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/* debug.c
*
* This file proides debug and run time error analysis support. Some of the
* settings are very performance intense and my be turned off during a release
* build.
*
* File begun on 2008-01-22 by RGerhards
*
* Some functions are controlled by environment variables:
*
* RSYSLOG_DEBUGLOG if set, a debug log file is written to that location
* RSYSLOG_DEBUG specific debug options
*
* For details, visit doc/debug.html
*
* Copyright 2008-2012 Rainer Gerhards and Adiscon GmbH.
*
* This file is part of the rsyslog runtime library.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
* -or-
* see COPYING.ASL20 in the source distribution
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "config.h" /* autotools! */
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#include <signal.h>
#include <errno.h>
#include <pthread.h>
#include <ctype.h>
#include <assert.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/stat.h>
#ifdef HAVE_SYS_SYSCALL_H
# include <sys/syscall.h>
#endif
#if _POSIX_TIMERS <= 0
#include <sys/time.h>
#endif
#include "rsyslog.h"
#include "debug.h"
#include "atomic.h"
#include "cfsysline.h"
#include "obj.h"
/* static data (some time to be replaced) */
DEFobjCurrIf(obj)
int Debug = DEBUG_OFF; /* debug flag - read-only after startup */
int debugging_on = 0; /* read-only, except on sig USR1 */
static int bLogFuncFlow = 0; /* shall the function entry and exit be logged to the debug log? */
static int bLogAllocFree = 0; /* shall calls to (m/c)alloc and free be logged to the debug log? */
static int bPrintFuncDBOnExit = 0; /* shall the function entry and exit be logged to the debug log? */
static int bPrintMutexAction = 0; /* shall mutex calls be printed to the debug log? */
static int bPrintTime = 1; /* print a timestamp together with debug message */
static int bPrintAllDebugOnExit = 0;
static int bAbortTrace = 1; /* print a trace after SIGABRT or SIGSEGV */
static int bOutputTidToStderr = 0;/* output TID to stderr on thread creation */
char *pszAltDbgFileName = NULL; /* if set, debug output is *also* sent to here */
int altdbg = -1; /* and the handle for alternate debug output */
int stddbg = 1; /* the handle for regular debug output, set to stdout if not forking, -1 otherwise */
/* list of files/objects that should be printed */
typedef struct dbgPrintName_s {
uchar *pName;
struct dbgPrintName_s *pNext;
} dbgPrintName_t;
/* forward definitions */
static void dbgGetThrdName(char *pszBuf, size_t lenBuf, pthread_t thrd, int bIncludeNumID);
static dbgThrdInfo_t *dbgGetThrdInfo(void);
static int dbgPrintNameIsInList(const uchar *pName, dbgPrintName_t *pRoot);
/* This lists are single-linked and members are added at the top */
static dbgPrintName_t *printNameFileRoot = NULL;
/* list of all known FuncDBs. We use a special list, because it must only be single-linked. As
* functions never disappear, we only need to add elements when we see a new one and never need
* to remove anything. For this, we simply add at the top, which saves us a Last pointer. The goal
* is to use as few memory as possible.
*/
typedef struct dbgFuncDBListEntry_s {
dbgFuncDB_t *pFuncDB;
struct dbgFuncDBListEntry_s *pNext;
} dbgFuncDBListEntry_t;
dbgFuncDBListEntry_t *pFuncDBListRoot;
static pthread_mutex_t mutFuncDBList;
typedef struct dbgMutLog_s {
struct dbgMutLog_s *pNext;
struct dbgMutLog_s *pPrev;
pthread_mutex_t *mut;
pthread_t thrd;
dbgFuncDB_t *pFuncDB;
int lockLn; /* the actual line where the mutex was locked */
short mutexOp;
} dbgMutLog_t;
static dbgMutLog_t *dbgMutLogListRoot = NULL;
static dbgMutLog_t *dbgMutLogListLast = NULL;
static pthread_mutex_t mutMutLog;
static dbgThrdInfo_t *dbgCallStackListRoot = NULL;
static dbgThrdInfo_t *dbgCallStackListLast = NULL;
static pthread_mutex_t mutCallStack;
static pthread_mutex_t mutdbgprint;
static pthread_key_t keyCallStack;
/* we do not have templates, so we use some macros to create linked list handlers
* for the several types
* DLL means "doubly linked list"
* rgerhards, 2008-01-23
*/
#define DLL_Del(type, pThis) \
if(pThis->pPrev != NULL) \
pThis->pPrev->pNext = pThis->pNext; \
if(pThis->pNext != NULL) \
pThis->pNext->pPrev = pThis->pPrev; \
if(pThis == dbg##type##ListRoot) \
dbg##type##ListRoot = pThis->pNext; \
if(pThis == dbg##type##ListLast) \
dbg##type##ListLast = pThis->pPrev; \
free(pThis);
#define DLL_Add(type, pThis) \
if(dbg##type##ListRoot == NULL) { \
dbg##type##ListRoot = pThis; \
dbg##type##ListLast = pThis; \
} else { \
pThis->pPrev = dbg##type##ListLast; \
dbg##type##ListLast->pNext = pThis; \
dbg##type##ListLast = pThis; \
}
/* we need to do our own mutex cancel cleanup handler as it shall not
* be subject to the debugging instrumentation (that would probably run us
* into an infinite loop
*/
static void dbgMutexCancelCleanupHdlr(void *pmut)
{
pthread_mutex_unlock((pthread_mutex_t*) pmut);
}
/* handler to update the last execution location seen
* rgerhards, 2008-01-28
*/
static inline void
dbgRecordExecLocation(int iStackPtr, int line)
{
dbgThrdInfo_t *pThrd = dbgGetThrdInfo();
pThrd->lastLine[iStackPtr] = line;
}
/* ------------------------- mutex tracking code ------------------------- */
/* ------------------------- FuncDB utility functions ------------------------- */
#define SIZE_FUNCDB_MUTEX_TABLE(pFuncDB) ((int) (sizeof(pFuncDB->mutInfo) / sizeof(dbgFuncDBmutInfoEntry_t)))
/* print a FuncDB
*/
static void dbgFuncDBPrint(dbgFuncDB_t *pFuncDB)
{
assert(pFuncDB != NULL);
assert(pFuncDB->magic == dbgFUNCDB_MAGIC);
/* make output suitable for sorting on invocation count */
dbgprintf("%10.10ld times called: %s:%d:%s\n", pFuncDB->nTimesCalled, pFuncDB->file, pFuncDB->line, pFuncDB->func);
}
/* print all funcdb entries
*/
static void dbgFuncDBPrintAll(void)
{
dbgFuncDBListEntry_t *pFuncDBList;
int nFuncs = 0;
for(pFuncDBList = pFuncDBListRoot ; pFuncDBList != NULL ; pFuncDBList = pFuncDBList->pNext) {
dbgFuncDBPrint(pFuncDBList->pFuncDB);
nFuncs++;
}
dbgprintf("%d unique functions called\n", nFuncs);
}
/* find a mutex inside the FuncDB mutex table. Returns NULL if not found. Only mutexes from the same thread
* are found.
*/
static inline dbgFuncDBmutInfoEntry_t *dbgFuncDBGetMutexInfo(dbgFuncDB_t *pFuncDB, pthread_mutex_t *pmut)
{
int i;
int iFound = -1;
pthread_t ourThrd = pthread_self();
for(i = 0 ; i < SIZE_FUNCDB_MUTEX_TABLE(pFuncDB) ; ++i) {
if(pFuncDB->mutInfo[i].pmut == pmut && pFuncDB->mutInfo[i].lockLn != -1 && pFuncDB->mutInfo[i].thrd == ourThrd) {
iFound = i;
break;
}
}
return (iFound == -1) ? NULL : &pFuncDB->mutInfo[i];
}
/* print any mutex that can be found in the FuncDB. Custom header is provided.
* "thrd" is the thread that is searched. If it is 0, mutexes for all threads
* shall be printed.
*/
static inline void
dbgFuncDBPrintActiveMutexes(dbgFuncDB_t *pFuncDB, char *pszHdrText, pthread_t thrd)
{
int i;
char pszThrdName[64];
for(i = 0 ; i < SIZE_FUNCDB_MUTEX_TABLE(pFuncDB) ; ++i) {
if(pFuncDB->mutInfo[i].lockLn != -1 && (thrd == 0 || thrd == pFuncDB->mutInfo[i].thrd)) {
dbgGetThrdName(pszThrdName, sizeof(pszThrdName), pFuncDB->mutInfo[i].thrd, 1);
dbgprintf("%s:%d:%s:invocation %ld: %s %p[%d/%s]\n", pFuncDB->file, pFuncDB->line, pFuncDB->func,
pFuncDB->mutInfo[i].lInvocation, pszHdrText, (void*)pFuncDB->mutInfo[i].pmut, i,
pszThrdName);
}
}
}
/* find a free mutex info spot in FuncDB. NULL is returned if table is full.
*/
static inline dbgFuncDBmutInfoEntry_t *dbgFuncDBFindFreeMutexInfo(dbgFuncDB_t *pFuncDB)
{
int i;
int iFound = -1;
for(i = 0 ; i < SIZE_FUNCDB_MUTEX_TABLE(pFuncDB) ; ++i) {
if(pFuncDB->mutInfo[i].lockLn == -1) {
iFound = i;
break;
}
}
if(iFound == -1) {
dbgprintf("%s:%d:%s: INFO: out of space in FuncDB for mutex info (max %d entries) - ignoring\n",
pFuncDB->file, pFuncDB->line, pFuncDB->func, SIZE_FUNCDB_MUTEX_TABLE(pFuncDB));
}
return (iFound == -1) ? NULL : &pFuncDB->mutInfo[i];
}
/* add a mutex lock to the FuncDB. If the size is exhausted, info is discarded.
*/
static inline void dbgFuncDBAddMutexLock(dbgFuncDB_t *pFuncDB, pthread_mutex_t *pmut, int lockLn)
{
dbgFuncDBmutInfoEntry_t *pMutInfo;
if((pMutInfo = dbgFuncDBFindFreeMutexInfo(pFuncDB)) != NULL) {
pMutInfo->pmut = pmut;
pMutInfo->lockLn = lockLn;
pMutInfo->lInvocation = pFuncDB->nTimesCalled;
pMutInfo->thrd = pthread_self();
}
}
/* remove a locked mutex from the FuncDB (unlock case!).
*/
static inline void dbgFuncDBRemoveMutexLock(dbgFuncDB_t *pFuncDB, pthread_mutex_t *pmut)
{
dbgFuncDBmutInfoEntry_t *pMutInfo;
if((pMutInfo = dbgFuncDBGetMutexInfo(pFuncDB, pmut)) != NULL) {
pMutInfo->lockLn = -1;
}
}
/* ------------------------- END FuncDB utility functions ------------------------- */
/* output the current thread ID to "relevant" places
* (what "relevant" means is determinded by various ways)
*/
void
dbgOutputTID(char* name)
{
# if defined(HAVE_SYSCALL) && defined(HAVE_SYS_gettid)
if(bOutputTidToStderr)
fprintf(stderr, "thread tid %u, name '%s'\n",
(unsigned)syscall(SYS_gettid), name);
DBGPRINTF("thread created, tid %u, name '%s'\n",
(unsigned)syscall(SYS_gettid), name);
# endif
}
/* ###########################################################################
* IMPORTANT NOTE
* Mutex instrumentation reduces the code's concurrency and thus affects its
* order of execution. It is vital to test the code also with mutex
* instrumentation turned off! Some bugs may not show up while it on...
* ###########################################################################
*/
/* constructor & add new entry to list
*/
dbgMutLog_t *dbgMutLogAddEntry(pthread_mutex_t *pmut, short mutexOp, dbgFuncDB_t *pFuncDB, int lockLn)
{
dbgMutLog_t *pLog;
pLog = calloc(1, sizeof(dbgMutLog_t));
assert(pLog != NULL);
/* fill data members */
pLog->mut = pmut;
pLog->thrd = pthread_self();
pLog->mutexOp = mutexOp;
pLog->lockLn = lockLn;
pLog->pFuncDB = pFuncDB;
DLL_Add(MutLog, pLog);
return pLog;
}
/* destruct log entry
*/
void dbgMutLogDelEntry(dbgMutLog_t *pLog)
{
assert(pLog != NULL);
DLL_Del(MutLog, pLog);
}
/* print a single mutex log entry */
static void dbgMutLogPrintOne(dbgMutLog_t *pLog)
{
char *strmutop;
char buf[64];
char pszThrdName[64];
assert(pLog != NULL);
switch(pLog->mutexOp) {
case MUTOP_LOCKWAIT:
strmutop = "waited on";
break;
case MUTOP_LOCK:
strmutop = "owned";
break;
default:
snprintf(buf, sizeof(buf)/sizeof(char), "unknown state %d - should not happen!", pLog->mutexOp);
strmutop = buf;
break;
}
dbgGetThrdName(pszThrdName, sizeof(pszThrdName), pLog->thrd, 1);
dbgprintf("mutex 0x%lx is being %s by code at %s:%d, thread %s\n", (unsigned long) pLog->mut,
strmutop, pLog->pFuncDB->file,
(pLog->mutexOp == MUTOP_LOCK) ? pLog->lockLn : pLog->pFuncDB->line,
pszThrdName);
}
/* print the complete mutex log */
static void dbgMutLogPrintAll(void)
{
dbgMutLog_t *pLog;
dbgprintf("Mutex log for all known mutex operations:\n");
for(pLog = dbgMutLogListRoot ; pLog != NULL ; pLog = pLog->pNext)
dbgMutLogPrintOne(pLog);
}
/* find the last log entry for that specific mutex object. Is used to delete
* a thread's own requests. Searches occur from the back.
* The pFuncDB is optional and may be NULL to indicate no specific funciont is
* reqested (aka "it is ignored" ;)). This is important for the unlock case.
*/
dbgMutLog_t *dbgMutLogFindSpecific(pthread_mutex_t *pmut, short mutop, dbgFuncDB_t *pFuncDB)
{
dbgMutLog_t *pLog;
pthread_t mythrd = pthread_self();
pLog = dbgMutLogListLast;
while(pLog != NULL) {
if( pLog->mut == pmut && pLog->thrd == mythrd && pLog->mutexOp == mutop
&& (pFuncDB == NULL || pLog->pFuncDB == pFuncDB))
break;
pLog = pLog->pPrev;
}
return pLog;
}
/* find mutex object from the back of the list */
dbgMutLog_t *dbgMutLogFindFromBack(pthread_mutex_t *pmut, dbgMutLog_t *pLast)
{
dbgMutLog_t *pLog;
if(pLast == NULL)
pLog = dbgMutLogListLast;
else
pLog = pLast->pPrev; /* if we get the last processed one, we need to go one before it, else its an endless loop */
while(pLog != NULL) {
if(pLog->mut == pmut) {
break;
}
pLog = pLog->pPrev;
}
return pLog;
}
/* find lock aquire for mutex from back of list */
dbgMutLog_t *dbgMutLogFindHolder(pthread_mutex_t *pmut)
{
dbgMutLog_t *pLog;
pLog = dbgMutLogFindFromBack(pmut, NULL);
while(pLog != NULL) {
if(pLog->mutexOp == MUTOP_LOCK)
break;
pLog = dbgMutLogFindFromBack(pmut, pLog);
}
return pLog;
}
/* report wait on a mutex and add it to the mutex log */
static inline void dbgMutexPreLockLog(pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int ln)
{
dbgMutLog_t *pHolder;
char pszBuf[128];
char pszHolderThrdName[64];
char *pszHolder;
pthread_mutex_lock(&mutMutLog);
pHolder = dbgMutLogFindHolder(pmut);
dbgMutLogAddEntry(pmut, MUTOP_LOCKWAIT, pFuncDB, ln);
if(pHolder == NULL)
pszHolder = "[NONE]";
else {
dbgGetThrdName(pszHolderThrdName, sizeof(pszHolderThrdName), pHolder->thrd, 1);
snprintf(pszBuf, sizeof(pszBuf)/sizeof(char), "%s:%d [%s]", pHolder->pFuncDB->file, pHolder->lockLn, pszHolderThrdName);
pszHolder = pszBuf;
}
if(bPrintMutexAction)
dbgprintf("%s:%d:%s: mutex %p waiting on lock, held by %s\n", pFuncDB->file, ln, pFuncDB->func, (void*)pmut, pszHolder);
pthread_mutex_unlock(&mutMutLog);
}
/* report aquired mutex */
static inline void dbgMutexLockLog(pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int lockLn)
{
dbgMutLog_t *pLog;
pthread_mutex_lock(&mutMutLog);
/* find and delete "waiting" entry */
pLog = dbgMutLogFindSpecific(pmut, MUTOP_LOCKWAIT, pFuncDB);
assert(pLog != NULL);
dbgMutLogDelEntry(pLog);
/* add "lock" entry */
dbgMutLogAddEntry(pmut, MUTOP_LOCK, pFuncDB, lockLn);
dbgFuncDBAddMutexLock(pFuncDB, pmut, lockLn);
pthread_mutex_unlock(&mutMutLog);
if(bPrintMutexAction)
dbgprintf("%s:%d:%s: mutex %p aquired\n", pFuncDB->file, lockLn, pFuncDB->func, (void*)pmut);
}
/* report trylock on a mutex and add it to the mutex log */
static inline void dbgMutexPreTryLockLog(pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int ln)
{
dbgMutLog_t *pHolder;
char pszBuf[128];
char pszHolderThrdName[64];
char *pszHolder;
pthread_mutex_lock(&mutMutLog);
pHolder = dbgMutLogFindHolder(pmut);
dbgMutLogAddEntry(pmut, MUTOP_TRYLOCK, pFuncDB, ln);
if(pHolder == NULL)
pszHolder = "[NONE]";
else {
dbgGetThrdName(pszHolderThrdName, sizeof(pszHolderThrdName), pHolder->thrd, 1);
snprintf(pszBuf, sizeof(pszBuf)/sizeof(char), "%s:%d [%s]", pHolder->pFuncDB->file, pHolder->lockLn, pszHolderThrdName);
pszHolder = pszBuf;
}
if(bPrintMutexAction)
dbgprintf("%s:%d:%s: mutex %p trying to get lock, held by %s\n", pFuncDB->file, ln, pFuncDB->func, (void*)pmut, pszHolder);
pthread_mutex_unlock(&mutMutLog);
}
/* report attempted mutex lock */
static inline void dbgMutexTryLockLog(pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int lockLn)
{
dbgMutLog_t *pLog;
pthread_mutex_lock(&mutMutLog);
/* find and delete "trylock" entry */
pLog = dbgMutLogFindSpecific(pmut, MUTOP_TRYLOCK, pFuncDB);
assert(pLog != NULL);
dbgMutLogDelEntry(pLog);
/* add "lock" entry */
dbgMutLogAddEntry(pmut, MUTOP_LOCK, pFuncDB, lockLn);
dbgFuncDBAddMutexLock(pFuncDB, pmut, lockLn);
pthread_mutex_unlock(&mutMutLog);
if(bPrintMutexAction)
dbgprintf("%s:%d:%s: mutex %p aquired\n", pFuncDB->file, lockLn, pFuncDB->func, (void*)pmut);
}
/* if we unlock, we just remove the lock aquired entry from the log list */
static inline void dbgMutexUnlockLog(pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int unlockLn)
{
dbgMutLog_t *pLog;
pthread_mutex_lock(&mutMutLog);
pLog = dbgMutLogFindSpecific(pmut, MUTOP_LOCK, NULL);
#if 0 /* toggle for testing */
assert(pLog != NULL);
#else
/* the change below seems not to work - the problem seems to be a real race... I keep this code in just in case
* I need to re-use it. It should be removed once we are finished analyzing this problem. -- rgerhards, 2008-09-17
*/
if(pLog == NULL) {
/* this may happen due to some races. We do not try to avoid
* this, as it would complicate the "real" code. This is not justified
* just to keep the debug info system up. -- rgerhards, 2008-09-17
*/
pthread_mutex_unlock(&mutMutLog);
dbgprintf("%s:%d:%s: mutex %p UNlocked [but we did not yet know this mutex!]\n",
pFuncDB->file, unlockLn, pFuncDB->func, (void*)pmut);
return; /* if we don't know it yet, we can not clean up... */
}
#endif
#include <sys/syscall.h>
/* we found the last lock entry. We now need to see from which FuncDB we need to
* remove it. This is recorded inside the mutex log entry.
*/
dbgFuncDBRemoveMutexLock(pLog->pFuncDB, pmut);
/* donw with the log entry, get rid of it... */
dbgMutLogDelEntry(pLog);
pthread_mutex_unlock(&mutMutLog);
if(bPrintMutexAction)
dbgprintf("%s:%d:%s: mutex %p UNlocked\n", pFuncDB->file, unlockLn, pFuncDB->func, (void*)pmut);
}
/* wrapper for pthread_mutex_lock() */
int dbgMutexLock(pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int ln, int iStackPtr)
{
int ret;
dbgRecordExecLocation(iStackPtr, ln);
dbgMutexPreLockLog(pmut, pFuncDB, ln);
ret = pthread_mutex_lock(pmut);
if(ret == 0) {
dbgMutexLockLog(pmut, pFuncDB, ln);
} else {
dbgprintf("%s:%d:%s: ERROR: pthread_mutex_lock() for mutex %p failed with error %d\n",
pFuncDB->file, ln, pFuncDB->func, (void*)pmut, ret);
}
return ret;
}
/* wrapper for pthread_mutex_trylock() */
int dbgMutexTryLock(pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int ln, int iStackPtr)
{
int ret;
dbgRecordExecLocation(iStackPtr, ln);
dbgMutexPreLockLog(pmut, pFuncDB, ln); // TODO : update this
ret = pthread_mutex_trylock(pmut);
if(ret == 0 || ret == EBUSY) {
// TODO : update this
dbgMutexLockLog(pmut, pFuncDB, ln);
} else {
dbgprintf("%s:%d:%s: ERROR: pthread_mutex_trylock() for mutex %p failed with error %d\n",
pFuncDB->file, ln, pFuncDB->func, (void*)pmut, ret);
}
return ret;
}
/* wrapper for pthread_mutex_unlock() */
int dbgMutexUnlock(pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int ln, int iStackPtr)
{
int ret;
dbgRecordExecLocation(iStackPtr, ln);
dbgMutexUnlockLog(pmut, pFuncDB, ln);
ret = pthread_mutex_unlock(pmut);
return ret;
}
/* wrapper for pthread_cond_wait() */
int dbgCondWait(pthread_cond_t *cond, pthread_mutex_t *pmut, dbgFuncDB_t *pFuncDB, int ln, int iStackPtr)
{
int ret;
dbgRecordExecLocation(iStackPtr, ln);
dbgMutexUnlockLog(pmut, pFuncDB, ln);
if(bPrintMutexAction) {
dbgprintf("%s:%d:%s: mutex %p waiting on condition %p\n", pFuncDB->file, pFuncDB->line,
pFuncDB->func, (void*)pmut, (void*)cond);
}
dbgMutexPreLockLog(pmut, pFuncDB, ln);
ret = pthread_cond_wait(cond, pmut);
return ret;
}
/* wrapper for pthread_cond_timedwait() */
int dbgCondTimedWait(pthread_cond_t *cond, pthread_mutex_t *pmut, const struct timespec *abstime, dbgFuncDB_t *pFuncDB, int ln, int iStackPtr)
{
int ret;
dbgRecordExecLocation(iStackPtr, ln);
dbgMutexUnlockLog(pmut, pFuncDB, ln);
dbgMutexPreLockLog(pmut, pFuncDB, ln);
if(bPrintMutexAction) {
dbgprintf("%s:%d:%s: mutex %p waiting on condition %p (with timeout)\n", pFuncDB->file,
pFuncDB->line, pFuncDB->func, (void*)pmut, (void*)cond);
}
ret = pthread_cond_timedwait(cond, pmut, abstime);
dbgMutexLockLog(pmut, pFuncDB, ln);
return ret;
}
/* ------------------------- end mutex tracking code ------------------------- */
/* ------------------------- malloc/free tracking code ------------------------- */
/* wrapper for free() */
void dbgFree(void *pMem, dbgFuncDB_t *pFuncDB, int ln, int iStackPtr)
{
dbgRecordExecLocation(iStackPtr, ln);
if(bLogAllocFree) {
dbgprintf("%s:%d:%s: free %p\n", pFuncDB->file, ln, pFuncDB->func, (void*) pMem);
}
free(pMem);
}
/* ------------------------- end malloc/free tracking code ------------------------- */
/* ------------------------- thread tracking code ------------------------- */
/* get ptr to call stack - if none exists, create a new stack
*/
static dbgThrdInfo_t *dbgGetThrdInfo(void)
{
dbgThrdInfo_t *pThrd;
pthread_mutex_lock(&mutCallStack);
if((pThrd = pthread_getspecific(keyCallStack)) == NULL) {
/* construct object */
if((pThrd = calloc(1, sizeof(dbgThrdInfo_t))) != NULL) {
pThrd->thrd = pthread_self();
(void) pthread_setspecific(keyCallStack, pThrd);
DLL_Add(CallStack, pThrd);
}
}
pthread_mutex_unlock(&mutCallStack);
return pThrd;
}
/* find a specific thread ID. It must be present, else something is wrong
*/
static inline dbgThrdInfo_t *dbgFindThrd(pthread_t thrd)
{
dbgThrdInfo_t *pThrd;
for(pThrd = dbgCallStackListRoot ; pThrd != NULL ; pThrd = pThrd->pNext) {
if(pThrd->thrd == thrd)
break;
}
return pThrd;
}
/* build a string with the thread name. If none is set, the thread ID is
* used instead. Caller must provide buffer space. If bIncludeNumID is set
* to 1, the numerical ID is always included.
* rgerhards 2008-01-23
*/
static void dbgGetThrdName(char *pszBuf, size_t lenBuf, pthread_t thrd, int bIncludeNumID)
{
dbgThrdInfo_t *pThrd;
assert(pszBuf != NULL);
pThrd = dbgFindThrd(thrd);
if(pThrd == 0 || pThrd->pszThrdName == NULL) {
/* no thread name, use numeric value */
snprintf(pszBuf, lenBuf, "%lx", (long) thrd);
} else {
if(bIncludeNumID) {
snprintf(pszBuf, lenBuf, "%-15s (%lx)", pThrd->pszThrdName, (long) thrd);
} else {
snprintf(pszBuf, lenBuf, "%-15s", pThrd->pszThrdName);
}
}
}
/* set a name for the current thread. The caller provided string is duplicated.
* Note: we must lock the "dbgprint" mutex, because dbgprint() uses the thread
* name and we could get a race (and abort) in cases where both are executed in
* parallel and we free or incompletely-copy the string.
*/
void dbgSetThrdName(uchar *pszName)
{
pthread_mutex_lock(&mutdbgprint);
dbgThrdInfo_t *pThrd = dbgGetThrdInfo();
if(pThrd->pszThrdName != NULL)
free(pThrd->pszThrdName);
pThrd->pszThrdName = strdup((char*)pszName);
pthread_mutex_unlock(&mutdbgprint);
}
/* destructor for a call stack object */
static void dbgCallStackDestruct(void *arg)
{
dbgThrdInfo_t *pThrd = (dbgThrdInfo_t*) arg;
dbgprintf("destructor for debug call stack %p called\n", pThrd);
if(pThrd->pszThrdName != NULL) {
free(pThrd->pszThrdName);
}
pthread_mutex_lock(&mutCallStack);
DLL_Del(CallStack, pThrd);
pthread_mutex_unlock(&mutCallStack);
}
/* print a thread's call stack
*/
static void dbgCallStackPrint(dbgThrdInfo_t *pThrd)
{
int i;
char pszThrdName[64];
pthread_mutex_lock(&mutCallStack);
dbgGetThrdName(pszThrdName, sizeof(pszThrdName), pThrd->thrd, 1);
dbgprintf("\n");
dbgprintf("Recorded Call Order for Thread '%s':\n", pszThrdName);
for(i = 0 ; i < pThrd->stackPtr ; i++) {
dbgprintf("%d: %s:%d:%s:\n", i, pThrd->callStack[i]->file, pThrd->lastLine[i], pThrd->callStack[i]->func);
}
dbgprintf("maximum number of nested calls for this thread: %d.\n", pThrd->stackPtrMax);
dbgprintf("NOTE: not all calls may have been recorded, code does not currently guarantee that!\n");
pthread_mutex_unlock(&mutCallStack);
}
/* print all threads call stacks
*/
void dbgCallStackPrintAll(void)
{
dbgThrdInfo_t *pThrd;
/* stack info */
for(pThrd = dbgCallStackListRoot ; pThrd != NULL ; pThrd = pThrd->pNext) {
dbgCallStackPrint(pThrd);
}
}
/* handler for SIGSEGV - MUST terminiate the app, but does so in a somewhat
* more meaningful way.
* rgerhards, 2008-01-22
*/
void
sigsegvHdlr(int signum)
{
char *signame;
struct sigaction sigAct;
/* first, restore the default abort handler */
memset(&sigAct, 0, sizeof (sigAct));
sigemptyset(&sigAct.sa_mask);
sigAct.sa_handler = SIG_DFL;
sigaction(SIGABRT, &sigAct, NULL);
/* then do our actual processing */
if(signum == SIGSEGV) {
signame = " (SIGSEGV)";
} else if(signum == SIGABRT) {
signame = " (SIGABRT)";
} else {
signame = "";
}
dbgprintf("\n\n\n\nSignal %d%s occured, execution must be terminated.\n\n\n\n", signum, signame);
if(bAbortTrace) {
dbgPrintAllDebugInfo();
dbgprintf("If the call trace is empty, you may want to ./configure --enable-rtinst\n");
dbgprintf("\n\nTo submit bug reports, visit http://www.rsyslog.com/bugs\n\n");
}
dbgprintf("\n\nTo submit bug reports, visit http://www.rsyslog.com/bugs\n\n");
/* and finally abort... */
/* TODO: think about restarting rsyslog in this case: may be a good idea,
* but may also be a very bad one (restart loops!)
*/
abort();
}
/* actually write the debug message. This is a separate fuction because the cleanup_push/_pop
* interface otherwise is unsafe to use (generates compiler warnings at least).
* 2009-05-20 rgerhards
*/
static inline void
do_dbgprint(uchar *pszObjName, char *pszMsg, size_t lenMsg)
{
static pthread_t ptLastThrdID = 0;
static int bWasNL = 0;
char pszThrdName[64]; /* 64 is to be on the safe side, anything over 20 is bad... */
char pszWriteBuf[32*1024];
size_t lenCopy;
size_t offsWriteBuf = 0;
size_t lenWriteBuf;
struct timespec t;
# if _POSIX_TIMERS <= 0
struct timeval tv;
# endif
#if 1
/* The bWasNL handler does not really work. It works if no thread
* switching occurs during non-NL messages. Else, things are messed
* up. Anyhow, it works well enough to provide useful help during
* getting this up and running. It is questionable if the extra effort
* is worth fixing it, giving the limited appliability. -- rgerhards, 2005-10-25
* I have decided that it is not worth fixing it - especially as it works
* pretty well. -- rgerhards, 2007-06-15
*/
if(ptLastThrdID != pthread_self()) {
if(!bWasNL) {
pszWriteBuf[0] = '\n';
offsWriteBuf = 1;
bWasNL = 1;
}
ptLastThrdID = pthread_self();
}
/* do not cache the thread name, as the caller might have changed it
* TODO: optimized, invalidate cache when new name is set
*/
dbgGetThrdName(pszThrdName, sizeof(pszThrdName), ptLastThrdID, 0);
if(bWasNL) {
if(bPrintTime) {
# if _POSIX_TIMERS > 0
/* this is the "regular" code */
clock_gettime(CLOCK_REALTIME, &t);
# else
gettimeofday(&tv, NULL);
t.tv_sec = tv.tv_sec;
t.tv_nsec = tv.tv_usec * 1000;
# endif
lenWriteBuf = snprintf(pszWriteBuf+offsWriteBuf, sizeof(pszWriteBuf) - offsWriteBuf,
"%4.4ld.%9.9ld:", (long) (t.tv_sec % 10000), t.tv_nsec);
offsWriteBuf += lenWriteBuf;
}
lenWriteBuf = snprintf(pszWriteBuf + offsWriteBuf, sizeof(pszWriteBuf) - offsWriteBuf, "%s: ", pszThrdName);
offsWriteBuf += lenWriteBuf;
/* print object name header if we have an object */
if(pszObjName != NULL) {
lenWriteBuf = snprintf(pszWriteBuf + offsWriteBuf, sizeof(pszWriteBuf) - offsWriteBuf, "%s: ", pszObjName);
offsWriteBuf += lenWriteBuf;
}
}
#endif
if(lenMsg > sizeof(pszWriteBuf) - offsWriteBuf)
lenCopy = sizeof(pszWriteBuf) - offsWriteBuf;
else
lenCopy = lenMsg;
memcpy(pszWriteBuf + offsWriteBuf, pszMsg, lenCopy);
offsWriteBuf += lenCopy;
/* the write is included in an "if" just to silence compiler
* warnings. Here, we really don't care if the write fails, we
* have no good response to that in any case... -- rgerhards, 2012-11-28
*/
if(stddbg != -1) if(write(stddbg, pszWriteBuf, offsWriteBuf)){};
if(altdbg != -1) if(write(altdbg, pszWriteBuf, offsWriteBuf)){};
bWasNL = (pszMsg[lenMsg - 1] == '\n') ? 1 : 0;
}
#pragma GCC diagnostic ignored "-Wempty-body"
/* write the debug message. This is a helper to dbgprintf and dbgoprint which
* contains common code. added 2008-09-26 rgerhards
*/
static void
dbgprint(obj_t *pObj, char *pszMsg, size_t lenMsg)
{
uchar *pszObjName = NULL;
/* we must get the object name before we lock the mutex, because the object
* potentially calls back into us. If we locked the mutex, we would deadlock
* ourselfs. On the other hand, the GetName call needs not to be protected, as
* this thread has a valid reference. If such an object is deleted by another
* thread, we are in much more trouble than just for dbgprint(). -- rgerhards, 2008-09-26
*/
if(pObj != NULL) {
pszObjName = obj.GetName(pObj);
}
pthread_mutex_lock(&mutdbgprint);
pthread_cleanup_push(dbgMutexCancelCleanupHdlr, &mutdbgprint);
do_dbgprint(pszObjName, pszMsg, lenMsg);
pthread_cleanup_pop(1);
}
#pragma GCC diagnostic warning "-Wempty-body"
/* print some debug output when an object is given
* This is mostly a copy of dbgprintf, but I do not know how to combine it
* into a single function as we have variable arguments and I don't know how to call
* from one vararg function into another. I don't dig in this, it is OK for the
* time being. -- rgerhards, 2008-01-29
*/
void
dbgoprint(obj_t *pObj, char *fmt, ...)
{
va_list ap;
char pszWriteBuf[32*1024];
size_t lenWriteBuf;
if(!(Debug && debugging_on))
return;
/* a quick and very dirty hack to enable us to display just from those objects
* that we are interested in. So far, this must be changed at compile time (and
* chances are great it is commented out while you read it. Later, this shall
* be selectable via the environment. -- rgerhards, 2008-02-20
*/
#if 0
if(objGetObjID(pObj) != OBJexpr)
return;
#endif
va_start(ap, fmt);
lenWriteBuf = vsnprintf(pszWriteBuf, sizeof(pszWriteBuf), fmt, ap);
va_end(ap);
if(lenWriteBuf >= sizeof(pszWriteBuf)) {
/* prevent buffer overrruns and garbagge display */
pszWriteBuf[sizeof(pszWriteBuf) - 5] = '.';
pszWriteBuf[sizeof(pszWriteBuf) - 4] = '.';
pszWriteBuf[sizeof(pszWriteBuf) - 3] = '.';
pszWriteBuf[sizeof(pszWriteBuf) - 2] = '\n';
pszWriteBuf[sizeof(pszWriteBuf) - 1] = '\0';
lenWriteBuf = sizeof(pszWriteBuf);
}
dbgprint(pObj, pszWriteBuf, lenWriteBuf);
}
/* print some debug output when no object is given
* WARNING: duplicate code, see dbgoprin above!
*/
void
dbgprintf(char *fmt, ...)
{
va_list ap;
char pszWriteBuf[32*1024];
size_t lenWriteBuf;
if(!(Debug && debugging_on))
return;
va_start(ap, fmt);
lenWriteBuf = vsnprintf(pszWriteBuf, sizeof(pszWriteBuf), fmt, ap);
va_end(ap);
if(lenWriteBuf >= sizeof(pszWriteBuf)) {
/* prevent buffer overrruns and garbagge display */
pszWriteBuf[sizeof(pszWriteBuf) - 5] = '.';
pszWriteBuf[sizeof(pszWriteBuf) - 4] = '.';
pszWriteBuf[sizeof(pszWriteBuf) - 3] = '.';
pszWriteBuf[sizeof(pszWriteBuf) - 2] = '\n';
pszWriteBuf[sizeof(pszWriteBuf) - 1] = '\0';
lenWriteBuf = sizeof(pszWriteBuf);
}
dbgprint(NULL, pszWriteBuf, lenWriteBuf);
}
void tester(void)
{
BEGINfunc
ENDfunc
}
/* handler called when a function is entered. This function creates a new
* funcDB on the heap if the passed-in pointer is NULL.
*/
int dbgEntrFunc(dbgFuncDB_t **ppFuncDB, const char *file, const char *func, int line)
{
int iStackPtr = 0; /* TODO: find some better default, this one hurts the least, but it is not clean */
dbgThrdInfo_t *pThrd;
dbgFuncDBListEntry_t *pFuncDBListEntry;
unsigned int i;
dbgFuncDB_t *pFuncDB;
assert(ppFuncDB != NULL);
assert(file != NULL);
assert(func != NULL);
pFuncDB = *ppFuncDB;
assert((pFuncDB == NULL) || (pFuncDB->magic == dbgFUNCDB_MAGIC));
pThrd = dbgGetThrdInfo(); /* we must do this AFTER the mutexes are initialized! */
if(pFuncDB == NULL) {
/* we do not yet have a funcDB and need to create a new one. We also add it
* to the linked list of funcDBs. Please note that when a module is unloaded and
* then reloaded again, we currently do not try to find its previous funcDB but
* instead create a duplicate. While finding the past one is straightforward, it
* opens up the question what to do with e.g. mutex data left in it. We do not
* yet see any need to handle these questions, so duplicaton seems to be the right
* thing to do. -- rgerhards, 2008-03-10
*/
/* dbgprintf("%s:%d:%s: called first time, initializing FuncDB\n", pFuncDB->file, pFuncDB->line, pFuncDB->func); */
/* get a new funcDB and add it to the list (all of this is protected by the mutex) */
pthread_mutex_lock(&mutFuncDBList);
if((pFuncDBListEntry = calloc(1, sizeof(dbgFuncDBListEntry_t))) == NULL) {
dbgprintf("Error %d allocating memory for FuncDB List entry, not adding\n", errno);
pthread_mutex_unlock(&mutFuncDBList);
goto exit_it;
} else {
if((pFuncDB = calloc(1, sizeof(dbgFuncDB_t))) == NULL) {
dbgprintf("Error %d allocating memory for FuncDB, not adding\n", errno);
free(pFuncDBListEntry);
pthread_mutex_unlock(&mutFuncDBList);
goto exit_it;
} else {
pFuncDBListEntry->pFuncDB = pFuncDB;
pFuncDBListEntry->pNext = pFuncDBListRoot;
pFuncDBListRoot = pFuncDBListEntry;
}
}
/* now intialize the funcDB
* note that we duplicate the strings, because the address provided may go away
* if a loadable module is unloaded!
*/
pFuncDB->magic = dbgFUNCDB_MAGIC;
pFuncDB->file = strdup(file);
pFuncDB->func = strdup(func);
pFuncDB->line = line;
pFuncDB->nTimesCalled = 0;
for(i = 0 ; i < sizeof(pFuncDB->mutInfo)/sizeof(dbgFuncDBmutInfoEntry_t) ; ++i) {
pFuncDB->mutInfo[i].lockLn = -1; /* set to not Locked */
}
/* a round of safety checks... */
if(pFuncDB->file == NULL || pFuncDB->func == NULL) {
dbgprintf("Error %d allocating memory for FuncDB, not adding\n", errno);
/* do a little bit of cleanup */
if(pFuncDB->file != NULL)
free(pFuncDB->file);
if(pFuncDB->func != NULL)
free(pFuncDB->func);
free(pFuncDB);
free(pFuncDBListEntry);
pthread_mutex_unlock(&mutFuncDBList);
goto exit_it;
}
/* done mutex-protected operations */
pthread_mutex_unlock(&mutFuncDBList);
*ppFuncDB = pFuncDB; /* all went well, so we can update the caller */
}
/* when we reach this point, we have a fully-initialized FuncDB! */
PREFER_ATOMIC_INC(pFuncDB->nTimesCalled);
if(bLogFuncFlow && dbgPrintNameIsInList((const uchar*)pFuncDB->file, printNameFileRoot))
if(strcmp(pFuncDB->file, "stringbuf.c")) { /* TODO: make configurable */
dbgprintf("%s:%d: %s: enter\n", pFuncDB->file, pFuncDB->line, pFuncDB->func);
}
if(pThrd->stackPtr >= (int) (sizeof(pThrd->callStack) / sizeof(dbgFuncDB_t*))) {
dbgprintf("%s:%d: %s: debug module: call stack for this thread full, suspending call tracking\n",
pFuncDB->file, pFuncDB->line, pFuncDB->func);
iStackPtr = pThrd->stackPtr;
} else {
iStackPtr = pThrd->stackPtr++;
if(pThrd->stackPtr > pThrd->stackPtrMax)
pThrd->stackPtrMax = pThrd->stackPtr;
pThrd->callStack[iStackPtr] = pFuncDB;
pThrd->lastLine[iStackPtr] = line;
}
exit_it:
return iStackPtr;
}
/* handler called when a function is exited
*/
void dbgExitFunc(dbgFuncDB_t *pFuncDB, int iStackPtrRestore, int iRet)
{
dbgThrdInfo_t *pThrd = dbgGetThrdInfo();
assert(iStackPtrRestore >= 0);
assert(pFuncDB != NULL);
assert(pFuncDB->magic == dbgFUNCDB_MAGIC);
dbgFuncDBPrintActiveMutexes(pFuncDB, "WARNING: mutex still owned by us as we exit function, mutex: ", pthread_self());
if(bLogFuncFlow && dbgPrintNameIsInList((const uchar*)pFuncDB->file, printNameFileRoot)) {
if(strcmp(pFuncDB->file, "stringbuf.c")) { /* TODO: make configurable */
if(iRet == RS_RET_NO_IRET)
dbgprintf("%s:%d: %s: exit: (no iRet)\n", pFuncDB->file, pFuncDB->line, pFuncDB->func);
else
dbgprintf("%s:%d: %s: exit: %d\n", pFuncDB->file, pFuncDB->line, pFuncDB->func, iRet);
}
}
pThrd->stackPtr = iStackPtrRestore;
if(pThrd->stackPtr < 0) {
dbgprintf("Stack pointer for thread %lx below 0 - resetting (some RETiRet still wrong!)\n", (long) pthread_self());
pThrd->stackPtr = 0;
}
}
/* externally-callable handler to record the last exec location. We use a different function
* so that the internal one can be inline.
*/
void
dbgSetExecLocation(int iStackPtr, int line)
{
dbgRecordExecLocation(iStackPtr, line);
}
void dbgPrintAllDebugInfo(void)
{
dbgCallStackPrintAll();
dbgMutLogPrintAll();
if(bPrintFuncDBOnExit)
dbgFuncDBPrintAll();
}
/* Handler for SIGUSR2. Dumps all available debug output
*/
static void sigusr2Hdlr(int __attribute__((unused)) signum)
{
dbgprintf("SIGUSR2 received, dumping debug information\n");
dbgPrintAllDebugInfo();
}
/* support system to set debug options at runtime */
/* parse a param/value pair from the current location of the
* option string. Returns 1 if an option was found, 0
* otherwise. 0 means there are NO MORE options to be
* processed. -- rgerhards, 2008-02-28
*/
static int
dbgGetRTOptNamVal(uchar **ppszOpt, uchar **ppOptName, uchar **ppOptVal)
{
int bRet = 0;
uchar *p;
size_t i;
static uchar optname[128]; /* not thread- or reentrant-safe, but that */
static uchar optval[1024]; /* doesn't matter (called only once at startup) */
assert(ppszOpt != NULL);
assert(*ppszOpt != NULL);
/* make sure we have some initial values */
optname[0] = '\0';
optval[0] = '\0';
p = *ppszOpt;
/* skip whitespace */
while(*p && isspace(*p))
++p;
/* name - up until '=' or whitespace */
i = 0;
while(i < (sizeof(optname)/sizeof(uchar) - 1) && *p && *p != '=' && !isspace(*p)) {
optname[i++] = *p++;
}
if(i > 0) {
bRet = 1;
optname[i] = '\0';
if(*p == '=') {
/* we have a value, get it */
++p;
i = 0;
while(i < (sizeof(optval)/sizeof(uchar) - 1) && *p && !isspace(*p)) {
optval[i++] = *p++;
}
optval[i] = '\0';
}
}
/* done */
*ppszOpt = p;
*ppOptName = optname;
*ppOptVal = optval;
return bRet;
}
/* create new PrintName list entry and add it to list (they will never
* be removed. -- rgerhards, 2008-02-28
*/
static void
dbgPrintNameAdd(uchar *pName, dbgPrintName_t **ppRoot)
{
dbgPrintName_t *pEntry;
if((pEntry = calloc(1, sizeof(dbgPrintName_t))) == NULL) {
fprintf(stderr, "ERROR: out of memory during debug setup\n");
exit(1);
}
if((pEntry->pName = (uchar*) strdup((char*) pName)) == NULL) {
fprintf(stderr, "ERROR: out of memory during debug setup\n");
exit(1);
}
if(*ppRoot != NULL) {
pEntry->pNext = *ppRoot; /* we enqueue at the front */
}
*ppRoot = pEntry;
}
/* check if name is in a printName list - returns 1 if so, 0 otherwise.
* There is one special handling: if the root pointer is NULL, the function
* always returns 1. This is because when no name is set, output shall be
* unrestricted.
* rgerhards, 2008-02-28
*/
static int
dbgPrintNameIsInList(const uchar *pName, dbgPrintName_t *pRoot)
{
int bFound = 0;
dbgPrintName_t *pEntry = pRoot;
if(pRoot == NULL)
bFound = 1;
while(pEntry != NULL && !bFound) {
if(!strcasecmp((char*)pEntry->pName, (char*)pName)) {
bFound = 1;
} else {
pEntry = pEntry->pNext;
}
}
return bFound;
}
/* this is a special version of malloc that fills the alloced memory with
* HIGHVALUE, as this helps to identify bugs. -- rgerhards, 2009-10-22
*/
void *
dbgmalloc(size_t size)
{
void *pRet;
pRet = malloc(size);
if(pRet != NULL)
memset(pRet, 0xff, size);
return pRet;
}
/* report fd used for debug log. This is needed in case of
* auto-backgrounding, where the debug log shall not be closed.
*/
int
dbgGetDbglogFd(void)
{
return altdbg;
}
/* read in the runtime options
* rgerhards, 2008-02-28
*/
static void
dbgGetRuntimeOptions(void)
{
uchar *pszOpts;
uchar *optval;
uchar *optname;
/* set some defaults */
if((pszOpts = (uchar*) getenv("RSYSLOG_DEBUG")) != NULL) {
/* we have options set, so let's process them */
while(dbgGetRTOptNamVal(&pszOpts, &optname, &optval)) {
if(!strcasecmp((char*)optname, "help")) {
fprintf(stderr,
"rsyslogd " VERSION " runtime debug support - help requested, rsyslog terminates\n\n"
"environment variables:\n"
"addional logfile: export RSYSLOG_DEBUGFILE=\"/path/to/file\"\n"
"to set: export RSYSLOG_DEBUG=\"cmd cmd cmd\"\n\n"
"Commands are (all case-insensitive):\n"
"help (this list, terminates rsyslogd\n"
"LogFuncFlow\n"
"LogAllocFree (very partly implemented)\n"
"PrintFuncDB\n"
"PrintMutexAction\n"
"PrintAllDebugInfoOnExit (not yet implemented)\n"
"NoLogTimestamp\n"
"Nostdoout\n"
"OutputTidToStderr\n"
"filetrace=file (may be provided multiple times)\n"
"DebugOnDemand - enables debugging on USR1, but does not turn on output\n"
"\nSee debug.html in your doc set or http://www.rsyslog.com for details\n");
exit(1);
} else if(!strcasecmp((char*)optname, "debug")) {
/* this is earlier in the process than the -d option, as such it
* allows us to spit out debug messages from the very beginning.
*/
Debug = DEBUG_FULL;
debugging_on = 1;
} else if(!strcasecmp((char*)optname, "debugondemand")) {
/* Enables debugging, but turns off debug output */
Debug = DEBUG_ONDEMAND;
debugging_on = 1;
dbgprintf("Note: debug on demand turned on via configuraton file, "
"use USR1 signal to activate.\n");
debugging_on = 0;
} else if(!strcasecmp((char*)optname, "logfuncflow")) {
bLogFuncFlow = 1;
} else if(!strcasecmp((char*)optname, "logallocfree")) {
bLogAllocFree = 1;
} else if(!strcasecmp((char*)optname, "printfuncdb")) {
bPrintFuncDBOnExit = 1;
} else if(!strcasecmp((char*)optname, "printmutexaction")) {
bPrintMutexAction = 1;
} else if(!strcasecmp((char*)optname, "printalldebuginfoonexit")) {
bPrintAllDebugOnExit = 1;
} else if(!strcasecmp((char*)optname, "nologtimestamp")) {
bPrintTime = 0;
} else if(!strcasecmp((char*)optname, "nostdout")) {
stddbg = -1;
} else if(!strcasecmp((char*)optname, "noaborttrace")) {
bAbortTrace = 0;
} else if(!strcasecmp((char*)optname, "outputtidtostderr")) {
bOutputTidToStderr = 1;
} else if(!strcasecmp((char*)optname, "filetrace")) {
if(*optval == '\0') {
fprintf(stderr, "rsyslogd " VERSION " error: logfile debug option requires filename, "
"e.g. \"logfile=debug.c\"\n");
exit(1);
} else {
/* create new entry and add it to list */
dbgPrintNameAdd(optval, &printNameFileRoot);
}
} else {
fprintf(stderr, "rsyslogd " VERSION " error: invalid debug option '%s', value '%s' - ignored\n",
optval, optname);
}
}
}
}
void
dbgSetDebugLevel(int level)
{
Debug = level;
debugging_on = (level == DEBUG_FULL) ? 1 : 0;
}
void
dbgSetDebugFile(uchar *fn)
{
if(altdbg != -1) {
dbgprintf("switching to debug file %s\n", fn);
close(altdbg);
}
if((altdbg = open((char*)fn, O_WRONLY|O_CREAT|O_TRUNC|O_NOCTTY|O_CLOEXEC, S_IRUSR|S_IWUSR)) == -1) {
fprintf(stderr, "alternate debug file could not be opened, ignoring. Error: %s\n", strerror(errno));
}
}
/* end support system to set debug options at runtime */
rsRetVal dbgClassInit(void)
{
pthread_mutexattr_t mutAttr;
rsRetVal iRet; /* do not use DEFiRet, as this makes calls into the debug system! */
struct sigaction sigAct;
sigset_t sigSet;
(void) pthread_key_create(&keyCallStack, dbgCallStackDestruct); /* MUST be the first action done! */
/* the mutexes must be recursive, because it may be called from within
* signal handlers, which can lead to a hang if the signal interrupted dbgprintf
* (yes, we have really seen that situation in practice!). -- rgerhards, 2013-05-17
*/
pthread_mutexattr_init(&mutAttr);
pthread_mutexattr_settype(&mutAttr, PTHREAD_MUTEX_RECURSIVE);
pthread_mutex_init(&mutFuncDBList, &mutAttr);
pthread_mutex_init(&mutMutLog, &mutAttr);
pthread_mutex_init(&mutCallStack, &mutAttr);
pthread_mutex_init(&mutdbgprint, &mutAttr);
/* while we try not to use any of the real rsyslog code (to avoid infinite loops), we
* need to have the ability to query object names. Thus, we need to obtain a pointer to
* the object interface. -- rgerhards, 2008-02-29
*/
CHKiRet(objGetObjInterface(&obj)); /* this provides the root pointer for all other queries */
memset(&sigAct, 0, sizeof (sigAct));
sigemptyset(&sigAct.sa_mask);
sigAct.sa_handler = sigusr2Hdlr;
sigaction(SIGUSR2, &sigAct, NULL);
sigemptyset(&sigSet);
sigaddset(&sigSet, SIGUSR2);
pthread_sigmask(SIG_UNBLOCK, &sigSet, NULL);
dbgGetRuntimeOptions(); /* init debug system from environment */
pszAltDbgFileName = getenv("RSYSLOG_DEBUGLOG");
if(pszAltDbgFileName != NULL) {
/* we have a secondary file, so let's open it) */
if((altdbg = open(pszAltDbgFileName, O_WRONLY|O_CREAT|O_TRUNC|O_NOCTTY|O_CLOEXEC, S_IRUSR|S_IWUSR)) == -1) {
fprintf(stderr, "alternate debug file could not be opened, ignoring. Error: %s\n", strerror(errno));
}
}
dbgSetThrdName((uchar*)"main thread");
finalize_it:
return(iRet);
}
rsRetVal dbgClassExit(void)
{
dbgFuncDBListEntry_t *pFuncDBListEtry, *pToDel;
pthread_key_delete(keyCallStack);
if(bPrintAllDebugOnExit)
dbgPrintAllDebugInfo();
if(altdbg != -1)
close(altdbg);
/* now free all of our memory to make the memory debugger happy... */
pFuncDBListEtry = pFuncDBListRoot;
while(pFuncDBListEtry != NULL) {
pToDel = pFuncDBListEtry;
pFuncDBListEtry = pFuncDBListEtry->pNext;
free(pToDel->pFuncDB->file);
free(pToDel->pFuncDB->func);
free(pToDel->pFuncDB);
free(pToDel);
}
return RS_RET_OK;
}
/* vi:set ai:
*/
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