandwidth: (optional) specify migration bandwidth limit in Mbps
*
* Migrate the domain object from its current host to the destination
* host given by dconn (a connection to the destination host).
*
* Flags may be one of more of the following:
* VIR_MIGRATE_LIVE Do not pause the VM during migration
* VIR_MIGRATE_PEER2PEER Direct connection between source & destination hosts
* VIR_MIGRATE_TUNNELLED Tunnel migration data over the libvirt RPC channel
* VIR_MIGRATE_PERSIST_DEST If the migration is successful, persist the domain
* on the destination host.
* VIR_MIGRATE_UNDEFINE_SOURCE If the migration is successful, undefine the
* domain on the source host.
* VIR_MIGRATE_PAUSED Leave the domain suspended on the remote side.
* VIR_MIGRATE_CHANGE_PROTECTION Protect against domain configuration
* changes during the migration process (set
* automatically when supported).
* VIR_MIGRATE_UNSAFE Force migration even if it is considered unsafe.
*
* VIR_MIGRATE_TUNNELLED requires that VIR_MIGRATE_PEER2PEER be set.
* Applications using the VIR_MIGRATE_PEER2PEER flag will probably
* prefer to invoke virDomainMigrateToURI, avoiding the need to
* open connection to the destination host themselves.
*
* If a hypervisor supports renaming domains during migration,
* then you may set the dname parameter to the new name (otherwise
* it keeps the same name). If this is not supported by the
* hypervisor, dname must be NULL or else you will get an error.
*
* If the VIR_MIGRATE_PEER2PEER flag is set, the uri parameter
* must be a valid libvirt connection URI, by which the source
* libvirt driver can connect to the destination libvirt. If
* omitted, the dconn connection object will be queried for its
* current URI.
*
* If the VIR_MIGRATE_PEER2PEER flag is NOT set, the URI parameter
* takes a hypervisor specific format. The hypervisor capabilities
* XML includes details of the support URI schemes. If omitted
* the dconn will be asked for a default URI.
*
* In either case it is typically only necessary to specify a
* URI if the destination host has multiple interfaces and a
* specific interface is required to transmit migration data.
*
* The maximum bandwidth (in Mbps) that will be used to do migration
* can be specified with the bandwidth parameter. If set to 0,
* libvirt will choose a suitable default. Some hypervisors do
* not support this feature and will return an error if bandwidth
* is not 0.
*
* To see which features are supported by the current hypervisor,
* see virConnectGetCapabilities, /capabilities/host/migration_features.
*
* There are many limitations on migration imposed by the underlying
* technology - for example it may not be possible to migrate between
* different processors even with the same architecture, or between
* different types of hypervisor.
*
* Returns the new domain object if the migration was successful,
* or NULL in case of error. Note that the new domain object
* exists in the scope of the destination connection (dconn).
*/
virDomainPtr
virDomainMigrate(virDomainPtr domain,
virConnectPtr dconn,
unsigned long flags,
const char *dname,
const char *uri,
unsigned long bandwidth)
{
virDomainPtr ddomain = NULL;
VIR_DOMAIN_DEBUG(domain,
"dconn=%p, flags=%lx, dname=%s, uri=%s, bandwidth=%lu",
dconn, flags, NULLSTR(dname), NULLSTR(uri), bandwidth);
virResetLastError();
/* First checkout the source */
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
/* Now checkout the destination */
if (!VIR_IS_CONNECT(dconn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
goto error;
}
if (dconn->flags & VIR_CONNECT_RO) {
/* NB, deliberately report error against source object, not dest */
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (flags & VIR_MIGRATE_PEER2PEER) {
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_P2P)) {
char *dstURI = NULL;
if (uri == NULL) {
dstURI = virConnectGetURI(dconn);
if (!dstURI)
return NULL;
}
VIR_DEBUG("Using peer2peer migration");
if (virDomainMigratePeer2Peer(domain, NULL, flags, dname,
uri ? uri : dstURI, NULL, bandwidth) < 0) {
VIR_FREE(dstURI);
goto error;
}
VIR_FREE(dstURI);
ddomain = virDomainLookupByName(dconn, dname ? dname : domain->name);
} else {
/* This driver does not support peer to peer migration */
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
goto error;
}
} else {
/* Change protection requires support only on source side, and
* is only needed in v3 migration, which automatically re-adds
* the flag for just the source side. We mask it out for
* non-peer2peer to allow migration from newer source to an
* older destination that rejects the flag. */
if (flags & VIR_MIGRATE_CHANGE_PROTECTION &&
!VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATE_CHANGE_PROTECTION)) {
virLibConnError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s",
_("cannot enforce change protection"));
goto error;
}
flags &= ~VIR_MIGRATE_CHANGE_PROTECTION;
if (flags & VIR_MIGRATE_TUNNELLED) {
virLibConnError(VIR_ERR_OPERATION_INVALID, "%s",
_("cannot perform tunnelled migration without using peer2peer flag"));
goto error;
}
/* Check that migration is supported by both drivers. */
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_V3) &&
VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn,
VIR_DRV_FEATURE_MIGRATION_V3)) {
VIR_DEBUG("Using migration protocol 3");
ddomain = virDomainMigrateVersion3(domain, dconn, NULL,
flags, dname, uri, bandwidth);
} else if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_V2) &&
VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn,
VIR_DRV_FEATURE_MIGRATION_V2)) {
VIR_DEBUG("Using migration protocol 2");
ddomain = virDomainMigrateVersion2(domain, dconn, flags,
dname, uri, bandwidth);
} else if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_V1) &&
VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn,
VIR_DRV_FEATURE_MIGRATION_V1)) {
VIR_DEBUG("Using migration protocol 1");
ddomain = virDomainMigrateVersion1(domain, dconn, flags,
dname, uri, bandwidth);
} else {
/* This driver does not support any migration method */
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
goto error;
}
}
if (ddomain == NULL)
goto error;
return ddomain;
error:
virDispatchError(domain->conn);
return NULL;
}
/**
* virDomainMigrate2:
* @domain: a domain object
* @dconn: destination host (a connection object)
* @flags: bitwise-OR of virDomainMigrateFlags
* @dxml: (optional) XML config for launching guest on target
* @dname: (optional) rename domain to this at destination
* @uri: (optional) dest hostname/URI as seen from the source host
* @bandwidth: (optional) specify migration bandwidth limit in Mbps
*
* Migrate the domain object from its current host to the destination
* host given by dconn (a connection to the destination host).
*
* Flags may be one of more of the following:
* VIR_MIGRATE_LIVE Do not pause the VM during migration
* VIR_MIGRATE_PEER2PEER Direct connection between source & destination hosts
* VIR_MIGRATE_TUNNELLED Tunnel migration data over the libvirt RPC channel
* VIR_MIGRATE_PERSIST_DEST If the migration is successful, persist the domain
* on the destination host.
* VIR_MIGRATE_UNDEFINE_SOURCE If the migration is successful, undefine the
* domain on the source host.
* VIR_MIGRATE_PAUSED Leave the domain suspended on the remote side.
* VIR_MIGRATE_CHANGE_PROTECTION Protect against domain configuration
* changes during the migration process (set
* automatically when supported).
* VIR_MIGRATE_UNSAFE Force migration even if it is considered unsafe.
*
* VIR_MIGRATE_TUNNELLED requires that VIR_MIGRATE_PEER2PEER be set.
* Applications using the VIR_MIGRATE_PEER2PEER flag will probably
* prefer to invoke virDomainMigrateToURI, avoiding the need to
* open connection to the destination host themselves.
*
* If a hypervisor supports renaming domains during migration,
* then you may set the dname parameter to the new name (otherwise
* it keeps the same name). If this is not supported by the
* hypervisor, dname must be NULL or else you will get an error.
*
* If the VIR_MIGRATE_PEER2PEER flag is set, the uri parameter
* must be a valid libvirt connection URI, by which the source
* libvirt driver can connect to the destination libvirt. If
* omitted, the dconn connection object will be queried for its
* current URI.
*
* If the VIR_MIGRATE_PEER2PEER flag is NOT set, the URI parameter
* takes a hypervisor specific format. The hypervisor capabilities
* XML includes details of the support URI schemes. If omitted
* the dconn will be asked for a default URI.
*
* In either case it is typically only necessary to specify a
* URI if the destination host has multiple interfaces and a
* specific interface is required to transmit migration data.
*
* The maximum bandwidth (in Mbps) that will be used to do migration
* can be specified with the bandwidth parameter. If set to 0,
* libvirt will choose a suitable default. Some hypervisors do
* not support this feature and will return an error if bandwidth
* is not 0.
*
* To see which features are supported by the current hypervisor,
* see virConnectGetCapabilities, /capabilities/host/migration_features.
*
* There are many limitations on migration imposed by the underlying
* technology - for example it may not be possible to migrate between
* different processors even with the same architecture, or between
* different types of hypervisor.
*
* If the hypervisor supports it, @dxml can be used to alter
* host-specific portions of the domain XML that will be used on
* the destination. For example, it is possible to alter the
* backing filename that is associated with a disk device, in order
* to account for naming differences between source and destination
* in accessing the underlying storage. The migration will fail
* if @dxml would cause any guest-visible changes. Pass NULL
* if no changes are needed to the XML between source and destination.
* @dxml cannot be used to rename the domain during migration (use
* @dname for that purpose). Domain name in @dxml must match the
* original domain name.
*
* Returns the new domain object if the migration was successful,
* or NULL in case of error. Note that the new domain object
* exists in the scope of the destination connection (dconn).
*/
virDomainPtr
virDomainMigrate2(virDomainPtr domain,
virConnectPtr dconn,
const char *dxml,
unsigned long flags,
const char *dname,
const char *uri,
unsigned long bandwidth)
{
virDomainPtr ddomain = NULL;
VIR_DOMAIN_DEBUG(domain,
"dconn=%p, flags=%lx, dname=%s, uri=%s, bandwidth=%lu",
dconn, flags, NULLSTR(dname), NULLSTR(uri), bandwidth);
virResetLastError();
/* First checkout the source */
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
/* Now checkout the destination */
if (!VIR_IS_CONNECT(dconn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
goto error;
}
if (dconn->flags & VIR_CONNECT_RO) {
/* NB, deliberately report error against source object, not dest */
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (flags & VIR_MIGRATE_PEER2PEER) {
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_P2P)) {
char *dstURI = virConnectGetURI(dconn);
if (!dstURI)
return NULL;
VIR_DEBUG("Using peer2peer migration");
if (virDomainMigratePeer2Peer(domain, dxml, flags, dname,
dstURI, uri, bandwidth) < 0) {
VIR_FREE(dstURI);
goto error;
}
VIR_FREE(dstURI);
ddomain = virDomainLookupByName(dconn, dname ? dname : domain->name);
} else {
/* This driver does not support peer to peer migration */
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
goto error;
}
} else {
/* Change protection requires support only on source side, and
* is only needed in v3 migration, which automatically re-adds
* the flag for just the source side. We mask it out for
* non-peer2peer to allow migration from newer source to an
* older destination that rejects the flag. */
if (flags & VIR_MIGRATE_CHANGE_PROTECTION &&
!VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATE_CHANGE_PROTECTION)) {
virLibConnError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s",
_("cannot enforce change protection"));
goto error;
}
flags &= ~VIR_MIGRATE_CHANGE_PROTECTION;
if (flags & VIR_MIGRATE_TUNNELLED) {
virLibConnError(VIR_ERR_OPERATION_INVALID, "%s",
_("cannot perform tunnelled migration without using peer2peer flag"));
goto error;
}
/* Check that migration is supported by both drivers. */
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_V3) &&
VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn,
VIR_DRV_FEATURE_MIGRATION_V3)) {
VIR_DEBUG("Using migration protocol 3");
ddomain = virDomainMigrateVersion3(domain, dconn, dxml,
flags, dname, uri, bandwidth);
} else if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_V2) &&
VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn,
VIR_DRV_FEATURE_MIGRATION_V2)) {
VIR_DEBUG("Using migration protocol 2");
if (dxml) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("Unable to change target guest XML during migration"));
goto error;
}
ddomain = virDomainMigrateVersion2(domain, dconn, flags,
dname, uri, bandwidth);
} else if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_V1) &&
VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn,
VIR_DRV_FEATURE_MIGRATION_V1)) {
VIR_DEBUG("Using migration protocol 1");
if (dxml) {
virLibConnError(VIR_ERR_INTERNAL_ERROR, "%s",
_("Unable to change target guest XML during migration"));
goto error;
}
ddomain = virDomainMigrateVersion1(domain, dconn, flags,
dname, uri, bandwidth);
} else {
/* This driver does not support any migration method */
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
goto error;
}
}
if (ddomain == NULL)
goto error;
return ddomain;
error:
virDispatchError(domain->conn);
return NULL;
}
/**
* virDomainMigrateToURI:
* @domain: a domain object
* @duri: mandatory URI for the destination host
* @flags: bitwise-OR of virDomainMigrateFlags
* @dname: (optional) rename domain to this at destination
* @bandwidth: (optional) specify migration bandwidth limit in Mbps
*
* Migrate the domain object from its current host to the destination
* host given by duri.
*
* Flags may be one of more of the following:
* VIR_MIGRATE_LIVE Do not pause the VM during migration
* VIR_MIGRATE_PEER2PEER Direct connection between source & destination hosts
* VIR_MIGRATE_TUNNELLED Tunnel migration data over the libvirt RPC channel
* VIR_MIGRATE_PERSIST_DEST If the migration is successful, persist the domain
* on the destination host.
* VIR_MIGRATE_UNDEFINE_SOURCE If the migration is successful, undefine the
* domain on the source host.
* VIR_MIGRATE_CHANGE_PROTECTION Protect against domain configuration
* changes during the migration process (set
* automatically when supported).
* VIR_MIGRATE_UNSAFE Force migration even if it is considered unsafe.
*
* The operation of this API hinges on the VIR_MIGRATE_PEER2PEER flag.
* If the VIR_MIGRATE_PEER2PEER flag is NOT set, the duri parameter
* takes a hypervisor specific format. The uri_transports element of the
* hypervisor capabilities XML includes details of the supported URI
* schemes. Not all hypervisors will support this mode of migration, so
* if the VIR_MIGRATE_PEER2PEER flag is not set, then it may be necessary
* to use the alternative virDomainMigrate API providing and explicit
* virConnectPtr for the destination host.
*
* If the VIR_MIGRATE_PEER2PEER flag IS set, the duri parameter
* must be a valid libvirt connection URI, by which the source
* libvirt driver can connect to the destination libvirt.
*
* VIR_MIGRATE_TUNNELLED requires that VIR_MIGRATE_PEER2PEER be set.
*
* If a hypervisor supports renaming domains during migration,
* the dname parameter specifies the new name for the domain.
* Setting dname to NULL keeps the domain name the same. If domain
* renaming is not supported by the hypervisor, dname must be NULL or
* else an error will be returned.
*
* The maximum bandwidth (in Mbps) that will be used to do migration
* can be specified with the bandwidth parameter. If set to 0,
* libvirt will choose a suitable default. Some hypervisors do
* not support this feature and will return an error if bandwidth
* is not 0.
*
* To see which features are supported by the current hypervisor,
* see virConnectGetCapabilities, /capabilities/host/migration_features.
*
* There are many limitations on migration imposed by the underlying
* technology - for example it may not be possible to migrate between
* different processors even with the same architecture, or between
* different types of hypervisor.
*
* Returns 0 if the migration succeeded, -1 upon error.
*/
int
virDomainMigrateToURI(virDomainPtr domain,
const char *duri,
unsigned long flags,
const char *dname,
unsigned long bandwidth)
{
VIR_DOMAIN_DEBUG(domain, "duri=%p, flags=%lx, dname=%s, bandwidth=%lu",
NULLSTR(duri), flags, NULLSTR(dname), bandwidth);
virResetLastError();
/* First checkout the source */
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(duri, error);
if (flags & VIR_MIGRATE_PEER2PEER) {
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_P2P)) {
VIR_DEBUG("Using peer2peer migration");
if (virDomainMigratePeer2Peer(domain, NULL, flags,
dname, duri, NULL, bandwidth) < 0)
goto error;
} else {
/* No peer to peer migration supported */
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
goto error;
}
} else {
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_DIRECT)) {
VIR_DEBUG("Using direct migration");
if (virDomainMigrateDirect(domain, NULL, flags,
dname, duri, bandwidth) < 0)
goto error;
} else {
/* Cannot do a migration with only the perform step */
virLibConnError(VIR_ERR_OPERATION_INVALID, "%s",
_("direct migration is not supported by the"
" connection driver"));
goto error;
}
}
return 0;
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainMigrateToURI2:
* @domain: a domain object
* @dconnuri: (optional) URI for target libvirtd if @flags includes VIR_MIGRATE_PEER2PEER
* @miguri: (optional) URI for invoking the migration, not if @flags includs VIR_MIGRATE_TUNNELLED
* @dxml: (optional) XML config for launching guest on target
* @flags: bitwise-OR of virDomainMigrateFlags
* @dname: (optional) rename domain to this at destination
* @bandwidth: (optional) specify migration bandwidth limit in Mbps
*
* Migrate the domain object from its current host to the destination
* host given by duri.
*
* Flags may be one of more of the following:
* VIR_MIGRATE_LIVE Do not pause the VM during migration
* VIR_MIGRATE_PEER2PEER Direct connection between source & destination hosts
* VIR_MIGRATE_TUNNELLED Tunnel migration data over the libvirt RPC channel
* VIR_MIGRATE_PERSIST_DEST If the migration is successful, persist the domain
* on the destination host.
* VIR_MIGRATE_UNDEFINE_SOURCE If the migration is successful, undefine the
* domain on the source host.
* VIR_MIGRATE_CHANGE_PROTECTION Protect against domain configuration
* changes during the migration process (set
* automatically when supported).
* VIR_MIGRATE_UNSAFE Force migration even if it is considered unsafe.
*
* The operation of this API hinges on the VIR_MIGRATE_PEER2PEER flag.
*
* If the VIR_MIGRATE_PEER2PEER flag is set, the @dconnuri parameter
* must be a valid libvirt connection URI, by which the source
* libvirt driver can connect to the destination libvirt. If the
* VIR_MIGRATE_PEER2PEER flag is NOT set, then @dconnuri must be
* NULL.
*
* If the VIR_MIGRATE_TUNNELLED flag is NOT set, then the @miguri
* parameter allows specification of a URI to use to initiate the
* VM migration. It takes a hypervisor specific format. The uri_transports
* element of the hypervisor capabilities XML includes details of the
* supported URI schemes.
*
* VIR_MIGRATE_TUNNELLED requires that VIR_MIGRATE_PEER2PEER be set.
*
* If a hypervisor supports changing the configuration of the guest
* during migration, the @dxml parameter specifies the new config
* for the guest. The configuration must include an identical set
* of virtual devices, to ensure a stable guest ABI across migration.
* Only parameters related to host side configuration can be
* changed in the XML. Hypervisors will validate this and refuse to
* allow migration if the provided XML would cause a change in the
* guest ABI,
*
* If a hypervisor supports renaming domains during migration,
* the dname parameter specifies the new name for the domain.
* Setting dname to NULL keeps the domain name the same. If domain
* renaming is not supported by the hypervisor, dname must be NULL or
* else an error will be returned.
*
* The maximum bandwidth (in Mbps) that will be used to do migration
* can be specified with the bandwidth parameter. If set to 0,
* libvirt will choose a suitable default. Some hypervisors do
* not support this feature and will return an error if bandwidth
* is not 0.
*
* To see which features are supported by the current hypervisor,
* see virConnectGetCapabilities, /capabilities/host/migration_features.
*
* There are many limitations on migration imposed by the underlying
* technology - for example it may not be possible to migrate between
* different processors even with the same architecture, or between
* different types of hypervisor.
*
* Returns 0 if the migration succeeded, -1 upon error.
*/
int
virDomainMigrateToURI2(virDomainPtr domain,
const char *dconnuri,
const char *miguri,
const char *dxml,
unsigned long flags,
const char *dname,
unsigned long bandwidth)
{
VIR_DOMAIN_DEBUG(domain, "dconnuri=%s, miguri=%s, dxml=%s, "
"flags=%lx, dname=%s, bandwidth=%lu",
NULLSTR(dconnuri), NULLSTR(miguri), NULLSTR(dxml),
flags, NULLSTR(dname), bandwidth);
virResetLastError();
/* First checkout the source */
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (flags & VIR_MIGRATE_PEER2PEER) {
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_P2P)) {
VIR_DEBUG("Using peer2peer migration");
if (virDomainMigratePeer2Peer(domain, dxml, flags,
dname, dconnuri, miguri, bandwidth) < 0)
goto error;
} else {
/* No peer to peer migration supported */
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
goto error;
}
} else {
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_MIGRATION_DIRECT)) {
VIR_DEBUG("Using direct migration");
if (virDomainMigrateDirect(domain, dxml, flags,
dname, miguri, bandwidth) < 0)
goto error;
} else {
/* Cannot do a migration with only the perform step */
virLibConnError(VIR_ERR_OPERATION_INVALID, "%s",
_("direct migration is not supported by the"
" connection driver"));
goto error;
}
}
return 0;
error:
virDispatchError(domain->conn);
return -1;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
int
virDomainMigratePrepare(virConnectPtr dconn,
char **cookie,
int *cookielen,
const char *uri_in,
char **uri_out,
unsigned long flags,
const char *dname,
unsigned long bandwidth)
{
VIR_DEBUG("dconn=%p, cookie=%p, cookielen=%p, uri_in=%s, uri_out=%p, "
"flags=%lx, dname=%s, bandwidth=%lu", dconn, cookie, cookielen,
NULLSTR(uri_in), uri_out, flags, NULLSTR(dname), bandwidth);
virResetLastError();
if (!VIR_IS_CONNECT(dconn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dconn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dconn->driver->domainMigratePrepare) {
int ret;
ret = dconn->driver->domainMigratePrepare(dconn, cookie, cookielen,
uri_in, uri_out,
flags, dname, bandwidth);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dconn);
return -1;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
int
virDomainMigratePerform(virDomainPtr domain,
const char *cookie,
int cookielen,
const char *uri,
unsigned long flags,
const char *dname,
unsigned long bandwidth)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "cookie=%p, cookielen=%d, uri=%s, flags=%lx, "
"dname=%s, bandwidth=%lu", cookie, cookielen, uri, flags,
NULLSTR(dname), bandwidth);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainMigratePerform) {
int ret;
ret = conn->driver->domainMigratePerform(domain, cookie, cookielen,
uri,
flags, dname, bandwidth);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
virDomainPtr
virDomainMigrateFinish(virConnectPtr dconn,
const char *dname,
const char *cookie,
int cookielen,
const char *uri,
unsigned long flags)
{
VIR_DEBUG("dconn=%p, dname=%s, cookie=%p, cookielen=%d, uri=%s, "
"flags=%lx", dconn, NULLSTR(dname), cookie, cookielen,
uri, flags);
virResetLastError();
if (!VIR_IS_CONNECT(dconn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (dconn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dconn->driver->domainMigrateFinish) {
virDomainPtr ret;
ret = dconn->driver->domainMigrateFinish(dconn, dname,
cookie, cookielen,
uri, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dconn);
return NULL;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
int
virDomainMigratePrepare2(virConnectPtr dconn,
char **cookie,
int *cookielen,
const char *uri_in,
char **uri_out,
unsigned long flags,
const char *dname,
unsigned long bandwidth,
const char *dom_xml)
{
VIR_DEBUG("dconn=%p, cookie=%p, cookielen=%p, uri_in=%s, uri_out=%p,"
"flags=%lx, dname=%s, bandwidth=%lu, dom_xml=%s", dconn,
cookie, cookielen, uri_in, uri_out, flags, NULLSTR(dname),
bandwidth, dom_xml);
virResetLastError();
if (!VIR_IS_CONNECT(dconn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dconn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dconn->driver->domainMigratePrepare2) {
int ret;
ret = dconn->driver->domainMigratePrepare2(dconn, cookie, cookielen,
uri_in, uri_out,
flags, dname, bandwidth,
dom_xml);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dconn);
return -1;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
virDomainPtr
virDomainMigrateFinish2(virConnectPtr dconn,
const char *dname,
const char *cookie,
int cookielen,
const char *uri,
unsigned long flags,
int retcode)
{
VIR_DEBUG("dconn=%p, dname=%s, cookie=%p, cookielen=%d, uri=%s, "
"flags=%lx, retcode=%d", dconn, NULLSTR(dname), cookie,
cookielen, uri, flags, retcode);
virResetLastError();
if (!VIR_IS_CONNECT(dconn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (dconn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dconn->driver->domainMigrateFinish2) {
virDomainPtr ret;
ret = dconn->driver->domainMigrateFinish2(dconn, dname,
cookie, cookielen,
uri, flags,
retcode);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dconn);
return NULL;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
int
virDomainMigratePrepareTunnel(virConnectPtr conn,
virStreamPtr st,
unsigned long flags,
const char *dname,
unsigned long bandwidth,
const char *dom_xml)
{
VIR_DEBUG("conn=%p, stream=%p, flags=%lx, dname=%s, "
"bandwidth=%lu, dom_xml=%s", conn, st, flags,
NULLSTR(dname), bandwidth, dom_xml);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn != st->conn) {
virReportInvalidArg(conn,
_("conn in %s must match stream connection"),
__FUNCTION__);
goto error;
}
if (conn->driver->domainMigratePrepareTunnel) {
int rv = conn->driver->domainMigratePrepareTunnel(conn, st,
flags, dname,
bandwidth, dom_xml);
if (rv < 0)
goto error;
return rv;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
char *
virDomainMigrateBegin3(virDomainPtr domain,
const char *xmlin,
char **cookieout,
int *cookieoutlen,
unsigned long flags,
const char *dname,
unsigned long bandwidth)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "xmlin=%s cookieout=%p, cookieoutlen=%p, "
"flags=%lx, dname=%s, bandwidth=%lu",
NULLSTR(xmlin), cookieout, cookieoutlen, flags,
NULLSTR(dname), bandwidth);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = domain->conn;
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainMigrateBegin3) {
char *xml;
xml = conn->driver->domainMigrateBegin3(domain, xmlin,
cookieout, cookieoutlen,
flags, dname, bandwidth);
VIR_DEBUG("xml %s", NULLSTR(xml));
if (!xml)
goto error;
return xml;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return NULL;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
int
virDomainMigratePrepare3(virConnectPtr dconn,
const char *cookiein,
int cookieinlen,
char **cookieout,
int *cookieoutlen,
const char *uri_in,
char **uri_out,
unsigned long flags,
const char *dname,
unsigned long bandwidth,
const char *dom_xml)
{
VIR_DEBUG("dconn=%p, cookiein=%p, cookieinlen=%d, cookieout=%p, "
"cookieoutlen=%p, uri_in=%s, uri_out=%p, flags=%lx, dname=%s, "
"bandwidth=%lu, dom_xml=%s",
dconn, cookiein, cookieinlen, cookieout, cookieoutlen, uri_in,
uri_out, flags, NULLSTR(dname), bandwidth, dom_xml);
virResetLastError();
if (!VIR_IS_CONNECT(dconn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dconn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dconn->driver->domainMigratePrepare3) {
int ret;
ret = dconn->driver->domainMigratePrepare3(dconn,
cookiein, cookieinlen,
cookieout, cookieoutlen,
uri_in, uri_out,
flags, dname, bandwidth,
dom_xml);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dconn);
return -1;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
int
virDomainMigratePrepareTunnel3(virConnectPtr conn,
virStreamPtr st,
const char *cookiein,
int cookieinlen,
char **cookieout,
int *cookieoutlen,
unsigned long flags,
const char *dname,
unsigned long bandwidth,
const char *dom_xml)
{
VIR_DEBUG("conn=%p, stream=%p, cookiein=%p, cookieinlen=%d, cookieout=%p, "
"cookieoutlen=%p, flags=%lx, dname=%s, bandwidth=%lu, "
"dom_xml=%s",
conn, st, cookiein, cookieinlen, cookieout, cookieoutlen, flags,
NULLSTR(dname), bandwidth, dom_xml);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn != st->conn) {
virReportInvalidArg(conn,
_("conn in %s must match stream connection"),
__FUNCTION__);
goto error;
}
if (conn->driver->domainMigratePrepareTunnel3) {
int rv = conn->driver->domainMigratePrepareTunnel3(conn, st,
cookiein, cookieinlen,
cookieout, cookieoutlen,
flags, dname,
bandwidth, dom_xml);
if (rv < 0)
goto error;
return rv;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
int
virDomainMigratePerform3(virDomainPtr domain,
const char *xmlin,
const char *cookiein,
int cookieinlen,
char **cookieout,
int *cookieoutlen,
const char *dconnuri,
const char *uri,
unsigned long flags,
const char *dname,
unsigned long bandwidth)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "xmlin=%s cookiein=%p, cookieinlen=%d, "
"cookieout=%p, cookieoutlen=%p, dconnuri=%s, "
"uri=%s, flags=%lx, dname=%s, bandwidth=%lu",
NULLSTR(xmlin), cookiein, cookieinlen,
cookieout, cookieoutlen, NULLSTR(dconnuri),
NULLSTR(uri), flags, NULLSTR(dname), bandwidth);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainMigratePerform3) {
int ret;
ret = conn->driver->domainMigratePerform3(domain, xmlin,
cookiein, cookieinlen,
cookieout, cookieoutlen,
dconnuri, uri,
flags, dname, bandwidth);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
virDomainPtr
virDomainMigrateFinish3(virConnectPtr dconn,
const char *dname,
const char *cookiein,
int cookieinlen,
char **cookieout,
int *cookieoutlen,
const char *dconnuri,
const char *uri,
unsigned long flags,
int cancelled)
{
VIR_DEBUG("dconn=%p, dname=%s, cookiein=%p, cookieinlen=%d, cookieout=%p,"
"cookieoutlen=%p, dconnuri=%s, uri=%s, flags=%lx, retcode=%d",
dconn, NULLSTR(dname), cookiein, cookieinlen, cookieout,
cookieoutlen, NULLSTR(dconnuri), NULLSTR(uri), flags, cancelled);
virResetLastError();
if (!VIR_IS_CONNECT(dconn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (dconn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dconn->driver->domainMigrateFinish3) {
virDomainPtr ret;
ret = dconn->driver->domainMigrateFinish3(dconn, dname,
cookiein, cookieinlen,
cookieout, cookieoutlen,
dconnuri, uri, flags,
cancelled);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dconn);
return NULL;
}
/*
* Not for public use. This function is part of the internal
* implementation of migration in the remote case.
*/
int
virDomainMigrateConfirm3(virDomainPtr domain,
const char *cookiein,
int cookieinlen,
unsigned long flags,
int cancelled)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain,
"cookiein=%p, cookieinlen=%d, flags=%lx, cancelled=%d",
cookiein, cookieinlen, flags, cancelled);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainMigrateConfirm3) {
int ret;
ret = conn->driver->domainMigrateConfirm3(domain,
cookiein, cookieinlen,
flags, cancelled);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virNodeGetInfo:
* @conn: pointer to the hypervisor connection
* @info: pointer to a virNodeInfo structure allocated by the user
*
* Extract hardware information about the node.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virNodeGetInfo(virConnectPtr conn, virNodeInfoPtr info)
{
VIR_DEBUG("conn=%p, info=%p", conn, info);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(info, error);
if (conn->driver->nodeGetInfo) {
int ret;
ret = conn->driver->nodeGetInfo(conn, info);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectGetCapabilities:
* @conn: pointer to the hypervisor connection
*
* Provides capabilities of the hypervisor / driver.
*
* Returns NULL in case of error, or an XML string
* defining the capabilities.
* The client must free the returned string after use.
*/
char *
virConnectGetCapabilities(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->driver->getCapabilities) {
char *ret;
ret = conn->driver->getCapabilities(conn);
if (!ret)
goto error;
VIR_DEBUG("conn=%p ret=%s", conn, ret);
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNodeGetCPUStats:
* @conn: pointer to the hypervisor connection.
* @cpuNum: number of node cpu. (VIR_NODE_CPU_STATS_ALL_CPUS means total cpu
* statistics)
* @params: pointer to node cpu time parameter objects
* @nparams: number of node cpu time parameter (this value should be same or
* less than the number of parameters supported)
* @flags: extra flags; not used yet, so callers should always pass 0
*
* This function provides individual cpu statistics of the node.
* If you want to get total cpu statistics of the node, you must specify
* VIR_NODE_CPU_STATS_ALL_CPUS to @cpuNum.
* The @params array will be filled with the values equal to the number of
* parameters suggested by @nparams
*
* As the value of @nparams is dynamic, call the API setting @nparams to 0 and
* @params as NULL, the API returns the number of parameters supported by the
* HV by updating @nparams on SUCCESS. The caller should then allocate @params
* array, i.e. (sizeof(@virNodeCPUStats) * @nparams) bytes and call
* the API again.
*
* Here is a sample code snippet:
*
* if ((virNodeGetCPUStats(conn, cpuNum, NULL, &nparams, 0) == 0) &&
* (nparams != 0)) {
* if ((params = malloc(sizeof(virNodeCPUStats) * nparams)) == NULL)
* goto error;
* memset(params, 0, sizeof(virNodeCPUStats) * nparams);
* if (virNodeGetCPUStats(conn, cpuNum, params, &nparams, 0))
* goto error;
* }
*
* This function doesn't require privileged access to the hypervisor.
* This function expects the caller to allocate the @params.
*
* CPU time Statistics:
*
* VIR_NODE_CPU_STATS_KERNEL:
* The cumulative CPU time which spends by kernel,
* when the node booting up.(nanoseconds)
* VIR_NODE_CPU_STATS_USER:
* The cumulative CPU time which spends by user processes,
* when the node booting up.(nanoseconds)
* VIR_NODE_CPU_STATS_IDLE:
* The cumulative idle CPU time, when the node booting up.(nanoseconds)
* VIR_NODE_CPU_STATS_IOWAIT:
* The cumulative I/O wait CPU time, when the node booting up.(nanoseconds)
* VIR_NODE_CPU_STATS_UTILIZATION:
* The CPU utilization. The usage value is in percent and 100%
* represents all CPUs on the server.
*
* Returns -1 in case of error, 0 in case of success.
*/
int virNodeGetCPUStats(virConnectPtr conn,
int cpuNum,
virNodeCPUStatsPtr params,
int *nparams, unsigned int flags)
{
VIR_DEBUG("conn=%p, cpuNum=%d, params=%p, nparams=%d, flags=%x",
conn, cpuNum, params, nparams ? *nparams : -1, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (((cpuNum < 0) && (cpuNum != VIR_NODE_CPU_STATS_ALL_CPUS))) {
virReportInvalidArg(cpuNum,
_("cpuNum in %s only accepts %d as a negative value"),
__FUNCTION__, VIR_NODE_CPU_STATS_ALL_CPUS);
goto error;
}
if (conn->driver->nodeGetCPUStats) {
int ret;
ret = conn->driver->nodeGetCPUStats(conn, cpuNum, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virNodeGetMemoryStats:
* @conn: pointer to the hypervisor connection.
* @cellNum: number of node cell. (VIR_NODE_MEMORY_STATS_ALL_CELLS means total
* cell statistics)
* @params: pointer to node memory stats objects
* @nparams: number of node memory stats (this value should be same or
* less than the number of stats supported)
* @flags: extra flags; not used yet, so callers should always pass 0
*
* This function provides memory stats of the node.
* If you want to get total cpu statistics of the node, you must specify
* VIR_NODE_MEMORY_STATS_ALL_CELLS to @cellNum.
* The @params array will be filled with the values equal to the number of
* stats suggested by @nparams
*
* As the value of @nparams is dynamic, call the API setting @nparams to 0 and
* @params as NULL, the API returns the number of parameters supported by the
* HV by updating @nparams on SUCCESS. The caller should then allocate @params
* array, i.e. (sizeof(@virNodeMemoryStats) * @nparams) bytes and call
* the API again.
*
* Here is the sample code snippet:
*
* if ((virNodeGetMemoryStats(conn, cellNum, NULL, &nparams, 0) == 0) &&
* (nparams != 0)) {
* if ((params = malloc(sizeof(virNodeMemoryStats) * nparams)) == NULL)
* goto error;
* memset(params, cellNum, 0, sizeof(virNodeMemoryStats) * nparams);
* if (virNodeGetMemoryStats(conn, params, &nparams, 0))
* goto error;
* }
*
* This function doesn't require privileged access to the hypervisor.
* This function expects the caller to allocate the @params.
*
* Memory Stats:
*
* VIR_NODE_MEMORY_STATS_TOTAL:
* The total memory usage.(KB)
* VIR_NODE_MEMORY_STATS_FREE:
* The free memory usage.(KB)
* On linux, this usage includes buffers and cached.
* VIR_NODE_MEMORY_STATS_BUFFERS:
* The buffers memory usage.(KB)
* VIR_NODE_MEMORY_STATS_CACHED:
* The cached memory usage.(KB)
*
* Returns -1 in case of error, 0 in case of success.
*/
int virNodeGetMemoryStats(virConnectPtr conn,
int cellNum,
virNodeMemoryStatsPtr params,
int *nparams, unsigned int flags)
{
VIR_DEBUG("conn=%p, cellNum=%d, params=%p, nparams=%d, flags=%x",
conn, cellNum, params, nparams ? *nparams : -1, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (((cellNum < 0) && (cellNum != VIR_NODE_MEMORY_STATS_ALL_CELLS))) {
virReportInvalidArg(cpuNum,
_("cellNum in %s only accepts %d as a negative value"),
__FUNCTION__, VIR_NODE_MEMORY_STATS_ALL_CELLS);
goto error;
}
if (conn->driver->nodeGetMemoryStats) {
int ret;
ret = conn->driver->nodeGetMemoryStats(conn, cellNum, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virNodeGetFreeMemory:
* @conn: pointer to the hypervisor connection
*
* provides the free memory available on the Node
* Note: most libvirt APIs provide memory sizes in kibibytes, but in this
* function the returned value is in bytes. Divide by 1024 as necessary.
*
* Returns the available free memory in bytes or 0 in case of error
*/
unsigned long long
virNodeGetFreeMemory(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return 0;
}
if (conn->driver->nodeGetFreeMemory) {
unsigned long long ret;
ret = conn->driver->nodeGetFreeMemory(conn);
if (ret == 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return 0;
}
/**
* virNodeSuspendForDuration:
* @conn: pointer to the hypervisor connection
* @target: the state to which the host must be suspended to,
* such as: VIR_NODE_SUSPEND_TARGET_MEM (Suspend-to-RAM)
* VIR_NODE_SUSPEND_TARGET_DISK (Suspend-to-Disk)
* VIR_NODE_SUSPEND_TARGET_HYBRID (Hybrid-Suspend,
* which is a combination of the former modes).
* @duration: the time duration in seconds for which the host
* has to be suspended
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Attempt to suspend the node (host machine) for the given duration of
* time in the specified state (Suspend-to-RAM, Suspend-to-Disk or
* Hybrid-Suspend). Schedule the node's Real-Time-Clock interrupt to
* resume the node after the duration is complete.
*
* Returns 0 on success (i.e., the node will be suspended after a short
* delay), -1 on failure (the operation is not supported, or an attempted
* suspend is already underway).
*/
int
virNodeSuspendForDuration(virConnectPtr conn,
unsigned int target,
unsigned long long duration,
unsigned int flags)
{
VIR_DEBUG("conn=%p, target=%d, duration=%lld", conn, target, duration);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->nodeSuspendForDuration) {
int ret;
ret = conn->driver->nodeSuspendForDuration(conn, target,
duration, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/*
* virNodeGetMemoryParameters:
* @conn: pointer to the hypervisor connection
* @params: pointer to memory parameter object
* (return value, allocated by the caller)
* @nparams: pointer to number of memory parameters; input and output
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Get all node memory parameters. On input, @nparams gives the size
* of the @params array; on output, @nparams gives how many slots were
* filled with parameter information, which might be less but will
* not exceed the input value.
*
* As a special case, calling with @params as NULL and @nparams as 0 on
* input will cause @nparams on output to contain the number of parameters
* supported by the hypervisor. The caller should then allocate @params
* array, i.e. (sizeof(@virTypedParameter) * @nparams) bytes and call the API
* again. See virDomainGetMemoryParameters() for an equivalent usage
* example.
*
* Returns 0 in case of success, and -1 in case of failure.
*/
int
virNodeGetMemoryParameters(virConnectPtr conn,
virTypedParameterPtr params,
int *nparams,
unsigned int flags)
{
VIR_DEBUG("conn=%p, params=%p, nparams=%p, flags=%x",
conn, params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (*nparams != 0)
virCheckNonNullArgGoto(params, error);
if (VIR_DRV_SUPPORTS_FEATURE(conn->driver, conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
if (conn->driver->nodeGetMemoryParameters) {
int ret;
ret = conn->driver->nodeGetMemoryParameters(conn, params,
nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/*
* virNodeSetMemoryParameters:
* @conn: pointer to the hypervisor connection
* @params: pointer to scheduler parameter objects
* @nparams: number of scheduler parameter objects
* (this value can be the same or less than the returned
* value nparams of virDomainGetSchedulerType)
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Change all or a subset of the node memory tunables.
*
* Note that it's not recommended to use this function while the
* outside tuning program is running (such as ksmtuned under Linux),
* as they could change the tunables in parallel, which could cause
* conflicts.
*
* This function may require privileged access to the hypervisor.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virNodeSetMemoryParameters(virConnectPtr conn,
virTypedParameterPtr params,
int nparams,
unsigned int flags)
{
VIR_DEBUG("conn=%p, params=%p, nparams=%d, flags=%x",
conn, params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(params, error);
virCheckNonNegativeArgGoto(nparams, error);
if (virTypedParameterValidateSet(conn, params, nparams) < 0)
goto error;
if (conn->driver->nodeSetMemoryParameters) {
int ret;
ret = conn->driver->nodeSetMemoryParameters(conn, params,
nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainGetSchedulerType:
* @domain: pointer to domain object
* @nparams: pointer to number of scheduler parameters, can be NULL
* (return value)
*
* Get the scheduler type and the number of scheduler parameters.
*
* Returns NULL in case of error. The caller must free the returned string.
*/
char *
virDomainGetSchedulerType(virDomainPtr domain, int *nparams)
{
virConnectPtr conn;
char *schedtype;
VIR_DOMAIN_DEBUG(domain, "nparams=%p", nparams);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = domain->conn;
if (conn->driver->domainGetSchedulerType){
schedtype = conn->driver->domainGetSchedulerType(domain, nparams);
if (!schedtype)
goto error;
return schedtype;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return NULL;
}
/**
* virDomainGetSchedulerParameters:
* @domain: pointer to domain object
* @params: pointer to scheduler parameter objects
* (return value)
* @nparams: pointer to number of scheduler parameter objects
* (this value should generally be as large as the returned value
* nparams of virDomainGetSchedulerType()); input and output
*
* Get all scheduler parameters. On input, @nparams gives the size of the
* @params array; on output, @nparams gives how many slots were filled
* with parameter information, which might be less but will not exceed
* the input value. @nparams cannot be 0.
*
* It is hypervisor specific whether this returns the live or
* persistent state; for more control, use
* virDomainGetSchedulerParametersFlags().
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainGetSchedulerParameters(virDomainPtr domain,
virTypedParameterPtr params, int *nparams)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%p", params, nparams);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(params, error);
virCheckNonNullArgGoto(nparams, error);
virCheckPositiveArgGoto(*nparams, error);
conn = domain->conn;
if (conn->driver->domainGetSchedulerParameters) {
int ret;
ret = conn->driver->domainGetSchedulerParameters(domain, params, nparams);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetSchedulerParametersFlags:
* @domain: pointer to domain object
* @params: pointer to scheduler parameter object
* (return value)
* @nparams: pointer to number of scheduler parameter
* (this value should be same than the returned value
* nparams of virDomainGetSchedulerType()); input and output
* @flags: bitwise-OR of virDomainModificationImpact and virTypedParameterFlags
*
* Get all scheduler parameters. On input, @nparams gives the size of the
* @params array; on output, @nparams gives how many slots were filled
* with parameter information, which might be less but will not exceed
* the input value. @nparams cannot be 0.
*
* The value of @flags can be exactly VIR_DOMAIN_AFFECT_CURRENT,
* VIR_DOMAIN_AFFECT_LIVE, or VIR_DOMAIN_AFFECT_CONFIG.
*
* Here is a sample code snippet:
*
* char *ret = virDomainGetSchedulerType(dom, &nparams);
* if (ret && nparams != 0) {
* if ((params = malloc(sizeof(*params) * nparams)) == NULL)
* goto error;
* memset(params, 0, sizeof(*params) * nparams);
* if (virDomainGetSchedulerParametersFlags(dom, params, &nparams, 0))
* goto error;
* }
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainGetSchedulerParametersFlags(virDomainPtr domain,
virTypedParameterPtr params, int *nparams,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%p, flags=%x",
params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(params, error);
virCheckNonNullArgGoto(nparams, error);
virCheckPositiveArgGoto(*nparams, error);
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_AFFECT_LIVE) &&
(flags & VIR_DOMAIN_AFFECT_CONFIG)) {
virReportInvalidArg(flags,
_("flags 'affect live' and 'affect config' in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainGetSchedulerParametersFlags) {
int ret;
ret = conn->driver->domainGetSchedulerParametersFlags(domain, params,
nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetSchedulerParameters:
* @domain: pointer to domain object
* @params: pointer to scheduler parameter objects
* @nparams: number of scheduler parameter objects
* (this value can be the same or less than the returned value
* nparams of virDomainGetSchedulerType)
*
* Change all or a subset or the scheduler parameters. It is
* hypervisor-specific whether this sets live, persistent, or both
* settings; for more control, use
* virDomainSetSchedulerParametersFlags.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainSetSchedulerParameters(virDomainPtr domain,
virTypedParameterPtr params, int nparams)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d", params, nparams);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(params, error);
virCheckNonNegativeArgGoto(nparams, error);
if (virTypedParameterValidateSet(domain->conn, params, nparams) < 0)
goto error;
conn = domain->conn;
if (conn->driver->domainSetSchedulerParameters) {
int ret;
ret = conn->driver->domainSetSchedulerParameters(domain, params, nparams);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetSchedulerParametersFlags:
* @domain: pointer to domain object
* @params: pointer to scheduler parameter objects
* @nparams: number of scheduler parameter objects
* (this value can be the same or less than the returned value
* nparams of virDomainGetSchedulerType)
* @flags: bitwise-OR of virDomainModificationImpact
*
* Change a subset or all scheduler parameters. The value of @flags
* should be either VIR_DOMAIN_AFFECT_CURRENT, or a bitwise-or of
* values from VIR_DOMAIN_AFFECT_LIVE and
* VIR_DOMAIN_AFFECT_CURRENT, although hypervisors vary in which
* flags are supported.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainSetSchedulerParametersFlags(virDomainPtr domain,
virTypedParameterPtr params,
int nparams,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, flags=%x",
params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(params, error);
virCheckNonNegativeArgGoto(nparams, error);
if (virTypedParameterValidateSet(domain->conn, params, nparams) < 0)
goto error;
conn = domain->conn;
if (conn->driver->domainSetSchedulerParametersFlags) {
int ret;
ret = conn->driver->domainSetSchedulerParametersFlags(domain,
params,
nparams,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainBlockStats:
* @dom: pointer to the domain object
* @disk: path to the block device, or device shorthand
* @stats: block device stats (returned)
* @size: size of stats structure
*
* This function returns block device (disk) stats for block
* devices attached to the domain.
*
* The @disk parameter is either the device target shorthand (the
* <target dev='...'/> sub-element, such as "xvda"), or (since 0.9.8)
* an unambiguous source name of the block device (the <source
* file='...'/> sub-element, such as "/path/to/image"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* Domains may have more than one block device. To get stats for
* each you should make multiple calls to this function.
*
* Individual fields within the stats structure may be returned
* as -1, which indicates that the hypervisor does not support
* that particular statistic.
*
* Returns: 0 in case of success or -1 in case of failure.
*/
int
virDomainBlockStats(virDomainPtr dom, const char *disk,
virDomainBlockStatsPtr stats, size_t size)
{
virConnectPtr conn;
struct _virDomainBlockStats stats2 = { -1, -1, -1, -1, -1 };
VIR_DOMAIN_DEBUG(dom, "disk=%s, stats=%p, size=%zi", disk, stats, size);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(disk, error);
virCheckNonNullArgGoto(stats, error);
if (size > sizeof(stats2)) {
virReportInvalidArg(size,
_("size in %s must not exceed %zu"),
__FUNCTION__, sizeof(stats2));
goto error;
}
conn = dom->conn;
if (conn->driver->domainBlockStats) {
if (conn->driver->domainBlockStats(dom, disk, &stats2) == -1)
goto error;
memcpy(stats, &stats2, size);
return 0;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainBlockStatsFlags:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @params: pointer to block stats parameter object
* (return value)
* @nparams: pointer to number of block stats; input and output
* @flags: bitwise-OR of virTypedParameterFlags
*
* This function is to get block stats parameters for block
* devices attached to the domain.
*
* The @disk parameter is either the device target shorthand (the
* <target dev='...'/> sub-element, such as "xvda"), or (since 0.9.8)
* an unambiguous source name of the block device (the <source
* file='...'/> sub-element, such as "/path/to/image"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* Domains may have more than one block device. To get stats for
* each you should make multiple calls to this function.
*
* On input, @nparams gives the size of the @params array; on output,
* @nparams gives how many slots were filled with parameter
* information, which might be less but will not exceed the input
* value.
*
* As a special case, calling with @params as NULL and @nparams as 0 on
* input will cause @nparams on output to contain the number of parameters
* supported by the hypervisor. (Note that block devices of different types
* might support different parameters, so it might be necessary to compute
* @nparams for each block device). The caller should then allocate @params
* array, i.e. (sizeof(@virTypedParameter) * @nparams) bytes and call the API
* again. See virDomainGetMemoryParameters() for more details.
*
* Returns -1 in case of error, 0 in case of success.
*/
int virDomainBlockStatsFlags(virDomainPtr dom,
const char *disk,
virTypedParameterPtr params,
int *nparams,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, params=%p, nparams=%d, flags=%x",
disk, params, nparams ? *nparams : -1, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(disk, error);
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (*nparams != 0)
virCheckNonNullArgGoto(params, error);
if (VIR_DRV_SUPPORTS_FEATURE(dom->conn->driver, dom->conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
conn = dom->conn;
if (conn->driver->domainBlockStatsFlags) {
int ret;
ret = conn->driver->domainBlockStatsFlags(dom, disk, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainInterfaceStats:
* @dom: pointer to the domain object
* @path: path to the interface
* @stats: network interface stats (returned)
* @size: size of stats structure
*
* This function returns network interface stats for interfaces
* attached to the domain.
*
* The path parameter is the name of the network interface.
*
* Domains may have more than one network interface. To get stats for
* each you should make multiple calls to this function.
*
* Individual fields within the stats structure may be returned
* as -1, which indicates that the hypervisor does not support
* that particular statistic.
*
* Returns: 0 in case of success or -1 in case of failure.
*/
int
virDomainInterfaceStats(virDomainPtr dom, const char *path,
virDomainInterfaceStatsPtr stats, size_t size)
{
virConnectPtr conn;
struct _virDomainInterfaceStats stats2 = { -1, -1, -1, -1,
-1, -1, -1, -1 };
VIR_DOMAIN_DEBUG(dom, "path=%s, stats=%p, size=%zi",
path, stats, size);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(path, error);
virCheckNonNullArgGoto(stats, error);
if (size > sizeof(stats2)) {
virReportInvalidArg(size,
_("size in %s must not exceed %zu"),
__FUNCTION__, sizeof(stats2));
goto error;
}
conn = dom->conn;
if (conn->driver->domainInterfaceStats) {
if (conn->driver->domainInterfaceStats(dom, path, &stats2) == -1)
goto error;
memcpy(stats, &stats2, size);
return 0;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainSetInterfaceParameters:
* @domain: pointer to domain object
* @device: the interface name or mac address
* @params: pointer to interface parameter objects
* @nparams: number of interface parameter (this value can be the same or
* less than the number of parameters supported)
* @flags: bitwise-OR of virDomainModificationImpact
*
* Change a subset or all parameters of interface; currently this
* includes bandwidth parameters. The value of @flags should be
* either VIR_DOMAIN_AFFECT_CURRENT, or a bitwise-or of values
* VIR_DOMAIN_AFFECT_LIVE and VIR_DOMAIN_AFFECT_CONFIG, although
* hypervisors vary in which flags are supported.
*
* This function may require privileged access to the hypervisor.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainSetInterfaceParameters(virDomainPtr domain,
const char *device,
virTypedParameterPtr params,
int nparams, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "device=%s, params=%p, nparams=%d, flags=%x",
device, params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(params, error);
virCheckPositiveArgGoto(nparams, error);
if (virTypedParameterValidateSet(domain->conn, params, nparams) < 0)
goto error;
conn = domain->conn;
if (conn->driver->domainSetInterfaceParameters) {
int ret;
ret = conn->driver->domainSetInterfaceParameters(domain, device,
params, nparams,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetInterfaceParameters:
* @domain: pointer to domain object
* @device: the interface name or mac address
* @params: pointer to interface parameter objects
* (return value, allocated by the caller)
* @nparams: pointer to number of interface parameter; input and output
* @flags: bitwise-OR of virDomainModificationImpact and virTypedParameterFlags
*
* Get all interface parameters. On input, @nparams gives the size of
* the @params array; on output, @nparams gives how many slots were
* filled with parameter information, which might be less but will not
* exceed the input value.
*
* As a special case, calling with @params as NULL and @nparams as 0 on
* input will cause @nparams on output to contain the number of parameters
* supported by the hypervisor. The caller should then allocate @params
* array, i.e. (sizeof(@virTypedParameter) * @nparams) bytes and call the
* API again. See virDomainGetMemoryParameters() for an equivalent usage
* example.
*
* This function may require privileged access to the hypervisor. This function
* expects the caller to allocate the @params.
*
* Returns -1 in case of error, 0 in case of success.
*/
int
virDomainGetInterfaceParameters(virDomainPtr domain,
const char *device,
virTypedParameterPtr params,
int *nparams, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "device=%s, params=%p, nparams=%d, flags=%x",
device, params, (nparams) ? *nparams : -1, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (*nparams != 0)
virCheckNonNullArgGoto(params, error);
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
conn = domain->conn;
if (conn->driver->domainGetInterfaceParameters) {
int ret;
ret = conn->driver->domainGetInterfaceParameters(domain, device,
params, nparams,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainMemoryStats:
* @dom: pointer to the domain object
* @stats: nr_stats-sized array of stat structures (returned)
* @nr_stats: number of memory statistics requested
* @flags: extra flags; not used yet, so callers should always pass 0
*
* This function provides memory statistics for the domain.
*
* Up to 'nr_stats' elements of 'stats' will be populated with memory statistics
* from the domain. Only statistics supported by the domain, the driver, and
* this version of libvirt will be returned.
*
* Memory Statistics:
*
* VIR_DOMAIN_MEMORY_STAT_SWAP_IN:
* The total amount of data read from swap space (in kb).
* VIR_DOMAIN_MEMORY_STAT_SWAP_OUT:
* The total amount of memory written out to swap space (in kb).
* VIR_DOMAIN_MEMORY_STAT_MAJOR_FAULT:
* The number of page faults that required disk IO to service.
* VIR_DOMAIN_MEMORY_STAT_MINOR_FAULT:
* The number of page faults serviced without disk IO.
* VIR_DOMAIN_MEMORY_STAT_UNUSED:
* The amount of memory which is not being used for any purpose (in kb).
* VIR_DOMAIN_MEMORY_STAT_AVAILABLE:
* The total amount of memory available to the domain's OS (in kb).
* VIR_DOMAIN_MEMORY_STAT_ACTUAL_BALLOON:
* Current balloon value (in kb).
*
* Returns: The number of stats provided or -1 in case of failure.
*/
int virDomainMemoryStats(virDomainPtr dom, virDomainMemoryStatPtr stats,
unsigned int nr_stats, unsigned int flags)
{
virConnectPtr conn;
unsigned long nr_stats_ret = 0;
VIR_DOMAIN_DEBUG(dom, "stats=%p, nr_stats=%u, flags=%x",
stats, nr_stats, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (!stats || nr_stats == 0)
return 0;
if (nr_stats > VIR_DOMAIN_MEMORY_STAT_NR)
nr_stats = VIR_DOMAIN_MEMORY_STAT_NR;
conn = dom->conn;
if (conn->driver->domainMemoryStats) {
nr_stats_ret = conn->driver->domainMemoryStats(dom, stats, nr_stats,
flags);
if (nr_stats_ret == -1)
goto error;
return nr_stats_ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainBlockPeek:
* @dom: pointer to the domain object
* @disk: path to the block device, or device shorthand
* @offset: offset within block device
* @size: size to read
* @buffer: return buffer (must be at least size bytes)
* @flags: extra flags; not used yet, so callers should always pass 0
*
* This function allows you to read the contents of a domain's
* disk device.
*
* Typical uses for this are to determine if the domain has
* written a Master Boot Record (indicating that the domain
* has completed installation), or to try to work out the state
* of the domain's filesystems.
*
* (Note that in the local case you might try to open the
* block device or file directly, but that won't work in the
* remote case, nor if you don't have sufficient permission.
* Hence the need for this call).
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or (since 0.9.5) the device target shorthand
* (the <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* 'offset' and 'size' represent an area which must lie entirely
* within the device or file. 'size' may be 0 to test if the
* call would succeed.
*
* 'buffer' is the return buffer and must be at least 'size' bytes.
*
* NB. The remote driver imposes a 64K byte limit on 'size'.
* For your program to be able to work reliably over a remote
* connection you should split large requests to <= 65536 bytes.
* However, with 0.9.13 this RPC limit has been raised to 1M byte.
*
* Returns: 0 in case of success or -1 in case of failure.
*/
int
virDomainBlockPeek(virDomainPtr dom,
const char *disk,
unsigned long long offset /* really 64 bits */,
size_t size,
void *buffer,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, offset=%lld, size=%zi, buffer=%p, flags=%x",
disk, offset, size, buffer, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(disk, error);
/* Allow size == 0 as an access test. */
if (size > 0)
virCheckNonNullArgGoto(buffer, error);
if (conn->driver->domainBlockPeek) {
int ret;
ret = conn->driver->domainBlockPeek(dom, disk, offset, size,
buffer, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainBlockResize:
* @dom: pointer to the domain object
* @disk: path to the block image, or shorthand
* @size: new size of the block image, see below for unit
* @flags: bitwise-OR of virDomainBlockResizeFlags
*
* Resize a block device of domain while the domain is running. If
* @flags is 0, then @size is in kibibytes (blocks of 1024 bytes);
* since 0.9.11, if @flags includes VIR_DOMAIN_BLOCK_RESIZE_BYTES,
* @size is in bytes instead. @size is taken directly as the new
* size. Depending on the file format, the hypervisor may round up
* to the next alignment boundary.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or (since 0.9.5) the device target shorthand
* (the <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* Note that this call may fail if the underlying virtualization hypervisor
* does not support it; this call requires privileged access to the
* hypervisor.
*
* Returns: 0 in case of success or -1 in case of failure.
*/
int
virDomainBlockResize(virDomainPtr dom,
const char *disk,
unsigned long long size,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, size=%llu, flags=%x", disk, size, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(disk, error);
if (conn->driver->domainBlockResize) {
int ret;
ret =conn->driver->domainBlockResize(dom, disk, size, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainMemoryPeek:
* @dom: pointer to the domain object
* @start: start of memory to peek
* @size: size of memory to peek
* @buffer: return buffer (must be at least size bytes)
* @flags: bitwise-OR of virDomainMemoryFlags
*
* This function allows you to read the contents of a domain's
* memory.
*
* The memory which is read is controlled by the 'start', 'size'
* and 'flags' parameters.
*
* If 'flags' is VIR_MEMORY_VIRTUAL then the 'start' and 'size'
* parameters are interpreted as virtual memory addresses for
* whichever task happens to be running on the domain at the
* moment. Although this sounds haphazard it is in fact what
* you want in order to read Linux kernel state, because it
* ensures that pointers in the kernel image can be interpreted
* coherently.
*
* 'buffer' is the return buffer and must be at least 'size' bytes.
* 'size' may be 0 to test if the call would succeed.
*
* NB. The remote driver imposes a 64K byte limit on 'size'.
* For your program to be able to work reliably over a remote
* connection you should split large requests to <= 65536 bytes.
* However, with 0.9.13 this RPC limit has been raised to 1M byte.
*
* Returns: 0 in case of success or -1 in case of failure.
*/
int
virDomainMemoryPeek(virDomainPtr dom,
unsigned long long start /* really 64 bits */,
size_t size,
void *buffer,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "start=%lld, size=%zi, buffer=%p, flags=%x",
start, size, buffer, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
/* Note on access to physical memory: A VIR_MEMORY_PHYSICAL flag is
* a possibility. However it isn't really useful unless the caller
* can also access registers, particularly CR3 on x86 in order to
* get the Page Table Directory. Since registers are different on
* every architecture, that would imply another call to get the
* machine registers.
*
* The QEMU driver handles VIR_MEMORY_VIRTUAL, mapping it
* to the qemu 'memsave' command which does the virtual to physical
* mapping inside qemu.
*
* The QEMU driver also handles VIR_MEMORY_PHYSICAL, mapping it
* to the qemu 'pmemsave' command.
*
* At time of writing there is no Xen driver. However the Xen
* hypervisor only lets you map physical pages from other domains,
* and so the Xen driver would have to do the virtual to physical
* mapping by chasing 2, 3 or 4-level page tables from the PTD.
* There is example code in libxc (xc_translate_foreign_address)
* which does this, although we cannot copy this code directly
* because of incompatible licensing.
*/
/* Exactly one of these two flags must be set. */
if (!(flags & VIR_MEMORY_VIRTUAL) == !(flags & VIR_MEMORY_PHYSICAL)) {
virReportInvalidArg(flags,
_("flags in %s must include VIR_MEMORY_VIRTUAL or VIR_MEMORY_PHYSICAL"),
__FUNCTION__);
goto error;
}
/* Allow size == 0 as an access test. */
if (size > 0)
virCheckNonNullArgGoto(buffer, error);
if (conn->driver->domainMemoryPeek) {
int ret;
ret = conn->driver->domainMemoryPeek(dom, start, size,
buffer, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainGetBlockInfo:
* @domain: a domain object
* @disk: path to the block device, or device shorthand
* @info: pointer to a virDomainBlockInfo structure allocated by the user
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Extract information about a domain's block device.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or (since 0.9.5) the device target shorthand
* (the <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainGetBlockInfo(virDomainPtr domain, const char *disk,
virDomainBlockInfoPtr info, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "info=%p, flags=%x", info, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(disk, error);
virCheckNonNullArgGoto(info, error);
memset(info, 0, sizeof(virDomainBlockInfo));
conn = domain->conn;
if (conn->driver->domainGetBlockInfo) {
int ret;
ret = conn->driver->domainGetBlockInfo(domain, disk, info, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/************************************************************************
* *
* Handling of defined but not running domains *
* *
************************************************************************/
/**
* virDomainDefineXML:
* @conn: pointer to the hypervisor connection
* @xml: the XML description for the domain, preferably in UTF-8
*
* Define a domain, but does not start it.
* This definition is persistent, until explicitly undefined with
* virDomainUndefine(). A previous definition for this domain would be
* overriden if it already exists.
*
* Some hypervisors may prevent this operation if there is a current
* block copy operation on a transient domain with the same id as the
* domain being defined; in that case, use virDomainBlockJobAbort() to
* stop the block copy first.
*
* Returns NULL in case of error, a pointer to the domain otherwise
*/
virDomainPtr
virDomainDefineXML(virConnectPtr conn, const char *xml) {
VIR_DEBUG("conn=%p, xml=%s", conn, xml);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(xml, error);
if (conn->driver->domainDefineXML) {
virDomainPtr ret;
ret = conn->driver->domainDefineXML(conn, xml);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainUndefine:
* @domain: pointer to a defined domain
*
* Undefine a domain. If the domain is running, it's converted to
* transient domain, without stopping it. If the domain is inactive,
* the domain configuration is removed.
*
* If the domain has a managed save image (see
* virDomainHasManagedSaveImage()), or if it is inactive and has any
* snapshot metadata (see virDomainSnapshotNum()), then the undefine will
* fail. See virDomainUndefineFlags() for more control.
*
* Returns 0 in case of success, -1 in case of error
*/
int
virDomainUndefine(virDomainPtr domain) {
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainUndefine) {
int ret;
ret = conn->driver->domainUndefine(domain);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainUndefineFlags:
* @domain: pointer to a defined domain
* @flags: bitwise-OR of supported virDomainUndefineFlagsValues
*
* Undefine a domain. If the domain is running, it's converted to
* transient domain, without stopping it. If the domain is inactive,
* the domain configuration is removed.
*
* If the domain has a managed save image (see virDomainHasManagedSaveImage()),
* then including VIR_DOMAIN_UNDEFINE_MANAGED_SAVE in @flags will also remove
* that file, and omitting the flag will cause the undefine process to fail.
*
* If the domain is inactive and has any snapshot metadata (see
* virDomainSnapshotNum()), then including
* VIR_DOMAIN_UNDEFINE_SNAPSHOTS_METADATA in @flags will also remove
* that metadata. Omitting the flag will cause the undefine of an
* inactive domain to fail. Active snapshots will retain snapshot
* metadata until the (now-transient) domain halts, regardless of
* whether this flag is present. On hypervisors where snapshots do
* not use libvirt metadata, this flag has no effect.
*
* Returns 0 in case of success, -1 in case of error
*/
int
virDomainUndefineFlags(virDomainPtr domain,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainUndefineFlags) {
int ret;
ret = conn->driver->domainUndefineFlags(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virConnectNumOfDefinedDomains:
* @conn: pointer to the hypervisor connection
*
* Provides the number of defined but inactive domains.
*
* Returns the number of domain found or -1 in case of error
*/
int
virConnectNumOfDefinedDomains(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->numOfDefinedDomains) {
int ret;
ret = conn->driver->numOfDefinedDomains(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListDefinedDomains:
* @conn: pointer to the hypervisor connection
* @names: pointer to an array to store the names
* @maxnames: size of the array
*
* list the defined but inactive domains, stores the pointers to the names
* in @names
*
* For active domains, see virConnectListDomains(). For more control over
* the results, see virConnectListAllDomains().
*
* Returns the number of names provided in the array or -1 in case of error.
* Note that this command is inherently racy; a domain can be defined between
* a call to virConnectNumOfDefinedDomains() and this call; you are only
* guaranteed that all currently defined domains were listed if the return
* is less than @maxids. The client must call free() on each returned name.
*/
int
virConnectListDefinedDomains(virConnectPtr conn, char **const names,
int maxnames) {
VIR_DEBUG("conn=%p, names=%p, maxnames=%d", conn, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->driver->listDefinedDomains) {
int ret;
ret = conn->driver->listDefinedDomains(conn, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListAllDomains:
* @conn: Pointer to the hypervisor connection.
* @domains: Pointer to a variable to store the array containing domain objects
* or NULL if the list is not required (just returns number of guests).
* @flags: bitwise-OR of virConnectListAllDomainsFlags
*
* Collect a possibly-filtered list of all domains, and return an allocated
* array of information for each. This API solves the race inherent in
* virConnectListDomains() and virConnectListDefinedDomains().
*
* Normally, all domains are returned; however, @flags can be used to
* filter the results for a smaller list of targeted domains. The valid
* flags are divided into groups, where each group contains bits that
* describe mutually exclusive attributes of a domain, and where all bits
* within a group describe all possible domains. Some hypervisors might
* reject explicit bits from a group where the hypervisor cannot make a
* distinction (for example, not all hypervisors can tell whether domains
* have snapshots). For a group supported by a given hypervisor, the
* behavior when no bits of a group are set is identical to the behavior
* when all bits in that group are set. When setting bits from more than
* one group, it is possible to select an impossible combination (such
* as an inactive transient domain), in that case a hypervisor may return
* either 0 or an error.
*
* The first group of @flags is VIR_CONNECT_LIST_DOMAINS_ACTIVE (online
* domains) and VIR_CONNECT_LIST_DOMAINS_INACTIVE (offline domains).
*
* The next group of @flags is VIR_CONNECT_LIST_DOMAINS_PERSISTENT (defined
* domains) and VIR_CONNECT_LIST_DOMAINS_TRANSIENT (running but not defined).
*
* The next group of @flags covers various domain states:
* VIR_CONNECT_LIST_DOMAINS_RUNNING, VIR_CONNECT_LIST_DOMAINS_PAUSED,
* VIR_CONNECT_LIST_DOMAINS_SHUTOFF, and a catch-all for all other states
* (such as crashed, this catch-all covers the possibility of adding new
* states).
*
* The remaining groups cover boolean attributes commonly asked about
* domains; they include VIR_CONNECT_LIST_DOMAINS_MANAGEDSAVE and
* VIR_CONNECT_LIST_DOMAINS_NO_MANAGEDSAVE, for filtering based on whether
* a managed save image exists; VIR_CONNECT_LIST_DOMAINS_AUTOSTART and
* VIR_CONNECT_LIST_DOMAINS_NO_AUTOSTART, for filtering based on autostart;
* VIR_CONNECT_LIST_DOMAINS_HAS_SNAPSHOT and
* VIR_CONNECT_LIST_DOMAINS_NO_SNAPSHOT, for filtering based on whether
* a domain has snapshots.
*
* Returns the number of domains found or -1 and sets domains to NULL in case
* of error. On success, the array stored into @doms is guaranteed to have an
* extra allocated element set to NULL but not included in the return count, to
* make iteration easier. The caller is responsible for calling virDomainFree()
* on each array element, then calling free() on @doms.
*
* Example of usage:
* virDomainPtr *domains;
* virDomainPtr dom;
* int i;
* int ret;
* unsigned int flags = VIR_CONNECT_LIST_RUNNING |
* VIR_CONNECT_LIST_PERSISTENT;
*
* ret = virConnectListAllDomains(conn, &domains, flags);
* if (ret < 0)
* error();
*
* for (i = 0; i < ret; i++) {
* do_something_with_domain(domains[i]);
*
* //here or in a separate loop if needed
* virDomainFree(domains[i]);
* }
*
* free(domains);
*/
int
virConnectListAllDomains(virConnectPtr conn,
virDomainPtr **domains,
unsigned int flags)
{
VIR_DEBUG("conn=%p, domains=%p, flags=%x", conn, domains, flags);
virResetLastError();
if (domains)
*domains = NULL;
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->listAllDomains) {
int ret;
ret = conn->driver->listAllDomains(conn, domains, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainCreate:
* @domain: pointer to a defined domain
*
* Launch a defined domain. If the call succeeds the domain moves from the
* defined to the running domains pools. The domain will be paused only
* if restoring from managed state created from a paused domain. For more
* control, see virDomainCreateWithFlags().
*
* Returns 0 in case of success, -1 in case of error
*/
int
virDomainCreate(virDomainPtr domain) {
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainCreate) {
int ret;
ret = conn->driver->domainCreate(domain);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainCreateWithFlags:
* @domain: pointer to a defined domain
* @flags: bitwise-OR of supported virDomainCreateFlags
*
* Launch a defined domain. If the call succeeds the domain moves from the
* defined to the running domains pools.
*
* If the VIR_DOMAIN_START_PAUSED flag is set, or if the guest domain
* has a managed save image that requested paused state (see
* virDomainManagedSave()) the guest domain will be started, but its
* CPUs will remain paused. The CPUs can later be manually started
* using virDomainResume(). In all other cases, the guest domain will
* be running.
*
* If the VIR_DOMAIN_START_AUTODESTROY flag is set, the guest
* domain will be automatically destroyed when the virConnectPtr
* object is finally released. This will also happen if the
* client application crashes / loses its connection to the
* libvirtd daemon. Any domains marked for auto destroy will
* block attempts at migration, save-to-file, or snapshots.
*
* If the VIR_DOMAIN_START_BYPASS_CACHE flag is set, and there is a
* managed save file for this domain (created by virDomainManagedSave()),
* then libvirt will attempt to bypass the file system cache while restoring
* the file, or fail if it cannot do so for the given system; this can allow
* less pressure on file system cache, but also risks slowing loads from NFS.
*
* If the VIR_DOMAIN_START_FORCE_BOOT flag is set, then any managed save
* file for this domain is discarded, and the domain boots from scratch.
*
* Returns 0 in case of success, -1 in case of error
*/
int
virDomainCreateWithFlags(virDomainPtr domain, unsigned int flags) {
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainCreateWithFlags) {
int ret;
ret = conn->driver->domainCreateWithFlags(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetAutostart:
* @domain: a domain object
* @autostart: the value returned
*
* Provides a boolean value indicating whether the domain
* configured to be automatically started when the host
* machine boots.
*
* Returns -1 in case of error, 0 in case of success
*/
int
virDomainGetAutostart(virDomainPtr domain,
int *autostart)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "autostart=%p", autostart);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(autostart, error);
conn = domain->conn;
if (conn->driver->domainGetAutostart) {
int ret;
ret = conn->driver->domainGetAutostart(domain, autostart);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetAutostart:
* @domain: a domain object
* @autostart: whether the domain should be automatically started 0 or 1
*
* Configure the domain to be automatically started
* when the host machine boots.
*
* Returns -1 in case of error, 0 in case of success
*/
int
virDomainSetAutostart(virDomainPtr domain,
int autostart)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "autostart=%d", autostart);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainSetAutostart) {
int ret;
ret = conn->driver->domainSetAutostart(domain, autostart);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainInjectNMI:
* @domain: pointer to domain object, or NULL for Domain0
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Send NMI to the guest
*
* Returns 0 in case of success, -1 in case of failure.
*/
int virDomainInjectNMI(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainInjectNMI) {
int ret;
ret = conn->driver->domainInjectNMI(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSendKey:
* @domain: pointer to domain object, or NULL for Domain0
* @codeset: the code set of keycodes, from virKeycodeSet
* @holdtime: the duration (in milliseconds) that the keys will be held
* @keycodes: array of keycodes
* @nkeycodes: number of keycodes, up to VIR_DOMAIN_SEND_KEY_MAX_KEYS
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Send key(s) to the guest.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int virDomainSendKey(virDomainPtr domain,
unsigned int codeset,
unsigned int holdtime,
unsigned int *keycodes,
int nkeycodes,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "codeset=%u, holdtime=%u, nkeycodes=%u, flags=%x",
codeset, holdtime, nkeycodes, flags);
virResetLastError();
if (keycodes == NULL ||
nkeycodes <= 0 || nkeycodes > VIR_DOMAIN_SEND_KEY_MAX_KEYS) {
virLibDomainError(VIR_ERR_OPERATION_INVALID, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainSendKey) {
int ret;
ret = conn->driver->domainSendKey(domain, codeset, holdtime,
keycodes, nkeycodes, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetVcpus:
* @domain: pointer to domain object, or NULL for Domain0
* @nvcpus: the new number of virtual CPUs for this domain
*
* Dynamically change the number of virtual CPUs used by the domain.
* Note that this call may fail if the underlying virtualization hypervisor
* does not support it or if growing the number is arbitrary limited.
* This function may require privileged access to the hypervisor.
*
* This command only changes the runtime configuration of the domain,
* so can only be called on an active domain. It is hypervisor-dependent
* whether it also affects persistent configuration; for more control,
* use virDomainSetVcpusFlags().
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainSetVcpus(virDomainPtr domain, unsigned int nvcpus)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "nvcpus=%u", nvcpus);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonZeroArgGoto(nvcpus, error);
conn = domain->conn;
if (conn->driver->domainSetVcpus) {
int ret;
ret = conn->driver->domainSetVcpus(domain, nvcpus);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetVcpusFlags:
* @domain: pointer to domain object, or NULL for Domain0
* @nvcpus: the new number of virtual CPUs for this domain, must be at least 1
* @flags: bitwise-OR of virDomainVcpuFlags
*
* Dynamically change the number of virtual CPUs used by the domain.
* Note that this call may fail if the underlying virtualization hypervisor
* does not support it or if growing the number is arbitrary limited.
* This function may require privileged access to the hypervisor.
*
* @flags may include VIR_DOMAIN_AFFECT_LIVE to affect a running
* domain (which may fail if domain is not active), or
* VIR_DOMAIN_AFFECT_CONFIG to affect the next boot via the XML
* description of the domain. Both flags may be set.
* If neither flag is specified (that is, @flags is VIR_DOMAIN_AFFECT_CURRENT),
* then an inactive domain modifies persistent setup, while an active domain
* is hypervisor-dependent on whether just live or both live and persistent
* state is changed.
*
* If @flags includes VIR_DOMAIN_VCPU_MAXIMUM, then
* VIR_DOMAIN_AFFECT_LIVE must be clear, and only the maximum virtual
* CPU limit is altered; generally, this value must be less than or
* equal to virConnectGetMaxVcpus(). Otherwise, this call affects the
* current virtual CPU limit, which must be less than or equal to the
* maximum limit.
* Not all hypervisors can support all flag combinations.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainSetVcpusFlags(virDomainPtr domain, unsigned int nvcpus,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "nvcpus=%u, flags=%x", nvcpus, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonZeroArgGoto(nvcpus, error);
if ((unsigned short) nvcpus != nvcpus) {
virLibDomainError(VIR_ERR_OVERFLOW, _("input too large: %u"), nvcpus);
goto error;
}
conn = domain->conn;
if (conn->driver->domainSetVcpusFlags) {
int ret;
ret = conn->driver->domainSetVcpusFlags(domain, nvcpus, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetVcpusFlags:
* @domain: pointer to domain object, or NULL for Domain0
* @flags: bitwise-OR of virDomainVcpuFlags
*
* Query the number of virtual CPUs used by the domain. Note that
* this call may fail if the underlying virtualization hypervisor does
* not support it. This function may require privileged access to the
* hypervisor.
*
* If @flags includes VIR_DOMAIN_AFFECT_LIVE, this will query a
* running domain (which will fail if domain is not active); if
* it includes VIR_DOMAIN_AFFECT_CONFIG, this will query the XML
* description of the domain. It is an error to set both flags.
* If neither flag is set (that is, VIR_DOMAIN_AFFECT_CURRENT),
* then the configuration queried depends on whether the domain
* is currently running.
*
* If @flags includes VIR_DOMAIN_VCPU_MAXIMUM, then the maximum
* virtual CPU limit is queried. Otherwise, this call queries the
* current virtual CPU limit.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainGetVcpusFlags(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_AFFECT_LIVE) &&
(flags & VIR_DOMAIN_AFFECT_CONFIG)) {
virReportInvalidArg(flags,
_("flags 'affect live' and 'affect config' in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainGetVcpusFlags) {
int ret;
ret = conn->driver->domainGetVcpusFlags(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainPinVcpu:
* @domain: pointer to domain object, or NULL for Domain0
* @vcpu: virtual CPU number
* @cpumap: pointer to a bit map of real CPUs (in 8-bit bytes) (IN)
* Each bit set to 1 means that corresponding CPU is usable.
* Bytes are stored in little-endian order: CPU0-7, 8-15...
* In each byte, lowest CPU number is least significant bit.
* @maplen: number of bytes in cpumap, from 1 up to size of CPU map in
* underlying virtualization system (Xen...).
* If maplen < size, missing bytes are set to zero.
* If maplen > size, failure code is returned.
*
* Dynamically change the real CPUs which can be allocated to a virtual CPU.
* This function may require privileged access to the hypervisor.
*
* This command only changes the runtime configuration of the domain,
* so can only be called on an active domain.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainPinVcpu(virDomainPtr domain, unsigned int vcpu,
unsigned char *cpumap, int maplen)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "vcpu=%u, cpumap=%p, maplen=%d",
vcpu, cpumap, maplen);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(cpumap, error);
virCheckPositiveArgGoto(maplen, error);
if ((unsigned short) vcpu != vcpu) {
virLibDomainError(VIR_ERR_OVERFLOW, _("input too large: %u"), vcpu);
goto error;
}
conn = domain->conn;
if (conn->driver->domainPinVcpu) {
int ret;
ret = conn->driver->domainPinVcpu(domain, vcpu, cpumap, maplen);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainPinVcpuFlags:
* @domain: pointer to domain object, or NULL for Domain0
* @vcpu: virtual CPU number
* @cpumap: pointer to a bit map of real CPUs (in 8-bit bytes) (IN)
* Each bit set to 1 means that corresponding CPU is usable.
* Bytes are stored in little-endian order: CPU0-7, 8-15...
* In each byte, lowest CPU number is least significant bit.
* @maplen: number of bytes in cpumap, from 1 up to size of CPU map in
* underlying virtualization system (Xen...).
* If maplen < size, missing bytes are set to zero.
* If maplen > size, failure code is returned.
* @flags: bitwise-OR of virDomainModificationImpact
*
* Dynamically change the real CPUs which can be allocated to a virtual CPU.
* This function may require privileged access to the hypervisor.
*
* @flags may include VIR_DOMAIN_AFFECT_LIVE or VIR_DOMAIN_AFFECT_CONFIG.
* Both flags may be set.
* If VIR_DOMAIN_AFFECT_LIVE is set, the change affects a running domain
* and may fail if domain is not alive.
* If VIR_DOMAIN_AFFECT_CONFIG is set, the change affects persistent state,
* and will fail for transient domains. If neither flag is specified (that is,
* @flags is VIR_DOMAIN_AFFECT_CURRENT), then an inactive domain modifies
* persistent setup, while an active domain is hypervisor-dependent on whether
* just live or both live and persistent state is changed.
* Not all hypervisors can support all flag combinations.
*
* See also virDomainGetVcpuPinInfo for querying this information.
*
* Returns 0 in case of success, -1 in case of failure.
*
*/
int
virDomainPinVcpuFlags(virDomainPtr domain, unsigned int vcpu,
unsigned char *cpumap, int maplen, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "vcpu=%u, cpumap=%p, maplen=%d, flags=%x",
vcpu, cpumap, maplen, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(cpumap, error);
virCheckPositiveArgGoto(maplen, error);
if ((unsigned short) vcpu != vcpu) {
virLibDomainError(VIR_ERR_OVERFLOW, _("input too large: %u"), vcpu);
goto error;
}
conn = domain->conn;
if (conn->driver->domainPinVcpuFlags) {
int ret;
ret = conn->driver->domainPinVcpuFlags(domain, vcpu, cpumap, maplen, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetVcpuPinInfo:
* @domain: pointer to domain object, or NULL for Domain0
* @ncpumaps: the number of cpumap (listed first to match virDomainGetVcpus)
* @cpumaps: pointer to a bit map of real CPUs for all vcpus of this
* domain (in 8-bit bytes) (OUT)
* It's assumed there is <ncpumaps> cpumap in cpumaps array.
* The memory allocated to cpumaps must be (ncpumaps * maplen) bytes
* (ie: calloc(ncpumaps, maplen)).
* One cpumap inside cpumaps has the format described in
* virDomainPinVcpu() API.
* Must not be NULL.
* @maplen: the number of bytes in one cpumap, from 1 up to size of CPU map.
* Must be positive.
* @flags: bitwise-OR of virDomainModificationImpact
* Must not be VIR_DOMAIN_AFFECT_LIVE and
* VIR_DOMAIN_AFFECT_CONFIG concurrently.
*
* Query the CPU affinity setting of all virtual CPUs of domain, store it
* in cpumaps.
*
* Returns the number of virtual CPUs in case of success,
* -1 in case of failure.
*/
int
virDomainGetVcpuPinInfo(virDomainPtr domain, int ncpumaps,
unsigned char *cpumaps, int maplen, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "ncpumaps=%d, cpumaps=%p, maplen=%d, flags=%x",
ncpumaps, cpumaps, maplen, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(cpumaps, error);
virCheckPositiveArgGoto(ncpumaps, error);
virCheckPositiveArgGoto(maplen, error);
if (INT_MULTIPLY_OVERFLOW(ncpumaps, maplen)) {
virLibDomainError(VIR_ERR_OVERFLOW, _("input too large: %d * %d"),
ncpumaps, maplen);
goto error;
}
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_AFFECT_LIVE) &&
(flags & VIR_DOMAIN_AFFECT_CONFIG)) {
virReportInvalidArg(flags,
_("flags 'affect live' and 'affect config' in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainGetVcpuPinInfo) {
int ret;
ret = conn->driver->domainGetVcpuPinInfo(domain, ncpumaps,
cpumaps, maplen, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainPinEmulator:
* @domain: pointer to domain object, or NULL for Domain0
* @cpumap: pointer to a bit map of real CPUs (in 8-bit bytes) (IN)
* Each bit set to 1 means that corresponding CPU is usable.
* Bytes are stored in little-endian order: CPU0-7, 8-15...
* In each byte, lowest CPU number is least significant bit.
* @maplen: number of bytes in cpumap, from 1 up to size of CPU map in
* underlying virtualization system (Xen...).
* If maplen < size, missing bytes are set to zero.
* If maplen > size, failure code is returned.
* @flags: bitwise-OR of virDomainModificationImpact
*
* Dynamically change the real CPUs which can be allocated to all emulator
* threads. This function may require privileged access to the hypervisor.
*
* @flags may include VIR_DOMAIN_AFFECT_LIVE or VIR_DOMAIN_AFFECT_CONFIG.
* Both flags may be set.
* If VIR_DOMAIN_AFFECT_LIVE is set, the change affects a running domain
* and may fail if domain is not alive.
* If VIR_DOMAIN_AFFECT_CONFIG is set, the change affects persistent state,
* and will fail for transient domains. If neither flag is specified (that is,
* @flags is VIR_DOMAIN_AFFECT_CURRENT), then an inactive domain modifies
* persistent setup, while an active domain is hypervisor-dependent on whether
* just live or both live and persistent state is changed.
* Not all hypervisors can support all flag combinations.
*
* See also virDomainGetEmulatorPinInfo for querying this information.
*
* Returns 0 in case of success, -1 in case of failure.
*
*/
int
virDomainPinEmulator(virDomainPtr domain, unsigned char *cpumap,
int maplen, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "cpumap=%p, maplen=%d, flags=%x",
cpumap, maplen, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if ((cpumap == NULL) || (maplen < 1)) {
virLibDomainError(VIR_ERR_INVALID_ARG, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainPinEmulator) {
int ret;
ret = conn->driver->domainPinEmulator(domain, cpumap, maplen, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetEmulatorPinInfo:
* @domain: pointer to domain object, or NULL for Domain0
* @cpumap: pointer to a bit map of real CPUs for all emulator threads of
* this domain (in 8-bit bytes) (OUT)
* There is only one cpumap for all emulator threads.
* Must not be NULL.
* @maplen: the number of bytes in one cpumap, from 1 up to size of CPU map.
* Must be positive.
* @flags: bitwise-OR of virDomainModificationImpact
* Must not be VIR_DOMAIN_AFFECT_LIVE and
* VIR_DOMAIN_AFFECT_CONFIG concurrently.
*
* Query the CPU affinity setting of all emulator threads of domain, store
* it in cpumap.
*
* Returns 1 in case of success,
* 0 in case of no emulator threads are pined to pcpus,
* -1 in case of failure.
*/
int
virDomainGetEmulatorPinInfo(virDomainPtr domain, unsigned char *cpumap,
int maplen, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "cpumap=%p, maplen=%d, flags=%x",
cpumap, maplen, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (!cpumap || maplen <= 0) {
virLibDomainError(VIR_ERR_INVALID_ARG, __FUNCTION__);
goto error;
}
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_AFFECT_LIVE) &&
(flags & VIR_DOMAIN_AFFECT_CONFIG)) {
virLibDomainError(VIR_ERR_INVALID_ARG, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainGetEmulatorPinInfo) {
int ret;
ret = conn->driver->domainGetEmulatorPinInfo(domain, cpumap,
maplen, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetVcpus:
* @domain: pointer to domain object, or NULL for Domain0
* @info: pointer to an array of virVcpuInfo structures (OUT)
* @maxinfo: number of structures in info array
* @cpumaps: pointer to a bit map of real CPUs for all vcpus of this
* domain (in 8-bit bytes) (OUT)
* If cpumaps is NULL, then no cpumap information is returned by the API.
* It's assumed there is <maxinfo> cpumap in cpumaps array.
* The memory allocated to cpumaps must be (maxinfo * maplen) bytes
* (ie: calloc(maxinfo, maplen)).
* One cpumap inside cpumaps has the format described in
* virDomainPinVcpu() API.
* @maplen: number of bytes in one cpumap, from 1 up to size of CPU map in
* underlying virtualization system (Xen...).
* Must be zero when cpumaps is NULL and positive when it is non-NULL.
*
* Extract information about virtual CPUs of domain, store it in info array
* and also in cpumaps if this pointer isn't NULL. This call may fail
* on an inactive domain.
*
* See also virDomainGetVcpuPinInfo for querying just cpumaps, including on
* an inactive domain.
*
* Returns the number of info filled in case of success, -1 in case of failure.
*/
int
virDomainGetVcpus(virDomainPtr domain, virVcpuInfoPtr info, int maxinfo,
unsigned char *cpumaps, int maplen)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "info=%p, maxinfo=%d, cpumaps=%p, maplen=%d",
info, maxinfo, cpumaps, maplen);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(info, error);
virCheckPositiveArgGoto(maxinfo, error);
/* Ensure that domainGetVcpus (aka remoteDomainGetVcpus) does not
try to memcpy anything into a NULL pointer. */
if (cpumaps)
virCheckPositiveArgGoto(maplen, error);
else
virCheckZeroArgGoto(maplen, error);
if (cpumaps && INT_MULTIPLY_OVERFLOW(maxinfo, maplen)) {
virLibDomainError(VIR_ERR_OVERFLOW, _("input too large: %d * %d"),
maxinfo, maplen);
goto error;
}
conn = domain->conn;
if (conn->driver->domainGetVcpus) {
int ret;
ret = conn->driver->domainGetVcpus(domain, info, maxinfo,
cpumaps, maplen);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetMaxVcpus:
* @domain: pointer to domain object
*
* Provides the maximum number of virtual CPUs supported for
* the guest VM. If the guest is inactive, this is basically
* the same as virConnectGetMaxVcpus(). If the guest is running
* this will reflect the maximum number of virtual CPUs the
* guest was booted with. For more details, see virDomainGetVcpusFlags().
*
* Returns the maximum of virtual CPU or -1 in case of error.
*/
int
virDomainGetMaxVcpus(virDomainPtr domain)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->driver->domainGetMaxVcpus) {
int ret;
ret = conn->driver->domainGetMaxVcpus(domain);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetSecurityLabel:
* @domain: a domain object
* @seclabel: pointer to a virSecurityLabel structure
*
* Extract security label of an active domain. The 'label' field
* in the @seclabel argument will be initialized to the empty
* string if the domain is not running under a security model.
*
* Returns 0 in case of success, -1 in case of failure
*/
int
virDomainGetSecurityLabel(virDomainPtr domain, virSecurityLabelPtr seclabel)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "seclabel=%p", seclabel);
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(seclabel, error);
conn = domain->conn;
if (conn->driver->domainGetSecurityLabel) {
int ret;
ret = conn->driver->domainGetSecurityLabel(domain, seclabel);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetSecurityLabelList:
* @domain: a domain object
* @seclabels: will be auto-allocated and filled with domains' security labels.
* Caller must free memory on return.
*
* Extract the security labels of an active domain. The 'label' field
* in the @seclabels argument will be initialized to the empty
* string if the domain is not running under a security model.
*
* Returns number of elemnets in @seclabels on success, -1 in case of failure.
*/
int
virDomainGetSecurityLabelList(virDomainPtr domain,
virSecurityLabelPtr* seclabels)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "seclabels=%p", seclabels);
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (seclabels == NULL) {
virLibDomainError(VIR_ERR_INVALID_ARG, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainGetSecurityLabelList) {
int ret;
ret = conn->driver->domainGetSecurityLabelList(domain, seclabels);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainSetMetadata:
* @domain: a domain object
* @type: type of description, from virDomainMetadataType
* @metadata: new metadata text
* @key: XML namespace key, or NULL
* @uri: XML namespace URI, or NULL
* @flags: bitwise-OR of virDomainModificationImpact
*
* Sets the appropriate domain element given by @type to the
* value of @description. A @type of VIR_DOMAIN_METADATA_DESCRIPTION
* is free-form text; VIR_DOMAIN_METADATA_TITLE is free-form, but no
* newlines are permitted, and should be short (although the length is
* not enforced). For these two options @key and @uri are irrelevant and
* must be set to NULL.
*
* For type VIR_DOMAIN_METADATA_ELEMENT @metadata must be well-formed
* XML belonging to namespace defined by @uri with local name @key.
*
* Passing NULL for @metadata says to remove that element from the
* domain XML (passing the empty string leaves the element present).
*
* The resulting metadata will be present in virDomainGetXMLDesc(),
* as well as quick access through virDomainGetMetadata().
*
* @flags controls whether the live domain, persistent configuration,
* or both will be modified.
*
* Returns 0 on success, -1 in case of failure.
*/
int
virDomainSetMetadata(virDomainPtr domain,
int type,
const char *metadata,
const char *key,
const char *uri,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain,
"type=%d, metadata='%s', key='%s', uri='%s', flags=%x",
type, NULLSTR(metadata), NULLSTR(key), NULLSTR(uri),
flags);
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
switch (type) {
case VIR_DOMAIN_METADATA_TITLE:
if (metadata && strchr(metadata, '\n')) {
virReportInvalidArg(metadata,
_("metadata title in %s can't contain newlines"),
__FUNCTION__);
goto error;
}
/* fallthrough */
case VIR_DOMAIN_METADATA_DESCRIPTION:
virCheckNullArgGoto(uri, error);
virCheckNullArgGoto(key, error);
break;
case VIR_DOMAIN_METADATA_ELEMENT:
virCheckNonNullArgGoto(uri, error);
virCheckNonNullArgGoto(key, error);
break;
default:
/* For future expansion */
break;
}
if (conn->driver->domainSetMetadata) {
int ret;
ret = conn->driver->domainSetMetadata(domain, type, metadata, key, uri,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetMetadata:
* @domain: a domain object
* @type: type of description, from virDomainMetadataType
* @uri: XML namespace identifier
* @flags: bitwise-OR of virDomainModificationImpact
*
* Retrieves the appropriate domain element given by @type.
* If VIR_DOMAIN_METADATA_ELEMENT is requested parameter @uri
* must be set to the name of the namespace the requested elements
* belong to, otherwise must be NULL.
*
* If an element of the domain XML is not present, the resulting
* error will be VIR_ERR_NO_DOMAIN_METADATA. This method forms
* a shortcut for seeing information from virDomainSetMetadata()
* without having to go through virDomainGetXMLDesc().
*
* @flags controls whether the live domain or persistent
* configuration will be queried.
*
* Returns the metadata string on success (caller must free),
* or NULL in case of failure.
*/
char *
virDomainGetMetadata(virDomainPtr domain,
int type,
const char *uri,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "type=%d, uri='%s', flags=%x",
type, NULLSTR(uri), flags);
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
goto error;
}
if ((flags & VIR_DOMAIN_AFFECT_LIVE) &&
(flags & VIR_DOMAIN_AFFECT_CONFIG)) {
virReportInvalidArg(flags,
_("flags 'affect live' and 'affect config' in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
switch (type) {
case VIR_DOMAIN_METADATA_TITLE:
case VIR_DOMAIN_METADATA_DESCRIPTION:
virCheckNullArgGoto(uri, error);
break;
case VIR_DOMAIN_METADATA_ELEMENT:
virCheckNonNullArgGoto(uri, error);
break;
default:
/* For future expansion */
break;
}
conn = domain->conn;
if (conn->driver->domainGetMetadata) {
char *ret;
if (!(ret = conn->driver->domainGetMetadata(domain, type, uri, flags)))
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return NULL;
}
/**
* virNodeGetSecurityModel:
* @conn: a connection object
* @secmodel: pointer to a virSecurityModel structure
*
* Extract the security model of a hypervisor. The 'model' field
* in the @secmodel argument may be initialized to the empty
* string if the driver has not activated a security model.
*
* Returns 0 in case of success, -1 in case of failure
*/
int
virNodeGetSecurityModel(virConnectPtr conn, virSecurityModelPtr secmodel)
{
VIR_DEBUG("conn=%p secmodel=%p", conn, secmodel);
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(secmodel, error);
if (conn->driver->nodeGetSecurityModel) {
int ret;
ret = conn->driver->nodeGetSecurityModel(conn, secmodel);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainAttachDevice:
* @domain: pointer to domain object
* @xml: pointer to XML description of one device
*
* Create a virtual device attachment to backend. This function,
* having hotplug semantics, is only allowed on an active domain.
*
* For compatibility, this method can also be used to change the media
* in an existing CDROM/Floppy device, however, applications are
* recommended to use the virDomainUpdateDeviceFlag method instead.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainAttachDevice(virDomainPtr domain, const char *xml)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "xml=%s", xml);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(xml, error);
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainAttachDevice) {
int ret;
ret = conn->driver->domainAttachDevice(domain, xml);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainAttachDeviceFlags:
* @domain: pointer to domain object
* @xml: pointer to XML description of one device
* @flags: bitwise-OR of virDomainDeviceModifyFlags
*
* Attach a virtual device to a domain, using the flags parameter
* to control how the device is attached. VIR_DOMAIN_AFFECT_CURRENT
* specifies that the device allocation is made based on current domain
* state. VIR_DOMAIN_AFFECT_LIVE specifies that the device shall be
* allocated to the active domain instance only and is not added to the
* persisted domain configuration. VIR_DOMAIN_AFFECT_CONFIG
* specifies that the device shall be allocated to the persisted domain
* configuration only. Note that the target hypervisor must return an
* error if unable to satisfy flags. E.g. the hypervisor driver will
* return failure if LIVE is specified but it only supports modifying the
* persisted device allocation.
*
* For compatibility, this method can also be used to change the media
* in an existing CDROM/Floppy device, however, applications are
* recommended to use the virDomainUpdateDeviceFlag method instead.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainAttachDeviceFlags(virDomainPtr domain,
const char *xml, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "xml=%s, flags=%x", xml, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(xml, error);
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainAttachDeviceFlags) {
int ret;
ret = conn->driver->domainAttachDeviceFlags(domain, xml, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainDetachDevice:
* @domain: pointer to domain object
* @xml: pointer to XML description of one device
*
* Destroy a virtual device attachment to backend. This function,
* having hot-unplug semantics, is only allowed on an active domain.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainDetachDevice(virDomainPtr domain, const char *xml)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "xml=%s", xml);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(xml, error);
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainDetachDevice) {
int ret;
ret = conn->driver->domainDetachDevice(domain, xml);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainDetachDeviceFlags:
* @domain: pointer to domain object
* @xml: pointer to XML description of one device
* @flags: bitwise-OR of virDomainDeviceModifyFlags
*
* Detach a virtual device from a domain, using the flags parameter
* to control how the device is detached. VIR_DOMAIN_AFFECT_CURRENT
* specifies that the device allocation is removed based on current domain
* state. VIR_DOMAIN_AFFECT_LIVE specifies that the device shall be
* deallocated from the active domain instance only and is not from the
* persisted domain configuration. VIR_DOMAIN_AFFECT_CONFIG
* specifies that the device shall be deallocated from the persisted domain
* configuration only. Note that the target hypervisor must return an
* error if unable to satisfy flags. E.g. the hypervisor driver will
* return failure if LIVE is specified but it only supports removing the
* persisted device allocation.
*
* Some hypervisors may prevent this operation if there is a current
* block copy operation on the device being detached; in that case,
* use virDomainBlockJobAbort() to stop the block copy first.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainDetachDeviceFlags(virDomainPtr domain,
const char *xml, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "xml=%s, flags=%x", xml, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(xml, error);
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainDetachDeviceFlags) {
int ret;
ret = conn->driver->domainDetachDeviceFlags(domain, xml, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainUpdateDeviceFlags:
* @domain: pointer to domain object
* @xml: pointer to XML description of one device
* @flags: bitwise-OR of virDomainDeviceModifyFlags
*
* Change a virtual device on a domain, using the flags parameter
* to control how the device is changed. VIR_DOMAIN_AFFECT_CURRENT
* specifies that the device change is made based on current domain
* state. VIR_DOMAIN_AFFECT_LIVE specifies that the device shall be
* changed on the active domain instance only and is not added to the
* persisted domain configuration. VIR_DOMAIN_AFFECT_CONFIG
* specifies that the device shall be changed on the persisted domain
* configuration only. Note that the target hypervisor must return an
* error if unable to satisfy flags. E.g. the hypervisor driver will
* return failure if LIVE is specified but it only supports modifying the
* persisted device allocation.
*
* This method is used for actions such changing CDROM/Floppy device
* media, altering the graphics configuration such as password,
* reconfiguring the NIC device backend connectivity, etc.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virDomainUpdateDeviceFlags(virDomainPtr domain,
const char *xml, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "xml=%s, flags=%x", xml, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(xml, error);
if (domain->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = domain->conn;
if (conn->driver->domainUpdateDeviceFlags) {
int ret;
ret = conn->driver->domainUpdateDeviceFlags(domain, xml, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virNodeGetCellsFreeMemory:
* @conn: pointer to the hypervisor connection
* @freeMems: pointer to the array of unsigned long long
* @startCell: index of first cell to return freeMems info on.
* @maxCells: Maximum number of cells for which freeMems information can
* be returned.
*
* This call returns the amount of free memory in one or more NUMA cells.
* The @freeMems array must be allocated by the caller and will be filled
* with the amount of free memory in bytes for each cell requested,
* starting with startCell (in freeMems[0]), up to either
* (startCell + maxCells), or the number of additional cells in the node,
* whichever is smaller.
*
* Returns the number of entries filled in freeMems, or -1 in case of error.
*/
int
virNodeGetCellsFreeMemory(virConnectPtr conn, unsigned long long *freeMems,
int startCell, int maxCells)
{
VIR_DEBUG("conn=%p, freeMems=%p, startCell=%d, maxCells=%d",
conn, freeMems, startCell, maxCells);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(freeMems, error);
virCheckPositiveArgGoto(maxCells, error);
virCheckNonNegativeArgGoto(startCell, error);
if (conn->driver->nodeGetCellsFreeMemory) {
int ret;
ret = conn->driver->nodeGetCellsFreeMemory(conn, freeMems, startCell, maxCells);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virNetworkGetConnect:
* @net: pointer to a network
*
* Provides the connection pointer associated with a network. The
* reference counter on the connection is not increased by this
* call.
*
* WARNING: When writing libvirt bindings in other languages, do
* not use this function. Instead, store the connection and
* the network object together.
*
* Returns the virConnectPtr or NULL in case of failure.
*/
virConnectPtr
virNetworkGetConnect(virNetworkPtr net)
{
VIR_DEBUG("net=%p", net);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(net)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return net->conn;
}
/**
* virConnectListAllNetworks:
* @conn: Pointer to the hypervisor connection.
* @nets: Pointer to a variable to store the array containing the network
* objects or NULL if the list is not required (just returns number
* of networks).
* @flags: bitwise-OR of virConnectListAllNetworksFlags.
*
* Collect the list of networks, and allocate an array to store those
* objects. This API solves the race inherent between virConnectListNetworks
* and virConnectListDefinedNetworks.
*
* Normally, all networks are returned; however, @flags can be used to
* filter the results for a smaller list of targeted networks. The valid
* flags are divided into groups, where each group contains bits that
* describe mutually exclusive attributes of a network, and where all bits
* within a group describe all possible networks.
*
* The first group of @flags is VIR_CONNECT_LIST_NETWORKS_ACTIVE (up) and
* VIR_CONNECT_LIST_NETWORKS_INACTIVE (down) to filter the networks by state.
*
* The second group of @flags is VIR_CONNECT_LIST_NETWORKS_PERSISTENT (defined)
* and VIR_CONNECT_LIST_NETWORKS_TRANSIENT (running but not defined), to filter
* the networks by whether they have persistent config or not.
*
* The third group of @flags is VIR_CONNECT_LIST_NETWORKS_AUTOSTART
* and VIR_CONNECT_LIST_NETWORKS_NO_AUTOSTART, to filter the networks by
* whether they are marked as autostart or not.
*
* Returns the number of networks found or -1 and sets @nets to NULL in case
* of error. On success, the array stored into @nets is guaranteed to have an
* extra allocated element set to NULL but not included in the return count,
* to make iteration easier. The caller is responsible for calling
* virNetworkFree() on each array element, then calling free() on @nets.
*/
int
virConnectListAllNetworks(virConnectPtr conn,
virNetworkPtr **nets,
unsigned int flags)
{
VIR_DEBUG("conn=%p, nets=%p, flags=%x", conn, nets, flags);
virResetLastError();
if (nets)
*nets = NULL;
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->networkDriver &&
conn->networkDriver->listAllNetworks) {
int ret;
ret = conn->networkDriver->listAllNetworks(conn, nets, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectNumOfNetworks:
* @conn: pointer to the hypervisor connection
*
* Provides the number of active networks.
*
* Returns the number of network found or -1 in case of error
*/
int
virConnectNumOfNetworks(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->networkDriver && conn->networkDriver->numOfNetworks) {
int ret;
ret = conn->networkDriver->numOfNetworks(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListNetworks:
* @conn: pointer to the hypervisor connection
* @names: array to collect the list of names of active networks
* @maxnames: size of @names
*
* Collect the list of active networks, and store their names in @names
*
* For more control over the results, see virConnectListAllNetworks().
*
* Returns the number of networks found or -1 in case of error. Note that
* this command is inherently racy; a network can be started between a call
* to virConnectNumOfNetworks() and this call; you are only guaranteed that
* all currently active networks were listed if the return is less than
* @maxnames.
*/
int
virConnectListNetworks(virConnectPtr conn, char **const names, int maxnames)
{
VIR_DEBUG("conn=%p, names=%p, maxnames=%d", conn, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->networkDriver && conn->networkDriver->listNetworks) {
int ret;
ret = conn->networkDriver->listNetworks(conn, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectNumOfDefinedNetworks:
* @conn: pointer to the hypervisor connection
*
* Provides the number of inactive networks.
*
* Returns the number of networks found or -1 in case of error
*/
int
virConnectNumOfDefinedNetworks(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->networkDriver && conn->networkDriver->numOfDefinedNetworks) {
int ret;
ret = conn->networkDriver->numOfDefinedNetworks(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListDefinedNetworks:
* @conn: pointer to the hypervisor connection
* @names: pointer to an array to store the names
* @maxnames: size of the array
*
* list the inactive networks, stores the pointers to the names in @names
*
* For more control over the results, see virConnectListAllNetworks().
*
* Returns the number of names provided in the array or -1 in case of error.
* Note that this command is inherently racy; a network can be defined between
* a call to virConnectNumOfDefinedNetworks() and this call; you are only
* guaranteed that all currently defined networks were listed if the return
* is less than @maxnames. The client must call free() on each returned name.
*/
int
virConnectListDefinedNetworks(virConnectPtr conn, char **const names,
int maxnames)
{
VIR_DEBUG("conn=%p, names=%p, maxnames=%d", conn, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->networkDriver && conn->networkDriver->listDefinedNetworks) {
int ret;
ret = conn->networkDriver->listDefinedNetworks(conn,
names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virNetworkLookupByName:
* @conn: pointer to the hypervisor connection
* @name: name for the network
*
* Try to lookup a network on the given hypervisor based on its name.
*
* Returns a new network object or NULL in case of failure. If the
* network cannot be found, then VIR_ERR_NO_NETWORK error is raised.
*/
virNetworkPtr
virNetworkLookupByName(virConnectPtr conn, const char *name)
{
VIR_DEBUG("conn=%p, name=%s", conn, name);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(name, error);
if (conn->networkDriver && conn->networkDriver->networkLookupByName) {
virNetworkPtr ret;
ret = conn->networkDriver->networkLookupByName(conn, name);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNetworkLookupByUUID:
* @conn: pointer to the hypervisor connection
* @uuid: the raw UUID for the network
*
* Try to lookup a network on the given hypervisor based on its UUID.
*
* Returns a new network object or NULL in case of failure. If the
* network cannot be found, then VIR_ERR_NO_NETWORK error is raised.
*/
virNetworkPtr
virNetworkLookupByUUID(virConnectPtr conn, const unsigned char *uuid)
{
VIR_UUID_DEBUG(conn, uuid);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuid, error);
if (conn->networkDriver && conn->networkDriver->networkLookupByUUID){
virNetworkPtr ret;
ret = conn->networkDriver->networkLookupByUUID(conn, uuid);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNetworkLookupByUUIDString:
* @conn: pointer to the hypervisor connection
* @uuidstr: the string UUID for the network
*
* Try to lookup a network on the given hypervisor based on its UUID.
*
* Returns a new network object or NULL in case of failure. If the
* network cannot be found, then VIR_ERR_NO_NETWORK error is raised.
*/
virNetworkPtr
virNetworkLookupByUUIDString(virConnectPtr conn, const char *uuidstr)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("conn=%p, uuidstr=%s", conn, NULLSTR(uuidstr));
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuidstr, error);
if (virUUIDParse(uuidstr, uuid) < 0) {
virReportInvalidArg(uuidstr,
_("uuidstr in %s must be a valid UUID"),
__FUNCTION__);
goto error;
}
return virNetworkLookupByUUID(conn, &uuid[0]);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNetworkCreateXML:
* @conn: pointer to the hypervisor connection
* @xmlDesc: an XML description of the network
*
* Create and start a new virtual network, based on an XML description
* similar to the one returned by virNetworkGetXMLDesc()
*
* Returns a new network object or NULL in case of failure
*/
virNetworkPtr
virNetworkCreateXML(virConnectPtr conn, const char *xmlDesc)
{
VIR_DEBUG("conn=%p, xmlDesc=%s", conn, xmlDesc);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(xmlDesc, error);
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->networkDriver && conn->networkDriver->networkCreateXML) {
virNetworkPtr ret;
ret = conn->networkDriver->networkCreateXML(conn, xmlDesc);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNetworkDefineXML:
* @conn: pointer to the hypervisor connection
* @xml: the XML description for the network, preferably in UTF-8
*
* Define a network, but does not create it
*
* Returns NULL in case of error, a pointer to the network otherwise
*/
virNetworkPtr
virNetworkDefineXML(virConnectPtr conn, const char *xml)
{
VIR_DEBUG("conn=%p, xml=%s", conn, xml);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(xml, error);
if (conn->networkDriver && conn->networkDriver->networkDefineXML) {
virNetworkPtr ret;
ret = conn->networkDriver->networkDefineXML(conn, xml);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNetworkUndefine:
* @network: pointer to a defined network
*
* Undefine a network but does not stop it if it is running
*
* Returns 0 in case of success, -1 in case of error
*/
int
virNetworkUndefine(virNetworkPtr network) {
virConnectPtr conn;
VIR_DEBUG("network=%p", network);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = network->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibNetworkError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->networkDriver && conn->networkDriver->networkUndefine) {
int ret;
ret = conn->networkDriver->networkUndefine(network);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(network->conn);
return -1;
}
/**
* virNetworkUpdate:
* @network: pointer to a defined network
* @section: which section of the network to update
* (see virNetworkUpdateSection for descriptions)
* @command: what action to perform (add/delete/modify)
* (see virNetworkUpdateCommand for descriptions)
* @parentIndex: which parent element, if there are multiple parents
* of the same type (e.g. which <ip> element when modifying
* a <dhcp>/<host> element), or "-1" for "don't care" or
* "automatically find appropriate one".
* @xml: the XML description for the network, preferably in UTF-8
* @flags: bitwise OR of virNetworkUpdateFlags.
*
* Update the definition of an existing network, either its live
* running state, its persistent configuration, or both.
*
* Returns 0 in case of success, -1 in case of error
*/
int
virNetworkUpdate(virNetworkPtr network,
unsigned int command, /* virNetworkUpdateCommand */
unsigned int section, /* virNetworkUpdateSection */
int parentIndex,
const char *xml,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("network=%p, section=%d, parentIndex=%d, xml=%s, flags=0x%x",
network, section, parentIndex, xml, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = network->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibNetworkError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(xml, error);
if (conn->networkDriver && conn->networkDriver->networkUpdate) {
int ret;
ret = conn->networkDriver->networkUpdate(network, section, command,
parentIndex, xml, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(network->conn);
return -1;
}
/**
* virNetworkCreate:
* @network: pointer to a defined network
*
* Create and start a defined network. If the call succeed the network
* moves from the defined to the running networks pools.
*
* Returns 0 in case of success, -1 in case of error
*/
int
virNetworkCreate(virNetworkPtr network)
{
virConnectPtr conn;
VIR_DEBUG("network=%p", network);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = network->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibNetworkError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->networkDriver && conn->networkDriver->networkCreate) {
int ret;
ret = conn->networkDriver->networkCreate(network);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(network->conn);
return -1;
}
/**
* virNetworkDestroy:
* @network: a network object
*
* Destroy the network object. The running instance is shutdown if not down
* already and all resources used by it are given back to the hypervisor. This
* does not free the associated virNetworkPtr object.
* This function may require privileged access
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virNetworkDestroy(virNetworkPtr network)
{
virConnectPtr conn;
VIR_DEBUG("network=%p", network);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = network->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibNetworkError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->networkDriver && conn->networkDriver->networkDestroy) {
int ret;
ret = conn->networkDriver->networkDestroy(network);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(network->conn);
return -1;
}
/**
* virNetworkFree:
* @network: a network object
*
* Free the network object. The running instance is kept alive.
* The data structure is freed and should not be used thereafter.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virNetworkFree(virNetworkPtr network)
{
VIR_DEBUG("network=%p", network);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(network);
return 0;
}
/**
* virNetworkRef:
* @network: the network to hold a reference on
*
* Increment the reference count on the network. For each
* additional call to this method, there shall be a corresponding
* call to virNetworkFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection remain open until all threads have finished using
* it. ie, each new thread using a network would increment
* the reference count.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virNetworkRef(virNetworkPtr network)
{
if ((!VIR_IS_CONNECTED_NETWORK(network))) {
virLibConnError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("network=%p refs=%d", network, network->object.refs);
virObjectRef(network);
return 0;
}
/**
* virNetworkGetName:
* @network: a network object
*
* Get the public name for that network
*
* Returns a pointer to the name or NULL, the string need not be deallocated
* its lifetime will be the same as the network object.
*/
const char *
virNetworkGetName(virNetworkPtr network)
{
VIR_DEBUG("network=%p", network);
virResetLastError();
if (!VIR_IS_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return network->name;
}
/**
* virNetworkGetUUID:
* @network: a network object
* @uuid: pointer to a VIR_UUID_BUFLEN bytes array
*
* Get the UUID for a network
*
* Returns -1 in case of error, 0 in case of success
*/
int
virNetworkGetUUID(virNetworkPtr network, unsigned char *uuid)
{
VIR_DEBUG("network=%p, uuid=%p", network, uuid);
virResetLastError();
if (!VIR_IS_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(uuid, error);
memcpy(uuid, &network->uuid[0], VIR_UUID_BUFLEN);
return 0;
error:
virDispatchError(network->conn);
return -1;
}
/**
* virNetworkGetUUIDString:
* @network: a network object
* @buf: pointer to a VIR_UUID_STRING_BUFLEN bytes array
*
* Get the UUID for a network as string. For more information about
* UUID see RFC4122.
*
* Returns -1 in case of error, 0 in case of success
*/
int
virNetworkGetUUIDString(virNetworkPtr network, char *buf)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("network=%p, buf=%p", network, buf);
virResetLastError();
if (!VIR_IS_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(buf, error);
if (virNetworkGetUUID(network, &uuid[0]))
goto error;
virUUIDFormat(uuid, buf);
return 0;
error:
virDispatchError(network->conn);
return -1;
}
/**
* virNetworkGetXMLDesc:
* @network: a network object
* @flags: bitwise-OR of virNetworkXMLFlags
*
* Provide an XML description of the network. The description may be reused
* later to relaunch the network with virNetworkCreateXML().
*
* Normally, if a network included a physical function, the output includes
* all virtual functions tied to that physical interface. If @flags includes
* VIR_NETWORK_XML_INACTIVE, then the expansion of virtual interfaces is
* not performed.
*
* Returns a 0 terminated UTF-8 encoded XML instance, or NULL in case of error.
* the caller must free() the returned value.
*/
char *
virNetworkGetXMLDesc(virNetworkPtr network, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("network=%p, flags=%x", network, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = network->conn;
if (conn->networkDriver && conn->networkDriver->networkGetXMLDesc) {
char *ret;
ret = conn->networkDriver->networkGetXMLDesc(network, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(network->conn);
return NULL;
}
/**
* virNetworkGetBridgeName:
* @network: a network object
*
* Provides a bridge interface name to which a domain may connect
* a network interface in order to join the network.
*
* Returns a 0 terminated interface name, or NULL in case of error.
* the caller must free() the returned value.
*/
char *
virNetworkGetBridgeName(virNetworkPtr network)
{
virConnectPtr conn;
VIR_DEBUG("network=%p", network);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = network->conn;
if (conn->networkDriver && conn->networkDriver->networkGetBridgeName) {
char *ret;
ret = conn->networkDriver->networkGetBridgeName(network);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(network->conn);
return NULL;
}
/**
* virNetworkGetAutostart:
* @network: a network object
* @autostart: the value returned
*
* Provides a boolean value indicating whether the network
* configured to be automatically started when the host
* machine boots.
*
* Returns -1 in case of error, 0 in case of success
*/
int
virNetworkGetAutostart(virNetworkPtr network,
int *autostart)
{
virConnectPtr conn;
VIR_DEBUG("network=%p, autostart=%p", network, autostart);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(autostart, error);
conn = network->conn;
if (conn->networkDriver && conn->networkDriver->networkGetAutostart) {
int ret;
ret = conn->networkDriver->networkGetAutostart(network, autostart);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(network->conn);
return -1;
}
/**
* virNetworkSetAutostart:
* @network: a network object
* @autostart: whether the network should be automatically started 0 or 1
*
* Configure the network to be automatically started
* when the host machine boots.
*
* Returns -1 in case of error, 0 in case of success
*/
int
virNetworkSetAutostart(virNetworkPtr network,
int autostart)
{
virConnectPtr conn;
VIR_DEBUG("network=%p, autostart=%d", network, autostart);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(network)) {
virLibNetworkError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (network->conn->flags & VIR_CONNECT_RO) {
virLibNetworkError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = network->conn;
if (conn->networkDriver && conn->networkDriver->networkSetAutostart) {
int ret;
ret = conn->networkDriver->networkSetAutostart(network, autostart);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(network->conn);
return -1;
}
/**
* virInterfaceGetConnect:
* @iface: pointer to an interface
*
* Provides the connection pointer associated with an interface. The
* reference counter on the connection is not increased by this
* call.
*
* WARNING: When writing libvirt bindings in other languages, do
* not use this function. Instead, store the connection and
* the interface object together.
*
* Returns the virConnectPtr or NULL in case of failure.
*/
virConnectPtr
virInterfaceGetConnect(virInterfacePtr iface)
{
VIR_DEBUG("iface=%p", iface);
virResetLastError();
if (!VIR_IS_CONNECTED_INTERFACE(iface)) {
virLibInterfaceError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return iface->conn;
}
/**
* virConnectListAllInterfaces:
* @conn: Pointer to the hypervisor connection.
* @ifaces: Pointer to a variable to store the array containing the interface
* objects or NULL if the list is not required (just returns number
* of interfaces).
* @flags: bitwise-OR of virConnectListAllInterfacesFlags.
*
* Collect the list of interfaces, and allocate an array to store those
* objects. This API solves the race inherent between virConnectListInterfaces
* and virConnectListDefinedInterfaces.
*
* Normally, all interfaces are returned; however, @flags can be used to
* filter the results for a smaller list of targeted interfaces. The valid
* flags are divided into groups, where each group contains bits that
* describe mutually exclusive attributes of a interface, and where all bits
* within a group describe all possible interfaces.
*
* The only group of @flags is VIR_CONNECT_LIST_INTERFACES_ACTIVE (up) and
* VIR_CONNECT_LIST_INTERFACES_INACTIVE (down) to filter the interfaces by state.
*
* Returns the number of interfaces found or -1 and sets @ifaces to NULL in case
* of error. On success, the array stored into @ifaces is guaranteed to have an
* extra allocated element set to NULL but not included in the return count,
* to make iteration easier. The caller is responsible for calling
* virStorageInterfaceFree() on each array element, then calling free() on @ifaces.
*/
int
virConnectListAllInterfaces(virConnectPtr conn,
virInterfacePtr **ifaces,
unsigned int flags)
{
VIR_DEBUG("conn=%p, ifaces=%p, flags=%x", conn, ifaces, flags);
virResetLastError();
if (ifaces)
*ifaces = NULL;
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->interfaceDriver &&
conn->interfaceDriver->listAllInterfaces) {
int ret;
ret = conn->interfaceDriver->listAllInterfaces(conn, ifaces, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectNumOfInterfaces:
* @conn: pointer to the hypervisor connection
*
* Provides the number of active interfaces on the physical host.
*
* Returns the number of active interfaces found or -1 in case of error
*/
int
virConnectNumOfInterfaces(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->interfaceDriver && conn->interfaceDriver->numOfInterfaces) {
int ret;
ret = conn->interfaceDriver->numOfInterfaces(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListInterfaces:
* @conn: pointer to the hypervisor connection
* @names: array to collect the list of names of interfaces
* @maxnames: size of @names
*
* Collect the list of active physical host interfaces,
* and store their names in @names
*
* For more control over the results, see virConnectListAllInterfaces().
*
* Returns the number of interfaces found or -1 in case of error. Note that
* this command is inherently racy; a interface can be started between a call
* to virConnectNumOfInterfaces() and this call; you are only guaranteed that
* all currently active interfaces were listed if the return is less than
* @maxnames.
*/
int
virConnectListInterfaces(virConnectPtr conn, char **const names, int maxnames)
{
VIR_DEBUG("conn=%p, names=%p, maxnames=%d", conn, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->interfaceDriver && conn->interfaceDriver->listInterfaces) {
int ret;
ret = conn->interfaceDriver->listInterfaces(conn, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectNumOfDefinedInterfaces:
* @conn: pointer to the hypervisor connection
*
* Provides the number of defined (inactive) interfaces on the physical host.
*
* Returns the number of defined interface found or -1 in case of error
*/
int
virConnectNumOfDefinedInterfaces(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->interfaceDriver && conn->interfaceDriver->numOfDefinedInterfaces) {
int ret;
ret = conn->interfaceDriver->numOfDefinedInterfaces(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListDefinedInterfaces:
* @conn: pointer to the hypervisor connection
* @names: array to collect the list of names of interfaces
* @maxnames: size of @names
*
* Collect the list of defined (inactive) physical host interfaces,
* and store their names in @names.
*
* For more control over the results, see virConnectListAllInterfaces().
*
* Returns the number of names provided in the array or -1 in case of error.
* Note that this command is inherently racy; a interface can be defined between
* a call to virConnectNumOfDefinedInterfaces() and this call; you are only
* guaranteed that all currently defined interfaces were listed if the return
* is less than @maxnames. The client must call free() on each returned name.
*/
int
virConnectListDefinedInterfaces(virConnectPtr conn,
char **const names,
int maxnames)
{
VIR_DEBUG("conn=%p, names=%p, maxnames=%d", conn, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->interfaceDriver && conn->interfaceDriver->listDefinedInterfaces) {
int ret;
ret = conn->interfaceDriver->listDefinedInterfaces(conn, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virInterfaceLookupByName:
* @conn: pointer to the hypervisor connection
* @name: name for the interface
*
* Try to lookup an interface on the given hypervisor based on its name.
*
* Returns a new interface object or NULL in case of failure. If the
* interface cannot be found, then VIR_ERR_NO_INTERFACE error is raised.
*/
virInterfacePtr
virInterfaceLookupByName(virConnectPtr conn, const char *name)
{
VIR_DEBUG("conn=%p, name=%s", conn, name);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(name, error);
if (conn->interfaceDriver && conn->interfaceDriver->interfaceLookupByName) {
virInterfacePtr ret;
ret = conn->interfaceDriver->interfaceLookupByName(conn, name);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virInterfaceLookupByMACString:
* @conn: pointer to the hypervisor connection
* @macstr: the MAC for the interface (null-terminated ASCII format)
*
* Try to lookup an interface on the given hypervisor based on its MAC.
*
* Returns a new interface object or NULL in case of failure. If the
* interface cannot be found, then VIR_ERR_NO_INTERFACE error is raised.
*/
virInterfacePtr
virInterfaceLookupByMACString(virConnectPtr conn, const char *macstr)
{
VIR_DEBUG("conn=%p, macstr=%s", conn, macstr);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(macstr, error);
if (conn->interfaceDriver && conn->interfaceDriver->interfaceLookupByMACString) {
virInterfacePtr ret;
ret = conn->interfaceDriver->interfaceLookupByMACString(conn, macstr);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virInterfaceGetName:
* @iface: an interface object
*
* Get the public name for that interface
*
* Returns a pointer to the name or NULL, the string need not be deallocated
* its lifetime will be the same as the interface object.
*/
const char *
virInterfaceGetName(virInterfacePtr iface)
{
VIR_DEBUG("iface=%p", iface);
virResetLastError();
if (!VIR_IS_INTERFACE(iface)) {
virLibInterfaceError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return iface->name;
}
/**
* virInterfaceGetMACString:
* @iface: an interface object
*
* Get the MAC for an interface as string. For more information about
* MAC see RFC4122.
*
* Returns a pointer to the MAC address (in null-terminated ASCII
* format) or NULL, the string need not be deallocated its lifetime
* will be the same as the interface object.
*/
const char *
virInterfaceGetMACString(virInterfacePtr iface)
{
VIR_DEBUG("iface=%p", iface);
virResetLastError();
if (!VIR_IS_INTERFACE(iface)) {
virLibInterfaceError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return iface->mac;
}
/**
* virInterfaceGetXMLDesc:
* @iface: an interface object
* @flags: bitwise-OR of extraction flags. Current valid bits:
*
* VIR_INTERFACE_XML_INACTIVE - return the static configuration,
* suitable for use redefining the
* interface via virInterfaceDefineXML()
*
* Provide an XML description of the interface. If
* VIR_INTERFACE_XML_INACTIVE is set, the description may be reused
* later to redefine the interface with virInterfaceDefineXML(). If it
* is not set, the ip address and netmask will be the current live
* setting of the interface, not the settings from the config files.
*
* Returns a 0 terminated UTF-8 encoded XML instance, or NULL in case of error.
* the caller must free() the returned value.
*/
char *
virInterfaceGetXMLDesc(virInterfacePtr iface, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("iface=%p, flags=%x", iface, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_INTERFACE(iface)) {
virLibInterfaceError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = iface->conn;
if (conn->interfaceDriver && conn->interfaceDriver->interfaceGetXMLDesc) {
char *ret;
ret = conn->interfaceDriver->interfaceGetXMLDesc(iface, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(iface->conn);
return NULL;
}
/**
* virInterfaceDefineXML:
* @conn: pointer to the hypervisor connection
* @xml: the XML description for the interface, preferably in UTF-8
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Define an interface (or modify existing interface configuration).
*
* Normally this change in the interface configuration is immediately
* permanent/persistent, but if virInterfaceChangeBegin() has been
* previously called (i.e. if an interface config transaction is
* open), the new interface definition will only become permanent if
* virInterfaceChangeCommit() is called prior to the next reboot of
* the system running libvirtd. Prior to that time, it can be
* explicitly removed using virInterfaceChangeRollback(), or will be
* automatically removed during the next reboot of the system running
* libvirtd.
*
* Returns NULL in case of error, a pointer to the interface otherwise
*/
virInterfacePtr
virInterfaceDefineXML(virConnectPtr conn, const char *xml, unsigned int flags)
{
VIR_DEBUG("conn=%p, xml=%s, flags=%x", conn, xml, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(xml, error);
if (conn->interfaceDriver && conn->interfaceDriver->interfaceDefineXML) {
virInterfacePtr ret;
ret = conn->interfaceDriver->interfaceDefineXML(conn, xml, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virInterfaceUndefine:
* @iface: pointer to a defined interface
*
* Undefine an interface, ie remove it from the config.
* This does not free the associated virInterfacePtr object.
*
* Normally this change in the interface configuration is
* permanent/persistent, but if virInterfaceChangeBegin() has been
* previously called (i.e. if an interface config transaction is
* open), the removal of the interface definition will only become
* permanent if virInterfaceChangeCommit() is called prior to the next
* reboot of the system running libvirtd. Prior to that time, the
* definition can be explicitly restored using
* virInterfaceChangeRollback(), or will be automatically restored
* during the next reboot of the system running libvirtd.
*
* Returns 0 in case of success, -1 in case of error
*/
int
virInterfaceUndefine(virInterfacePtr iface) {
virConnectPtr conn;
VIR_DEBUG("iface=%p", iface);
virResetLastError();
if (!VIR_IS_CONNECTED_INTERFACE(iface)) {
virLibInterfaceError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = iface->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibInterfaceError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->interfaceDriver && conn->interfaceDriver->interfaceUndefine) {
int ret;
ret = conn->interfaceDriver->interfaceUndefine(iface);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(iface->conn);
return -1;
}
/**
* virInterfaceCreate:
* @iface: pointer to a defined interface
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Activate an interface (i.e. call "ifup").
*
* If there was an open network config transaction at the time this
* interface was defined (that is, if virInterfaceChangeBegin() had
* been called), the interface will be brought back down (and then
* undefined) if virInterfaceChangeRollback() is called.
p *
* Returns 0 in case of success, -1 in case of error
*/
int
virInterfaceCreate(virInterfacePtr iface, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("iface=%p, flags=%x", iface, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_INTERFACE(iface)) {
virLibInterfaceError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = iface->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibInterfaceError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->interfaceDriver && conn->interfaceDriver->interfaceCreate) {
int ret;
ret = conn->interfaceDriver->interfaceCreate(iface, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(iface->conn);
return -1;
}
/**
* virInterfaceDestroy:
* @iface: an interface object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* deactivate an interface (ie call "ifdown")
* This does not remove the interface from the config, and
* does not free the associated virInterfacePtr object.
*
* If there is an open network config transaction at the time this
* interface is destroyed (that is, if virInterfaceChangeBegin() had
* been called), and if the interface is later undefined and then
* virInterfaceChangeRollback() is called, the restoral of the
* interface definition will also bring the interface back up.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virInterfaceDestroy(virInterfacePtr iface, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("iface=%p, flags=%x", iface, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_INTERFACE(iface)) {
virLibInterfaceError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = iface->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibInterfaceError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->interfaceDriver && conn->interfaceDriver->interfaceDestroy) {
int ret;
ret = conn->interfaceDriver->interfaceDestroy(iface, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(iface->conn);
return -1;
}
/**
* virInterfaceRef:
* @iface: the interface to hold a reference on
*
* Increment the reference count on the interface. For each
* additional call to this method, there shall be a corresponding
* call to virInterfaceFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection remain open until all threads have finished using
* it. ie, each new thread using an interface would increment
* the reference count.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virInterfaceRef(virInterfacePtr iface)
{
if ((!VIR_IS_CONNECTED_INTERFACE(iface))) {
virLibConnError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("iface=%p refs=%d", iface, iface->object.refs);
virObjectRef(iface);
return 0;
}
/**
* virInterfaceFree:
* @iface: an interface object
*
* Free the interface object. The interface itself is unaltered.
* The data structure is freed and should not be used thereafter.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virInterfaceFree(virInterfacePtr iface)
{
VIR_DEBUG("iface=%p", iface);
virResetLastError();
if (!VIR_IS_CONNECTED_INTERFACE(iface)) {
virLibInterfaceError(VIR_ERR_INVALID_INTERFACE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(iface);
return 0;
}
/**
* virInterfaceChangeBegin:
* @conn: pointer to hypervisor connection
* @flags: extra flags; not used yet, so callers should always pass 0
*
* This function creates a restore point to which one can return
* later by calling virInterfaceChangeRollback(). This function should
* be called before any transaction with interface configuration.
* Once it is known that a new configuration works, it can be committed via
* virInterfaceChangeCommit(), which frees the restore point.
*
* If virInterfaceChangeBegin() is called when a transaction is
* already opened, this function will fail, and a
* VIR_ERR_INVALID_OPERATION will be logged.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virInterfaceChangeBegin(virConnectPtr conn, unsigned int flags)
{
VIR_DEBUG("conn=%p, flags=%x", conn, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibInterfaceError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->interfaceDriver && conn->interfaceDriver->interfaceChangeBegin) {
int ret;
ret = conn->interfaceDriver->interfaceChangeBegin(conn, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virInterfaceChangeCommit:
* @conn: pointer to hypervisor connection
* @flags: extra flags; not used yet, so callers should always pass 0
*
* This commits the changes made to interfaces and frees the restore point
* created by virInterfaceChangeBegin().
*
* If virInterfaceChangeCommit() is called when a transaction is not
* opened, this function will fail, and a VIR_ERR_INVALID_OPERATION
* will be logged.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virInterfaceChangeCommit(virConnectPtr conn, unsigned int flags)
{
VIR_DEBUG("conn=%p, flags=%x", conn, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibInterfaceError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->interfaceDriver && conn->interfaceDriver->interfaceChangeCommit) {
int ret;
ret = conn->interfaceDriver->interfaceChangeCommit(conn, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virInterfaceChangeRollback:
* @conn: pointer to hypervisor connection
* @flags: extra flags; not used yet, so callers should always pass 0
*
* This cancels changes made to interfaces settings by restoring previous
* state created by virInterfaceChangeBegin().
*
* If virInterfaceChangeRollback() is called when a transaction is not
* opened, this function will fail, and a VIR_ERR_INVALID_OPERATION
* will be logged.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virInterfaceChangeRollback(virConnectPtr conn, unsigned int flags)
{
VIR_DEBUG("conn=%p, flags=%x", conn, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibInterfaceError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->interfaceDriver &&
conn->interfaceDriver->interfaceChangeRollback) {
int ret;
ret = conn->interfaceDriver->interfaceChangeRollback(conn, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virStoragePoolGetConnect:
* @pool: pointer to a pool
*
* Provides the connection pointer associated with a storage pool. The
* reference counter on the connection is not increased by this
* call.
*
* WARNING: When writing libvirt bindings in other languages, do
* not use this function. Instead, store the connection and
* the pool object together.
*
* Returns the virConnectPtr or NULL in case of failure.
*/
virConnectPtr
virStoragePoolGetConnect(virStoragePoolPtr pool)
{
VIR_DEBUG("pool=%p", pool);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return pool->conn;
}
/**
* virConnectListAllStoragePools:
* @conn: Pointer to the hypervisor connection.
* @pools: Pointer to a variable to store the array containing storage pool
* objects or NULL if the list is not required (just returns number
* of pools).
* @flags: bitwise-OR of virConnectListAllStoragePoolsFlags.
*
* Collect the list of storage pools, and allocate an array to store those
* objects. This API solves the race inherent between
* virConnectListStoragePools and virConnectListDefinedStoragePools.
*
* Normally, all storage pools are returned; however, @flags can be used to
* filter the results for a smaller list of targeted pools. The valid
* flags are divided into groups, where each group contains bits that
* describe mutually exclusive attributes of a pool, and where all bits
* within a group describe all possible pools.
*
* The first group of @flags is VIR_CONNECT_LIST_STORAGE_POOLS_ACTIVE (online)
* and VIR_CONNECT_LIST_STORAGE_POOLS_INACTIVE (offline) to filter the pools
* by state.
*
* The second group of @flags is VIR_CONNECT_LIST_STORAGE_POOLS_PERSITENT
* (defined) and VIR_CONNECT_LIST_STORAGE_POOLS_TRANSIENT (running but not
* defined), to filter the pools by whether they have persistent config or not.
*
* The third group of @flags is VIR_CONNECT_LIST_STORAGE_POOLS_AUTOSTART
* and VIR_CONNECT_LIST_STORAGE_POOLS_NO_AUTOSTART, to filter the pools by
* whether they are marked as autostart or not.
*
* The last group of @flags is provided to filter the pools by the types,
* the flags include:
* VIR_CONNECT_LIST_STORAGE_POOLS_DIR
* VIR_CONNECT_LIST_STORAGE_POOLS_FS
* VIR_CONNECT_LIST_STORAGE_POOLS_NETFS
* VIR_CONNECT_LIST_STORAGE_POOLS_LOGICAL
* VIR_CONNECT_LIST_STORAGE_POOLS_DISK
* VIR_CONNECT_LIST_STORAGE_POOLS_ISCSI
* VIR_CONNECT_LIST_STORAGE_POOLS_SCSI
* VIR_CONNECT_LIST_STORAGE_POOLS_MPATH
* VIR_CONNECT_LIST_STORAGE_POOLS_RBD
* VIR_CONNECT_LIST_STORAGE_POOLS_SHEEPDOG
*
* Returns the number of storage pools found or -1 and sets @pools to
* NULL in case of error. On success, the array stored into @pools is
* guaranteed to have an extra allocated element set to NULL but not included
* in the return count, to make iteration easier. The caller is responsible
* for calling virStoragePoolFree() on each array element, then calling
* free() on @pools.
*/
int
virConnectListAllStoragePools(virConnectPtr conn,
virStoragePoolPtr **pools,
unsigned int flags)
{
VIR_DEBUG("conn=%p, pools=%p, flags=%x", conn, pools, flags);
virResetLastError();
if (pools)
*pools = NULL;
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->storageDriver &&
conn->storageDriver->listAllPools) {
int ret;
ret = conn->storageDriver->listAllPools(conn, pools, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectNumOfStoragePools:
* @conn: pointer to hypervisor connection
*
* Provides the number of active storage pools
*
* Returns the number of pools found, or -1 on error
*/
int
virConnectNumOfStoragePools(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->storageDriver && conn->storageDriver->numOfPools) {
int ret;
ret = conn->storageDriver->numOfPools(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListStoragePools:
* @conn: pointer to hypervisor connection
* @names: array of char * to fill with pool names (allocated by caller)
* @maxnames: size of the names array
*
* Provides the list of names of active storage pools up to maxnames.
* If there are more than maxnames, the remaining names will be silently
* ignored.
*
* For more control over the results, see virConnectListAllStoragePools().
*
* Returns the number of pools found or -1 in case of error. Note that
* this command is inherently racy; a pool can be started between a call to
* virConnectNumOfStoragePools() and this call; you are only guaranteed
* that all currently active pools were listed if the return is less than
* @maxnames.
*/
int
virConnectListStoragePools(virConnectPtr conn,
char **const names,
int maxnames)
{
VIR_DEBUG("conn=%p, names=%p, maxnames=%d", conn, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->storageDriver && conn->storageDriver->listPools) {
int ret;
ret = conn->storageDriver->listPools(conn, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectNumOfDefinedStoragePools:
* @conn: pointer to hypervisor connection
*
* Provides the number of inactive storage pools
*
* Returns the number of pools found, or -1 on error
*/
int
virConnectNumOfDefinedStoragePools(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->storageDriver && conn->storageDriver->numOfDefinedPools) {
int ret;
ret = conn->storageDriver->numOfDefinedPools(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListDefinedStoragePools:
* @conn: pointer to hypervisor connection
* @names: array of char * to fill with pool names (allocated by caller)
* @maxnames: size of the names array
*
* Provides the list of names of inactive storage pools up to maxnames.
* If there are more than maxnames, the remaining names will be silently
* ignored.
*
* For more control over the results, see virConnectListAllStoragePools().
*
* Returns the number of names provided in the array or -1 in case of error.
* Note that this command is inherently racy; a pool can be defined between
* a call to virConnectNumOfDefinedStoragePools() and this call; you are only
* guaranteed that all currently defined pools were listed if the return
* is less than @maxnames. The client must call free() on each returned name.
*/
int
virConnectListDefinedStoragePools(virConnectPtr conn,
char **const names,
int maxnames)
{
VIR_DEBUG("conn=%p, names=%p, maxnames=%d", conn, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->storageDriver && conn->storageDriver->listDefinedPools) {
int ret;
ret = conn->storageDriver->listDefinedPools(conn, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectFindStoragePoolSources:
* @conn: pointer to hypervisor connection
* @type: type of storage pool sources to discover
* @srcSpec: XML document specifying discovery source
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Talks to a storage backend and attempts to auto-discover the set of
* available storage pool sources. e.g. For iSCSI this would be a set of
* iSCSI targets. For NFS this would be a list of exported paths. The
* srcSpec (optional for some storage pool types, e.g. local ones) is
* an instance of the storage pool's source element specifying where
* to look for the pools.
*
* srcSpec is not required for some types (e.g., those querying
* local storage resources only)
*
* Returns an xml document consisting of a SourceList element
* containing a source document appropriate to the given pool
* type for each discovered source.
*/
char *
virConnectFindStoragePoolSources(virConnectPtr conn,
const char *type,
const char *srcSpec,
unsigned int flags)
{
VIR_DEBUG("conn=%p, type=%s, src=%s, flags=%x",
conn, NULLSTR(type), NULLSTR(srcSpec), flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(type, error);
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->findPoolSources) {
char *ret;
ret = conn->storageDriver->findPoolSources(conn, type, srcSpec, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virStoragePoolLookupByName:
* @conn: pointer to hypervisor connection
* @name: name of pool to fetch
*
* Fetch a storage pool based on its unique name
*
* Returns a virStoragePoolPtr object, or NULL if no matching pool is found
*/
virStoragePoolPtr
virStoragePoolLookupByName(virConnectPtr conn,
const char *name)
{
VIR_DEBUG("conn=%p, name=%s", conn, name);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(name, error);
if (conn->storageDriver && conn->storageDriver->poolLookupByName) {
virStoragePoolPtr ret;
ret = conn->storageDriver->poolLookupByName(conn, name);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virStoragePoolLookupByUUID:
* @conn: pointer to hypervisor connection
* @uuid: globally unique id of pool to fetch
*
* Fetch a storage pool based on its globally unique id
*
* Returns a virStoragePoolPtr object, or NULL if no matching pool is found
*/
virStoragePoolPtr
virStoragePoolLookupByUUID(virConnectPtr conn,
const unsigned char *uuid)
{
VIR_UUID_DEBUG(conn, uuid);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuid, error);
if (conn->storageDriver && conn->storageDriver->poolLookupByUUID) {
virStoragePoolPtr ret;
ret = conn->storageDriver->poolLookupByUUID(conn, uuid);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virStoragePoolLookupByUUIDString:
* @conn: pointer to hypervisor connection
* @uuidstr: globally unique id of pool to fetch
*
* Fetch a storage pool based on its globally unique id
*
* Returns a virStoragePoolPtr object, or NULL if no matching pool is found
*/
virStoragePoolPtr
virStoragePoolLookupByUUIDString(virConnectPtr conn,
const char *uuidstr)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("conn=%p, uuidstr=%s", conn, NULLSTR(uuidstr));
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuidstr, error);
if (virUUIDParse(uuidstr, uuid) < 0) {
virReportInvalidArg(uuidstr,
_("uuidstr in %s must be a valid UUID"),
__FUNCTION__);
goto error;
}
return virStoragePoolLookupByUUID(conn, uuid);
error:
virDispatchError(conn);
return NULL;
}
/**
* virStoragePoolLookupByVolume:
* @vol: pointer to storage volume
*
* Fetch a storage pool which contains a particular volume
*
* Returns a virStoragePoolPtr object, or NULL if no matching pool is found
*/
virStoragePoolPtr
virStoragePoolLookupByVolume(virStorageVolPtr vol)
{
VIR_DEBUG("vol=%p", vol);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_VOL(vol)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (vol->conn->storageDriver && vol->conn->storageDriver->poolLookupByVolume) {
virStoragePoolPtr ret;
ret = vol->conn->storageDriver->poolLookupByVolume(vol);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return NULL;
}
/**
* virStoragePoolCreateXML:
* @conn: pointer to hypervisor connection
* @xmlDesc: XML description for new pool
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Create a new storage based on its XML description. The
* pool is not persistent, so its definition will disappear
* when it is destroyed, or if the host is restarted
*
* Returns a virStoragePoolPtr object, or NULL if creation failed
*/
virStoragePoolPtr
virStoragePoolCreateXML(virConnectPtr conn,
const char *xmlDesc,
unsigned int flags)
{
VIR_DEBUG("conn=%p, xmlDesc=%s, flags=%x", conn, xmlDesc, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(xmlDesc, error);
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->poolCreateXML) {
virStoragePoolPtr ret;
ret = conn->storageDriver->poolCreateXML(conn, xmlDesc, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virStoragePoolDefineXML:
* @conn: pointer to hypervisor connection
* @xml: XML description for new pool
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Define a new inactive storage pool based on its XML description. The
* pool is persistent, until explicitly undefined.
*
* Returns a virStoragePoolPtr object, or NULL if creation failed
*/
virStoragePoolPtr
virStoragePoolDefineXML(virConnectPtr conn,
const char *xml,
unsigned int flags)
{
VIR_DEBUG("conn=%p, xml=%s, flags=%x", conn, xml, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(xml, error);
if (conn->storageDriver && conn->storageDriver->poolDefineXML) {
virStoragePoolPtr ret;
ret = conn->storageDriver->poolDefineXML(conn, xml, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virStoragePoolBuild:
* @pool: pointer to storage pool
* @flags: bitwise-OR of virStoragePoolBuildFlags
*
* Currently only filesystem pool accepts flags VIR_STORAGE_POOL_BUILD_OVERWRITE
* and VIR_STORAGE_POOL_BUILD_NO_OVERWRITE.
*
* Build the underlying storage pool
*
* Returns 0 on success, or -1 upon failure
*/
int
virStoragePoolBuild(virStoragePoolPtr pool,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p, flags=%x", pool, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = pool->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStoragePoolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->poolBuild) {
int ret;
ret = conn->storageDriver->poolBuild(pool, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolUndefine:
* @pool: pointer to storage pool
*
* Undefine an inactive storage pool
*
* Returns 0 on success, -1 on failure
*/
int
virStoragePoolUndefine(virStoragePoolPtr pool)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p", pool);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_NETWORK, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = pool->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStoragePoolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->poolUndefine) {
int ret;
ret = conn->storageDriver->poolUndefine(pool);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolCreate:
* @pool: pointer to storage pool
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Starts an inactive storage pool
*
* Returns 0 on success, or -1 if it could not be started
*/
int
virStoragePoolCreate(virStoragePoolPtr pool,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p, flags=%x", pool, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = pool->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStoragePoolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->poolCreate) {
int ret;
ret = conn->storageDriver->poolCreate(pool, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolDestroy:
* @pool: pointer to storage pool
*
* Destroy an active storage pool. This will deactivate the
* pool on the host, but keep any persistent config associated
* with it. If it has a persistent config it can later be
* restarted with virStoragePoolCreate(). This does not free
* the associated virStoragePoolPtr object.
*
* Returns 0 on success, or -1 if it could not be destroyed
*/
int
virStoragePoolDestroy(virStoragePoolPtr pool)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p", pool);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = pool->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStoragePoolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->poolDestroy) {
int ret;
ret = conn->storageDriver->poolDestroy(pool);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolDelete:
* @pool: pointer to storage pool
* @flags: bitwise-OR of virStoragePoolDeleteFlags
*
* Delete the underlying pool resources. This is
* a non-recoverable operation. The virStoragePoolPtr object
* itself is not free'd.
*
* Returns 0 on success, or -1 if it could not be obliterate
*/
int
virStoragePoolDelete(virStoragePoolPtr pool,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p, flags=%x", pool, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = pool->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStoragePoolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->poolDelete) {
int ret;
ret = conn->storageDriver->poolDelete(pool, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolFree:
* @pool: pointer to storage pool
*
* Free a storage pool object, releasing all memory associated with
* it. Does not change the state of the pool on the host.
*
* Returns 0 on success, or -1 if it could not be free'd.
*/
int
virStoragePoolFree(virStoragePoolPtr pool)
{
VIR_DEBUG("pool=%p", pool);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(pool);
return 0;
}
/**
* virStoragePoolRef:
* @pool: the pool to hold a reference on
*
* Increment the reference count on the pool. For each
* additional call to this method, there shall be a corresponding
* call to virStoragePoolFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection remain open until all threads have finished using
* it. ie, each new thread using a pool would increment
* the reference count.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virStoragePoolRef(virStoragePoolPtr pool)
{
if ((!VIR_IS_CONNECTED_STORAGE_POOL(pool))) {
virLibConnError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("pool=%p refs=%d", pool, pool->object.refs);
virObjectRef(pool);
return 0;
}
/**
* virStoragePoolRefresh:
* @pool: pointer to storage pool
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Request that the pool refresh its list of volumes. This may
* involve communicating with a remote server, and/or initializing
* new devices at the OS layer
*
* Returns 0 if the volume list was refreshed, -1 on failure
*/
int
virStoragePoolRefresh(virStoragePoolPtr pool,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p, flags=%x", pool, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = pool->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStoragePoolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->poolRefresh) {
int ret;
ret = conn->storageDriver->poolRefresh(pool, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolGetName:
* @pool: pointer to storage pool
*
* Fetch the locally unique name of the storage pool
*
* Returns the name of the pool, or NULL on error
*/
const char*
virStoragePoolGetName(virStoragePoolPtr pool)
{
VIR_DEBUG("pool=%p", pool);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return pool->name;
}
/**
* virStoragePoolGetUUID:
* @pool: pointer to storage pool
* @uuid: buffer of VIR_UUID_BUFLEN bytes in size
*
* Fetch the globally unique ID of the storage pool
*
* Returns 0 on success, or -1 on error;
*/
int
virStoragePoolGetUUID(virStoragePoolPtr pool,
unsigned char *uuid)
{
VIR_DEBUG("pool=%p, uuid=%p", pool, uuid);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(uuid, error);
memcpy(uuid, &pool->uuid[0], VIR_UUID_BUFLEN);
return 0;
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolGetUUIDString:
* @pool: pointer to storage pool
* @buf: buffer of VIR_UUID_STRING_BUFLEN bytes in size
*
* Fetch the globally unique ID of the storage pool as a string
*
* Returns 0 on success, or -1 on error;
*/
int
virStoragePoolGetUUIDString(virStoragePoolPtr pool,
char *buf)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("pool=%p, buf=%p", pool, buf);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(buf, error);
if (virStoragePoolGetUUID(pool, &uuid[0]))
goto error;
virUUIDFormat(uuid, buf);
return 0;
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolGetInfo:
* @pool: pointer to storage pool
* @info: pointer at which to store info
*
* Get volatile information about the storage pool
* such as free space / usage summary
*
* Returns 0 on success, or -1 on failure.
*/
int
virStoragePoolGetInfo(virStoragePoolPtr pool,
virStoragePoolInfoPtr info)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p, info=%p", pool, info);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(info, error);
memset(info, 0, sizeof(virStoragePoolInfo));
conn = pool->conn;
if (conn->storageDriver->poolGetInfo) {
int ret;
ret = conn->storageDriver->poolGetInfo(pool, info);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolGetXMLDesc:
* @pool: pointer to storage pool
* @flags: bitwise-OR of virStorageXMLFlags
*
* Fetch an XML document describing all aspects of the
* storage pool. This is suitable for later feeding back
* into the virStoragePoolCreateXML method.
*
* Returns a XML document, or NULL on error
*/
char *
virStoragePoolGetXMLDesc(virStoragePoolPtr pool,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p, flags=%x", pool, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = pool->conn;
if (conn->storageDriver && conn->storageDriver->poolGetXMLDesc) {
char *ret;
ret = conn->storageDriver->poolGetXMLDesc(pool, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return NULL;
}
/**
* virStoragePoolGetAutostart:
* @pool: pointer to storage pool
* @autostart: location in which to store autostart flag
*
* Fetches the value of the autostart flag, which determines
* whether the pool is automatically started at boot time
*
* Returns 0 on success, -1 on failure
*/
int
virStoragePoolGetAutostart(virStoragePoolPtr pool,
int *autostart)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p, autostart=%p", pool, autostart);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(autostart, error);
conn = pool->conn;
if (conn->storageDriver && conn->storageDriver->poolGetAutostart) {
int ret;
ret = conn->storageDriver->poolGetAutostart(pool, autostart);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolSetAutostart:
* @pool: pointer to storage pool
* @autostart: new flag setting
*
* Sets the autostart flag
*
* Returns 0 on success, -1 on failure
*/
int
virStoragePoolSetAutostart(virStoragePoolPtr pool,
int autostart)
{
virConnectPtr conn;
VIR_DEBUG("pool=%p, autostart=%d", pool, autostart);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibStoragePoolError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (pool->conn->flags & VIR_CONNECT_RO) {
virLibStoragePoolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
conn = pool->conn;
if (conn->storageDriver && conn->storageDriver->poolSetAutostart) {
int ret;
ret = conn->storageDriver->poolSetAutostart(pool, autostart);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolListAllVolumes:
* @pool: Pointer to storage pool
* @vols: Pointer to a variable to store the array containing storage volume
* objects or NULL if the list is not required (just returns number
* of volumes).
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Collect the list of storage volumes, and allocate an array to store those
* objects.
*
* Returns the number of storage volumes found or -1 and sets @vols to
* NULL in case of error. On success, the array stored into @vols is
* guaranteed to have an extra allocated element set to NULL but not included
* in the return count, to make iteration easier. The caller is responsible
* for calling virStorageVolFree() on each array element, then calling
* free() on @vols.
*/
int
virStoragePoolListAllVolumes(virStoragePoolPtr pool,
virStorageVolPtr **vols,
unsigned int flags)
{
VIR_DEBUG("pool=%p, vols=%p, flags=%x", pool, vols, flags);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (pool->conn->storageDriver &&
pool->conn->storageDriver->poolListAllVolumes) {
int ret;
ret = pool->conn->storageDriver->poolListAllVolumes(pool, vols, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolNumOfVolumes:
* @pool: pointer to storage pool
*
* Fetch the number of storage volumes within a pool
*
* Returns the number of storage pools, or -1 on failure
*/
int
virStoragePoolNumOfVolumes(virStoragePoolPtr pool)
{
VIR_DEBUG("pool=%p", pool);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (pool->conn->storageDriver && pool->conn->storageDriver->poolNumOfVolumes) {
int ret;
ret = pool->conn->storageDriver->poolNumOfVolumes(pool);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolListVolumes:
* @pool: pointer to storage pool
* @names: array in which to storage volume names
* @maxnames: size of names array
*
* Fetch list of storage volume names, limiting to
* at most maxnames.
*
* To list the volume objects directly, see virStoragePoolListAllVolumes().
*
* Returns the number of names fetched, or -1 on error
*/
int
virStoragePoolListVolumes(virStoragePoolPtr pool,
char **const names,
int maxnames)
{
VIR_DEBUG("pool=%p, names=%p, maxnames=%d", pool, names, maxnames);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (pool->conn->storageDriver && pool->conn->storageDriver->poolListVolumes) {
int ret;
ret = pool->conn->storageDriver->poolListVolumes(pool, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStorageVolGetConnect:
* @vol: pointer to a pool
*
* Provides the connection pointer associated with a storage volume. The
* reference counter on the connection is not increased by this
* call.
*
* WARNING: When writing libvirt bindings in other languages, do
* not use this function. Instead, store the connection and
* the volume object together.
*
* Returns the virConnectPtr or NULL in case of failure.
*/
virConnectPtr
virStorageVolGetConnect(virStorageVolPtr vol)
{
VIR_DEBUG("vol=%p", vol);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return vol->conn;
}
/**
* virStorageVolLookupByName:
* @pool: pointer to storage pool
* @name: name of storage volume
*
* Fetch a pointer to a storage volume based on its name
* within a pool
*
* Returns a storage volume, or NULL if not found / error
*/
virStorageVolPtr
virStorageVolLookupByName(virStoragePoolPtr pool,
const char *name)
{
VIR_DEBUG("pool=%p, name=%s", pool, name);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(name, error);
if (pool->conn->storageDriver && pool->conn->storageDriver->volLookupByName) {
virStorageVolPtr ret;
ret = pool->conn->storageDriver->volLookupByName(pool, name);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return NULL;
}
/**
* virStorageVolLookupByKey:
* @conn: pointer to hypervisor connection
* @key: globally unique key
*
* Fetch a pointer to a storage volume based on its
* globally unique key
*
* Returns a storage volume, or NULL if not found / error
*/
virStorageVolPtr
virStorageVolLookupByKey(virConnectPtr conn,
const char *key)
{
VIR_DEBUG("conn=%p, key=%s", conn, key);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(key, error);
if (conn->storageDriver && conn->storageDriver->volLookupByKey) {
virStorageVolPtr ret;
ret = conn->storageDriver->volLookupByKey(conn, key);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virStorageVolLookupByPath:
* @conn: pointer to hypervisor connection
* @path: locally unique path
*
* Fetch a pointer to a storage volume based on its
* locally (host) unique path
*
* Returns a storage volume, or NULL if not found / error
*/
virStorageVolPtr
virStorageVolLookupByPath(virConnectPtr conn,
const char *path)
{
VIR_DEBUG("conn=%p, path=%s", conn, path);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(path, error);
if (conn->storageDriver && conn->storageDriver->volLookupByPath) {
virStorageVolPtr ret;
ret = conn->storageDriver->volLookupByPath(conn, path);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virStorageVolGetName:
* @vol: pointer to storage volume
*
* Fetch the storage volume name. This is unique
* within the scope of a pool
*
* Returns the volume name, or NULL on error
*/
const char*
virStorageVolGetName(virStorageVolPtr vol)
{
VIR_DEBUG("vol=%p", vol);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return vol->name;
}
/**
* virStorageVolGetKey:
* @vol: pointer to storage volume
*
* Fetch the storage volume key. This is globally
* unique, so the same volume will have the same
* key no matter what host it is accessed from
*
* Returns the volume key, or NULL on error
*/
const char*
virStorageVolGetKey(virStorageVolPtr vol)
{
VIR_DEBUG("vol=%p", vol);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return vol->key;
}
/**
* virStorageVolCreateXML:
* @pool: pointer to storage pool
* @xmlDesc: description of volume to create
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Create a storage volume within a pool based
* on an XML description. Not all pools support
* creation of volumes
*
* Returns the storage volume, or NULL on error
*/
virStorageVolPtr
virStorageVolCreateXML(virStoragePoolPtr pool,
const char *xmlDesc,
unsigned int flags)
{
VIR_DEBUG("pool=%p, xmlDesc=%s, flags=%x", pool, xmlDesc, flags);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(xmlDesc, error);
if (pool->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (pool->conn->storageDriver && pool->conn->storageDriver->volCreateXML) {
virStorageVolPtr ret;
ret = pool->conn->storageDriver->volCreateXML(pool, xmlDesc, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return NULL;
}
/**
* virStorageVolCreateXMLFrom:
* @pool: pointer to parent pool for the new volume
* @xmlDesc: description of volume to create
* @clonevol: storage volume to use as input
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Create a storage volume in the parent pool, using the
* 'clonevol' volume as input. Information for the new
* volume (name, perms) are passed via a typical volume
* XML description.
*
* Returns the storage volume, or NULL on error
*/
virStorageVolPtr
virStorageVolCreateXMLFrom(virStoragePoolPtr pool,
const char *xmlDesc,
virStorageVolPtr clonevol,
unsigned int flags)
{
VIR_DEBUG("pool=%p, xmlDesc=%s, clonevol=%p, flags=%x",
pool, xmlDesc, clonevol, flags);
virResetLastError();
if (!VIR_IS_STORAGE_POOL(pool)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_POOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (!VIR_IS_STORAGE_VOL(clonevol)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(xmlDesc, error);
if (pool->conn->flags & VIR_CONNECT_RO ||
clonevol->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (pool->conn->storageDriver &&
pool->conn->storageDriver->volCreateXMLFrom) {
virStorageVolPtr ret;
ret = pool->conn->storageDriver->volCreateXMLFrom(pool, xmlDesc,
clonevol, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return NULL;
}
/**
* virStorageVolDownload:
* @vol: pointer to volume to download from
* @stream: stream to use as output
* @offset: position in @vol to start reading from
* @length: limit on amount of data to download
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Download the content of the volume as a stream. If @length
* is zero, then the remaining contents of the volume after
* @offset will be downloaded.
*
* This call sets up an asynchronous stream; subsequent use of
* stream APIs is necessary to transfer the actual data,
* determine how much data is successfully transferred, and
* detect any errors. The results will be unpredictable if
* another active stream is writing to the storage volume.
*
* Returns 0, or -1 upon error.
*/
int
virStorageVolDownload(virStorageVolPtr vol,
virStreamPtr stream,
unsigned long long offset,
unsigned long long length,
unsigned int flags)
{
VIR_DEBUG("vol=%p, stream=%p, offset=%llu, length=%llu, flags=%x",
vol, stream, offset, length, flags);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
return -1;
}
if (!VIR_IS_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_STREAM, __FUNCTION__);
return -1;
}
if (vol->conn->flags & VIR_CONNECT_RO ||
stream->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (vol->conn->storageDriver &&
vol->conn->storageDriver->volDownload) {
int ret;
ret = vol->conn->storageDriver->volDownload(vol,
stream,
offset,
length,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return -1;
}
/**
* virStorageVolUpload:
* @vol: pointer to volume to upload
* @stream: stream to use as input
* @offset: position to start writing to
* @length: limit on amount of data to upload
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Upload new content to the volume from a stream. This call
* will fail if @offset + @length exceeds the size of the
* volume. Otherwise, if @length is non-zero, an error
* will be raised if an attempt is made to upload greater
* than @length bytes of data.
*
* This call sets up an asynchronous stream; subsequent use of
* stream APIs is necessary to transfer the actual data,
* determine how much data is successfully transferred, and
* detect any errors. The results will be unpredictable if
* another active stream is writing to the storage volume.
*
* Returns 0, or -1 upon error.
*/
int
virStorageVolUpload(virStorageVolPtr vol,
virStreamPtr stream,
unsigned long long offset,
unsigned long long length,
unsigned int flags)
{
VIR_DEBUG("vol=%p, stream=%p, offset=%llu, length=%llu, flags=%x",
vol, stream, offset, length, flags);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibConnError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
return -1;
}
if (!VIR_IS_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_STREAM, __FUNCTION__);
return -1;
}
if (vol->conn->flags & VIR_CONNECT_RO ||
stream->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (vol->conn->storageDriver &&
vol->conn->storageDriver->volUpload) {
int ret;
ret = vol->conn->storageDriver->volUpload(vol,
stream,
offset,
length,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return -1;
}
/**
* virStorageVolDelete:
* @vol: pointer to storage volume
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Delete the storage volume from the pool
*
* Returns 0 on success, or -1 on error
*/
int
virStorageVolDelete(virStorageVolPtr vol,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("vol=%p, flags=%x", vol, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = vol->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStorageVolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->volDelete) {
int ret;
ret = conn->storageDriver->volDelete(vol, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return -1;
}
/**
* virStorageVolWipe:
* @vol: pointer to storage volume
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Ensure data previously on a volume is not accessible to future reads
*
* Returns 0 on success, or -1 on error
*/
int
virStorageVolWipe(virStorageVolPtr vol,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("vol=%p, flags=%x", vol, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = vol->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStorageVolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->volWipe) {
int ret;
ret = conn->storageDriver->volWipe(vol, flags);
if (ret < 0) {
goto error;
}
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return -1;
}
/**
* virStorageVolWipePattern:
* @vol: pointer to storage volume
* @algorithm: one of virStorageVolWipeAlgorithm
* @flags: future flags, use 0 for now
*
* Similar to virStorageVolWipe, but one can choose
* between different wiping algorithms.
*
* Returns 0 on success, or -1 on error.
*/
int
virStorageVolWipePattern(virStorageVolPtr vol,
unsigned int algorithm,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("vol=%p, algorithm=%u, flags=%x", vol, algorithm, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = vol->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibStorageVolError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->volWipePattern) {
int ret;
ret = conn->storageDriver->volWipePattern(vol, algorithm, flags);
if (ret < 0) {
goto error;
}
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return -1;
}
/**
* virStorageVolFree:
* @vol: pointer to storage volume
*
* Release the storage volume handle. The underlying
* storage volume continues to exist.
*
* Returns 0 on success, or -1 on error
*/
int
virStorageVolFree(virStorageVolPtr vol)
{
VIR_DEBUG("vol=%p", vol);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(vol);
return 0;
}
/**
* virStorageVolRef:
* @vol: the vol to hold a reference on
*
* Increment the reference count on the vol. For each
* additional call to this method, there shall be a corresponding
* call to virStorageVolFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection remain open until all threads have finished using
* it. ie, each new thread using a vol would increment
* the reference count.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virStorageVolRef(virStorageVolPtr vol)
{
if ((!VIR_IS_CONNECTED_STORAGE_VOL(vol))) {
virLibConnError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("vol=%p refs=%d", vol, vol->object.refs);
virObjectRef(vol);
return 0;
}
/**
* virStorageVolGetInfo:
* @vol: pointer to storage volume
* @info: pointer at which to store info
*
* Fetches volatile information about the storage
* volume such as its current allocation
*
* Returns 0 on success, or -1 on failure
*/
int
virStorageVolGetInfo(virStorageVolPtr vol,
virStorageVolInfoPtr info)
{
virConnectPtr conn;
VIR_DEBUG("vol=%p, info=%p", vol, info);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(info, error);
memset(info, 0, sizeof(virStorageVolInfo));
conn = vol->conn;
if (conn->storageDriver->volGetInfo){
int ret;
ret = conn->storageDriver->volGetInfo(vol, info);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return -1;
}
/**
* virStorageVolGetXMLDesc:
* @vol: pointer to storage volume
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Fetch an XML document describing all aspects of
* the storage volume
*
* Returns the XML document, or NULL on error
*/
char *
virStorageVolGetXMLDesc(virStorageVolPtr vol,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("vol=%p, flags=%x", vol, flags);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = vol->conn;
if (conn->storageDriver && conn->storageDriver->volGetXMLDesc) {
char *ret;
ret = conn->storageDriver->volGetXMLDesc(vol, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return NULL;
}
/**
* virStorageVolGetPath:
* @vol: pointer to storage volume
*
* Fetch the storage volume path. Depending on the pool
* configuration this is either persistent across hosts,
* or dynamically assigned at pool startup. Consult
* pool documentation for information on getting the
* persistent naming
*
* Returns the storage volume path, or NULL on error. The
* caller must free() the returned path after use.
*/
char *
virStorageVolGetPath(virStorageVolPtr vol)
{
virConnectPtr conn;
VIR_DEBUG("vol=%p", vol);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = vol->conn;
if (conn->storageDriver && conn->storageDriver->volGetPath) {
char *ret;
ret = conn->storageDriver->volGetPath(vol);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return NULL;
}
/**
* virStorageVolResize:
* @vol: pointer to storage volume
* @capacity: new capacity, in bytes
* @flags: bitwise-OR of virStorageVolResizeFlags
*
* Changes the capacity of the storage volume @vol to @capacity. The
* operation will fail if the new capacity requires allocation that would
* exceed the remaining free space in the parent pool. The contents of
* the new capacity will appear as all zero bytes.
*
* Normally, the operation will attempt to affect capacity with a minimum
* impact on allocation (that is, the default operation favors a sparse
* resize). If @flags contains VIR_STORAGE_VOL_RESIZE_ALLOCATE, then the
* operation will ensure that allocation is sufficient for the new
* capacity; this may make the operation take noticeably longer.
*
* Normally, the operation treats @capacity as the new size in bytes;
* but if @flags contains VIR_STORAGE_VOL_RESIZE_DELTA, then @capacity
* represents the size difference to add to the current size. It is
* up to the storage pool implementation whether unaligned requests are
* rounded up to the next valid boundary, or rejected.
*
* Normally, this operation should only be used to enlarge capacity;
* but if @flags contains VIR_STORAGE_VOL_RESIZE_SHRINK, it is possible to
* attempt a reduction in capacity even though it might cause data loss.
* If VIR_STORAGE_VOL_RESIZE_DELTA is also present, then @capacity is
* subtracted from the current size; without it, @capacity represents
* the absolute new size regardless of whether it is larger or smaller
* than the current size.
*
* Returns 0 on success, or -1 on error.
*/
int
virStorageVolResize(virStorageVolPtr vol,
unsigned long long capacity,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("vol=%p capacity=%llu flags=%x", vol, capacity, flags);
virResetLastError();
if (!VIR_IS_STORAGE_VOL(vol)) {
virLibStorageVolError(VIR_ERR_INVALID_STORAGE_VOL, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = vol->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
/* Zero capacity is only valid with either delta or shrink. */
if (capacity == 0 && !((flags & VIR_STORAGE_VOL_RESIZE_DELTA) ||
(flags & VIR_STORAGE_VOL_RESIZE_SHRINK))) {
virReportInvalidArg(capacity,
_("capacity in %s cannot be zero without 'delta' or 'shrink' flags set"),
__FUNCTION__);
goto error;
}
if (conn->storageDriver && conn->storageDriver->volResize) {
int ret;
ret = conn->storageDriver->volResize(vol, capacity, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(vol->conn);
return -1;
}
/**
* virNodeNumOfDevices:
* @conn: pointer to the hypervisor connection
* @cap: capability name
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Provides the number of node devices.
*
* If the optional 'cap' argument is non-NULL, then the count
* will be restricted to devices with the specified capability
*
* Returns the number of node devices or -1 in case of error
*/
int
virNodeNumOfDevices(virConnectPtr conn, const char *cap, unsigned int flags)
{
VIR_DEBUG("conn=%p, cap=%s, flags=%x", conn, NULLSTR(cap), flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->deviceMonitor && conn->deviceMonitor->numOfDevices) {
int ret;
ret = conn->deviceMonitor->numOfDevices(conn, cap, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListAllNodeDevices:
* @conn: Pointer to the hypervisor connection.
* @devices: Pointer to a variable to store the array containing the node
* device objects or NULL if the list is not required (just returns
* number of node devices).
* @flags: bitwise-OR of virConnectListAllNodeDevices.
*
* Collect the list of node devices, and allocate an array to store those
* objects.
*
* Normally, all node devices are returned; however, @flags can be used to
* filter the results for a smaller list of targeted node devices. The valid
* flags are divided into groups, where each group contains bits that
* describe mutually exclusive attributes of a node device, and where all bits
* within a group describe all possible node devices.
*
* Only one group of the @flags is provided to filter the node devices by
* capability type, flags include:
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_SYSTEM
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_PCI_DEV
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_USB_DEV
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_USB_INTERFACE
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_NET
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_SCSI_HOST
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_SCSI_TARGET
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_SCSI
* VIR_CONNECT_LIST_NODE_DEVICES_CAP_STORAGE
*
* Returns the number of node devices found or -1 and sets @devices to NULL in
* case of error. On success, the array stored into @devices is guaranteed to
* have an extra allocated element set to NULL but not included in the return
* count, to make iteration easier. The caller is responsible for calling
* virNodeDeviceFree() on each array element, then calling free() on
* @devices.
*/
int
virConnectListAllNodeDevices(virConnectPtr conn,
virNodeDevicePtr **devices,
unsigned int flags)
{
VIR_DEBUG("conn=%p, devices=%p, flags=%x", conn, devices, flags);
virResetLastError();
if (devices)
*devices = NULL;
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->deviceMonitor &&
conn->deviceMonitor->listAllNodeDevices) {
int ret;
ret = conn->deviceMonitor->listAllNodeDevices(conn, devices, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virNodeListDevices:
* @conn: pointer to the hypervisor connection
* @cap: capability name
* @names: array to collect the list of node device names
* @maxnames: size of @names
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Collect the list of node devices, and store their names in @names
*
* For more control over the results, see virConnectListAllNodeDevices().
*
* If the optional 'cap' argument is non-NULL, then the count
* will be restricted to devices with the specified capability
*
* Returns the number of node devices found or -1 in case of error
*/
int
virNodeListDevices(virConnectPtr conn,
const char *cap,
char **const names, int maxnames,
unsigned int flags)
{
VIR_DEBUG("conn=%p, cap=%s, names=%p, maxnames=%d, flags=%x",
conn, cap, names, maxnames, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->deviceMonitor && conn->deviceMonitor->listDevices) {
int ret;
ret = conn->deviceMonitor->listDevices(conn, cap, names, maxnames, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virNodeDeviceLookupByName:
* @conn: pointer to the hypervisor connection
* @name: unique device name
*
* Lookup a node device by its name.
*
* Returns a virNodeDevicePtr if found, NULL otherwise.
*/
virNodeDevicePtr virNodeDeviceLookupByName(virConnectPtr conn, const char *name)
{
VIR_DEBUG("conn=%p, name=%p", conn, name);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(name, error);
if (conn->deviceMonitor && conn->deviceMonitor->deviceLookupByName) {
virNodeDevicePtr ret;
ret = conn->deviceMonitor->deviceLookupByName(conn, name);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNodeDeviceGetXMLDesc:
* @dev: pointer to the node device
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Fetch an XML document describing all aspects of
* the device.
*
* Returns the XML document, or NULL on error
*/
char *virNodeDeviceGetXMLDesc(virNodeDevicePtr dev, unsigned int flags)
{
VIR_DEBUG("dev=%p, conn=%p, flags=%x", dev, dev ? dev->conn : NULL, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (dev->conn->deviceMonitor && dev->conn->deviceMonitor->deviceGetXMLDesc) {
char *ret;
ret = dev->conn->deviceMonitor->deviceGetXMLDesc(dev, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dev->conn);
return NULL;
}
/**
* virNodeDeviceGetName:
* @dev: the device
*
* Just return the device name
*
* Returns the device name or NULL in case of error
*/
const char *virNodeDeviceGetName(virNodeDevicePtr dev)
{
VIR_DEBUG("dev=%p, conn=%p", dev, dev ? dev->conn : NULL);
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return dev->name;
}
/**
* virNodeDeviceGetParent:
* @dev: the device
*
* Accessor for the parent of the device
*
* Returns the name of the device's parent, or NULL if the
* device has no parent.
*/
const char *virNodeDeviceGetParent(virNodeDevicePtr dev)
{
VIR_DEBUG("dev=%p, conn=%p", dev, dev ? dev->conn : NULL);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (!dev->parent) {
if (dev->conn->deviceMonitor && dev->conn->deviceMonitor->deviceGetParent) {
dev->parent = dev->conn->deviceMonitor->deviceGetParent(dev);
} else {
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
virDispatchError(dev->conn);
return NULL;
}
}
return dev->parent;
}
/**
* virNodeDeviceNumOfCaps:
* @dev: the device
*
* Accessor for the number of capabilities supported by the device.
*
* Returns the number of capabilities supported by the device.
*/
int virNodeDeviceNumOfCaps(virNodeDevicePtr dev)
{
VIR_DEBUG("dev=%p, conn=%p", dev, dev ? dev->conn : NULL);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dev->conn->deviceMonitor && dev->conn->deviceMonitor->deviceNumOfCaps) {
int ret;
ret = dev->conn->deviceMonitor->deviceNumOfCaps(dev);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dev->conn);
return -1;
}
/**
* virNodeDeviceListCaps:
* @dev: the device
* @names: array to collect the list of capability names
* @maxnames: size of @names
*
* Lists the names of the capabilities supported by the device.
*
* Returns the number of capability names listed in @names.
*/
int virNodeDeviceListCaps(virNodeDevicePtr dev,
char **const names,
int maxnames)
{
VIR_DEBUG("dev=%p, conn=%p, names=%p, maxnames=%d",
dev, dev ? dev->conn : NULL, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (dev->conn->deviceMonitor && dev->conn->deviceMonitor->deviceListCaps) {
int ret;
ret = dev->conn->deviceMonitor->deviceListCaps(dev, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dev->conn);
return -1;
}
/**
* virNodeDeviceFree:
* @dev: pointer to the node device
*
* Drops a reference to the node device, freeing it if
* this was the last reference.
*
* Returns the 0 for success, -1 for error.
*/
int virNodeDeviceFree(virNodeDevicePtr dev)
{
VIR_DEBUG("dev=%p, conn=%p", dev, dev ? dev->conn : NULL);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(dev);
return 0;
}
/**
* virNodeDeviceRef:
* @dev: the dev to hold a reference on
*
* Increment the reference count on the dev. For each
* additional call to this method, there shall be a corresponding
* call to virNodeDeviceFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection remain open until all threads have finished using
* it. ie, each new thread using a dev would increment
* the reference count.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virNodeDeviceRef(virNodeDevicePtr dev)
{
if ((!VIR_IS_CONNECTED_NODE_DEVICE(dev))) {
virLibConnError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("dev=%p refs=%d", dev, dev->object.refs);
virObjectRef(dev);
return 0;
}
/**
* virNodeDeviceDettach:
* @dev: pointer to the node device
*
* Dettach the node device from the node itself so that it may be
* assigned to a guest domain.
*
* Depending on the hypervisor, this may involve operations such
* as unbinding any device drivers from the device, binding the
* device to a dummy device driver and resetting the device.
*
* If the device is currently in use by the node, this method may
* fail.
*
* Once the device is not assigned to any guest, it may be re-attached
* to the node using the virNodeDeviceReattach() method.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virNodeDeviceDettach(virNodeDevicePtr dev)
{
VIR_DEBUG("dev=%p, conn=%p", dev, dev ? dev->conn : NULL);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dev->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dev->conn->driver->nodeDeviceDettach) {
int ret;
ret = dev->conn->driver->nodeDeviceDettach(dev);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dev->conn);
return -1;
}
/**
* virNodeDeviceReAttach:
* @dev: pointer to the node device
*
* Re-attach a previously dettached node device to the node so that it
* may be used by the node again.
*
* Depending on the hypervisor, this may involve operations such
* as resetting the device, unbinding it from a dummy device driver
* and binding it to its appropriate driver.
*
* If the device is currently in use by a guest, this method may fail.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virNodeDeviceReAttach(virNodeDevicePtr dev)
{
VIR_DEBUG("dev=%p, conn=%p", dev, dev ? dev->conn : NULL);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dev->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dev->conn->driver->nodeDeviceReAttach) {
int ret;
ret = dev->conn->driver->nodeDeviceReAttach(dev);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dev->conn);
return -1;
}
/**
* virNodeDeviceReset:
* @dev: pointer to the node device
*
* Reset a previously dettached node device to the node before or
* after assigning it to a guest.
*
* The exact reset semantics depends on the hypervisor and device
* type but, for example, KVM will attempt to reset PCI devices with
* a Function Level Reset, Secondary Bus Reset or a Power Management
* D-State reset.
*
* If the reset will affect other devices which are currently in use,
* this function may fail.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virNodeDeviceReset(virNodeDevicePtr dev)
{
VIR_DEBUG("dev=%p, conn=%p", dev, dev ? dev->conn : NULL);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dev->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dev->conn->driver->nodeDeviceReset) {
int ret;
ret = dev->conn->driver->nodeDeviceReset(dev);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dev->conn);
return -1;
}
/**
* virNodeDeviceCreateXML:
* @conn: pointer to the hypervisor connection
* @xmlDesc: string containing an XML description of the device to be created
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Create a new device on the VM host machine, for example, virtual
* HBAs created using vport_create.
*
* Returns a node device object if successful, NULL in case of failure
*/
virNodeDevicePtr
virNodeDeviceCreateXML(virConnectPtr conn,
const char *xmlDesc,
unsigned int flags)
{
VIR_DEBUG("conn=%p, xmlDesc=%s, flags=%x", conn, xmlDesc, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(xmlDesc, error);
if (conn->deviceMonitor &&
conn->deviceMonitor->deviceCreateXML) {
virNodeDevicePtr dev = conn->deviceMonitor->deviceCreateXML(conn, xmlDesc, flags);
if (dev == NULL)
goto error;
return dev;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNodeDeviceDestroy:
* @dev: a device object
*
* Destroy the device object. The virtual device is removed from the host operating system.
* This function may require privileged access
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virNodeDeviceDestroy(virNodeDevicePtr dev)
{
VIR_DEBUG("dev=%p", dev);
virResetLastError();
if (!VIR_IS_CONNECTED_NODE_DEVICE(dev)) {
virLibNodeDeviceError(VIR_ERR_INVALID_NODE_DEVICE, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dev->conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (dev->conn->deviceMonitor &&
dev->conn->deviceMonitor->deviceDestroy) {
int retval = dev->conn->deviceMonitor->deviceDestroy(dev);
if (retval < 0) {
goto error;
}
return 0;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dev->conn);
return -1;
}
/*
* Domain Event Notification
*/
/**
* virConnectDomainEventRegister:
* @conn: pointer to the connection
* @cb: callback to the function handling domain events
* @opaque: opaque data to pass on to the callback
* @freecb: optional function to deallocate opaque when not used anymore
*
* Adds a callback to receive notifications of domain lifecycle events
* occurring on a connection
*
* Use of this method is no longer recommended. Instead applications
* should try virConnectDomainEventRegisterAny which has a more flexible
* API contract
*
* The virDomainPtr object handle passed into the callback upon delivery
* of an event is only valid for the duration of execution of the callback.
* If the callback wishes to keep the domain object after the callback returns,
* it shall take a reference to it, by calling virDomainRef.
* The reference can be released once the object is no longer required
* by calling virDomainFree.
*
* Returns 0 on success, -1 on failure
*/
int
virConnectDomainEventRegister(virConnectPtr conn,
virConnectDomainEventCallback cb,
void *opaque,
virFreeCallback freecb)
{
VIR_DEBUG("conn=%p, cb=%p, opaque=%p, freecb=%p", conn, cb, opaque, freecb);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(cb, error);
if ((conn->driver) && (conn->driver->domainEventRegister)) {
int ret;
ret = conn->driver->domainEventRegister(conn, cb, opaque, freecb);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectDomainEventDeregister:
* @conn: pointer to the connection
* @cb: callback to the function handling domain events
*
* Removes a callback previously registered with the virConnectDomainEventRegister
* function.
*
* Use of this method is no longer recommended. Instead applications
* should try virConnectDomainEventUnregisterAny which has a more flexible
* API contract
*
* Returns 0 on success, -1 on failure
*/
int
virConnectDomainEventDeregister(virConnectPtr conn,
virConnectDomainEventCallback cb)
{
VIR_DEBUG("conn=%p, cb=%p", conn, cb);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(cb, error);
if ((conn->driver) && (conn->driver->domainEventDeregister)) {
int ret;
ret = conn->driver->domainEventDeregister(conn, cb);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virSecretGetConnect:
* @secret: A virSecret secret
*
* Provides the connection pointer associated with a secret. The reference
* counter on the connection is not increased by this call.
*
* WARNING: When writing libvirt bindings in other languages, do not use this
* function. Instead, store the connection and the secret object together.
*
* Returns the virConnectPtr or NULL in case of failure.
*/
virConnectPtr
virSecretGetConnect(virSecretPtr secret)
{
VIR_DEBUG("secret=%p", secret);
virResetLastError();
if (!VIR_IS_CONNECTED_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return secret->conn;
}
/**
* virConnectNumOfSecrets:
* @conn: virConnect connection
*
* Fetch number of currently defined secrets.
*
* Returns the number currently defined secrets.
*/
int
virConnectNumOfSecrets(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->secretDriver != NULL &&
conn->secretDriver->numOfSecrets != NULL) {
int ret;
ret = conn->secretDriver->numOfSecrets(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListAllSecrets:
* @conn: Pointer to the hypervisor connection.
* @secrets: Pointer to a variable to store the array containing the secret
* objects or NULL if the list is not required (just returns the
* number of secrets).
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Collect the list of secrets, and allocate an array to store those
* objects.
*
* Normally, all secrets are returned; however, @flags can be used to
* filter the results for a smaller list of targeted secrets. The valid
* flags are divided into groups, where each group contains bits that
* describe mutually exclusive attributes of a secret, and where all bits
* within a group describe all possible secrets.
*
* The first group of @flags is used to filter secrets by its storage
* location. Flag VIR_CONNECT_LIST_SECRETS_EPHEMERAL selects secrets that
* are kept only in memory. Flag VIR_CONNECT_LIST_SECRETS_NO_EPHEMERAL
* selects secrets that are kept in persistent storage.
*
* The second group of @flags is used to filter secrets by privacy. Flag
* VIR_CONNECT_LIST_SECRETS_PRIVATE seclets secrets that are never revealed
* to any caller of libvirt nor to any other node. Flag
* VIR_CONNECT_LIST_SECRETS_NO_PRIVATE selects non-private secrets.
*
* Returns the number of secrets found or -1 and sets @secrets to NULL in case
* of error. On success, the array stored into @secrets is guaranteed to
* have an extra allocated element set to NULL but not included in the return count,
* to make iteration easier. The caller is responsible for calling
* virSecretFree() on each array element, then calling free() on @secrets.
*/
int
virConnectListAllSecrets(virConnectPtr conn,
virSecretPtr **secrets,
unsigned int flags)
{
VIR_DEBUG("conn=%p, secrets=%p, flags=%x", conn, secrets, flags);
virResetLastError();
if (secrets)
*secrets = NULL;
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->secretDriver &&
conn->secretDriver->listAllSecrets) {
int ret;
ret = conn->secretDriver->listAllSecrets(conn, secrets, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListSecrets:
* @conn: virConnect connection
* @uuids: Pointer to an array to store the UUIDs
* @maxuuids: size of the array.
*
* List UUIDs of defined secrets, store pointers to names in uuids.
*
* Returns the number of UUIDs provided in the array, or -1 on failure.
*/
int
virConnectListSecrets(virConnectPtr conn, char **uuids, int maxuuids)
{
VIR_DEBUG("conn=%p, uuids=%p, maxuuids=%d", conn, uuids, maxuuids);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(uuids, error);
virCheckNonNegativeArgGoto(maxuuids, error);
if (conn->secretDriver != NULL && conn->secretDriver->listSecrets != NULL) {
int ret;
ret = conn->secretDriver->listSecrets(conn, uuids, maxuuids);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virSecretLookupByUUID:
* @conn: pointer to the hypervisor connection
* @uuid: the raw UUID for the secret
*
* Try to lookup a secret on the given hypervisor based on its UUID.
* Uses the 16 bytes of raw data to describe the UUID
*
* Returns a new secret object or NULL in case of failure. If the
* secret cannot be found, then VIR_ERR_NO_SECRET error is raised.
*/
virSecretPtr
virSecretLookupByUUID(virConnectPtr conn, const unsigned char *uuid)
{
VIR_UUID_DEBUG(conn, uuid);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuid, error);
if (conn->secretDriver &&
conn->secretDriver->lookupByUUID) {
virSecretPtr ret;
ret = conn->secretDriver->lookupByUUID(conn, uuid);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virSecretLookupByUUIDString:
* @conn: pointer to the hypervisor connection
* @uuidstr: the string UUID for the secret
*
* Try to lookup a secret on the given hypervisor based on its UUID.
* Uses the printable string value to describe the UUID
*
* Returns a new secret object or NULL in case of failure. If the
* secret cannot be found, then VIR_ERR_NO_SECRET error is raised.
*/
virSecretPtr
virSecretLookupByUUIDString(virConnectPtr conn, const char *uuidstr)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("conn=%p, uuidstr=%s", conn, NULLSTR(uuidstr));
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuidstr, error);
if (virUUIDParse(uuidstr, uuid) < 0) {
virReportInvalidArg(uuidstr,
_("uuidstr in %s must be a valid UUID"),
__FUNCTION__);
goto error;
}
return virSecretLookupByUUID(conn, &uuid[0]);
error:
virDispatchError(conn);
return NULL;
}
/**
* virSecretLookupByUsage:
* @conn: pointer to the hypervisor connection
* @usageType: the type of secret usage
* @usageID: identifier of the object using the secret
*
* Try to lookup a secret on the given hypervisor based on its usage
* The usageID is unique within the set of secrets sharing the
* same usageType value.
*
* Returns a new secret object or NULL in case of failure. If the
* secret cannot be found, then VIR_ERR_NO_SECRET error is raised.
*/
virSecretPtr
virSecretLookupByUsage(virConnectPtr conn,
int usageType,
const char *usageID)
{
VIR_DEBUG("conn=%p, usageType=%d usageID=%s", conn, usageType, NULLSTR(usageID));
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(usageID, error);
if (conn->secretDriver &&
conn->secretDriver->lookupByUsage) {
virSecretPtr ret;
ret = conn->secretDriver->lookupByUsage(conn, usageType, usageID);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virSecretDefineXML:
* @conn: virConnect connection
* @xml: XML describing the secret.
* @flags: extra flags; not used yet, so callers should always pass 0
*
* If XML specifies a UUID, locates the specified secret and replaces all
* attributes of the secret specified by UUID by attributes specified in xml
* (any attributes not specified in xml are discarded).
*
* Otherwise, creates a new secret with an automatically chosen UUID, and
* initializes its attributes from xml.
*
* Returns a the secret on success, NULL on failure.
*/
virSecretPtr
virSecretDefineXML(virConnectPtr conn, const char *xml, unsigned int flags)
{
VIR_DEBUG("conn=%p, xml=%s, flags=%x", conn, xml, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(xml, error);
if (conn->secretDriver != NULL && conn->secretDriver->defineXML != NULL) {
virSecretPtr ret;
ret = conn->secretDriver->defineXML(conn, xml, flags);
if (ret == NULL)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virSecretGetUUID:
* @secret: A virSecret secret
* @uuid: buffer of VIR_UUID_BUFLEN bytes in size
*
* Fetches the UUID of the secret.
*
* Returns 0 on success with the uuid buffer being filled, or
* -1 upon failure.
*/
int
virSecretGetUUID(virSecretPtr secret, unsigned char *uuid)
{
VIR_DEBUG("secret=%p", secret);
virResetLastError();
if (!VIR_IS_CONNECTED_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(uuid, error);
memcpy(uuid, &secret->uuid[0], VIR_UUID_BUFLEN);
return 0;
error:
virDispatchError(secret->conn);
return -1;
}
/**
* virSecretGetUUIDString:
* @secret: a secret object
* @buf: pointer to a VIR_UUID_STRING_BUFLEN bytes array
*
* Get the UUID for a secret as string. For more information about
* UUID see RFC4122.
*
* Returns -1 in case of error, 0 in case of success
*/
int
virSecretGetUUIDString(virSecretPtr secret, char *buf)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("secret=%p, buf=%p", secret, buf);
virResetLastError();
if (!VIR_IS_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(buf, error);
if (virSecretGetUUID(secret, &uuid[0]))
goto error;
virUUIDFormat(uuid, buf);
return 0;
error:
virDispatchError(secret->conn);
return -1;
}
/**
* virSecretGetUsageType:
* @secret: a secret object
*
* Get the type of object which uses this secret. The returned
* value is one of the constants defined in the virSecretUsageType
* enumeration. More values may be added to this enumeration in
* the future, so callers should expect to see usage types they
* do not explicitly know about.
*
* Returns a positive integer identifying the type of object,
* or -1 upon error.
*/
int
virSecretGetUsageType(virSecretPtr secret)
{
VIR_DEBUG("secret=%p", secret);
virResetLastError();
if (!VIR_IS_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
return secret->usageType;
}
/**
* virSecretGetUsageID:
* @secret: a secret object
*
* Get the unique identifier of the object with which this
* secret is to be used. The format of the identifier is
* dependant on the usage type of the secret. For a secret
* with a usage type of VIR_SECRET_USAGE_TYPE_VOLUME the
* identifier will be a fully qualfied path name. The
* identifiers are intended to be unique within the set of
* all secrets sharing the same usage type. ie, there shall
* only ever be one secret for each volume path.
*
* Returns a string identifying the object using the secret,
* or NULL upon error
*/
const char *
virSecretGetUsageID(virSecretPtr secret)
{
VIR_DEBUG("secret=%p", secret);
virResetLastError();
if (!VIR_IS_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return secret->usageID;
}
/**
* virSecretGetXMLDesc:
* @secret: A virSecret secret
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Fetches an XML document describing attributes of the secret.
*
* Returns the XML document on success, NULL on failure. The caller must
* free() the XML.
*/
char *
virSecretGetXMLDesc(virSecretPtr secret, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("secret=%p, flags=%x", secret, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = secret->conn;
if (conn->secretDriver != NULL && conn->secretDriver->getXMLDesc != NULL) {
char *ret;
ret = conn->secretDriver->getXMLDesc(secret, flags);
if (ret == NULL)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virSecretSetValue:
* @secret: A virSecret secret
* @value: Value of the secret
* @value_size: Size of the value
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Sets the value of a secret.
*
* Returns 0 on success, -1 on failure.
*/
int
virSecretSetValue(virSecretPtr secret, const unsigned char *value,
size_t value_size, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("secret=%p, value=%p, value_size=%zu, flags=%x", secret, value,
value_size, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = secret->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibSecretError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(value, error);
if (conn->secretDriver != NULL && conn->secretDriver->setValue != NULL) {
int ret;
ret = conn->secretDriver->setValue(secret, value, value_size, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virSecretGetValue:
* @secret: A virSecret connection
* @value_size: Place for storing size of the secret value
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Fetches the value of a secret.
*
* Returns the secret value on success, NULL on failure. The caller must
* free() the secret value.
*/
unsigned char *
virSecretGetValue(virSecretPtr secret, size_t *value_size, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("secret=%p, value_size=%p, flags=%x", secret, value_size, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = secret->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibSecretError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(value_size, error);
if (conn->secretDriver != NULL && conn->secretDriver->getValue != NULL) {
unsigned char *ret;
ret = conn->secretDriver->getValue(secret, value_size, flags, 0);
if (ret == NULL)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virSecretUndefine:
* @secret: A virSecret secret
*
* Deletes the specified secret. This does not free the associated
* virSecretPtr object.
*
* Returns 0 on success, -1 on failure.
*/
int
virSecretUndefine(virSecretPtr secret)
{
virConnectPtr conn;
VIR_DEBUG("secret=%p", secret);
virResetLastError();
if (!VIR_IS_CONNECTED_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = secret->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibSecretError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->secretDriver != NULL && conn->secretDriver->undefine != NULL) {
int ret;
ret = conn->secretDriver->undefine(secret);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virSecretRef:
* @secret: the secret to hold a reference on
*
* Increment the reference count on the secret. For each additional call to
* this method, there shall be a corresponding call to virSecretFree to release
* the reference count, once the caller no longer needs the reference to this
* object.
*
* This method is typically useful for applications where multiple threads are
* using a connection, and it is required that the connection remain open until
* all threads have finished using it. ie, each new thread using a secret would
* increment the reference count.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virSecretRef(virSecretPtr secret)
{
if (!VIR_IS_CONNECTED_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("secret=%p refs=%d", secret, secret->object.refs);
virObjectRef(secret);
return 0;
}
/**
* virSecretFree:
* @secret: pointer to a secret
*
* Release the secret handle. The underlying secret continues to exist.
*
* Returns 0 on success, or -1 on error
*/
int
virSecretFree(virSecretPtr secret)
{
VIR_DEBUG("secret=%p", secret);
virResetLastError();
if (!VIR_IS_CONNECTED_SECRET(secret)) {
virLibSecretError(VIR_ERR_INVALID_SECRET, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(secret);
return 0;
}
/**
* virStreamNew:
* @conn: pointer to the connection
* @flags: bitwise-OR of virStreamFlags
*
* Creates a new stream object which can be used to perform
* streamed I/O with other public API function.
*
* When no longer needed, a stream object must be released
* with virStreamFree. If a data stream has been used,
* then the application must call virStreamFinish or
* virStreamAbort before free'ing to, in order to notify
* the driver of termination.
*
* If a non-blocking data stream is required passed
* VIR_STREAM_NONBLOCK for flags, otherwise pass 0.
*
* Returns the new stream, or NULL upon error
*/
virStreamPtr
virStreamNew(virConnectPtr conn,
unsigned int flags)
{
virStreamPtr st;
VIR_DEBUG("conn=%p, flags=%x", conn, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
st = virGetStream(conn);
if (st)
st->flags = flags;
else
virDispatchError(conn);
return st;
}
/**
* virStreamRef:
* @stream: pointer to the stream
*
* Increment the reference count on the stream. For each
* additional call to this method, there shall be a corresponding
* call to virStreamFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* Returns 0 in case of success, -1 in case of failure
*/
int
virStreamRef(virStreamPtr stream)
{
if ((!VIR_IS_CONNECTED_STREAM(stream))) {
virLibConnError(VIR_ERR_INVALID_STREAM, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("stream=%p refs=%d", stream, stream->object.refs);
virObjectRef(stream);
return 0;
}
/**
* virStreamSend:
* @stream: pointer to the stream object
* @data: buffer to write to stream
* @nbytes: size of @data buffer
*
* Write a series of bytes to the stream. This method may
* block the calling application for an arbitrary amount
* of time. Once an application has finished sending data
* it should call virStreamFinish to wait for successful
* confirmation from the driver, or detect any error.
*
* This method may not be used if a stream source has been
* registered.
*
* Errors are not guaranteed to be reported synchronously
* with the call, but may instead be delayed until a
* subsequent call.
*
* An example using this with a hypothetical file upload
* API looks like
*
* virStreamPtr st = virStreamNew(conn, 0);
* int fd = open("demo.iso", O_RDONLY)
*
* virConnectUploadFile(conn, "demo.iso", st);
*
* while (1) {
* char buf[1024];
* int got = read(fd, buf, 1024);
* if (got < 0) {
* virStreamAbort(st);
* break;
* }
* if (got == 0) {
* virStreamFinish(st);
* break;
* }
* int offset = 0;
* while (offset < got) {
* int sent = virStreamSend(st, buf+offset, got-offset)
* if (sent < 0) {
* virStreamAbort(st);
* goto done;
* }
* offset += sent;
* }
* }
* if (virStreamFinish(st) < 0)
* ... report an error ....
* done:
* virStreamFree(st);
* close(fd);
*
* Returns the number of bytes written, which may be less
* than requested.
*
* Returns -1 upon error, at which time the stream will
* be marked as aborted, and the caller should now release
* the stream with virStreamFree.
*
* Returns -2 if the outgoing transmit buffers are full &
* the stream is marked as non-blocking.
*/
int virStreamSend(virStreamPtr stream,
const char *data,
size_t nbytes)
{
VIR_DEBUG("stream=%p, data=%p, nbytes=%zi", stream, data, nbytes);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(data, error);
if (stream->driver &&
stream->driver->streamSend) {
int ret;
ret = (stream->driver->streamSend)(stream, data, nbytes);
if (ret == -2)
return -2;
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(stream->conn);
return -1;
}
/**
* virStreamRecv:
* @stream: pointer to the stream object
* @data: buffer to read into from stream
* @nbytes: size of @data buffer
*
* Reads a series of bytes from the stream. This method may
* block the calling application for an arbitrary amount
* of time.
*
* Errors are not guaranteed to be reported synchronously
* with the call, but may instead be delayed until a
* subsequent call.
*
* An example using this with a hypothetical file download
* API looks like
*
* virStreamPtr st = virStreamNew(conn, 0);
* int fd = open("demo.iso", O_WRONLY, 0600)
*
* virConnectDownloadFile(conn, "demo.iso", st);
*
* while (1) {
* char buf[1024];
* int got = virStreamRecv(st, buf, 1024);
* if (got < 0)
* break;
* if (got == 0) {
* virStreamFinish(st);
* break;
* }
* int offset = 0;
* while (offset < got) {
* int sent = write(fd, buf+offset, got-offset)
* if (sent < 0) {
* virStreamAbort(st);
* goto done;
* }
* offset += sent;
* }
* }
* if (virStreamFinish(st) < 0)
* ... report an error ....
* done:
* virStreamFree(st);
* close(fd);
*
*
* Returns the number of bytes read, which may be less
* than requested.
*
* Returns 0 when the end of the stream is reached, at
* which time the caller should invoke virStreamFinish()
* to get confirmation of stream completion.
*
* Returns -1 upon error, at which time the stream will
* be marked as aborted, and the caller should now release
* the stream with virStreamFree.
*
* Returns -2 if there is no data pending to be read & the
* stream is marked as non-blocking.
*/
int virStreamRecv(virStreamPtr stream,
char *data,
size_t nbytes)
{
VIR_DEBUG("stream=%p, data=%p, nbytes=%zi", stream, data, nbytes);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(data, error);
if (stream->driver &&
stream->driver->streamRecv) {
int ret;
ret = (stream->driver->streamRecv)(stream, data, nbytes);
if (ret == -2)
return -2;
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(stream->conn);
return -1;
}
/**
* virStreamSendAll:
* @stream: pointer to the stream object
* @handler: source callback for reading data from application
* @opaque: application defined data
*
* Send the entire data stream, reading the data from the
* requested data source. This is simply a convenient alternative
* to virStreamSend, for apps that do blocking-I/o.
*
* An example using this with a hypothetical file upload
* API looks like
*
* int mysource(virStreamPtr st, char *buf, int nbytes, void *opaque) {
* int *fd = opaque;
*
* return read(*fd, buf, nbytes);
* }
*
* virStreamPtr st = virStreamNew(conn, 0);
* int fd = open("demo.iso", O_RDONLY)
*
* virConnectUploadFile(conn, st);
* if (virStreamSendAll(st, mysource, &fd) < 0) {
* ...report an error ...
* goto done;
* }
* if (virStreamFinish(st) < 0)
* ...report an error...
* virStreamFree(st);
* close(fd);
*
* Returns 0 if all the data was successfully sent. The caller
* should invoke virStreamFinish(st) to flush the stream upon
* success and then virStreamFree
*
* Returns -1 upon any error, with virStreamAbort() already
* having been called, so the caller need only call
* virStreamFree()
*/
int virStreamSendAll(virStreamPtr stream,
virStreamSourceFunc handler,
void *opaque)
{
char *bytes = NULL;
int want = 1024*64;
int ret = -1;
VIR_DEBUG("stream=%p, handler=%p, opaque=%p", stream, handler, opaque);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(handler, cleanup);
if (stream->flags & VIR_STREAM_NONBLOCK) {
virLibConnError(VIR_ERR_OPERATION_INVALID, "%s",
_("data sources cannot be used for non-blocking streams"));
goto cleanup;
}
if (VIR_ALLOC_N(bytes, want) < 0) {
virReportOOMError();
goto cleanup;
}
for (;;) {
int got, offset = 0;
got = (handler)(stream, bytes, want, opaque);
if (got < 0) {
virStreamAbort(stream);
goto cleanup;
}
if (got == 0)
break;
while (offset < got) {
int done;
done = virStreamSend(stream, bytes + offset, got - offset);
if (done < 0)
goto cleanup;
offset += done;
}
}
ret = 0;
cleanup:
VIR_FREE(bytes);
if (ret != 0)
virDispatchError(stream->conn);
return ret;
}
/**
* virStreamRecvAll:
* @stream: pointer to the stream object
* @handler: sink callback for writing data to application
* @opaque: application defined data
*
* Receive the entire data stream, sending the data to the
* requested data sink. This is simply a convenient alternative
* to virStreamRecv, for apps that do blocking-I/o.
*
* An example using this with a hypothetical file download
* API looks like
*
* int mysink(virStreamPtr st, const char *buf, int nbytes, void *opaque) {
* int *fd = opaque;
*
* return write(*fd, buf, nbytes);
* }
*
* virStreamPtr st = virStreamNew(conn, 0);
* int fd = open("demo.iso", O_WRONLY)
*
* virConnectUploadFile(conn, st);
* if (virStreamRecvAll(st, mysink, &fd) < 0) {
* ...report an error ...
* goto done;
* }
* if (virStreamFinish(st) < 0)
* ...report an error...
* virStreamFree(st);
* close(fd);
*
* Returns 0 if all the data was successfully received. The caller
* should invoke virStreamFinish(st) to flush the stream upon
* success and then virStreamFree
*
* Returns -1 upon any error, with virStreamAbort() already
* having been called, so the caller need only call
* virStreamFree()
*/
int virStreamRecvAll(virStreamPtr stream,
virStreamSinkFunc handler,
void *opaque)
{
char *bytes = NULL;
int want = 1024*64;
int ret = -1;
VIR_DEBUG("stream=%p, handler=%p, opaque=%p", stream, handler, opaque);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(handler, cleanup);
if (stream->flags & VIR_STREAM_NONBLOCK) {
virLibConnError(VIR_ERR_OPERATION_INVALID, "%s",
_("data sinks cannot be used for non-blocking streams"));
goto cleanup;
}
if (VIR_ALLOC_N(bytes, want) < 0) {
virReportOOMError();
goto cleanup;
}
for (;;) {
int got, offset = 0;
got = virStreamRecv(stream, bytes, want);
if (got < 0)
goto cleanup;
if (got == 0)
break;
while (offset < got) {
int done;
done = (handler)(stream, bytes + offset, got - offset, opaque);
if (done < 0) {
virStreamAbort(stream);
goto cleanup;
}
offset += done;
}
}
ret = 0;
cleanup:
VIR_FREE(bytes);
if (ret != 0)
virDispatchError(stream->conn);
return ret;
}
/**
* virStreamEventAddCallback:
* @stream: pointer to the stream object
* @events: set of events to monitor
* @cb: callback to invoke when an event occurs
* @opaque: application defined data
* @ff: callback to free @opaque data
*
* Register a callback to be notified when a stream
* becomes writable, or readable. This is most commonly
* used in conjunction with non-blocking data streams
* to integrate into an event loop
*
* Returns 0 on success, -1 upon error
*/
int virStreamEventAddCallback(virStreamPtr stream,
int events,
virStreamEventCallback cb,
void *opaque,
virFreeCallback ff)
{
VIR_DEBUG("stream=%p, events=%d, cb=%p, opaque=%p, ff=%p", stream, events, cb, opaque, ff);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (stream->driver &&
stream->driver->streamAddCallback) {
int ret;
ret = (stream->driver->streamAddCallback)(stream, events, cb, opaque, ff);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(stream->conn);
return -1;
}
/**
* virStreamEventUpdateCallback:
* @stream: pointer to the stream object
* @events: set of events to monitor
*
* Changes the set of events to monitor for a stream. This allows
* for event notification to be changed without having to
* unregister & register the callback completely. This method
* is guaranteed to succeed if a callback is already registered
*
* Returns 0 on success, -1 if no callback is registered
*/
int virStreamEventUpdateCallback(virStreamPtr stream,
int events)
{
VIR_DEBUG("stream=%p, events=%d", stream, events);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (stream->driver &&
stream->driver->streamUpdateCallback) {
int ret;
ret = (stream->driver->streamUpdateCallback)(stream, events);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(stream->conn);
return -1;
}
/**
* virStreamEventRemoveCallback:
* @stream: pointer to the stream object
*
* Remove an event callback from the stream
*
* Returns 0 on success, -1 on error
*/
int virStreamEventRemoveCallback(virStreamPtr stream)
{
VIR_DEBUG("stream=%p", stream);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (stream->driver &&
stream->driver->streamRemoveCallback) {
int ret;
ret = (stream->driver->streamRemoveCallback)(stream);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(stream->conn);
return -1;
}
/**
* virStreamFinish:
* @stream: pointer to the stream object
*
* Indicate that there is no further data is to be transmitted
* on the stream. For output streams this should be called once
* all data has been written. For input streams this should be
* called once virStreamRecv returns end-of-file.
*
* This method is a synchronization point for all asynchronous
* errors, so if this returns a success code the application can
* be sure that all data has been successfully processed.
*
* Returns 0 on success, -1 upon error
*/
int virStreamFinish(virStreamPtr stream)
{
VIR_DEBUG("stream=%p", stream);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (stream->driver &&
stream->driver->streamFinish) {
int ret;
ret = (stream->driver->streamFinish)(stream);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(stream->conn);
return -1;
}
/**
* virStreamAbort:
* @stream: pointer to the stream object
*
* Request that the in progress data transfer be cancelled
* abnormally before the end of the stream has been reached.
* For output streams this can be used to inform the driver
* that the stream is being terminated early. For input
* streams this can be used to inform the driver that it
* should stop sending data.
*
* Returns 0 on success, -1 upon error
*/
int virStreamAbort(virStreamPtr stream)
{
VIR_DEBUG("stream=%p", stream);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (!stream->driver) {
VIR_DEBUG("aborting unused stream");
return 0;
}
if (stream->driver->streamAbort) {
int ret;
ret = (stream->driver->streamAbort)(stream);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(stream->conn);
return -1;
}
/**
* virStreamFree:
* @stream: pointer to the stream object
*
* Decrement the reference count on a stream, releasing
* the stream object if the reference count has hit zero.
*
* There must not be an active data transfer in progress
* when releasing the stream. If a stream needs to be
* disposed of prior to end of stream being reached, then
* the virStreamAbort function should be called first.
*
* Returns 0 upon success, or -1 on error
*/
int virStreamFree(virStreamPtr stream)
{
VIR_DEBUG("stream=%p", stream);
virResetLastError();
if (!VIR_IS_CONNECTED_STREAM(stream)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
/* XXX Enforce shutdown before free'ing resources ? */
virObjectUnref(stream);
return 0;
}
/**
* virDomainIsActive:
* @dom: pointer to the domain object
*
* Determine if the domain is currently running
*
* Returns 1 if running, 0 if inactive, -1 on error
*/
int virDomainIsActive(virDomainPtr dom)
{
VIR_DEBUG("dom=%p", dom);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dom->conn->driver->domainIsActive) {
int ret;
ret = dom->conn->driver->domainIsActive(dom);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainIsPersistent:
* @dom: pointer to the domain object
*
* Determine if the domain has a persistent configuration
* which means it will still exist after shutting down
*
* Returns 1 if persistent, 0 if transient, -1 on error
*/
int virDomainIsPersistent(virDomainPtr dom)
{
VIR_DOMAIN_DEBUG(dom);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dom->conn->driver->domainIsPersistent) {
int ret;
ret = dom->conn->driver->domainIsPersistent(dom);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainIsUpdated:
* @dom: pointer to the domain object
*
* Determine if the domain has been updated.
*
* Returns 1 if updated, 0 if not, -1 on error
*/
int virDomainIsUpdated(virDomainPtr dom)
{
VIR_DOMAIN_DEBUG(dom);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dom->conn->driver->domainIsUpdated) {
int ret;
ret = dom->conn->driver->domainIsUpdated(dom);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virNetworkIsActive:
* @net: pointer to the network object
*
* Determine if the network is currently running
*
* Returns 1 if running, 0 if inactive, -1 on error
*/
int virNetworkIsActive(virNetworkPtr net)
{
VIR_DEBUG("net=%p", net);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(net)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (net->conn->networkDriver->networkIsActive) {
int ret;
ret = net->conn->networkDriver->networkIsActive(net);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(net->conn);
return -1;
}
/**
* virNetworkIsPersistent:
* @net: pointer to the network object
*
* Determine if the network has a persistent configuration
* which means it will still exist after shutting down
*
* Returns 1 if persistent, 0 if transient, -1 on error
*/
int virNetworkIsPersistent(virNetworkPtr net)
{
VIR_DEBUG("net=%p", net);
virResetLastError();
if (!VIR_IS_CONNECTED_NETWORK(net)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (net->conn->networkDriver->networkIsPersistent) {
int ret;
ret = net->conn->networkDriver->networkIsPersistent(net);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(net->conn);
return -1;
}
/**
* virStoragePoolIsActive:
* @pool: pointer to the storage pool object
*
* Determine if the storage pool is currently running
*
* Returns 1 if running, 0 if inactive, -1 on error
*/
int virStoragePoolIsActive(virStoragePoolPtr pool)
{
VIR_DEBUG("pool=%p", pool);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (pool->conn->storageDriver->poolIsActive) {
int ret;
ret = pool->conn->storageDriver->poolIsActive(pool);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virStoragePoolIsPersistent:
* @pool: pointer to the storage pool object
*
* Determine if the storage pool has a persistent configuration
* which means it will still exist after shutting down
*
* Returns 1 if persistent, 0 if transient, -1 on error
*/
int virStoragePoolIsPersistent(virStoragePoolPtr pool)
{
VIR_DEBUG("pool=%p", pool);
virResetLastError();
if (!VIR_IS_CONNECTED_STORAGE_POOL(pool)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (pool->conn->storageDriver->poolIsPersistent) {
int ret;
ret = pool->conn->storageDriver->poolIsPersistent(pool);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(pool->conn);
return -1;
}
/**
* virConnectNumOfNWFilters:
* @conn: pointer to the hypervisor connection
*
* Provides the number of nwfilters.
*
* Returns the number of nwfilters found or -1 in case of error
*/
int
virConnectNumOfNWFilters(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->nwfilterDriver && conn->nwfilterDriver->numOfNWFilters) {
int ret;
ret = conn->nwfilterDriver->numOfNWFilters(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListAllNWFilters:
* @conn: Pointer to the hypervisor connection.
* @filters: Pointer to a variable to store the array containing the network
* filter objects or NULL if the list is not required (just returns
* number of network filters).
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Collect the list of network filters, and allocate an array to store those
* objects.
*
* Returns the number of network filters found or -1 and sets @filters to NULL
* in case of error. On success, the array stored into @filters is guaranteed to
* have an extra allocated element set to NULL but not included in the return count,
* to make iteration easier. The caller is responsible for calling
* virNWFilterFree() on each array element, then calling free() on @filters.
*/
int
virConnectListAllNWFilters(virConnectPtr conn,
virNWFilterPtr **filters,
unsigned int flags)
{
VIR_DEBUG("conn=%p, filters=%p, flags=%x", conn, filters, flags);
virResetLastError();
if (filters)
*filters = NULL;
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->nwfilterDriver &&
conn->nwfilterDriver->listAllNWFilters) {
int ret;
ret = conn->nwfilterDriver->listAllNWFilters(conn, filters, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectListNWFilters:
* @conn: pointer to the hypervisor connection
* @names: array to collect the list of names of network filters
* @maxnames: size of @names
*
* Collect the list of network filters, and store their names in @names
*
* Returns the number of network filters found or -1 in case of error
*/
int
virConnectListNWFilters(virConnectPtr conn, char **const names, int maxnames)
{
VIR_DEBUG("conn=%p, names=%p, maxnames=%d", conn, names, maxnames);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(maxnames, error);
if (conn->nwfilterDriver && conn->nwfilterDriver->listNWFilters) {
int ret;
ret = conn->nwfilterDriver->listNWFilters(conn, names, maxnames);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virNWFilterLookupByName:
* @conn: pointer to the hypervisor connection
* @name: name for the network filter
*
* Try to lookup a network filter on the given hypervisor based on its name.
*
* Returns a new nwfilter object or NULL in case of failure. If the
* network filter cannot be found, then VIR_ERR_NO_NWFILTER error is raised.
*/
virNWFilterPtr
virNWFilterLookupByName(virConnectPtr conn, const char *name)
{
VIR_DEBUG("conn=%p, name=%s", conn, name);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(name, error);
if (conn->nwfilterDriver && conn->nwfilterDriver->nwfilterLookupByName) {
virNWFilterPtr ret;
ret = conn->nwfilterDriver->nwfilterLookupByName(conn, name);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNWFilterLookupByUUID:
* @conn: pointer to the hypervisor connection
* @uuid: the raw UUID for the network filter
*
* Try to lookup a network filter on the given hypervisor based on its UUID.
*
* Returns a new nwfilter object or NULL in case of failure. If the
* nwfdilter cannot be found, then VIR_ERR_NO_NWFILTER error is raised.
*/
virNWFilterPtr
virNWFilterLookupByUUID(virConnectPtr conn, const unsigned char *uuid)
{
VIR_UUID_DEBUG(conn, uuid);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuid, error);
if (conn->nwfilterDriver && conn->nwfilterDriver->nwfilterLookupByUUID){
virNWFilterPtr ret;
ret = conn->nwfilterDriver->nwfilterLookupByUUID(conn, uuid);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNWFilterLookupByUUIDString:
* @conn: pointer to the hypervisor connection
* @uuidstr: the string UUID for the nwfilter
*
* Try to lookup an nwfilter on the given hypervisor based on its UUID.
*
* Returns a new nwfilter object or NULL in case of failure. If the
* nwfilter cannot be found, then VIR_ERR_NO_NWFILTER error is raised.
*/
virNWFilterPtr
virNWFilterLookupByUUIDString(virConnectPtr conn, const char *uuidstr)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("conn=%p, uuidstr=%s", conn, NULLSTR(uuidstr));
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(uuidstr, error);
if (virUUIDParse(uuidstr, uuid) < 0) {
virReportInvalidArg(uuidstr,
_("uuidstr in %s must be a valid UUID"),
__FUNCTION__);
goto error;
}
return virNWFilterLookupByUUID(conn, &uuid[0]);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNWFilterFree:
* @nwfilter: a nwfilter object
*
* Free the nwfilter object. The running instance is kept alive.
* The data structure is freed and should not be used thereafter.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virNWFilterFree(virNWFilterPtr nwfilter)
{
VIR_DEBUG("nwfilter=%p", nwfilter);
virResetLastError();
if (!VIR_IS_CONNECTED_NWFILTER(nwfilter)) {
virLibNWFilterError(VIR_ERR_INVALID_NWFILTER, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(nwfilter);
return 0;
}
/**
* virNWFilterGetName:
* @nwfilter: a nwfilter object
*
* Get the public name for the network filter
*
* Returns a pointer to the name or NULL, the string need not be deallocated
* its lifetime will be the same as the nwfilter object.
*/
const char *
virNWFilterGetName(virNWFilterPtr nwfilter)
{
VIR_DEBUG("nwfilter=%p", nwfilter);
virResetLastError();
if (!VIR_IS_NWFILTER(nwfilter)) {
virLibNWFilterError(VIR_ERR_INVALID_NWFILTER, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return nwfilter->name;
}
/**
* virNWFilterGetUUID:
* @nwfilter: a nwfilter object
* @uuid: pointer to a VIR_UUID_BUFLEN bytes array
*
* Get the UUID for a network filter
*
* Returns -1 in case of error, 0 in case of success
*/
int
virNWFilterGetUUID(virNWFilterPtr nwfilter, unsigned char *uuid)
{
VIR_DEBUG("nwfilter=%p, uuid=%p", nwfilter, uuid);
virResetLastError();
if (!VIR_IS_NWFILTER(nwfilter)) {
virLibNWFilterError(VIR_ERR_INVALID_NWFILTER, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(uuid, error);
memcpy(uuid, &nwfilter->uuid[0], VIR_UUID_BUFLEN);
return 0;
error:
virDispatchError(nwfilter->conn);
return -1;
}
/**
* virNWFilterGetUUIDString:
* @nwfilter: a nwfilter object
* @buf: pointer to a VIR_UUID_STRING_BUFLEN bytes array
*
* Get the UUID for a network filter as string. For more information about
* UUID see RFC4122.
*
* Returns -1 in case of error, 0 in case of success
*/
int
virNWFilterGetUUIDString(virNWFilterPtr nwfilter, char *buf)
{
unsigned char uuid[VIR_UUID_BUFLEN];
VIR_DEBUG("nwfilter=%p, buf=%p", nwfilter, buf);
virResetLastError();
if (!VIR_IS_NWFILTER(nwfilter)) {
virLibNWFilterError(VIR_ERR_INVALID_NWFILTER, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(buf, error);
if (virNWFilterGetUUID(nwfilter, &uuid[0]))
goto error;
virUUIDFormat(uuid, buf);
return 0;
error:
virDispatchError(nwfilter->conn);
return -1;
}
/**
* virNWFilterDefineXML:
* @conn: pointer to the hypervisor connection
* @xmlDesc: an XML description of the nwfilter
*
* Define a new network filter, based on an XML description
* similar to the one returned by virNWFilterGetXMLDesc()
*
* Returns a new nwfilter object or NULL in case of failure
*/
virNWFilterPtr
virNWFilterDefineXML(virConnectPtr conn, const char *xmlDesc)
{
VIR_DEBUG("conn=%p, xmlDesc=%s", conn, xmlDesc);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(xmlDesc, error);
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->nwfilterDriver && conn->nwfilterDriver->defineXML) {
virNWFilterPtr ret;
ret = conn->nwfilterDriver->defineXML(conn, xmlDesc);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virNWFilterUndefine:
* @nwfilter: a nwfilter object
*
* Undefine the nwfilter object. This call will not succeed if
* a running VM is referencing the filter. This does not free the
* associated virNWFilterPtr object.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virNWFilterUndefine(virNWFilterPtr nwfilter)
{
virConnectPtr conn;
VIR_DEBUG("nwfilter=%p", nwfilter);
virResetLastError();
if (!VIR_IS_CONNECTED_NWFILTER(nwfilter)) {
virLibNWFilterError(VIR_ERR_INVALID_NWFILTER, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = nwfilter->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibNWFilterError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->nwfilterDriver && conn->nwfilterDriver->undefine) {
int ret;
ret = conn->nwfilterDriver->undefine(nwfilter);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(nwfilter->conn);
return -1;
}
/**
* virNWFilterGetXMLDesc:
* @nwfilter: a nwfilter object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Provide an XML description of the network filter. The description may be
* reused later to redefine the network filter with virNWFilterCreateXML().
*
* Returns a 0 terminated UTF-8 encoded XML instance, or NULL in case of error.
* the caller must free() the returned value.
*/
char *
virNWFilterGetXMLDesc(virNWFilterPtr nwfilter, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("nwfilter=%p, flags=%x", nwfilter, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_NWFILTER(nwfilter)) {
virLibNWFilterError(VIR_ERR_INVALID_NWFILTER, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = nwfilter->conn;
if (conn->nwfilterDriver && conn->nwfilterDriver->getXMLDesc) {
char *ret;
ret = conn->nwfilterDriver->getXMLDesc(nwfilter, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(nwfilter->conn);
return NULL;
}
/**
* virNWFilterRef:
* @nwfilter: the nwfilter to hold a reference on
*
* Increment the reference count on the nwfilter. For each
* additional call to this method, there shall be a corresponding
* call to virNWFilterFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection remain open until all threads have finished using
* it. ie, each new thread using an nwfilter would increment
* the reference count.
*
* Returns 0 in case of success, -1 in case of failure.
*/
int
virNWFilterRef(virNWFilterPtr nwfilter)
{
if ((!VIR_IS_CONNECTED_NWFILTER(nwfilter))) {
virLibConnError(VIR_ERR_INVALID_NWFILTER, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("nwfilter=%p refs=%d", nwfilter, nwfilter->object.refs);
virObjectRef(nwfilter);
return 0;
}
/**
* virInterfaceIsActive:
* @iface: pointer to the interface object
*
* Determine if the interface is currently running
*
* Returns 1 if running, 0 if inactive, -1 on error
*/
int virInterfaceIsActive(virInterfacePtr iface)
{
VIR_DEBUG("iface=%p", iface);
virResetLastError();
if (!VIR_IS_CONNECTED_INTERFACE(iface)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (iface->conn->interfaceDriver->interfaceIsActive) {
int ret;
ret = iface->conn->interfaceDriver->interfaceIsActive(iface);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(iface->conn);
return -1;
}
/**
* virConnectIsEncrypted:
* @conn: pointer to the connection object
*
* Determine if the connection to the hypervisor is encrypted
*
* Returns 1 if encrypted, 0 if not encrypted, -1 on error
*/
int virConnectIsEncrypted(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->isEncrypted) {
int ret;
ret = conn->driver->isEncrypted(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectIsSecure:
* @conn: pointer to the connection object
*
* Determine if the connection to the hypervisor is secure
*
* A connection will be classed as secure if it is either
* encrypted, or running over a channel which is not exposed
* to eavesdropping (eg a UNIX domain socket, or pipe)
*
* Returns 1 if secure, 0 if secure, -1 on error
*/
int virConnectIsSecure(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->isSecure) {
int ret;
ret = conn->driver->isSecure(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectCompareCPU:
* @conn: virConnect connection
* @xmlDesc: XML describing the CPU to compare with host CPU
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Compares the given CPU description with the host CPU
*
* Returns comparison result according to enum virCPUCompareResult
*/
int
virConnectCompareCPU(virConnectPtr conn,
const char *xmlDesc,
unsigned int flags)
{
VIR_DEBUG("conn=%p, xmlDesc=%s, flags=%x", conn, xmlDesc, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return VIR_CPU_COMPARE_ERROR;
}
virCheckNonNullArgGoto(xmlDesc, error);
if (conn->driver->cpuCompare) {
int ret;
ret = conn->driver->cpuCompare(conn, xmlDesc, flags);
if (ret == VIR_CPU_COMPARE_ERROR)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return VIR_CPU_COMPARE_ERROR;
}
/**
* virConnectBaselineCPU:
*
* @conn: virConnect connection
* @xmlCPUs: array of XML descriptions of host CPUs
* @ncpus: number of CPUs in xmlCPUs
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Computes the most feature-rich CPU which is compatible with all given
* host CPUs.
*
* Returns XML description of the computed CPU or NULL on error.
*/
char *
virConnectBaselineCPU(virConnectPtr conn,
const char **xmlCPUs,
unsigned int ncpus,
unsigned int flags)
{
unsigned int i;
VIR_DEBUG("conn=%p, xmlCPUs=%p, ncpus=%u, flags=%x",
conn, xmlCPUs, ncpus, flags);
if (xmlCPUs) {
for (i = 0; i < ncpus; i++)
VIR_DEBUG("xmlCPUs[%u]=%s", i, NULLSTR(xmlCPUs[i]));
}
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
virCheckNonNullArgGoto(xmlCPUs, error);
if (conn->driver->cpuBaseline) {
char *cpu;
cpu = conn->driver->cpuBaseline(conn, xmlCPUs, ncpus, flags);
if (!cpu)
goto error;
return cpu;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainGetJobInfo:
* @domain: a domain object
* @info: pointer to a virDomainJobInfo structure allocated by the user
*
* Extract information about progress of a background job on a domain.
* Will return an error if the domain is not active.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainGetJobInfo(virDomainPtr domain, virDomainJobInfoPtr info)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "info=%p", info);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(info, error);
memset(info, 0, sizeof(virDomainJobInfo));
conn = domain->conn;
if (conn->driver->domainGetJobInfo) {
int ret;
ret = conn->driver->domainGetJobInfo(domain, info);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainAbortJob:
* @domain: a domain object
*
* Requests that the current background job be aborted at the
* soonest opportunity.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainAbortJob(virDomainPtr domain)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainAbortJob) {
int ret;
ret = conn->driver->domainAbortJob(domain);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainMigrateSetMaxDowntime:
* @domain: a domain object
* @downtime: maximum tolerable downtime for live migration, in milliseconds
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Sets maximum tolerable time for which the domain is allowed to be paused
* at the end of live migration. It's supposed to be called while the domain is
* being live-migrated as a reaction to migration progress.
*
* Returns 0 in case of success, -1 otherwise.
*/
int
virDomainMigrateSetMaxDowntime(virDomainPtr domain,
unsigned long long downtime,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "downtime=%llu, flags=%x", downtime, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainMigrateSetMaxDowntime) {
if (conn->driver->domainMigrateSetMaxDowntime(domain, downtime, flags) < 0)
goto error;
return 0;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainMigrateSetMaxSpeed:
* @domain: a domain object
* @bandwidth: migration bandwidth limit in Mbps
* @flags: extra flags; not used yet, so callers should always pass 0
*
* The maximum bandwidth (in Mbps) that will be used to do migration
* can be specified with the bandwidth parameter. Not all hypervisors
* will support a bandwidth cap
*
* Returns 0 in case of success, -1 otherwise.
*/
int
virDomainMigrateSetMaxSpeed(virDomainPtr domain,
unsigned long bandwidth,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "bandwidth=%lu, flags=%x", bandwidth, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainMigrateSetMaxSpeed) {
if (conn->driver->domainMigrateSetMaxSpeed(domain, bandwidth, flags) < 0)
goto error;
return 0;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainMigrateGetMaxSpeed:
* @domain: a domain object
* @bandwidth: return value of current migration bandwidth limit in Mbps
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Get the current maximum bandwidth (in Mbps) that will be used if the
* domain is migrated. Not all hypervisors will support a bandwidth limit.
*
* Returns 0 in case of success, -1 otherwise.
*/
int
virDomainMigrateGetMaxSpeed(virDomainPtr domain,
unsigned long *bandwidth,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "bandwidth = %p, flags=%x", bandwidth, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
virCheckNonNullArgGoto(bandwidth, error);
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainMigrateGetMaxSpeed) {
if (conn->driver->domainMigrateGetMaxSpeed(domain, bandwidth, flags) < 0)
goto error;
return 0;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectDomainEventRegisterAny:
* @conn: pointer to the connection
* @dom: pointer to the domain
* @eventID: the event type to receive
* @cb: callback to the function handling domain events
* @opaque: opaque data to pass on to the callback
* @freecb: optional function to deallocate opaque when not used anymore
*
* Adds a callback to receive notifications of arbitrary domain events
* occurring on a domain.
*
* If dom is NULL, then events will be monitored for any domain. If dom
* is non-NULL, then only the specific domain will be monitored
*
* Most types of event have a callback providing a custom set of parameters
* for the event. When registering an event, it is thus necessary to use
* the VIR_DOMAIN_EVENT_CALLBACK() macro to cast the supplied function pointer
* to match the signature of this method.
*
* The virDomainPtr object handle passed into the callback upon delivery
* of an event is only valid for the duration of execution of the callback.
* If the callback wishes to keep the domain object after the callback returns,
* it shall take a reference to it, by calling virDomainRef.
* The reference can be released once the object is no longer required
* by calling virDomainFree.
*
* The return value from this method is a positive integer identifier
* for the callback. To unregister a callback, this callback ID should
* be passed to the virDomainEventUnregisterAny method
*
* Returns a callback identifier on success, -1 on failure
*/
int
virConnectDomainEventRegisterAny(virConnectPtr conn,
virDomainPtr dom,
int eventID,
virConnectDomainEventGenericCallback cb,
void *opaque,
virFreeCallback freecb)
{
VIR_DOMAIN_DEBUG(dom, "conn=%p, eventID=%d, cb=%p, opaque=%p, freecb=%p",
conn, eventID, cb, opaque, freecb);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dom != NULL &&
!(VIR_IS_CONNECTED_DOMAIN(dom) && dom->conn == conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(conn);
return -1;
}
virCheckNonNullArgGoto(cb, error);
virCheckNonNegativeArgGoto(eventID, error);
if (eventID >= VIR_DOMAIN_EVENT_ID_LAST) {
virReportInvalidArg(eventID,
_("eventID in %s must be less than %d"),
__FUNCTION__, VIR_DOMAIN_EVENT_ID_LAST);
goto error;
}
if ((conn->driver) && (conn->driver->domainEventRegisterAny)) {
int ret;
ret = conn->driver->domainEventRegisterAny(conn, dom, eventID, cb, opaque, freecb);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectDomainEventDeregisterAny:
* @conn: pointer to the connection
* @callbackID: the callback identifier
*
* Removes an event callback. The callbackID parameter should be the
* vaule obtained from a previous virDomainEventRegisterAny method.
*
* Returns 0 on success, -1 on failure
*/
int
virConnectDomainEventDeregisterAny(virConnectPtr conn,
int callbackID)
{
VIR_DEBUG("conn=%p, callbackID=%d", conn, callbackID);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNegativeArgGoto(callbackID, error);
if ((conn->driver) && (conn->driver->domainEventDeregisterAny)) {
int ret;
ret = conn->driver->domainEventDeregisterAny(conn, callbackID);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainManagedSave:
* @dom: pointer to the domain
* @flags: bitwise-OR of virDomainSaveRestoreFlags
*
* This method will suspend a domain and save its memory contents to
* a file on disk. After the call, if successful, the domain is not
* listed as running anymore.
* The difference from virDomainSave() is that libvirt is keeping track of
* the saved state itself, and will reuse it once the domain is being
* restarted (automatically or via an explicit libvirt call).
* As a result any running domain is sure to not have a managed saved image.
* This also implies that managed save only works on persistent domains,
* since the domain must still exist in order to use virDomainCreate() to
* restart it.
*
* If @flags includes VIR_DOMAIN_SAVE_BYPASS_CACHE, then libvirt will
* attempt to bypass the file system cache while creating the file, or
* fail if it cannot do so for the given system; this can allow less
* pressure on file system cache, but also risks slowing saves to NFS.
*
* Normally, the managed saved state will remember whether the domain
* was running or paused, and start will resume to the same state.
* Specifying VIR_DOMAIN_SAVE_RUNNING or VIR_DOMAIN_SAVE_PAUSED in
* @flags will override the default saved into the file. These two
* flags are mutually exclusive.
*
* Returns 0 in case of success or -1 in case of failure
*/
int virDomainManagedSave(virDomainPtr dom, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if ((flags & VIR_DOMAIN_SAVE_RUNNING) && (flags & VIR_DOMAIN_SAVE_PAUSED)) {
virReportInvalidArg(flags,
_("running and paused flags in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
if (conn->driver->domainManagedSave) {
int ret;
ret = conn->driver->domainManagedSave(dom, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainHasManagedSaveImage:
* @dom: pointer to the domain
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Check if a domain has a managed save image as created by
* virDomainManagedSave(). Note that any running domain should not have
* such an image, as it should have been removed on restart.
*
* Returns 0 if no image is present, 1 if an image is present, and
* -1 in case of error
*/
int virDomainHasManagedSaveImage(virDomainPtr dom, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (conn->driver->domainHasManagedSaveImage) {
int ret;
ret = conn->driver->domainHasManagedSaveImage(dom, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainManagedSaveRemove:
* @dom: pointer to the domain
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Remove any managed save image for this domain.
*
* Returns 0 in case of success, and -1 in case of error
*/
int virDomainManagedSaveRemove(virDomainPtr dom, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainManagedSaveRemove) {
int ret;
ret = conn->driver->domainManagedSaveRemove(dom, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotGetName:
* @snapshot: a snapshot object
*
* Get the public name for that snapshot
*
* Returns a pointer to the name or NULL, the string need not be deallocated
* as its lifetime will be the same as the snapshot object.
*/
const char *
virDomainSnapshotGetName(virDomainSnapshotPtr snapshot)
{
VIR_DEBUG("snapshot=%p", snapshot);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return snapshot->name;
}
/**
* virDomainSnapshotGetDomain:
* @snapshot: a snapshot object
*
* Get the domain that a snapshot was created for
*
* Returns the domain or NULL.
*/
virDomainPtr
virDomainSnapshotGetDomain(virDomainSnapshotPtr snapshot)
{
VIR_DEBUG("snapshot=%p", snapshot);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return snapshot->domain;
}
/**
* virDomainSnapshotGetConnect:
* @snapshot: a snapshot object
*
* Get the connection that owns the domain that a snapshot was created for
*
* Returns the connection or NULL.
*/
virConnectPtr
virDomainSnapshotGetConnect(virDomainSnapshotPtr snapshot)
{
VIR_DEBUG("snapshot=%p", snapshot);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return NULL;
}
return snapshot->domain->conn;
}
/**
* virDomainSnapshotCreateXML:
* @domain: a domain object
* @xmlDesc: string containing an XML description of the domain
* @flags: bitwise-OR of virDomainSnapshotCreateFlags
*
* Creates a new snapshot of a domain based on the snapshot xml
* contained in xmlDesc.
*
* If @flags is 0, the domain can be active, in which case the
* snapshot will be a system checkpoint (both disk state and runtime
* VM state such as RAM contents), where reverting to the snapshot is
* the same as resuming from hibernation (TCP connections may have
* timed out, but everything else picks up where it left off); or
* the domain can be inactive, in which case the snapshot includes
* just the disk state prior to booting. The newly created snapshot
* becomes current (see virDomainSnapshotCurrent()), and is a child
* of any previous current snapshot.
*
* If @flags includes VIR_DOMAIN_SNAPSHOT_CREATE_REDEFINE, then this
* is a request to reinstate snapshot metadata that was previously
* discarded, rather than creating a new snapshot. This can be used
* to recreate a snapshot hierarchy on a destination, then remove it
* on the source, in order to allow migration (since migration
* normally fails if snapshot metadata still remains on the source
* machine). When redefining snapshot metadata, the current snapshot
* will not be altered unless the VIR_DOMAIN_SNAPSHOT_CREATE_CURRENT
* flag is also present. It is an error to request the
* VIR_DOMAIN_SNAPSHOT_CREATE_CURRENT flag without
* VIR_DOMAIN_SNAPSHOT_CREATE_REDEFINE. On some hypervisors,
* redefining an existing snapshot can be used to alter host-specific
* portions of the domain XML to be used during revert (such as
* backing filenames associated with disk devices), but must not alter
* guest-visible layout. When redefining a snapshot name that does
* not exist, the hypervisor may validate that reverting to the
* snapshot appears to be possible (for example, disk images have
* snapshot contents by the requested name). Not all hypervisors
* support these flags.
*
* If @flags includes VIR_DOMAIN_SNAPSHOT_CREATE_NO_METADATA, then the
* domain's disk images are modified according to @xmlDesc, but then
* the just-created snapshot has its metadata deleted. This flag is
* incompatible with VIR_DOMAIN_SNAPSHOT_CREATE_REDEFINE.
*
* If @flags includes VIR_DOMAIN_SNAPSHOT_CREATE_HALT, then the domain
* will be inactive after the snapshot completes, regardless of whether
* it was active before; otherwise, a running domain will still be
* running after the snapshot. This flag is invalid on transient domains,
* and is incompatible with VIR_DOMAIN_SNAPSHOT_CREATE_REDEFINE.
*
* If @flags includes VIR_DOMAIN_SNAPSHOT_CREATE_LIVE, then the domain
* is not paused while creating the snapshot. This increases the size
* of the memory dump file, but reduces downtime of the guest while
* taking the snapshot. Some hypervisors only support this flag during
* external checkpoints.
*
* If @flags includes VIR_DOMAIN_SNAPSHOT_CREATE_DISK_ONLY, then the
* snapshot will be limited to the disks described in @xmlDesc, and no
* VM state will be saved. For an active guest, the disk image may be
* inconsistent (as if power had been pulled), and specifying this
* with the VIR_DOMAIN_SNAPSHOT_CREATE_HALT flag risks data loss.
*
* If @flags includes VIR_DOMAIN_SNAPSHOT_CREATE_QUIESCE, then the
* libvirt will attempt to use guest agent to freeze and thaw all
* file systems in use within domain OS. However, if the guest agent
* is not present, an error is thrown. Moreover, this flag requires
* VIR_DOMAIN_SNAPSHOT_CREATE_DISK_ONLY to be passed as well.
*
* By default, if the snapshot involves external files, and any of the
* destination files already exist as a non-empty regular file, the
* snapshot is rejected to avoid losing contents of those files.
* However, if @flags includes VIR_DOMAIN_SNAPSHOT_CREATE_REUSE_EXT,
* then the destination files must already exist and contain content
* identical to the source files (this allows a management app to
* pre-create files with relative backing file names, rather than the
* default of creating with absolute backing file names).
*
* Be aware that although libvirt prefers to report errors up front with
* no other effect, some hypervisors have certain types of failures where
* the overall command can easily fail even though the guest configuration
* was partially altered (for example, if a disk snapshot request for two
* disks fails on the second disk, but the first disk alteration cannot be
* rolled back). If this API call fails, it is therefore normally
* necessary to follow up with virDomainGetXMLDesc() and check each disk
* to determine if any partial changes occurred. However, if @flags
* contains VIR_DOMAIN_SNAPSHOT_CREATE_ATOMIC, then libvirt guarantees
* that this command will not alter any disks unless the entire set of
* changes can be done atomically, making failure recovery simpler (note
* that it is still possible to fail after disks have changed, but only
* in the much rarer cases of running out of memory or disk space).
*
* Some hypervisors may prevent this operation if there is a current
* block copy operation; in that case, use virDomainBlockJobAbort()
* to stop the block copy first.
*
* Returns an (opaque) virDomainSnapshotPtr on success, NULL on failure.
*/
virDomainSnapshotPtr
virDomainSnapshotCreateXML(virDomainPtr domain,
const char *xmlDesc,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "xmlDesc=%s, flags=%x", xmlDesc, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = domain->conn;
virCheckNonNullArgGoto(xmlDesc, error);
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if ((flags & VIR_DOMAIN_SNAPSHOT_CREATE_CURRENT) &&
!(flags & VIR_DOMAIN_SNAPSHOT_CREATE_REDEFINE)) {
virReportInvalidArg(flags,
_("use of 'current' flag in %s requires 'redefine' flag"),
__FUNCTION__);
goto error;
}
if ((flags & VIR_DOMAIN_SNAPSHOT_CREATE_REDEFINE) &&
(flags & VIR_DOMAIN_SNAPSHOT_CREATE_NO_METADATA)) {
virReportInvalidArg(flags,
_("'redefine' and 'no metadata' flags in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
if ((flags & VIR_DOMAIN_SNAPSHOT_CREATE_REDEFINE) &&
(flags & VIR_DOMAIN_SNAPSHOT_CREATE_HALT)) {
virReportInvalidArg(flags,
_("'redefine' and 'halt' flags in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
if (conn->driver->domainSnapshotCreateXML) {
virDomainSnapshotPtr ret;
ret = conn->driver->domainSnapshotCreateXML(domain, xmlDesc, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainSnapshotGetXMLDesc:
* @snapshot: a domain snapshot object
* @flags: bitwise-OR of subset of virDomainXMLFlags
*
* Provide an XML description of the domain snapshot.
*
* No security-sensitive data will be included unless @flags contains
* VIR_DOMAIN_XML_SECURE; this flag is rejected on read-only
* connections. For this API, @flags should not contain either
* VIR_DOMAIN_XML_INACTIVE or VIR_DOMAIN_XML_UPDATE_CPU.
*
* Returns a 0 terminated UTF-8 encoded XML instance, or NULL in case of error.
* the caller must free() the returned value.
*/
char *
virDomainSnapshotGetXMLDesc(virDomainSnapshotPtr snapshot,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, flags=%x", snapshot, flags);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = snapshot->domain->conn;
if ((conn->flags & VIR_CONNECT_RO) && (flags & VIR_DOMAIN_XML_SECURE)) {
virLibConnError(VIR_ERR_OPERATION_DENIED, "%s",
_("virDomainSnapshotGetXMLDesc with secure flag"));
goto error;
}
if (conn->driver->domainSnapshotGetXMLDesc) {
char *ret;
ret = conn->driver->domainSnapshotGetXMLDesc(snapshot, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainSnapshotNum:
* @domain: a domain object
* @flags: bitwise-OR of supported virDomainSnapshotListFlags
*
* Provides the number of domain snapshots for this domain.
*
* By default, this command covers all snapshots; it is also possible to
* limit things to just snapshots with no parents, when @flags includes
* VIR_DOMAIN_SNAPSHOT_LIST_ROOTS. Additional filters are provided in
* groups, where each group contains bits that describe mutually exclusive
* attributes of a snapshot, and where all bits within a group describe
* all possible snapshots. Some hypervisors might reject explicit bits
* from a group where the hypervisor cannot make a distinction. For a
* group supported by a given hypervisor, the behavior when no bits of a
* group are set is identical to the behavior when all bits in that group
* are set. When setting bits from more than one group, it is possible to
* select an impossible combination, in that case a hypervisor may return
* either 0 or an error.
*
* The first group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_LEAVES and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_LEAVES, to filter based on snapshots that
* have no further children (a leaf snapshot).
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_METADATA and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_METADATA, for filtering snapshots based on
* whether they have metadata that would prevent the removal of the last
* reference to a domain.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INACTIVE,
* VIR_DOMAIN_SNAPSHOT_LIST_ACTIVE, and VIR_DOMAIN_SNAPSHOT_LIST_DISK_ONLY,
* for filtering snapshots based on what domain state is tracked by the
* snapshot.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INTERNAL and
* VIR_DOMAIN_SNAPSHOT_LIST_EXTERNAL, for filtering snapshots based on
* whether the snapshot is stored inside the disk images or as
* additional files.
*
* Returns the number of domain snapshots found or -1 in case of error.
*/
int
virDomainSnapshotNum(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->driver->domainSnapshotNum) {
int ret = conn->driver->domainSnapshotNum(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotListNames:
* @domain: a domain object
* @names: array to collect the list of names of snapshots
* @nameslen: size of @names
* @flags: bitwise-OR of supported virDomainSnapshotListFlags
*
* Collect the list of domain snapshots for the given domain, and store
* their names in @names. The value to use for @nameslen can be determined
* by virDomainSnapshotNum() with the same @flags.
*
* By default, this command covers all snapshots; it is also possible to
* limit things to just snapshots with no parents, when @flags includes
* VIR_DOMAIN_SNAPSHOT_LIST_ROOTS. Additional filters are provided in
* groups, where each group contains bits that describe mutually exclusive
* attributes of a snapshot, and where all bits within a group describe
* all possible snapshots. Some hypervisors might reject explicit bits
* from a group where the hypervisor cannot make a distinction. For a
* group supported by a given hypervisor, the behavior when no bits of a
* group are set is identical to the behavior when all bits in that group
* are set. When setting bits from more than one group, it is possible to
* select an impossible combination, in that case a hypervisor may return
* either 0 or an error.
*
* The first group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_LEAVES and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_LEAVES, to filter based on snapshots that
* have no further children (a leaf snapshot).
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_METADATA and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_METADATA, for filtering snapshots based on
* whether they have metadata that would prevent the removal of the last
* reference to a domain.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INACTIVE,
* VIR_DOMAIN_SNAPSHOT_LIST_ACTIVE, and VIR_DOMAIN_SNAPSHOT_LIST_DISK_ONLY,
* for filtering snapshots based on what domain state is tracked by the
* snapshot.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INTERNAL and
* VIR_DOMAIN_SNAPSHOT_LIST_EXTERNAL, for filtering snapshots based on
* whether the snapshot is stored inside the disk images or as
* additional files.
*
* Note that this command is inherently racy: another connection can
* define a new snapshot between a call to virDomainSnapshotNum() and
* this call. You are only guaranteed that all currently defined
* snapshots were listed if the return is less than @nameslen. Likewise,
* you should be prepared for virDomainSnapshotLookupByName() to fail when
* converting a name from this call into a snapshot object, if another
* connection deletes the snapshot in the meantime. For more control over
* the results, see virDomainListAllSnapshots().
*
* Returns the number of domain snapshots found or -1 in case of error.
* The caller is responsible for freeing each member of the array.
*/
int
virDomainSnapshotListNames(virDomainPtr domain, char **names, int nameslen,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "names=%p, nameslen=%d, flags=%x",
names, nameslen, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(nameslen, error);
if (conn->driver->domainSnapshotListNames) {
int ret = conn->driver->domainSnapshotListNames(domain, names,
nameslen, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainListAllSnapshots:
* @domain: a domain object
* @snaps: pointer to variable to store the array containing snapshot objects,
* or NULL if the list is not required (just returns number of
* snapshots)
* @flags: bitwise-OR of supported virDomainSnapshotListFlags
*
* Collect the list of domain snapshots for the given domain, and allocate
* an array to store those objects. This API solves the race inherent in
* virDomainSnapshotListNames().
*
* By default, this command covers all snapshots; it is also possible to
* limit things to just snapshots with no parents, when @flags includes
* VIR_DOMAIN_SNAPSHOT_LIST_ROOTS. Additional filters are provided in
* groups, where each group contains bits that describe mutually exclusive
* attributes of a snapshot, and where all bits within a group describe
* all possible snapshots. Some hypervisors might reject explicit bits
* from a group where the hypervisor cannot make a distinction. For a
* group supported by a given hypervisor, the behavior when no bits of a
* group are set is identical to the behavior when all bits in that group
* are set. When setting bits from more than one group, it is possible to
* select an impossible combination, in that case a hypervisor may return
* either 0 or an error.
*
* The first group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_LEAVES and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_LEAVES, to filter based on snapshots that
* have no further children (a leaf snapshot).
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_METADATA and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_METADATA, for filtering snapshots based on
* whether they have metadata that would prevent the removal of the last
* reference to a domain.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INACTIVE,
* VIR_DOMAIN_SNAPSHOT_LIST_ACTIVE, and VIR_DOMAIN_SNAPSHOT_LIST_DISK_ONLY,
* for filtering snapshots based on what domain state is tracked by the
* snapshot.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INTERNAL and
* VIR_DOMAIN_SNAPSHOT_LIST_EXTERNAL, for filtering snapshots based on
* whether the snapshot is stored inside the disk images or as
* additional files.
*
* Returns the number of domain snapshots found or -1 and sets @snaps to
* NULL in case of error. On success, the array stored into @snaps is
* guaranteed to have an extra allocated element set to NULL but not included
* in the return count, to make iteration easier. The caller is responsible
* for calling virDomainSnapshotFree() on each array element, then calling
* free() on @snaps.
*/
int
virDomainListAllSnapshots(virDomainPtr domain, virDomainSnapshotPtr **snaps,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "snaps=%p, flags=%x", snaps, flags);
virResetLastError();
if (snaps)
*snaps = NULL;
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->driver->domainListAllSnapshots) {
int ret = conn->driver->domainListAllSnapshots(domain, snaps, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotNumChildren:
* @snapshot: a domain snapshot object
* @flags: bitwise-OR of supported virDomainSnapshotListFlags
*
* Provides the number of child snapshots for this domain snapshot.
*
* By default, this command covers only direct children; it is also possible
* to expand things to cover all descendants, when @flags includes
* VIR_DOMAIN_SNAPSHOT_LIST_DESCENDANTS. Also, some filters are provided in
* groups, where each group contains bits that describe mutually exclusive
* attributes of a snapshot, and where all bits within a group describe
* all possible snapshots. Some hypervisors might reject explicit bits
* from a group where the hypervisor cannot make a distinction. For a
* group supported by a given hypervisor, the behavior when no bits of a
* group are set is identical to the behavior when all bits in that group
* are set. When setting bits from more than one group, it is possible to
* select an impossible combination, in that case a hypervisor may return
* either 0 or an error.
*
* The first group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_LEAVES and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_LEAVES, to filter based on snapshots that
* have no further children (a leaf snapshot).
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_METADATA and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_METADATA, for filtering snapshots based on
* whether they have metadata that would prevent the removal of the last
* reference to a domain.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INACTIVE,
* VIR_DOMAIN_SNAPSHOT_LIST_ACTIVE, and VIR_DOMAIN_SNAPSHOT_LIST_DISK_ONLY,
* for filtering snapshots based on what domain state is tracked by the
* snapshot.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INTERNAL and
* VIR_DOMAIN_SNAPSHOT_LIST_EXTERNAL, for filtering snapshots based on
* whether the snapshot is stored inside the disk images or as
* additional files.
*
* Returns the number of domain snapshots found or -1 in case of error.
*/
int
virDomainSnapshotNumChildren(virDomainSnapshotPtr snapshot, unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, flags=%x", snapshot, flags);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = snapshot->domain->conn;
if (conn->driver->domainSnapshotNumChildren) {
int ret = conn->driver->domainSnapshotNumChildren(snapshot, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotListChildrenNames:
* @snapshot: a domain snapshot object
* @names: array to collect the list of names of snapshots
* @nameslen: size of @names
* @flags: bitwise-OR of supported virDomainSnapshotListFlags
*
* Collect the list of domain snapshots that are children of the given
* snapshot, and store their names in @names. The value to use for
* @nameslen can be determined by virDomainSnapshotNumChildren() with
* the same @flags.
*
* By default, this command covers only direct children; it is also possible
* to expand things to cover all descendants, when @flags includes
* VIR_DOMAIN_SNAPSHOT_LIST_DESCENDANTS. Also, some filters are provided in
* groups, where each group contains bits that describe mutually exclusive
* attributes of a snapshot, and where all bits within a group describe
* all possible snapshots. Some hypervisors might reject explicit bits
* from a group where the hypervisor cannot make a distinction. For a
* group supported by a given hypervisor, the behavior when no bits of a
* group are set is identical to the behavior when all bits in that group
* are set. When setting bits from more than one group, it is possible to
* select an impossible combination, in that case a hypervisor may return
* either 0 or an error.
*
* The first group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_LEAVES and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_LEAVES, to filter based on snapshots that
* have no further children (a leaf snapshot).
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_METADATA and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_METADATA, for filtering snapshots based on
* whether they have metadata that would prevent the removal of the last
* reference to a domain.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INACTIVE,
* VIR_DOMAIN_SNAPSHOT_LIST_ACTIVE, and VIR_DOMAIN_SNAPSHOT_LIST_DISK_ONLY,
* for filtering snapshots based on what domain state is tracked by the
* snapshot.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INTERNAL and
* VIR_DOMAIN_SNAPSHOT_LIST_EXTERNAL, for filtering snapshots based on
* whether the snapshot is stored inside the disk images or as
* additional files.
*
* Returns the number of domain snapshots found or -1 in case of error.
* Note that this command is inherently racy: another connection can
* define a new snapshot between a call to virDomainSnapshotNumChildren()
* and this call. You are only guaranteed that all currently defined
* snapshots were listed if the return is less than @nameslen. Likewise,
* you should be prepared for virDomainSnapshotLookupByName() to fail when
* converting a name from this call into a snapshot object, if another
* connection deletes the snapshot in the meantime. For more control over
* the results, see virDomainSnapshotListAllChildren().
*
* Returns the number of domain snapshots found or -1 in case of error.
* The caller is responsible for freeing each member of the array.
*/
int
virDomainSnapshotListChildrenNames(virDomainSnapshotPtr snapshot,
char **names, int nameslen,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, names=%p, nameslen=%d, flags=%x",
snapshot, names, nameslen, flags);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = snapshot->domain->conn;
virCheckNonNullArgGoto(names, error);
virCheckNonNegativeArgGoto(nameslen, error);
if (conn->driver->domainSnapshotListChildrenNames) {
int ret = conn->driver->domainSnapshotListChildrenNames(snapshot,
names,
nameslen,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotListAllChildren:
* @snapshot: a domain snapshot object
* @snaps: pointer to variable to store the array containing snapshot objects,
* or NULL if the list is not required (just returns number of
* snapshots)
* @flags: bitwise-OR of supported virDomainSnapshotListFlags
*
* Collect the list of domain snapshots that are children of the given
* snapshot, and allocate an array to store those objects. This API solves
* the race inherent in virDomainSnapshotListChildrenNames().
*
* By default, this command covers only direct children; it is also possible
* to expand things to cover all descendants, when @flags includes
* VIR_DOMAIN_SNAPSHOT_LIST_DESCENDANTS. Also, some filters are provided in
* groups, where each group contains bits that describe mutually exclusive
* attributes of a snapshot, and where all bits within a group describe
* all possible snapshots. Some hypervisors might reject explicit bits
* from a group where the hypervisor cannot make a distinction. For a
* group supported by a given hypervisor, the behavior when no bits of a
* group are set is identical to the behavior when all bits in that group
* are set. When setting bits from more than one group, it is possible to
* select an impossible combination, in that case a hypervisor may return
* either 0 or an error.
*
* The first group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_LEAVES and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_LEAVES, to filter based on snapshots that
* have no further children (a leaf snapshot).
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_METADATA and
* VIR_DOMAIN_SNAPSHOT_LIST_NO_METADATA, for filtering snapshots based on
* whether they have metadata that would prevent the removal of the last
* reference to a domain.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INACTIVE,
* VIR_DOMAIN_SNAPSHOT_LIST_ACTIVE, and VIR_DOMAIN_SNAPSHOT_LIST_DISK_ONLY,
* for filtering snapshots based on what domain state is tracked by the
* snapshot.
*
* The next group of @flags is VIR_DOMAIN_SNAPSHOT_LIST_INTERNAL and
* VIR_DOMAIN_SNAPSHOT_LIST_EXTERNAL, for filtering snapshots based on
* whether the snapshot is stored inside the disk images or as
* additional files.
*
* Returns the number of domain snapshots found or -1 and sets @snaps to
* NULL in case of error. On success, the array stored into @snaps is
* guaranteed to have an extra allocated element set to NULL but not included
* in the return count, to make iteration easier. The caller is responsible
* for calling virDomainSnapshotFree() on each array element, then calling
* free() on @snaps.
*/
int
virDomainSnapshotListAllChildren(virDomainSnapshotPtr snapshot,
virDomainSnapshotPtr **snaps,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, snaps=%p, flags=%x", snapshot, snaps, flags);
virResetLastError();
if (snaps)
*snaps = NULL;
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = snapshot->domain->conn;
if (conn->driver->domainSnapshotListAllChildren) {
int ret = conn->driver->domainSnapshotListAllChildren(snapshot, snaps,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotLookupByName:
* @domain: a domain object
* @name: name for the domain snapshot
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Try to lookup a domain snapshot based on its name.
*
* Returns a domain snapshot object or NULL in case of failure. If the
* domain snapshot cannot be found, then the VIR_ERR_NO_DOMAIN_SNAPSHOT
* error is raised.
*/
virDomainSnapshotPtr
virDomainSnapshotLookupByName(virDomainPtr domain,
const char *name,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "name=%s, flags=%x", name, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = domain->conn;
virCheckNonNullArgGoto(name, error);
if (conn->driver->domainSnapshotLookupByName) {
virDomainSnapshotPtr dom;
dom = conn->driver->domainSnapshotLookupByName(domain, name, flags);
if (!dom)
goto error;
return dom;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainHasCurrentSnapshot:
* @domain: pointer to the domain object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Determine if the domain has a current snapshot.
*
* Returns 1 if such snapshot exists, 0 if it doesn't, -1 on error.
*/
int
virDomainHasCurrentSnapshot(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
if (conn->driver->domainHasCurrentSnapshot) {
int ret = conn->driver->domainHasCurrentSnapshot(domain, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotCurrent:
* @domain: a domain object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Get the current snapshot for a domain, if any.
*
* Returns a domain snapshot object or NULL in case of failure. If the
* current domain snapshot cannot be found, then the VIR_ERR_NO_DOMAIN_SNAPSHOT
* error is raised.
*/
virDomainSnapshotPtr
virDomainSnapshotCurrent(virDomainPtr domain,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain, "flags=%x", flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = domain->conn;
if (conn->driver->domainSnapshotCurrent) {
virDomainSnapshotPtr snap;
snap = conn->driver->domainSnapshotCurrent(domain, flags);
if (!snap)
goto error;
return snap;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainSnapshotGetParent:
* @snapshot: a snapshot object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Get the parent snapshot for @snapshot, if any.
*
* Returns a domain snapshot object or NULL in case of failure. If the
* given snapshot is a root (no parent), then the VIR_ERR_NO_DOMAIN_SNAPSHOT
* error is raised.
*/
virDomainSnapshotPtr
virDomainSnapshotGetParent(virDomainSnapshotPtr snapshot,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, flags=%x", snapshot, flags);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = snapshot->domain->conn;
if (conn->driver->domainSnapshotGetParent) {
virDomainSnapshotPtr snap;
snap = conn->driver->domainSnapshotGetParent(snapshot, flags);
if (!snap)
goto error;
return snap;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return NULL;
}
/**
* virDomainSnapshotIsCurrent:
* @snapshot: a snapshot object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Determine if the given snapshot is the domain's current snapshot. See
* also virDomainHasCurrentSnapshot().
*
* Returns 1 if current, 0 if not current, or -1 on error.
*/
int virDomainSnapshotIsCurrent(virDomainSnapshotPtr snapshot,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, flags=%x", snapshot, flags);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = snapshot->domain->conn;
if (conn->driver->domainSnapshotIsCurrent) {
int ret;
ret = conn->driver->domainSnapshotIsCurrent(snapshot, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotHasMetadata:
* @snapshot: a snapshot object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Determine if the given snapshot is associated with libvirt metadata
* that would prevent the deletion of the domain.
*
* Returns 1 if the snapshot has metadata, 0 if the snapshot exists without
* help from libvirt, or -1 on error.
*/
int virDomainSnapshotHasMetadata(virDomainSnapshotPtr snapshot,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, flags=%x", snapshot, flags);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = snapshot->domain->conn;
if (conn->driver->domainSnapshotHasMetadata) {
int ret;
ret = conn->driver->domainSnapshotHasMetadata(snapshot, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainRevertToSnapshot:
* @snapshot: a domain snapshot object
* @flags: bitwise-OR of virDomainSnapshotRevertFlags
*
* Revert the domain to a given snapshot.
*
* Normally, the domain will revert to the same state the domain was
* in while the snapshot was taken (whether inactive, running, or
* paused), except that disk snapshots default to reverting to
* inactive state. Including VIR_DOMAIN_SNAPSHOT_REVERT_RUNNING in
* @flags overrides the snapshot state to guarantee a running domain
* after the revert; or including VIR_DOMAIN_SNAPSHOT_REVERT_PAUSED in
* @flags guarantees a paused domain after the revert. These two
* flags are mutually exclusive. While a persistent domain does not
* need either flag, it is not possible to revert a transient domain
* into an inactive state, so transient domains require the use of one
* of these two flags.
*
* Reverting to any snapshot discards all configuration changes made since
* the last snapshot. Additionally, reverting to a snapshot from a running
* domain is a form of data loss, since it discards whatever is in the
* guest's RAM at the time. Since the very nature of keeping snapshots
* implies the intent to roll back state, no additional confirmation is
* normally required for these lossy effects.
*
* However, there are two particular situations where reverting will
* be refused by default, and where @flags must include
* VIR_DOMAIN_SNAPSHOT_REVERT_FORCE to acknowledge the risks. 1) Any
* attempt to revert to a snapshot that lacks the metadata to perform
* ABI compatibility checks (generally the case for snapshots that
* lack a full <domain> when listed by virDomainSnapshotGetXMLDesc(),
* such as those created prior to libvirt 0.9.5). 2) Any attempt to
* revert a running domain to an active state that requires starting a
* new hypervisor instance rather than reusing the existing hypervisor
* (since this would terminate all connections to the domain, such as
* such as VNC or Spice graphics) - this condition arises from active
* snapshots that are provably ABI incomaptible, as well as from
* inactive snapshots with a @flags request to start the domain after
* the revert.
*
* Returns 0 if the creation is successful, -1 on error.
*/
int
virDomainRevertToSnapshot(virDomainSnapshotPtr snapshot,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, flags=%x", snapshot, flags);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = snapshot->domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if ((flags & VIR_DOMAIN_SNAPSHOT_REVERT_RUNNING) &&
(flags & VIR_DOMAIN_SNAPSHOT_REVERT_PAUSED)) {
virReportInvalidArg(flags,
_("running and paused flags in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
if (conn->driver->domainRevertToSnapshot) {
int ret = conn->driver->domainRevertToSnapshot(snapshot, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotDelete:
* @snapshot: a domain snapshot object
* @flags: bitwise-OR of supported virDomainSnapshotDeleteFlags
*
* Delete the snapshot.
*
* If @flags is 0, then just this snapshot is deleted, and changes
* from this snapshot are automatically merged into children
* snapshots. If @flags includes VIR_DOMAIN_SNAPSHOT_DELETE_CHILDREN,
* then this snapshot and any descendant snapshots are deleted. If
* @flags includes VIR_DOMAIN_SNAPSHOT_DELETE_CHILDREN_ONLY, then any
* descendant snapshots are deleted, but this snapshot remains. These
* two flags are mutually exclusive.
*
* If @flags includes VIR_DOMAIN_SNAPSHOT_DELETE_METADATA_ONLY, then
* any snapshot metadata tracked by libvirt is removed while keeping
* the snapshot contents intact; if a hypervisor does not require any
* libvirt metadata to track snapshots, then this flag is silently
* ignored.
*
* Returns 0 if the selected snapshot(s) were successfully deleted,
* -1 on error.
*/
int
virDomainSnapshotDelete(virDomainSnapshotPtr snapshot,
unsigned int flags)
{
virConnectPtr conn;
VIR_DEBUG("snapshot=%p, flags=%x", snapshot, flags);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = snapshot->domain->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibConnError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if ((flags & VIR_DOMAIN_SNAPSHOT_DELETE_CHILDREN) &&
(flags & VIR_DOMAIN_SNAPSHOT_DELETE_CHILDREN_ONLY)) {
virReportInvalidArg(flags,
_("children and children_only flags in %s are "
"mutually exclusive"),
__FUNCTION__);
goto error;
}
if (conn->driver->domainSnapshotDelete) {
int ret = conn->driver->domainSnapshotDelete(snapshot, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainSnapshotRef:
* @snapshot: the snapshot to hold a reference on
*
* Increment the reference count on the snapshot. For each
* additional call to this method, there shall be a corresponding
* call to virDomainSnapshotFree to release the reference count, once
* the caller no longer needs the reference to this object.
*
* This method is typically useful for applications where multiple
* threads are using a connection, and it is required that the
* connection and domain remain open until all threads have finished
* using the snapshot. ie, each new thread using a snapshot would
* increment the reference count.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainSnapshotRef(virDomainSnapshotPtr snapshot)
{
if ((!VIR_IS_DOMAIN_SNAPSHOT(snapshot))) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
VIR_DEBUG("snapshot=%p, refs=%d", snapshot, snapshot->object.refs);
virObjectRef(snapshot);
return 0;
}
/**
* virDomainSnapshotFree:
* @snapshot: a domain snapshot object
*
* Free the domain snapshot object. The snapshot itself is not modified.
* The data structure is freed and should not be used thereafter.
*
* Returns 0 in case of success and -1 in case of failure.
*/
int
virDomainSnapshotFree(virDomainSnapshotPtr snapshot)
{
VIR_DEBUG("snapshot=%p", snapshot);
virResetLastError();
if (!VIR_IS_DOMAIN_SNAPSHOT(snapshot)) {
virLibDomainSnapshotError(VIR_ERR_INVALID_DOMAIN_SNAPSHOT,
__FUNCTION__);
virDispatchError(NULL);
return -1;
}
virObjectUnref(snapshot);
return 0;
}
/**
* virDomainOpenConsole:
* @dom: a domain object
* @dev_name: the console, serial or parallel port device alias, or NULL
* @st: a stream to associate with the console
* @flags: bitwise-OR of virDomainConsoleFlags
*
* This opens the backend associated with a console, serial or
* parallel port device on a guest, if the backend is supported.
* If the @dev_name is omitted, then the first console or serial
* device is opened. The console is associated with the passed
* in @st stream, which should have been opened in non-blocking
* mode for bi-directional I/O.
*
* By default, when @flags is 0, the open will fail if libvirt
* detects that the console is already in use by another client;
* passing VIR_DOMAIN_CONSOLE_FORCE will cause libvirt to forcefully
* remove the other client prior to opening this console.
*
* If flag VIR_DOMAIN_CONSOLE_SAFE the console is opened only in the
* case where the hypervisor driver supports safe (mutually exclusive)
* console handling.
*
* Older servers did not support either flag, and also did not forbid
* simultaneous clients on a console, with potentially confusing results.
* When passing @flags of 0 in order to support a wider range of server
* versions, it is up to the client to ensure mutual exclusion.
*
* Returns 0 if the console was opened, -1 on error
*/
int virDomainOpenConsole(virDomainPtr dom,
const char *dev_name,
virStreamPtr st,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "dev_name=%s, st=%p, flags=%x",
NULLSTR(dev_name), st, flags);
virResetLastError();
if (!VIR_IS_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (conn->driver->domainOpenConsole) {
int ret;
ret = conn->driver->domainOpenConsole(dom, dev_name, st, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virDomainBlockJobAbort:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @flags: bitwise-OR of virDomainBlockJobAbortFlags
*
* Cancel the active block job on the given disk.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or (since 0.9.5) the device target shorthand
* (the <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* If the current block job for @disk is VIR_DOMAIN_BLOCK_JOB_TYPE_PULL, then
* by default, this function performs a synchronous operation and the caller
* may assume that the operation has completed when 0 is returned. However,
* BlockJob operations may take a long time to cancel, and during this time
* further domain interactions may be unresponsive. To avoid this problem,
* pass VIR_DOMAIN_BLOCK_JOB_ABORT_ASYNC in the @flags argument to enable
* asynchronous behavior, returning as soon as possible. When the job has
* been canceled, a BlockJob event will be emitted, with status
* VIR_DOMAIN_BLOCK_JOB_CANCELED (even if the ABORT_ASYNC flag was not
* used); it is also possible to poll virDomainBlockJobInfo() to see if
* the job cancellation is still pending. This type of job can be restarted
* to pick up from where it left off.
*
* If the current block job for @disk is VIR_DOMAIN_BLOCK_JOB_TYPE_COPY, then
* the default is to abort the mirroring and revert to the source disk;
* adding @flags of VIR_DOMAIN_BLOCK_JOB_ABORT_PIVOT causes this call to
* fail with VIR_ERR_BLOCK_COPY_ACTIVE if the copy is not fully populated,
* otherwise it will swap the disk over to the copy to end the mirroring. An
* event will be issued when the job is ended, and it is possible to use
* VIR_DOMAIN_BLOCK_JOB_ABORT_ASYNC to control whether this command waits
* for the completion of the job. Restarting this job requires starting
* over from the beginning of the first phase.
*
* Returns -1 in case of failure, 0 when successful.
*/
int virDomainBlockJobAbort(virDomainPtr dom, const char *disk,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, flags=%x", disk, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(disk, error);
if (conn->driver->domainBlockJobAbort) {
int ret;
ret = conn->driver->domainBlockJobAbort(dom, disk, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainGetBlockJobInfo:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @info: pointer to a virDomainBlockJobInfo structure
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Request block job information for the given disk. If an operation is active
* @info will be updated with the current progress.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or (since 0.9.5) the device target shorthand
* (the <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* Returns -1 in case of failure, 0 when nothing found, 1 when info was found.
*/
int virDomainGetBlockJobInfo(virDomainPtr dom, const char *disk,
virDomainBlockJobInfoPtr info, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, info=%p, flags=%x", disk, info, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
virCheckNonNullArgGoto(disk, error);
virCheckNonNullArgGoto(info, error);
if (conn->driver->domainGetBlockJobInfo) {
int ret;
ret = conn->driver->domainGetBlockJobInfo(dom, disk, info, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainBlockJobSetSpeed:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @bandwidth: specify bandwidth limit in MiB/s
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Set the maximimum allowable bandwidth that a block job may consume. If
* bandwidth is 0, the limit will revert to the hypervisor default.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or (since 0.9.5) the device target shorthand
* (the <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* Returns -1 in case of failure, 0 when successful.
*/
int virDomainBlockJobSetSpeed(virDomainPtr dom, const char *disk,
unsigned long bandwidth, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, bandwidth=%lu, flags=%x",
disk, bandwidth, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(disk, error);
if (conn->driver->domainBlockJobSetSpeed) {
int ret;
ret = conn->driver->domainBlockJobSetSpeed(dom, disk, bandwidth, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainBlockPull:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @bandwidth: (optional) specify copy bandwidth limit in MiB/s
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Populate a disk image with data from its backing image. Once all data from
* its backing image has been pulled, the disk no longer depends on a backing
* image. This function pulls data for the entire device in the background.
* Progress of the operation can be checked with virDomainGetBlockJobInfo() and
* the operation can be aborted with virDomainBlockJobAbort(). When finished,
* an asynchronous event is raised to indicate the final status. To move
* data in the opposite direction, see virDomainBlockCommit().
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or (since 0.9.5) the device target shorthand
* (the <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* The maximum bandwidth (in MiB/s) that will be used to do the copy can be
* specified with the bandwidth parameter. If set to 0, libvirt will choose a
* suitable default. Some hypervisors do not support this feature and will
* return an error if bandwidth is not 0; in this case, it might still be
* possible for a later call to virDomainBlockJobSetSpeed() to succeed.
* The actual speed can be determined with virDomainGetBlockJobInfo().
*
* This is shorthand for virDomainBlockRebase() with a NULL base.
*
* Returns 0 if the operation has started, -1 on failure.
*/
int virDomainBlockPull(virDomainPtr dom, const char *disk,
unsigned long bandwidth, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, bandwidth=%lu, flags=%x",
disk, bandwidth, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(disk, error);
if (conn->driver->domainBlockPull) {
int ret;
ret = conn->driver->domainBlockPull(dom, disk, bandwidth, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainBlockRebase:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @base: path to backing file to keep, or NULL for no backing file
* @bandwidth: (optional) specify copy bandwidth limit in MiB/s
* @flags: bitwise-OR of virDomainBlockRebaseFlags
*
* Populate a disk image with data from its backing image chain, and
* setting the backing image to @base, or alternatively copy an entire
* backing chain to a new file @base.
*
* When @flags is 0, this starts a pull, where @base must be the absolute
* path of one of the backing images further up the chain, or NULL to
* convert the disk image so that it has no backing image. Once all
* data from its backing image chain has been pulled, the disk no
* longer depends on those intermediate backing images. This function
* pulls data for the entire device in the background. Progress of
* the operation can be checked with virDomainGetBlockJobInfo() with a
* job type of VIR_DOMAIN_BLOCK_JOB_TYPE_PULL, and the operation can be
* aborted with virDomainBlockJobAbort(). When finished, an asynchronous
* event is raised to indicate the final status, and the job no longer
* exists. If the job is aborted, a new one can be started later to
* resume from the same point.
*
* When @flags includes VIR_DOMAIN_BLOCK_REBASE_COPY, this starts a copy,
* where @base must be the name of a new file to copy the chain to. By
* default, the copy will pull the entire source chain into the destination
* file, but if @flags also contains VIR_DOMAIN_BLOCK_REBASE_SHALLOW, then
* only the top of the source chain will be copied (the source and
* destination have a common backing file). By default, @base will be
* created with the same file format as the source, but this can be altered
* by adding VIR_DOMAIN_BLOCK_REBASE_COPY_RAW to force the copy to be raw
* (does not make sense with the shallow flag unless the source is also raw),
* or by using VIR_DOMAIN_BLOCK_REBASE_REUSE_EXT to reuse an existing file
* with initial contents identical to the backing file of the source (this
* allows a management app to pre-create files with relative backing file
* names, rather than the default of absolute backing file names; as a
* security precaution, you should generally only use reuse_ext with the
* shallow flag and a non-raw destination file).
*
* A copy job has two parts; in the first phase, the @bandwidth parameter
* affects how fast the source is pulled into the destination, and the job
* can only be canceled by reverting to the source file; progress in this
* phase can be tracked via the virDomainBlockJobInfo() command, with a
* job type of VIR_DOMAIN_BLOCK_JOB_TYPE_COPY. The job transitions to the
* second phase when the job info states cur == end, and remains alive to
* mirror all further changes to both source and destination. The user
* must call virDomainBlockJobAbort() to end the mirroring while choosing
* whether to revert to source or pivot to the destination. An event is
* issued when the job ends, and depending on the hypervisor, an event may
* also be issued when the job transitions from pulling to mirroring. If
* the job is aborted, a new job will have to start over from the beginning
* of the first phase.
*
* Some hypervisors will restrict certain actions, such as virDomainSave()
* or virDomainDetachDevice(), while a copy job is active; they may
* also restrict a copy job to transient domains.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or the device target shorthand (the
* <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* The maximum bandwidth (in MiB/s) that will be used to do the copy can be
* specified with the bandwidth parameter. If set to 0, libvirt will choose a
* suitable default. Some hypervisors do not support this feature and will
* return an error if bandwidth is not 0; in this case, it might still be
* possible for a later call to virDomainBlockJobSetSpeed() to succeed.
* The actual speed can be determined with virDomainGetBlockJobInfo().
*
* When @base is NULL and @flags is 0, this is identical to
* virDomainBlockPull().
*
* Returns 0 if the operation has started, -1 on failure.
*/
int virDomainBlockRebase(virDomainPtr dom, const char *disk,
const char *base, unsigned long bandwidth,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, base=%s, bandwidth=%lu, flags=%x",
disk, NULLSTR(base), bandwidth, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(disk, error);
if (flags & VIR_DOMAIN_BLOCK_REBASE_COPY) {
virCheckNonNullArgGoto(base, error);
} else if (flags & (VIR_DOMAIN_BLOCK_REBASE_SHALLOW |
VIR_DOMAIN_BLOCK_REBASE_REUSE_EXT |
VIR_DOMAIN_BLOCK_REBASE_COPY_RAW)) {
virReportInvalidArg(flags,
_("use of flags in %s requires a copy job"),
__FUNCTION__);
goto error;
}
if (conn->driver->domainBlockRebase) {
int ret;
ret = conn->driver->domainBlockRebase(dom, disk, base, bandwidth,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainBlockCommit:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @base: path to backing file to merge into, or NULL for default
* @top: path to file within backing chain that contains data to be merged,
* or NULL to merge all possible data
* @bandwidth: (optional) specify commit bandwidth limit in MiB/s
* @flags: bitwise-OR of virDomainBlockCommitFlags
*
* Commit changes that were made to temporary top-level files within a disk
* image backing file chain into a lower-level base file. In other words,
* take all the difference between @base and @top, and update @base to contain
* that difference; after the commit, any portion of the chain that previously
* depended on @top will now depend on @base, and all files after @base up
* to and including @top will now be invalidated. A typical use of this
* command is to reduce the length of a backing file chain after taking an
* external disk snapshot. To move data in the opposite direction, see
* virDomainBlockPull().
*
* This command starts a long-running commit block job, whose status may
* be tracked by virDomainBlockJobInfo() with a job type of
* VIR_DOMAIN_BLOCK_JOB_TYPE_COMMIT, and the operation can be aborted with
* virDomainBlockJobAbort(). When finished, an asynchronous event is
* raised to indicate the final status, and the job no longer exists. If
* the job is aborted, it is up to the hypervisor whether starting a new
* job will resume from the same point, or start over.
*
* Be aware that this command may invalidate files even if it is aborted;
* the user is cautioned against relying on the contents of invalidated
* intermediate files such as @top without manually rebasing those files
* to use a backing file of a read-only copy of @base prior to the point
* where the commit operation was started (although such a rebase cannot
* be safely done until the commit has successfully completed). However,
* the domain itself will not have any issues; the active layer remains
* valid throughout the entire commit operation. As a convenience,
* if @flags contains VIR_DOMAIN_BLOCK_COMMIT_DELETE, this command will
* unlink all files that were invalidated, after the commit successfully
* completes.
*
* By default, if @base is NULL, the commit target will be the bottom of
* the backing chain; if @flags contains VIR_DOMAIN_BLOCK_COMMIT_SHALLOW,
* then the immediate backing file of @top will be used instead. If @top
* is NULL, the active image at the top of the chain will be used. Some
* hypervisors place restrictions on how much can be committed, and might
* fail if @base is not the immediate backing file of @top, or if @top is
* the active layer in use by a running domain, or if @top is not the
* top-most file; restrictions may differ for online vs. offline domains.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or the device target shorthand (the
* <target dev='...'/> sub-element, such as "xvda"). Valid names
* can be found by calling virDomainGetXMLDesc() and inspecting
* elements within //domain/devices/disk.
*
* The maximum bandwidth (in MiB/s) that will be used to do the commit can be
* specified with the bandwidth parameter. If set to 0, libvirt will choose a
* suitable default. Some hypervisors do not support this feature and will
* return an error if bandwidth is not 0; in this case, it might still be
* possible for a later call to virDomainBlockJobSetSpeed() to succeed.
* The actual speed can be determined with virDomainGetBlockJobInfo().
*
* Returns 0 if the operation has started, -1 on failure.
*/
int virDomainBlockCommit(virDomainPtr dom, const char *disk,
const char *base, const char *top,
unsigned long bandwidth, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, base=%s, top=%s, bandwidth=%lu, flags=%x",
disk, NULLSTR(base), NULLSTR(top), bandwidth, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = dom->conn;
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(disk, error);
if (conn->driver->domainBlockCommit) {
int ret;
ret = conn->driver->domainBlockCommit(dom, disk, base, top, bandwidth,
flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainOpenGraphics:
* @dom: pointer to domain object
* @idx: index of graphics config to open
* @fd: file descriptor to attach graphics to
* @flags: bitwise-OR of virDomainOpenGraphicsFlags
*
* This will attempt to connect the file descriptor @fd, to
* the graphics backend of @dom. If @dom has multiple graphics
* backends configured, then @idx will determine which one is
* opened, starting from @idx 0.
*
* To disable any authentication, pass the VIR_DOMAIN_OPEN_GRAPHICS_SKIPAUTH
* constant for @flags.
*
* The caller should use an anonymous socketpair to open
* @fd before invocation.
*
* This method can only be used when connected to a local
* libvirt hypervisor, over a UNIX domain socket. Attempts
* to use this method over a TCP connection will always fail
*
* Returns 0 on success, -1 on failure
*/
int virDomainOpenGraphics(virDomainPtr dom,
unsigned int idx,
int fd,
unsigned int flags)
{
struct stat sb;
VIR_DOMAIN_DEBUG(dom, "idx=%u, fd=%d, flags=%x",
idx, fd, flags);
virResetLastError();
if (!VIR_IS_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNegativeArgGoto(fd, error);
if (fstat(fd, &sb) < 0) {
virReportSystemError(errno,
_("Unable to access file descriptor %d"), fd);
goto error;
}
if (!S_ISSOCK(sb.st_mode)) {
virReportInvalidArg(fd,
_("fd %d in %s must be a socket"),
fd, __FUNCTION__);
goto error;
}
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
if (!VIR_DRV_SUPPORTS_FEATURE(dom->conn->driver, dom->conn,
VIR_DRV_FEATURE_FD_PASSING)) {
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
goto error;
}
if (dom->conn->driver->domainOpenGraphics) {
int ret;
ret = dom->conn->driver->domainOpenGraphics(dom, idx, fd, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virConnectSetKeepAlive:
* @conn: pointer to a hypervisor connection
* @interval: number of seconds of inactivity before a keepalive message is sent
* @count: number of messages that can be sent in a row
*
* Start sending keepalive messages after interval second of inactivity and
* consider the connection to be broken when no response is received after
* count keepalive messages sent in a row. In other words, sending count + 1
* keepalive message results in closing the connection. When interval is <= 0,
* no keepalive messages will be sent. When count is 0, the connection will be
* automatically closed after interval seconds of inactivity without sending
* any keepalive messages.
*
* Note: client has to implement and run event loop to be able to use keepalive
* messages. Failure to do so may result in connections being closed
* unexpectedly.
*
* Note: This API function controls only keepalive messages sent by the client.
* If the server is configured to use keepalive you still need to run the event
* loop to respond to them, even if you disable keepalives by this function.
*
* Returns -1 on error, 0 on success, 1 when remote party doesn't support
* keepalive messages.
*/
int virConnectSetKeepAlive(virConnectPtr conn,
int interval,
unsigned int count)
{
int ret = -1;
VIR_DEBUG("conn=%p, interval=%d, count=%u", conn, interval, count);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->setKeepAlive) {
ret = conn->driver->setKeepAlive(conn, interval, count);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectIsAlive:
* @conn: pointer to the connection object
*
* Determine if the connection to the hypervisor is still alive
*
* A connection will be classed as alive if it is either local, or running
* over a channel (TCP or UNIX socket) which is not closed.
*
* Returns 1 if alive, 0 if dead, -1 on error
*/
int virConnectIsAlive(virConnectPtr conn)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->isAlive) {
int ret;
ret = conn->driver->isAlive(conn);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}
/**
* virConnectRegisterCloseCallback:
* @conn: pointer to connection object
* @cb: callback to invoke upon close
* @opaque: user data to pass to @cb
* @freecb: callback to free @opaque
*
* Registers a callback to be invoked when the connection
* is closed. This callback is invoked when there is any
* condition that causes the socket connection to the
* hypervisor to be closed.
*
* This function is only applicable to hypervisor drivers
* which maintain a persistent open connection. Drivers
* which open a new connection for every operation will
* not invoke this.
*
* The @freecb must not invoke any other libvirt public
* APIs, since it is not called from a re-entrant safe
* context.
*
* Returns 0 on success, -1 on error
*/
int virConnectRegisterCloseCallback(virConnectPtr conn,
virConnectCloseFunc cb,
void *opaque,
virFreeCallback freecb)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virMutexLock(&conn->lock);
virCheckNonNullArgGoto(cb, error);
if (conn->closeCallback) {
virLibConnError(VIR_ERR_OPERATION_INVALID, "%s",
_("A close callback is already registered"));
goto error;
}
conn->closeCallback = cb;
conn->closeOpaque = opaque;
conn->closeFreeCallback = freecb;
virMutexUnlock(&conn->lock);
return 0;
error:
virMutexUnlock(&conn->lock);
virDispatchError(NULL);
return -1;
}
/**
* virConnectUnregisterCloseCallback:
* @conn: pointer to connection object
* @cb: pointer to the current registered callback
*
* Unregisters the callback previously set with the
* virConnectRegisterCloseCallback method. The callback
* will no longer receive notifications when the connection
* closes. If a virFreeCallback was provided at time of
* registration, it will be invoked
*
* Returns 0 on success, -1 on error
*/
int virConnectUnregisterCloseCallback(virConnectPtr conn,
virConnectCloseFunc cb)
{
VIR_DEBUG("conn=%p", conn);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virMutexLock(&conn->lock);
virCheckNonNullArgGoto(cb, error);
if (conn->closeCallback != cb) {
virLibConnError(VIR_ERR_OPERATION_INVALID, "%s",
_("A different callback was requested"));
goto error;
}
conn->closeCallback = NULL;
conn->closeUnregisterCount++;
if (!conn->closeDispatch && conn->closeFreeCallback)
conn->closeFreeCallback(conn->closeOpaque);
conn->closeFreeCallback = NULL;
conn->closeOpaque = NULL;
virMutexUnlock(&conn->lock);
return 0;
error:
virMutexUnlock(&conn->lock);
virDispatchError(NULL);
return -1;
}
/**
* virDomainSetBlockIoTune:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @params: Pointer to blkio parameter objects
* @nparams: Number of blkio parameters (this value can be the same or
* less than the number of parameters supported)
* @flags: bitwise-OR of virDomainModificationImpact
*
* Change all or a subset of the per-device block IO tunables.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or the device target shorthand (the <target
* dev='...'/> sub-element, such as "xvda"). Valid names can be found
* by calling virDomainGetXMLDesc() and inspecting elements
* within //domain/devices/disk.
*
* Returns -1 in case of error, 0 in case of success.
*/
int virDomainSetBlockIoTune(virDomainPtr dom,
const char *disk,
virTypedParameterPtr params,
int nparams,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, params=%p, nparams=%d, flags=%x",
disk, params, nparams, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (dom->conn->flags & VIR_CONNECT_RO) {
virLibDomainError(VIR_ERR_OPERATION_DENIED, __FUNCTION__);
goto error;
}
virCheckNonNullArgGoto(disk, error);
virCheckPositiveArgGoto(nparams, error);
virCheckNonNullArgGoto(params, error);
if (virTypedParameterValidateSet(dom->conn, params, nparams) < 0)
goto error;
conn = dom->conn;
if (conn->driver->domainSetBlockIoTune) {
int ret;
ret = conn->driver->domainSetBlockIoTune(dom, disk, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainGetBlockIoTune:
* @dom: pointer to domain object
* @disk: path to the block device, or device shorthand
* @params: Pointer to blkio parameter object
* (return value, allocated by the caller)
* @nparams: Pointer to number of blkio parameters
* @flags: bitwise-OR of virDomainModificationImpact and virTypedParameterFlags
*
* Get all block IO tunable parameters for a given device. On input,
* @nparams gives the size of the @params array; on output, @nparams
* gives how many slots were filled with parameter information, which
* might be less but will not exceed the input value.
*
* As a special case, calling with @params as NULL and @nparams as 0
* on input will cause @nparams on output to contain the number of
* parameters supported by the hypervisor, either for the given @disk
* (note that block devices of different types might support different
* parameters), or if @disk is NULL, for all possible disks. The
* caller should then allocate @params array,
* i.e. (sizeof(@virTypedParameter) * @nparams) bytes and call the API
* again. See virDomainGetMemoryParameters() for more details.
*
* The @disk parameter is either an unambiguous source name of the
* block device (the <source file='...'/> sub-element, such as
* "/path/to/image"), or the device target shorthand (the <target
* dev='...'/> sub-element, such as "xvda"). Valid names can be found
* by calling virDomainGetXMLDesc() and inspecting elements
* within //domain/devices/disk. This parameter cannot be NULL
* unless @nparams is 0 on input.
*
* Returns -1 in case of error, 0 in case of success.
*/
int virDomainGetBlockIoTune(virDomainPtr dom,
const char *disk,
virTypedParameterPtr params,
int *nparams,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(dom, "disk=%s, params=%p, nparams=%d, flags=%x",
NULLSTR(disk), params, (nparams) ? *nparams : -1, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
virCheckNonNullArgGoto(nparams, error);
virCheckNonNegativeArgGoto(*nparams, error);
if (*nparams != 0) {
virCheckNonNullArgGoto(params, error);
virCheckNonNullArgGoto(disk, error);
}
if (VIR_DRV_SUPPORTS_FEATURE(dom->conn->driver, dom->conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
/* At most one of these two flags should be set. */
if ((flags & VIR_DOMAIN_AFFECT_LIVE) &&
(flags & VIR_DOMAIN_AFFECT_CONFIG)) {
virReportInvalidArg(flags,
_("flags 'affect live' and 'affect config' in %s are mutually exclusive"),
__FUNCTION__);
goto error;
}
conn = dom->conn;
if (conn->driver->domainGetBlockIoTune) {
int ret;
ret = conn->driver->domainGetBlockIoTune(dom, disk, params, nparams, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainGetCPUStats:
* @domain: domain to query
* @params: array to populate on output
* @nparams: number of parameters per cpu
* @start_cpu: which cpu to start with, or -1 for summary
* @ncpus: how many cpus to query
* @flags: bitwise-OR of virTypedParameterFlags
*
* Get statistics relating to CPU usage attributable to a single
* domain (in contrast to the statistics returned by
* virNodeGetCPUStats() for all processes on the host). @dom
* must be running (an inactive domain has no attributable cpu
* usage). On input, @params must contain at least @nparams * @ncpus
* entries, allocated by the caller.
*
* If @start_cpu is -1, then @ncpus must be 1, and the returned
* results reflect the statistics attributable to the entire
* domain (such as user and system time for the process as a
* whole). Otherwise, @start_cpu represents which cpu to start
* with, and @ncpus represents how many consecutive processors to
* query, with statistics attributable per processor (such as
* per-cpu usage). If @ncpus is larger than the number of cpus
* available to query, then the trailing part of the array will
* be unpopulated.
*
* The remote driver imposes a limit of 128 @ncpus and 16 @nparams;
* the number of parameters per cpu should not exceed 16, but if you
* have a host with more than 128 CPUs, your program should split
* the request into multiple calls.
*
* As special cases, if @params is NULL and @nparams is 0 and
* @ncpus is 1, and the return value will be how many
* statistics are available for the given @start_cpu. This number
* may be different for @start_cpu of -1 than for any non-negative
* value, but will be the same for all non-negative @start_cpu.
* Likewise, if @params is NULL and @nparams is 0 and @ncpus is 0,
* the number of cpus available to query is returned. From the
* host perspective, this would typically match the cpus member
* of virNodeGetInfo(), but might be less due to host cpu hotplug.
*
* For now, @flags is unused, and the statistics all relate to the
* usage from the host perspective. It is possible that a future
* version will support a flag that queries the cpu usage from the
* guest's perspective, where the maximum cpu to query would be
* related to virDomainGetVcpusFlags() rather than virNodeGetInfo().
* An individual guest vcpu cannot be reliably mapped back to a
* specific host cpu unless a single-processor vcpu pinning was used,
* but when @start_cpu is -1, any difference in usage between a host
* and guest perspective would serve as a measure of hypervisor overhead.
*
* Typical use sequence is below.
*
* getting total stats: set start_cpu as -1, ncpus 1
* virDomainGetCPUStats(dom, NULL, 0, -1, 1, 0) => nparams
* params = calloc(nparams, sizeof(virTypedParameter))
* virDomainGetCPUStats(dom, params, nparams, -1, 1, 0) => total stats.
*
* getting per-cpu stats:
* virDomainGetCPUStats(dom, NULL, 0, 0, 0, 0) => ncpus
* virDomainGetCPUStats(dom, NULL, 0, 0, 1, 0) => nparams
* params = calloc(ncpus * nparams, sizeof(virTypedParameter))
* virDomainGetCPUStats(dom, params, nparams, 0, ncpus, 0) => per-cpu stats
*
* Returns -1 on failure, or the number of statistics that were
* populated per cpu on success (this will be less than the total
* number of populated @params, unless @ncpus was 1; and may be
* less than @nparams). The populated parameters start at each
* stride of @nparams, which means the results may be discontiguous;
* any unpopulated parameters will be zeroed on success (this includes
* skipped elements if @nparams is too large, and tail elements if
* @ncpus is too large). The caller is responsible for freeing any
* returned string parameters.
*/
int virDomainGetCPUStats(virDomainPtr domain,
virTypedParameterPtr params,
unsigned int nparams,
int start_cpu,
unsigned int ncpus,
unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain,
"params=%p, nparams=%d, start_cpu=%d, ncpus=%u, flags=%x",
params, nparams, start_cpu, ncpus, flags);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
conn = domain->conn;
/* Special cases:
* start_cpu must be non-negative, or else -1
* if start_cpu is -1, ncpus must be 1
* params == NULL must match nparams == 0
* ncpus must be non-zero unless params == NULL
* nparams * ncpus must not overflow (RPC may restrict it even more)
*/
if (start_cpu == -1) {
if (ncpus != 1) {
virReportInvalidArg(start_cpu,
_("ncpus in %s must be 1 when start_cpu is -1"),
__FUNCTION__);
goto error;
}
} else {
virCheckNonNegativeArgGoto(start_cpu, error);
}
if (nparams)
virCheckNonNullArgGoto(params, error);
else
virCheckNullArgGoto(params, error);
if (ncpus == 0)
virCheckNullArgGoto(params, error);
if (nparams && ncpus > UINT_MAX / nparams) {
virLibDomainError(VIR_ERR_OVERFLOW, _("input too large: %u * %u"),
nparams, ncpus);
goto error;
}
if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn,
VIR_DRV_FEATURE_TYPED_PARAM_STRING))
flags |= VIR_TYPED_PARAM_STRING_OKAY;
if (conn->driver->domainGetCPUStats) {
int ret;
ret = conn->driver->domainGetCPUStats(domain, params, nparams,
start_cpu, ncpus, flags);
if (ret < 0)
goto error;
return ret;
}
virLibDomainError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return -1;
}
/**
* virDomainGetDiskErrors:
* @dom: a domain object
* @errors: array to populate on output
* @maxerrors: size of @errors array
* @flags: extra flags; not used yet, so callers should always pass 0
*
* The function populates @errors array with all disks that encountered an
* I/O error. Disks with no error will not be returned in the @errors array.
* Each disk is identified by its target (the dev attribute of target
* subelement in domain XML), such as "vda", and accompanied with the error
* that was seen on it. The caller is also responsible for calling free()
* on each disk name returned.
*
* In a special case when @errors is NULL and @maxerrors is 0, the function
* returns preferred size of @errors that the caller should use to get all
* disk errors.
*
* Since calling virDomainGetDiskErrors(dom, NULL, 0, 0) to get preferred size
* of @errors array and getting the errors are two separate operations, new
* disks may be hotplugged to the domain and new errors may be encountered
* between the two calls. Thus, this function may not return all disk errors
* because the supplied array is not large enough. Such errors may, however,
* be detected by listening to domain events.
*
* Returns number of disks with errors filled in the @errors array or -1 on
* error.
*/
int
virDomainGetDiskErrors(virDomainPtr dom,
virDomainDiskErrorPtr errors,
unsigned int maxerrors,
unsigned int flags)
{
VIR_DOMAIN_DEBUG(dom, "errors=%p, maxerrors=%u, flags=%x",
errors, maxerrors, flags);
virResetLastError();
if (!VIR_IS_DOMAIN(dom)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if ((!errors && maxerrors) || (errors && !maxerrors)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
goto error;
}
if (dom->conn->driver->domainGetDiskErrors) {
int ret = dom->conn->driver->domainGetDiskErrors(dom, errors,
maxerrors, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(dom->conn);
return -1;
}
/**
* virDomainGetHostname:
* @domain: a domain object
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Get the hostname for that domain.
*
* Dependent on hypervisor used, this may require a guest agent to be
* available.
*
* Returns the hostname which must be freed by the caller, or
* NULL if there was an error.
*/
char *
virDomainGetHostname(virDomainPtr domain, unsigned int flags)
{
virConnectPtr conn;
VIR_DOMAIN_DEBUG(domain);
virResetLastError();
if (!VIR_IS_CONNECTED_DOMAIN(domain)) {
virLibDomainError(VIR_ERR_INVALID_DOMAIN, __FUNCTION__);
virDispatchError(NULL);
return NULL;
}
conn = domain->conn;
if (conn->driver->domainGetHostname) {
char *ret;
ret = conn->driver->domainGetHostname(domain, flags);
if (!ret)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(domain->conn);
return NULL;
}
/**
* virNodeGetCPUMap:
* @conn: pointer to the hypervisor connection
* @cpumap: optional pointer to a bit map of real CPUs on the host node
* (in 8-bit bytes) (OUT)
* In case of success each bit set to 1 means that corresponding
* CPU is online.
* Bytes are stored in little-endian order: CPU0-7, 8-15...
* In each byte, lowest CPU number is least significant bit.
* The bit map is allocated by virNodeGetCPUMap and needs
* to be released using free() by the caller.
* @online: optional number of online CPUs in cpumap (OUT)
* Contains the number of online CPUs if the call was successful.
* @flags: extra flags; not used yet, so callers should always pass 0
*
* Get CPU map of host node CPUs.
*
* Returns number of CPUs present on the host node,
* or -1 if there was an error.
*/
int
virNodeGetCPUMap(virConnectPtr conn,
unsigned char **cpumap,
unsigned int *online,
unsigned int flags)
{
VIR_DEBUG("conn=%p, cpumap=%p, online=%p, flags=%x",
conn, cpumap, online, flags);
virResetLastError();
if (!VIR_IS_CONNECT(conn)) {
virLibConnError(VIR_ERR_INVALID_CONN, __FUNCTION__);
virDispatchError(NULL);
return -1;
}
if (conn->driver->nodeGetCPUMap) {
int ret = conn->driver->nodeGetCPUMap(conn, cpumap, online, flags);
if (ret < 0)
goto error;
return ret;
}
virLibConnError(VIR_ERR_NO_SUPPORT, __FUNCTION__);
error:
virDispatchError(conn);
return -1;
}