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|
/* action.c
*
* Implementation of the action object.
*
* File begun on 2007-08-06 by RGerhards (extracted from syslogd.c)
*
* Some notes on processing (this hopefully makes it easier to find
* the right code in question): For performance reasons, this module
* uses different methods of message submission based on the user-selected
* configuration. This code is similar, but can not be abstracted because
* of the performance-affecting differences in it. As such, it is often
* necessary to triple-check that everything works well in *all* modes.
* The different modes (and calling sequence) are:
*
* if set iExecEveryNthOccur > 1 || iSecsExecOnceInterval
* - doSubmitToActionQComplexBatch
* - helperSubmitToActionQComplexBatch
* - doActionCallAction
* handles mark message reduction, but in essence calls
* - actionWriteToAction
* - qqueueEnqObj
* (now queue engine processing)
* if(pThis->bWriteAllMarkMsgs == RSFALSE) - this is the DEFAULT
* - doSubmitToActionQNotAllMarkBatch
* - doSubmitToActionQBatch (and from here like in the else case below!)
* else
* - doSubmitToActionQBatch
* - doSubmitToActionQ
* - qqueueEnqObj
* (now queue engine processing)
*
* Note that bWriteAllMakrMsgs on or off creates almost the same processing.
* The difference ist that if WriteAllMarkMsgs is not set, we need to
* preprocess the batch and drop mark messages which are not yet due for
* writing.
*
* After dequeue, processing is as follows:
* - processBatchMain
* - processAction
* - submitBatch
* - tryDoAction
* - ...
*
* MORE ON PROCESSING, QUEUES and FILTERING
* All filtering needs to be done BEFORE messages are enqueued to an
* action. In previous code, part of the filtering was done at the
* "remote end" of the action queue, which lead to problems in
* non-direct mode (because then things run asynchronously). In order
* to solve this problem once and for all, I have changed the code so
* that all filtering is done before enq, and processing on the
* dequeue side of action processing now always executes whatever is
* enqueued. This is the only way to handle things consistently and
* (as much as possible) in a queue-type agnostic way. However, it is
* a rather radical change, which I unfortunately needed to make from
* stable version 5.8.1 to 5.8.2. If new problems pop up, you now know
* what may be their cause. In any case, the way it is done now is the
* only correct one.
* A problem is that, under fortunate conditions, we use the current
* batch for the output system as well. This is very good from a performance
* point of view, but makes the distinction between enq and deq side of
* the queue a bit hard. The current idea is that the filter condition
* alone is checked at the deq side of the queue (seems to be unavoidable
* to do it that way), but all other complex conditons (like failover
* handling) go into the computation of the filter condition. For
* non-direct queues, we still enqueue only what is acutally necessary.
* Note that in this case the rest of the code must ensure that the filter
* is set to "true". While this is not perfect and not as simple as
* we would like to see it, it looks like the best way to tackle that
* beast.
* rgerhards, 2011-06-15
*
* Copyright 2007-2013 Rainer Gerhards and Adiscon GmbH.
*
* This file is part of rsyslog.
*
* Rsyslog is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Rsyslog 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Rsyslog. If not, see <http://www.gnu.org/licenses/>.
*
* A copy of the GPL can be found in the file "COPYING" in this distribution.
*/
#include "config.h"
#include "rsyslog.h"
#include <stdio.h>
#include <assert.h>
#include <stdarg.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <time.h>
#include <errno.h>
#include <json.h>
#include "dirty.h"
#include "template.h"
#include "action.h"
#include "modules.h"
#include "cfsysline.h"
#include "srUtils.h"
#include "errmsg.h"
#include "batch.h"
#include "wti.h"
#include "rsconf.h"
#include "datetime.h"
#include "unicode-helper.h"
#include "atomic.h"
#include "ruleset.h"
#include "parserif.h"
#include "statsobj.h"
#define NO_TIME_PROVIDED 0 /* indicate we do not provide any cached time */
/* forward definitions */
static rsRetVal processBatchMain(action_t *pAction, batch_t *pBatch, int*);
static rsRetVal doSubmitToActionQComplexBatch(action_t *pAction, batch_t *pBatch);
static rsRetVal doSubmitToActionQNotAllMarkBatch(action_t *pAction, batch_t *pBatch);
static rsRetVal doSubmitToActionQBatch(action_t *pAction, batch_t *pBatch);
/* object static data (once for all instances) */
/* TODO: make this an object! DEFobjStaticHelpers -- rgerhards, 2008-03-05 */
DEFobjCurrIf(obj)
DEFobjCurrIf(datetime)
DEFobjCurrIf(module)
DEFobjCurrIf(errmsg)
DEFobjCurrIf(statsobj)
DEFobjCurrIf(ruleset)
typedef struct configSettings_s {
int bActExecWhenPrevSusp; /* execute action only when previous one was suspended? */
int bActionWriteAllMarkMsgs; /* should all mark messages be unconditionally written? */
int iActExecOnceInterval; /* execute action once every nn seconds */
int iActExecEveryNthOccur; /* execute action every n-th occurence (0,1=always) */
time_t iActExecEveryNthOccurTO; /* timeout for n-occurence setting (in seconds, 0=never) */
int glbliActionResumeInterval;
int glbliActionResumeRetryCount; /* how often should suspended actions be retried? */
int bActionRepMsgHasMsg; /* last messsage repeated... has msg fragment in it */
uchar *pszActionName; /* short name for the action */
/* action queue and its configuration parameters */
queueType_t ActionQueType; /* type of the main message queue above */
int iActionQueueSize; /* size of the main message queue above */
int iActionQueueDeqBatchSize; /* batch size for action queues */
int iActionQHighWtrMark; /* high water mark for disk-assisted queues */
int iActionQLowWtrMark; /* low water mark for disk-assisted queues */
int iActionQDiscardMark; /* begin to discard messages */
int iActionQDiscardSeverity; /* by default, discard nothing to prevent unintentional loss */
int iActionQueueNumWorkers; /* number of worker threads for the mm queue above */
uchar *pszActionQFName; /* prefix for the main message queue file */
int64 iActionQueMaxFileSize;
int iActionQPersistUpdCnt; /* persist queue info every n updates */
int bActionQSyncQeueFiles; /* sync queue files */
int iActionQtoQShutdown; /* queue shutdown */
int iActionQtoActShutdown; /* action shutdown (in phase 2) */
int iActionQtoEnq; /* timeout for queue enque */
int iActionQtoWrkShutdown; /* timeout for worker thread shutdown */
int iActionQWrkMinMsgs; /* minimum messages per worker needed to start a new one */
int bActionQSaveOnShutdown; /* save queue on shutdown (when DA enabled)? */
int64 iActionQueMaxDiskSpace; /* max disk space allocated 0 ==> unlimited */
int iActionQueueDeqSlowdown; /* dequeue slowdown (simple rate limiting) */
int iActionQueueDeqtWinFromHr; /* hour begin of time frame when queue is to be dequeued */
int iActionQueueDeqtWinToHr; /* hour begin of time frame when queue is to be dequeued */
} configSettings_t;
configSettings_t cs; /* our current config settings */
configSettings_t cs_save; /* our saved (scope!) config settings */
/* the counter below counts actions created. It is used to obtain unique IDs for the action. They
* should not be relied on for any long-term activity (e.g. disk queue names!), but they are nice
* to have during one instance of an rsyslogd run. For example, I use them to name actions when there
* is no better name available. Note that I do NOT recover previous numbers on HUP - we simply keep
* counting. -- rgerhards, 2008-01-29
*/
static int iActionNbr = 0;
int bActionReportSuspension = 1;
int bActionReportSuspensionCont = 0;
/* tables for interfacing with the v6 config system */
static struct cnfparamdescr cnfparamdescr[] = {
{ "name", eCmdHdlrGetWord, 0 }, /* legacy: actionname */
{ "type", eCmdHdlrString, CNFPARAM_REQUIRED }, /* legacy: actionname */
{ "action.writeallmarkmessages", eCmdHdlrBinary, 0 }, /* legacy: actionwriteallmarkmessages */
{ "action.execonlyeverynthtime", eCmdHdlrInt, 0 }, /* legacy: actionexeconlyeverynthtime */
{ "action.execonlyeverynthtimetimeout", eCmdHdlrInt, 0 }, /* legacy: actionexeconlyeverynthtimetimeout */
{ "action.execonlyonceeveryinterval", eCmdHdlrInt, 0 }, /* legacy: actionexeconlyonceeveryinterval */
{ "action.execonlywhenpreviousissuspended", eCmdHdlrBinary, 0 }, /* legacy: actionexeconlywhenpreviousissuspended */
{ "action.repeatedmsgcontainsoriginalmsg", eCmdHdlrBinary, 0 }, /* legacy: repeatedmsgcontainsoriginalmsg */
{ "action.resumeretrycount", eCmdHdlrInt, 0 }, /* legacy: actionresumeretrycount */
{ "action.reportsuspension", eCmdHdlrBinary, 0 },
{ "action.reportsuspensioncontinuation", eCmdHdlrBinary, 0 },
{ "action.resumeinterval", eCmdHdlrInt, 0 }
};
static struct cnfparamblk pblk =
{ CNFPARAMBLK_VERSION,
sizeof(cnfparamdescr)/sizeof(struct cnfparamdescr),
cnfparamdescr
};
/* ------------------------------ methods ------------------------------ */
/* This function returns the "current" time for this action. Current time
* is not necessarily real-time. In order to enhance performance, current
* system time is obtained the first time an action needs to know the time
* and then kept cached inside the action structure. Later requests will
* always return that very same time. Wile not totally accurate, it is far
* accurate in most cases and considered "acurate enough" for all cases.
* When changing the threading model, please keep in mind that this
* logic needs to be changed should we once allow more than one parallel
* call into the same action (object). As this is currently not supported,
* we simply cache the time inside the action object itself, after it
* is under mutex protection.
* Side-note: the value -1 is used as tActNow, because it also is the
* error return value of time(). So we would do a retry with the next
* invocation if time() failed. Then, of course, we would probably already
* be in trouble, but for the sake of performance we accept this very,
* very slight risk.
* This logic has been added as part of an overall performance improvment
* effort inspired by David Lang. -- rgerhards, 2008-09-16
* Note: this function does not use the usual iRet call conventions
* because that would provide little to no benefit but complicate things
* a lot. So we simply return the system time.
*/
static inline time_t
getActNow(action_t *pThis)
{
assert(pThis != NULL);
if(pThis->tActNow == -1) {
pThis->tActNow = datetime.GetTime(NULL); /* good time call - the only one done */
if(pThis->tLastExec > pThis->tActNow) {
/* if we are traveling back in time, reset tLastExec */
pThis->tLastExec = (time_t) 0;
}
}
return pThis->tActNow;
}
/* resets action queue parameters to their default values. This happens
* after each action has been created in order to prevent any wild defaults
* to be used. It is somewhat against the original spirit of the config file
* reader, but I think it is a good thing to do.
* rgerhards, 2008-01-29
*/
static rsRetVal
actionResetQueueParams(void)
{
DEFiRet;
cs.ActionQueType = QUEUETYPE_DIRECT; /* type of the main message queue above */
cs.iActionQueueSize = 1000; /* size of the main message queue above */
cs.iActionQueueDeqBatchSize = 16; /* default batch size */
cs.iActionQHighWtrMark = -1; /* high water mark for disk-assisted queues */
cs.iActionQLowWtrMark = -1; /* low water mark for disk-assisted queues */
cs.iActionQDiscardMark = 980; /* begin to discard messages */
cs.iActionQDiscardSeverity = 8; /* discard warning and above */
cs.iActionQueueNumWorkers = 1; /* number of worker threads for the mm queue above */
cs.iActionQueMaxFileSize = 1024*1024;
cs.iActionQPersistUpdCnt = 0; /* persist queue info every n updates */
cs.bActionQSyncQeueFiles = 0;
cs.iActionQtoQShutdown = 0; /* queue shutdown */
cs.iActionQtoActShutdown = 1000; /* action shutdown (in phase 2) */
cs.iActionQtoEnq = 50; /* timeout for queue enque */
cs.iActionQtoWrkShutdown = 60000; /* timeout for worker thread shutdown */
cs.iActionQWrkMinMsgs = -1; /* minimum messages per worker needed to start a new one */
cs.bActionQSaveOnShutdown = 1; /* save queue on shutdown (when DA enabled)? */
cs.iActionQueMaxDiskSpace = 0;
cs.iActionQueueDeqSlowdown = 0;
cs.iActionQueueDeqtWinFromHr = 0;
cs.iActionQueueDeqtWinToHr = 25; /* 25 disables time windowed dequeuing */
cs.glbliActionResumeRetryCount = 0; /* I guess it is smart to reset this one, too */
d_free(cs.pszActionQFName);
cs.pszActionQFName = NULL; /* prefix for the main message queue file */
RETiRet;
}
/* destructs an action descriptor object
* rgerhards, 2007-08-01
*/
rsRetVal actionDestruct(action_t *pThis)
{
DEFiRet;
ASSERT(pThis != NULL);
if(!strcmp((char*)modGetName(pThis->pMod), "builtin:omdiscard")) {
/* discard actions will be optimized out */
FINALIZE;
}
if(pThis->pQueue != NULL) {
qqueueDestruct(&pThis->pQueue);
}
/* destroy stats object, if we have one (may not always be
* be the case, e.g. if turned off)
*/
if(pThis->statsobj != NULL)
statsobj.Destruct(&pThis->statsobj);
if(pThis->pMod != NULL)
pThis->pMod->freeInstance(pThis->pModData);
pthread_mutex_destroy(&pThis->mutAction);
pthread_mutex_destroy(&pThis->mutActExec);
d_free(pThis->pszName);
d_free(pThis->ppTpl);
finalize_it:
d_free(pThis);
RETiRet;
}
/* create a new action descriptor object
* rgerhards, 2007-08-01
* Note that it is vital to set proper initial values as the v6 config
* system depends on these!
*/
rsRetVal actionConstruct(action_t **ppThis)
{
DEFiRet;
action_t *pThis;
ASSERT(ppThis != NULL);
CHKmalloc(pThis = (action_t*) calloc(1, sizeof(action_t)));
pThis->iResumeInterval = 30;
pThis->iResumeRetryCount = 0;
pThis->pszName = NULL;
pThis->bWriteAllMarkMsgs = RSFALSE;
pThis->iExecEveryNthOccur = 0;
pThis->iExecEveryNthOccurTO = 0;
pThis->iSecsExecOnceInterval = 0;
pThis->bExecWhenPrevSusp = 0;
pThis->bRepMsgHasMsg = 0;
pThis->bReportSuspension = -1; /* indicate "not yet set" */
pThis->bReportSuspensionCont = -1; /* indicate "not yet set" */
pThis->bJustResumed = 0;
pThis->tLastOccur = datetime.GetTime(NULL); /* done once per action on startup only */
pthread_mutex_init(&pThis->mutActExec, NULL);
pthread_mutex_init(&pThis->mutAction, NULL);
INIT_ATOMIC_HELPER_MUT(pThis->mutCAS);
/* indicate we have a new action */
++iActionNbr;
finalize_it:
*ppThis = pThis;
RETiRet;
}
/* action construction finalizer
*/
rsRetVal
actionConstructFinalize(action_t *pThis, struct nvlst *lst)
{
DEFiRet;
uchar pszAName[64]; /* friendly name of our action */
ASSERT(pThis != NULL);
if(!strcmp((char*)modGetName(pThis->pMod), "builtin:omdiscard")) {
/* discard actions will be optimized out */
FINALIZE;
}
/* generate a friendly name for us action stats */
if(pThis->pszName == NULL) {
snprintf((char*) pszAName, sizeof(pszAName)/sizeof(uchar), "action %d", iActionNbr);
pThis->pszName = ustrdup(pszAName);
}
/* support statistics gathering */
CHKiRet(statsobj.Construct(&pThis->statsobj));
CHKiRet(statsobj.SetName(pThis->statsobj, pThis->pszName));
STATSCOUNTER_INIT(pThis->ctrProcessed, pThis->mutCtrProcessed);
CHKiRet(statsobj.AddCounter(pThis->statsobj, UCHAR_CONSTANT("processed"),
ctrType_IntCtr, CTR_FLAG_RESETTABLE, &pThis->ctrProcessed));
STATSCOUNTER_INIT(pThis->ctrFail, pThis->mutCtrFail);
CHKiRet(statsobj.AddCounter(pThis->statsobj, UCHAR_CONSTANT("failed"),
ctrType_IntCtr, CTR_FLAG_RESETTABLE, &pThis->ctrFail));
STATSCOUNTER_INIT(pThis->ctrSuspend, pThis->mutCtrSuspend);
CHKiRet(statsobj.AddCounter(pThis->statsobj, UCHAR_CONSTANT("suspended"),
ctrType_IntCtr, CTR_FLAG_RESETTABLE, &pThis->ctrSuspend));
STATSCOUNTER_INIT(pThis->ctrSuspendDuration, pThis->mutCtrSuspendDuration);
CHKiRet(statsobj.AddCounter(pThis->statsobj, UCHAR_CONSTANT("suspended.duration"),
ctrType_IntCtr, 0, &pThis->ctrSuspendDuration));
STATSCOUNTER_INIT(pThis->ctrResume, pThis->mutCtrResume);
CHKiRet(statsobj.AddCounter(pThis->statsobj, UCHAR_CONSTANT("resumed"),
ctrType_IntCtr, CTR_FLAG_RESETTABLE, &pThis->ctrResume));
CHKiRet(statsobj.ConstructFinalize(pThis->statsobj));
/* create our queue */
/* generate a friendly name for the queue */
snprintf((char*) pszAName, sizeof(pszAName)/sizeof(uchar), "%s queue",
pThis->pszName);
/* now check if we can run the action in "firehose mode" during stage one of
* its processing (that is before messages are enqueued into the action q).
* This is only possible if some features, which require strict sequence, are
* not used. Thankfully, that is usually the case. The benefit of firehose
* mode is much faster processing (and simpler code) -- rgerhards, 2010-06-08
*/
if( pThis->iExecEveryNthOccur > 1
|| pThis->iSecsExecOnceInterval
) {
DBGPRINTF("info: firehose mode disabled for action because "
"iExecEveryNthOccur=%d, iSecsExecOnceInterval=%d\n",
pThis->iExecEveryNthOccur, pThis->iSecsExecOnceInterval);
pThis->submitToActQ = doSubmitToActionQComplexBatch;
} else if(pThis->bWriteAllMarkMsgs == RSFALSE) {
/* nearly full-speed submission mode, default case */
pThis->submitToActQ = doSubmitToActionQNotAllMarkBatch;
} else {
/* full firehose submission mode */
pThis->submitToActQ = doSubmitToActionQBatch;
}
/* create queue */
/* action queues always (for now) have just one worker. This may change when
* we begin to implement an interface the enable output modules to request
* to be run on multiple threads. So far, this is forbidden by the interface
* spec. -- rgerhards, 2008-01-30
*/
CHKiRet(qqueueConstruct(&pThis->pQueue, cs.ActionQueType, 1, cs.iActionQueueSize,
(rsRetVal (*)(void*, batch_t*, int*))processBatchMain));
obj.SetName((obj_t*) pThis->pQueue, pszAName);
qqueueSetpAction(pThis->pQueue, pThis);
if(lst == NULL) { /* use legacy params? */
/* ... set some properties ... */
# define setQPROP(func, directive, data) \
CHKiRet_Hdlr(func(pThis->pQueue, data)) { \
errmsg.LogError(0, NO_ERRCODE, "Invalid " #directive ", \
error %d. Ignored, running with default setting", iRet); \
}
# define setQPROPstr(func, directive, data) \
CHKiRet_Hdlr(func(pThis->pQueue, data, (data == NULL)? 0 : strlen((char*) data))) { \
errmsg.LogError(0, NO_ERRCODE, "Invalid " #directive ", \
error %d. Ignored, running with default setting", iRet); \
}
setQPROP(qqueueSetsizeOnDiskMax, "$ActionQueueMaxDiskSpace", cs.iActionQueMaxDiskSpace);
setQPROP(qqueueSetiDeqBatchSize, "$ActionQueueDequeueBatchSize", cs.iActionQueueDeqBatchSize);
setQPROP(qqueueSetMaxFileSize, "$ActionQueueFileSize", cs.iActionQueMaxFileSize);
setQPROPstr(qqueueSetFilePrefix, "$ActionQueueFileName", cs.pszActionQFName);
setQPROP(qqueueSetiPersistUpdCnt, "$ActionQueueCheckpointInterval", cs.iActionQPersistUpdCnt);
setQPROP(qqueueSetbSyncQueueFiles, "$ActionQueueSyncQueueFiles", cs.bActionQSyncQeueFiles);
setQPROP(qqueueSettoQShutdown, "$ActionQueueTimeoutShutdown", cs.iActionQtoQShutdown );
setQPROP(qqueueSettoActShutdown, "$ActionQueueTimeoutActionCompletion", cs.iActionQtoActShutdown);
setQPROP(qqueueSettoWrkShutdown, "$ActionQueueWorkerTimeoutThreadShutdown", cs.iActionQtoWrkShutdown);
setQPROP(qqueueSettoEnq, "$ActionQueueTimeoutEnqueue", cs.iActionQtoEnq);
setQPROP(qqueueSetiHighWtrMrk, "$ActionQueueHighWaterMark", cs.iActionQHighWtrMark);
setQPROP(qqueueSetiLowWtrMrk, "$ActionQueueLowWaterMark", cs.iActionQLowWtrMark);
setQPROP(qqueueSetiDiscardMrk, "$ActionQueueDiscardMark", cs.iActionQDiscardMark);
setQPROP(qqueueSetiDiscardSeverity, "$ActionQueueDiscardSeverity", cs.iActionQDiscardSeverity);
setQPROP(qqueueSetiMinMsgsPerWrkr, "$ActionQueueWorkerThreadMinimumMessages", cs.iActionQWrkMinMsgs);
setQPROP(qqueueSetiNumWorkerThreads, "$ActionQueueWorkerThreads", cs.iActionQueueNumWorkers);
setQPROP(qqueueSetbSaveOnShutdown, "$ActionQueueSaveOnShutdown", cs.bActionQSaveOnShutdown);
setQPROP(qqueueSetiDeqSlowdown, "$ActionQueueDequeueSlowdown", cs.iActionQueueDeqSlowdown);
setQPROP(qqueueSetiDeqtWinFromHr, "$ActionQueueDequeueTimeBegin", cs.iActionQueueDeqtWinFromHr);
setQPROP(qqueueSetiDeqtWinToHr, "$ActionQueueDequeueTimeEnd", cs.iActionQueueDeqtWinToHr);
} else {
/* we have v6-style config params */
qqueueSetDefaultsActionQueue(pThis->pQueue);
qqueueApplyCnfParam(pThis->pQueue, lst);
}
# undef setQPROP
# undef setQPROPstr
qqueueDbgPrint(pThis->pQueue);
DBGPRINTF("Action %p: queue %p created\n", pThis, pThis->pQueue);
if(pThis->eParamPassing == ACT_MSG_PASSING && pThis->pQueue->qType != QUEUETYPE_DIRECT) {
parser_warnmsg("module %s with message passing mode uses "
"non-direct queue. This most probably leads to undesired "
"results", (char*)modGetName(pThis->pMod));
}
/* and now reset the queue params (see comment in its function header!) */
actionResetQueueParams();
finalize_it:
RETiRet;
}
/* set the global resume interval
*/
rsRetVal actionSetGlobalResumeInterval(int iNewVal)
{
cs.glbliActionResumeInterval = iNewVal;
return RS_RET_OK;
}
/* returns the action state name in human-readable form
* returned string must not be modified.
* rgerhards, 2009-05-07
*/
static uchar *getActStateName(action_t *pThis)
{
switch(pThis->eState) {
case ACT_STATE_RDY:
return (uchar*) "rdy";
case ACT_STATE_ITX:
return (uchar*) "itx";
case ACT_STATE_RTRY:
return (uchar*) "rtry";
case ACT_STATE_SUSP:
return (uchar*) "susp";
case ACT_STATE_DIED:
return (uchar*) "died";
case ACT_STATE_COMM:
return (uchar*) "comm";
default:
return (uchar*) "ERROR/UNKNWON";
}
}
/* returns a suitable return code based on action state
* rgerhards, 2009-05-07
*/
static rsRetVal getReturnCode(action_t *pThis)
{
DEFiRet;
ASSERT(pThis != NULL);
switch(pThis->eState) {
case ACT_STATE_RDY:
iRet = RS_RET_OK;
break;
case ACT_STATE_ITX:
if(pThis->bHadAutoCommit) {
pThis->bHadAutoCommit = 0; /* auto-reset */
iRet = RS_RET_PREVIOUS_COMMITTED;
} else {
iRet = RS_RET_DEFER_COMMIT;
}
break;
case ACT_STATE_RTRY:
iRet = RS_RET_SUSPENDED;
break;
case ACT_STATE_SUSP:
case ACT_STATE_DIED:
iRet = RS_RET_ACTION_FAILED;
break;
default:
DBGPRINTF("Invalid action engine state %d, program error\n",
(int) pThis->eState);
iRet = RS_RET_ERR;
break;
}
RETiRet;
}
/* set the action to a new state
* rgerhards, 2007-08-02
*/
static inline void actionSetState(action_t *pThis, action_state_t newState)
{
pThis->eState = newState;
DBGPRINTF("Action %p transitioned to state: %s\n", pThis, getActStateName(pThis));
}
/* Handles the transient commit state. So far, this is
* mostly a dummy...
* rgerhards, 2007-08-02
*/
static void actionCommitted(action_t *pThis)
{
actionSetState(pThis, ACT_STATE_RDY);
}
/* set action to "rtry" state.
* rgerhards, 2007-08-02
*/
static void actionRetry(action_t *pThis)
{
actionSetState(pThis, ACT_STATE_RTRY);
pThis->iResumeOKinRow++;
}
/* Disable action, this means it will never again be usable
* until rsyslog is reloaded. Use only as a last resort, but
* depends on output module.
* rgerhards, 2007-08-02
*/
static void actionDisable(action_t *pThis)
{
actionSetState(pThis, ACT_STATE_DIED);
}
/* Suspend action, this involves changing the action state as well
* as setting the next retry time.
* if we have more than 10 retries, we prolong the
* retry interval. If something is really stalled, it will
* get re-tried only very, very seldom - but that saves
* CPU time. TODO: maybe a config option for that?
* rgerhards, 2007-08-02
*/
static inline void
actionSuspend(action_t * const pThis)
{
time_t ttNow;
int suspendDuration;
char timebuf[32];
/* we need to defer setting the action's own bReportSuspension state until
* after the full config has been processed. So the most simple case to do
* that is here. It's not a performance problem, as it happens infrequently.
* it's not a threading race problem, as always the same value will be written.
*/
if(pThis->bReportSuspension == -1)
pThis->bReportSuspension = bActionReportSuspension;
if(pThis->bReportSuspensionCont == -1) {
pThis->bReportSuspensionCont = bActionReportSuspensionCont;
if(pThis->bReportSuspensionCont == -1)
pThis->bReportSuspension = 1;
}
/* note: we can NOT use a cached timestamp, as time may have evolved
* since caching, and this would break logic (and it actually did so!)
*/
datetime.GetTime(&ttNow);
suspendDuration = pThis->iResumeInterval * (pThis->iNbrResRtry / 10 + 1);
pThis->ttResumeRtry = ttNow + suspendDuration;
actionSetState(pThis, ACT_STATE_SUSP);
pThis->ctrSuspendDuration += suspendDuration;
if(pThis->iNbrResRtry == 0) {
STATSCOUNTER_INC(pThis->ctrSuspend, pThis->mutCtrSuspend);
}
if( pThis->bReportSuspensionCont
|| (pThis->bReportSuspension && pThis->iNbrResRtry == 0) ) {
ctime_r(&pThis->ttResumeRtry, timebuf);
timebuf[strlen(timebuf)-1] = '\0'; /* strip LF */
errmsg.LogMsg(0, RS_RET_SUSPENDED, LOG_WARNING,
"action '%s' suspended, next retry is %s",
pThis->pszName, timebuf);
}
DBGPRINTF("action '%s' suspended, earliest retry=%lld (now %lld), iNbrResRtry %d\n",
pThis->pszName, (long long) pThis->ttResumeRtry, (long long) ttNow,
pThis->iNbrResRtry);
}
/* actually do retry processing. Note that the function receives a timestamp so
* that we do not need to call the (expensive) time() API.
* Note that we do the full retry processing here, doing the configured number of
* iterations. -- rgerhards, 2009-05-07
* We need to guard against module which always return RS_RET_OK from their tryResume()
* entry point. This is invalid, but has harsh consequences: it will cause the rsyslog
* engine to go into a tight loop. That obviously is not acceptable. As such, we track the
* count of iterations that a tryResume returning RS_RET_OK is immediately followed by
* an unsuccessful call to doAction(). If that happens more than 1,000 times, we assume
* the return acutally is a RS_RET_SUSPENDED. In order to go through the various
* resumption stages, we do this for every 1000 requests. This magic number 1000 may
* not be the most appropriate, but it should be thought of a "if nothing else helps"
* kind of facility: in the first place, the module should return a proper indication
* of its inability to recover. -- rgerhards, 2010-04-26.
*/
static inline rsRetVal
actionDoRetry(action_t *pThis, int *pbShutdownImmediate)
{
int iRetries;
int iSleepPeriod;
int bTreatOKasSusp;
DEFiRet;
ASSERT(pThis != NULL);
iRetries = 0;
while((*pbShutdownImmediate == 0) && pThis->eState == ACT_STATE_RTRY) {
DBGPRINTF("actionDoRetry: %s enter loop, iRetries=%d\n", pThis->pszName, iRetries);
iRet = pThis->pMod->tryResume(pThis->pModData);
DBGPRINTF("actionDoRetry: %s action->tryResume returned %d\n", pThis->pszName, iRet);
if((pThis->iResumeOKinRow > 9) && (pThis->iResumeOKinRow % 10 == 0)) {
bTreatOKasSusp = 1;
pThis->iResumeOKinRow = 0;
} else {
bTreatOKasSusp = 0;
}
if((iRet == RS_RET_OK) && (!bTreatOKasSusp)) {
DBGPRINTF("actionDoRetry: %s had success RDY again (iRet=%d)\n",
pThis->pszName, iRet);
pThis->bJustResumed = 1;
actionSetState(pThis, ACT_STATE_RDY);
} else if(iRet == RS_RET_SUSPENDED || bTreatOKasSusp) {
/* max retries reached? */
DBGPRINTF("actionDoRetry: %s check for max retries, iResumeRetryCount "
"%d, iRetries %d\n",
pThis->pszName, pThis->iResumeRetryCount, iRetries);
if((pThis->iResumeRetryCount != -1 && iRetries >= pThis->iResumeRetryCount)) {
actionSuspend(pThis);
if(pThis->iNbrResRtry < 20)
++pThis->iNbrResRtry;
} else {
++iRetries;
iSleepPeriod = pThis->iResumeInterval;
srSleep(iSleepPeriod, 0);
if(*pbShutdownImmediate) {
ABORT_FINALIZE(RS_RET_FORCE_TERM);
}
}
} else if(iRet == RS_RET_DISABLE_ACTION) {
actionDisable(pThis);
}
}
if(pThis->eState == ACT_STATE_RDY) {
pThis->iNbrResRtry = 0;
}
finalize_it:
RETiRet;
}
/* try to resume an action -- rgerhards, 2007-08-02
* changed to new action state engine -- rgerhards, 2009-05-07
*/
static rsRetVal actionTryResume(action_t *pThis, int *pbShutdownImmediate)
{
DEFiRet;
time_t ttNow = NO_TIME_PROVIDED;
ASSERT(pThis != NULL);
if(pThis->eState == ACT_STATE_SUSP) {
/* if we are suspended, we need to check if the timeout expired.
* for this handling, we must always obtain a fresh timestamp. We used
* to use the action timestamp, but in this case we will never reach a
* point where a resumption is actually tried, because the action timestamp
* is always in the past. So we can not avoid doing a fresh time() call
* here. -- rgerhards, 2009-03-18
*/
datetime.GetTime(&ttNow); /* cache "now" */
if(ttNow >= pThis->ttResumeRtry) {
actionSetState(pThis, ACT_STATE_RTRY); /* back to retries */
}
}
if(pThis->eState == ACT_STATE_RTRY) {
if(ttNow == NO_TIME_PROVIDED) /* use cached result if we have it */
datetime.GetTime(&ttNow);
CHKiRet(actionDoRetry(pThis, pbShutdownImmediate));
}
if(Debug && (pThis->eState == ACT_STATE_RTRY ||pThis->eState == ACT_STATE_SUSP)) {
DBGPRINTF("actionTryResume: action %p state: %s, next retry (if applicable): %u [now %u]\n",
pThis, getActStateName(pThis), (unsigned) pThis->ttResumeRtry, (unsigned) ttNow);
}
finalize_it:
RETiRet;
}
/* prepare an action for performing work. This involves trying to recover it,
* depending on its current state.
* rgerhards, 2009-05-07
*/
static inline rsRetVal actionPrepare(action_t *pThis, int *pbShutdownImmediate)
{
DEFiRet;
assert(pThis != NULL);
CHKiRet(actionTryResume(pThis, pbShutdownImmediate));
/* if we are now ready, we initialize the transaction and advance
* action state accordingly
*/
if(pThis->eState == ACT_STATE_RDY) {
iRet = pThis->pMod->mod.om.beginTransaction(pThis->pModData);
switch(iRet) {
case RS_RET_OK:
actionSetState(pThis, ACT_STATE_ITX);
break;
case RS_RET_SUSPENDED:
actionRetry(pThis);
break;
case RS_RET_DISABLE_ACTION:
actionDisable(pThis);
break;
default:FINALIZE;
}
}
finalize_it:
RETiRet;
}
/* debug-print the contents of an action object
* rgerhards, 2007-08-02
*/
rsRetVal actionDbgPrint(action_t *pThis)
{
DEFiRet;
char *sz;
dbgprintf("%s: ", module.GetStateName(pThis->pMod));
pThis->pMod->dbgPrintInstInfo(pThis->pModData);
dbgprintf("\n");
dbgprintf("\tInstance data: 0x%lx\n", (unsigned long) pThis->pModData);
dbgprintf("\tResume Interval: %d\n", pThis->iResumeInterval);
if(pThis->eState == ACT_STATE_SUSP) {
dbgprintf("\tresume next retry: %u, number retries: %d",
(unsigned) pThis->ttResumeRtry, pThis->iNbrResRtry);
}
dbgprintf("\tState: %s\n", getActStateName(pThis));
dbgprintf("\tExec only when previous is suspended: %d\n", pThis->bExecWhenPrevSusp);
if(pThis->submitToActQ == doSubmitToActionQComplexBatch) {
sz = "slow, but feature-rich";
} else if(pThis->submitToActQ == doSubmitToActionQNotAllMarkBatch) {
sz = "fast, but supports partial mark messages";
} else if(pThis->submitToActQ == doSubmitToActionQBatch) {
sz = "firehose (fastest)";
} else {
sz = "unknown (need to update debug display?)";
}
dbgprintf("\tsubmission mode: %s\n", sz);
dbgprintf("\n");
RETiRet;
}
/* prepare the calling parameters for doAction()
* rgerhards, 2009-05-07
*/
static rsRetVal
prepareDoActionParams(action_t *pAction, batch_obj_t *pElem, struct syslogTime *ttNow)
{
int i;
msg_t *pMsg;
struct json_object *json;
DEFiRet;
ASSERT(pAction != NULL);
ASSERT(pElem != NULL);
pMsg = pElem->pMsg;
/* here we must loop to process all requested strings */
for(i = 0 ; i < pAction->iNumTpls ; ++i) {
switch(pAction->eParamPassing) {
case ACT_STRING_PASSING:
CHKiRet(tplToString(pAction->ppTpl[i], pMsg, &(pElem->staticActStrings[i]),
&pElem->staticLenStrings[i], ttNow));
pElem->staticActParams[i] = pElem->staticActStrings[i];
break;
case ACT_ARRAY_PASSING:
CHKiRet(tplToArray(pAction->ppTpl[i], pMsg, (uchar***) &(pElem->staticActParams[i]), ttNow));
break;
case ACT_MSG_PASSING:
pElem->staticActParams[i] = (void*) pMsg;
break;
case ACT_JSON_PASSING:
CHKiRet(tplToJSON(pAction->ppTpl[i], pMsg, &json, ttNow));
pElem->staticActParams[i] = (void*) json;
break;
default:dbgprintf("software bug/error: unknown pAction->eParamPassing %d in prepareDoActionParams\n",
(int) pAction->eParamPassing);
assert(0); /* software bug if this happens! */
break;
}
}
finalize_it:
RETiRet;
}
/* free a batches ressources, but not string buffers (because they will
* most probably be reused). String buffers are only deleted upon final
* destruction of the batch.
* This function here must be called only when the batch is actually no
* longer used, also not for retrying actions or such. It invalidates
* buffers.
* rgerhards, 2010-12-17
*/
static rsRetVal releaseBatch(action_t *pAction, batch_t *pBatch)
{
int jArr;
int i, j;
batch_obj_t *pElem;
uchar ***ppMsgs;
DEFiRet;
ASSERT(pAction != NULL);
if(pAction->eParamPassing == ACT_STRING_PASSING || pAction->eParamPassing == ACT_MSG_PASSING)
goto done; /* we need to do nothing with these types! */
for(i = 0 ; i < batchNumMsgs(pBatch) && !*(pBatch->pbShutdownImmediate) ; ++i) {
pElem = &(pBatch->pElem[i]);
if(batchIsValidElem(pBatch, i)) {
switch(pAction->eParamPassing) {
case ACT_ARRAY_PASSING:
ppMsgs = (uchar***) pElem->staticActParams;
for(j = 0 ; j < pAction->iNumTpls ; ++j) {
if(((uchar**)ppMsgs)[j] != NULL) {
jArr = 0;
while(ppMsgs[j][jArr] != NULL) {
d_free(ppMsgs[j][jArr]);
ppMsgs[j][jArr] = NULL;
++jArr;
}
d_free(((uchar**)ppMsgs)[j]);
((uchar**)ppMsgs)[j] = NULL;
}
}
break;
case ACT_JSON_PASSING:
for(j = 0 ; j < pAction->iNumTpls ; ++j) {
json_object_put((struct json_object*)
pElem->staticActParams[j]);
pElem->staticActParams[j] = NULL;
}
break;
case ACT_STRING_PASSING:
case ACT_MSG_PASSING:
/* can never happen, just to keep compiler happy! */
break;
}
}
}
done: RETiRet;
}
/* This is used in resume processing. We only finally know that a resume
* worked when we have been able to actually process a messages. As such,
* we need to do some cleanup and status tracking in that case.
*/
static void
actionSetActionWorked(action_t *__restrict__ const pThis)
{
pThis->iResumeOKinRow = 0; /* we had a successful call! */
if(pThis->bJustResumed) {
/* OK, we *really* could resume, so tell user! */
if(pThis->bReportSuspension) {
errmsg.LogMsg(0, RS_RET_RESUMED, LOG_INFO, "action '%s' "
"resumed (module '%s')",
pThis->pszName, pThis->pMod->pszName);
}
pThis->bJustResumed = 0;
}
}
/* call the DoAction output plugin entry point
* rgerhards, 2008-01-28
*/
rsRetVal
actionCallDoAction(action_t *pThis, msg_t *pMsg, void *actParams)
{
DEFiRet;
ASSERT(pThis != NULL);
ISOBJ_TYPE_assert(pMsg, msg);
DBGPRINTF("entering actionCalldoAction(), state: %s\n", getActStateName(pThis));
pThis->bHadAutoCommit = 0;
iRet = pThis->pMod->mod.om.doAction(actParams, pMsg->msgFlags, pThis->pModData);
switch(iRet) {
case RS_RET_OK:
actionCommitted(pThis);
actionSetActionWorked(pThis); /* we had a successful call! */
break;
case RS_RET_DEFER_COMMIT:
actionSetActionWorked(pThis); /* we had a successful call! */
/* we are done, action state remains the same */
break;
case RS_RET_PREVIOUS_COMMITTED:
/* action state remains the same, but we had a commit. */
pThis->bHadAutoCommit = 1;
actionSetActionWorked(pThis); /* we had a successful call! */
break;
case RS_RET_SUSPENDED:
actionRetry(pThis);
break;
case RS_RET_DISABLE_ACTION:
actionDisable(pThis);
break;
default:/* permanent failure of this message - no sense in retrying. This is
* not yet handled (but easy TODO)
*/
FINALIZE;
}
iRet = getReturnCode(pThis);
finalize_it:
RETiRet;
}
/* process a message
* this readies the action and then calls doAction()
* rgerhards, 2008-01-28
*/
static inline rsRetVal
actionProcessMessage(action_t *pThis, msg_t *pMsg, void *actParams, int *pbShutdownImmediate)
{
DEFiRet;
ASSERT(pThis != NULL);
ISOBJ_TYPE_assert(pMsg, msg);
CHKiRet(actionPrepare(pThis, pbShutdownImmediate));
if(pThis->pMod->mod.om.SetShutdownImmdtPtr != NULL)
pThis->pMod->mod.om.SetShutdownImmdtPtr(pThis->pModData, pbShutdownImmediate);
if(pThis->eState == ACT_STATE_ITX)
CHKiRet(actionCallDoAction(pThis, pMsg, actParams));
iRet = getReturnCode(pThis);
finalize_it:
RETiRet;
}
/* finish processing a batch. Most importantly, that means we commit if we
* need to do so.
* rgerhards, 2008-01-28
*/
static rsRetVal
finishBatch(action_t *pThis, batch_t *pBatch)
{
int i;
DEFiRet;
ASSERT(pThis != NULL);
if(pThis->eState == ACT_STATE_RDY) {
/* we just need to flag the batch as commited */
FINALIZE; /* nothing to do */
}
CHKiRet(actionPrepare(pThis, pBatch->pbShutdownImmediate));
if(pThis->eState == ACT_STATE_ITX) {
iRet = pThis->pMod->mod.om.endTransaction(pThis->pModData);
switch(iRet) {
case RS_RET_OK:
actionCommitted(pThis);
/* flag messages as committed */
for(i = 0 ; i < pBatch->nElem ; ++i) {
batchSetElemState(pBatch, i, BATCH_STATE_COMM);
pBatch->pElem[i].bPrevWasSuspended = 0; /* we had success! */
}
break;
case RS_RET_SUSPENDED:
actionRetry(pThis);
break;
case RS_RET_DISABLE_ACTION:
actionDisable(pThis);
break;
case RS_RET_DEFER_COMMIT:
DBGPRINTF("output plugin error: endTransaction() returns RS_RET_DEFER_COMMIT "
"- ignored\n");
actionCommitted(pThis);
break;
case RS_RET_PREVIOUS_COMMITTED:
DBGPRINTF("output plugin error: endTransaction() returns RS_RET_PREVIOUS_COMMITTED "
"- ignored\n");
actionCommitted(pThis);
break;
default:/* permanent failure of this message - no sense in retrying. This is
* not yet handled (but easy TODO)
*/
FINALIZE;
}
}
iRet = getReturnCode(pThis);
finalize_it:
RETiRet;
}
/* try to submit a partial batch of elements.
* rgerhards, 2009-05-12
*/
static inline rsRetVal
tryDoAction(action_t *pAction, batch_t *pBatch, int *pnElem)
{
int i;
int iElemProcessed;
int iCommittedUpTo;
msg_t *pMsg;
rsRetVal localRet;
DEFiRet;
assert(pBatch != NULL);
assert(pnElem != NULL);
i = pBatch->iDoneUpTo; /* all messages below that index are processed */
iElemProcessed = 0;
iCommittedUpTo = i;
DBGPRINTF("tryDoAction %p, pnElem %d, nElem %d\n", pAction, *pnElem, pBatch->nElem);
while(iElemProcessed <= *pnElem && i < pBatch->nElem) {
if(*(pBatch->pbShutdownImmediate))
ABORT_FINALIZE(RS_RET_FORCE_TERM);
/* NOTE: do NOT extend the filter below! Anything else must be done on the
* enq side of the queue (see file header comment)! -- rgerhards, 2011-06-15
*/
if(batchIsValidElem(pBatch, i)) {
pMsg = pBatch->pElem[i].pMsg;
localRet = actionProcessMessage(pAction, pMsg, pBatch->pElem[i].staticActParams,
pBatch->pbShutdownImmediate);
DBGPRINTF("action %p call returned %d\n", pAction, localRet);
/* Note: we directly modify the batch object state, because we know that
* wo do not overwrite BATCH_STATE_DISC indicators!
*/
if(localRet == RS_RET_OK) {
/* mark messages as committed */
while(iCommittedUpTo <= i) {
pBatch->pElem[iCommittedUpTo].bPrevWasSuspended = 0; /* we had success! */
batchSetElemState(pBatch, iCommittedUpTo, BATCH_STATE_COMM);
++iCommittedUpTo;
//pBatch->pElem[iCommittedUpTo++].state = BATCH_STATE_COMM;
}
} else if(localRet == RS_RET_PREVIOUS_COMMITTED) {
/* mark messages as committed */
while(iCommittedUpTo < i) {
pBatch->pElem[iCommittedUpTo].bPrevWasSuspended = 0; /* we had success! */
batchSetElemState(pBatch, iCommittedUpTo, BATCH_STATE_COMM);
++iCommittedUpTo;
//pBatch->pElem[iCommittedUpTo++].state = BATCH_STATE_COMM;
}
pBatch->eltState[i] = BATCH_STATE_SUB;
} else if(localRet == RS_RET_DEFER_COMMIT) {
pBatch->eltState[i] = BATCH_STATE_SUB;
} else if(localRet == RS_RET_DISCARDMSG) {
pBatch->eltState[i] = BATCH_STATE_DISC;
} else {
dbgprintf("tryDoAction: unexpected error code %d[nElem %d, Commited UpTo %d], finalizing\n",
localRet, *pnElem, iCommittedUpTo);
iRet = localRet;
FINALIZE;
}
}
++i;
++iElemProcessed;
}
finalize_it:
if(pBatch->iDoneUpTo != iCommittedUpTo) {
pBatch->iDoneUpTo = iCommittedUpTo;
}
RETiRet;
}
/* submit a batch for actual action processing.
* The first nElem elements are processed. This function calls itself
* recursively if it needs to handle errors.
* Note: we don't need the number of the first message to be processed as a parameter,
* because this is kept track of inside the batch itself (iDoneUpTo).
* rgerhards, 2009-05-12
*/
static rsRetVal
submitBatch(action_t *pAction, batch_t *pBatch, int nElem)
{
int i;
int bDone;
rsRetVal localRet;
int wasDoneTo;
DEFiRet;
assert(pBatch != NULL);
DBGPRINTF("submitBatch: enter, nElem %d\n", nElem);
wasDoneTo = pBatch->iDoneUpTo;
bDone = 0;
do {
localRet = tryDoAction(pAction, pBatch, &nElem);
if(localRet == RS_RET_FORCE_TERM) {
ABORT_FINALIZE(RS_RET_FORCE_TERM);
}
if( localRet == RS_RET_OK
|| localRet == RS_RET_PREVIOUS_COMMITTED
|| localRet == RS_RET_DEFER_COMMIT) {
/* try commit transaction, once done, we can simply do so as if
* that return state was returned from tryDoAction().
*/
localRet = finishBatch(pAction, pBatch);
}
if( localRet == RS_RET_OK
|| localRet == RS_RET_PREVIOUS_COMMITTED
|| localRet == RS_RET_DEFER_COMMIT) {
bDone = 1;
} else if(localRet == RS_RET_SUSPENDED) {
DBGPRINTF("action ret RS_RET_SUSPENDED - retry full batch\n");
/* do nothing, this will retry the full batch */
} else if(localRet == RS_RET_ACTION_FAILED) {
/* in this case, everything not yet committed is BAD */
for(i = pBatch->iDoneUpTo ; i < wasDoneTo + nElem ; ++i) {
if( pBatch->eltState[i] != BATCH_STATE_DISC
&& pBatch->eltState[i] != BATCH_STATE_COMM ) {
pBatch->eltState[i] = BATCH_STATE_BAD;
pBatch->pElem[i].bPrevWasSuspended = 1;
STATSCOUNTER_INC(pAction->ctrFail, pAction->mutCtrFail);
}
}
bDone = 1;
} else {
if(nElem == 1) {
batchSetElemState(pBatch, pBatch->iDoneUpTo, BATCH_STATE_BAD);
bDone = 1;
} else {
/* retry with half as much. Depth is log_2 batchsize, so recursion is not too deep */
DBGPRINTF("submitBatch recursing trying to find and exclude the culprit "
"for iRet %d\n", localRet);
submitBatch(pAction, pBatch, nElem / 2);
submitBatch(pAction, pBatch, nElem - (nElem / 2));
bDone = 1;
}
}
} while(!bDone && !*(pBatch->pbShutdownImmediate)); /* do .. while()! */
if(*(pBatch->pbShutdownImmediate))
ABORT_FINALIZE(RS_RET_FORCE_TERM);
finalize_it:
RETiRet;
}
/* copy "active" array of batch, as we need to modify it. The caller
* must make sure the new array is freed and the orginal batch
* pointer is restored (thus the caller must save it). If active
* is currently NULL, this is properly handled.
* Note: the batches active pointer is modified, so it must be
* saved BEFORE calling this function!
* rgerhards, 2012-09-12
*/
static rsRetVal
copyActive(batch_t *pBatch)
{
sbool *active;
DEFiRet;
CHKmalloc(active = malloc(batchNumMsgs(pBatch) * sizeof(sbool)));
if(pBatch->active == NULL)
memset(active, 1, batchNumMsgs(pBatch));
else
memcpy(active, pBatch->active, batchNumMsgs(pBatch));
pBatch->active = active;
finalize_it:
RETiRet;
}
/* The following function prepares a batch for processing, that it is
* reinitializes batch states, generates strings and does everything else
* that needs to be done in order to make the batch ready for submission to
* the actual output module. Note that we look at the precomputed
* filter OK condition and process only those messages, that actually matched
* the filter.
* rgerhards, 2010-06-14
*/
static inline rsRetVal
prepareBatch(action_t *pAction, batch_t *pBatch, sbool **activeSave, int *bMustRestoreActivePtr)
{
int i;
batch_obj_t *pElem;
struct syslogTime ttNow;
DEFiRet;
/* indicate we have not yet read the date */
ttNow.year = 0;
pBatch->iDoneUpTo = 0;
for(i = 0 ; i < batchNumMsgs(pBatch) && !*(pBatch->pbShutdownImmediate) ; ++i) {
pElem = &(pBatch->pElem[i]);
if(batchIsValidElem(pBatch, i)) {
pBatch->eltState[i] = BATCH_STATE_RDY;
if(prepareDoActionParams(pAction, pElem, &ttNow) != RS_RET_OK) {
/* make sure we have our copy of "active" array */
if(!*bMustRestoreActivePtr) {
*activeSave = pBatch->active;
copyActive(pBatch);
}
pBatch->active[i] = RSFALSE;
}
}
}
RETiRet;
}
/* receive a batch and process it. This includes retry handling.
* rgerhards, 2009-05-12
*/
static inline rsRetVal
processAction(action_t *pAction, batch_t *pBatch)
{
DEFiRet;
assert(pBatch != NULL);
CHKiRet(submitBatch(pAction, pBatch, pBatch->nElem));
iRet = finishBatch(pAction, pBatch);
finalize_it:
RETiRet;
}
#pragma GCC diagnostic ignored "-Wempty-body"
/* receive an array of to-process user pointers and submit them
* for processing.
* rgerhards, 2009-04-22
*/
static rsRetVal
processBatchMain(action_t *pAction, batch_t *pBatch, int *pbShutdownImmediate)
{
int *pbShutdownImmdtSave;
sbool *activeSave;
int bMustRestoreActivePtr = 0;
rsRetVal localRet;
DEFiRet;
assert(pBatch != NULL);
if(pbShutdownImmediate != NULL) {
pbShutdownImmdtSave = pBatch->pbShutdownImmediate;
pBatch->pbShutdownImmediate = pbShutdownImmediate;
}
CHKiRet(prepareBatch(pAction, pBatch, &activeSave, &bMustRestoreActivePtr));
/* We now must guard the output module against execution by multiple threads. The
* plugin interface specifies that output modules must not be thread-safe (except
* if they notify us they are - functionality not yet implemented...).
* rgerhards, 2008-01-30
*/
d_pthread_mutex_lock(&pAction->mutActExec);
pthread_cleanup_push(mutexCancelCleanup, &pAction->mutActExec);
iRet = processAction(pAction, pBatch);
pthread_cleanup_pop(1); /* unlock mutex */
/* even if processAction failed, we need to release the batch (else we
* have a memory leak). So we do this first, and then check if we need to
* return an error code. If so, the code from processAction has priority.
* rgerhards, 2010-12-17
*/
localRet = releaseBatch(pAction, pBatch);
if(iRet == RS_RET_OK)
iRet = localRet;
if(bMustRestoreActivePtr) {
free(pBatch->active);
pBatch->active = activeSave;
}
finalize_it:
if(pbShutdownImmediate != NULL)
pBatch->pbShutdownImmediate = pbShutdownImmdtSave;
RETiRet;
}
#pragma GCC diagnostic warning "-Wempty-body"
/* call the HUP handler for a given action, if such a handler is defined. The
* action mutex is locked, because the HUP handler most probably needs to modify
* some internal state information.
* rgerhards, 2008-10-22
*/
#pragma GCC diagnostic ignored "-Wempty-body"
rsRetVal
actionCallHUPHdlr(action_t *pAction)
{
DEFiRet;
ASSERT(pAction != NULL);
DBGPRINTF("Action %p checks HUP hdlr: %p\n", pAction, pAction->pMod->doHUP);
if(pAction->pMod->doHUP == NULL) {
FINALIZE; /* no HUP handler, so we are done ;) */
}
d_pthread_mutex_lock(&pAction->mutActExec);
pthread_cleanup_push(mutexCancelCleanup, &pAction->mutActExec);
CHKiRet(pAction->pMod->doHUP(pAction->pModData));
pthread_cleanup_pop(1); /* unlock mutex */
finalize_it:
RETiRet;
}
#pragma GCC diagnostic warning "-Wempty-body"
/* set the action message queue mode
* TODO: probably move this into queue object, merge with MainMsgQueue!
* rgerhards, 2008-01-28
*/
static rsRetVal setActionQueType(void __attribute__((unused)) *pVal, uchar *pszType)
{
DEFiRet;
if (!strcasecmp((char *) pszType, "fixedarray")) {
cs.ActionQueType = QUEUETYPE_FIXED_ARRAY;
DBGPRINTF("action queue type set to FIXED_ARRAY\n");
} else if (!strcasecmp((char *) pszType, "linkedlist")) {
cs.ActionQueType = QUEUETYPE_LINKEDLIST;
DBGPRINTF("action queue type set to LINKEDLIST\n");
} else if (!strcasecmp((char *) pszType, "disk")) {
cs.ActionQueType = QUEUETYPE_DISK;
DBGPRINTF("action queue type set to DISK\n");
} else if (!strcasecmp((char *) pszType, "direct")) {
cs.ActionQueType = QUEUETYPE_DIRECT;
DBGPRINTF("action queue type set to DIRECT (no queueing at all)\n");
} else {
errmsg.LogError(0, RS_RET_INVALID_PARAMS, "unknown actionqueue parameter: %s", (char *) pszType);
iRet = RS_RET_INVALID_PARAMS;
}
d_free(pszType); /* no longer needed */
RETiRet;
}
/* This submits the message to the action queue in case we do NOT need to handle repeat
* message processing. That case permits us to gain lots of freedom during processing
* and thus speed. This is also utilized to submit messages in complex case once
* the complex logic has been applied ;)
* rgerhards, 2010-06-08
*/
static inline rsRetVal
doSubmitToActionQ(action_t *pAction, msg_t *pMsg)
{
DEFiRet;
if(pAction->eState == ACT_STATE_DIED) {
DBGPRINTF("action %p died, do NOT execute\n", pAction);
FINALIZE;
}
STATSCOUNTER_INC(pAction->ctrProcessed, pAction->mutCtrProcessed);
if(pAction->pQueue->qType == QUEUETYPE_DIRECT)
iRet = qqueueEnqMsgDirect(pAction->pQueue, MsgAddRef(pMsg));
else
iRet = qqueueEnqMsg(pAction->pQueue, eFLOWCTL_NO_DELAY, MsgAddRef(pMsg));
finalize_it:
RETiRet;
}
/* This function builds up a batch of messages to be (later)
* submitted to the action queue.
* Important: this function MUST not be called with messages that are to
* be discarded due to their "prevWasSuspended" state. It will not check for
* this and submit all messages to the queue for execution. So these must
* be filtered out before calling us (what is done currently!).
*/
rsRetVal
actionWriteToAction(action_t *pAction, msg_t *pMsg)
{
DEFiRet;
/* first, we check if the action should actually be called. The action-specific
* $ActionExecOnlyEveryNthTime permits us to execute an action only every Nth
* time. So we need to check if we need to drop the (otherwise perfectly executable)
* action for this reason. Note that in case we need to drop it, we return RS_RET_OK
* as the action was properly "passed to execution" from the upper layer's point
* of view. -- rgerhards, 2008-08-07.
*/
if(pAction->iExecEveryNthOccur > 1) {
/* we need to care about multiple occurences */
if( pAction->iExecEveryNthOccurTO > 0
&& (getActNow(pAction) - pAction->tLastOccur) > pAction->iExecEveryNthOccurTO) {
DBGPRINTF("n-th occurence handling timed out (%d sec), restarting from 0\n",
(int) (getActNow(pAction) - pAction->tLastOccur));
pAction->iNbrNoExec = 0;
pAction->tLastOccur = getActNow(pAction);
}
if(pAction->iNbrNoExec < pAction->iExecEveryNthOccur - 1) {
++pAction->iNbrNoExec;
DBGPRINTF("action %p passed %d times to execution - less than neded - discarding\n",
pAction, pAction->iNbrNoExec);
FINALIZE;
} else {
pAction->iNbrNoExec = 0; /* we execute the action now, so the number of no execs is down to */
}
}
DBGPRINTF("Called action(complex case), logging to %s\n", module.GetStateName(pAction->pMod));
/* now check if we need to drop the message because otherwise the action would be too
* frequently called. -- rgerhards, 2008-04-08
* Note that the check for "pAction->iSecsExecOnceInterval > 0" is not necessary from
* a purely logical point of view. However, if safes us to check the system time in
* (those common) cases where ExecOnceInterval is not used. -- rgerhards, 2008-09-16
*/
if(pAction->iSecsExecOnceInterval > 0 &&
pAction->iSecsExecOnceInterval + pAction->tLastExec > getActNow(pAction)) {
/* in this case we need to discard the message - its not yet time to exec the action */
DBGPRINTF("action not yet ready again to be executed, onceInterval %d, tCurr %d, tNext %d\n",
(int) pAction->iSecsExecOnceInterval, (int) getActNow(pAction),
(int) (pAction->iSecsExecOnceInterval + pAction->tLastExec));
FINALIZE;
}
/* we use reception time, not dequeue time - this is considered more appropriate and also faster ;)
* rgerhards, 2008-09-17 */
pAction->tLastExec = getActNow(pAction); /* re-init time flags */
pAction->f_time = pMsg->ttGenTime;
/* When we reach this point, we have a valid, non-disabled action.
* So let's enqueue our message for execution. -- rgerhards, 2007-07-24
*/
iRet = doSubmitToActionQ(pAction, pMsg);
finalize_it:
RETiRet;
}
/* helper to actonCallAction, mostly needed because of this damn
* pthread_cleanup_push() POSIX macro...
*/
static inline rsRetVal
doActionCallAction(action_t *pAction, batch_t *pBatch, int idxBtch)
{
msg_t *pMsg;
DEFiRet;
pMsg = pBatch->pElem[idxBtch].pMsg;
pAction->tActNow = -1; /* we do not yet know our current time (clear prev. value) */
/* don't output marks to recently written outputs */
if(pAction->bWriteAllMarkMsgs == RSFALSE
&& (pMsg->msgFlags & MARK) && (getActNow(pAction) - pAction->f_time) < MarkInterval / 2) {
ABORT_FINALIZE(RS_RET_OK);
}
/* call the output driver */
iRet = actionWriteToAction(pAction, pMsg);
finalize_it:
/* we need to update the batch to handle failover processing correctly */
if(iRet == RS_RET_OK) {
pBatch->pElem[idxBtch].bPrevWasSuspended = 0;
} else if(iRet == RS_RET_ACTION_FAILED) {
pBatch->pElem[idxBtch].bPrevWasSuspended = 1;
}
RETiRet;
}
/* helper to activateActions, it activates a specific action.
*/
DEFFUNC_llExecFunc(doActivateActions)
{
rsRetVal localRet;
action_t *pThis = (action_t*) pData;
BEGINfunc
localRet = qqueueStart(pThis->pQueue);
if(localRet != RS_RET_OK) {
errmsg.LogError(0, localRet, "error starting up action queue");
if(localRet == RS_RET_FILE_PREFIX_MISSING) {
errmsg.LogError(0, localRet, "file prefix (work directory?) "
"is missing");
}
actionDisable(pThis);
}
DBGPRINTF("Action %s[%p]: queue %p started\n", modGetName(pThis->pMod),
pThis, pThis->pQueue);
ENDfunc
return RS_RET_OK; /* we ignore errors, we can not do anything either way */
}
/* This function "activates" the action after privileges have been dropped. Currently,
* this means that the queues are started.
* rgerhards, 2011-05-02
*/
rsRetVal
activateActions(void)
{
DEFiRet;
iRet = ruleset.IterateAllActions(ourConf, doActivateActions, NULL);
RETiRet;
}
/* This submits the message to the action queue in case where we need to handle
* bWriteAllMarkMessage == RSFALSE only. Note that we use a non-blocking CAS loop
* for the synchronization. Here, we just modify the filter condition to be false when
* a mark message must not be written. However, in this case we must save the previous
* filter as we may need it in the next action (potential future optimization: check if this is
* the last action TODO).
* rgerhards, 2010-06-08
*/
static rsRetVal
doSubmitToActionQNotAllMarkBatch(action_t *pAction, batch_t *pBatch)
{
time_t now = 0;
time_t lastAct;
int i;
sbool *activeSave;
DEFiRet;
activeSave = pBatch->active;
copyActive(pBatch);
for(i = 0 ; i < batchNumMsgs(pBatch) ; ++i) {
if((pBatch->eltState[i] == BATCH_STATE_DISC) || !pBatch->active[i])
continue;
if(now == 0) {
now = datetime.GetTime(NULL); /* good time call - the only one done */
}
/* CAS loop, we write back a bit early, but that's OK... */
/* we use reception time, not dequeue time - this is considered more appropriate and
* also faster ;) -- rgerhards, 2008-09-17 */
do {
lastAct = pAction->f_time;
if(pBatch->pElem[i].pMsg->msgFlags & MARK) {
if((now - lastAct) < MarkInterval / 2) {
pBatch->active[i] = 0;
DBGPRINTF("batch item %d: action was recently called, ignoring "
"mark message\n", i);
break; /* do not update timestamp for non-written mark messages */
}
}
} while(ATOMIC_CAS_time_t(&pAction->f_time, lastAct,
pBatch->pElem[i].pMsg->ttGenTime, &pAction->mutCAS) == 0);
if(pBatch->active[i]) {
DBGPRINTF("Called action(NotAllMark), processing batch[%d] via '%s'\n",
i, module.GetStateName(pAction->pMod));
}
}
iRet = doSubmitToActionQBatch(pAction, pBatch);
free(pBatch->active);
pBatch->active = activeSave;
RETiRet;
}
static inline void
countStatsBatchEnq(action_t *pAction, batch_t *pBatch)
{
int i;
for(i = 0 ; i < batchNumMsgs(pBatch) && !*(pBatch->pbShutdownImmediate) ; ++i) {
if( batchIsValidElem(pBatch, i)) {
STATSCOUNTER_INC(pAction->ctrProcessed, pAction->mutCtrProcessed);
}
}
}
/* enqueue a batch in direct mode. We have put this into its own function just to avoid
* cluttering the actual submit function.
* rgerhards, 2011-06-16
*/
static inline rsRetVal
doQueueEnqObjDirectBatch(action_t *pAction, batch_t *pBatch)
{
sbool bNeedSubmit;
sbool *activeSave;
int i;
DEFiRet;
activeSave = pBatch->active;
copyActive(pBatch);
/* note: for direct mode, we need to adjust the filter property. For non-direct
* this is not necessary, because in that case we enqueue only what actually needs
* to be processed.
*/
if(pAction->bExecWhenPrevSusp) {
bNeedSubmit = 0;
for(i = 0 ; i < batchNumMsgs(pBatch) && !*(pBatch->pbShutdownImmediate) ; ++i) {
if(!pBatch->pElem[i].bPrevWasSuspended) {
DBGPRINTF("action enq stage: change active to 0 due to "
"failover case in elem %d\n", i);
pBatch->active[i] = 0;
}
if(batchIsValidElem(pBatch, i)) {
STATSCOUNTER_INC(pAction->ctrProcessed, pAction->mutCtrProcessed);
bNeedSubmit = 1;
}
DBGPRINTF("action %p[%d]: valid:%d state:%d execWhenPrev:%d prevWasSusp:%d\n",
pAction, i, batchIsValidElem(pBatch, i), pBatch->eltState[i],
pAction->bExecWhenPrevSusp, pBatch->pElem[i].bPrevWasSuspended);
}
if(bNeedSubmit) {
/* note: stats were already computed above */
iRet = qqueueEnqObjDirectBatch(pAction->pQueue, pBatch);
} else {
DBGPRINTF("no need to submit batch, all invalid\n");
}
} else {
if(GatherStats)
countStatsBatchEnq(pAction, pBatch);
iRet = qqueueEnqObjDirectBatch(pAction->pQueue, pBatch);
}
free(pBatch->active);
pBatch->active = activeSave;
RETiRet;
}
/* This submits the message to the action queue in case we do NOT need to handle repeat
* message processing. That case permits us to gain lots of freedom during processing
* and thus speed.
* rgerhards, 2010-06-08
*/
static rsRetVal
doSubmitToActionQBatch(action_t *pAction, batch_t *pBatch)
{
int i;
DEFiRet;
DBGPRINTF("Called action(Batch), logging to %s\n", module.GetStateName(pAction->pMod));
if(pAction->pQueue->qType == QUEUETYPE_DIRECT) {
iRet = doQueueEnqObjDirectBatch(pAction, pBatch);
} else {/* in this case, we do single submits to the queue.
* TODO: optimize this, we may do at least a multi-submit!
*/
for(i = 0 ; i < batchNumMsgs(pBatch) && !*(pBatch->pbShutdownImmediate) ; ++i) {
DBGPRINTF("action %p: valid:%d state:%d execWhenPrev:%d prevWasSusp:%d\n",
pAction, batchIsValidElem(pBatch, i), pBatch->eltState[i],
pAction->bExecWhenPrevSusp, pBatch->pElem[i].bPrevWasSuspended);
if( batchIsValidElem(pBatch, i)
&& (pAction->bExecWhenPrevSusp == 0 || pBatch->pElem[i].bPrevWasSuspended == 1)) {
doSubmitToActionQ(pAction, pBatch->pElem[i].pMsg);
}
}
}
RETiRet;
}
/* Helper to submit a batch of actions to the engine. Note that we have rather
* complicated processing here, so we need to do this one message after another.
* rgerhards, 2010-06-23
*/
static inline rsRetVal
helperSubmitToActionQComplexBatch(action_t *pAction, batch_t *pBatch)
{
int i;
DEFiRet;
DBGPRINTF("Called action %p (complex case), logging to %s\n",
pAction, module.GetStateName(pAction->pMod));
for(i = 0 ; i < batchNumMsgs(pBatch) && !*(pBatch->pbShutdownImmediate) ; ++i) {
DBGPRINTF("action %p: valid:%d state:%d execWhenPrev:%d prevWasSusp:%d\n",
pAction, batchIsValidElem(pBatch, i), pBatch->eltState[i],
pAction->bExecWhenPrevSusp, pBatch->pElem[i].bPrevWasSuspended);
if( batchIsValidElem(pBatch, i)
&& ((pAction->bExecWhenPrevSusp == 0) || pBatch->pElem[i].bPrevWasSuspended) ) {
doActionCallAction(pAction, pBatch, i);
}
}
RETiRet;
}
/* Call configured action, most complex case with all features supported (and thus slow).
* rgerhards, 2010-06-08
*/
#pragma GCC diagnostic ignored "-Wempty-body"
static rsRetVal
doSubmitToActionQComplexBatch(action_t *pAction, batch_t *pBatch)
{
DEFiRet;
d_pthread_mutex_lock(&pAction->mutAction);
pthread_cleanup_push(mutexCancelCleanup, &pAction->mutAction);
iRet = helperSubmitToActionQComplexBatch(pAction, pBatch);
d_pthread_mutex_unlock(&pAction->mutAction);
pthread_cleanup_pop(0); /* remove mutex cleanup handler */
RETiRet;
}
#pragma GCC diagnostic warning "-Wempty-body"
/* apply all params from param block to action. This supports the v6 config system.
* Defaults must have been set appropriately during action construct!
* rgerhards, 2011-08-01
*/
static rsRetVal
actionApplyCnfParam(action_t *pAction, struct cnfparamvals *pvals)
{
int i;
for(i = 0 ; i < pblk.nParams ; ++i) {
if(!pvals[i].bUsed)
continue;
if(!strcmp(pblk.descr[i].name, "name")) {
pAction->pszName = (uchar*) es_str2cstr(pvals[i].val.d.estr, NULL);
} else if(!strcmp(pblk.descr[i].name, "type")) {
continue; /* this is handled seperately during module select! */
} else if(!strcmp(pblk.descr[i].name, "action.writeallmarkmessages")) {
pAction->bWriteAllMarkMsgs = pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.execonlyeverynthtime")) {
pAction->iExecEveryNthOccur = pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.execonlyeverynthtimetimeout")) {
pAction->iExecEveryNthOccurTO = pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.execonlyonceeveryinterval")) {
pAction->iSecsExecOnceInterval = pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.execonlywhenpreviousissuspended")) {
pAction->bExecWhenPrevSusp = pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.repeatedmsgcontainsoriginalmsg")) {
pAction->bRepMsgHasMsg = pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.resumeretrycount")) {
pAction->iResumeRetryCount = pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.reportsuspension")) {
pAction->bReportSuspension = (int) pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.reportsuspensioncontinuation")) {
pAction->bReportSuspensionCont = (int) pvals[i].val.d.n;
} else if(!strcmp(pblk.descr[i].name, "action.resumeinterval")) {
pAction->iResumeInterval = pvals[i].val.d.n;
} else {
dbgprintf("action: program error, non-handled "
"param '%s'\n", pblk.descr[i].name);
}
}
return RS_RET_OK;
}
/* add an Action to the current selector
* The pOMSR is freed, as it is not needed after this function.
* Note: this function pulls global data that specifies action config state.
* rgerhards, 2007-07-27
*/
rsRetVal
addAction(action_t **ppAction, modInfo_t *pMod, void *pModData,
omodStringRequest_t *pOMSR, struct cnfparamvals *actParams,
struct nvlst *lst, int bSuspended)
{
DEFiRet;
int i;
int iTplOpts;
uchar *pTplName;
action_t *pAction;
char errMsg[512];
assert(ppAction != NULL);
assert(pMod != NULL);
assert(pOMSR != NULL);
DBGPRINTF("Module %s processes this action.\n", module.GetName(pMod));
CHKiRet(actionConstruct(&pAction)); /* create action object first */
pAction->pMod = pMod;
pAction->pModData = pModData;
if(actParams == NULL) { /* use legacy systemn */
pAction->pszName = cs.pszActionName;
pAction->iResumeInterval = cs.glbliActionResumeInterval;
pAction->iResumeRetryCount = cs.glbliActionResumeRetryCount;
pAction->bWriteAllMarkMsgs = cs.bActionWriteAllMarkMsgs;
pAction->bExecWhenPrevSusp = cs.bActExecWhenPrevSusp;
pAction->iSecsExecOnceInterval = cs.iActExecOnceInterval;
pAction->iExecEveryNthOccur = cs.iActExecEveryNthOccur;
pAction->iExecEveryNthOccurTO = cs.iActExecEveryNthOccurTO;
pAction->bRepMsgHasMsg = cs.bActionRepMsgHasMsg;
cs.iActExecEveryNthOccur = 0; /* auto-reset */
cs.iActExecEveryNthOccurTO = 0; /* auto-reset */
cs.bActionWriteAllMarkMsgs = RSFALSE; /* auto-reset */
cs.pszActionName = NULL; /* free again! */
} else {
actionApplyCnfParam(pAction, actParams);
}
/* check if we can obtain the template pointers - TODO: move to separate function? */
pAction->iNumTpls = OMSRgetEntryCount(pOMSR);
assert(pAction->iNumTpls >= 0); /* only debug check because this "can not happen" */
/* please note: iNumTpls may validly be zero. This is the case if the module
* does not request any templates. This sounds unlikely, but an actual example is
* the discard action, which does not require a string. -- rgerhards, 2007-07-30
*/
if(pAction->iNumTpls > 0) {
/* we first need to create the template pointer array */
CHKmalloc(pAction->ppTpl = (struct template **)calloc(pAction->iNumTpls, sizeof(struct template *)));
}
for(i = 0 ; i < pAction->iNumTpls ; ++i) {
CHKiRet(OMSRgetEntry(pOMSR, i, &pTplName, &iTplOpts));
/* Ok, we got everything, so it now is time to look up the template
* (Hint: templates MUST be defined before they are used!)
*/
if( !(iTplOpts & OMSR_TPL_AS_MSG)
&& (pAction->ppTpl[i] =
tplFind(ourConf, (char*)pTplName, strlen((char*)pTplName))) == NULL) {
snprintf(errMsg, sizeof(errMsg) / sizeof(char),
" Could not find template '%s' - action disabled",
pTplName);
errno = 0;
errmsg.LogError(0, RS_RET_NOT_FOUND, "%s", errMsg);
ABORT_FINALIZE(RS_RET_NOT_FOUND);
}
/* check required template options */
if( (iTplOpts & OMSR_RQD_TPL_OPT_SQL)
&& (pAction->ppTpl[i]->optFormatEscape == 0)) {
errno = 0;
errmsg.LogError(0, RS_RET_RQD_TPLOPT_MISSING, "Action disabled. To use this action, you have to specify "
"the SQL or stdSQL option in your template!\n");
ABORT_FINALIZE(RS_RET_RQD_TPLOPT_MISSING);
}
/* set parameter-passing mode */
if(iTplOpts & OMSR_TPL_AS_ARRAY) {
pAction->eParamPassing = ACT_ARRAY_PASSING;
} else if(iTplOpts & OMSR_TPL_AS_MSG) {
pAction->eParamPassing = ACT_MSG_PASSING;
} else if(iTplOpts & OMSR_TPL_AS_JSON) {
pAction->eParamPassing = ACT_JSON_PASSING;
} else {
pAction->eParamPassing = ACT_STRING_PASSING;
}
DBGPRINTF("template: '%s' assigned\n", pTplName);
}
pAction->pMod = pMod;
pAction->pModData = pModData;
/* check if the module is compatible with select features (currently no such features exist) */
pAction->eState = ACT_STATE_RDY; /* action is enabled */
if(bSuspended)
actionSuspend(pAction);
CHKiRet(actionConstructFinalize(pAction, lst));
/* TODO: if we exit here, we have a memory leak... */
*ppAction = pAction; /* finally store the action pointer */
finalize_it:
if(iRet == RS_RET_OK)
iRet = OMSRdestruct(pOMSR);
else {
/* do not overwrite error state! */
OMSRdestruct(pOMSR);
if(pAction != NULL)
actionDestruct(pAction);
}
RETiRet;
}
/* Reset config variables to default values.
* rgerhards, 2009-11-12
*/
static rsRetVal
resetConfigVariables(uchar __attribute__((unused)) *pp, void __attribute__((unused)) *pVal)
{
cs.iActExecOnceInterval = 0;
cs.bActExecWhenPrevSusp = 0;
return RS_RET_OK;
}
/* initialize (current) config variables.
* Used at program start and when a new scope is created.
*/
static inline void
initConfigVariables(void)
{
cs.bActionWriteAllMarkMsgs = RSFALSE;
cs.glbliActionResumeRetryCount = 0;
cs.bActExecWhenPrevSusp = 0;
cs.iActExecOnceInterval = 0;
cs.iActExecEveryNthOccur = 0;
cs.iActExecEveryNthOccurTO = 0;
cs.glbliActionResumeInterval = 30;
cs.glbliActionResumeRetryCount = 0;
cs.bActionRepMsgHasMsg = 0;
if(cs.pszActionName != NULL) {
free(cs.pszActionName);
cs.pszActionName = NULL;
}
actionResetQueueParams();
}
rsRetVal
actionNewInst(struct nvlst *lst, action_t **ppAction)
{
struct cnfparamvals *paramvals;
modInfo_t *pMod;
uchar *cnfModName = NULL;
omodStringRequest_t *pOMSR;
void *pModData;
action_t *pAction;
DEFiRet;
paramvals = nvlstGetParams(lst, &pblk, NULL);
if(paramvals == NULL) {
ABORT_FINALIZE(RS_RET_PARAM_ERROR);
}
dbgprintf("action param blk after actionNewInst:\n");
cnfparamsPrint(&pblk, paramvals);
cnfModName = (uchar*)es_str2cstr(paramvals[cnfparamGetIdx(&pblk, ("type"))].val.d.estr, NULL);
if((pMod = module.FindWithCnfName(loadConf, cnfModName, eMOD_OUT)) == NULL) {
errmsg.LogError(0, RS_RET_MOD_UNKNOWN, "module name '%s' is unknown", cnfModName);
ABORT_FINALIZE(RS_RET_MOD_UNKNOWN);
}
iRet = pMod->mod.om.newActInst(cnfModName, lst, &pModData, &pOMSR);
// TODO: check if RS_RET_SUSPENDED is still valid in v6!
if(iRet != RS_RET_OK && iRet != RS_RET_SUSPENDED) {
FINALIZE; /* iRet is already set to error state */
}
if((iRet = addAction(&pAction, pMod, pModData, pOMSR, paramvals, lst,
(iRet == RS_RET_SUSPENDED)? 1 : 0)) == RS_RET_OK) {
/* check if the module is compatible with select features
* (currently no such features exist) */
pAction->eState = ACT_STATE_RDY; /* action is enabled */
loadConf->actions.nbrActions++; /* one more active action! */
}
*ppAction = pAction;
finalize_it:
free(cnfModName);
cnfparamvalsDestruct(paramvals, &pblk);
RETiRet;
}
/* TODO: we are not yet a real object, the ClassInit here just looks like it is..
*/
rsRetVal actionClassInit(void)
{
DEFiRet;
/* request objects we use */
CHKiRet(objGetObjInterface(&obj)); /* this provides the root pointer for all other queries */
CHKiRet(objUse(datetime, CORE_COMPONENT));
CHKiRet(objUse(module, CORE_COMPONENT));
CHKiRet(objUse(errmsg, CORE_COMPONENT));
CHKiRet(objUse(statsobj, CORE_COMPONENT));
CHKiRet(objUse(ruleset, CORE_COMPONENT));
CHKiRet(regCfSysLineHdlr((uchar *)"actionname", 0, eCmdHdlrGetWord, NULL, &cs.pszActionName, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuefilename", 0, eCmdHdlrGetWord, NULL, &cs.pszActionQFName, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuesize", 0, eCmdHdlrInt, NULL, &cs.iActionQueueSize, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionwriteallmarkmessages", 0, eCmdHdlrBinary, NULL, &cs.bActionWriteAllMarkMsgs, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuedequeuebatchsize", 0, eCmdHdlrInt, NULL, &cs.iActionQueueDeqBatchSize, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuemaxdiskspace", 0, eCmdHdlrSize, NULL, &cs.iActionQueMaxDiskSpace, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuehighwatermark", 0, eCmdHdlrInt, NULL, &cs.iActionQHighWtrMark, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuelowwatermark", 0, eCmdHdlrInt, NULL, &cs.iActionQLowWtrMark, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuediscardmark", 0, eCmdHdlrInt, NULL, &cs.iActionQDiscardMark, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuediscardseverity", 0, eCmdHdlrInt, NULL, &cs.iActionQDiscardSeverity, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuecheckpointinterval", 0, eCmdHdlrInt, NULL, &cs.iActionQPersistUpdCnt, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuesyncqueuefiles", 0, eCmdHdlrBinary, NULL, &cs.bActionQSyncQeueFiles, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuetype", 0, eCmdHdlrGetWord, setActionQueType, NULL, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueueworkerthreads", 0, eCmdHdlrInt, NULL, &cs.iActionQueueNumWorkers, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuetimeoutshutdown", 0, eCmdHdlrInt, NULL, &cs.iActionQtoQShutdown, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuetimeoutactioncompletion", 0, eCmdHdlrInt, NULL, &cs.iActionQtoActShutdown, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuetimeoutenqueue", 0, eCmdHdlrInt, NULL, &cs.iActionQtoEnq, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueueworkertimeoutthreadshutdown", 0, eCmdHdlrInt, NULL, &cs.iActionQtoWrkShutdown, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueueworkerthreadminimummessages", 0, eCmdHdlrInt, NULL, &cs.iActionQWrkMinMsgs, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuemaxfilesize", 0, eCmdHdlrSize, NULL, &cs.iActionQueMaxFileSize, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuesaveonshutdown", 0, eCmdHdlrBinary, NULL, &cs.bActionQSaveOnShutdown, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuedequeueslowdown", 0, eCmdHdlrInt, NULL, &cs.iActionQueueDeqSlowdown, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuedequeuetimebegin", 0, eCmdHdlrInt, NULL, &cs.iActionQueueDeqtWinFromHr, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionqueuedequeuetimeend", 0, eCmdHdlrInt, NULL, &cs.iActionQueueDeqtWinToHr, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionexeconlyeverynthtime", 0, eCmdHdlrInt, NULL, &cs.iActExecEveryNthOccur, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionexeconlyeverynthtimetimeout", 0, eCmdHdlrInt, NULL, &cs.iActExecEveryNthOccurTO, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionexeconlyonceeveryinterval", 0, eCmdHdlrInt, NULL, &cs.iActExecOnceInterval, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"repeatedmsgcontainsoriginalmsg", 0, eCmdHdlrBinary, NULL, &cs.bActionRepMsgHasMsg, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionexeconlywhenpreviousissuspended", 0, eCmdHdlrBinary, NULL, &cs.bActExecWhenPrevSusp, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"actionresumeretrycount", 0, eCmdHdlrInt, NULL, &cs.glbliActionResumeRetryCount, NULL));
CHKiRet(regCfSysLineHdlr((uchar *)"resetconfigvariables", 1, eCmdHdlrCustomHandler, resetConfigVariables, NULL, NULL));
initConfigVariables(); /* first-time init of config setings */
finalize_it:
RETiRet;
}
/* vi:set ai:
*/
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