/* * logging.c: internal logging and debugging * * Copyright (C) 2008, 2010-2011 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, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #include #include #include #include #include #include #include #include #include #include #include #if HAVE_SYSLOG_H # include #endif #include "ignore-value.h" #include "virterror_internal.h" #include "logging.h" #include "memory.h" #include "util.h" #include "buf.h" #include "threads.h" #include "files.h" #define VIR_FROM_THIS VIR_FROM_NONE /* * Macro used to format the message as a string in virLogMessage * and borrowed from libxml2 (also used in virRaiseError) */ #define VIR_GET_VAR_STR(msg, str) { \ int size, prev_size = -1; \ int chars; \ char *larger; \ va_list ap; \ \ str = (char *) malloc(150); \ if (str != NULL) { \ \ size = 150; \ \ while (1) { \ va_start(ap, msg); \ chars = vsnprintf(str, size, msg, ap); \ va_end(ap); \ if ((chars > -1) && (chars < size)) { \ if (prev_size == chars) { \ break; \ } else { \ prev_size = chars; \ } \ } \ if (chars > -1) \ size += chars + 1; \ else \ size += 100; \ if ((larger = (char *) realloc(str, size)) == NULL) { \ break; \ } \ str = larger; \ }} \ } /* * A logging buffer to keep some history over logs */ static int virLogSize = 64 * 1024; static char *virLogBuffer = NULL; static int virLogLen = 0; static int virLogStart = 0; static int virLogEnd = 0; /* * Filters are used to refine the rules on what to keep or drop * based on a matching pattern (currently a substring) */ struct _virLogFilter { const char *match; int priority; }; typedef struct _virLogFilter virLogFilter; typedef virLogFilter *virLogFilterPtr; static virLogFilterPtr virLogFilters = NULL; static int virLogNbFilters = 0; /* * Outputs are used to emit the messages retained * after filtering, multiple output can be used simultaneously */ struct _virLogOutput { bool logVersion; void *data; virLogOutputFunc f; virLogCloseFunc c; int priority; virLogDestination dest; const char *name; }; typedef struct _virLogOutput virLogOutput; typedef virLogOutput *virLogOutputPtr; static virLogOutputPtr virLogOutputs = NULL; static int virLogNbOutputs = 0; /* * Default priorities */ static virLogPriority virLogDefaultPriority = VIR_LOG_DEFAULT; static int virLogResetFilters(void); static int virLogResetOutputs(void); static int virLogOutputToFd(const char *category, int priority, const char *funcname, long long linenr, const char *str, int len, void *data); /* * Logs accesses must be serialized though a mutex */ virMutex virLogMutex; void virLogLock(void) { virMutexLock(&virLogMutex); } void virLogUnlock(void) { virMutexUnlock(&virLogMutex); } static const char *virLogOutputString(virLogDestination ldest) { switch (ldest) { case VIR_LOG_TO_STDERR: return "stderr"; case VIR_LOG_TO_SYSLOG: return "syslog"; case VIR_LOG_TO_FILE: return "file"; } return "unknown"; } 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 virLogInitialized = 0; /** * virLogStartup: * * Initialize the logging module * * Returns 0 if successful, and -1 in case or error */ int virLogStartup(void) { const char *pbm = NULL; if (virLogInitialized) return -1; if (virMutexInit(&virLogMutex) < 0) return -1; virLogInitialized = 1; virLogLock(); if (VIR_ALLOC_N(virLogBuffer, virLogSize + 1) < 0) { /* * The debug buffer is not a critical component, allow startup * even in case of failure to allocate it in case of a * configuration mistake. */ virLogSize = 64 * 1024; if (VIR_ALLOC_N(virLogBuffer, virLogSize + 1) < 0) { pbm = "Failed to allocate debug buffer: deactivating debug log\n"; virLogSize = 0; } else { pbm = "Failed to allocate debug buffer: reduced to 64 kB\n"; } } virLogLen = 0; virLogStart = 0; virLogEnd = 0; virLogDefaultPriority = VIR_LOG_DEFAULT; virLogUnlock(); if (pbm) VIR_WARN0(pbm); return 0; } /** * virLogSetBufferSize: * @size: size of the buffer in kilobytes or <= 0 to deactivate * * Dynamically set the size or deactivate the logging buffer used to keep * a trace of all recent debug output. Note that the content of the buffer * is lost if it gets reallocated. * * Return -1 in case of failure or 0 in case of success */ extern int virLogSetBufferSize(int size) { int ret = 0; int oldsize; char *oldLogBuffer; const char *pbm = NULL; if (size < 0) size = 0; if ((virLogInitialized == 0) || (size * 1024 == virLogSize)) return ret; virLogLock(); oldsize = virLogSize; oldLogBuffer = virLogBuffer; if (INT_MAX / 1024 <= size) { pbm = "Requested log size of %d kB too large\n"; ret = -1; goto error; } virLogSize = size * 1024; if (VIR_ALLOC_N(virLogBuffer, virLogSize + 1) < 0) { pbm = "Failed to allocate debug buffer of %d kB\n"; virLogBuffer = oldLogBuffer; virLogSize = oldsize; ret = -1; goto error; } VIR_FREE(oldLogBuffer); virLogLen = 0; virLogStart = 0; virLogEnd = 0; error: virLogUnlock(); if (pbm) VIR_ERROR(pbm, size); return ret; } /** * virLogReset: * * Reset the logging module to its default initial state * * Returns 0 if successful, and -1 in case or error */ int virLogReset(void) { if (!virLogInitialized) return virLogStartup(); virLogLock(); virLogResetFilters(); virLogResetOutputs(); virLogLen = 0; virLogStart = 0; virLogEnd = 0; virLogDefaultPriority = VIR_LOG_DEFAULT; virLogUnlock(); return 0; } /** * virLogShutdown: * * Shutdown the logging module */ void virLogShutdown(void) { if (!virLogInitialized) return; virLogLock(); virLogResetFilters(); virLogResetOutputs(); virLogLen = 0; virLogStart = 0; virLogEnd = 0; VIR_FREE(virLogBuffer); virLogUnlock(); virMutexDestroy(&virLogMutex); virLogInitialized = 0; } /* * Store a string in the ring buffer */ static void virLogStr(const char *str, int len) { int tmp; if ((str == NULL) || (virLogBuffer == NULL) || (virLogSize <= 0)) return; if (len <= 0) len = strlen(str); if (len >= virLogSize) return; virLogLock(); /* * copy the data and reset the end, we cycle over the end of the buffer */ if (virLogEnd + len >= virLogSize) { tmp = virLogSize - virLogEnd; memcpy(&virLogBuffer[virLogEnd], str, tmp); memcpy(&virLogBuffer[0], &str[tmp], len - tmp); virLogEnd = len - tmp; } else { memcpy(&virLogBuffer[virLogEnd], str, len); virLogEnd += len; } virLogBuffer[virLogEnd] = 0; /* * Update the log length, and if full move the start index */ virLogLen += len; if (virLogLen > virLogSize) { tmp = virLogLen - virLogSize; virLogLen = virLogSize; virLogStart += tmp; if (virLogStart >= virLogSize) virLogStart -= virLogSize; } virLogUnlock(); } static void virLogDumpAllFD(const char *msg, int len) { int i, found = 0; if (len <= 0) len = strlen(msg); for (i = 0; i < virLogNbOutputs;i++) { if (virLogOutputs[i].f == virLogOutputToFd) { int fd = (long) virLogOutputs[i].data; if (fd >= 0) { ignore_value (safewrite(fd, msg, len)); found = 1; } } } if (!found) ignore_value (safewrite(STDERR_FILENO, msg, len)); } /** * virLogEmergencyDumpAll: * @signum: the signal number * * Emergency function called, possibly from a signal handler. * It need to output the debug ring buffer through the log * output which are safe to use from a signal handler. * In case none is found it is emitted to standard error. */ void virLogEmergencyDumpAll(int signum) { int len; int oldLogStart, oldLogLen, oldLogEnd; switch (signum) { #ifdef SIGFPE case SIGFPE: virLogDumpAllFD( "Caught signal Floating-point exception", -1); break; #endif #ifdef SIGSEGV case SIGSEGV: virLogDumpAllFD( "Caught Segmentation violation", -1); break; #endif #ifdef SIGILL case SIGILL: virLogDumpAllFD( "Caught illegal instruction", -1); break; #endif #ifdef SIGABRT case SIGABRT: virLogDumpAllFD( "Caught abort signal", -1); break; #endif #ifdef SIGBUS case SIGBUS: virLogDumpAllFD( "Caught bus error", -1); break; #endif #ifdef SIGUSR2 case SIGUSR2: virLogDumpAllFD( "Caught User-defined signal 2", -1); break; #endif default: virLogDumpAllFD( "Caught unexpected signal", -1); break; } if ((virLogBuffer == NULL) || (virLogSize <= 0)) { virLogDumpAllFD(" internal log buffer deactivated\n", -1); return; } virLogDumpAllFD(" dumping internal log buffer:\n", -1); virLogDumpAllFD("\n\n ====== start of log =====\n\n", -1); /* * Since we can't lock the buffer safely from a signal handler * we mark it as empty in case of concurrent access, and proceed * with the data, at worse we will output something a bit weird * if another thread start logging messages at the same time. * Note that virLogStr() uses virLogEnd for the computations and * writes to the buffer and only then updates virLogLen and virLogStart * so it's best to reset it first. */ oldLogStart = virLogStart; oldLogEnd = virLogEnd; oldLogLen = virLogLen; virLogEnd = 0; virLogLen = 0; virLogStart = 0; while (oldLogLen > 0) { if (oldLogStart + oldLogLen < virLogSize) { virLogBuffer[oldLogStart + oldLogLen] = 0; virLogDumpAllFD(&virLogBuffer[oldLogStart], oldLogLen); oldLogStart += oldLogLen; oldLogLen = 0; } else { len = virLogSize - oldLogStart; virLogBuffer[virLogSize] = 0; virLogDumpAllFD(&virLogBuffer[oldLogStart], len); oldLogLen -= len; oldLogStart = 0; } } virLogDumpAllFD("\n\n ====== end of log =====\n\n", -1); } /** * 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(int priority) { if ((priority < VIR_LOG_DEBUG) || (priority > VIR_LOG_ERROR)) { VIR_WARN0("Ignoring invalid log level setting."); return -1; } if (!virLogInitialized) virLogStartup(); virLogDefaultPriority = priority; return 0; } /** * virLogResetFilters: * * Removes the set of logging filters defined. * * Returns the number of filters removed */ static int virLogResetFilters(void) { int i; for (i = 0; i < virLogNbFilters;i++) VIR_FREE(virLogFilters[i].match); VIR_FREE(virLogFilters); virLogNbFilters = 0; return i; } /** * virLogDefineFilter: * @match: the pattern to match * @priority: the priority to give to messages matching the pattern * @flags: extra flag, currently unused * * Defines a pattern used for log filtering, it allow to select or * reject messages independently of the default priority. * 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 -1 in case of failure or the filter number if successful */ int virLogDefineFilter(const char *match, int priority, int flags ATTRIBUTE_UNUSED) { int i; char *mdup = NULL; if ((match == NULL) || (priority < VIR_LOG_DEBUG) || (priority > VIR_LOG_ERROR)) return -1; virLogLock(); for (i = 0;i < virLogNbFilters;i++) { if (STREQ(virLogFilters[i].match, match)) { virLogFilters[i].priority = priority; goto cleanup; } } mdup = strdup(match); if (mdup == NULL) { i = -1; goto cleanup; } i = virLogNbFilters; if (VIR_REALLOC_N(virLogFilters, virLogNbFilters + 1)) { i = -1; VIR_FREE(mdup); goto cleanup; } virLogFilters[i].match = mdup; virLogFilters[i].priority = priority; virLogNbFilters++; cleanup: virLogUnlock(); return i; } /** * virLogFiltersCheck: * @input: the input string * * Check the input of the message against the existing filters. Currently * the match is just a substring check of the category used as the input * string, a more subtle approach could be used instead * * Returns 0 if not matched or the new priority if found. */ static int virLogFiltersCheck(const char *input) { int ret = 0; int i; virLogLock(); for (i = 0;i < virLogNbFilters;i++) { if (strstr(input, virLogFilters[i].match)) { ret = virLogFilters[i].priority; break; } } virLogUnlock(); return ret; } /** * virLogResetOutputs: * * Removes the set of logging output defined. * * Returns the number of output removed */ static int virLogResetOutputs(void) { int i; for (i = 0;i < virLogNbOutputs;i++) { if (virLogOutputs[i].c != NULL) virLogOutputs[i].c(virLogOutputs[i].data); VIR_FREE(virLogOutputs[i].name); } VIR_FREE(virLogOutputs); i = virLogNbOutputs; virLogNbOutputs = 0; return i; } /** * virLogDefineOutput: * @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 the function * @priority: minimal priority for this filter, use 0 for none * @dest: where to send output of this priority * @name: optional name data associated with an output * @flags: extra flag, currently unused * * Defines an output function for log messages. Each message once * gone though filtering is emitted through each registered output. * * Returns -1 in case of failure or the output number if successful */ int virLogDefineOutput(virLogOutputFunc f, virLogCloseFunc c, void *data, int priority, int dest, const char *name, int flags ATTRIBUTE_UNUSED) { int ret = -1; char *ndup = NULL; if (f == NULL) return -1; if (dest == VIR_LOG_TO_SYSLOG || dest == VIR_LOG_TO_FILE) { if (name == NULL) return -1; ndup = strdup(name); if (ndup == NULL) return -1; } virLogLock(); if (VIR_REALLOC_N(virLogOutputs, virLogNbOutputs + 1)) { VIR_FREE(ndup); goto cleanup; } ret = virLogNbOutputs++; virLogOutputs[ret].logVersion = true; virLogOutputs[ret].f = f; virLogOutputs[ret].c = c; virLogOutputs[ret].data = data; virLogOutputs[ret].priority = priority; virLogOutputs[ret].dest = dest; virLogOutputs[ret].name = ndup; cleanup: virLogUnlock(); return ret; } static int virLogFormatString(char **msg, const char *funcname, long long linenr, struct tm *time_info, struct timeval *cur_time, int priority, const char *str) { int ret; if ((funcname != NULL)) { ret = virAsprintf(msg, "%02d:%02d:%02d.%03d: %d: %s : %s:%lld : %s\n", time_info->tm_hour, time_info->tm_min, time_info->tm_sec, (int) cur_time->tv_usec / 1000, virThreadSelfID(), virLogPriorityString(priority), funcname, linenr, str); } else { ret = virAsprintf(msg, "%02d:%02d:%02d.%03d: %d: %s : %s\n", time_info->tm_hour, time_info->tm_min, time_info->tm_sec, (int) cur_time->tv_usec / 1000, virThreadSelfID(), virLogPriorityString(priority), str); } return ret; } static int virLogVersionString(char **msg, struct tm *time_info, struct timeval *cur_time) { #ifdef PACKAGER_VERSION # ifdef PACKAGER # define LOG_VERSION_STRING \ "libvirt version: " VERSION ", package: " PACKAGER_VERSION " (" PACKAGER ")" # else # define LOG_VERSION_STRING \ "libvirt version: " VERSION ", package: " PACKAGER_VERSION # endif #else # define LOG_VERSION_STRING \ "libvirt version: " VERSION #endif return virLogFormatString(msg, NULL, 0, time_info, cur_time, VIR_LOG_INFO, LOG_VERSION_STRING); } /** * virLogMessage: * @category: where is that message coming from * @priority: the priority level * @funcname: the function emitting the (debug) message * @linenr: line where the message was emitted * @flags: extra flags, 1 if coming from the error handler * @fmt: the string format * @...: the arguments * * Call the libvirt logger with some informations. Based on the configuration * the message may be stored, sent to output or just discarded */ void virLogMessage(const char *category, int priority, const char *funcname, long long linenr, int flags, const char *fmt, ...) { static bool logVersionStderr = true; char *str = NULL; char *msg = NULL; struct timeval cur_time; struct tm time_info; int len, fprio, i, ret; int saved_errno = errno; int emit = 1; if (!virLogInitialized) virLogStartup(); if (fmt == NULL) goto cleanup; /* * check against list of specific logging patterns */ fprio = virLogFiltersCheck(category); if (fprio == 0) { if (priority < virLogDefaultPriority) emit = 0; } else if (priority < fprio) { emit = 0; } if ((emit == 0) && ((virLogBuffer == NULL) || (virLogSize <= 0))) goto cleanup; /* * serialize the error message, add level and timestamp */ VIR_GET_VAR_STR(fmt, str); if (str == NULL) goto cleanup; gettimeofday(&cur_time, NULL); localtime_r(&cur_time.tv_sec, &time_info); ret = virLogFormatString(&msg, funcname, linenr, &time_info, &cur_time, priority, str); VIR_FREE(str); if (ret < 0) goto cleanup; /* * Log based on defaults, first store in the history buffer, * then if emit push the message on the outputs defined, if none * use stderr. * NOTE: the locking is a single point of contention for multiple * threads, but avoid intermixing. Maybe set up locks per output * to improve paralellism. */ len = strlen(msg); virLogStr(msg, len); if (emit == 0) goto cleanup; virLogLock(); for (i = 0; i < virLogNbOutputs;i++) { if (priority >= virLogOutputs[i].priority) { if (virLogOutputs[i].logVersion) { char *ver = NULL; if (virLogVersionString(&ver, &time_info, &cur_time) >= 0) virLogOutputs[i].f(category, VIR_LOG_INFO, __func__, __LINE__, ver, strlen(ver), virLogOutputs[i].data); VIR_FREE(ver); virLogOutputs[i].logVersion = false; } virLogOutputs[i].f(category, priority, funcname, linenr, msg, len, virLogOutputs[i].data); } } if ((virLogNbOutputs == 0) && (flags != 1)) { if (logVersionStderr) { char *ver = NULL; if (virLogVersionString(&ver, &time_info, &cur_time) >= 0) ignore_value (safewrite(STDERR_FILENO, ver, strlen(ver))); VIR_FREE(ver); logVersionStderr = false; } ignore_value (safewrite(STDERR_FILENO, msg, len)); } virLogUnlock(); cleanup: VIR_FREE(msg); errno = saved_errno; } static int virLogOutputToFd(const char *category ATTRIBUTE_UNUSED, int priority ATTRIBUTE_UNUSED, const char *funcname ATTRIBUTE_UNUSED, long long linenr ATTRIBUTE_UNUSED, const char *str, int len, void *data) { int fd = (long) data; int ret; if (fd < 0) return -1; ret = safewrite(fd, str, len); return ret; } static void virLogCloseFd(void *data) { int fd = (long) data; VIR_FORCE_CLOSE(fd); } static int virLogAddOutputToStderr(int priority) { if (virLogDefineOutput(virLogOutputToFd, NULL, (void *)2L, priority, VIR_LOG_TO_STDERR, NULL, 0) < 0) return -1; return 0; } static int virLogAddOutputToFile(int priority, const char *file) { int fd; fd = open(file, O_CREAT | O_APPEND | O_WRONLY, S_IRUSR | S_IWUSR); if (fd < 0) return -1; if (virLogDefineOutput(virLogOutputToFd, virLogCloseFd, (void *)(long)fd, priority, VIR_LOG_TO_FILE, file, 0) < 0) { VIR_FORCE_CLOSE(fd); return -1; } return 0; } #if HAVE_SYSLOG_H static int virLogOutputToSyslog(const char *category ATTRIBUTE_UNUSED, int priority, const char *funcname ATTRIBUTE_UNUSED, long long linenr ATTRIBUTE_UNUSED, const char *str, int len ATTRIBUTE_UNUSED, void *data ATTRIBUTE_UNUSED) { int prio; switch (priority) { case VIR_LOG_DEBUG: prio = LOG_DEBUG; break; case VIR_LOG_INFO: prio = LOG_INFO; break; case VIR_LOG_WARN: prio = LOG_WARNING; break; case VIR_LOG_ERROR: prio = LOG_ERR; break; default: prio = LOG_ERR; } syslog(prio, "%s", str); return len; } static char *current_ident = NULL; static void virLogCloseSyslog(void *data ATTRIBUTE_UNUSED) { closelog(); VIR_FREE(current_ident); } static int virLogAddOutputToSyslog(int priority, const char *ident) { /* * ident needs to be kept around on Solaris */ VIR_FREE(current_ident); current_ident = strdup(ident); if (current_ident == NULL) return -1; openlog(current_ident, 0, 0); if (virLogDefineOutput(virLogOutputToSyslog, virLogCloseSyslog, NULL, priority, VIR_LOG_TO_SYSLOG, ident, 0) < 0) { closelog(); VIR_FREE(current_ident); return -1; } return 0; } #endif /* HAVE_SYSLOG_H */ #define IS_SPACE(cur) \ ((*cur == ' ') || (*cur == '\t') || (*cur == '\n') || \ (*cur == '\r') || (*cur == '\\')) /** * virLogParseOutputs: * @outputs: string defining a (set of) output(s) * * The format for an output can be: * x:stderr * output goes to stderr * x:syslog:name * use syslog for the output and use the given name as the ident * x:file:file_path * output to a file, with the given filepath * In all case the x prefix is the minimal level, acting as a filter * 0: everything * 1: DEBUG * 2: INFO * 3: WARNING * 4: ERROR * * Multiple output can be defined in a single @output, they just need to be * separated by spaces. * * Returns the number of output parsed and installed or -1 in case of error */ int virLogParseOutputs(const char *outputs) { const char *cur = outputs, *str; char *name; char *abspath; int prio; int ret = -1; int count = 0; if (cur == NULL) return -1; virSkipSpaces(&cur); while (*cur != 0) { prio= virParseNumber(&cur); if ((prio < VIR_LOG_DEBUG) || (prio > VIR_LOG_ERROR)) goto cleanup; if (*cur != ':') goto cleanup; cur++; if (STREQLEN(cur, "stderr", 6)) { cur += 6; if (virLogAddOutputToStderr(prio) == 0) count++; } else if (STREQLEN(cur, "syslog", 6)) { cur += 6; if (*cur != ':') goto cleanup; cur++; str = cur; while ((*cur != 0) && (!IS_SPACE(cur))) cur++; if (str == cur) goto cleanup; #if HAVE_SYSLOG_H name = strndup(str, cur - str); if (name == NULL) goto cleanup; if (virLogAddOutputToSyslog(prio, name) == 0) count++; VIR_FREE(name); #endif /* HAVE_SYSLOG_H */ } else if (STREQLEN(cur, "file", 4)) { cur += 4; if (*cur != ':') goto cleanup; cur++; str = cur; while ((*cur != 0) && (!IS_SPACE(cur))) cur++; if (str == cur) goto cleanup; name = strndup(str, cur - str); if (name == NULL) goto cleanup; if (virFileAbsPath(name, &abspath) < 0) { VIR_FREE(name); return -1; /* skip warning here because setting was fine */ } if (virLogAddOutputToFile(prio, abspath) == 0) count++; VIR_FREE(name); VIR_FREE(abspath); } else { goto cleanup; } virSkipSpaces(&cur); } ret = count; cleanup: if (ret == -1) VIR_WARN0("Ignoring invalid log output setting."); return ret; } /** * virLogParseFilters: * @filters: string defining a (set of) filter(s) * * The format for a filter is: * x:name * where name is a match string * the x prefix is the minimal level where the messages should be logged * 1: DEBUG * 2: INFO * 3: WARNING * 4: ERROR * * Multiple filter can be defined in a single @filters, they just need to be * separated by spaces. * * Returns the number of filter parsed and installed or -1 in case of error */ int virLogParseFilters(const char *filters) { const char *cur = filters, *str; char *name; int prio; int ret = -1; int count = 0; if (cur == NULL) return -1; virSkipSpaces(&cur); while (*cur != 0) { prio= virParseNumber(&cur); if ((prio < VIR_LOG_DEBUG) || (prio > VIR_LOG_ERROR)) goto cleanup; if (*cur != ':') goto cleanup; cur++; str = cur; while ((*cur != 0) && (!IS_SPACE(cur))) cur++; if (str == cur) goto cleanup; name = strndup(str, cur - str); if (name == NULL) goto cleanup; if (virLogDefineFilter(name, prio, 0) >= 0) count++; VIR_FREE(name); virSkipSpaces(&cur); } ret = count; cleanup: if (ret == -1) VIR_WARN0("Ignoring invalid log filter setting."); return ret; } /** * virLogGetDefaultPriority: * * Returns the current logging priority level. */ int 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) { int i; virBuffer filterbuf = VIR_BUFFER_INITIALIZER; virLogLock(); for (i = 0; i < virLogNbFilters; i++) { virBufferVSprintf(&filterbuf, "%d:%s ", virLogFilters[i].priority, virLogFilters[i].match); } virLogUnlock(); if (virBufferError(&filterbuf)) { virBufferFreeAndReset(&filterbuf); return NULL; } 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) { int i; virBuffer outputbuf = VIR_BUFFER_INITIALIZER; virLogLock(); for (i = 0; i < virLogNbOutputs; i++) { int dest = virLogOutputs[i].dest; if (i) virBufferVSprintf(&outputbuf, " "); switch (dest) { case VIR_LOG_TO_SYSLOG: case VIR_LOG_TO_FILE: virBufferVSprintf(&outputbuf, "%d:%s:%s", virLogOutputs[i].priority, virLogOutputString(dest), virLogOutputs[i].name); break; default: virBufferVSprintf(&outputbuf, "%d:%s", virLogOutputs[i].priority, virLogOutputString(dest)); } } virLogUnlock(); if (virBufferError(&outputbuf)) { virBufferFreeAndReset(&outputbuf); return NULL; } return virBufferContentAndReset(&outputbuf); } /** * 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 * * Parses and sets the default log priority level. It can take a string or * number corresponding to the following levels: * 1: DEBUG * 2: INFO * 3: WARNING * 4: ERROR * * Returns the parsed log level or -1 on error. */ int virLogParseDefaultPriority(const char *priority) { int ret = -1; if (STREQ(priority, "1") || STREQ(priority, "debug")) ret = virLogSetDefaultPriority(VIR_LOG_DEBUG); else if (STREQ(priority, "2") || STREQ(priority, "info")) ret = virLogSetDefaultPriority(VIR_LOG_INFO); else if (STREQ(priority, "3") || STREQ(priority, "warning")) ret = virLogSetDefaultPriority(VIR_LOG_WARN); else if (STREQ(priority, "4") || STREQ(priority, "error")) ret = virLogSetDefaultPriority(VIR_LOG_ERROR); else VIR_WARN0("Ignoring invalid log level setting"); return ret; } /** * virLogSetFromEnv: * * Sets virLogDefaultPriority, virLogFilters and virLogOutputs based on * environment variables. */ void virLogSetFromEnv(void) { char *debugEnv; debugEnv = getenv("LIBVIRT_DEBUG"); if (debugEnv && *debugEnv) virLogParseDefaultPriority(debugEnv); debugEnv = getenv("LIBVIRT_LOG_FILTERS"); if (debugEnv && *debugEnv) virLogParseFilters(debugEnv); debugEnv = getenv("LIBVIRT_LOG_OUTPUTS"); if (debugEnv && *debugEnv) virLogParseOutputs(debugEnv); }