/* * virlog.c: internal logging and debugging * * Copyright (C) 2008, 2010-2014 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 #include #include #include #include #if WITH_SYSLOG_H # include #endif #include "virerror.h" #include "virlog.h" #include "viralloc.h" #include "virutil.h" #include "virbuffer.h" #include "virthread.h" #include "virfile.h" #include "virtime.h" #include "virstring.h" #include "configmake.h" #include "virsocket.h" /* Journald output is only supported on Linux new enough to expose * htole64. */ #if WITH_SYSLOG_H && defined(__linux__) && WITH_DECL_HTOLE64 # define USE_JOURNALD 1 # include #endif #define VIR_FROM_THIS VIR_FROM_NONE VIR_LOG_INIT("util.log"); static GRegex *virLogRegex; #define VIR_LOG_DATE_REGEX "[0-9]{4}-[0-9]{2}-[0-9]{2}" #define VIR_LOG_TIME_REGEX "[0-9]{2}:[0-9]{2}:[0-9]{2}\\.[0-9]{3}\\+[0-9]{4}" #define VIR_LOG_PID_REGEX "[0-9]+" #define VIR_LOG_LEVEL_REGEX "(debug|info|warning|error)" #define VIR_LOG_REGEX \ VIR_LOG_DATE_REGEX " " VIR_LOG_TIME_REGEX ": " \ VIR_LOG_PID_REGEX ": " VIR_LOG_LEVEL_REGEX " : " VIR_ENUM_DECL(virLogDestination); VIR_ENUM_IMPL(virLogDestination, VIR_LOG_TO_OUTPUT_LAST, "stderr", "syslog", "file", "journald", ); /* * Filters are used to refine the rules on what to keep or drop * based on a matching pattern (currently a substring) */ struct _virLogFilter { char *match; virLogPriority priority; }; static int virLogFiltersSerial = 1; static virLogFilter **virLogFilters; static size_t virLogNbFilters; /* * Outputs are used to emit the messages retained * after filtering, multiple output can be used simultaneously */ struct _virLogOutput { bool logInitMessage; void *data; virLogOutputFunc f; virLogCloseFunc c; virLogPriority priority; virLogDestination dest; char *name; }; static char *virLogDefaultOutput; static virLogOutput **virLogOutputs; static size_t virLogNbOutputs; /* * Default priorities */ static virLogPriority virLogDefaultPriority = VIR_LOG_DEFAULT; static void virLogResetFilters(void); static void virLogResetOutputs(void); static void virLogOutputToFd(virLogSource *src, virLogPriority priority, const char *filename, int linenr, const char *funcname, const char *timestamp, struct _virLogMetadata *metadata, const char *rawstr, const char *str, void *data); /* * Logs accesses must be serialized though a mutex */ static virMutex virLogMutex = VIR_MUTEX_INITIALIZER; void virLogLock(void) { virMutexLock(&virLogMutex); } void virLogUnlock(void) { virMutexUnlock(&virLogMutex); } static void virLogSetDefaultOutputToStderr(void) { virLogDefaultOutput = g_strdup_printf("%d:stderr", virLogDefaultPriority); } static void virLogSetDefaultOutputToJournald(void) { virLogPriority priority = virLogDefaultPriority; /* By default we don't want to log too much stuff into journald as * it may employ rate limiting and thus block libvirt execution. */ if (priority == VIR_LOG_DEBUG) priority = VIR_LOG_INFO; virLogDefaultOutput = g_strdup_printf("%d:journald", priority); } static int virLogSetDefaultOutputToFile(const char *binary, bool privileged) { g_autofree char *logdir = NULL; mode_t old_umask; if (privileged) { virLogDefaultOutput = g_strdup_printf("%d:file:%s/log/libvirt/%s.log", virLogDefaultPriority, LOCALSTATEDIR, binary); } else { logdir = virGetUserCacheDirectory(); old_umask = umask(077); if (g_mkdir_with_parents(logdir, 0777) < 0) { umask(old_umask); virReportSystemError(errno, "%s", _("Could not create log directory")); return -1; } umask(old_umask); virLogDefaultOutput = g_strdup_printf("%d:file:%s/%s.log", virLogDefaultPriority, logdir, binary); } return 0; } /* * virLogSetDefaultOutput: * @binary: the binary for which logging is performed. The log file name * will be derived from the binary name, with ".log" appended. * @godaemon: whether we're running daemonized * @privileged: whether we're running with root privileges or not (session) * * Decides on what the default output (journald, file, stderr) should be * according to @binary, @godaemon, @privileged. This function should be run * exactly once at daemon startup, so no locks are used. */ int virLogSetDefaultOutput(const char *binary, bool godaemon, bool privileged) { bool have_journald = access("/run/systemd/journal/socket", W_OK) >= 0; if (godaemon) { if (have_journald) virLogSetDefaultOutputToJournald(); else if (virLogSetDefaultOutputToFile(binary, privileged) < 0) return -1; } else { if (!isatty(STDIN_FILENO) && have_journald) virLogSetDefaultOutputToJournald(); else virLogSetDefaultOutputToStderr(); } return 0; } char * virLogGetDefaultOutput(void) { return virLogDefaultOutput; } static const char * virLogPriorityString(virLogPriority lvl) { switch (lvl) { case VIR_LOG_DEBUG: return "debug"; case VIR_LOG_INFO: return "info"; case VIR_LOG_WARN: return "warning"; case VIR_LOG_ERROR: return "error"; } return "unknown"; } static int virLogOnceInit(void) { virLogLock(); virLogDefaultPriority = VIR_LOG_DEFAULT; virLogRegex = g_regex_new(VIR_LOG_REGEX, G_REGEX_OPTIMIZE, 0, NULL); /* GLib caches the hostname using a one time thread initializer. * We want to prime this cache early though, because at later time * it might not be possible to load NSS modules via getaddrinfo() * (e.g. at container startup the host filesystem will not be * accessible anymore. */ ignore_value(g_get_host_name()); virLogUnlock(); return 0; } VIR_ONCE_GLOBAL_INIT(virLog); /** * virLogReset: * * Reset the logging module to its default initial state * * Returns 0 if successful, and -1 in case or error */ int virLogReset(void) { if (virLogInitialize() < 0) return -1; virLogLock(); virLogResetFilters(); virLogResetOutputs(); virLogDefaultPriority = VIR_LOG_DEFAULT; virLogUnlock(); return 0; } /** * virLogSetDefaultPriority: * @priority: the default priority level * * Set the default priority level, i.e. any logged data of a priority * equal or superior to this level will be logged, unless a specific rule * was defined for the log category of the message. * * Returns 0 if successful, -1 in case of error. */ int virLogSetDefaultPriority(virLogPriority priority) { if ((priority < VIR_LOG_DEBUG) || (priority > VIR_LOG_ERROR)) { virReportError(VIR_ERR_INVALID_ARG, _("Failed to set logging priority, argument '%u' is " "invalid"), priority); return -1; } if (virLogInitialize() < 0) return -1; virLogDefaultPriority = priority; return 0; } /** * virLogResetFilters: * * Removes the set of logging filters defined. */ static void virLogResetFilters(void) { virLogFilterListFree(virLogFilters, virLogNbFilters); virLogFilters = NULL; virLogNbFilters = 0; virLogFiltersSerial++; } void virLogFilterFree(virLogFilter *filter) { if (!filter) return; g_free(filter->match); g_free(filter); } /** * virLogFilterFreeList: * @list: list of filters to be freed * @count: number of elements in the list * * Frees a list of filters. */ void virLogFilterListFree(virLogFilter **list, int count) { size_t i; if (!list || count < 0) return; for (i = 0; i < count; i++) virLogFilterFree(list[i]); g_free(list); } /** * virLogResetOutputs: * * Removes the set of logging output defined. */ static void virLogResetOutputs(void) { virLogOutputListFree(virLogOutputs, virLogNbOutputs); virLogOutputs = NULL; virLogNbOutputs = 0; } void virLogOutputFree(virLogOutput *output) { if (!output) return; if (output->c) output->c(output->data); g_free(output->name); g_free(output); } /** * virLogOutputsFreeList: * @list: list of outputs to be freed * @count: number of elements in the list * * Frees a list of outputs. */ void virLogOutputListFree(virLogOutput **list, int count) { size_t i; if (!list || count < 0) return; for (i = 0; i < count; i++) virLogOutputFree(list[i]); g_free(list); } static void virLogFormatString(char **msg, int linenr, const char *funcname, virLogPriority priority, const char *str) { if ((funcname != NULL)) { *msg = g_strdup_printf("%llu: %s : %s:%d : %s\n", virThreadSelfID(), virLogPriorityString(priority), funcname, linenr, str); } else { *msg = g_strdup_printf("%llu: %s : %s\n", virThreadSelfID(), virLogPriorityString(priority), str); } } static void virLogVersionString(const char **rawmsg, char **msg) { *rawmsg = VIR_LOG_VERSION_STRING; virLogFormatString(msg, 0, NULL, VIR_LOG_INFO, VIR_LOG_VERSION_STRING); } /* Similar to virGetHostname() but avoids use of error * reporting APIs or logging APIs, to prevent recursion */ static void virLogHostnameString(char **rawmsg, char **msg) { char *hoststr; hoststr = g_strdup_printf("hostname: %s", g_get_host_name()); virLogFormatString(msg, 0, NULL, VIR_LOG_INFO, hoststr); *rawmsg = hoststr; } static void virLogSourceUpdate(virLogSource *source) { virLogLock(); if (source->serial < virLogFiltersSerial) { unsigned int priority = virLogDefaultPriority; size_t i; for (i = 0; i < virLogNbFilters; i++) { if (g_pattern_match_simple(virLogFilters[i]->match, source->name)) { priority = virLogFilters[i]->priority; break; } } source->priority = priority; source->serial = virLogFiltersSerial; } virLogUnlock(); } /** * virLogVMessage: * @source: where is that message coming from * @priority: the priority level * @filename: file where the message was emitted * @linenr: line where the message was emitted * @funcname: the function emitting the (debug) message * @metadata: NULL or metadata array, terminated by an item with NULL key * @fmt: the string format * @vargs: format args * * Call the libvirt logger with some information. Based on the configuration * the message may be stored, sent to output or just discarded */ static void G_GNUC_PRINTF(7, 0) virLogVMessage(virLogSource *source, virLogPriority priority, const char *filename, int linenr, const char *funcname, struct _virLogMetadata *metadata, const char *fmt, va_list vargs) { static bool logInitMessageStderr = true; g_autofree char *str = NULL; g_autofree char *msg = NULL; char timestamp[VIR_TIME_STRING_BUFLEN]; size_t i; int saved_errno = errno; if (virLogInitialize() < 0) return; if (fmt == NULL) return; /* * 3 intentionally non-thread safe variable reads. * Since writes to the variable are serialized on * virLogLock, worst case result is a log message * is accidentally dropped or emitted, if another * thread is updating log filter list concurrently * with a log message emission. */ if (source->serial < virLogFiltersSerial) virLogSourceUpdate(source); if (priority < source->priority) goto cleanup; /* * serialize the error message, add level and timestamp */ str = g_strdup_vprintf(fmt, vargs); virLogFormatString(&msg, linenr, funcname, priority, str); if (virTimeStringNowRaw(timestamp) < 0) timestamp[0] = '\0'; virLogLock(); /* * Push the message to the outputs defined, if none exist then * use stderr. */ for (i = 0; i < virLogNbOutputs; i++) { if (priority >= virLogOutputs[i]->priority) { if (virLogOutputs[i]->logInitMessage) { const char *rawinitmsg; char *hoststr = NULL; char *initmsg = NULL; virLogVersionString(&rawinitmsg, &initmsg); virLogOutputs[i]->f(&virLogSelf, VIR_LOG_INFO, __FILE__, __LINE__, __func__, timestamp, NULL, rawinitmsg, initmsg, virLogOutputs[i]->data); VIR_FREE(initmsg); virLogHostnameString(&hoststr, &initmsg); virLogOutputs[i]->f(&virLogSelf, VIR_LOG_INFO, __FILE__, __LINE__, __func__, timestamp, NULL, hoststr, initmsg, virLogOutputs[i]->data); VIR_FREE(hoststr); VIR_FREE(initmsg); virLogOutputs[i]->logInitMessage = false; } virLogOutputs[i]->f(source, priority, filename, linenr, funcname, timestamp, metadata, str, msg, virLogOutputs[i]->data); } } if (virLogNbOutputs == 0) { if (logInitMessageStderr) { const char *rawinitmsg; char *hoststr = NULL; char *initmsg = NULL; virLogVersionString(&rawinitmsg, &initmsg); virLogOutputToFd(&virLogSelf, VIR_LOG_INFO, __FILE__, __LINE__, __func__, timestamp, NULL, rawinitmsg, initmsg, (void *) STDERR_FILENO); VIR_FREE(initmsg); virLogHostnameString(&hoststr, &initmsg); virLogOutputToFd(&virLogSelf, VIR_LOG_INFO, __FILE__, __LINE__, __func__, timestamp, NULL, hoststr, initmsg, (void *) STDERR_FILENO); VIR_FREE(hoststr); VIR_FREE(initmsg); logInitMessageStderr = false; } virLogOutputToFd(source, priority, filename, linenr, funcname, timestamp, metadata, str, msg, (void *) STDERR_FILENO); } virLogUnlock(); cleanup: errno = saved_errno; } /** * virLogMessage: * @source: where is that message coming from * @priority: the priority level * @filename: file where the message was emitted * @linenr: line where the message was emitted * @funcname: the function emitting the (debug) message * @metadata: NULL or metadata array, terminated by an item with NULL key * @fmt: the string format * @...: the arguments * * Call the libvirt logger with some information. Based on the configuration * the message may be stored, sent to output or just discarded */ void virLogMessage(virLogSource *source, virLogPriority priority, const char *filename, int linenr, const char *funcname, struct _virLogMetadata *metadata, const char *fmt, ...) { va_list ap; va_start(ap, fmt); virLogVMessage(source, priority, filename, linenr, funcname, metadata, fmt, ap); va_end(ap); } static void virLogOutputToFd(virLogSource *source G_GNUC_UNUSED, virLogPriority priority G_GNUC_UNUSED, const char *filename G_GNUC_UNUSED, int linenr G_GNUC_UNUSED, const char *funcname G_GNUC_UNUSED, const char *timestamp, struct _virLogMetadata *metadata G_GNUC_UNUSED, const char *rawstr G_GNUC_UNUSED, const char *str, void *data) { int fd = (intptr_t) data; char *msg; if (fd < 0) return; msg = g_strdup_printf("%s: %s", timestamp, str); ignore_value(safewrite(fd, msg, strlen(msg))); VIR_FREE(msg); } static void virLogCloseFd(void *data) { int fd = (intptr_t) data; VIR_LOG_CLOSE(fd); } static virLogOutput * virLogNewOutputToStderr(virLogPriority priority) { return virLogOutputNew(virLogOutputToFd, NULL, (void *)STDERR_FILENO, priority, VIR_LOG_TO_STDERR, NULL); } static virLogOutput * virLogNewOutputToFile(virLogPriority priority, const char *file) { int fd; virLogOutput *ret = NULL; fd = open(file, O_CREAT | O_APPEND | O_WRONLY, S_IRUSR | S_IWUSR); if (fd < 0) { virReportSystemError(errno, _("failed to open %s"), file); return NULL; } if (!(ret = virLogOutputNew(virLogOutputToFd, virLogCloseFd, (void *)(intptr_t)fd, priority, VIR_LOG_TO_FILE, file))) { VIR_LOG_CLOSE(fd); return NULL; } return ret; } #if WITH_SYSLOG_H || USE_JOURNALD /* Compat in case we build with journald, but no syslog */ # ifndef LOG_DEBUG # define LOG_DEBUG 7 # endif # ifndef LOG_INFO # define LOG_INFO 6 # endif # ifndef LOG_WARNING # define LOG_WARNING 4 # endif # ifndef LOG_ERR # define LOG_ERR 3 # endif static int virLogPrioritySyslog(virLogPriority priority) { switch (priority) { case VIR_LOG_DEBUG: return LOG_DEBUG; case VIR_LOG_INFO: return LOG_INFO; case VIR_LOG_WARN: return LOG_WARNING; case VIR_LOG_ERROR: return LOG_ERR; default: return LOG_ERR; } } #endif /* WITH_SYSLOG_H || USE_JOURNALD */ #if WITH_SYSLOG_H static void virLogOutputToSyslog(virLogSource *source G_GNUC_UNUSED, virLogPriority priority, const char *filename G_GNUC_UNUSED, int linenr G_GNUC_UNUSED, const char *funcname G_GNUC_UNUSED, const char *timestamp G_GNUC_UNUSED, struct _virLogMetadata *metadata G_GNUC_UNUSED, const char *rawstr G_GNUC_UNUSED, const char *str, void *data G_GNUC_UNUSED) { syslog(virLogPrioritySyslog(priority), "%s", str); } static char *current_ident; static void virLogCloseSyslog(void *data G_GNUC_UNUSED) { closelog(); VIR_FREE(current_ident); } static virLogOutput * virLogNewOutputToSyslog(virLogPriority priority, const char *ident) { virLogOutput *ret = NULL; int at = -1; /* There are a couple of issues with syslog: * 1) If we re-opened the connection by calling openlog now, it would change * the message tag immediately which is not what we want, since we might be * in the middle of parsing of a new set of outputs where anything still can * go wrong and we would introduce an inconsistent state to the log. We're * also not holding a lock on the logger if we tried to change the tag * while other workers are actively logging. * * 2) Syslog keeps the open file descriptor private, so we can't just dup() * it like we would do with files if an output already existed. * * If a syslog connection already exists changing the message tag has to be * therefore special-cased and postponed until the very last moment. */ if ((at = virLogFindOutput(virLogOutputs, virLogNbOutputs, VIR_LOG_TO_SYSLOG, NULL)) < 0) { /* * rather than copying @ident, syslog uses caller's reference instead */ VIR_FREE(current_ident); current_ident = g_strdup(ident); openlog(current_ident, 0, 0); } if (!(ret = virLogOutputNew(virLogOutputToSyslog, virLogCloseSyslog, NULL, priority, VIR_LOG_TO_SYSLOG, ident))) { if (at < 0) { closelog(); VIR_FREE(current_ident); } return NULL; } return ret; } # if USE_JOURNALD # define IOVEC_SET(iov, data, size) \ do { \ struct iovec *_i = &(iov); \ _i->iov_base = (void*)(data); \ _i->iov_len = (size); \ } while (0) # define IOVEC_SET_STRING(iov, str) IOVEC_SET(iov, str, strlen(str)) /* Used for conversion of numbers to strings, and for length of binary data */ # define JOURNAL_BUF_SIZE (MAX(VIR_INT64_STR_BUFLEN, sizeof(uint64_t))) struct journalState { struct iovec *iov, *iov_end; char (*bufs)[JOURNAL_BUF_SIZE], (*bufs_end)[JOURNAL_BUF_SIZE]; }; static void journalAddString(struct journalState *state, const char *field, const char *value) { static const char newline = '\n', equals = '='; if (strchr(value, '\n') != NULL) { uint64_t nstr; /* If 'str' contains a newline, then we must * encode the string length, since we can't * rely on the newline for the field separator */ if (state->iov_end - state->iov < 5 || state->bufs == state->bufs_end) return; /* Silently drop */ nstr = htole64(strlen(value)); memcpy(state->bufs[0], &nstr, sizeof(nstr)); IOVEC_SET_STRING(state->iov[0], field); IOVEC_SET(state->iov[1], &newline, sizeof(newline)); IOVEC_SET(state->iov[2], state->bufs[0], sizeof(nstr)); state->bufs++; state->iov += 3; } else { if (state->iov_end - state->iov < 4) return; /* Silently drop */ IOVEC_SET_STRING(state->iov[0], field); IOVEC_SET(state->iov[1], (void *)&equals, sizeof(equals)); state->iov += 2; } IOVEC_SET_STRING(state->iov[0], value); IOVEC_SET(state->iov[1], (void *)&newline, sizeof(newline)); state->iov += 2; } static void journalAddInt(struct journalState *state, const char *field, int value) { static const char newline = '\n', equals = '='; char *num; if (state->iov_end - state->iov < 4 || state->bufs == state->bufs_end) return; /* Silently drop */ num = virFormatIntDecimal(state->bufs[0], sizeof(state->bufs[0]), value); IOVEC_SET_STRING(state->iov[0], field); IOVEC_SET(state->iov[1], (void *)&equals, sizeof(equals)); IOVEC_SET_STRING(state->iov[2], num); IOVEC_SET(state->iov[3], (void *)&newline, sizeof(newline)); state->bufs++; state->iov += 4; } static void virLogOutputToJournald(virLogSource *source, virLogPriority priority, const char *filename, int linenr, const char *funcname, const char *timestamp G_GNUC_UNUSED, struct _virLogMetadata *metadata, const char *rawstr, const char *str G_GNUC_UNUSED, void *data) { int buffd = -1; int journalfd = (intptr_t) data; struct msghdr mh; struct sockaddr_un sa; union { struct cmsghdr cmsghdr; uint8_t buf[CMSG_SPACE(sizeof(int))]; } control; struct cmsghdr *cmsg; /* We use /dev/shm instead of /tmp here, since we want this to * be a tmpfs, and one that is available from early boot on * and where unprivileged users can create files. */ char path[] = "/dev/shm/journal.XXXXXX"; size_t nmetadata = 0; # define NUM_FIELDS_CORE 6 # define NUM_FIELDS_META 5 # define NUM_FIELDS (NUM_FIELDS_CORE + NUM_FIELDS_META) struct iovec iov[NUM_FIELDS * 5]; char iov_bufs[NUM_FIELDS][JOURNAL_BUF_SIZE]; struct journalState state; state.iov = iov; state.iov_end = iov + G_N_ELEMENTS(iov); state.bufs = iov_bufs; state.bufs_end = iov_bufs + G_N_ELEMENTS(iov_bufs); journalAddString(&state, "MESSAGE", rawstr); journalAddInt(&state, "PRIORITY", virLogPrioritySyslog(priority)); /* See RFC 5424 section 6.2.1 * * Don't use LOG_nnn constants as those have a bit-shift * applied for use with syslog() API, while journald * needs the raw value */ journalAddInt(&state, "SYSLOG_FACILITY", 3); journalAddString(&state, "LIBVIRT_SOURCE", source->name); if (filename) journalAddString(&state, "CODE_FILE", filename); journalAddInt(&state, "CODE_LINE", linenr); if (funcname) journalAddString(&state, "CODE_FUNC", funcname); if (metadata != NULL) { while (metadata->key != NULL && nmetadata < NUM_FIELDS_META) { if (metadata->s != NULL) journalAddString(&state, metadata->key, metadata->s); else journalAddInt(&state, metadata->key, metadata->iv); metadata++; nmetadata++; } } memset(&sa, 0, sizeof(sa)); sa.sun_family = AF_UNIX; if (virStrcpyStatic(sa.sun_path, "/run/systemd/journal/socket") < 0) return; memset(&mh, 0, sizeof(mh)); mh.msg_name = &sa; mh.msg_namelen = offsetof(struct sockaddr_un, sun_path) + strlen(sa.sun_path); mh.msg_iov = iov; mh.msg_iovlen = state.iov - iov; if (sendmsg(journalfd, &mh, MSG_NOSIGNAL) >= 0) return; if (errno != EMSGSIZE && errno != ENOBUFS) return; /* Message was too large, so dump to temporary file * and pass an FD to the journal */ if ((buffd = g_mkstemp_full(path, O_RDWR | O_CLOEXEC, S_IRUSR | S_IWUSR)) < 0) return; if (unlink(path) < 0) goto cleanup; if (writev(buffd, iov, state.iov - iov) < 0) goto cleanup; mh.msg_iov = NULL; mh.msg_iovlen = 0; memset(&control, 0, sizeof(control)); mh.msg_control = &control; mh.msg_controllen = sizeof(control); cmsg = CMSG_FIRSTHDR(&mh); cmsg->cmsg_level = SOL_SOCKET; cmsg->cmsg_type = SCM_RIGHTS; cmsg->cmsg_len = CMSG_LEN(sizeof(int)); memcpy(CMSG_DATA(cmsg), &buffd, sizeof(int)); mh.msg_controllen = cmsg->cmsg_len; ignore_value(sendmsg(journalfd, &mh, MSG_NOSIGNAL)); cleanup: VIR_LOG_CLOSE(buffd); } static virLogOutput * virLogNewOutputToJournald(int priority) { int journalfd; virLogOutput *ret = NULL; if ((journalfd = socket(AF_UNIX, SOCK_DGRAM, 0)) < 0) return NULL; if (virSetInherit(journalfd, false) < 0) { VIR_LOG_CLOSE(journalfd); return NULL; } if (!(ret = virLogOutputNew(virLogOutputToJournald, virLogCloseFd, (void *)(intptr_t) journalfd, priority, VIR_LOG_TO_JOURNALD, NULL))) { VIR_LOG_CLOSE(journalfd); return NULL; } return ret; } # endif /* USE_JOURNALD */ int virLogPriorityFromSyslog(int priority) { switch (priority) { case LOG_EMERG: case LOG_ALERT: case LOG_CRIT: case LOG_ERR: return VIR_LOG_ERROR; case LOG_WARNING: case LOG_NOTICE: return VIR_LOG_WARN; case LOG_INFO: return VIR_LOG_INFO; case LOG_DEBUG: return VIR_LOG_DEBUG; } return VIR_LOG_ERROR; } #else /* WITH_SYSLOG_H */ int virLogPriorityFromSyslog(int priority G_GNUC_UNUSED) { return VIR_LOG_ERROR; } #endif /* WITH_SYSLOG_H */ /** * virLogGetDefaultPriority: * * Returns the current logging priority level. */ virLogPriority virLogGetDefaultPriority(void) { return virLogDefaultPriority; } /** * virLogGetFilters: * * Returns a string listing the current filters, in the format originally * specified in the config file or environment. Caller must free the * result. */ char * virLogGetFilters(void) { size_t i; g_auto(virBuffer) filterbuf = VIR_BUFFER_INITIALIZER; virLogLock(); for (i = 0; i < virLogNbFilters; i++) { const char *sep = ":"; virBufferAsprintf(&filterbuf, "%d%s%s ", virLogFilters[i]->priority, sep, virLogFilters[i]->match); } virLogUnlock(); return virBufferContentAndReset(&filterbuf); } /** * virLogGetOutputs: * * Returns a string listing the current outputs, in the format originally * specified in the config file or environment. Caller must free the * result. */ char * virLogGetOutputs(void) { size_t i; g_auto(virBuffer) outputbuf = VIR_BUFFER_INITIALIZER; virLogLock(); for (i = 0; i < virLogNbOutputs; i++) { virLogDestination dest = virLogOutputs[i]->dest; if (i) virBufferAddChar(&outputbuf, ' '); switch (dest) { case VIR_LOG_TO_SYSLOG: case VIR_LOG_TO_FILE: virBufferAsprintf(&outputbuf, "%d:%s:%s", virLogOutputs[i]->priority, virLogDestinationTypeToString(dest), virLogOutputs[i]->name); break; case VIR_LOG_TO_STDERR: case VIR_LOG_TO_JOURNALD: virBufferAsprintf(&outputbuf, "%d:%s", virLogOutputs[i]->priority, virLogDestinationTypeToString(dest)); break; case VIR_LOG_TO_OUTPUT_LAST: default: virReportEnumRangeError(virLogDestination, dest); goto error; } } virLogUnlock(); return virBufferContentAndReset(&outputbuf); error: virLogUnlock(); return NULL; } /** * virLogGetNbFilters: * * Returns the current number of defined log filters. */ int virLogGetNbFilters(void) { return virLogNbFilters; } /** * virLogGetNbOutputs: * * Returns the current number of defined log outputs. */ int virLogGetNbOutputs(void) { return virLogNbOutputs; } /** * virLogParseDefaultPriority: * @priority: string defining the desired logging level (either a numeric or a * word form, see below) * * Parses the desired log priority level. The input @priority shall conform to * one of the following levels: * 1 = DEBUG * 2 = INFO * 3 = WARNING * 4 = ERROR * * * Returns the corresponding priority enum on success, -1 in case of error. A * call to virLogSetDefaultPriority should be issued upon returning from this * function. */ int virLogParseDefaultPriority(const char *priority) { if (STREQ(priority, "1") || STREQ(priority, "debug")) return VIR_LOG_DEBUG; else if (STREQ(priority, "2") || STREQ(priority, "info")) return VIR_LOG_INFO; else if (STREQ(priority, "3") || STREQ(priority, "warning")) return VIR_LOG_WARN; else if (STREQ(priority, "4") || STREQ(priority, "error")) return VIR_LOG_ERROR; virReportError(VIR_ERR_INVALID_ARG, _("Failed to set logging priority, argument '%s' is " "invalid"), priority); return -1; } /** * virLogSetFromEnv: * * Sets virLogDefaultPriority, virLogFilters and virLogOutputs based on * environment variables. * * This function might fail which should also make the caller fail. */ int virLogSetFromEnv(void) { const char *debugEnv; if (virLogInitialize() < 0) return -1; debugEnv = getenv("LIBVIRT_DEBUG"); if (debugEnv && *debugEnv) { int priority = virLogParseDefaultPriority(debugEnv); if (priority < 0 || virLogSetDefaultPriority(priority) < 0) return -1; } debugEnv = getenv("LIBVIRT_LOG_FILTERS"); if (debugEnv && *debugEnv && virLogSetFilters(debugEnv)) return -1; debugEnv = getenv("LIBVIRT_LOG_OUTPUTS"); if (debugEnv && *debugEnv && virLogSetOutputs(debugEnv)) return -1; return 0; } /* * Returns a true value if the first line in @str is * probably a log message generated by the libvirt * logging layer */ bool virLogProbablyLogMessage(const char *str) { if (!virLogRegex) return false; if (g_regex_match(virLogRegex, str, 0, NULL)) return true; return false; } /** * virLogOutputNew: * @f: the function to call to output a message * @c: the function to call to close the output (or NULL) * @data: extra data passed as first arg to functions @f and @c * @priority: minimal priority for this filter, use 0 for none * @dest: where to send output of this priority (see virLogDestination) * @name: additional data associated with syslog and file-based outputs (ident * and filename respectively) * * Allocates and returns a new log output object. The object has to be later * defined, so that the output will be taken into account when emitting a * message. * * Returns reference to a newly created object or NULL in case of failure. */ virLogOutput * virLogOutputNew(virLogOutputFunc f, virLogCloseFunc c, void *data, virLogPriority priority, virLogDestination dest, const char *name) { virLogOutput *ret = NULL; char *ndup = NULL; if (dest == VIR_LOG_TO_SYSLOG || dest == VIR_LOG_TO_FILE) { if (!name) { virReportError(VIR_ERR_INVALID_ARG, "%s", _("Missing auxiliary data in output definition")); return NULL; } ndup = g_strdup(name); } ret = g_new0(virLogOutput, 1); ret->logInitMessage = true; ret->f = f; ret->c = c; ret->data = data; ret->priority = priority; ret->dest = dest; ret->name = ndup; return ret; } /** * virLogFilterNew: * @match: the pattern to match * @priority: the priority to give to messages matching the pattern * * Allocates and returns a new log filter object. The object has to be later * defined, so that the pattern will be taken into account when executing the * log filters (to select or reject a particular message) on messages. * * The filter defines a rules that will apply only to messages matching * the pattern (currently if @match is a substring of the message category) * * Returns a reference to a newly created filter that needs to be defined using * virLogDefineFilters, or NULL in case of an error. */ virLogFilter * virLogFilterNew(const char *match, virLogPriority priority) { virLogFilter *ret = NULL; size_t mlen = strlen(match); if (priority < VIR_LOG_DEBUG || priority > VIR_LOG_ERROR) { virReportError(VIR_ERR_INVALID_ARG, _("Invalid log priority %d"), priority); return NULL; } ret = g_new0(virLogFilter, 1); ret->priority = priority; /* We must treat 'foo' as equiv to '*foo*' for g_pattern_match * substring matches, so add 2 extra bytes */ ret->match = g_new0(char, mlen + 3); ret->match[0] = '*'; memcpy(ret->match + 1, match, mlen); ret->match[mlen + 1] = '*'; return ret; } /** * virLogFindOutput: * @outputs: a list of outputs where to look for the output of type @dest * @noutputs: number of elements in @outputs * @dest: destination type of an output * @opaque: opaque data to the method (only filename at the moment) * * Looks for an output of destination type @dest in the source list @outputs. * If such an output exists, index of the object in the list is returned. * In case of the destination being of type FILE also a comparison of the * output's filename with @opaque is performed first. * * Returns the index of the object in the list or -1 if no object matching the * specified @dest type and/or @opaque data one was found. */ int virLogFindOutput(virLogOutput **outputs, size_t noutputs, virLogDestination dest, const void *opaque) { size_t i; const char *name = opaque; for (i = 0; i < noutputs; i++) { if (dest == outputs[i]->dest && (STREQ_NULLABLE(outputs[i]->name, name))) return i; } return -1; } /** * virLogDefineOutputs: * @outputs: new set of outputs to be defined * @noutputs: number of outputs in @outputs * * Resets any existing set of outputs and defines a completely new one. * * Returns number of outputs successfully defined or -1 in case of error; */ int virLogDefineOutputs(virLogOutput **outputs, size_t noutputs) { #if WITH_SYSLOG_H int id; char *tmp = NULL; #endif /* WITH_SYSLOG_H */ if (virLogInitialize() < 0) return -1; virLogLock(); virLogResetOutputs(); #if WITH_SYSLOG_H /* syslog needs to be special-cased, since it keeps the fd in private */ if ((id = virLogFindOutput(outputs, noutputs, VIR_LOG_TO_SYSLOG, current_ident)) != -1) { /* nothing can go wrong now (except for malloc) and since we're also * holding the lock so it's safe to call openlog and change the message * tag */ tmp = g_strdup(outputs[id]->name); VIR_FREE(current_ident); current_ident = tmp; openlog(current_ident, 0, LOG_DAEMON); } #endif /* WITH_SYSLOG_H */ virLogOutputs = outputs; virLogNbOutputs = noutputs; virLogUnlock(); return 0; } /** * virLogDefineFilters: * @filters: new set of filters to be defined * @nfilters: number of filters in @filters * * Resets any existing set of filters and defines a completely new one. The * resulting set can also be empty in which case NULL should be passed to * @filters. * * Returns 0 on success or -1 in case of error. */ int virLogDefineFilters(virLogFilter **filters, size_t nfilters) { if (virLogInitialize() < 0) return -1; virLogLock(); virLogResetFilters(); virLogFilters = filters; virLogNbFilters = nfilters; virLogUnlock(); return 0; } /** * virLogParseOutput: * @src: string defining a single output * * The format of @src should be one of the following: * x:stderr - output is sent to stderr * x:journald - output is sent to journald * x:syslog:name - output is sent to syslog using 'name' as the message tag * x:file:abs_file_path - output is sent to file specified by 'abs_file_path' * * 'x' - minimal priority level which acts as a filter meaning that only * messages with priority level greater than or equal to 'x' will be * sent to output @src; supported values for 'x' are as follows: * 1: DEBUG * 2: INFO * 3: WARNING * 4: ERROR * * Parses @src string into a logging object type. If running in setuid mode, * then only destination of type 'stderr' is permitted. * * Returns a newly created logging object from @src on success or NULL in case * of an error. */ virLogOutput * virLogParseOutput(const char *src) { virLogOutput *ret = NULL; g_auto(GStrv) tokens = NULL; char *abspath = NULL; size_t count = 0; virLogPriority prio; int dest; VIR_DEBUG("output=%s", src); /* split our format prio:destination:additional_data to tokens and parse * them individually */ if (!(tokens = g_strsplit(src, ":", 0)) || (count = g_strv_length(tokens)) < 2) { virReportError(VIR_ERR_INVALID_ARG, _("Malformed format for log output '%s'"), src); return NULL; } if (virStrToLong_uip(tokens[0], NULL, 10, &prio) < 0 || (prio < VIR_LOG_DEBUG) || (prio > VIR_LOG_ERROR)) { virReportError(VIR_ERR_INVALID_ARG, _("Invalid log priority '%s' for log output '%s'"), tokens[0], src); return NULL; } if ((dest = virLogDestinationTypeFromString(tokens[1])) < 0) { virReportError(VIR_ERR_INVALID_ARG, _("Invalid log destination '%s' for log output '%s'"), tokens[1], src); return NULL; } if (((dest == VIR_LOG_TO_STDERR || dest == VIR_LOG_TO_JOURNALD) && count != 2) || ((dest == VIR_LOG_TO_FILE || dest == VIR_LOG_TO_SYSLOG) && count != 3)) { virReportError(VIR_ERR_INVALID_ARG, _("Log output '%s' does not meet the format requirements " "for destination type '%s'"), src, tokens[1]); return NULL; } switch ((virLogDestination) dest) { case VIR_LOG_TO_STDERR: ret = virLogNewOutputToStderr(prio); break; case VIR_LOG_TO_SYSLOG: #if WITH_SYSLOG_H ret = virLogNewOutputToSyslog(prio, tokens[2]); #endif break; case VIR_LOG_TO_FILE: if (!(abspath = g_canonicalize_filename(tokens[2], NULL))) return NULL; ret = virLogNewOutputToFile(prio, abspath); VIR_FREE(abspath); break; case VIR_LOG_TO_JOURNALD: #if USE_JOURNALD ret = virLogNewOutputToJournald(prio); #endif break; case VIR_LOG_TO_OUTPUT_LAST: break; } return ret; } /** * virLogParseFilter: * @src: string defining a single filter * * The format of @src should be: * x:name - filter affecting all modules which match 'name' * 'name' - match string which either matches a name of a directory in * libvirt's source tree which in turn affects all modules in * that directory or it can matches a specific module within a * directory, e.g. 'util.file' will only affect messages from * module virfile.c inside src/util/ directory * 'x' - minimal priority level which acts as a filter meaning that only * messages with priority level greater than or equal to 'x' will be * sent to output; supported values for 'x' are as follows: * 1: DEBUG * 2: INFO * 3: WARNING * 4: ERROR * * Parses @src string into a logging object type. * * Returns a newly created logging object from @src on success or NULL in case * of an error. */ virLogFilter * virLogParseFilter(const char *src) { virLogPriority prio; g_auto(GStrv) tokens = NULL; char *match = NULL; VIR_DEBUG("filter=%s", src); /* split our format prio:match_str to tokens and parse them individually */ if (!(tokens = g_strsplit(src, ":", 0)) || !tokens[0] || !tokens[1]) { virReportError(VIR_ERR_INVALID_ARG, _("Malformed format for filter '%s'"), src); return NULL; } if (virStrToLong_uip(tokens[0], NULL, 10, &prio) < 0 || (prio < VIR_LOG_DEBUG) || (prio > VIR_LOG_ERROR)) { virReportError(VIR_ERR_INVALID_ARG, _("Invalid priority '%s' for filter '%s'"), tokens[0], src); return NULL; } match = tokens[1]; if (match[0] == '+') { /* '+' used to indicate printing a stack trace, * but we dropped that feature, so just chomp * that leading '+' */ match++; } /* match string cannot comprise just from a single '+' */ if (!*match) { virReportError(VIR_ERR_INVALID_ARG, _("Invalid match string '%s'"), tokens[1]); return NULL; } return virLogFilterNew(match, prio); } /** * virLogParseOutputs: * @src: string defining a (set of) output(s) * @outputs: user-supplied list where parsed outputs from @src shall be stored * * Parses a (set of) output(s) into a list of logging objects. Multiple outputs * can be defined within @src string, they just need to be separated by spaces. * If running in setuid mode, then only the 'stderr' output will be allowed. * * Returns the number of outputs parsed or -1 in case of error. */ int virLogParseOutputs(const char *src, virLogOutput ***outputs) { int at = -1; size_t noutputs = 0; g_auto(GStrv) strings = NULL; GStrv next; virLogOutput *output = NULL; virLogOutput **list = NULL; VIR_DEBUG("outputs=%s", src); if (!(strings = g_strsplit(src, " ", 0))) return -1; for (next = strings; *next; next++) { /* g_strsplit may return empty strings */ if (STREQ(*next, "")) continue; if (!(output = virLogParseOutput(*next))) return -1; /* let's check if a duplicate output does not already exist in which * case we need to replace it with its last occurrence, however, rather * than first deleting the duplicate and then adding the new one, the * new output object is added first so in case of an error we don't * lose the old entry */ at = virLogFindOutput(list, noutputs, output->dest, output->name); VIR_APPEND_ELEMENT(list, noutputs, output); if (at >= 0) { virLogOutputFree(list[at]); VIR_DELETE_ELEMENT(list, at, noutputs); } } *outputs = g_steal_pointer(&list); return noutputs; } /** * virLogParseFilters: * @src: string defining a (set of) filter(s) * @filters: pointer to a list where the individual filters shall be parsed * * This method parses @src and produces a list of individual filters which then * needs to be passed to virLogDefineFilters in order to be set and taken into * effect. * Multiple filters can be defined in a single @src, they just need to be * separated by spaces. * * Returns the number of filter parsed or -1 in case of error. */ int virLogParseFilters(const char *src, virLogFilter ***filters) { size_t nfilters = 0; g_auto(GStrv) strings = NULL; GStrv next; virLogFilter *filter = NULL; virLogFilter **list = NULL; VIR_DEBUG("filters=%s", src); if (!(strings = g_strsplit(src, " ", 0))) return -1; for (next = strings; *next; next++) { /* g_strsplit may return empty strings */ if (STREQ(*next, "")) continue; if (!(filter = virLogParseFilter(*next))) return -1; VIR_APPEND_ELEMENT(list, nfilters, filter); } *filters = g_steal_pointer(&list); return nfilters; } /** * virLogSetOutputs: * @outputs: string defining a (set of) output(s) * * Replaces the current set of defined outputs with a new set of outputs. * Should the set be empty or NULL, a default output is used according to the * daemon's runtime attributes. * * Returns 0 on success or -1 in case of an error. */ int virLogSetOutputs(const char *src) { int ret = -1; int noutputs = 0; const char *outputstr = virLogDefaultOutput; virLogOutput **outputs = NULL; if (virLogInitialize() < 0) return -1; if (src && *src) outputstr = src; /* This can only happen during daemon init when the default output is not * determined yet. It's safe to do, since it's the only place setting the * default output. */ if (!outputstr) return 0; if ((noutputs = virLogParseOutputs(outputstr, &outputs)) < 0) goto cleanup; if (virLogDefineOutputs(outputs, noutputs) < 0) goto cleanup; outputs = NULL; ret = 0; cleanup: virLogOutputListFree(outputs, noutputs); return ret; } /** * virLogSetFilters: * @src: string defining a (set of) filter(s) * * Replaces the current set of defined filters with a new set of filters. * * Returns 0 on success or -1 in case of an error. */ int virLogSetFilters(const char *src) { int ret = -1; int nfilters = 0; virLogFilter **filters = NULL; if (virLogInitialize() < 0) return -1; if (src && (nfilters = virLogParseFilters(src, &filters)) < 0) goto cleanup; if (virLogDefineFilters(filters, nfilters) < 0) goto cleanup; filters = NULL; ret = 0; cleanup: virLogFilterListFree(filters, nfilters); return ret; }