/* * libvirt-domain.c: entry points for virDomainPtr APIs * * Copyright (C) 2006-2015 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 * . */ #include #include #include "intprops.h" #include "datatypes.h" #include "viralloc.h" #include "virfile.h" #include "virlog.h" #include "virtypedparam.h" VIR_LOG_INIT("libvirt.domain"); #define VIR_FROM_THIS VIR_FROM_DOMAIN /** * 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(); virCheckConnectReturn(conn, -1); virCheckNonNullArgGoto(ids, error); virCheckNonNegativeArgGoto(maxids, error); if (conn->driver->connectListDomains) { int ret = conn->driver->connectListDomains(conn, ids, maxids); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckConnectReturn(conn, -1); if (conn->driver->connectNumOfDomains) { int ret = conn->driver->connectNumOfDomains(conn); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, 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. * * virDomainFree should be used to free the resources after the * domain object is no longer needed. * * 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, NULLSTR(xmlDesc), flags); virResetLastError(); virCheckConnectReturn(conn, NULL); virCheckNonNullArgGoto(xmlDesc, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainCreateXML) { virDomainPtr ret; ret = conn->driver->domainCreateXML(conn, xmlDesc, flags); if (!ret) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(conn); return NULL; } /** * virDomainCreateXMLWithFiles: * @conn: pointer to the hypervisor connection * @xmlDesc: string containing an XML description of the domain * @nfiles: number of file descriptors passed * @files: list of file descriptors passed * @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). * * @files provides an array of file descriptors which will be * made available to the 'init' process of the guest. The file * handles exposed to the guest will be renumbered to start * from 3 (ie immediately following stderr). This is only * supported for guests which use container based virtualization * technology. * * 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. * * virDomainFree should be used to free the resources after the * domain object is no longer needed. * * Returns a new domain object or NULL in case of failure */ virDomainPtr virDomainCreateXMLWithFiles(virConnectPtr conn, const char *xmlDesc, unsigned int nfiles, int *files, unsigned int flags) { VIR_DEBUG("conn=%p, xmlDesc=%s, nfiles=%u, files=%p, flags=%x", conn, NULLSTR(xmlDesc), nfiles, files, flags); virResetLastError(); virCheckConnectReturn(conn, NULL); virCheckNonNullArgGoto(xmlDesc, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainCreateXMLWithFiles) { virDomainPtr ret; ret = conn->driver->domainCreateXMLWithFiles(conn, xmlDesc, nfiles, files, flags); if (!ret) goto error; return ret; } virReportUnsupportedError(); 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 be 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. * * virDomainFree should be used to free the resources after the * domain object is no longer needed. * * 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(); virCheckConnectReturn(conn, NULL); virCheckNonNegativeArgGoto(id, error); if (conn->driver->domainLookupByID) { virDomainPtr ret; ret = conn->driver->domainLookupByID(conn, id); if (!ret) goto error; return ret; } virReportUnsupportedError(); 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. * * virDomainFree should be used to free the resources after the * domain object is no longer needed. * * 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(); virCheckConnectReturn(conn, NULL); virCheckNonNullArgGoto(uuid, error); if (conn->driver->domainLookupByUUID) { virDomainPtr ret; ret = conn->driver->domainLookupByUUID(conn, uuid); if (!ret) goto error; return ret; } virReportUnsupportedError(); 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. * * virDomainFree should be used to free the resources after the * domain object is no longer needed. * * 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(); virCheckConnectReturn(conn, NULL); virCheckNonNullArgGoto(uuidstr, error); if (virUUIDParse(uuidstr, uuid) < 0) { virReportInvalidArg(uuidstr, "%s", _("Invalid UUID")); 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. * * virDomainFree should be used to free the resources after the * domain object is no longer needed. * * 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, NULLSTR(name)); virResetLastError(); virCheckConnectReturn(conn, NULL); virCheckNonNullArgGoto(name, error); if (conn->driver->domainLookupByName) { virDomainPtr dom; dom = conn->driver->domainLookupByName(conn, name); if (!dom) goto error; return dom; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainDestroy) { int ret; ret = conn->driver->domainDestroy(domain); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainDestroyFlags) { int ret; ret = conn->driver->domainDestroyFlags(domain, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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) { VIR_DOMAIN_DEBUG(domain, "refs=%d", domain ? domain->object.u.s.refs : 0); virResetLastError(); virCheckDomainReturn(domain, -1); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainSuspend) { int ret; ret = conn->driver->domainSuspend(domain); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainResume) { int ret; ret = conn->driver->domainResume(domain); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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. * * Beware that at least for QEMU, the domain's process will be terminated * when VIR_NODE_SUSPEND_TARGET_DISK is used and a new process will be * launched when libvirt is asked to wake up the domain. As a result of * this, any runtime changes, such as device hotplug or memory settings, * are lost unless such changes were made with VIR_DOMAIN_AFFECT_CONFIG * flag. * * 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainPMSuspendForDuration) { int ret; ret = conn->driver->domainPMSuspendForDuration(dom, target, duration, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainPMWakeup) { int ret; ret = conn->driver->domainPMWakeup(dom, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); 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) { virReportError(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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(to, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_SAVE_RUNNING, VIR_DOMAIN_SAVE_PAUSED, 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) { virReportError(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; } virReportUnsupportedError(); 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, NULLSTR(from)); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckReadOnlyGoto(conn->flags, 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) { virReportError(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; } virReportUnsupportedError(); 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 restores from 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, NULLSTR(from), NULLSTR(dxml), flags); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(from, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_SAVE_RUNNING, VIR_DOMAIN_SAVE_PAUSED, 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) { virReportError(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; } virReportUnsupportedError(); 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, NULLSTR(file), flags); virResetLastError(); virCheckConnectReturn(conn, NULL); virCheckNonNullArgGoto(file, error); if ((conn->flags & VIR_CONNECT_RO) && (flags & VIR_DOMAIN_XML_SECURE)) { virReportError(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) { virReportError(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; } virReportUnsupportedError(); 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, NULLSTR(file), NULLSTR(dxml), flags); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(file, error); virCheckNonNullArgGoto(dxml, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_SAVE_RUNNING, VIR_DOMAIN_SAVE_PAUSED, 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) { virReportError(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; } virReportUnsupportedError(); 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 guest 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. * * For more control over the output format, see virDomainCoreDumpWithFormat(). * * 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(to, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DUMP_CRASH, VIR_DUMP_LIVE, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DUMP_CRASH, VIR_DUMP_RESET, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DUMP_LIVE, VIR_DUMP_RESET, 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) { virReportError(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; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainCoreDumpWithFormat: * @domain: a domain object * @to: path for the core file * @dumpformat: format of domain memory's dump (one of virDomainCoreDumpFormat enum) * @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. * * @dumpformat controls which format the dump will have; use of * VIR_DOMAIN_CORE_DUMP_FORMAT_RAW mirrors what virDomainCoreDump() will * perform. Not all hypervisors are able to support all formats. * * 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 guest 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 virDomainCoreDumpWithFormat(virDomainPtr domain, const char *to, unsigned int dumpformat, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "to=%s, dumpformat=%u, flags=%x", to, dumpformat, flags); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(to, error); if (dumpformat >= VIR_DOMAIN_CORE_DUMP_FORMAT_LAST) { virReportInvalidArg(flags, _("dumpformat '%d' is not supported"), dumpformat); goto error; } VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DUMP_CRASH, VIR_DUMP_LIVE, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DUMP_CRASH, VIR_DUMP_RESET, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DUMP_LIVE, VIR_DUMP_RESET, error); if (conn->driver->domainCoreDumpWithFormat) { 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) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", _("could not build absolute core file path")); goto error; } ret = conn->driver->domainCoreDumpWithFormat(domain, absolute_to, dumpformat, flags); VIR_FREE(absolute_to); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, NULL); virCheckStreamGoto(stream, error); virCheckReadOnlyGoto(domain->conn->flags, error); if (domain->conn != stream->conn) { virReportInvalidArg(stream, _("stream must match connection of domain '%s'"), domain->name); 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; } virReportUnsupportedError(); 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. Additionally, the hypervisor may check and support the domain * 'on_poweroff' XML setting resulting in a domain that reboots instead of * shutting down. 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainShutdown) { int ret; ret = conn->driver->domainShutdown(domain); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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. Additionally, the hypervisor may check and support the domain * 'on_poweroff' XML setting resulting in a domain that reboots instead of * shutting down. 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 one or more of the virDomainShutdownFlagValues. The order * in which the hypervisor tries each shutdown method is undefined, * and a hypervisor is not required to support all methods. * * To use guest agent (VIR_DOMAIN_SHUTDOWN_GUEST_AGENT) the domain XML * must have configured. * * 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, "flags=%x", flags); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainShutdownFlags) { int ret; ret = conn->driver->domainShutdownFlags(domain, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 thereafter, but * the domain OS is being stopped for a restart. * Note that the guest OS may ignore the request. * Additionally, the hypervisor may check and support the domain * 'on_reboot' XML setting resulting in a domain that shuts down instead * of rebooting. * * If @flags is set to zero, then the hypervisor will choose the * method of shutdown it considers best. To have greater control * pass one or more of the virDomainRebootFlagValues. The order * in which the hypervisor tries each shutdown method is undefined, * and a hypervisor is not required to support all methods. * * To use guest agent (VIR_DOMAIN_REBOOT_GUEST_AGENT) the domain XML * must have configured. * * Due to implementation limitations in some drivers (the qemu driver, * for instance) it is not advised to migrate or save a guest that is * rebooting as a result of this API. Migrating such a guest can lead * to a plain shutdown on the destination. * * 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainReboot) { int ret; ret = conn->driver->domainReboot(domain, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainReset) { int ret; ret = conn->driver->domainReset(domain, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, 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(); virCheckDomainReturn(domain, -1); virCheckNonNullArgGoto(uuid, error); memcpy(uuid, &domain->uuid[0], VIR_UUID_BUFLEN); return 0; error: virDispatchError(domain->conn); return -1; } /** * 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) { VIR_DOMAIN_DEBUG(domain, "buf=%p", buf); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckNonNullArgGoto(buf, error); virUUIDFormat(domain->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(); virCheckDomainReturn(domain, (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(); virCheckDomainReturn(domain, NULL); conn = domain->conn; if (conn->driver->domainGetOSType) { char *ret; ret = conn->driver->domainGetOSType(domain); if (!ret) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, 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) { virReportError(VIR_ERR_OVERFLOW, _("result too large: %llu"), ret); goto error; } return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonZeroArgGoto(memory, error); if (virMemoryMaxValue(true) / 1024 <= memory) { virReportError(VIR_ERR_OVERFLOW, _("input too large: %lu"), memory); goto error; } if (conn->driver->domainSetMaxMemory) { int ret; ret = conn->driver->domainSetMaxMemory(domain, memory); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 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 virDomainSetMemory(virDomainPtr domain, unsigned long memory) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "memory=%lu", memory); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonZeroArgGoto(memory, error); if (virMemoryMaxValue(true) / 1024 <= memory) { virReportError(VIR_ERR_OVERFLOW, _("input too large: %lu"), memory); goto error; } if (conn->driver->domainSetMemory) { int ret; ret = conn->driver->domainSetMemory(domain, memory); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonZeroArgGoto(memory, error); if (virMemoryMaxValue(true) / 1024 <= memory) { virReportError(VIR_ERR_OVERFLOW, _("input too large: %lu"), memory); goto error; } if (conn->driver->domainSetMemoryFlags) { int ret; ret = conn->driver->domainSetMemoryFlags(domain, memory, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainSetMemoryStatsPeriod: * @domain: a domain object or NULL * @period: the period in seconds for stats collection * @flags: bitwise-OR of virDomainMemoryModFlags * * Dynamically change the domain memory balloon driver statistics collection * period. Use 0 to disable and a positive value to enable. * * @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. * * Not all hypervisors can support all flag combinations. * * Returns 0 in case of success, -1 in case of failure. */ int virDomainSetMemoryStatsPeriod(virDomainPtr domain, int period, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "period=%d, flags=%x", period, flags); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); /* This must be positive to set the balloon collection period */ virCheckNonNegativeArgGoto(period, error); if (conn->driver->domainSetMemoryStatsPeriod) { int ret; ret = conn->driver->domainSetMemoryStatsPeriod(domain, period, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * 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. * * Possible values for all *_limit memory tunables are in range from 0 to * VIR_DOMAIN_MEMORY_PARAM_UNLIMITED. * * 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); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(params, error); virCheckPositiveArgGoto(nparams, error); if (virTypedParameterValidateSet(conn, params, nparams) < 0) goto error; if (conn->driver->domainSetMemoryParameters) { int ret; ret = conn->driver->domainSetMemoryParameters(domain, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, 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; } virReportUnsupportedError(); 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); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, 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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; } virReportUnsupportedError(); 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); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(params, error); virCheckNonNegativeArgGoto(nparams, error); if (virTypedParameterValidateSet(conn, params, nparams) < 0) goto error; if (conn->driver->domainSetBlkioParameters) { int ret; ret = conn->driver->domainSetBlkioParameters(domain, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, 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; } virReportUnsupportedError(); 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 (info) memset(info, 0, sizeof(*info)); virCheckDomainReturn(domain, -1); virCheckNonNullArgGoto(info, error); conn = domain->conn; if (conn->driver->domainGetInfo) { int ret; ret = conn->driver->domainGetInfo(domain, info); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, NULL); conn = domain->conn; if ((conn->flags & VIR_CONNECT_RO) && (flags & (VIR_DOMAIN_XML_SECURE | VIR_DOMAIN_XML_MIGRATABLE))) { virReportError(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; } virReportUnsupportedError(); 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 dependent. * * 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, NULLSTR(nativeFormat), NULLSTR(nativeConfig), flags); virResetLastError(); virCheckConnectReturn(conn, NULL); virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(nativeFormat, error); virCheckNonNullArgGoto(nativeConfig, error); if (conn->driver->connectDomainXMLFromNative) { char *ret; ret = conn->driver->connectDomainXMLFromNative(conn, nativeFormat, nativeConfig, flags); if (!ret) goto error; return ret; } virReportUnsupportedError(); 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 dependent. * * 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, NULLSTR(nativeFormat), NULLSTR(domainXml), flags); virResetLastError(); virCheckConnectReturn(conn, NULL); virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(nativeFormat, error); virCheckNonNullArgGoto(domainXml, error); if (conn->driver->connectDomainXMLToNative) { char *ret; ret = conn->driver->connectDomainXMLToNative(conn, nativeFormat, domainXml, flags); if (!ret) goto error; return ret; } virReportUnsupportedError(); 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; unsigned int destflags; 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; destflags = flags & ~(VIR_MIGRATE_ABORT_ON_ERROR | VIR_MIGRATE_AUTO_CONVERGE); /* 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, destflags, dname, bandwidth) == -1) goto done; if (uri == NULL && uri_out == NULL) { virReportError(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, destflags); 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; unsigned long destflags; 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) { virReportUnsupportedError(); 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; destflags = flags & ~(VIR_MIGRATE_ABORT_ON_ERROR | VIR_MIGRATE_AUTO_CONVERGE); VIR_DEBUG("Prepare2 %p flags=%lx", dconn, destflags); ret = dconn->driver->domainMigratePrepare2 (dconn, &cookie, &cookielen, uri, &uri_out, destflags, dname, bandwidth, dom_xml); VIR_FREE(dom_xml); if (ret == -1) goto done; if (uri == NULL && uri_out == NULL) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", _("domainMigratePrepare2 did not set uri")); cancelled = 1; /* Make sure Finish doesn't overwrite the error */ orig_err = virSaveLastError(); 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, destflags, cancelled); if (cancelled && ddomain) VIR_ERROR(_("finish step ignored that migration was 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 * * If useParams is true, params and nparams contain migration parameters and * we know it's safe to call the API which supports extensible parameters. * Otherwise, we have to use xmlin, dname, uri, and bandwidth and pass them * to the old-style APIs. */ static virDomainPtr virDomainMigrateVersion3Full(virDomainPtr domain, virConnectPtr dconn, const char *xmlin, const char *dname, const char *uri, unsigned long long bandwidth, virTypedParameterPtr params, int nparams, bool useParams, unsigned int flags) { 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; unsigned int destflags; int state; virTypedParameterPtr tmp; VIR_DOMAIN_DEBUG(domain, "dconn=%p, xmlin=%s, dname=%s, uri=%s, bandwidth=%llu, " "params=%p, nparams=%d, useParams=%d, flags=%x", dconn, NULLSTR(xmlin), NULLSTR(dname), NULLSTR(uri), bandwidth, params, nparams, useParams, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); if ((!useParams && (!domain->conn->driver->domainMigrateBegin3 || !domain->conn->driver->domainMigratePerform3 || !domain->conn->driver->domainMigrateConfirm3 || !dconn->driver->domainMigratePrepare3 || !dconn->driver->domainMigrateFinish3)) || (useParams && (!domain->conn->driver->domainMigrateBegin3Params || !domain->conn->driver->domainMigratePerform3Params || !domain->conn->driver->domainMigrateConfirm3Params || !dconn->driver->domainMigratePrepare3Params || !dconn->driver->domainMigrateFinish3Params))) { virReportUnsupportedError(); return NULL; } if (virTypedParamsCopy(&tmp, params, nparams) < 0) return NULL; params = tmp; 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); if (useParams) { dom_xml = domain->conn->driver->domainMigrateBegin3Params (domain, params, nparams, &cookieout, &cookieoutlen, flags | protection); } else { dom_xml = domain->conn->driver->domainMigrateBegin3 (domain, xmlin, &cookieout, &cookieoutlen, flags | protection, dname, bandwidth); } if (!dom_xml) goto done; if (useParams) { /* If source is new enough to support extensible migration parameters, * it's certainly new enough to support virDomainGetState. */ ret = virDomainGetState(domain, &state, NULL, 0); } else { ret = virDomainGetInfo(domain, &info); state = info.state; } if (ret == 0 && state == VIR_DOMAIN_PAUSED) flags |= VIR_MIGRATE_PAUSED; destflags = flags & ~(VIR_MIGRATE_ABORT_ON_ERROR | VIR_MIGRATE_AUTO_CONVERGE); VIR_DEBUG("Prepare3 %p flags=%x", dconn, destflags); cookiein = cookieout; cookieinlen = cookieoutlen; cookieout = NULL; cookieoutlen = 0; if (useParams) { if (virTypedParamsReplaceString(¶ms, &nparams, VIR_MIGRATE_PARAM_DEST_XML, dom_xml) < 0) goto done; ret = dconn->driver->domainMigratePrepare3Params (dconn, params, nparams, cookiein, cookieinlen, &cookieout, &cookieoutlen, &uri_out, destflags); } else { ret = dconn->driver->domainMigratePrepare3 (dconn, cookiein, cookieinlen, &cookieout, &cookieoutlen, uri, &uri_out, destflags, dname, bandwidth, 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; } } /* Did domainMigratePrepare3 change URI? */ if (uri_out) { uri = uri_out; if (useParams && virTypedParamsReplaceString(¶ms, &nparams, VIR_MIGRATE_PARAM_URI, uri_out) < 0) { cancelled = 1; orig_err = virSaveLastError(); goto finish; } } else if (!uri && virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_URI, &uri) <= 0) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", _("domainMigratePrepare3 did not set uri")); cancelled = 1; orig_err = virSaveLastError(); goto finish; } if (flags & VIR_MIGRATE_OFFLINE) { VIR_DEBUG("Offline migration, skipping Perform phase"); VIR_FREE(cookieout); cookieoutlen = 0; cancelled = 0; goto finish; } /* 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 */ if (useParams) { ret = domain->conn->driver->domainMigratePerform3Params (domain, NULL, params, nparams, cookiein, cookieinlen, &cookieout, &cookieoutlen, flags | protection); } else { 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; if (useParams) { if (virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_DEST_NAME, NULL) <= 0 && virTypedParamsReplaceString(¶ms, &nparams, VIR_MIGRATE_PARAM_DEST_NAME, domain->name) < 0) { ddomain = NULL; } else { ddomain = dconn->driver->domainMigrateFinish3Params (dconn, params, nparams, cookiein, cookieinlen, &cookieout, &cookieoutlen, destflags, cancelled); } } else { dname = dname ? dname : domain->name; ddomain = dconn->driver->domainMigrateFinish3 (dconn, dname, cookiein, cookieinlen, &cookieout, &cookieoutlen, NULL, uri, destflags, cancelled); } if (cancelled) { if (ddomain) { VIR_ERROR(_("finish step ignored that migration was cancelled")); } else { /* If Finish reported a useful error, use it instead of the * original "migration unexpectedly failed" error. * * This is ugly but we can't do better with the APIs we have. We * only replace the error if Finish was called with cancelled == 1 * and reported a real error (old libvirt would report an error * from RPC instead of MIGRATE_FINISH_OK), which only happens when * the domain died on destination. To further reduce a possibility * of false positives we also check that Perform returned * VIR_ERR_OPERATION_FAILED. */ if (orig_err && orig_err->domain == VIR_FROM_QEMU && orig_err->code == VIR_ERR_OPERATION_FAILED) { virErrorPtr err = virGetLastError(); if (err && err->domain == VIR_FROM_QEMU && err->code != VIR_ERR_MIGRATE_FINISH_OK) { virFreeError(orig_err); orig_err = NULL; } } } } /* 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; if (useParams) { ret = domain->conn->driver->domainMigrateConfirm3Params (domain, params, nparams, cookiein, cookieinlen, flags | protection, cancelled); } else { 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(dom_xml); VIR_FREE(uri_out); VIR_FREE(cookiein); VIR_FREE(cookieout); virTypedParamsFree(params, nparams); return ddomain; } static virDomainPtr virDomainMigrateVersion3(virDomainPtr domain, virConnectPtr dconn, const char *xmlin, unsigned long flags, const char *dname, const char *uri, unsigned long bandwidth) { return virDomainMigrateVersion3Full(domain, dconn, xmlin, dname, uri, bandwidth, NULL, 0, false, flags); } static virDomainPtr virDomainMigrateVersion3Params(virDomainPtr domain, virConnectPtr dconn, virTypedParameterPtr params, int nparams, unsigned int flags) { return virDomainMigrateVersion3Full(domain, dconn, NULL, NULL, NULL, 0, params, nparams, true, flags); } static int virDomainMigrateCheckNotLocal(const char *dconnuri) { virURIPtr tempuri = NULL; int ret = -1; if (!(tempuri = virURIParse(dconnuri))) goto cleanup; if (!tempuri->server || STRPREFIX(tempuri->server, "localhost")) { virReportInvalidArg(dconnuri, "%s", _("Attempt to migrate guest to the same host")); goto cleanup; } ret = 0; cleanup: virURIFree(tempuri); return ret; } static int virDomainMigrateUnmanagedProto2(virDomainPtr domain, const char *dconnuri, virTypedParameterPtr params, int nparams, unsigned int flags) { /* uri parameter is added for direct case */ const char *compatParams[] = { VIR_MIGRATE_PARAM_DEST_NAME, VIR_MIGRATE_PARAM_BANDWIDTH, VIR_MIGRATE_PARAM_URI }; const char *uri = NULL; const char *miguri = NULL; const char *dname = NULL; unsigned long long bandwidth = 0; if (!virTypedParamsCheck(params, nparams, compatParams, ARRAY_CARDINALITY(compatParams))) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("Some parameters are not supported by migration " "protocol 2")); return -1; } if (virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_URI, &miguri) < 0 || virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_DEST_NAME, &dname) < 0 || virTypedParamsGetULLong(params, nparams, VIR_MIGRATE_PARAM_BANDWIDTH, &bandwidth) < 0) { return -1; } if (flags & VIR_MIGRATE_PEER2PEER) { if (miguri) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", _("Unable to override peer2peer migration URI")); return -1; } uri = dconnuri; } else { uri = miguri; } return domain->conn->driver->domainMigratePerform (domain, NULL, 0, uri, flags, dname, bandwidth); } static int virDomainMigrateUnmanagedProto3(virDomainPtr domain, const char *dconnuri, virTypedParameterPtr params, int nparams, unsigned int flags) { const char *compatParams[] = { VIR_MIGRATE_PARAM_URI, VIR_MIGRATE_PARAM_DEST_NAME, VIR_MIGRATE_PARAM_DEST_XML, VIR_MIGRATE_PARAM_BANDWIDTH }; const char *miguri = NULL; const char *dname = NULL; const char *xmlin = NULL; unsigned long long bandwidth = 0; if (!virTypedParamsCheck(params, nparams, compatParams, ARRAY_CARDINALITY(compatParams))) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("Some parameters are not supported by migration " "protocol 3")); return -1; } if (virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_URI, &miguri) < 0 || virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_DEST_NAME, &dname) < 0 || virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_DEST_XML, &xmlin) < 0 || virTypedParamsGetULLong(params, nparams, VIR_MIGRATE_PARAM_BANDWIDTH, &bandwidth) < 0) { return -1; } return domain->conn->driver->domainMigratePerform3 (domain, xmlin, NULL, 0, NULL, NULL, dconnuri, miguri, flags, dname, bandwidth); } /* * In normal migration, the libvirt client co-ordinates communication * between the 2 libvirtd instances on source & dest hosts. * * This function encapsulates 2 alternatives to the above case. * * 1. peer-2-peer migration, 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. * * 2. direct migration, where there is no requirement for a libvirtd instance * on the dest host. Eg, XenD can talk direct to XenD, so libvirtd on dest * does not need to be involved at all, or even running. */ static int virDomainMigrateUnmanagedParams(virDomainPtr domain, const char *dconnuri, virTypedParameterPtr params, int nparams, unsigned int flags) { VIR_DOMAIN_DEBUG(domain, "dconnuri=%s, params=%p, nparams=%d, flags=%x", NULLSTR(dconnuri), params, nparams, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); if ((flags & VIR_MIGRATE_PEER2PEER) && virDomainMigrateCheckNotLocal(dconnuri) < 0) return -1; if ((flags & VIR_MIGRATE_PEER2PEER) && VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_PARAMS)) { VIR_DEBUG("Using migration protocol 3 with extensible parameters"); if (!domain->conn->driver->domainMigratePerform3Params) { virReportUnsupportedError(); return -1; } return domain->conn->driver->domainMigratePerform3Params (domain, dconnuri, params, nparams, NULL, 0, NULL, NULL, flags); } else if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_V3)) { VIR_DEBUG("Using migration protocol 3"); if (!domain->conn->driver->domainMigratePerform3) { virReportUnsupportedError(); return -1; } return virDomainMigrateUnmanagedProto3(domain, dconnuri, params, nparams, flags); } else { VIR_DEBUG("Using migration protocol 2"); if (!domain->conn->driver->domainMigratePerform) { virReportUnsupportedError(); return -1; } return virDomainMigrateUnmanagedProto2(domain, dconnuri, params, nparams, flags); } } static int virDomainMigrateUnmanaged(virDomainPtr domain, const char *xmlin, unsigned int flags, const char *dname, const char *dconnuri, const char *miguri, unsigned long long bandwidth) { int ret = -1; virTypedParameterPtr params = NULL; int nparams = 0; int maxparams = 0; if (miguri && virTypedParamsAddString(¶ms, &nparams, &maxparams, VIR_MIGRATE_PARAM_URI, miguri) < 0) goto cleanup; if (dname && virTypedParamsAddString(¶ms, &nparams, &maxparams, VIR_MIGRATE_PARAM_DEST_NAME, dname) < 0) goto cleanup; if (xmlin && virTypedParamsAddString(¶ms, &nparams, &maxparams, VIR_MIGRATE_PARAM_DEST_XML, xmlin) < 0) goto cleanup; if (virTypedParamsAddULLong(¶ms, &nparams, &maxparams, VIR_MIGRATE_PARAM_BANDWIDTH, bandwidth) < 0) goto cleanup; ret = virDomainMigrateUnmanagedParams(domain, dconnuri, params, nparams, flags); cleanup: virTypedParamsFree(params, nparams); return ret; } /** * 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 MiB/s * * Migrate the domain object from its current host to the destination * host given by dconn (a connection to the destination host). * * This function is similar to virDomainMigrate3, but it only supports a fixed * set of parameters: @dname corresponds to VIR_MIGRATE_PARAM_DEST_NAME, @uri * is VIR_MIGRATE_PARAM_URI, and @bandwidth is VIR_MIGRATE_PARAM_BANDWIDTH. * * virDomainFree should be used to free the resources after the * returned domain object is no longer needed. * * 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 */ virCheckDomainReturn(domain, NULL); virCheckReadOnlyGoto(domain->conn->flags, error); /* Now checkout the destination */ virCheckConnectGoto(dconn, error); virCheckReadOnlyGoto(dconn->flags, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_MIGRATE_NON_SHARED_DISK, VIR_MIGRATE_NON_SHARED_INC, error); if (flags & VIR_MIGRATE_OFFLINE) { if (!VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_OFFLINE)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("offline migration is not supported by " "the source host")); goto error; } if (!VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn, VIR_DRV_FEATURE_MIGRATION_OFFLINE)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("offline migration is not supported by " "the destination host")); 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 (virDomainMigrateUnmanaged(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 */ virReportUnsupportedError(); 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)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("cannot enforce change protection")); goto error; } flags &= ~VIR_MIGRATE_CHANGE_PROTECTION; if (flags & VIR_MIGRATE_TUNNELLED) { virReportError(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 */ virReportUnsupportedError(); 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 MiB/s * * Migrate the domain object from its current host to the destination * host given by dconn (a connection to the destination host). * * This function is similar to virDomainMigrate3, but it only supports a fixed * set of parameters: @dxml corresponds to VIR_MIGRATE_PARAM_DEST_XML, @dname * is VIR_MIGRATE_PARAM_DEST_NAME, @uri is VIR_MIGRATE_PARAM_URI, and * @bandwidth is VIR_MIGRATE_PARAM_BANDWIDTH. * * virDomainFree should be used to free the resources after the * returned domain object is no longer needed. * * 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 */ virCheckDomainReturn(domain, NULL); virCheckReadOnlyGoto(domain->conn->flags, error); /* Now checkout the destination */ virCheckConnectGoto(dconn, error); virCheckReadOnlyGoto(dconn->flags, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_MIGRATE_NON_SHARED_DISK, VIR_MIGRATE_NON_SHARED_INC, error); if (flags & VIR_MIGRATE_OFFLINE) { if (!VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_OFFLINE)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("offline migration is not supported by " "the source host")); goto error; } if (!VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn, VIR_DRV_FEATURE_MIGRATION_OFFLINE)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("offline migration is not supported by " "the destination host")); 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 (virDomainMigrateUnmanaged(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 */ virReportUnsupportedError(); 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)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("cannot enforce change protection")); goto error; } flags &= ~VIR_MIGRATE_CHANGE_PROTECTION; if (flags & VIR_MIGRATE_TUNNELLED) { virReportError(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) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%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) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%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 */ virReportUnsupportedError(); goto error; } } if (ddomain == NULL) goto error; return ddomain; error: virDispatchError(domain->conn); return NULL; } /** * virDomainMigrate3: * @domain: a domain object * @dconn: destination host (a connection object) * @params: (optional) migration parameters * @nparams: (optional) number of migration parameters in @params * @flags: bitwise-OR of virDomainMigrateFlags * * Migrate the domain object from its current host to the destination host * given by dconn (a connection to the destination host). * * See VIR_MIGRATE_PARAM_* and virDomainMigrateFlags for detailed description * of accepted migration parameters and flags. * * See virDomainMigrateFlags documentation for description of individual flags. * * VIR_MIGRATE_TUNNELLED and VIR_MIGRATE_PEER2PEER are not supported by this * API, use virDomainMigrateToURI3 instead. * * 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. * * virDomainFree should be used to free the resources after the * returned domain object is no longer needed. * * 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 virDomainMigrate3(virDomainPtr domain, virConnectPtr dconn, virTypedParameterPtr params, unsigned int nparams, unsigned int flags) { virDomainPtr ddomain = NULL; const char *compatParams[] = { VIR_MIGRATE_PARAM_URI, VIR_MIGRATE_PARAM_DEST_NAME, VIR_MIGRATE_PARAM_DEST_XML, VIR_MIGRATE_PARAM_BANDWIDTH }; const char *uri = NULL; const char *dname = NULL; const char *dxml = NULL; unsigned long long bandwidth = 0; VIR_DOMAIN_DEBUG(domain, "dconn=%p, params=%p, nparms=%u flags=%x", dconn, params, nparams, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); /* First checkout the source */ virCheckDomainReturn(domain, NULL); virCheckReadOnlyGoto(domain->conn->flags, error); /* Now checkout the destination */ virCheckReadOnlyGoto(dconn->flags, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_MIGRATE_NON_SHARED_DISK, VIR_MIGRATE_NON_SHARED_INC, error); if (flags & VIR_MIGRATE_PEER2PEER) { virReportInvalidArg(flags, "%s", _("use virDomainMigrateToURI3 for peer-to-peer " "migration")); goto error; } if (flags & VIR_MIGRATE_TUNNELLED) { virReportInvalidArg(flags, "%s", _("cannot perform tunnelled migration " "without using peer2peer flag")); goto error; } if (flags & VIR_MIGRATE_OFFLINE) { if (!VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_OFFLINE)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("offline migration is not supported by " "the source host")); goto error; } if (!VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn, VIR_DRV_FEATURE_MIGRATION_OFFLINE)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("offline migration is not supported by " "the destination host")); goto error; } } /* 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 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)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("cannot enforce change protection")); goto error; } flags &= ~VIR_MIGRATE_CHANGE_PROTECTION; /* Prefer extensible API but fall back to older migration APIs if params * only contains parameters which were supported by the older API. */ if (VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_PARAMS) && VIR_DRV_SUPPORTS_FEATURE(dconn->driver, dconn, VIR_DRV_FEATURE_MIGRATION_PARAMS)) { VIR_DEBUG("Using migration protocol 3 with extensible parameters"); ddomain = virDomainMigrateVersion3Params(domain, dconn, params, nparams, flags); goto done; } if (!virTypedParamsCheck(params, nparams, compatParams, ARRAY_CARDINALITY(compatParams))) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("Migration APIs with extensible parameters are not " "supported but extended parameters were passed")); goto error; } if (virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_URI, &uri) < 0 || virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_DEST_NAME, &dname) < 0 || virTypedParamsGetString(params, nparams, VIR_MIGRATE_PARAM_DEST_XML, &dxml) < 0 || virTypedParamsGetULLong(params, nparams, VIR_MIGRATE_PARAM_BANDWIDTH, &bandwidth) < 0) { goto error; } 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) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%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) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%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 */ virReportUnsupportedError(); goto error; } done: if (ddomain == NULL) goto error; return ddomain; error: virDispatchError(domain->conn); return NULL; } static int virDomainMigrateUnmanagedCheckCompat(virDomainPtr domain, unsigned int flags) { VIR_EXCLUSIVE_FLAGS_RET(VIR_MIGRATE_NON_SHARED_DISK, VIR_MIGRATE_NON_SHARED_INC, -1); if (flags & VIR_MIGRATE_OFFLINE && !VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_OFFLINE)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("offline migration is not supported by " "the source host")); return -1; } if (flags & VIR_MIGRATE_PEER2PEER) { if (!VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_P2P)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("p2p migration is not supported by " "the source host")); return -1; } } else { if (!VIR_DRV_SUPPORTS_FEATURE(domain->conn->driver, domain->conn, VIR_DRV_FEATURE_MIGRATION_DIRECT)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("direct migration is not supported by " "the source host")); return -1; } } return 0; } /** * 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 MiB/s * * Migrate the domain object from its current host to the destination * host given by duri. * * This function is similar to virDomainMigrateToURI3, but it only supports a * fixed set of parameters: @dname corresponds to VIR_MIGRATE_PARAM_DEST_NAME, * and @bandwidth corresponds to VIR_MIGRATE_PARAM_BANDWIDTH. * * The operation of this API hinges on the VIR_MIGRATE_PEER2PEER flag. * * 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. In other words, @duri corresponds to @dconnuri * of virDomainMigrateToURI3. * * If the VIR_MIGRATE_PEER2PEER flag is NOT set, the @duri parameter takes a * hypervisor specific URI used to initiate the migration. In this case @duri * corresponds to VIR_MIGRATE_PARAM_URI of virDomainMigrateToURI3. * * 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) { const char *dconnuri = NULL; const char *miguri = NULL; VIR_DOMAIN_DEBUG(domain, "duri=%p, flags=%lx, dname=%s, bandwidth=%lu", NULLSTR(duri), flags, NULLSTR(dname), bandwidth); virResetLastError(); /* First checkout the source */ virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); virCheckNonNullArgGoto(duri, error); if (virDomainMigrateUnmanagedCheckCompat(domain, flags) < 0) goto error; if (flags & VIR_MIGRATE_PEER2PEER) dconnuri = duri; else miguri = duri; if (virDomainMigrateUnmanaged(domain, NULL, flags, dname, dconnuri, miguri, bandwidth) < 0) 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 MiB/s * * Migrate the domain object from its current host to the destination * host given by @dconnuri. * * This function is similar to virDomainMigrateToURI3, but it only supports a * fixed set of parameters: @miguri corresponds to VIR_MIGRATE_PARAM_URI, @dxml * is VIR_MIGRATE_PARAM_DEST_XML, @dname is VIR_MIGRATE_PARAM_DEST_NAME, and * @bandwidth corresponds to VIR_MIGRATE_PARAM_BANDWIDTH. * * 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. In other words, @dconnuri has the same semantics * as in virDomainMigrateToURI3. * * If the VIR_MIGRATE_PEER2PEER flag is NOT set, the @dconnuri must be NULL * and the @miguri parameter takes a hypervisor specific URI used to initiate * the migration. In this case @miguri corresponds to VIR_MIGRATE_PARAM_URI of * virDomainMigrateToURI3. * * 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 */ virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); if (virDomainMigrateUnmanagedCheckCompat(domain, flags) < 0) goto error; if (flags & VIR_MIGRATE_PEER2PEER) virCheckNonNullArgGoto(dconnuri, error); else dconnuri = NULL; if (virDomainMigrateUnmanaged(domain, dxml, flags, dname, dconnuri, miguri, bandwidth) < 0) goto error; return 0; error: virDispatchError(domain->conn); return -1; } /** * virDomainMigrateToURI3: * @domain: a domain object * @dconnuri: (optional) URI for target libvirtd if @flags includes VIR_MIGRATE_PEER2PEER * @params: (optional) migration parameters * @nparams: (optional) number of migration parameters in @params * @flags: bitwise-OR of virDomainMigrateFlags * * Migrate the domain object from its current host to the destination host * given by URI. * * See VIR_MIGRATE_PARAM_* and virDomainMigrateFlags for detailed description * of accepted migration parameters and flags. * * 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 daemon can connect * to the destination libvirt. * * If the VIR_MIGRATE_PEER2PEER flag is NOT set, then @dconnuri must be NULL * and VIR_MIGRATE_PARAM_URI migration parameter must be filled in with * hypervisor specific URI used to initiate the migration. The uri_transports * element of the hypervisor capabilities XML includes supported URI schemes. * This is called "direct" migration. Not all hypervisors support this mode of * migration, so if the VIR_MIGRATE_PEER2PEER flag is not set, then it may be * necessary to use the alternative virDomainMigrate3 API providing an explicit * virConnectPtr for the destination host. * * 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 virDomainMigrateToURI3(virDomainPtr domain, const char *dconnuri, virTypedParameterPtr params, unsigned int nparams, unsigned int flags) { VIR_DOMAIN_DEBUG(domain, "dconnuri=%s, params=%p, nparms=%u flags=%x", NULLSTR(dconnuri), params, nparams, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); /* First checkout the source */ virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); if (virDomainMigrateUnmanagedCheckCompat(domain, flags) < 0) goto error; if (flags & VIR_MIGRATE_PEER2PEER) virCheckNonNullArgGoto(dconnuri, error); else dconnuri = NULL; if (virDomainMigrateUnmanagedParams(domain, dconnuri, params, nparams, flags) < 0) 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(); virCheckConnectReturn(dconn, -1); virCheckReadOnlyGoto(dconn->flags, 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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, 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; } virReportUnsupportedError(); 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, NULLSTR(uri), flags); virResetLastError(); virCheckConnectReturn(dconn, NULL); virCheckReadOnlyGoto(dconn->flags, error); if (dconn->driver->domainMigrateFinish) { virDomainPtr ret; ret = dconn->driver->domainMigrateFinish(dconn, dname, cookie, cookielen, uri, flags); if (!ret) goto error; return ret; } virReportUnsupportedError(); 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, NULLSTR(uri_in), uri_out, flags, NULLSTR(dname), bandwidth, NULLSTR(dom_xml)); virResetLastError(); virCheckConnectReturn(dconn, -1); virCheckReadOnlyGoto(dconn->flags, 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; } virReportUnsupportedError(); 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, NULLSTR(uri), flags, retcode); virResetLastError(); virCheckConnectReturn(dconn, NULL); virCheckReadOnlyGoto(dconn->flags, error); if (dconn->driver->domainMigrateFinish2) { virDomainPtr ret; ret = dconn->driver->domainMigrateFinish2(dconn, dname, cookie, cookielen, uri, flags, retcode); if (!ret && !retcode) goto error; return ret; } virReportUnsupportedError(); 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, NULLSTR(dom_xml)); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckReadOnlyGoto(conn->flags, error); if (conn != st->conn) { virReportInvalidArg(conn, "%s", _("conn must match stream connection")); 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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, NULL); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, 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; } virReportUnsupportedError(); 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, NULLSTR(uri_in), uri_out, flags, NULLSTR(dname), bandwidth, NULLSTR(dom_xml)); virResetLastError(); virCheckConnectReturn(dconn, -1); virCheckReadOnlyGoto(dconn->flags, 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; } virReportUnsupportedError(); 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, NULLSTR(dom_xml)); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckReadOnlyGoto(conn->flags, error); if (conn != st->conn) { virReportInvalidArg(conn, "%s", _("conn must match stream connection")); 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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, 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; } virReportUnsupportedError(); 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(); virCheckConnectReturn(dconn, NULL); virCheckReadOnlyGoto(dconn->flags, error); if (dconn->driver->domainMigrateFinish3) { virDomainPtr ret; ret = dconn->driver->domainMigrateFinish3(dconn, dname, cookiein, cookieinlen, cookieout, cookieoutlen, dconnuri, uri, flags, cancelled); if (!ret && !cancelled) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigrateConfirm3) { int ret; ret = conn->driver->domainMigrateConfirm3(domain, cookiein, cookieinlen, flags, cancelled); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /* * Not for public use. This function is part of the internal * implementation of migration in the remote case. */ char * virDomainMigrateBegin3Params(virDomainPtr domain, virTypedParameterPtr params, int nparams, char **cookieout, int *cookieoutlen, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, " "cookieout=%p, cookieoutlen=%p, flags=%x", params, nparams, cookieout, cookieoutlen, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, NULL); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigrateBegin3Params) { char *xml; xml = conn->driver->domainMigrateBegin3Params(domain, params, nparams, cookieout, cookieoutlen, flags); VIR_DEBUG("xml %s", NULLSTR(xml)); if (!xml) goto error; return xml; } virReportUnsupportedError(); 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 virDomainMigratePrepare3Params(virConnectPtr dconn, virTypedParameterPtr params, int nparams, const char *cookiein, int cookieinlen, char **cookieout, int *cookieoutlen, char **uri_out, unsigned int flags) { VIR_DEBUG("dconn=%p, params=%p, nparams=%d, cookiein=%p, cookieinlen=%d, " "cookieout=%p, cookieoutlen=%p, uri_out=%p, flags=%x", dconn, params, nparams, cookiein, cookieinlen, cookieout, cookieoutlen, uri_out, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckConnectReturn(dconn, -1); virCheckReadOnlyGoto(dconn->flags, error); if (dconn->driver->domainMigratePrepare3Params) { int ret; ret = dconn->driver->domainMigratePrepare3Params(dconn, params, nparams, cookiein, cookieinlen, cookieout, cookieoutlen, uri_out, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dconn); return -1; } /* * Not for public use. This function is part of the internal * implementation of migration in the remote case. */ int virDomainMigratePrepareTunnel3Params(virConnectPtr conn, virStreamPtr st, virTypedParameterPtr params, int nparams, const char *cookiein, int cookieinlen, char **cookieout, int *cookieoutlen, unsigned int flags) { VIR_DEBUG("conn=%p, stream=%p, params=%p, nparams=%d, cookiein=%p, " "cookieinlen=%d, cookieout=%p, cookieoutlen=%p, flags=%x", conn, st, params, nparams, cookiein, cookieinlen, cookieout, cookieoutlen, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckReadOnlyGoto(conn->flags, error); if (conn != st->conn) { virReportInvalidArg(conn, "%s", _("conn must match stream connection")); goto error; } if (conn->driver->domainMigratePrepareTunnel3Params) { int rv; rv = conn->driver->domainMigratePrepareTunnel3Params( conn, st, params, nparams, cookiein, cookieinlen, cookieout, cookieoutlen, flags); if (rv < 0) goto error; return rv; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /* * Not for public use. This function is part of the internal * implementation of migration in the remote case. */ int virDomainMigratePerform3Params(virDomainPtr domain, const char *dconnuri, virTypedParameterPtr params, int nparams, const char *cookiein, int cookieinlen, char **cookieout, int *cookieoutlen, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "dconnuri=%s, params=%p, nparams=%d, cookiein=%p, " "cookieinlen=%d, cookieout=%p, cookieoutlen=%p, flags=%x", NULLSTR(dconnuri), params, nparams, cookiein, cookieinlen, cookieout, cookieoutlen, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigratePerform3Params) { int ret; ret = conn->driver->domainMigratePerform3Params( domain, dconnuri, params, nparams, cookiein, cookieinlen, cookieout, cookieoutlen, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 virDomainMigrateFinish3Params(virConnectPtr dconn, virTypedParameterPtr params, int nparams, const char *cookiein, int cookieinlen, char **cookieout, int *cookieoutlen, unsigned int flags, int cancelled) { VIR_DEBUG("dconn=%p, params=%p, nparams=%d, cookiein=%p, cookieinlen=%d, " "cookieout=%p, cookieoutlen=%p, flags=%x, cancelled=%d", dconn, params, nparams, cookiein, cookieinlen, cookieout, cookieoutlen, flags, cancelled); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckConnectReturn(dconn, NULL); virCheckReadOnlyGoto(dconn->flags, error); if (dconn->driver->domainMigrateFinish3Params) { virDomainPtr ret; ret = dconn->driver->domainMigrateFinish3Params( dconn, params, nparams, cookiein, cookieinlen, cookieout, cookieoutlen, flags, cancelled); if (!ret && !cancelled) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dconn); return NULL; } /* * Not for public use. This function is part of the internal * implementation of migration in the remote case. */ int virDomainMigrateConfirm3Params(virDomainPtr domain, virTypedParameterPtr params, int nparams, const char *cookiein, int cookieinlen, unsigned int flags, int cancelled) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d, cookiein=%p, " "cookieinlen=%d, flags=%x, cancelled=%d", params, nparams, cookiein, cookieinlen, flags, cancelled); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigrateConfirm3Params) { int ret; ret = conn->driver->domainMigrateConfirm3Params( domain, params, nparams, cookiein, cookieinlen, flags, cancelled); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->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(); virCheckDomainReturn(domain, NULL); conn = domain->conn; if (conn->driver->domainGetSchedulerType) { schedtype = conn->driver->domainGetSchedulerType(domain, nparams); if (!schedtype) goto error; return schedtype; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, 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; } virReportUnsupportedError(); 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); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(params, error); virCheckNonNegativeArgGoto(nparams, error); if (virTypedParameterValidateSet(conn, params, nparams) < 0) goto error; if (conn->driver->domainSetSchedulerParameters) { int ret; ret = conn->driver->domainSetSchedulerParameters(domain, params, nparams); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(params, error); virCheckNonNegativeArgGoto(nparams, error); if (virTypedParameterValidateSet(conn, params, nparams) < 0) goto error; if (conn->driver->domainSetSchedulerParametersFlags) { int ret; ret = conn->driver->domainSetSchedulerParametersFlags(domain, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 * sub-element, such as "vda"), or (since 0.9.8) * an unambiguous source name of the block device (the sub-element, such as "/path/to/image"). Valid names * can be found by calling virDomainGetXMLDesc() and inspecting * elements within //domain/devices/disk. Some drivers might also * accept the empty string for the @disk parameter, and then yield * summary stats for the entire domain. * * 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; virDomainBlockStatsStruct stats2 = { -1, -1, -1, -1, -1 }; VIR_DOMAIN_DEBUG(dom, "disk=%s, stats=%p, size=%zi", disk, stats, size); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckNonNullArgGoto(disk, error); virCheckNonNullArgGoto(stats, error); if (size > sizeof(stats2)) { virReportInvalidArg(size, _("size must not exceed %zu"), 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; } virReportUnsupportedError(); 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, allocated by the caller) * @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 * sub-element, such as "vda"), or (since 0.9.8) * an unambiguous source name of the block device (the sub-element, such as "/path/to/image"). Valid names * can be found by calling virDomainGetXMLDesc() and inspecting * elements within //domain/devices/disk. Some drivers might also * accept the empty string for the @disk parameter, and then yield * summary stats for the entire domain. * * 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(); virCheckDomainReturn(dom, -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; } virReportUnsupportedError(); 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; virDomainInterfaceStatsStruct stats2 = { -1, -1, -1, -1, -1, -1, -1, -1 }; VIR_DOMAIN_DEBUG(dom, "path=%s, stats=%p, size=%zi", path, stats, size); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckNonNullArgGoto(path, error); virCheckNonNullArgGoto(stats, error); if (size > sizeof(stats2)) { virReportInvalidArg(size, _("size must not exceed %zu"), 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; } virReportUnsupportedError(); 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); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(params, error); virCheckPositiveArgGoto(nparams, error); if (virTypedParameterValidateSet(conn, params, nparams) < 0) goto error; if (conn->driver->domainSetInterfaceParameters) { int ret; ret = conn->driver->domainSetInterfaceParameters(domain, device, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; } virReportUnsupportedError(); 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_USABLE: * How much the balloon can be inflated without pushing the guest system * to swap, corresponds to 'Available' in /proc/meminfo * VIR_DOMAIN_MEMORY_STAT_ACTUAL_BALLOON: * Current balloon value (in kb). * VIR_DOMAIN_MEMORY_STAT_LAST_UPDATE * Timestamp of the last statistic * * 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(); virCheckDomainReturn(dom, -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; } virReportUnsupportedError(); 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 sub-element, such as * "/path/to/image"), or (since 0.9.5) the device target shorthand * (the sub-element, such as "vda"). 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. * Starting with version 1.0.6 the RPC limit has been raised again. * Now large requests up to 16M byte are supported. * * 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonEmptyStringArgGoto(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; } virReportUnsupportedError(); 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 sub-element, such as * "/path/to/image"), or (since 0.9.5) the device target shorthand * (the sub-element, such as "vda"). 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, 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; } virReportUnsupportedError(); 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. * Starting with version 1.0.6 the RPC limit has been raised again. * Now large requests up to 16M byte are supported. * * 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, 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. */ VIR_EXCLUSIVE_FLAGS_GOTO(VIR_MEMORY_VIRTUAL, VIR_MEMORY_PHYSICAL, 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; } virReportUnsupportedError(); 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 sub-element, such as * "/path/to/image"), or (since 0.9.5) the device target shorthand * (the sub-element, such as "vda"). Valid names * can be found by calling virDomainGetXMLDesc() and inspecting * elements within //domain/devices/disk. * * For QEMU domains, the allocation and physical virDomainBlockInfo * values returned will generally be the same, except when using a * non raw, block backing device, such as qcow2 for an active domain. * When the persistent domain is not active, QEMU will return the * default which is the same value for allocation and physical. * * Active QEMU domains can return an allocation value which is more * representative of the currently used blocks by the device compared * to the physical size of the device. Applications can use/monitor * the allocation value with the understanding that if the domain * becomes inactive during an attempt to get the value, the default * values will be returned. Thus, the application should check * after the call for the domain being inactive if the values are * the same. Optionally, the application could be watching for a * shutdown event and then ignore any values received afterwards. * This can be an issue when a domain is being migrated and the * exact timing of the domain being made inactive and check of * the allocation value results the default being returned. For * a transient domain in the similar situation, this call will return * -1 and an error message indicating the "domain is not running". * * The following is some pseudo code illustrating the call sequence: * * ... * virDomainPtr dom; * virDomainBlockInfo info; * char *device; * ... * // Either get a list of all domains or a specific domain * // via a virDomainLookupBy*() call. * // * // It's also required to fill in the device pointer, but that's * // specific to the implementation. For the purposes of this example * // a qcow2 backed device name string would need to be provided. * ... * // If the following call is made on a persistent domain with a * // qcow2 block backed block device, then it's possible the returned * // allocation equals the physical value. In that case, the domain * // that may have been active prior to calling has become inactive, * // such as is the case during a domain migration. Thus once we * // get data returned, check for active domain when the values are * // the same. * if (virDomainGetBlockInfo(dom, device, &info, 0) < 0) * goto failure; * if (info.allocation == info.physical) { * // If the domain is no longer active, * // then the defaults are being returned. * if (!virDomainIsActive()) * goto ignore_return; * } * // Do something with the allocation and physical values * ... * * 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 (info) memset(info, 0, sizeof(*info)); virCheckDomainReturn(domain, -1); virCheckNonEmptyStringArgGoto(disk, error); virCheckNonNullArgGoto(info, error); conn = domain->conn; if (conn->driver->domainGetBlockInfo) { int ret; ret = conn->driver->domainGetBlockInfo(domain, disk, info, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * 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 * overridden 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. * * virDomainFree should be used to free the resources after the * domain object is no longer needed. * * 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, NULLSTR(xml)); virResetLastError(); virCheckConnectReturn(conn, NULL); virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(xml, error); if (conn->driver->domainDefineXML) { virDomainPtr ret; ret = conn->driver->domainDefineXML(conn, xml); if (!ret) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(conn); return NULL; } /** * virDomainDefineXMLFlags: * @conn: pointer to the hypervisor connection * @xml: the XML description for the domain, preferably in UTF-8 * @flags: bitwise OR of the virDomainDefineFlags constants * * Defines a domain, but does not start it. * This definition is persistent, until explicitly undefined with * virDomainUndefine(). A previous definition for this domain would be * overridden 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. * * virDomainFree should be used to free the resources after the * domain object is no longer needed. * * Returns NULL in case of error, a pointer to the domain otherwise */ virDomainPtr virDomainDefineXMLFlags(virConnectPtr conn, const char *xml, unsigned int flags) { VIR_DEBUG("conn=%p, xml=%s flags=%x", conn, NULLSTR(xml), flags); virResetLastError(); virCheckConnectReturn(conn, NULL); virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(xml, error); if (conn->driver->domainDefineXMLFlags) { virDomainPtr ret; ret = conn->driver->domainDefineXMLFlags(conn, xml, flags); if (!ret) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainUndefine) { int ret; ret = conn->driver->domainUndefine(domain); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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. * * If the domain has any nvram specified, then including * VIR_DOMAIN_UNDEFINE_NVRAM will also remove that file, and omitting the flag * will cause the undefine process to fail. * * 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainUndefineFlags) { int ret; ret = conn->driver->domainUndefineFlags(domain, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckConnectReturn(conn, -1); if (conn->driver->connectNumOfDefinedDomains) { int ret; ret = conn->driver->connectNumOfDefinedDomains(conn); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckConnectReturn(conn, -1); virCheckNonNullArgGoto(names, error); virCheckNonNegativeArgGoto(maxnames, error); if (conn->driver->connectListDefinedDomains) { int ret; ret = conn->driver->connectListDefinedDomains(conn, names, maxnames); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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. * * Example of usage: * * virDomainPtr *domains; * size_t i; * int ret; * unsigned int flags = VIR_CONNECT_LIST_DOMAINS_RUNNING | * VIR_CONNECT_LIST_DOMAINS_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); * * Returns the number of domains found or -1 and sets domains to NULL in case of * error. On success, the array stored into @domains 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 @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; virCheckConnectReturn(conn, -1); if (conn->driver->connectListAllDomains) { int ret; ret = conn->driver->connectListAllDomains(conn, domains, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainCreate) { int ret; ret = conn->driver->domainCreate(domain); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainCreateWithFlags) { int ret; ret = conn->driver->domainCreateWithFlags(domain, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainCreateWithFiles: * @domain: pointer to a defined domain * @nfiles: number of file descriptors passed * @files: list of file descriptors passed * @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. * * @files provides an array of file descriptors which will be * made available to the 'init' process of the guest. The file * handles exposed to the guest will be renumbered to start * from 3 (ie immediately following stderr). This is only * supported for guests which use container based virtualization * technology. * * 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 virDomainCreateWithFiles(virDomainPtr domain, unsigned int nfiles, int *files, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "nfiles=%u, files=%p, flags=%x", nfiles, files, flags); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainCreateWithFiles) { int ret; ret = conn->driver->domainCreateWithFiles(domain, nfiles, files, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainSetAutostart) { int ret; ret = conn->driver->domainSetAutostart(domain, autostart); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainInjectNMI) { int ret; ret = conn->driver->domainInjectNMI(domain, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(keycodes, error); virCheckPositiveArgGoto(nkeycodes, error); if (nkeycodes > VIR_DOMAIN_SEND_KEY_MAX_KEYS) { virReportInvalidArg(nkeycodes, _("nkeycodes must be <= %d"), VIR_DOMAIN_SEND_KEY_MAX_KEYS); goto error; } if (conn->driver->domainSendKey) { int ret; ret = conn->driver->domainSendKey(domain, codeset, holdtime, keycodes, nkeycodes, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainSendProcessSignal: * @domain: pointer to domain object * @pid_value: a positive integer process ID, or negative integer process group ID * @signum: a signal from the virDomainProcessSignal enum * @flags: currently unused, pass 0 * * Send a signal to the designated process in the guest * * The signal numbers must be taken from the virDomainProcessSignal * enum. These will be translated to the corresponding signal * number for the guest OS, by the guest agent delivering the * signal. If there is no mapping from virDomainProcessSignal to * the native OS signals, this API will report an error. * * If @pid_value is an integer greater than zero, it is * treated as a process ID. If @pid_value is an integer * less than zero, it is treated as a process group ID. * All the @pid_value numbers are from the container/guest * namespace. The value zero is not valid. * * Not all hypervisors will support sending signals to * arbitrary processes or process groups. If this API is * implemented the minimum requirement is to be able to * use @pid_value == 1 (i.e. kill init). No other value is * required to be supported. * * If the @signum is VIR_DOMAIN_PROCESS_SIGNAL_NOP then this * API will simply report whether the process is running in * the container/guest. * * Returns 0 in case of success, -1 in case of failure. */ int virDomainSendProcessSignal(virDomainPtr domain, long long pid_value, unsigned int signum, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "pid=%lld, signum=%u flags=%x", pid_value, signum, flags); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonZeroArgGoto(pid_value, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainSendProcessSignal) { int ret; ret = conn->driver->domainSendProcessSignal(domain, pid_value, signum, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 arbitrarily limited. * This function may require privileged access to the hypervisor. * * Note that if this call is executed before the guest has finished booting, * the guest may fail to process the change. * * 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonZeroArgGoto(nvcpus, error); if (conn->driver->domainSetVcpus) { int ret; ret = conn->driver->domainSetVcpus(domain, nvcpus); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 arbitrarily 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. * * Note that if this call is executed before the guest has finished booting, * the guest may fail to process the change. * * 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. * * If @flags includes VIR_DOMAIN_VCPU_GUEST, then the state of processors is * modified inside the guest instead of the hypervisor. This flag can only * be used with live guests and is incompatible with VIR_DOMAIN_VCPU_MAXIMUM. * The usage of this flag may require a guest agent configured. * * 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(); virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); VIR_REQUIRE_FLAG_GOTO(VIR_DOMAIN_VCPU_MAXIMUM, VIR_DOMAIN_AFFECT_CONFIG, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_VCPU_GUEST, VIR_DOMAIN_AFFECT_CONFIG, error); virCheckNonZeroArgGoto(nvcpus, error); conn = domain->conn; if (conn->driver->domainSetVcpusFlags) { int ret; ret = conn->driver->domainSetVcpusFlags(domain, nvcpus, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 count. * * If @flags includes VIR_DOMAIN_VCPU_GUEST, then the state of the processors * is queried in the guest instead of the hypervisor. This flag is only usable * on live domains. Guest agent may be needed for this flag to be available. * * Returns the number of vCPUs 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; if (flags & VIR_DOMAIN_VCPU_GUEST) virCheckReadOnlyGoto(conn->flags, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, error); if (conn->driver->domainGetVcpusFlags) { int ret; ret = conn->driver->domainGetVcpusFlags(domain, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(cpumap, error); virCheckPositiveArgGoto(maplen, error); if (conn->driver->domainPinVcpu) { int ret; ret = conn->driver->domainPinVcpu(domain, vcpu, cpumap, maplen); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(cpumap, error); virCheckPositiveArgGoto(maplen, error); if (conn->driver->domainPinVcpuFlags) { int ret; ret = conn->driver->domainPinVcpuFlags(domain, vcpu, cpumap, maplen, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(cpumaps, error); virCheckPositiveArgGoto(ncpumaps, error); virCheckPositiveArgGoto(maplen, error); if (INT_MULTIPLY_OVERFLOW(ncpumaps, maplen)) { virReportError(VIR_ERR_OVERFLOW, _("input too large: %d * %d"), ncpumaps, maplen); goto error; } VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, error); if (conn->driver->domainGetVcpuPinInfo) { int ret; ret = conn->driver->domainGetVcpuPinInfo(domain, ncpumaps, cpumaps, maplen, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(cpumap, error); virCheckPositiveArgGoto(maplen, error); if (conn->driver->domainPinEmulator) { int ret; ret = conn->driver->domainPinEmulator(domain, cpumap, maplen, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); virCheckNonNullArgGoto(cpumap, error); virCheckPositiveArgGoto(maplen, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, 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; } virReportUnsupportedError(); 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 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(); virCheckDomainReturn(domain, -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)) { virReportError(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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; if (conn->driver->domainGetMaxVcpus) { int ret; ret = conn->driver->domainGetMaxVcpus(domain); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainGetIOThreadInfo: * @dom: a domain object * @info: pointer to an array of virDomainIOThreadInfo structures (OUT) * @flags: bitwise-OR of virDomainModificationImpact * Must not be VIR_DOMAIN_AFFECT_LIVE and * VIR_DOMAIN_AFFECT_CONFIG concurrently. * * Fetch IOThreads of an active domain including the cpumap information to * determine on which CPU the IOThread has affinity to run. * * Returns the number of IOThreads or -1 in case of error. * On success, the array of information is stored into @info. The caller is * responsible for calling virDomainIOThreadInfoFree() on each array element, * then calling free() on @info. On error, @info is set to NULL. */ int virDomainGetIOThreadInfo(virDomainPtr dom, virDomainIOThreadInfoPtr **info, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "info=%p flags=%x", info, flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckNonNullArgGoto(info, error); *info = NULL; VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, error); if (dom->conn->driver->domainGetIOThreadInfo) { int ret; ret = dom->conn->driver->domainGetIOThreadInfo(dom, info, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainIOThreadInfoFree: * @info: pointer to a virDomainIOThreadInfo object * * Frees the memory used by @info. */ void virDomainIOThreadInfoFree(virDomainIOThreadInfoPtr info) { if (!info) return; VIR_FREE(info->cpumap); VIR_FREE(info); } /** * virDomainPinIOThread: * @domain: a domain object * @iothread_id: the IOThread ID to set the CPU affinity * @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 an IOThread. * 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 virDomainGetIOThreadInfo for querying this information. * * Returns 0 in case of success, -1 in case of failure. */ int virDomainPinIOThread(virDomainPtr domain, unsigned int iothread_id, unsigned char *cpumap, int maplen, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "iothread_id=%u, cpumap=%p, maplen=%d", iothread_id, cpumap, maplen); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(cpumap, error); virCheckPositiveArgGoto(maplen, error); if (conn->driver->domainPinIOThread) { int ret; ret = conn->driver->domainPinIOThread(domain, iothread_id, cpumap, maplen, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainAddIOThread: * @domain: a domain object * @iothread_id: the specific IOThread ID value to add * @flags: bitwise-OR of virDomainModificationImpact * * Dynamically add an IOThread to the domain. It is left up to the * underlying virtual hypervisor to determine the valid range for an * @iothread_id and determining whether the @iothread_id already exists. * * Note that this call can fail if the underlying virtualization hypervisor * does not support it or if growing the number is arbitrarily limited. * This function requires 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. * * Returns 0 in case of success, -1 in case of failure. */ int virDomainAddIOThread(virDomainPtr domain, unsigned int iothread_id, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "iothread_id=%u, flags=%x", iothread_id, flags); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); conn = domain->conn; if (conn->driver->domainAddIOThread) { int ret; ret = conn->driver->domainAddIOThread(domain, iothread_id, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainDelIOThread: * @domain: a domain object * @iothread_id: the specific IOThread ID value to delete * @flags: bitwise-OR of virDomainModificationImpact * * Dynamically delete an IOThread from the domain. The @iothread_id to be * deleted must not have a resource associated with it and can be any of * the currently valid IOThread ID's. * * Note that this call can fail if the underlying virtualization hypervisor * does not support it or if reducing the number is arbitrarily limited. * This function requires 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. * * Returns 0 in case of success, -1 in case of failure. */ int virDomainDelIOThread(virDomainPtr domain, unsigned int iothread_id, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "iothread_id=%u, flags=%x", iothread_id, flags); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); virCheckNonZeroArgGoto(iothread_id, error); conn = domain->conn; if (conn->driver->domainDelIOThread) { int ret; ret = conn->driver->domainDelIOThread(domain, iothread_id, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(seclabel, error); if (conn->driver->domainGetSecurityLabel) { int ret; ret = conn->driver->domainGetSecurityLabel(domain, seclabel); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckNonNullArgGoto(seclabels, error); conn = domain->conn; if (conn->driver->domainGetSecurityLabelList) { int ret; ret = conn->driver->domainGetSecurityLabelList(domain, seclabels); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainSetMetadata: * @domain: a domain object * @type: type of metadata, 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 @metadata. 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); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); switch (type) { case VIR_DOMAIN_METADATA_TITLE: if (metadata && strchr(metadata, '\n')) { virReportInvalidArg(metadata, "%s", _("metadata title can't contain " "newlines")); goto error; } /* fallthrough */ case VIR_DOMAIN_METADATA_DESCRIPTION: virCheckNullArgGoto(uri, error); virCheckNullArgGoto(key, error); break; case VIR_DOMAIN_METADATA_ELEMENT: virCheckNonNullArgGoto(uri, error); if (metadata) 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; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainGetMetadata: * @domain: a domain object * @type: type of metadata, 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); virResetLastError(); virCheckDomainReturn(domain, NULL); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, 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; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return NULL; } /** * 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. * * Be aware that hotplug changes might not persist across a domain going * into S4 state (also known as hibernation) unless you also modify the * persistent domain definition. * * 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(xml, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainAttachDevice) { int ret; ret = conn->driver->domainAttachDevice(domain, xml); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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. * * Be aware that hotplug changes might not persist across a domain going * into S4 state (also known as hibernation) unless you also modify the * persistent domain definition. * * 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(xml, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainAttachDeviceFlags) { int ret; ret = conn->driver->domainAttachDeviceFlags(domain, xml, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainDetachDevice: * @domain: pointer to domain object * @xml: pointer to XML description of one device * * This is an equivalent of virDomainDetachDeviceFlags() when called with * @flags parameter set to VIR_DOMAIN_AFFECT_LIVE. * * See virDomainDetachDeviceFlags() for more details. * * 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(xml, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainDetachDevice) { int ret; ret = conn->driver->domainDetachDevice(domain, xml); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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. * * Beware that depending on the hypervisor and device type, detaching a device * from a running domain may be asynchronous. That is, calling * virDomainDetachDeviceFlags may just request device removal while the device * is actually removed later (in cooperation with a guest OS). Previously, * this fact was ignored and the device could have been removed from domain * configuration before it was actually removed by the hypervisor causing * various failures on subsequent operations. To check whether the device was * successfully removed, either recheck domain configuration using * virDomainGetXMLDesc() or add a handler for the VIR_DOMAIN_EVENT_ID_DEVICE_REMOVED * event. In case the device is already gone when virDomainDetachDeviceFlags * returns, the event is delivered before this API call ends. To help existing * clients work better in most cases, this API will try to transform an * asynchronous device removal that finishes shortly after the request into * a synchronous removal. In other words, this API may wait a bit for the * removal to complete in case it was not synchronous. * * Be aware that hotplug changes might not persist across a domain going * into S4 state (also known as hibernation) unless you also modify the * persistent domain definition. * * The supplied XML description of the device should be as specific * as its definition in the domain XML. The set of attributes used * to match the device are internal to the drivers. Using a partial definition, * or attempting to detach a device that is not present in the domain XML, * but shares some specific attributes with one that is present, * may lead to unexpected results. * * 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(xml, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainDetachDeviceFlags) { int ret; ret = conn->driver->domainDetachDeviceFlags(domain, xml, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(xml, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainUpdateDeviceFlags) { int ret; ret = conn->driver->domainUpdateDeviceFlags(domain, xml, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * 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. This function requires that an event loop * has been previously registered with virEventRegisterImpl() or * virEventRegisterDefaultImpl(). * * 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. Older versions of some hypervisors * sometimes returned a positive number on success, but without any reliable * semantics on what that number represents. */ 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(); virCheckConnectReturn(conn, -1); virCheckNonNullArgGoto(cb, error); if (conn->driver && conn->driver->connectDomainEventRegister) { int ret; ret = conn->driver->connectDomainEventRegister(conn, cb, opaque, freecb); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 virConnectDomainEventDeregisterAny() which has a more flexible * API contract * * Returns 0 on success, -1 on failure. Older versions of some hypervisors * sometimes returned a positive number on success, but without any reliable * semantics on what that number represents. */ int virConnectDomainEventDeregister(virConnectPtr conn, virConnectDomainEventCallback cb) { VIR_DEBUG("conn=%p, cb=%p", conn, cb); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckNonNullArgGoto(cb, error); if (conn->driver && conn->driver->connectDomainEventDeregister) { int ret; ret = conn->driver->connectDomainEventDeregister(conn, cb); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * 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(); virCheckDomainReturn(dom, -1); if (dom->conn->driver->domainIsActive) { int ret; ret = dom->conn->driver->domainIsActive(dom); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, -1); if (dom->conn->driver->domainIsPersistent) { int ret; ret = dom->conn->driver->domainIsPersistent(dom); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainRename: * @dom: pointer to the domain object * @new_name: new domain name * @flags: extra flags; not used yet, so callers should always pass 0 * * Rename a domain. New domain name is specified in the second * argument. Depending on each driver implementation it may be * required that domain is in a specific state. * * There might be some attributes and/or elements in domain XML that if no * value provided at XML defining time, libvirt will derive their value from * the domain name. These are not updated by this API. Users are strongly * advised to change these after the rename was successful. * * Returns 0 if successfully renamed, -1 on error */ int virDomainRename(virDomainPtr dom, const char *new_name, unsigned int flags) { VIR_DEBUG("dom=%p, new_name=%s", dom, NULLSTR(new_name)); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckNonEmptyStringArgGoto(new_name, error); virCheckReadOnlyGoto(dom->conn->flags, error); if (dom->conn->driver->domainRename) { int ret = dom->conn->driver->domainRename(dom, new_name, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, -1); if (dom->conn->driver->domainIsUpdated) { int ret; ret = dom->conn->driver->domainIsUpdated(dom); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * 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. * * This function returns a limited amount of information in comparison * to virDomainGetJobStats(). * * 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 (info) memset(info, 0, sizeof(*info)); virCheckDomainReturn(domain, -1); virCheckNonNullArgGoto(info, error); conn = domain->conn; if (conn->driver->domainGetJobInfo) { int ret; ret = conn->driver->domainGetJobInfo(domain, info); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainGetJobStats: * @domain: a domain object * @type: where to store the job type (one of virDomainJobType) * @params: where to store job statistics * @nparams: number of items in @params * @flags: bitwise-OR of virDomainGetJobStatsFlags * * Extract information about progress of a background job on a domain. * Will return an error if the domain is not active. The function returns * a superset of progress information provided by virDomainGetJobInfo. * Possible fields returned in @params are defined by VIR_DOMAIN_JOB_* * macros and new fields will likely be introduced in the future so callers * may receive fields that they do not understand in case they talk to a * newer server. * * When @flags contains VIR_DOMAIN_JOB_STATS_COMPLETED, the function will * return statistics about a recently completed job. Specifically, this * flag may be used to query statistics of a completed incoming pre-copy * migration (statistics for post-copy migration are only available on the * source hsot). Statistics of a completed job are automatically destroyed * once read or when libvirtd is restarted. Note that time information * returned for completed migrations may be completely irrelevant unless both * source and destination hosts have synchronized time (i.e., NTP daemon is * running on both of them). The statistics of a completed job can also be * obtained by listening to a VIR_DOMAIN_EVENT_ID_JOB_COMPLETED event (on the * source host in case of a migration job). * * Returns 0 in case of success and -1 in case of failure. */ int virDomainGetJobStats(virDomainPtr domain, int *type, virTypedParameterPtr *params, int *nparams, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "type=%p, params=%p, nparams=%p, flags=%x", type, params, nparams, flags); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckNonNullArgGoto(type, error); virCheckNonNullArgGoto(params, error); virCheckNonNullArgGoto(nparams, error); conn = domain->conn; if (conn->driver->domainGetJobStats) { int ret; ret = conn->driver->domainGetJobStats(domain, type, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainAbortJob) { int ret; ret = conn->driver->domainAbortJob(domain); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigrateSetMaxDowntime) { if (conn->driver->domainMigrateSetMaxDowntime(domain, downtime, flags) < 0) goto error; return 0; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * virDomainMigrateGetCompressionCache: * @domain: a domain object * @cacheSize: return value of current size of the cache (in bytes) * @flags: extra flags; not used yet, so callers should always pass 0 * * Gets current size of the cache (in bytes) used for compressing repeatedly * transferred memory pages during live migration. * * Returns 0 in case of success, -1 otherwise. */ int virDomainMigrateGetCompressionCache(virDomainPtr domain, unsigned long long *cacheSize, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "cacheSize=%p, flags=%x", cacheSize, flags); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(cacheSize, error); if (conn->driver->domainMigrateGetCompressionCache) { if (conn->driver->domainMigrateGetCompressionCache(domain, cacheSize, flags) < 0) goto error; return 0; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * virDomainMigrateSetCompressionCache: * @domain: a domain object * @cacheSize: size of the cache (in bytes) used for compression * @flags: extra flags; not used yet, so callers should always pass 0 * * Sets size of the cache (in bytes) used for compressing repeatedly * transferred memory pages during live migration. It's supposed to be called * while the domain is being live-migrated as a reaction to migration progress * and increasing number of compression cache misses obtained from * virDomainGetJobStats. * * Returns 0 in case of success, -1 otherwise. */ int virDomainMigrateSetCompressionCache(virDomainPtr domain, unsigned long long cacheSize, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "cacheSize=%llu, flags=%x", cacheSize, flags); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigrateSetCompressionCache) { if (conn->driver->domainMigrateSetCompressionCache(domain, cacheSize, flags) < 0) goto error; return 0; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * virDomainMigrateSetMaxSpeed: * @domain: a domain object * @bandwidth: migration bandwidth limit in MiB/s * @flags: extra flags; not used yet, so callers should always pass 0 * * The maximum bandwidth (in MiB/s) 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigrateSetMaxSpeed) { if (conn->driver->domainMigrateSetMaxSpeed(domain, bandwidth, flags) < 0) goto error; return 0; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * virDomainMigrateGetMaxSpeed: * @domain: a domain object * @bandwidth: return value of current migration bandwidth limit in MiB/s * @flags: extra flags; not used yet, so callers should always pass 0 * * Get the current maximum bandwidth (in MiB/s) 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(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckNonNullArgGoto(bandwidth, error); virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigrateGetMaxSpeed) { if (conn->driver->domainMigrateGetMaxSpeed(domain, bandwidth, flags) < 0) goto error; return 0; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * virDomainMigrateStartPostCopy: * @domain: a domain object * @flags: extra flags; not used yet, so callers should always pass 0 * * Starts post-copy migration. This function has to be called while * migration (initiated with VIR_MIGRATE_POSTCOPY flag) is in progress. * * Traditional pre-copy migration iteratively walks through guest memory * pages and migrates those that changed since the previous iteration. The * iterative phase stops when the number of dirty pages is low enough so that * the virtual CPUs can be paused, all dirty pages transferred to the * destination, where the virtual CPUs are unpaused, and all this can happen * within a predefined downtime period. It's clear that this process may never * converge if downtime is too short and/or the guest keeps changing a lot of * memory pages. * * When migration is switched to post-copy mode, the virtual CPUs are paused * immediately, only a minimum set of pages is transferred, and the CPUs are * unpaused on destination. The source keeps sending all remaining memory pages * to the destination while the guest is already running there. Whenever the * guest tries to read a memory page which has not been migrated yet, the * hypervisor has to tell the source to transfer that page in a priority * channel. To minimize such page faults, it is a good idea to run at least one * iteration of pre-copy migration before switching to post-copy. * * Post-copy migration is guaranteed to converge since each page is transferred * at most once no matter how fast it changes. On the other hand once the * guest is running on the destination host, the migration can no longer be * rolled back because none of the hosts has complete state. If this happens, * libvirt will leave the domain paused on both hosts with * VIR_DOMAIN_PAUSED_POSTCOPY_FAILED reason. It's up to the upper layer to * decide what to do in such case. * * The following domain life cycle events are emitted during post-copy * migration: * VIR_DOMAIN_EVENT_SUSPENDED_POSTCOPY (on the source) -- migration entered * post-copy mode. * VIR_DOMAIN_EVENT_RESUMED_POSTCOPY (on the destination) -- the guest is * running on the destination host while some of its memory pages still * remain on the source host; neither the source nor the destination host * contain a complete guest state from this point until migration * finishes. * VIR_DOMAIN_EVENT_RESUMED_MIGRATED (on the destination), * VIR_DOMAIN_EVENT_STOPPED_MIGRATED (on the source) -- migration finished * successfully and the destination host holds a complete guest state. * VIR_DOMAIN_EVENT_SUSPENDED_POSTCOPY_FAILED (on the destination) -- emitted * when migration fails in post-copy mode and it's unclear whether any * of the hosts has a complete guest state. * * The progress of a post-copy migration can be monitored normally using * virDomainGetJobStats on the source host. Fetching statistics of a completed * post-copy migration can also be done on the source host (by calling * virDomainGetJobStats or listening to VIR_DOMAIN_EVENT_ID_JOB_COMPLETED * event, but (in contrast to pre-copy migration) the statistics are not * available on the destination host. Thus, VIR_DOMAIN_EVENT_ID_JOB_COMPLETED * event is the only way of getting statistics of a completed post-copy * migration of a transient domain (because the domain is removed after * migration and there's no domain to run virDomainGetJobStats on). * * Returns 0 in case of success, -1 otherwise. */ int virDomainMigrateStartPostCopy(virDomainPtr domain, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainMigrateStartPostCopy) { if (conn->driver->domainMigrateStartPostCopy(domain, flags) < 0) goto error; return 0; } virReportUnsupportedError(); 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. This function requires that an event loop * has been previously registered with virEventRegisterImpl() or * virEventRegisterDefaultImpl(). * * 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 virConnectDomainEventDeregisterAny() 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(); virCheckConnectReturn(conn, -1); if (dom) { virCheckDomainGoto(dom, error); if (dom->conn != conn) { virReportInvalidArg(dom, _("domain '%s' must match connection"), dom->name); goto error; } } virCheckNonNullArgGoto(cb, error); virCheckNonNegativeArgGoto(eventID, error); if (eventID >= VIR_DOMAIN_EVENT_ID_LAST) { virReportInvalidArg(eventID, _("eventID must be less than %d"), VIR_DOMAIN_EVENT_ID_LAST); goto error; } if (conn->driver && conn->driver->connectDomainEventRegisterAny) { int ret; ret = conn->driver->connectDomainEventRegisterAny(conn, dom, eventID, cb, opaque, freecb); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 * value obtained from a previous virConnectDomainEventRegisterAny() method. * * Returns 0 on success, -1 on failure. Older versions of some hypervisors * sometimes returned a positive number on success, but without any reliable * semantics on what that number represents. */ int virConnectDomainEventDeregisterAny(virConnectPtr conn, int callbackID) { VIR_DEBUG("conn=%p, callbackID=%d", conn, callbackID); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckNonNegativeArgGoto(callbackID, error); if (conn->driver && conn->driver->connectDomainEventDeregisterAny) { int ret; ret = conn->driver->connectDomainEventDeregisterAny(conn, callbackID); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, error); VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_SAVE_RUNNING, VIR_DOMAIN_SAVE_PAUSED, error); if (conn->driver->domainManagedSave) { int ret; ret = conn->driver->domainManagedSave(dom, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; if (conn->driver->domainHasManagedSaveImage) { int ret; ret = conn->driver->domainHasManagedSaveImage(dom, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, error); if (conn->driver->domainManagedSaveRemove) { int ret; ret = conn->driver->domainManagedSaveRemove(dom, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckStreamGoto(st, error); virCheckReadOnlyGoto(conn->flags, error); if (conn != st->conn) { virReportInvalidArg(st, _("stream must match connection of domain '%s'"), dom->name); goto error; } if (conn->driver->domainOpenConsole) { int ret; ret = conn->driver->domainOpenConsole(dom, dev_name, st, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * virDomainOpenChannel: * @dom: a domain object * @name: the channel name, or NULL * @st: a stream to associate with the channel * @flags: bitwise-OR of virDomainChannelFlags * * This opens the host interface associated with a channel device on a * guest, if the host interface is supported. If @name is given, it * can match either the device alias (e.g. "channel0"), or the virtio * target name (e.g. "org.qemu.guest_agent.0"). If @name is omitted, * then the first channel is opened. The channel 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 channel is already in use by another client; passing * VIR_DOMAIN_CHANNEL_FORCE will cause libvirt to forcefully remove the * other client prior to opening this channel. * * Returns 0 if the channel was opened, -1 on error */ int virDomainOpenChannel(virDomainPtr dom, const char *name, virStreamPtr st, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(dom, "name=%s, st=%p, flags=%x", NULLSTR(name), st, flags); virResetLastError(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckStreamGoto(st, error); virCheckReadOnlyGoto(conn->flags, error); if (conn != st->conn) { virReportInvalidArg(st, _("stream must match connection of domain '%s'"), dom->name); goto error; } if (conn->driver->domainOpenChannel) { int ret; ret = conn->driver->domainOpenChannel(dom, name, st, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(conn); return -1; } /** * virDomainGetPerfEvents: * @domain: a domain object * @params: where to store perf events setting * @nparams: number of items in @params * @flags: bitwise-OR of virDomainModificationImpact * * Get all Linux perf events setting. Possible fields returned in * @params are defined by VIR_PERF_EVENT_* macros and new fields * will likely be introduced in the future. * * Linux perf events are performance analyzing tool in Linux. * * Returns -1 in case of failure, 0 in case of success. */ int virDomainGetPerfEvents(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(); virCheckDomainReturn(domain, -1); virCheckNonNullArgGoto(params, error); virCheckNonNullArgGoto(nparams, error); conn = domain->conn; if (conn->driver->domainGetPerfEvents) { int ret; ret = conn->driver->domainGetPerfEvents(domain, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainSetPerfEvents: * @domain: a domain object * @params: pointer to perf events parameter object * @nparams: number of perf event parameters (this value can be the same * less than the number of parameters supported) * @flags: bitwise-OR of virDomainModificationImpact * * Enable or disable the particular list of Linux perf events you * care about. The @params argument should contain any subset of * VIR_PERF_EVENT_ macros. * * Linux perf events are performance analyzing tool in Linux. * * Returns -1 in case of error, 0 in case of success. */ int virDomainSetPerfEvents(virDomainPtr domain, virTypedParameterPtr params, int nparams, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%d flags=%x", params, nparams, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(domain, -1); conn = domain->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(params, error); virCheckPositiveArgGoto(nparams, error); if (virTypedParameterValidateSet(conn, params, nparams) < 0) goto error; if (conn->driver->domainSetPerfEvents) { int ret; ret = conn->driver->domainSetPerfEvents(domain, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->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 sub-element, such as * "/path/to/image"), or (since 0.9.5) the device target shorthand * (the sub-element, such as "vda"). 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; * likewise, if the current job is VIR_DOMAIN_BLOCK_JOB_TYPE_ACTIVE_COMMIT, * the default is to abort without changing the active layer of @disk. * Adding @flags of VIR_DOMAIN_BLOCK_JOB_ABORT_PIVOT causes this call to * fail with VIR_ERR_BLOCK_COPY_ACTIVE if the copy or commit is not yet * ready; otherwise it will swap the disk over to the new active image * to end the mirroring or active commit. 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 a copy or active commit 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(disk, error); if (conn->driver->domainBlockJobAbort) { int ret; ret = conn->driver->domainBlockJobAbort(dom, disk, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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: bitwise-OR of virDomainBlockJobInfoFlags * * Request block job information for the given disk. If an operation is active * @info will be updated with the current progress. The units used for the * bandwidth field of @info depends on @flags. If @flags includes * VIR_DOMAIN_BLOCK_JOB_INFO_BANDWIDTH_BYTES, bandwidth is in bytes/second * (although this mode can risk failure due to overflow, depending on both * client and server word size); otherwise, the value is rounded up to MiB/s. * * The @disk parameter is either an unambiguous source name of the * block device (the sub-element, such as * "/path/to/image"), or (since 0.9.5) the device target shorthand * (the sub-element, such as "vda"). Valid names * can be found by calling virDomainGetXMLDesc() and inspecting * elements within //domain/devices/disk. * * As a corner case underlying hypervisor may report cur == 0 and * end == 0 when the block job hasn't been started yet. In this * case libvirt reports cur = 0 and end = 1. However, hypervisor * may return cur == 0 and end == 0 if the block job has finished * and was no-op. In this case libvirt reports cur = 1 and end = 1. * Since 2.3.0. * * 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 (info) memset(info, 0, sizeof(*info)); virCheckDomainReturn(dom, -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; } virReportUnsupportedError(); 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; flags determine the unit * @flags: bitwise-OR of virDomainBlockJobSetSpeedFlags * * Set the maximimum allowable bandwidth that a block job may consume. If * bandwidth is 0, the limit will revert to the hypervisor default of * unlimited. * * If @flags contains VIR_DOMAIN_BLOCK_JOB_SPEED_BANDWIDTH_BYTES, @bandwidth * is in bytes/second; otherwise, it is in MiB/second. Values larger than * 2^52 bytes/sec may be rejected due to overflow considerations based on * the word size of both client and server, and values larger than 2^31 * bytes/sec may cause overflow problems if later queried by * virDomainGetBlockJobInfo() without scaling. Hypervisors may further * restrict the range of valid bandwidth values. * * The @disk parameter is either an unambiguous source name of the * block device (the sub-element, such as * "/path/to/image"), or (since 0.9.5) the device target shorthand * (the sub-element, such as "vda"). 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, 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; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainBlockPull: * @dom: pointer to domain object * @disk: path to the block device, or device shorthand * @bandwidth: (optional) specify bandwidth limit; flags determine the unit * @flags: bitwise-OR of virDomainBlockPullFlags * * 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 sub-element, such as * "/path/to/image"), or (since 0.9.5) the device target shorthand * (the sub-element, such as "vda"). Valid names * can be found by calling virDomainGetXMLDesc() and inspecting * elements within //domain/devices/disk. * * The maximum bandwidth that will be used to do the copy can be * specified with the @bandwidth parameter. If set to 0, there is no * limit. If @flags includes VIR_DOMAIN_BLOCK_PULL_BANDWIDTH_BYTES, * @bandwidth is in bytes/second; otherwise, it is in MiB/second. * Values larger than 2^52 bytes/sec may be rejected due to overflow * considerations based on the word size of both client and server, * and values larger than 2^31 bytes/sec may cause overflow problems * if later queried by virDomainGetBlockJobInfo() without scaling. * Hypervisors may further restrict the range of valid bandwidth * values. 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, 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; } virReportUnsupportedError(); 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 device shorthand, * or NULL for no backing file * @bandwidth: (optional) specify bandwidth limit; flags determine the unit * @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. * * If @flags contains VIR_DOMAIN_BLOCK_REBASE_RELATIVE, the name recorded * into the active disk as the location for @base will be kept relative. * The operation will fail if libvirt can't infer the name. * * 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 * which was pre-created with the correct format and metadata and sufficient * size to hold the copy. In case the VIR_DOMAIN_BLOCK_REBASE_SHALLOW flag * is used the pre-created file has to exhibit the same guest visible contents * as the backing file of the original image. 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. By default, the copy destination will be treated as * type='file', but using VIR_DOMAIN_BLOCK_REBASE_COPY_DEV treats the * destination as type='block' (affecting how virDomainGetBlockInfo() will * report allocation after pivoting). * * 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 sub-element, such as * "/path/to/image"), or the device target shorthand (the * sub-element, such as "vda"). Valid names * can be found by calling virDomainGetXMLDesc() and inspecting * elements within //domain/devices/disk. * * The @base parameter can be either a path to a file within the backing * chain, or the device target shorthand (the * sub-element, such as "vda") followed by an index to the backing chain * enclosed in square brackets. Backing chain indexes can be found by * inspecting //disk//backingStore/@index in the domain XML. Thus, for * example, "vda[3]" refers to the backing store with index equal to "3" * in the chain of disk "vda". * * The maximum bandwidth that will be used to do the copy can be * specified with the @bandwidth parameter. If set to 0, there is no * limit. If @flags includes VIR_DOMAIN_BLOCK_REBASE_BANDWIDTH_BYTES, * @bandwidth is in bytes/second; otherwise, it is in MiB/second. * Values larger than 2^52 bytes/sec may be rejected due to overflow * considerations based on the word size of both client and server, * and values larger than 2^31 bytes/sec may cause overflow problems * if later queried by virDomainGetBlockJobInfo() without scaling. * Hypervisors may further restrict the range of valid bandwidth * values. 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(). When @flags contains VIR_DOMAIN_BLOCK_REBASE_COPY, * this command is shorthand for virDomainBlockCopy() where the destination * XML encodes @base as a , @bandwidth is properly scaled * and passed as a typed parameter, the shallow and reuse external flags * are preserved, and remaining flags control whether the XML encodes a * destination format of raw instead of leaving the destination identical * to the source format or probed from the reused file. * * 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, 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 | VIR_DOMAIN_BLOCK_REBASE_COPY_DEV)) { virReportInvalidArg(flags, "%s", _("use of flags requires a copy job")); goto error; } if (conn->driver->domainBlockRebase) { int ret; ret = conn->driver->domainBlockRebase(dom, disk, base, bandwidth, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainBlockCopy: * @dom: pointer to domain object * @disk: path to the block device, or device shorthand * @destxml: XML description of the copy destination * @params: Pointer to block copy parameter objects, or NULL * @nparams: Number of block copy parameters (this value can be the same or * less than the number of parameters supported) * @flags: bitwise-OR of virDomainBlockCopyFlags * * Copy the guest-visible contents of a disk image to a new file described * by @destxml. The destination XML has a top-level element of , and * resembles what is used when hot-plugging a disk via virDomainAttachDevice(), * except that only sub-elements related to describing the new host resource * are necessary (sub-elements related to the guest view, such as , * are ignored). It is strongly recommended to include a * format designation for the destination, to avoid the potential of any * security problem that might be caused by probing a file for its format. * * This command starts a long-running copy. By default, the copy will pull * the entire source chain into the destination file, but if @flags also * contains VIR_DOMAIN_BLOCK_COPY_SHALLOW, then only the top of the source * chain will be copied (the source and destination have a common backing * file). The format of the destination file is controlled by the * sub-element of the XML. The destination will be created unless the * VIR_DOMAIN_BLOCK_COPY_REUSE_EXT flag is present stating that the file * was pre-created with the correct format and metadata and sufficient * size to hold the copy. In case the VIR_DOMAIN_BLOCK_COPY_SHALLOW flag * is used the pre-created file has to exhibit the same guest visible contents * as the backing file of the original image. This allows a management app to * pre-create files with relative backing file names, rather than the default * of absolute backing file names. * * A copy job has two parts; in the first phase, the source is copied 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 sub-element, such as * "/path/to/image"), or the device target shorthand (the * sub-element, such as "vda"). Valid names * can be found by calling virDomainGetXMLDesc() and inspecting * elements within //domain/devices/disk. * * The @params and @nparams arguments can be used to set hypervisor-specific * tuning parameters, such as maximum bandwidth or granularity. For a * parameter that the hypervisor understands, explicitly specifying 0 * behaves the same as omitting the parameter, to use the hypervisor * default; however, omitting a parameter is less likely to fail. * * This command is a superset of the older virDomainBlockRebase() when used * with the VIR_DOMAIN_BLOCK_REBASE_COPY flag, and offers better control * over the destination format, the ability to copy to a destination that * is not a local file, and the possibility of additional tuning parameters. * * Returns 0 if the operation has started, -1 on failure. */ int virDomainBlockCopy(virDomainPtr dom, const char *disk, const char *destxml, virTypedParameterPtr params, int nparams, unsigned int flags) { virConnectPtr conn; VIR_DOMAIN_DEBUG(dom, "disk=%s, destxml=%s, params=%p, nparams=%d, flags=%x", disk, destxml, params, nparams, flags); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(disk, error); virCheckNonNullArgGoto(destxml, error); virCheckNonNegativeArgGoto(nparams, error); if (nparams) virCheckNonNullArgGoto(params, error); if (conn->driver->domainBlockCopy) { int ret; ret = conn->driver->domainBlockCopy(dom, disk, destxml, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 device shorthand, * or NULL for default * @top: path to file within backing chain that contains data to be merged, * or device shorthand, or NULL to merge all possible data * @bandwidth: (optional) specify bandwidth limit; flags determine the unit * @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. * * As a special case, if @top is the active image (or NULL), and @flags * includes VIR_DOMAIN_BLOCK_COMMIT_ACTIVE, the block job will have a type * of VIR_DOMAIN_BLOCK_JOB_TYPE_ACTIVE_COMMIT, and operates in two phases. * In the first phase, the contents are being committed into @base, and the * job can only be canceled. The job transitions to the second phase when * the job info states cur == end, and remains alive to keep all further * changes to @top synchronized into @base; an event with status * VIR_DOMAIN_BLOCK_JOB_READY is also issued to mark the job transition. * Once in the second phase, the user must choose whether to cancel the job * (keeping @top as the active image, but now containing only the changes * since the time the job ended) or to pivot the job (adjusting to @base as * the active image, and invalidating @top). * * 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 (when @top is not the active image) * 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 (and 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. * * Some hypervisors may support a shortcut where if @flags contains * VIR_DOMAIN_BLOCK_COMMIT_DELETE, then this command will unlink all files * that were invalidated, after the commit successfully completes. * * If @flags contains VIR_DOMAIN_BLOCK_COMMIT_RELATIVE, the name recorded * into the overlay of the @top image (if there is such image) as the * path to the new backing file will be kept relative to other images. * The operation will fail if libvirt can't infer the name. * * 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 but @flags did not include * VIR_DOMAIN_BLOCK_COMMIT_ACTIVE, 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 sub-element, such as * "/path/to/image"), or the device target shorthand (the * sub-element, such as "vda"). Valid names * can be found by calling virDomainGetXMLDesc() and inspecting * elements within //domain/devices/disk. * * The @base and @top parameters can be either paths to files within the * backing chain, or the device target shorthand (the * sub-element, such as "vda") followed by an index to the backing chain * enclosed in square brackets. Backing chain indexes can be found by * inspecting //disk//backingStore/@index in the domain XML. Thus, for * example, "vda[3]" refers to the backing store with index equal to "3" * in the chain of disk "vda". * * The maximum bandwidth that will be used to do the commit can be * specified with the @bandwidth parameter. If set to 0, there is no * limit. If @flags includes VIR_DOMAIN_BLOCK_COMMIT_BANDWIDTH_BYTES, * @bandwidth is in bytes/second; otherwise, it is in MiB/second. * Values larger than 2^52 bytes/sec may be rejected due to overflow * considerations based on the word size of both client and server, * and values larger than 2^31 bytes/sec may cause overflow problems * if later queried by virDomainGetBlockJobInfo() without scaling. * Hypervisors may further restrict the range of valid bandwidth * values. 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(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, 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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, -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 must be a socket"), fd); goto error; } virCheckReadOnlyGoto(dom->conn->flags, error); if (!VIR_DRV_SUPPORTS_FEATURE(dom->conn->driver, dom->conn, VIR_DRV_FEATURE_FD_PASSING)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("fd passing is not supported by this connection")); 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; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainOpenGraphicsFD: * @dom: pointer to domain object * @idx: index of graphics config to open * @flags: bitwise-OR of virDomainOpenGraphicsFlags * * This will create a socket pair connected to the graphics backend of @dom. * One end of the socket will be returned on success, and the other end is * handed to the hypervisor. * 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. * * 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 an fd on success, -1 on failure */ int virDomainOpenGraphicsFD(virDomainPtr dom, unsigned int idx, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "idx=%u, flags=%x", idx, flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckReadOnlyGoto(dom->conn->flags, error); if (!VIR_DRV_SUPPORTS_FEATURE(dom->conn->driver, dom->conn, VIR_DRV_FEATURE_FD_PASSING)) { virReportError(VIR_ERR_ARGUMENT_UNSUPPORTED, "%s", _("fd passing is not supported by this connection")); goto error; } if (dom->conn->driver->domainOpenGraphicsFD) { int ret; ret = dom->conn->driver->domainOpenGraphicsFD(dom, idx, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); 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 sub-element, such as * "/path/to/image"), or the device target shorthand (the 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); VIR_TYPED_PARAMS_DEBUG(params, nparams); virResetLastError(); virCheckDomainReturn(dom, -1); conn = dom->conn; virCheckReadOnlyGoto(conn->flags, error); virCheckNonNullArgGoto(disk, error); virCheckPositiveArgGoto(nparams, error); virCheckNonNullArgGoto(params, error); if (virTypedParameterValidateSet(dom->conn, params, nparams) < 0) goto error; if (conn->driver->domainSetBlockIoTune) { int ret; ret = conn->driver->domainSetBlockIoTune(dom, disk, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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 sub-element, such as * "/path/to/image"), or the device target shorthand (the 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(); virCheckDomainReturn(dom, -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; VIR_EXCLUSIVE_FLAGS_GOTO(VIR_DOMAIN_AFFECT_LIVE, VIR_DOMAIN_AFFECT_CONFIG, 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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(domain, -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, "%s", _("ncpus must be 1 when start_cpu is -1")); 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) { virReportError(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; } virReportUnsupportedError(); 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(); virCheckDomainReturn(dom, -1); if (maxerrors) virCheckNonNullArgGoto(errors, error); else virCheckNullArgGoto(errors, error); if (dom->conn->driver->domainGetDiskErrors) { int ret = dom->conn->driver->domainGetDiskErrors(dom, errors, maxerrors, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); 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, "flags=%x", flags); virResetLastError(); virCheckDomainReturn(domain, NULL); conn = domain->conn; if (conn->driver->domainGetHostname) { char *ret; ret = conn->driver->domainGetHostname(domain, flags); if (!ret) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return NULL; } /** * virDomainFSTrim: * @dom: a domain object * @mountPoint: which mount point to trim * @minimum: Minimum contiguous free range to discard in bytes * @flags: extra flags, not used yet, so callers should always pass 0 * * Calls FITRIM within the guest (hence guest agent may be * required depending on hypervisor used). Either call it on each * mounted filesystem (@mountPoint is NULL) or just on specified * @mountPoint. @minimum hints that free ranges smaller than this * may be ignored (this is a hint and the guest may not respect * it). By increasing this value, the fstrim operation will * complete more quickly for filesystems with badly fragmented * free space, although not all blocks will be discarded. * If @minimum is not zero, the command may fail. * * Returns 0 on success, -1 otherwise. */ int virDomainFSTrim(virDomainPtr dom, const char *mountPoint, unsigned long long minimum, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "mountPoint=%s, minimum=%llu, flags=%x", mountPoint, minimum, flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckReadOnlyGoto(dom->conn->flags, error); if (dom->conn->driver->domainFSTrim) { int ret = dom->conn->driver->domainFSTrim(dom, mountPoint, minimum, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainFSFreeze: * @dom: a domain object * @mountpoints: list of mount points to be frozen * @nmountpoints: the number of mount points specified in @mountpoints * @flags: extra flags; not used yet, so callers should always pass 0 * * Freeze specified filesystems within the guest (hence guest agent * may be required depending on hypervisor used). If @mountpoints is NULL and * @nmountpoints is 0, every mounted filesystem on the guest is frozen. * In some environments (e.g. QEMU guest with guest agent which doesn't * support mountpoints argument), @mountpoints may need to be NULL. * * Returns the number of frozen filesystems on success, -1 otherwise. */ int virDomainFSFreeze(virDomainPtr dom, const char **mountpoints, unsigned int nmountpoints, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "mountpoints=%p, nmountpoints=%d, flags=%x", mountpoints, nmountpoints, flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckReadOnlyGoto(dom->conn->flags, error); if (nmountpoints) virCheckNonNullArgGoto(mountpoints, error); else virCheckNullArgGoto(mountpoints, error); if (dom->conn->driver->domainFSFreeze) { int ret = dom->conn->driver->domainFSFreeze( dom, mountpoints, nmountpoints, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainFSThaw: * @dom: a domain object * @mountpoints: list of mount points to be thawed * @nmountpoints: the number of mount points specified in @mountpoints * @flags: extra flags; not used yet, so callers should always pass 0 * * Thaw specified filesystems within the guest. If @mountpoints is NULL and * @nmountpoints is 0, every mounted filesystem on the guest is thawed. * In some drivers (e.g. QEMU driver), @mountpoints may need to be NULL. * * Returns the number of thawed filesystems on success, -1 otherwise. */ int virDomainFSThaw(virDomainPtr dom, const char **mountpoints, unsigned int nmountpoints, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "flags=%x", flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckReadOnlyGoto(dom->conn->flags, error); if (nmountpoints) virCheckNonNullArgGoto(mountpoints, error); else virCheckNullArgGoto(mountpoints, error); if (dom->conn->driver->domainFSThaw) { int ret = dom->conn->driver->domainFSThaw( dom, mountpoints, nmountpoints, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainGetTime: * @dom: a domain object * @seconds: domain's time in seconds * @nseconds: the nanoscond part of @seconds * @flags: extra flags; not used yet, so callers should always pass 0 * * Extract information about guest time and store it into * @seconds and @nseconds. The @seconds represents the number of * seconds since the UNIX Epoch of 1970-01-01 00:00:00 in UTC. * * Please note that some hypervisors may require guest agent to * be configured and running in order to run this API. * * Returns 0 on success, -1 otherwise. */ int virDomainGetTime(virDomainPtr dom, long long *seconds, unsigned int *nseconds, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "seconds=%p, nseconds=%p, flags=%x", seconds, nseconds, flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckReadOnlyGoto(dom->conn->flags, error); if (dom->conn->driver->domainGetTime) { int ret = dom->conn->driver->domainGetTime(dom, seconds, nseconds, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainSetTime: * @dom: a domain object * @seconds: time to set * @nseconds: the nanosecond part of @seconds * @flags: bitwise-OR of virDomainSetTimeFlags * * When a domain is suspended or restored from a file the * domain's OS has no idea that there was a big gap in the time. * Depending on how long the gap was, NTP might not be able to * resynchronize the guest. * * This API tries to set guest time to the given value. The time * to set (@seconds and @nseconds) should be in seconds relative * to the Epoch of 1970-01-01 00:00:00 in UTC. * * Please note that some hypervisors may require guest agent to * be configured and running in order to be able to run this API. * * Returns 0 on success, -1 otherwise. */ int virDomainSetTime(virDomainPtr dom, long long seconds, unsigned int nseconds, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "seconds=%lld, nseconds=%u, flags=%x", seconds, nseconds, flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckReadOnlyGoto(dom->conn->flags, error); if (dom->conn->driver->domainSetTime) { int ret = dom->conn->driver->domainSetTime(dom, seconds, nseconds, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainSetUserPassword: * @dom: a domain object * @user: the username that will get a new password * @password: the password to set * @flags: bitwise-OR of virDomainSetUserPasswordFlags * * Sets the @user password to the value specified by @password. * If @flags contain VIR_DOMAIN_PASSWORD_ENCRYPTED, the password * is assumed to be encrypted by the method required by the guest OS. * * Please note that some hypervisors may require guest agent to * be configured and running in order to be able to run this API. * * Returns 0 on success, -1 otherwise. */ int virDomainSetUserPassword(virDomainPtr dom, const char *user, const char *password, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "user=%s, password=%s, flags=%x", NULLSTR(user), NULLSTR(password), flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckReadOnlyGoto(dom->conn->flags, error); virCheckNonNullArgGoto(user, error); virCheckNonNullArgGoto(password, error); if (dom->conn->driver->domainSetUserPassword) { int ret = dom->conn->driver->domainSetUserPassword(dom, user, password, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virConnectGetDomainCapabilities: * @conn: pointer to the hypervisor connection * @emulatorbin: path to emulator * @arch: domain architecture * @machine: machine type * @virttype: virtualization type * @flags: extra flags; not used yet, so callers should always pass 0 * * Prior creating a domain (for instance via virDomainCreateXML * or virDomainDefineXML) it may be suitable to know what the * underlying emulator and/or libvirt is capable of. For * instance, if host, libvirt and qemu is capable of VFIO * passthrough and so on. * * Returns NULL in case of error or an XML string * defining the capabilities. */ char * virConnectGetDomainCapabilities(virConnectPtr conn, const char *emulatorbin, const char *arch, const char *machine, const char *virttype, unsigned int flags) { VIR_DEBUG("conn=%p, emulatorbin=%s, arch=%s, " "machine=%s, virttype=%s, flags=%x", conn, NULLSTR(emulatorbin), NULLSTR(arch), NULLSTR(machine), NULLSTR(virttype), flags); virResetLastError(); virCheckConnectReturn(conn, NULL); if (conn->driver->connectGetDomainCapabilities) { char *ret; ret = conn->driver->connectGetDomainCapabilities(conn, emulatorbin, arch, machine, virttype, flags); if (!ret) goto error; VIR_DEBUG("conn=%p, ret=%s", conn, ret); return ret; } virReportUnsupportedError(); error: virDispatchError(conn); return NULL; } /** * virConnectGetAllDomainStats: * @conn: pointer to the hypervisor connection * @stats: stats to return, binary-OR of virDomainStatsTypes * @retStats: Pointer that will be filled with the array of returned stats * @flags: extra flags; binary-OR of virConnectGetAllDomainStatsFlags * * Query statistics for all domains on a given connection. * * Report statistics of various parameters for a running VM according to @stats * field. The statistics are returned as an array of structures for each queried * domain. The structure contains an array of typed parameters containing the * individual statistics. The typed parameter name for each statistic field * consists of a dot-separated string containing name of the requested group * followed by a group specific description of the statistic value. * * The statistic groups are enabled using the @stats parameter which is a * binary-OR of enum virDomainStatsTypes. The following groups are available * (although not necessarily implemented for each hypervisor): * * VIR_DOMAIN_STATS_STATE: * Return domain state and reason for entering that state. The typed * parameter keys are in this format: * * "state.state" - state of the VM, returned as int from virDomainState enum * "state.reason" - reason for entering given state, returned as int from * virDomain*Reason enum corresponding to given state. * * VIR_DOMAIN_STATS_CPU_TOTAL: * Return CPU statistics and usage information. The typed parameter keys * are in this format: * * "cpu.time" - total cpu time spent for this domain in nanoseconds * as unsigned long long. * "cpu.user" - user cpu time spent in nanoseconds as unsigned long long. * "cpu.system" - system cpu time spent in nanoseconds as unsigned long * long. * * VIR_DOMAIN_STATS_BALLOON: * Return memory balloon device information. * The typed parameter keys are in this format: * * "balloon.current" - the memory in kiB currently used * as unsigned long long. * "balloon.maximum" - the maximum memory in kiB allowed * as unsigned long long. * * VIR_DOMAIN_STATS_VCPU: * Return virtual CPU statistics. * Due to VCPU hotplug, the vcpu..* array could be sparse. * The actual size of the array corresponds to "vcpu.current". * The array size will never exceed "vcpu.maximum". * The typed parameter keys are in this format: * * "vcpu.current" - current number of online virtual CPUs as unsigned int. * "vcpu.maximum" - maximum number of online virtual CPUs as unsigned int. * "vcpu..state" - state of the virtual CPU , as int * from virVcpuState enum. * "vcpu..time" - virtual cpu time spent by virtual CPU * as unsigned long long. * * VIR_DOMAIN_STATS_INTERFACE: * Return network interface statistics. * The typed parameter keys are in this format: * * "net.count" - number of network interfaces on this domain * as unsigned int. * "net..name" - name of the interface as string. * "net..rx.bytes" - bytes received as unsigned long long. * "net..rx.pkts" - packets received as unsigned long long. * "net..rx.errs" - receive errors as unsigned long long. * "net..rx.drop" - receive packets dropped as unsigned long long. * "net..tx.bytes" - bytes transmitted as unsigned long long. * "net..tx.pkts" - packets transmitted as unsigned long long. * "net..tx.errs" - transmission errors as unsigned long long. * "net..tx.drop" - transmit packets dropped as unsigned long long. * * VIR_DOMAIN_STATS_BLOCK: * Return block devices statistics. By default, * this information is limited to the active layer of each of the * domain (where block.count is equal to the number of disks), but adding * VIR_CONNECT_GET_ALL_DOMAINS_STATS_BACKING to @flags will expand the * array to cover backing chains (block.count corresponds to the number * of host resources used together to provide the guest disks). * The typed parameter keys are in this format: * * "block.count" - number of block devices in the subsequent list, * as unsigned int. * "block..name" - name of the block device as string. * matches the target name (vda/sda/hda) of the * block device. If the backing chain is listed, * this name is the same for all host resources tied * to the same guest device. * "block..backingIndex" - unsigned int giving the * index, only used when backing images * are listed. * "block..path" - string describing the source of block device , * if it is a file or block device (omitted for network * sources and drives with no media inserted). * "block..rd.reqs" - number of read requests as unsigned long long. * "block..rd.bytes" - number of read bytes as unsigned long long. * "block..rd.times" - total time (ns) spent on reads as * unsigned long long. * "block..wr.reqs" - number of write requests as unsigned long long. * "block..wr.bytes" - number of written bytes as unsigned long long. * "block..wr.times" - total time (ns) spent on writes as * unsigned long long. * "block..fl.reqs" - total flush requests as unsigned long long. * "block..fl.times" - total time (ns) spent on cache flushing as * unsigned long long. * "block..errors" - Xen only: the 'oo_req' value as * unsigned long long. * "block..allocation" - offset of the highest written sector * as unsigned long long. * "block..capacity" - logical size in bytes of the block device * backing image as unsigned long long. * "block..physical" - physical size in bytes of the container of the * backing image as unsigned long long. * * VIR_DOMAIN_STATS_PERF: * Return perf event statistics. * The typed parameter keys are in this format: * * "perf.cmt" - the usage of l3 cache (bytes) by applications running on * the platform as unsigned long long. It is produced by cmt * perf event. * "perf.mbmt" - the total system bandwidth (bytes/s) from one level of * cache to another as unsigned long long. It is produced * by mbmt perf event. * "perf.mbml" - the amount of data (bytes/s) sent through the memory * controller on the socket as unsigned long long. It is * produced by mbml perf event. * "perf.cache_misses" - the count of cache misses as unsigned long long. * It is produced by cache_misses perf event. * "perf.cache_references" - the count of cache hits as unsigned long long. * It is produced by cache_references perf event. * "perf.instructions" - The count of instructions as unsigned long long. * It is produced by instructions perf event. * "perf.cpu_cycles" - The count of cpu cycles (total/elapsed) as an * unsigned long long. It is produced by cpu_cycles * perf event. * "perf.branch_instructions" - The count of branch instructions as * unsigned long long. It is produced by * branch_instructions perf event. * "perf.branch_misses" - The count of branch misses as unsigned long * long. It is produced by branch_misses perf event. * "perf.bus_cycles" - The count of bus cycles as unsigned long * long. It is produced by bus_cycles perf event. * "perf.stalled_cycles_frontend" - The count of stalled cpu cycles in the * frontend of the instruction processor * pipeline as unsigned long long. It is * produced by stalled_cycles_frontend * perf event. * "perf.stalled_cycles_backend" - The count of stalled cpu cycles in the * backend of the instruction processor * pipeline as unsigned long long. It is * produced by stalled_cycles_backend * perf event. * "perf.ref_cpu_cycles" - The count of total cpu cycles not affected by * CPU frequency scaling by applications running * as unsigned long long. It is produced by the * ref_cpu_cycles perf event. * * Note that entire stats groups or individual stat fields may be missing from * the output in case they are not supported by the given hypervisor, are not * applicable for the current state of the guest domain, or their retrieval * was not successful. * * Using 0 for @stats returns all stats groups supported by the given * hypervisor. * * Specifying VIR_CONNECT_GET_ALL_DOMAINS_STATS_ENFORCE_STATS as @flags makes * the function return error in case some of the stat types in @stats were * not recognized by the daemon. However, even with this flag, a hypervisor * may omit individual fields within a known group if the information is not * available; as an extreme example, a supported group may produce zero * fields for offline domains if the statistics are meaningful only for a * running domain. * * Similarly to virConnectListAllDomains, @flags can contain various flags to * filter the list of domains to provide stats for. * * VIR_CONNECT_GET_ALL_DOMAINS_STATS_ACTIVE selects online domains while * VIR_CONNECT_GET_ALL_DOMAINS_STATS_INACTIVE selects offline ones. * * VIR_CONNECT_GET_ALL_DOMAINS_STATS_PERSISTENT and * VIR_CONNECT_GET_ALL_DOMAINS_STATS_TRANSIENT allow to filter the list * according to their persistence. * * To filter the list of VMs by domain state @flags can contain * VIR_CONNECT_GET_ALL_DOMAINS_STATS_RUNNING, * VIR_CONNECT_GET_ALL_DOMAINS_STATS_PAUSED, * VIR_CONNECT_GET_ALL_DOMAINS_STATS_SHUTOFF and/or * VIR_CONNECT_GET_ALL_DOMAINS_STATS_OTHER for all other states. * * Returns the count of returned statistics structures on success, -1 on error. * The requested data are returned in the @retStats parameter. The returned * array should be freed by the caller. See virDomainStatsRecordListFree. */ int virConnectGetAllDomainStats(virConnectPtr conn, unsigned int stats, virDomainStatsRecordPtr **retStats, unsigned int flags) { int ret = -1; VIR_DEBUG("conn=%p, stats=0x%x, retStats=%p, flags=0x%x", conn, stats, retStats, flags); virResetLastError(); virCheckConnectReturn(conn, -1); virCheckNonNullArgGoto(retStats, cleanup); if (!conn->driver->connectGetAllDomainStats) { virReportUnsupportedError(); goto cleanup; } ret = conn->driver->connectGetAllDomainStats(conn, NULL, 0, stats, retStats, flags); cleanup: if (ret < 0) virDispatchError(conn); return ret; } /** * virDomainListGetStats: * @doms: NULL terminated array of domains * @stats: stats to return, binary-OR of virDomainStatsTypes * @retStats: Pointer that will be filled with the array of returned stats * @flags: extra flags; binary-OR of virConnectGetAllDomainStatsFlags * * Query statistics for domains provided by @doms. Note that all domains in * @doms must share the same connection. * * Report statistics of various parameters for a running VM according to @stats * field. The statistics are returned as an array of structures for each queried * domain. The structure contains an array of typed parameters containing the * individual statistics. The typed parameter name for each statistic field * consists of a dot-separated string containing name of the requested group * followed by a group specific description of the statistic value. * * The statistic groups are enabled using the @stats parameter which is a * binary-OR of enum virDomainStatsTypes. The stats groups are documented * in virConnectGetAllDomainStats. * * Using 0 for @stats returns all stats groups supported by the given * hypervisor. * * Specifying VIR_CONNECT_GET_ALL_DOMAINS_STATS_ENFORCE_STATS as @flags makes * the function return error in case some of the stat types in @stats were * not recognized by the daemon. However, even with this flag, a hypervisor * may omit individual fields within a known group if the information is not * available; as an extreme example, a supported group may produce zero * fields for offline domains if the statistics are meaningful only for a * running domain. * * Note that any of the domain list filtering flags in @flags may be rejected * by this function. * * Returns the count of returned statistics structures on success, -1 on error. * The requested data are returned in the @retStats parameter. The returned * array should be freed by the caller. See virDomainStatsRecordListFree. * Note that the count of returned stats may be less than the domain count * provided via @doms. */ int virDomainListGetStats(virDomainPtr *doms, unsigned int stats, virDomainStatsRecordPtr **retStats, unsigned int flags) { virConnectPtr conn = NULL; virDomainPtr *nextdom = doms; unsigned int ndoms = 0; int ret = -1; VIR_DEBUG("doms=%p, stats=0x%x, retStats=%p, flags=0x%x", doms, stats, retStats, flags); virResetLastError(); virCheckNonNullArgGoto(doms, cleanup); virCheckNonNullArgGoto(retStats, cleanup); if (!*doms) { virReportError(VIR_ERR_INVALID_ARG, _("doms array in %s must contain at least one domain"), __FUNCTION__); goto cleanup; } conn = doms[0]->conn; virCheckConnectReturn(conn, -1); if (!conn->driver->connectGetAllDomainStats) { virReportUnsupportedError(); goto cleanup; } while (*nextdom) { virDomainPtr dom = *nextdom; virCheckDomainGoto(dom, cleanup); if (dom->conn != conn) { virReportError(VIR_ERR_INVALID_ARG, "%s", _("domains in 'doms' array must belong to a " "single connection")); goto cleanup; } ndoms++; nextdom++; } ret = conn->driver->connectGetAllDomainStats(conn, doms, ndoms, stats, retStats, flags); cleanup: if (ret < 0) virDispatchError(conn); return ret; } /** * virDomainStatsRecordListFree: * @stats: NULL terminated array of virDomainStatsRecords to free * * Convenience function to free a list of domain stats returned by * virDomainListGetStats and virConnectGetAllDomainStats. */ void virDomainStatsRecordListFree(virDomainStatsRecordPtr *stats) { virDomainStatsRecordPtr *next; if (!stats) return; for (next = stats; *next; next++) { virTypedParamsFree((*next)->params, (*next)->nparams); virDomainFree((*next)->dom); VIR_FREE(*next); } VIR_FREE(stats); } /** * virDomainGetFSInfo: * @dom: a domain object * @info: a pointer to a variable to store an array of mount points information * @flags: extra flags; not used yet, so callers should always pass 0 * * Get a list of mapping information for each mounted file systems within the * specified guest and the disks. * * Returns the number of returned mount points, or -1 in case of error. * On success, the array of the information is stored into @info. The caller is * responsible for calling virDomainFSInfoFree() on each array element, then * calling free() on @info. On error, @info is set to NULL. */ int virDomainGetFSInfo(virDomainPtr dom, virDomainFSInfoPtr **info, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "info=%p, flags=%x", info, flags); virResetLastError(); virCheckDomainReturn(dom, -1); virCheckReadOnlyGoto(dom->conn->flags, error); virCheckNonNullArgGoto(info, error); *info = NULL; if (dom->conn->driver->domainGetFSInfo) { int ret = dom->conn->driver->domainGetFSInfo(dom, info, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(dom->conn); return -1; } /** * virDomainFSInfoFree: * @info: pointer to a FSInfo object * * Frees all the memory occupied by @info. */ void virDomainFSInfoFree(virDomainFSInfoPtr info) { size_t i; if (!info) return; VIR_FREE(info->mountpoint); VIR_FREE(info->name); VIR_FREE(info->fstype); for (i = 0; i < info->ndevAlias; i++) VIR_FREE(info->devAlias[i]); VIR_FREE(info->devAlias); VIR_FREE(info); } /** * virDomainInterfaceAddresses: * @dom: domain object * @ifaces: pointer to an array of pointers pointing to interface objects * @source: one of the virDomainInterfaceAddressesSource constants * @flags: currently unused, pass zero * * Return a pointer to the allocated array of pointers to interfaces * present in given domain along with their IP and MAC addresses. Note that * single interface can have multiple or even 0 IP addresses. * * This API dynamically allocates the virDomainInterfacePtr struct based on * how many interfaces domain @dom has, usually there's 1:1 correlation. The * count of the interfaces is returned as the return value. * * If @source is VIR_DOMAIN_INTERFACE_ADDRESSES_SRC_LEASE, the DHCP lease * file associated with any virtual networks will be examined to obtain * the interface addresses. This only returns data for interfaces which * are connected to virtual networks managed by libvirt. * * If @source is VIR_DOMAIN_INTERFACE_ADDRESSES_SRC_AGENT, a configured * guest agent is needed for successful return from this API. Moreover, if * guest agent is used then the interface name is the one seen by guest OS. * To match such interface with the one from @dom XML use MAC address or IP * range. * * @ifaces->name and @ifaces->hwaddr are never NULL. * * The caller *must* free @ifaces when no longer needed. Usual use case * looks like this: * * virDomainInterfacePtr *ifaces = NULL; * int ifaces_count = 0; * size_t i, j; * virDomainPtr dom = ... obtain a domain here ...; * * if ((ifaces_count = virDomainInterfaceAddresses(dom, &ifaces, * VIR_DOMAIN_INTERFACE_ADDRESSES_SRC_LEASE)) < 0) * goto cleanup; * * ... do something with returned values, for example: * * for (i = 0; i < ifaces_count; i++) { * printf("name: %s", ifaces[i]->name); * if (ifaces[i]->hwaddr) * printf(" hwaddr: %s", ifaces[i]->hwaddr); * * for (j = 0; j < ifaces[i]->naddrs; j++) { * virDomainIPAddressPtr ip_addr = ifaces[i]->addrs + j; * printf("[addr: %s prefix: %d type: %d]", * ip_addr->addr, ip_addr->prefix, ip_addr->type); * } * printf("\n"); * } * * cleanup: * if (ifaces && ifaces_count > 0) * for (i = 0; i < ifaces_count; i++) * virDomainInterfaceFree(ifaces[i]); * free(ifaces); * * Returns the number of interfaces on success, -1 in case of error. */ int virDomainInterfaceAddresses(virDomainPtr dom, virDomainInterfacePtr **ifaces, unsigned int source, unsigned int flags) { VIR_DOMAIN_DEBUG(dom, "ifaces=%p, source=%d, flags=%x", ifaces, source, flags); virResetLastError(); if (ifaces) *ifaces = NULL; virCheckDomainReturn(dom, -1); virCheckNonNullArgGoto(ifaces, error); if (source == VIR_DOMAIN_INTERFACE_ADDRESSES_SRC_AGENT) virCheckReadOnlyGoto(dom->conn->flags, error); if (dom->conn->driver->domainInterfaceAddresses) { int ret; ret = dom->conn->driver->domainInterfaceAddresses(dom, ifaces, source, flags); if (ret < 0) goto error; return ret; } virReportError(VIR_ERR_NO_SUPPORT, __FUNCTION__); error: virDispatchError(dom->conn); return -1; } /** * virDomainInterfaceFree: * @iface: an interface object * * Free the interface object. The data structure is * freed and should not be used thereafter. If @iface * is NULL, then this method has no effect. */ void virDomainInterfaceFree(virDomainInterfacePtr iface) { size_t i; if (!iface) return; VIR_FREE(iface->name); VIR_FREE(iface->hwaddr); for (i = 0; i < iface->naddrs; i++) VIR_FREE(iface->addrs[i].addr); VIR_FREE(iface->addrs); VIR_FREE(iface); } /** * virDomainGetGuestVcpus: * @domain: pointer to domain object * @params: pointer that will be filled with an array of typed parameters * @nparams: pointer filled with number of elements in @params * @flags: currently unused, callers shall pass 0 * * Queries the guest agent for state and information regarding vCPUs from * guest's perspective. The reported data depends on the guest agent * implementation. * * Reported fields stored in @params: * 'vcpus': string containing bitmap representing vCPU ids as reported by the * guest * 'online': string containing bitmap representing online vCPUs as reported * by the guest agent. * 'offlinable': string containing bitmap representing ids of vCPUs that can be * offlined * * This API requires the VM to run. The caller is responsible for calling * virTypedParamsFree to free memory returned in @params. * * Returns 0 on success, -1 on error. */ int virDomainGetGuestVcpus(virDomainPtr domain, virTypedParameterPtr *params, unsigned int *nparams, unsigned int flags) { VIR_DOMAIN_DEBUG(domain, "params=%p, nparams=%p, flags=%x", params, nparams, flags); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); virCheckNonNullArgGoto(params, error); virCheckNonNullArgGoto(nparams, error); if (domain->conn->driver->domainGetGuestVcpus) { int ret; ret = domain->conn->driver->domainGetGuestVcpus(domain, params, nparams, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainSetGuestVcpus: * @domain: pointer to domain object * @cpumap: text representation of a bitmap of vcpus to set * @state: 0 to disable/1 to enable cpus described by @cpumap * @flags: currently unused, callers shall pass 0 * * Sets state of individual vcpus described by @cpumap via guest agent. Other * vcpus are not modified. * * This API requires the VM to run. Various hypervisors or guest agent * implementation may limit to operate on just 1 vCPU per call. * * @cpumap is a list of vCPU numbers. Its syntax is a comma separated list and * a special markup using '-' and '^' (ex. '0-4', '0-3,^2'). The '-' denotes * the range and the '^' denotes exclusive. The expression is sequentially * evaluated, so "0-15,^8" is identical to "9-14,0-7,15" but not identical to * "^8,0-15". * * Note that OSes (notably Linux) may require vCPU 0 to stay online to support * low-level features a S3 sleep. * * Returns 0 on success, -1 on error. */ int virDomainSetGuestVcpus(virDomainPtr domain, const char *cpumap, int state, unsigned int flags) { VIR_DOMAIN_DEBUG(domain, "cpumap='%s' state=%x flags=%x", NULLSTR(cpumap), state, flags); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); virCheckNonNullArgGoto(cpumap, error); if (domain->conn->driver->domainSetGuestVcpus) { int ret; ret = domain->conn->driver->domainSetGuestVcpus(domain, cpumap, state, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; } /** * virDomainSetVcpu: * @domain: pointer to domain object * @vcpumap: text representation of a bitmap of vcpus to set * @state: 0 to disable/1 to enable cpus described by @vcpumap * @flags: bitwise-OR of virDomainModificationImpact * * Enables/disables individual vcpus described by @vcpumap in the hypervisor. * * Various hypervisor implementations may limit to operate on just 1 * hotpluggable entity (which may contain multiple vCPUs on certain platforms). * * Note that OSes and hypervisors may require vCPU 0 to stay online. * * Returns 0 on success, -1 on error. */ int virDomainSetVcpu(virDomainPtr domain, const char *vcpumap, int state, unsigned int flags) { VIR_DOMAIN_DEBUG(domain, "vcpumap='%s' state=%i flags=%x", NULLSTR(vcpumap), state, flags); virResetLastError(); virCheckDomainReturn(domain, -1); virCheckReadOnlyGoto(domain->conn->flags, error); virCheckNonNullArgGoto(vcpumap, error); if (domain->conn->driver->domainSetVcpu) { int ret; ret = domain->conn->driver->domainSetVcpu(domain, vcpumap, state, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(domain->conn); return -1; }