/* * xend_internal.c: access to Xen though the Xen Daemon interface * * Copyright (C) 2005 * * Anthony Liguori * * This file is subject to the terms and conditions of the GNU Lesser General * Public License. See the file COPYING.LIB in the main directory of this * archive for more details. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "libvirt/libvirt.h" #include "driver.h" #include "internal.h" #include "sexpr.h" #include "xml.h" #include "xend_internal.h" #include "xen_internal.h" /* for DOM0_INTERFACE_VERSION */ #include "xs_internal.h" /* To extract VNC port & Serial console TTY */ #ifndef PROXY static const char * xenDaemonGetType(virConnectPtr conn); static int xenDaemonListDomains(virConnectPtr conn, int *ids, int maxids); static int xenDaemonNumOfDomains(virConnectPtr conn); static virDomainPtr xenDaemonLookupByID(virConnectPtr conn, int id); static virDomainPtr xenDaemonLookupByUUID(virConnectPtr conn, const unsigned char *uuid); static virDomainPtr xenDaemonCreateLinux(virConnectPtr conn, const char *xmlDesc, unsigned int flags); #endif /* PROXY */ #ifndef PROXY static virDriver xenDaemonDriver = { VIR_DRV_XEN_DAEMON, "XenDaemon", (DOM0_INTERFACE_VERSION >> 24) * 1000000 + ((DOM0_INTERFACE_VERSION >> 16) & 0xFF) * 1000 + (DOM0_INTERFACE_VERSION & 0xFFFF), NULL, /* init */ xenDaemonOpen, /* open */ xenDaemonClose, /* close */ xenDaemonGetType, /* type */ xenDaemonGetVersion, /* version */ xenDaemonNodeGetInfo, /* nodeGetInfo */ xenDaemonListDomains, /* listDomains */ xenDaemonNumOfDomains, /* numOfDomains */ xenDaemonCreateLinux, /* domainCreateLinux */ xenDaemonLookupByID, /* domainLookupByID */ xenDaemonLookupByUUID, /* domainLookupByUUID */ xenDaemonDomainLookupByName, /* domainLookupByName */ xenDaemonDomainSuspend, /* domainSuspend */ xenDaemonDomainResume, /* domainResume */ xenDaemonDomainShutdown, /* domainShutdown */ xenDaemonDomainReboot, /* domainReboot */ xenDaemonDomainDestroy, /* domainDestroy */ NULL, /* domainFree */ NULL, /* domainGetName */ NULL, /* domainGetID */ NULL, /* domainGetUUID */ NULL, /* domainGetOSType */ xenDaemonDomainGetMaxMemory, /* domainGetMaxMemory */ xenDaemonDomainSetMaxMemory, /* domainSetMaxMemory */ xenDaemonDomainSetMemory, /* domainMaxMemory */ xenDaemonDomainGetInfo, /* domainGetInfo */ xenDaemonDomainSave, /* domainSave */ xenDaemonDomainRestore, /* domainRestore */ xenDaemonDomainSetVcpus, /* domainSetVcpus */ xenDaemonDomainPinVcpu, /* domainPinVcpu */ xenDaemonDomainGetVcpus, /* domainGetVcpus */ xenDaemonDomainDumpXML, /* domainDumpXML */ }; /** * xenDaemonRegister: * * Registers the xenDaemon driver */ void xenDaemonRegister(void) { virRegisterDriver(&xenDaemonDriver); } #endif /* !PROXY */ /** * xend_connection_type: * * The connection to the Xen Daemon can be done either though a normal TCP * socket or a local domain direct connection. */ enum xend_connection_type { XEND_DOMAIN, XEND_TCP, }; /** * xend: * * Structure associated to a connection to a Xen daemon */ struct xend { int len; int type; struct sockaddr *addr; struct sockaddr_un addr_un; struct sockaddr_in addr_in; }; /** * virXendError: * @conn: the connection if available * @error: the error noumber * @info: extra information string * * Handle an error at the xend daemon interface */ static void virXendError(virConnectPtr conn, virErrorNumber error, const char *info) { const char *errmsg; if (error == VIR_ERR_OK) return; errmsg = __virErrorMsg(error, info); __virRaiseError(conn, NULL, VIR_FROM_XEND, error, VIR_ERR_ERROR, errmsg, info, NULL, 0, 0, errmsg, info); } /** * virXendErrorInt: * @conn: the connection if available * @error: the error noumber * @val: extra integer information * * Handle an error at the xend daemon interface */ static void virXendErrorInt(virConnectPtr conn, virErrorNumber error, int val) { const char *errmsg; if (error == VIR_ERR_OK) return; errmsg = __virErrorMsg(error, NULL); __virRaiseError(conn, NULL, VIR_FROM_XEND, error, VIR_ERR_ERROR, errmsg, NULL, NULL, val, 0, errmsg, val); } #define foreach(iterator, start) \ for (_for_i = (start), *iterator = (start)->car; \ _for_i->kind == SEXPR_CONS; \ _for_i = _for_i->cdr, iterator = _for_i->car) #define foreach_node(iterator, start, path) \ foreach(iterator, start) \ if (sexpr_lookup(iterator, path)) /** * do_connect: * @xend: pointer to the Xen Daemon structure * * Internal routine to (re)connect to the daemon * * Returns the socket file descriptor or -1 in case of error */ static int do_connect(virConnectPtr xend) { int s; int serrno; int no_slow_start = 1; s = socket(xend->type, SOCK_STREAM, 0); if (s == -1) { virXendError(xend, VIR_ERR_INTERNAL_ERROR, "failed to create a socket"); return -1; } /* * try to desactivate slow-start */ setsockopt(s, IPPROTO_TCP, TCP_NODELAY, (void *)&no_slow_start, sizeof(no_slow_start)); if (connect(s, xend->addr, xend->len) == -1) { serrno = errno; close(s); errno = serrno; s = -1; } return s; } /** * wr_sync: * @fd: the file descriptor * @buffer: the I/O buffer * @size: the size of the I/O * @do_read: write operation if 0, read operation otherwise * * Do a synchronous read or write on the file descriptor * * Returns the number of bytes exchanged, or -1 in case of error */ static size_t wr_sync(int fd, void *buffer, size_t size, int do_read) { size_t offset = 0; while (offset < size) { ssize_t len; if (do_read) { len = read(fd, ((char *) buffer) + offset, size - offset); } else { len = write(fd, ((char *) buffer) + offset, size - offset); } /* recoverable error, retry */ if ((len == -1) && ((errno == EAGAIN) || (errno == EINTR))) { continue; } /* eof */ if (len == 0) { break; } /* unrecoverable error */ if (len == -1) { if (do_read) virXendError(NULL, VIR_ERR_INTERNAL_ERROR, "faid to read from Xen Daemon"); else virXendError(NULL, VIR_ERR_INTERNAL_ERROR, "faid to read from Xen Daemon"); return (-1); } offset += len; } return offset; } /** * sread: * @fd: the file descriptor * @buffer: the I/O buffer * @size: the size of the I/O * * Internal routine to do a synchronous read * * Returns the number of bytes read, or -1 in case of error */ static ssize_t sread(int fd, void *buffer, size_t size) { return wr_sync(fd, buffer, size, 1); } /** * swrite: * @fd: the file descriptor * @buffer: the I/O buffer * @size: the size of the I/O * * Internal routine to do a synchronous write * * Returns the number of bytes written, or -1 in case of error */ static ssize_t swrite(int fd, const void *buffer, size_t size) { return wr_sync(fd, (void *) buffer, size, 0); } /** * swrites: * @fd: the file descriptor * @string: the string to write * * Internal routine to do a synchronous write of a string * * Returns the number of bytes written, or -1 in case of error */ static ssize_t swrites(int fd, const char *string) { return swrite(fd, string, strlen(string)); } /** * sreads: * @fd: the file descriptor * @buffer: the I/O buffer * @n_buffer: the size of the I/O buffer * * Internal routine to do a synchronous read of a line * * Returns the number of bytes read, or -1 in case of error */ static ssize_t sreads(int fd, char *buffer, size_t n_buffer) { size_t offset; if (n_buffer < 1) return (-1); for (offset = 0; offset < (n_buffer - 1); offset++) { ssize_t ret; ret = sread(fd, buffer + offset, 1); if (ret == 0) break; else if (ret == -1) return ret; if (buffer[offset] == '\n') { offset++; break; } } buffer[offset] = 0; return offset; } static int istartswith(const char *haystack, const char *needle) { return (strncasecmp(haystack, needle, strlen(needle)) == 0); } /** * xend_req: * @fd: the file descriptor * @content: the buffer to store the content * @n_content: the size of the buffer * * Read the HTTP response from a Xen Daemon request. * * Returns the HTTP return code. */ static int xend_req(int fd, char *content, size_t n_content) { char buffer[4096]; int content_length = -1; int retcode = 0; while (sreads(fd, buffer, sizeof(buffer)) > 0) { if (strcmp(buffer, "\r\n") == 0) break; if (istartswith(buffer, "Content-Length: ")) content_length = atoi(buffer + 16); else if (istartswith(buffer, "HTTP/1.1 ")) retcode = atoi(buffer + 9); } if (content_length > -1) { ssize_t ret; if ((unsigned int) content_length > (n_content + 1)) content_length = n_content - 1; ret = sread(fd, content, content_length); if (ret < 0) return -1; content[ret] = 0; } else { content[0] = 0; } return retcode; } /** * xend_get: * @xend: pointer to the Xen Daemon structure * @path: the path used for the HTTP request * @content: the buffer to store the content * @n_content: the size of the buffer * * Do an HTTP GET RPC with the Xen Daemon * * Returns the HTTP return code or -1 in case or error. */ static int xend_get(virConnectPtr xend, const char *path, char *content, size_t n_content) { int ret; int s = do_connect(xend); if (s == -1) return s; swrites(s, "GET "); swrites(s, path); swrites(s, " HTTP/1.1\r\n"); swrites(s, "Host: localhost:8000\r\n" "Accept-Encoding: identity\r\n" "Content-Type: application/x-www-form-urlencoded\r\n" "\r\n"); ret = xend_req(s, content, n_content); close(s); if ((ret < 0) || (ret >= 300)) { virXendError(NULL, VIR_ERR_GET_FAILED, content); } return ret; } #ifndef PROXY /** * xend_post: * @xend: pointer to the Xen Daemon structure * @path: the path used for the HTTP request * @ops: the information sent for the POST * @content: the buffer to store the content * @n_content: the size of the buffer * * Do an HTTP POST RPC with the Xen Daemon, this usually makes changes at the * Xen level. * * Returns the HTTP return code or -1 in case or error. */ static int xend_post(virConnectPtr xend, const char *path, const char *ops, char *content, size_t n_content) { char buffer[100]; int ret; int s = do_connect(xend); if (s == -1) return s; swrites(s, "POST "); swrites(s, path); swrites(s, " HTTP/1.1\r\n"); swrites(s, "Host: localhost:8000\r\n" "Accept-Encoding: identity\r\n" "Content-Type: application/x-www-form-urlencoded\r\n" "Content-Length: "); snprintf(buffer, sizeof(buffer), "%d", (int) strlen(ops)); swrites(s, buffer); swrites(s, "\r\n\r\n"); swrites(s, ops); ret = xend_req(s, content, n_content); close(s); if ((ret < 0) || (ret >= 300)) { virXendError(NULL, VIR_ERR_POST_FAILED, content); } else if ((ret = 202) && (strstr(content, "failed") != NULL)) { virXendError(NULL, VIR_ERR_POST_FAILED, content); ret = -1; } return ret; } #endif /* ! PROXY */ /** * http2unix: * @ret: the http return code * * Convert the HTTP return code to 0/-1 and set errno if needed * * Return -1 in case of error code 0 otherwise */ static int http2unix(int ret) { switch (ret) { case -1: break; case 200: case 201: case 202: return 0; case 404: errno = ESRCH; break; default: virXendErrorInt(NULL, VIR_ERR_HTTP_ERROR, ret); errno = EINVAL; break; } return -1; } #ifndef PROXY /** * xend_op_ext2: * @xend: pointer to the Xen Daemon structure * @path: path for the object * @error: buffer for the error output * @n_error: size of @error * @key: the key for the operation * @ap: input values to pass to the operation * * internal routine to run a POST RPC operation to the Xen Daemon * * Returns 0 in case of success, -1 in case of failure. */ static int xend_op_ext2(virConnectPtr xend, const char *path, char *error, size_t n_error, const char *key, va_list ap) { char ops[1024]; const char *k = key, *v; int offset = 0; while (k) { v = va_arg(ap, const char *); offset += snprintf(ops + offset, sizeof(ops) - offset, "%s", k); offset += snprintf(ops + offset, sizeof(ops) - offset, "%s", "="); offset += snprintf(ops + offset, sizeof(ops) - offset, "%s", v); k = va_arg(ap, const char *); if (k) offset += snprintf(ops + offset, sizeof(ops) - offset, "%s", "&"); } return http2unix(xend_post(xend, path, ops, error, n_error)); } /** * xend_node_op: * @xend: pointer to the Xen Daemon structure * @path: path for the object * @key: the key for the operation * @...: input values to pass to the operation * * internal routine to run a POST RPC operation to the Xen Daemon * * Returns 0 in case of success, -1 in case of failure. */ static int xend_node_op(virConnectPtr xend, const char *path, const char *key, ...) { va_list ap; int ret; char error[1024]; va_start(ap, key); ret = xend_op_ext2(xend, path, error, sizeof(error), key, ap); va_end(ap); return ret; } /** * xend_node_op: * @xend: pointer to the Xen Daemon structure * @name: the domain name target of this operation * @error: buffer for the error output * @n_error: size of @error * @key: the key for the operation * @ap: input values to pass to the operation * @...: input values to pass to the operation * * internal routine to run a POST RPC operation to the Xen Daemon targetting * a given domain. * * Returns 0 in case of success, -1 in case of failure. */ static int xend_op_ext(virConnectPtr xend, const char *name, char *error, size_t n_error, const char *key, ...) { char buffer[1024]; va_list ap; int ret; snprintf(buffer, sizeof(buffer), "/xend/domain/%s", name); va_start(ap, key); ret = xend_op_ext2(xend, buffer, error, n_error, key, ap); va_end(ap); return ret; } #define xend_op(xend, name, key, ...) ({char error[1024]; xend_op_ext(xend, name, error, sizeof(error), key, __VA_ARGS__);}) #endif /* ! PROXY */ /** * sexpr_get: * @xend: pointer to the Xen Daemon structure * @fmt: format string for the path of the operation * @...: extra data to build the path of the operation * * Internal routine to run a simple GET RPC operation to the Xen Daemon * * Returns a parsed S-Expression in case of success, NULL in case of failure */ static struct sexpr * sexpr_get(virConnectPtr xend, const char *fmt, ...) { char buffer[4096]; char path[1024]; va_list ap; int ret; va_start(ap, fmt); vsnprintf(path, sizeof(path), fmt, ap); va_end(ap); ret = xend_get(xend, path, buffer, sizeof(buffer)); ret = http2unix(ret); if (ret == -1) return NULL; return string2sexpr(buffer); } /** * sexpr_int: * @sexpr: an S-Expression * @name: the name for the value * * convenience function to lookup an int value in the S-Expression * * Returns the value found or 0 if not found (but may not be an error) */ static int sexpr_int(struct sexpr *sexpr, const char *name) { const char *value = sexpr_node(sexpr, name); if (value) { return strtol(value, NULL, 0); } return 0; } /** * sexpr_float: * @sexpr: an S-Expression * @name: the name for the value * * convenience function to lookup a float value in the S-Expression * * Returns the value found or 0 if not found (but may not be an error) */ static double sexpr_float(struct sexpr *sexpr, const char *name) { const char *value = sexpr_node(sexpr, name); if (value) { return strtod(value, NULL); } return 0; } /** * sexpr_u64: * @sexpr: an S-Expression * @name: the name for the value * * convenience function to lookup a 64bits unsigned int value in the * S-Expression * * Returns the value found or 0 if not found (but may not be an error) */ static uint64_t sexpr_u64(struct sexpr *sexpr, const char *name) { const char *value = sexpr_node(sexpr, name); if (value) { return strtoll(value, NULL, 0); } return 0; } static int sexpr_strlen(struct sexpr *sexpr, const char *path) { const char *r = sexpr_node(sexpr, path); return r ? (strlen(r) + 1) : 0; } static const char * sexpr_strcpy(char **ptr, struct sexpr *node, const char *path) { const char *ret = sexpr_node(node, path); if (ret) { strcpy(*ptr, ret); ret = *ptr; *ptr += (strlen(ret) + 1); } return ret; } /** * sexpr_node_system: * @sexpr: an S-Expression * @name: the name for the value * * convenience function to lookup a value describing the kind of system * from the S-Expression * * Returns the value found or 0 if not found (but may not be an error) */ static enum xend_node_system sexpr_node_system(struct sexpr *node, const char *path) { const char *syst = sexpr_node(node, path); if (syst) { if (strcmp(syst, "Linux") == 0) { return XEND_SYSTEM_LINUX; } } return XEND_DEFAULT; } /** * sexpr_uuid: * @ptr: where to store the UUID, incremented * @sexpr: an S-Expression * @name: the name for the value * * convenience function to lookup an UUID value from the S-Expression * * Returns a pointer to the stored UUID or NULL in case of error. */ static unsigned char * sexpr_uuid(char **ptr, struct sexpr *node, const char *path) { const char *r = sexpr_node(node, path); int uuid[16]; unsigned char *dst_uuid = NULL; int ret; int i; memset(uuid, 0xFF, sizeof(uuid)); if (r == NULL) goto error; ret = sscanf(r, "%02x%02x%02x%02x" "%02x%02x%02x%02x" "%02x%02x%02x%02x" "%02x%02x%02x%02x", uuid + 0, uuid + 1, uuid + 2, uuid + 3, uuid + 4, uuid + 5, uuid + 6, uuid + 7, uuid + 8, uuid + 9, uuid + 10, uuid + 11, uuid + 12, uuid + 13, uuid + 14, uuid + 15); if (ret == 16) goto done; ret = sscanf(r, "%02x%02x%02x%02x-" "%02x%02x-" "%02x%02x-" "%02x%02x-" "%02x%02x%02x%02x%02x%02x", uuid + 0, uuid + 1, uuid + 2, uuid + 3, uuid + 4, uuid + 5, uuid + 6, uuid + 7, uuid + 8, uuid + 9, uuid + 10, uuid + 11, uuid + 12, uuid + 13, uuid + 14, uuid + 15); if (ret == 16) goto done; ret = sscanf(r, "%02x%02x%02x%02x-" "%02x%02x%02x%02x-" "%02x%02x%02x%02x-" "%02x%02x%02x%02x", uuid + 0, uuid + 1, uuid + 2, uuid + 3, uuid + 4, uuid + 5, uuid + 6, uuid + 7, uuid + 8, uuid + 9, uuid + 10, uuid + 11, uuid + 12, uuid + 13, uuid + 14, uuid + 15); if (ret != 16) goto error; done: dst_uuid = (unsigned char *) *ptr; *ptr += 16; for (i = 0; i < 16; i++) dst_uuid[i] = uuid[i] & 0xFF; error: return dst_uuid; } #ifndef PROXY /** * urlencode: * @string: the input URL * * Encode an URL see RFC 2396 and following * * Returns the new string or NULL in case of error. */ static char * urlencode(const char *string) { size_t len = strlen(string); char *buffer = malloc(len * 3 + 1); char *ptr = buffer; size_t i; if (buffer == NULL) return (NULL); for (i = 0; i < len; i++) { switch (string[i]) { case ' ': case '\n': sprintf(ptr, "%%%02x", string[i]); ptr += 3; break; default: *ptr = string[i]; ptr++; } } *ptr = 0; return buffer; } #endif /* ! PROXY */ /* PUBLIC FUNCTIONS */ /** * xenDaemonOpen_unix: * @conn: an existing virtual connection block * @path: the path for the Xen Daemon socket * * Creates a localhost Xen Daemon connection * Note: this doesn't try to check if the connection actually works * * Returns 0 in case of success, -1 in case of error. */ int xenDaemonOpen_unix(virConnectPtr conn, const char *path) { struct sockaddr_un *addr; if ((conn == NULL) || (path == NULL)) return (-1); addr = &conn->addr_un; addr->sun_family = AF_UNIX; memset(addr->sun_path, 0, sizeof(addr->sun_path)); strncpy(addr->sun_path, path, sizeof(addr->sun_path)); conn->len = sizeof(addr->sun_family) + strlen(addr->sun_path); if ((unsigned int) conn->len > sizeof(addr->sun_path)) conn->len = sizeof(addr->sun_path); conn->addr = (struct sockaddr *) addr; conn->type = PF_UNIX; return (0); } #ifndef PROXY /** * xenDaemonOpen_tcp: * @conn: an existing virtual connection block * @host: the host name for the Xen Daemon * @port: the port * * Creates a possibly remote Xen Daemon connection * Note: this doesn't try to check if the connection actually works * * Returns 0 in case of success, -1 in case of error. */ int xenDaemonOpen_tcp(virConnectPtr conn, const char *host, int port) { struct in_addr ip; struct hostent *pent; if ((conn == NULL) || (host == NULL) || (port <= 0)) return (-1); pent = gethostbyname(host); if (pent == NULL) { if (inet_aton(host, &ip) == 0) { virXendError(conn, VIR_ERR_UNKNOWN_HOST, host); errno = ESRCH; return (-1); } } else { memcpy(&ip, pent->h_addr_list[0], sizeof(ip)); } conn->len = sizeof(struct sockaddr_in); conn->addr = (struct sockaddr *) &conn->addr_in; conn->type = PF_INET; conn->addr_in.sin_family = AF_INET; conn->addr_in.sin_port = htons(port); memcpy(&conn->addr_in.sin_addr, &ip, sizeof(ip)); return (0); } /** * xend_wait_for_devices: * @xend: pointer to the Xem Daemon block * @name: name for the domain * * Block the domain until all the virtual devices are ready. This operation * is needed when creating a domain before resuming it. * * Returns 0 in case of success, -1 (with errno) in case of error. */ int xend_wait_for_devices(virConnectPtr xend, const char *name) { return xend_op(xend, name, "op", "wait_for_devices", NULL); } /** * xend_rename: * @xend: pointer to the Xem Daemon block * @old: old name for the domain * @new: new name for the domain * * Rename the domain * * Returns 0 in case of success, -1 (with errno) in case of error. */ int xend_rename(virConnectPtr xend, const char *old, const char *new) { if ((xend == NULL) || (old == NULL) || (new == NULL)) { /* this should be caught at the interface but ... */ virXendError(xend, VIR_ERR_INVALID_ARG, __FUNCTION__); return (-1); } return xend_op(xend, old, "op", "rename", "name", new, NULL); } /** * xend_sysrq: * @xend: pointer to the Xem Daemon block * @name: name for the domain * @key: the SysReq key * * Send a SysReq key which is used to debug Linux kernels running in the domain * * Returns 0 in case of success, -1 (with errno) in case of error. */ int xend_sysrq(virConnectPtr xend, const char *name, const char *key) { if ((xend == NULL) || (name == NULL) || (key == NULL)) { /* this should be caught at the interface but ... */ virXendError(xend, VIR_ERR_INVALID_ARG, __FUNCTION__); return (-1); } return xend_op(xend, name, "op", "sysrq", "key", key, NULL); } #endif /* PROXY */ /** * xenDaemonListDomainsOld: * @xend: pointer to the Xem Daemon block * * This method will return an array of names of currently running * domains. The memory should be released will a call to free(). * * Returns a list of names or NULL in case of error. */ char ** xenDaemonListDomainsOld(virConnectPtr xend) { size_t extra = 0; struct sexpr *root = NULL; char **ret = NULL; int count = 0; int i; char *ptr; struct sexpr *_for_i, *node; root = sexpr_get(xend, "/xend/domain"); if (root == NULL) goto error; for (_for_i = root, node = root->car; _for_i->kind == SEXPR_CONS; _for_i = _for_i->cdr, node = _for_i->car) { if (node->kind != SEXPR_VALUE) continue; extra += strlen(node->value) + 1; count++; } ptr = malloc((count + 1) * sizeof(char *) + extra); if (ptr == NULL) goto error; ret = (char **) ptr; ptr += sizeof(char *) * (count + 1); i = 0; for (_for_i = root, node = root->car; _for_i->kind == SEXPR_CONS; _for_i = _for_i->cdr, node = _for_i->car) { if (node->kind != SEXPR_VALUE) continue; ret[i] = ptr; strcpy(ptr, node->value); ptr += strlen(node->value) + 1; i++; } ret[i] = NULL; error: sexpr_free(root); return ret; } #ifndef PROXY /** * xenDaemonDomainCreateLinux: * @xend: A xend instance * @sexpr: An S-Expr description of the domain. * * This method will create a domain based the passed in description. The * domain will be paused after creation and must be unpaused with * xenDaemonResumeDomain() to begin execution. * This method may be deprecated once switching to XML-RPC based communcations * with xend. * * Returns 0 for success, -1 (with errno) on error */ int xenDaemonDomainCreateLinux(virConnectPtr xend, const char *sexpr) { int ret, serrno; char *ptr; ptr = urlencode(sexpr); if (ptr == NULL) { /* this should be caught at the interface but ... */ virXendError(xend, VIR_ERR_INTERNAL_ERROR, "Failed to urlencode the create S-Expr"); return (-1); } ret = xend_op(xend, "", "op", "create", "config", ptr, NULL); serrno = errno; free(ptr); errno = serrno; return ret; } #endif /* ! PROXY */ /** * xenDaemonDomainLookupByName_ids: * @xend: A xend instance * @domname: The name of the domain * @uuid: return value for the UUID if not NULL * * This method looks up the id of a domain * * Returns the id on success; -1 (with errno) on error */ int xenDaemonDomainLookupByName_ids(virConnectPtr xend, const char *domname, unsigned char *uuid) { struct sexpr *root; const char *value; int ret = -1; if (uuid != NULL) memset(uuid, 0, 16); root = sexpr_get(xend, "/xend/domain/%s?detail=1", domname); if (root == NULL) goto error; value = sexpr_node(root, "domain/domid"); if (value == NULL) { virXendError(xend, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, missing domid"); goto error; } ret = strtol(value, NULL, 0); if ((ret == 0) && (value[0] != '0')) { virXendError(xend, VIR_ERR_INTERNAL_ERROR, "domain information incorrect domid not numberic"); ret = -1; } else if (uuid != NULL) { char **ptr = (char **) &uuid; if (sexpr_uuid(ptr, root, "domain/uuid") == NULL) { virXendError(xend, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, missing uuid"); } } error: sexpr_free(root); return (ret); } /** * xenDaemonDomainLookupByID: * @xend: A xend instance * @id: The id of the domain * @name: return value for the name if not NULL * @uuid: return value for the UUID if not NULL * * This method looks up the name of a domain based on its id * * Returns the 0 on success; -1 (with errno) on error */ int xenDaemonDomainLookupByID(virConnectPtr xend, int id, char **domname, unsigned char *uuid) { const char *name = NULL; char *dst_uuid; struct sexpr *root; memset(uuid, 0, 16); root = sexpr_get(xend, "/xend/domain/%d?detail=1", id); if (root == NULL) goto error; name = sexpr_node(root, "domain/name"); if (name == NULL) { virXendError(xend, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, missing name"); goto error; } if (domname) *domname = strdup(name); dst_uuid = (char *)&uuid[0]; if (sexpr_uuid(&dst_uuid, root, "domain/uuid") == NULL) { virXendError(xend, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, missing uuid"); goto error; } sexpr_free(root); return (0); error: sexpr_free(root); if (domname && *domname) { free(*domname); *domname = NULL; } return (-1); } /** * xend_get_node: * @xend: A xend instance * * This method returns information about the physical host * machine running Xen. * * Returns node info on success; NULL (with errno) on error */ struct xend_node * xend_get_node(virConnectPtr xend) { struct sexpr *root; struct xend_node *node = NULL; size_t size; char *ptr; root = sexpr_get(xend, "/xend/node/"); if (root == NULL) goto error; size = sizeof(struct xend_node); size += sexpr_strlen(root, "node/host"); size += sexpr_strlen(root, "node/release"); size += sexpr_strlen(root, "node/version"); size += sexpr_strlen(root, "node/machine"); size += sexpr_strlen(root, "node/hw_caps"); size += sexpr_strlen(root, "node/xen_caps"); size += sexpr_strlen(root, "node/platform_params"); size += sexpr_strlen(root, "node/xen_changeset"); size += sexpr_strlen(root, "node/cc_compiler"); size += sexpr_strlen(root, "node/cc_compile_by"); size += sexpr_strlen(root, "node/cc_compile_domain"); size += sexpr_strlen(root, "node/cc_compile_date"); ptr = malloc(size); if (ptr == NULL) goto error; node = (struct xend_node *) ptr; ptr += sizeof(struct xend_node); node->system = sexpr_node_system(root, "node/system"); node->host = sexpr_strcpy(&ptr, root, "node/host"); node->release = sexpr_strcpy(&ptr, root, "node/release"); node->version = sexpr_strcpy(&ptr, root, "node/version"); node->machine = sexpr_strcpy(&ptr, root, "node/machine"); node->nr_cpus = sexpr_int(root, "node/nr_cpus"); node->nr_nodes = sexpr_int(root, "node/nr_nodes"); node->sockets_per_node = sexpr_int(root, "node/sockets_per_node"); node->cores_per_socket = sexpr_int(root, "node/cores_per_socket"); node->threads_per_core = sexpr_int(root, "node/threads_per_core"); node->cpu_mhz = sexpr_int(root, "node/cpu_mhz"); node->hw_caps = sexpr_strcpy(&ptr, root, "node/hw_caps"); node->total_memory = sexpr_u64(root, "node/total_memory") << 12; node->free_memory = sexpr_u64(root, "node/free_memory") << 12; node->xen_major = sexpr_int(root, "node/xen_major"); node->xen_minor = sexpr_int(root, "node/xen_minor"); { const char *tmp; tmp = sexpr_node(root, "node/xen_extra"); if (tmp) { if (*tmp == '.') tmp++; node->xen_extra = atoi(tmp); } else { node->xen_extra = 0; } } node->xen_caps = sexpr_strcpy(&ptr, root, "node/xen_caps"); node->platform_params = sexpr_strcpy(&ptr, root, "node/platform_params"); node->xen_changeset = sexpr_strcpy(&ptr, root, "node/xen_changeset"); node->cc_compiler = sexpr_strcpy(&ptr, root, "node/cc_compiler"); node->cc_compile_by = sexpr_strcpy(&ptr, root, "node/cc_compile_by"); node->cc_compile_domain = sexpr_strcpy(&ptr, root, "node/cc_compile_domain"); node->cc_compile_date = sexpr_strcpy(&ptr, root, "node/cc_compile_date"); error: sexpr_free(root); return node; } #ifndef PROXY /** * xend_node_shutdown: * @xend: A xend instance * * This method shuts down the physical machine running Xen. * * Returns 0 on success; -1 (with errno) on error */ int xend_node_shutdown(virConnectPtr xend) { return xend_node_op(xend, "/xend/node/", "op", "halt", NULL); } /** * xend_node_restart: * @xend: A xend instance * * This method restarts the physical machine running Xen. * * Returns 0 on success; -1 (with errno) on error */ int xend_node_restart(virConnectPtr xend) { return xend_node_op(xend, "/xend/node/", "op", "restart", NULL); } /** * xend_dmesg: * @xend: A xend instance * @buffer: A buffer to hold the messages * @n_buffer: Size of buffer (including null terminator) * * This function will place the debugging messages from the * hypervisor into a buffer with a null terminator. * * Returns 0 on success; -1 (with errno) on error */ int xend_dmesg(virConnectPtr xend, char *buffer, size_t n_buffer) { return http2unix(xend_get(xend, "/xend/node/dmesg", buffer, n_buffer)); } /** * xend_dmesg_clear: * @xend: A xend instance * * This function will clear the debugging message ring queue * in the hypervisor. * * Returns 0 on success; -1 (with errno) on error */ int xend_dmesg_clear(virConnectPtr xend) { return xend_node_op(xend, "/xend/node/dmesg", "op", "clear", NULL); } /** * xend_log: * @xend: A xend instance * @buffer: The buffer to hold the messages * @n_buffer: Size of buffer (including null terminator) * * This function will place the Xend debugging messages into * a buffer with a null terminator. * * Returns 0 on success; -1 (with errno) on error */ int xend_log(virConnectPtr xend, char *buffer, size_t n_buffer) { return http2unix(xend_get(xend, "/xend/node/log", buffer, n_buffer)); } #endif /* PROXY */ /***************************************************************** ****** ****** ****** ****** Needed helper code ****** ****** ****** ****** *****************************************************************/ /** * xend_parse_sexp_desc_os: * @node: the root of the parsed S-Expression * @buf: output buffer object * @hvm: true or 1 if no contains HVM S-Expression * * Parse the xend sexp for description of os and append it to buf. * * Returns 0 in case of success and -1 in case of error */ static int xend_parse_sexp_desc_os(struct sexpr *node, virBufferPtr buf, int hvm) { const char *tmp; if (node == NULL || buf == NULL) { return(-1); } virBufferAdd(buf, " \n", 7); if (hvm) { virBufferVSprintf(buf, " hvm\n"); tmp = sexpr_node(node, "domain/image/hvm/kernel"); if (tmp == NULL) { virXendError(NULL, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, missing kernel"); return(-1); } virBufferVSprintf(buf, " %s\n", tmp); tmp = sexpr_node(node, "domain/image/hvm/boot"); if ((tmp != NULL) && (tmp[0] != 0)) { if (tmp[0] == 'a') /* XXX no way to deal with boot from 2nd floppy */ virBufferAdd(buf, " \n", 21 ); else if (tmp[0] == 'c') /* * Don't know what to put here. Say the vm has been given 3 * disks - hda, hdb, hdc. How does one identify the boot disk? * We're going to assume that first disk is the boot disk since * this is most common practice */ virBufferAdd(buf, " \n", 21 ); else if (strcmp(tmp, "d") == 0) virBufferAdd(buf, " \n", 24 ); } } else { virBufferVSprintf(buf, " linux\n"); tmp = sexpr_node(node, "domain/image/linux/kernel"); if (tmp == NULL) { virXendError(NULL, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, missing kernel"); return(-1); } virBufferVSprintf(buf, " %s\n", tmp); tmp = sexpr_node(node, "domain/image/linux/ramdisk"); if ((tmp != NULL) && (tmp[0] != 0)) virBufferVSprintf(buf, " %s\n", tmp); tmp = sexpr_node(node, "domain/image/linux/root"); if ((tmp != NULL) && (tmp[0] != 0)) virBufferVSprintf(buf, " %s\n", tmp); tmp = sexpr_node(node, "domain/image/linux/args"); if ((tmp != NULL) && (tmp[0] != 0)) virBufferVSprintf(buf, " %s\n", tmp); } virBufferAdd(buf, " \n", 8); return(0); } /** * xend_parse_sexp_desc: * @domain: the domain associated with the XML * @root: the root of the parsed S-Expression * * Parse the xend sexp description and turn it into the XML format similar * to the one unsed for creation. * * Returns the 0 terminated XML string or NULL in case of error. * the caller must free() the returned value. */ static char * xend_parse_sexp_desc(virConnectPtr conn, struct sexpr *root) { char *ret; struct sexpr *cur, *node; const char *tmp; char *tty; virBuffer buf; int hvm = 0; int domid = -1; if (root == NULL) { /* ERROR */ return (NULL); } ret = malloc(4000); if (ret == NULL) return (NULL); buf.content = ret; buf.size = 4000; buf.use = 0; domid = sexpr_int(root, "domain/domid"); virBufferVSprintf(&buf, "\n", domid); tmp = sexpr_node(root, "domain/name"); if (tmp == NULL) { virXendError(NULL, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, missing name"); goto error; } virBufferVSprintf(&buf, " %s\n", tmp); tmp = sexpr_node(root, "domain/uuid"); if (tmp != NULL) { char compact[33]; int i, j; for (i = 0, j = 0;(i < 32) && (tmp[j] != 0);j++) { if (((tmp[j] >= '0') && (tmp[j] <= '9')) || ((tmp[j] >= 'a') && (tmp[j] <= 'f'))) compact[i++] = tmp[j]; else if ((tmp[j] >= 'A') && (tmp[j] <= 'F')) compact[i++] = tmp[j] + 'a' - 'A'; } compact[i] = 0; if (i > 0) virBufferVSprintf(&buf, " %s\n", compact); } tmp = sexpr_node(root, "domain/bootloader"); if (tmp != NULL) virBufferVSprintf(&buf, " %s\n", tmp); if (sexpr_lookup(root, "domain/image")) { hvm = sexpr_lookup(root, "domain/image/hvm") ? 1 : 0; xend_parse_sexp_desc_os(root, &buf, hvm); } virBufferVSprintf(&buf, " %d\n", (int) (sexpr_u64(root, "domain/maxmem") << 10)); virBufferVSprintf(&buf, " %d\n", sexpr_int(root, "domain/vcpus")); tmp = sexpr_node(root, "domain/on_poweroff"); if (tmp != NULL) virBufferVSprintf(&buf, " %s\n", tmp); tmp = sexpr_node(root, "domain/on_reboot"); if (tmp != NULL) virBufferVSprintf(&buf, " %s\n", tmp); tmp = sexpr_node(root, "domain/on_crash"); if (tmp != NULL) virBufferVSprintf(&buf, " %s\n", tmp); if (hvm) { virBufferAdd(&buf, " \n", 13); if (sexpr_int(root, "domain/image/hvm/acpi")) virBufferAdd(&buf, " \n", 12); if (sexpr_int(root, "domain/image/hvm/apic")) virBufferAdd(&buf, " \n", 12); if (sexpr_int(root, "domain/image/hvm/pae")) virBufferAdd(&buf, " \n", 11); virBufferAdd(&buf, " \n", 14); } virBufferAdd(&buf, " \n", 12); /* in case of HVM we have devices emulation */ tmp = sexpr_node(root, "domain/image/hvm/device_model"); if ((tmp != NULL) && (tmp[0] != 0)) virBufferVSprintf(&buf, " %s\n", tmp); for (cur = root; cur->kind == SEXPR_CONS; cur = cur->cdr) { node = cur->car; if (sexpr_lookup(node, "device/vbd")) { tmp = sexpr_node(node, "device/vbd/uname"); if (tmp == NULL) continue; if (!memcmp(tmp, "file:", 5)) { tmp += 5; virBufferVSprintf(&buf, " \n"); virBufferVSprintf(&buf, " \n", tmp); tmp = sexpr_node(node, "device/vbd/dev"); if (tmp == NULL) { virXendError(NULL, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, vbd has no dev"); goto error; } if (!strncmp(tmp, "ioemu:", 6)) tmp += 6; virBufferVSprintf(&buf, " \n", tmp); tmp = sexpr_node(node, "device/vbd/mode"); if ((tmp != NULL) && (!strcmp(tmp, "r"))) virBufferVSprintf(&buf, " \n"); virBufferAdd(&buf, " \n", 12); } else if (!memcmp(tmp, "phy:", 4)) { tmp += 4; virBufferVSprintf(&buf, " \n"); virBufferVSprintf(&buf, " \n", tmp); tmp = sexpr_node(node, "device/vbd/dev"); if (tmp == NULL) { virXendError(NULL, VIR_ERR_INTERNAL_ERROR, "domain information incomplete, vbd has no dev"); goto error; } if (!strncmp(tmp, "ioemu:", 6)) tmp += 6; virBufferVSprintf(&buf, " \n", tmp); tmp = sexpr_node(node, "device/vbd/mode"); if ((tmp != NULL) && (!strcmp(tmp, "r"))) virBufferVSprintf(&buf, " \n"); virBufferAdd(&buf, " \n", 12); } else { char serial[1000]; TODO sexpr2string(node, serial, 1000); virBufferVSprintf(&buf, "\n", serial); TODO} } else if (sexpr_lookup(node, "device/vif")) { const char *tmp2; tmp = sexpr_node(node, "device/vif/bridge"); tmp2 = sexpr_node(node, "device/vif/script"); if ((tmp != NULL) || (strstr(tmp2, "bridge"))) { virBufferVSprintf(&buf, " \n"); if (tmp != NULL) virBufferVSprintf(&buf, " \n", tmp); tmp = sexpr_node(node, "device/vif/vifname"); if (tmp != NULL) virBufferVSprintf(&buf, " \n", tmp); tmp = sexpr_node(node, "device/vif/mac"); if (tmp != NULL) virBufferVSprintf(&buf, " \n", tmp); tmp = sexpr_node(node, "device/vif/ip"); if (tmp != NULL) virBufferVSprintf(&buf, " \n", tmp); if (tmp2 != NULL) virBufferVSprintf(&buf, "