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/* queue.c
*
* This file implements the queue object and its several queueing methods.
*
* File begun on 2008-01-03 by RGerhards
*
* There is some in-depth documentation available in doc/dev_queue.html
* (and in the web doc set on http://www.rsyslog.com/doc). Be sure to read it
* if you are getting aquainted to the object.
*
* NOTE: as of 2009-04-22, I have begin to remove the qqueue* prefix from static
* function names - this makes it really hard to read and does not provide much
* benefit, at least I (now) think so...
*
* Copyright 2008, 2009 Rainer Gerhards and Adiscon GmbH.
*
* This file is part of the rsyslog runtime library.
*
* The rsyslog runtime library is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* The rsyslog runtime library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with the rsyslog runtime library. If not, see <http://www.gnu.org/licenses/>.
*
* A copy of the GPL can be found in the file "COPYING" in this distribution.
* A copy of the LGPL can be found in the file "COPYING.LESSER" in this distribution.
*/
#include "config.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <signal.h>
#include <pthread.h>
#include <fcntl.h>
#include <unistd.h>
#include <sys/stat.h> /* required for HP UX */
#include <time.h>
#include <errno.h>
#include "rsyslog.h"
#include "queue.h"
#include "stringbuf.h"
#include "srUtils.h"
#include "obj.h"
#include "wtp.h"
#include "wti.h"
#include "msg.h"
#include "atomic.h"
#include "errmsg.h"
#include "datetime.h"
#include "unicode-helper.h"
#include "msg.h" /* TODO: remove once we remove MsgAddRef() call */
#ifdef OS_SOLARIS
# include <sched.h>
#endif
/* static data */
DEFobjStaticHelpers
DEFobjCurrIf(glbl)
DEFobjCurrIf(strm)
DEFobjCurrIf(errmsg)
DEFobjCurrIf(datetime)
/* forward-definitions */
static inline rsRetVal doEnqSingleObj(qqueue_t *pThis, flowControl_t flowCtlType, void *pUsr);
static rsRetVal qqueueChkPersist(qqueue_t *pThis, int nUpdates);
static rsRetVal RateLimiter(qqueue_t *pThis);
static int qqueueChkStopWrkrDA(qqueue_t *pThis);
static rsRetVal GetDeqBatchSize(qqueue_t *pThis, int *pVal);
static rsRetVal ConsumerDA(qqueue_t *pThis, wti_t *pWti);
static rsRetVal batchProcessed(qqueue_t *pThis, wti_t *pWti);
/* some constants for queuePersist () */
#define QUEUE_CHECKPOINT 1
#define QUEUE_NO_CHECKPOINT 0
/***********************************************************************
* we need a private data structure, the "to-delete" list. As C does
* not provide any partly private data structures, we implement this
* structure right here inside the module.
* Note that this list must always be kept sorted based on a unique
* dequeue ID (which is monotonically increasing).
* rgerhards, 2009-05-18
***********************************************************************/
/* generate next uniqueue dequeue ID. Note that uniqueness is only required
* on a per-queue basis and while this instance runs. So a stricly monotonically
* increasing counter is sufficient (if enough bits are used).
*/
static inline qDeqID getNextDeqID(qqueue_t *pQueue)
{
ISOBJ_TYPE_assert(pQueue, qqueue);
return pQueue->deqIDAdd++;
}
/* return the top element of the to-delete list or NULL, if the
* list is empty.
*/
static inline toDeleteLst_t *tdlPeek(qqueue_t *pQueue)
{
ISOBJ_TYPE_assert(pQueue, qqueue);
return pQueue->toDeleteLst;
}
/* remove the top element of the to-delete list. Nothing but the
* element itself is destroyed. Must not be called when the list
* is empty.
*/
static inline rsRetVal tdlPop(qqueue_t *pQueue)
{
toDeleteLst_t *pRemove;
DEFiRet;
ISOBJ_TYPE_assert(pQueue, qqueue);
assert(pQueue->toDeleteLst != NULL);
pRemove = pQueue->toDeleteLst;
pQueue->toDeleteLst = pQueue->toDeleteLst->pNext;
free(pRemove);
RETiRet;
}
/* Add a new to-delete list entry. The function allocates the data
* structure, populates it with the values provided and links the new
* element into the correct place inside the list.
*/
static inline rsRetVal tdlAdd(qqueue_t *pQueue, qDeqID deqID, int nElemDeq)
{
toDeleteLst_t *pNew;
toDeleteLst_t *pPrev;
DEFiRet;
ISOBJ_TYPE_assert(pQueue, qqueue);
assert(pQueue->toDeleteLst != NULL);
CHKmalloc(pNew = MALLOC(sizeof(toDeleteLst_t)));
pNew->deqID = deqID;
pNew->nElemDeq = nElemDeq;
/* now find right spot */
for( pPrev = pQueue->toDeleteLst
; pPrev != NULL && deqID > pPrev->deqID
; pPrev = pPrev->pNext) {
/*JUST SEARCH*/;
}
if(pPrev == NULL) {
pNew->pNext = pQueue->toDeleteLst;
pQueue->toDeleteLst = pNew;
} else {
pNew->pNext = pPrev->pNext;
pPrev->pNext = pNew;
}
finalize_it:
RETiRet;
}
/* methods */
/* get the physical queue size. Must only be called
* while mutex is locked!
* rgerhards, 2008-01-29
*/
static inline int
getPhysicalQueueSize(qqueue_t *pThis)
{
return pThis->iQueueSize;
}
/* get the logical queue size (that is store size minus logically dequeued elements).
* Must only be called while mutex is locked!
* rgerhards, 2009-05-19
*/
static inline int
getLogicalQueueSize(qqueue_t *pThis)
{
return pThis->iQueueSize - pThis->nLogDeq;
}
/* This function drains the queue in cases where this needs to be done. The most probable
* reason is a HUP which needs to discard data (because the queue is configured to be lossy).
* During a shutdown, this is typically not needed, as the OS frees up ressources and does
* this much quicker than when we clean up ourselvs. -- rgerhards, 2008-10-21
* This function returns void, as it makes no sense to communicate an error back, even if
* it happens.
* This functions works "around" the regular deque mechanism, because it is only used to
* clean up (in cases where message loss is acceptable).
*/
static inline void queueDrain(qqueue_t *pThis)
{
void *pUsr;
ASSERT(pThis != NULL);
BEGINfunc
DBGOPRINT((obj_t*) pThis, "queue (type %d) will lose %d messages, destroying...\n", pThis->qType, pThis->iQueueSize);
/* iQueueSize is not decremented by qDel(), so we need to do it ourselves */
while(ATOMIC_DEC_AND_FETCH(&pThis->iQueueSize, &pThis->mutQueueSize) > 0) {
pThis->qDeq(pThis, &pUsr);
if(pUsr != NULL) {
objDestruct(pUsr);
}
pThis->qDel(pThis);
}
ENDfunc
}
/* --------------- code for disk-assisted (DA) queue modes -------------------- */
/* returns the number of workers that should be advised at
* this point in time. The mutex must be locked when
* ths function is called. -- rgerhards, 2008-01-25
*/
static inline rsRetVal
qqueueAdviseMaxWorkers(qqueue_t *pThis)
{
DEFiRet;
int iMaxWorkers;
ISOBJ_TYPE_assert(pThis, qqueue);
if(!pThis->bEnqOnly) {
if(pThis->bIsDA && getLogicalQueueSize(pThis) >= pThis->iHighWtrMrk) {
wtpAdviseMaxWorkers(pThis->pWtpDA, 1); /* disk queues have always one worker */
} else {
if(getLogicalQueueSize(pThis) == 0) {
iMaxWorkers = 0;
} else if(pThis->qType == QUEUETYPE_DISK || pThis->iMinMsgsPerWrkr == 0) {
iMaxWorkers = 1;
} else {
iMaxWorkers = getLogicalQueueSize(pThis) / pThis->iMinMsgsPerWrkr + 1;
}
wtpAdviseMaxWorkers(pThis->pWtpReg, iMaxWorkers);
}
}
RETiRet;
}
/* check if we run in disk-assisted mode and record that
* setting for easy (and quick!) access in the future. This
* function must only be called from constructors and only
* from those that support disk-assisted modes (aka memory-
* based queue drivers).
* rgerhards, 2008-01-14
*/
static rsRetVal
qqueueChkIsDA(qqueue_t *pThis)
{
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
if(pThis->pszFilePrefix != NULL) {
pThis->bIsDA = 1;
DBGOPRINT((obj_t*) pThis, "is disk-assisted, disk will be used on demand\n");
} else {
DBGOPRINT((obj_t*) pThis, "is NOT disk-assisted\n");
}
RETiRet;
}
/* Start disk-assisted queue mode.
* rgerhards, 2008-01-15
*/
static rsRetVal
StartDA(qqueue_t *pThis)
{
DEFiRet;
uchar pszDAQName[128];
ISOBJ_TYPE_assert(pThis, qqueue);
/* create message queue */
CHKiRet(qqueueConstruct(&pThis->pqDA, QUEUETYPE_DISK , 1, 0, pThis->pConsumer));
/* give it a name */
snprintf((char*) pszDAQName, sizeof(pszDAQName)/sizeof(uchar), "%s[DA]", obj.GetName((obj_t*) pThis));
obj.SetName((obj_t*) pThis->pqDA, pszDAQName);
/* as the created queue is the same object class, we take the
* liberty to access its properties directly.
*/
pThis->pqDA->pqParent = pThis;
CHKiRet(qqueueSetpUsr(pThis->pqDA, pThis->pUsr));
CHKiRet(qqueueSetsizeOnDiskMax(pThis->pqDA, pThis->sizeOnDiskMax));
CHKiRet(qqueueSetiDeqSlowdown(pThis->pqDA, pThis->iDeqSlowdown));
CHKiRet(qqueueSetMaxFileSize(pThis->pqDA, pThis->iMaxFileSize));
CHKiRet(qqueueSetFilePrefix(pThis->pqDA, pThis->pszFilePrefix, pThis->lenFilePrefix));
CHKiRet(qqueueSetiPersistUpdCnt(pThis->pqDA, pThis->iPersistUpdCnt));
CHKiRet(qqueueSetbSyncQueueFiles(pThis->pqDA, pThis->bSyncQueueFiles));
CHKiRet(qqueueSettoActShutdown(pThis->pqDA, pThis->toActShutdown));
CHKiRet(qqueueSettoEnq(pThis->pqDA, pThis->toEnq));
CHKiRet(qqueueSetiDeqtWinFromHr(pThis->pqDA, pThis->iDeqtWinFromHr));
CHKiRet(qqueueSetiDeqtWinToHr(pThis->pqDA, pThis->iDeqtWinToHr));
CHKiRet(qqueueSettoQShutdown(pThis->pqDA, pThis->toQShutdown));
CHKiRet(qqueueSetiHighWtrMrk(pThis->pqDA, 0));
CHKiRet(qqueueSetiDiscardMrk(pThis->pqDA, 0));
iRet = qqueueStart(pThis->pqDA);
/* file not found is expected, that means it is no previous QIF available */
if(iRet != RS_RET_OK && iRet != RS_RET_FILE_NOT_FOUND) {
errno = 0; /* else an errno is shown in errmsg! */
errmsg.LogError(errno, iRet, "error starting up disk queue, using pure in-memory mode");
pThis->bIsDA = 0; /* disable memory mode */
FINALIZE; /* something is wrong */
}
DBGOPRINT((obj_t*) pThis, "DA queue initialized, disk queue 0x%lx\n",
qqueueGetID(pThis->pqDA));
finalize_it:
if(iRet != RS_RET_OK) {
if(pThis->pqDA != NULL) {
qqueueDestruct(&pThis->pqDA);
}
DBGOPRINT((obj_t*) pThis, "error %d creating disk queue - giving up.\n", iRet);
pThis->bIsDA = 0;
}
RETiRet;
}
/* initiate DA mode
* param bEnqOnly tells if the disk queue is to be run in enqueue-only mode. This may
* be needed during shutdown of memory queues which need to be persisted to disk.
* If this function fails (should not happen), DA mode is not turned on.
* rgerhards, 2008-01-16
*/
static rsRetVal
InitDA(qqueue_t *pThis, int bLockMutex)
{
DEFiRet;
DEFVARS_mutexProtection;
uchar pszBuf[64];
size_t lenBuf;
BEGIN_MTX_PROTECTED_OPERATIONS(pThis->mut, bLockMutex);
/* check if we already have a DA worker pool. If not, initiate one. Please note that the
* pool is created on first need but never again destructed (until the queue is). This
* is intentional. We assume that when we need it once, we may also need it on another
* occasion. Ressources used are quite minimal when no worker is running.
* rgerhards, 2008-01-24
* NOTE: this is the DA worker *pool*, not the DA queue!
*/
lenBuf = snprintf((char*)pszBuf, sizeof(pszBuf), "%s:DAwpool", obj.GetName((obj_t*) pThis));
CHKiRet(wtpConstruct (&pThis->pWtpDA));
CHKiRet(wtpSetDbgHdr (pThis->pWtpDA, pszBuf, lenBuf));
CHKiRet(wtpSetpfChkStopWrkr (pThis->pWtpDA, (rsRetVal (*)(void *pUsr, int)) qqueueChkStopWrkrDA));
CHKiRet(wtpSetpfGetDeqBatchSize (pThis->pWtpDA, (rsRetVal (*)(void *pUsr, int*)) GetDeqBatchSize));
CHKiRet(wtpSetpfDoWork (pThis->pWtpDA, (rsRetVal (*)(void *pUsr, void *pWti)) ConsumerDA));
CHKiRet(wtpSetpfObjProcessed (pThis->pWtpDA, (rsRetVal (*)(void *pUsr, wti_t *pWti)) batchProcessed));
CHKiRet(wtpSetpmutUsr (pThis->pWtpDA, pThis->mut));
CHKiRet(wtpSetpcondBusy (pThis->pWtpDA, &pThis->notEmpty));
CHKiRet(wtpSetiNumWorkerThreads (pThis->pWtpDA, 1));
CHKiRet(wtpSettoWrkShutdown (pThis->pWtpDA, pThis->toWrkShutdown));
CHKiRet(wtpSetpUsr (pThis->pWtpDA, pThis));
CHKiRet(wtpConstructFinalize (pThis->pWtpDA));
/* if we reach this point, we have a "good" DA worker pool */
/* now construct the actual queue (if it does not already exist) */
if(pThis->pqDA == NULL) {
CHKiRet(StartDA(pThis));
}
finalize_it:
END_MTX_PROTECTED_OPERATIONS(pThis->mut);
RETiRet;
}
/* --------------- end code for disk-assisted queue modes -------------------- */
/* Now, we define type-specific handlers. The provide a generic functionality,
* but for this specific type of queue. The mapping to these handlers happens during
* queue construction. Later on, handlers are called by pointers present in the
* queue instance object.
*/
/* -------------------- fixed array -------------------- */
static rsRetVal qConstructFixedArray(qqueue_t *pThis)
{
DEFiRet;
ASSERT(pThis != NULL);
if(pThis->iMaxQueueSize == 0)
ABORT_FINALIZE(RS_RET_QSIZE_ZERO);
if((pThis->tVars.farray.pBuf = MALLOC(sizeof(void *) * pThis->iMaxQueueSize)) == NULL) {
ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
}
pThis->tVars.farray.deqhead = 0;
pThis->tVars.farray.head = 0;
pThis->tVars.farray.tail = 0;
qqueueChkIsDA(pThis);
finalize_it:
RETiRet;
}
static rsRetVal qDestructFixedArray(qqueue_t *pThis)
{
DEFiRet;
ASSERT(pThis != NULL);
queueDrain(pThis); /* discard any remaining queue entries */
free(pThis->tVars.farray.pBuf);
RETiRet;
}
static rsRetVal qAddFixedArray(qqueue_t *pThis, void* in)
{
DEFiRet;
ASSERT(pThis != NULL);
pThis->tVars.farray.pBuf[pThis->tVars.farray.tail] = in;
pThis->tVars.farray.tail++;
if (pThis->tVars.farray.tail == pThis->iMaxQueueSize)
pThis->tVars.farray.tail = 0;
RETiRet;
}
static rsRetVal qDeqFixedArray(qqueue_t *pThis, void **out)
{
DEFiRet;
ASSERT(pThis != NULL);
*out = (void*) pThis->tVars.farray.pBuf[pThis->tVars.farray.deqhead];
pThis->tVars.farray.deqhead++;
if (pThis->tVars.farray.deqhead == pThis->iMaxQueueSize)
pThis->tVars.farray.deqhead = 0;
RETiRet;
}
static rsRetVal qDelFixedArray(qqueue_t *pThis)
{
DEFiRet;
ASSERT(pThis != NULL);
pThis->tVars.farray.head++;
if (pThis->tVars.farray.head == pThis->iMaxQueueSize)
pThis->tVars.farray.head = 0;
RETiRet;
}
/* -------------------- linked list -------------------- */
static rsRetVal qConstructLinkedList(qqueue_t *pThis)
{
DEFiRet;
ASSERT(pThis != NULL);
pThis->tVars.linklist.pDeqRoot = NULL;
pThis->tVars.linklist.pDelRoot = NULL;
pThis->tVars.linklist.pLast = NULL;
qqueueChkIsDA(pThis);
RETiRet;
}
static rsRetVal qDestructLinkedList(qqueue_t __attribute__((unused)) *pThis)
{
DEFiRet;
queueDrain(pThis); /* discard any remaining queue entries */
/* with the linked list type, there is nothing left to do here. The
* reason is that there are no dynamic elements for the list itself.
*/
RETiRet;
}
static rsRetVal qAddLinkedList(qqueue_t *pThis, void* pUsr)
{
qLinkedList_t *pEntry;
DEFiRet;
CHKmalloc((pEntry = (qLinkedList_t*) MALLOC(sizeof(qLinkedList_t))));
pEntry->pNext = NULL;
pEntry->pUsr = pUsr;
if(pThis->tVars.linklist.pDelRoot == NULL) {
pThis->tVars.linklist.pDelRoot = pThis->tVars.linklist.pDeqRoot = pThis->tVars.linklist.pLast = pEntry;
} else {
pThis->tVars.linklist.pLast->pNext = pEntry;
pThis->tVars.linklist.pLast = pEntry;
}
if(pThis->tVars.linklist.pDeqRoot == NULL) {
pThis->tVars.linklist.pDeqRoot = pEntry;
}
finalize_it:
RETiRet;
}
static rsRetVal qDeqLinkedList(qqueue_t *pThis, obj_t **ppUsr)
{
qLinkedList_t *pEntry;
DEFiRet;
pEntry = pThis->tVars.linklist.pDeqRoot;
ISOBJ_TYPE_assert(pEntry->pUsr, msg);
*ppUsr = pEntry->pUsr;
pThis->tVars.linklist.pDeqRoot = pEntry->pNext;
RETiRet;
}
static rsRetVal qDelLinkedList(qqueue_t *pThis)
{
qLinkedList_t *pEntry;
DEFiRet;
pEntry = pThis->tVars.linklist.pDelRoot;
if(pThis->tVars.linklist.pDelRoot == pThis->tVars.linklist.pLast) {
pThis->tVars.linklist.pDelRoot = pThis->tVars.linklist.pDeqRoot = pThis->tVars.linklist.pLast = NULL;
} else {
pThis->tVars.linklist.pDelRoot = pEntry->pNext;
}
free(pEntry);
RETiRet;
}
/* -------------------- disk -------------------- */
static rsRetVal
qqueueLoadPersStrmInfoFixup(strm_t *pStrm, qqueue_t __attribute__((unused)) *pThis)
{
DEFiRet;
ISOBJ_TYPE_assert(pStrm, strm);
ISOBJ_TYPE_assert(pThis, qqueue);
CHKiRet(strm.SetDir(pStrm, glbl.GetWorkDir(), strlen((char*)glbl.GetWorkDir())));
finalize_it:
RETiRet;
}
/* The method loads the persistent queue information.
* rgerhards, 2008-01-11
*/
static rsRetVal
qqueueTryLoadPersistedInfo(qqueue_t *pThis)
{
DEFiRet;
strm_t *psQIF = NULL;
uchar pszQIFNam[MAXFNAME];
size_t lenQIFNam;
struct stat stat_buf;
ISOBJ_TYPE_assert(pThis, qqueue);
/* Construct file name */
lenQIFNam = snprintf((char*)pszQIFNam, sizeof(pszQIFNam) / sizeof(uchar), "%s/%s.qi",
(char*) glbl.GetWorkDir(), (char*)pThis->pszFilePrefix);
/* check if the file exists */
if(stat((char*) pszQIFNam, &stat_buf) == -1) {
if(errno == ENOENT) {
DBGOPRINT((obj_t*) pThis, "clean startup, no .qi file found\n");
ABORT_FINALIZE(RS_RET_FILE_NOT_FOUND);
} else {
DBGOPRINT((obj_t*) pThis, "error %d trying to access .qi file\n", errno);
ABORT_FINALIZE(RS_RET_IO_ERROR);
}
}
/* If we reach this point, we have a .qi file */
CHKiRet(strm.Construct(&psQIF));
CHKiRet(strm.SettOperationsMode(psQIF, STREAMMODE_READ));
CHKiRet(strm.SetsType(psQIF, STREAMTYPE_FILE_SINGLE));
CHKiRet(strm.SetFName(psQIF, pszQIFNam, lenQIFNam));
CHKiRet(strm.ConstructFinalize(psQIF));
/* first, we try to read the property bag for ourselfs */
CHKiRet(obj.DeserializePropBag((obj_t*) pThis, psQIF));
/* then the stream objects (same order as when persisted!) */
CHKiRet(obj.Deserialize(&pThis->tVars.disk.pWrite, (uchar*) "strm", psQIF,
(rsRetVal(*)(obj_t*,void*))qqueueLoadPersStrmInfoFixup, pThis));
CHKiRet(obj.Deserialize(&pThis->tVars.disk.pReadDel, (uchar*) "strm", psQIF,
(rsRetVal(*)(obj_t*,void*))qqueueLoadPersStrmInfoFixup, pThis));
/* create a duplicate for the read "pointer".
*/
CHKiRet(strm.Dup(pThis->tVars.disk.pReadDel, &pThis->tVars.disk.pReadDeq));
CHKiRet(strm.SetbDeleteOnClose(pThis->tVars.disk.pReadDeq, 0)); /* deq must NOT delete the files! */
CHKiRet(strm.ConstructFinalize(pThis->tVars.disk.pReadDeq));
CHKiRet(strm.SeekCurrOffs(pThis->tVars.disk.pWrite));
CHKiRet(strm.SeekCurrOffs(pThis->tVars.disk.pReadDel));
CHKiRet(strm.SeekCurrOffs(pThis->tVars.disk.pReadDeq));
/* OK, we could successfully read the file, so we now can request that it be
* deleted when we are done with the persisted information.
*/
pThis->bNeedDelQIF = 1;
finalize_it:
if(psQIF != NULL)
strm.Destruct(&psQIF);
if(iRet != RS_RET_OK) {
DBGOPRINT((obj_t*) pThis, "error %d reading .qi file - can not read persisted info (if any)\n",
iRet);
}
RETiRet;
}
/* disk queue constructor.
* Note that we use a file limit of 10,000,000 files. That number should never pose a
* problem. If so, I guess the user has a design issue... But of course, the code can
* always be changed (though it would probably be more appropriate to increase the
* allowed file size at this point - that should be a config setting...
* rgerhards, 2008-01-10
*/
static rsRetVal qConstructDisk(qqueue_t *pThis)
{
DEFiRet;
int bRestarted = 0;
ASSERT(pThis != NULL);
/* and now check if there is some persistent information that needs to be read in */
iRet = qqueueTryLoadPersistedInfo(pThis);
if(iRet == RS_RET_OK)
bRestarted = 1;
else if(iRet != RS_RET_FILE_NOT_FOUND)
FINALIZE;
if(bRestarted == 1) {
;
} else {
CHKiRet(strm.Construct(&pThis->tVars.disk.pWrite));
CHKiRet(strm.SetbSync(pThis->tVars.disk.pWrite, pThis->bSyncQueueFiles));
CHKiRet(strm.SetDir(pThis->tVars.disk.pWrite, glbl.GetWorkDir(), strlen((char*)glbl.GetWorkDir())));
CHKiRet(strm.SetiMaxFiles(pThis->tVars.disk.pWrite, 10000000));
CHKiRet(strm.SettOperationsMode(pThis->tVars.disk.pWrite, STREAMMODE_WRITE));
CHKiRet(strm.SetsType(pThis->tVars.disk.pWrite, STREAMTYPE_FILE_CIRCULAR));
CHKiRet(strm.ConstructFinalize(pThis->tVars.disk.pWrite));
CHKiRet(strm.Construct(&pThis->tVars.disk.pReadDeq));
CHKiRet(strm.SetbDeleteOnClose(pThis->tVars.disk.pReadDeq, 0));
CHKiRet(strm.SetDir(pThis->tVars.disk.pReadDeq, glbl.GetWorkDir(), strlen((char*)glbl.GetWorkDir())));
CHKiRet(strm.SetiMaxFiles(pThis->tVars.disk.pReadDeq, 10000000));
CHKiRet(strm.SettOperationsMode(pThis->tVars.disk.pReadDeq, STREAMMODE_READ));
CHKiRet(strm.SetsType(pThis->tVars.disk.pReadDeq, STREAMTYPE_FILE_CIRCULAR));
CHKiRet(strm.ConstructFinalize(pThis->tVars.disk.pReadDeq));
CHKiRet(strm.Construct(&pThis->tVars.disk.pReadDel));
CHKiRet(strm.SetbSync(pThis->tVars.disk.pReadDel, pThis->bSyncQueueFiles));
CHKiRet(strm.SetbDeleteOnClose(pThis->tVars.disk.pReadDel, 1));
CHKiRet(strm.SetDir(pThis->tVars.disk.pReadDel, glbl.GetWorkDir(), strlen((char*)glbl.GetWorkDir())));
CHKiRet(strm.SetiMaxFiles(pThis->tVars.disk.pReadDel, 10000000));
CHKiRet(strm.SettOperationsMode(pThis->tVars.disk.pReadDel, STREAMMODE_READ));
CHKiRet(strm.SetsType(pThis->tVars.disk.pReadDel, STREAMTYPE_FILE_CIRCULAR));
CHKiRet(strm.ConstructFinalize(pThis->tVars.disk.pReadDel));
CHKiRet(strm.SetFName(pThis->tVars.disk.pWrite, pThis->pszFilePrefix, pThis->lenFilePrefix));
CHKiRet(strm.SetFName(pThis->tVars.disk.pReadDeq, pThis->pszFilePrefix, pThis->lenFilePrefix));
CHKiRet(strm.SetFName(pThis->tVars.disk.pReadDel, pThis->pszFilePrefix, pThis->lenFilePrefix));
}
/* now we set (and overwrite in case of a persisted restart) some parameters which
* should always reflect the current configuration variables. Be careful by doing so,
* for example file name generation must not be changed as that would break the
* ability to read existing queue files. -- rgerhards, 2008-01-12
*/
CHKiRet(strm.SetiMaxFileSize(pThis->tVars.disk.pWrite, pThis->iMaxFileSize));
CHKiRet(strm.SetiMaxFileSize(pThis->tVars.disk.pReadDeq, pThis->iMaxFileSize));
CHKiRet(strm.SetiMaxFileSize(pThis->tVars.disk.pReadDel, pThis->iMaxFileSize));
finalize_it:
RETiRet;
}
static rsRetVal qDestructDisk(qqueue_t *pThis)
{
DEFiRet;
ASSERT(pThis != NULL);
if(pThis->tVars.disk.pWrite != NULL)
strm.Destruct(&pThis->tVars.disk.pWrite);
if(pThis->tVars.disk.pReadDeq != NULL)
strm.Destruct(&pThis->tVars.disk.pReadDeq);
if(pThis->tVars.disk.pReadDel != NULL)
strm.Destruct(&pThis->tVars.disk.pReadDel);
RETiRet;
}
static rsRetVal qAddDisk(qqueue_t *pThis, void* pUsr)
{
DEFiRet;
number_t nWriteCount;
ASSERT(pThis != NULL);
CHKiRet(strm.SetWCntr(pThis->tVars.disk.pWrite, &nWriteCount));
CHKiRet((objSerialize(pUsr))(pUsr, pThis->tVars.disk.pWrite));
CHKiRet(strm.Flush(pThis->tVars.disk.pWrite));
CHKiRet(strm.SetWCntr(pThis->tVars.disk.pWrite, NULL)); /* no more counting for now... */
pThis->tVars.disk.sizeOnDisk += nWriteCount;
/* we have enqueued the user element to disk. So we now need to destruct
* the in-memory representation. The instance will be re-created upon
* dequeue. -- rgerhards, 2008-07-09
*/
objDestruct(pUsr);
DBGOPRINT((obj_t*) pThis, "write wrote %lld octets to disk, queue disk size now %lld octets\n",
nWriteCount, pThis->tVars.disk.sizeOnDisk);
finalize_it:
RETiRet;
}
static rsRetVal qDeqDisk(qqueue_t *pThis, void **ppUsr)
{
DEFiRet;
CHKiRet(obj.Deserialize(ppUsr, (uchar*) "msg", pThis->tVars.disk.pReadDeq, NULL, NULL));
finalize_it:
RETiRet;
}
static rsRetVal qDelDisk(qqueue_t *pThis)
{
obj_t *pDummyObj; /* we need to deserialize it... */
DEFiRet;
int64 offsIn;
int64 offsOut;
CHKiRet(strm.GetCurrOffset(pThis->tVars.disk.pReadDel, &offsIn));
CHKiRet(obj.Deserialize(&pDummyObj, (uchar*) "msg", pThis->tVars.disk.pReadDel, NULL, NULL));
objDestruct(pDummyObj);
CHKiRet(strm.GetCurrOffset(pThis->tVars.disk.pReadDel, &offsOut));
/* This time it is a bit tricky: we free disk space only upon file deletion. So we need
* to keep track of what we have read until we get an out-offset that is lower than the
* in-offset (which indicates file change). Then, we can subtract the whole thing from
* the on-disk size. -- rgerhards, 2008-01-30
*/
if(offsIn < offsOut) {
pThis->tVars.disk.bytesRead += offsOut - offsIn;
} else {
pThis->tVars.disk.sizeOnDisk -= pThis->tVars.disk.bytesRead;
pThis->tVars.disk.bytesRead = offsOut;
DBGOPRINT((obj_t*) pThis, "a file has been deleted, now %lld octets disk space used\n", pThis->tVars.disk.sizeOnDisk);
/* awake possibly waiting enq process */
pthread_cond_signal(&pThis->notFull); /* we hold the mutex while we are in here! */
}
finalize_it:
RETiRet;
}
/* -------------------- direct (no queueing) -------------------- */
static rsRetVal qConstructDirect(qqueue_t __attribute__((unused)) *pThis)
{
return RS_RET_OK;
}
static rsRetVal qDestructDirect(qqueue_t __attribute__((unused)) *pThis)
{
return RS_RET_OK;
}
static rsRetVal qAddDirect(qqueue_t *pThis, void* pUsr)
{
batch_t singleBatch;
batch_obj_t batchObj;
DEFiRet;
ASSERT(pThis != NULL);
/* calling the consumer is quite different here than it is from a worker thread */
/* we need to provide the consumer's return value back to the caller because in direct
* mode the consumer probably has a lot to convey (which get's lost in the other modes
* because they are asynchronous. But direct mode is deliberately synchronous.
* rgerhards, 2008-02-12
* We use our knowledge about the batch_t structure below, but without that, we
* pay a too-large performance toll... -- rgerhards, 2009-04-22
*/
batchObj.state = BATCH_STATE_RDY;
batchObj.pUsrp = (obj_t*) pUsr;
singleBatch.nElem = 1; /* there always is only one in direct mode */
singleBatch.pElem = &batchObj;
iRet = pThis->pConsumer(pThis->pUsr, &singleBatch, &pThis->bShutdownImmediate);
objDestruct(pUsr);
RETiRet;
}
static rsRetVal qDelDirect(qqueue_t __attribute__((unused)) *pThis)
{
return RS_RET_OK;
}
/* --------------- end type-specific handlers -------------------- */
/* generic code to add a queue entry
* We use some specific code to most efficiently support direct mode
* queues. This is justified in spite of the gain and the need to do some
* things truely different. -- rgerhards, 2008-02-12
*/
static rsRetVal
qqueueAdd(qqueue_t *pThis, void *pUsr)
{
DEFiRet;
ASSERT(pThis != NULL);
CHKiRet(pThis->qAdd(pThis, pUsr));
if(pThis->qType != QUEUETYPE_DIRECT) {
ATOMIC_INC(&pThis->iQueueSize, &pThis->mutQueueSize);
DBGOPRINT((obj_t*) pThis, "entry added, size now log %d, phys %d entries\n",
getLogicalQueueSize(pThis), getPhysicalQueueSize(pThis));
}
finalize_it:
RETiRet;
}
/* generic code to dequeue a queue entry
*/
static rsRetVal
qqueueDeq(qqueue_t *pThis, void **ppUsr)
{
DEFiRet;
ASSERT(pThis != NULL);
/* we do NOT abort if we encounter an error, because otherwise the queue
* will not be decremented, what will most probably result in an endless loop.
* If we decrement, however, we may lose a message. But that is better than
* losing the whole process because it loops... -- rgerhards, 2008-01-03
*/
iRet = pThis->qDeq(pThis, ppUsr);
ATOMIC_INC(&pThis->nLogDeq, &pThis->mutLogDeq);
// DBGOPRINT((obj_t*) pThis, "entry deleted, size now log %d, phys %d entries\n",
// getLogicalQueueSize(pThis), getPhysicalQueueSize(pThis));
RETiRet;
}
/* Try to shut down regular and DA queue workers, within the queue timeout
* period. That means processing continues as usual. This is the expected
* usual case, where during shutdown those messages remaining are being
* processed. At this point, it is acceptable that the queue can not be
* fully depleted, that case is handled in the next step. During this phase,
* we first shut down the main queue DA worker to prevent new data to arrive
* at the DA queue, and then we ask the regular workers of both the Regular
* and DA queue to try complete processing.
* rgerhards, 2009-10-14
*/
static inline rsRetVal
tryShutdownWorkersWithinQueueTimeout(qqueue_t *pThis)
{
struct timespec tTimeout;
rsRetVal iRetLocal;
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
ASSERT(pThis->pqParent == NULL); /* detect invalid calling sequence */
if(pThis->bIsDA) {
/* We need to lock the mutex, as otherwise we may have a race that prevents
* us from awaking the DA worker. */
d_pthread_mutex_lock(pThis->mut);
/* tell regular queue DA worker to stop shuffling messages to DA queue... */
pThis->pqDA->bEnqOnly = 1;
wtpSetState(pThis->pWtpDA, wtpState_SHUTDOWN_IMMEDIATE);
wtpAdviseMaxWorkers(pThis->pWtpDA, 1);
DBGOPRINT((obj_t*) pThis, "awoke DA worker, told it to shut down.\n");
/* also tell the DA queue worker to shut down, so that it already knows... */
wtpSetState(pThis->pqDA->pWtpReg, wtpState_SHUTDOWN);
wtpAdviseMaxWorkers(pThis->pqDA->pWtpReg, 1); /* awake its lone worker */
DBGOPRINT((obj_t*) pThis, "awoke DA queue regular worker, told it to shut down when done.\n");
d_pthread_mutex_unlock(pThis->mut);
}
/* first calculate absolute timeout - we need the absolute value here, because we need to coordinate
* shutdown of both the regular and DA queue on *the same* timeout.
*/
timeoutComp(&tTimeout, pThis->toQShutdown);
DBGOPRINT((obj_t*) pThis, "trying shutdown of regular workers\n");
iRetLocal = wtpShutdownAll(pThis->pWtpReg, wtpState_SHUTDOWN, &tTimeout);
if(iRetLocal == RS_RET_TIMED_OUT) {
DBGOPRINT((obj_t*) pThis, "regular shutdown timed out on primary queue (this is OK)\n");
} else {
DBGOPRINT((obj_t*) pThis, "regular queue workers shut down.\n");
}
/* OK, the worker for the regular queue is processed, on the the DA queue regular worker. */
if(pThis->pqDA != NULL) {
DBGOPRINT((obj_t*) pThis, "we have a DA queue (0x%lx), requesting its shutdown.\n",
qqueueGetID(pThis->pqDA));
/* we use the same absolute timeout as above, so we do not use more than the configured
* timeout interval!
*/
DBGOPRINT((obj_t*) pThis, "trying shutdown of regular worker of DA queue\n");
iRetLocal = wtpShutdownAll(pThis->pqDA->pWtpReg, wtpState_SHUTDOWN, &tTimeout);
if(iRetLocal == RS_RET_TIMED_OUT) {
DBGOPRINT((obj_t*) pThis, "shutdown timed out on DA queue worker (this is OK)\n");
} else {
DBGOPRINT((obj_t*) pThis, "DA queue worker shut down.\n");
}
}
RETiRet;
}
/* Try to shut down regular and DA queue workers, within the action timeout
* period. This aborts processing, but at the end of the current action, in
* a well-defined manner. During this phase, we terminate all three worker
* pools, including the regular queue DA worker if it not yet has terminated.
* Not finishing processing all messages is OK (and expected) at this stage
* (they may be preserved later, depending * on bSaveOnShutdown setting).
* rgerhards, 2009-10-14
*/
static rsRetVal
tryShutdownWorkersWithinActionTimeout(qqueue_t *pThis)
{
struct timespec tTimeout;
rsRetVal iRetLocal;
DEFiRet;
RUNLOG_STR("trying to shutdown workers within Action Timeout");
ISOBJ_TYPE_assert(pThis, qqueue);
ASSERT(pThis->pqParent == NULL); /* detect invalid calling sequence */
/* instruct workers to finish ASAP, even if still work exists */
pThis->bEnqOnly = 1;
pThis->bShutdownImmediate = 1;
/* now DA queue */
if(pThis->bIsDA) {
pThis->pqDA->bEnqOnly = 1;
pThis->pqDA->bShutdownImmediate = 1;
}
// TODO: make sure we have at minimum a 10ms timeout - workers deserve a chance...
/* now give the queue workers a last chance to gracefully shut down (based on action timeout setting) */
timeoutComp(&tTimeout, pThis->toActShutdown);
DBGOPRINT((obj_t*) pThis, "trying immediate shutdown of regular workers (if any)\n");
iRetLocal = wtpShutdownAll(pThis->pWtpReg, wtpState_SHUTDOWN_IMMEDIATE, &tTimeout);
if(iRetLocal == RS_RET_TIMED_OUT) {
DBGOPRINT((obj_t*) pThis, "immediate shutdown timed out on primary queue (this is acceptable and "
"triggers cancellation)\n");
} else if(iRetLocal != RS_RET_OK) {
DBGOPRINT((obj_t*) pThis, "unexpected iRet state %d after trying immediate shutdown of the primary queue "
"in disk save mode. Continuing, but results are unpredictable\n", iRetLocal);
}
if(pThis->pqDA != NULL) {
/* and now the same for the DA queue */
DBGOPRINT((obj_t*) pThis, "trying immediate shutdown of DA queue workers\n");
iRetLocal = wtpShutdownAll(pThis->pqDA->pWtpReg, wtpState_SHUTDOWN_IMMEDIATE, &tTimeout);
if(iRetLocal == RS_RET_TIMED_OUT) {
DBGOPRINT((obj_t*) pThis, "immediate shutdown timed out on DA queue (this is acceptable "
"and triggers cancellation)\n");
} else if(iRetLocal != RS_RET_OK) {
DBGOPRINT((obj_t*) pThis, "unexpected iRet state %d after trying immediate shutdown of the DA "
"queue in disk save mode. Continuing, but results are unpredictable\n", iRetLocal);
}
/* and now we need to terminate the DA worker itself. We always grant it a 100ms timeout,
* which should be sufficient and usually not be required (it is expected to have finished
* long before while we were processing the queue timeout in shutdown phase 1).
* rgerhards, 2009-10-14
*/
timeoutComp(&tTimeout, 100);
DBGOPRINT((obj_t*) pThis, "trying regular shutdown of main queue DA worker pool\n");
iRetLocal = wtpShutdownAll(pThis->pWtpDA, wtpState_SHUTDOWN_IMMEDIATE, &tTimeout);
if(iRetLocal == RS_RET_TIMED_OUT) {
DBGOPRINT((obj_t*) pThis, "shutdown timed out on main queue DA worker pool "
"(this is not good, but probably OK)\n");
} else {
DBGOPRINT((obj_t*) pThis, "main queue DA worker pool shut down.\n");
}
}
RETiRet;
}
/* This function cancels all remaining regular workers for both the main and the DA
* queue.
* rgerhards, 2009-05-29
*/
static rsRetVal
cancelWorkers(qqueue_t *pThis)
{
rsRetVal iRetLocal;
DEFiRet;
/* Now queue workers should have terminated. If not, we need to cancel them as we have applied
* all timeout setting. If any worker in any queue still executes, its consumer is possibly
* long-running and cancelling is the only way to get rid of it.
*/
DBGOPRINT((obj_t*) pThis, "checking to see if we need to cancel any worker threads of the primary queue\n");
iRetLocal = wtpCancelAll(pThis->pWtpReg); /* returns immediately if all threads already have terminated */
if(iRetLocal != RS_RET_OK) {
DBGOPRINT((obj_t*) pThis, "unexpected iRet state %d trying to cancel primary queue worker "
"threads, continuing, but results are unpredictable\n", iRetLocal);
}
/* ... and now the DA queue, if it exists (should always be after the primary one) */
if(pThis->pqDA != NULL) {
DBGOPRINT((obj_t*) pThis, "checking to see if we need to cancel any worker threads of the DA queue\n");
iRetLocal = wtpCancelAll(pThis->pqDA->pWtpReg); /* returns immediately if all threads already have terminated */
if(iRetLocal != RS_RET_OK) {
DBGOPRINT((obj_t*) pThis, "unexpected iRet state %d trying to cancel DA queue worker "
"threads, continuing, but results are unpredictable\n", iRetLocal);
}
/* finally, we cancel the main queue's DA worker pool, if it still is running. It may be
* restarted later to persist the queue. But we stop it, because otherwise we get into
* big trouble when resetting the logical dequeue pointer. This operation can only be
* done when *no* worker is running. So time for a shutdown... -- rgerhards, 2009-05-28
*/
DBGOPRINT((obj_t*) pThis, "checking to see if main queue DA worker pool needs to be cancelled\n");
iRetLocal = wtpCancelAll(pThis->pWtpDA); /* returns immediately if all threads already have terminated */
}
RETiRet;
}
/* This function shuts down all worker threads and waits until they
* have terminated. If they timeout, they are cancelled.
* rgerhards, 2008-01-24
* Please note that this function shuts down BOTH the parent AND the child queue
* in DA case. This is necessary because their timeouts are tightly coupled. Most
* importantly, the timeouts would be applied twice (or logic be extremely
* complex) if each would have its own shutdown. The function does not self check
* this condition - the caller must make sure it is not called with a parent.
* rgerhards, 2009-05-26: we do NO longer persist the queue here if bSaveOnShutdown
* is set. This must be handled by the caller. Not doing that cleans up the queue
* shutdown considerably. Also, older engines had a potential hang condition when
* the DA queue was already started and the DA worker configured for infinite
* retries and the action was during retry processing. This was a design issue,
* which is solved as of now. Note that the shutdown now may take a little bit
* longer, because we no longer can persist the queue in parallel to waiting
* on worker timeouts.
*/
static rsRetVal
ShutdownWorkers(qqueue_t *pThis)
{
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
ASSERT(pThis->pqParent == NULL); /* detect invalid calling sequence */
DBGOPRINT((obj_t*) pThis, "initiating worker thread shutdown sequence\n");
CHKiRet(tryShutdownWorkersWithinQueueTimeout(pThis));
if(getPhysicalQueueSize(pThis) > 0) {
CHKiRet(tryShutdownWorkersWithinActionTimeout(pThis));
}
CHKiRet(cancelWorkers(pThis));
/* ... finally ... all worker threads have terminated :-)
* Well, more precisely, they *are in termination*. Some cancel cleanup handlers
* may still be running. Note that the main queue's DA worker may still be running.
*/
DBGOPRINT((obj_t*) pThis, "worker threads terminated, remaining queue size log %d, phys %d.\n",
getLogicalQueueSize(pThis), getPhysicalQueueSize(pThis));
finalize_it:
RETiRet;
}
/* Constructor for the queue object
* This constructs the data structure, but does not yet start the queue. That
* is done by queueStart(). The reason is that we want to give the caller a chance
* to modify some parameters before the queue is actually started.
*/
rsRetVal qqueueConstruct(qqueue_t **ppThis, queueType_t qType, int iWorkerThreads,
int iMaxQueueSize, rsRetVal (*pConsumer)(void*, batch_t*,int*))
{
DEFiRet;
qqueue_t *pThis;
ASSERT(ppThis != NULL);
ASSERT(pConsumer != NULL);
ASSERT(iWorkerThreads >= 0);
CHKmalloc(pThis = (qqueue_t *)calloc(1, sizeof(qqueue_t)));
/* we have an object, so let's fill the properties */
objConstructSetObjInfo(pThis);
if((pThis->pszSpoolDir = (uchar*) strdup((char*)glbl.GetWorkDir())) == NULL)
ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
/* set some water marks so that we have useful defaults if none are set specifically */
pThis->iFullDlyMrk = iMaxQueueSize - (iMaxQueueSize / 100) * 3; /* default 97% */
pThis->iLightDlyMrk = iMaxQueueSize - (iMaxQueueSize / 100) * 30; /* default 70% */
pThis->lenSpoolDir = ustrlen(pThis->pszSpoolDir);
pThis->iMaxFileSize = 1024 * 1024; /* default is 1 MiB */
pThis->iQueueSize = 0;
pThis->nLogDeq = 0;
pThis->iMaxQueueSize = iMaxQueueSize;
pThis->pConsumer = pConsumer;
pThis->iNumWorkerThreads = iWorkerThreads;
pThis->iDeqtWinToHr = 25; /* disable time-windowed dequeuing by default */
pThis->iDeqBatchSize = 8; /* conservative default, should still provide good performance */
pThis->pszFilePrefix = NULL;
pThis->qType = qType;
/* set type-specific handlers and other very type-specific things (we can not totally hide it...) */
switch(qType) {
case QUEUETYPE_FIXED_ARRAY:
pThis->qConstruct = qConstructFixedArray;
pThis->qDestruct = qDestructFixedArray;
pThis->qAdd = qAddFixedArray;
pThis->qDeq = qDeqFixedArray;
pThis->qDel = qDelFixedArray;
break;
case QUEUETYPE_LINKEDLIST:
pThis->qConstruct = qConstructLinkedList;
pThis->qDestruct = qDestructLinkedList;
pThis->qAdd = qAddLinkedList;
pThis->qDeq = (rsRetVal (*)(qqueue_t*,void**)) qDeqLinkedList;
pThis->qDel = (rsRetVal (*)(qqueue_t*)) qDelLinkedList;
break;
case QUEUETYPE_DISK:
pThis->qConstruct = qConstructDisk;
pThis->qDestruct = qDestructDisk;
pThis->qAdd = qAddDisk;
pThis->qDeq = qDeqDisk;
pThis->qDel = qDelDisk;
/* special handling */
pThis->iNumWorkerThreads = 1; /* we need exactly one worker */
break;
case QUEUETYPE_DIRECT:
pThis->qConstruct = qConstructDirect;
pThis->qDestruct = qDestructDirect;
pThis->qAdd = qAddDirect;
pThis->qDel = qDelDirect;
break;
}
INIT_ATOMIC_HELPER_MUT(pThis->mutQueueSize);
INIT_ATOMIC_HELPER_MUT(pThis->mutLogDeq);
finalize_it:
OBJCONSTRUCT_CHECK_SUCCESS_AND_CLEANUP
RETiRet;
}
/* This function checks if the provided message shall be discarded and does so, if needed.
* In DA mode, we do not discard any messages as we assume the disk subsystem is fast enough to
* provide real-time creation of spool files.
* Note: cached copies of iQueueSize is provided so that no mutex locks are required.
* The caller must have obtained them while the mutex was locked. Of course, these values may no
* longer be current, but that is OK for the discard check. At worst, the message is either processed
* or discarded when it should not have been. As discarding is in itself somewhat racy and erratic,
* that is no problems for us. This function MUST NOT lock the queue mutex, it could result in
* deadlocks!
* If the message is discarded, it can no longer be processed by the caller. So be sure to check
* the return state!
* rgerhards, 2008-01-24
*/
static int qqueueChkDiscardMsg(qqueue_t *pThis, int iQueueSize, void *pUsr)
{
DEFiRet;
rsRetVal iRetLocal;
int iSeverity;
ISOBJ_TYPE_assert(pThis, qqueue);
ISOBJ_assert(pUsr);
if(pThis->iDiscardMrk > 0 && iQueueSize >= pThis->iDiscardMrk) {
iRetLocal = objGetSeverity(pUsr, &iSeverity);
if(iRetLocal == RS_RET_OK && iSeverity >= pThis->iDiscardSeverity) {
DBGOPRINT((obj_t*) pThis, "queue nearly full (%d entries), discarded severity %d message\n",
iQueueSize, iSeverity);
objDestruct(pUsr);
ABORT_FINALIZE(RS_RET_QUEUE_FULL);
} else {
DBGOPRINT((obj_t*) pThis, "queue nearly full (%d entries), but could not drop msg "
"(iRet: %d, severity %d)\n", iQueueSize, iRetLocal, iSeverity);
}
}
finalize_it:
RETiRet;
}
/* Finally remove n elements from the queue store.
*/
static inline rsRetVal
DoDeleteBatchFromQStore(qqueue_t *pThis, int nElem)
{
int i;
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
/* now send delete request to storage driver */
for(i = 0 ; i < nElem ; ++i) {
pThis->qDel(pThis);
}
/* iQueueSize is not decremented by qDel(), so we need to do it ourselves */
ATOMIC_SUB(&pThis->iQueueSize, nElem, &pThis->mutQueueSize);
ATOMIC_SUB(&pThis->nLogDeq, nElem, &pThis->mutLogDeq);
dbgprintf("delete batch from store, new sizes: log %d, phys %d\n", getLogicalQueueSize(pThis), getPhysicalQueueSize(pThis));
++pThis->deqIDDel; /* one more batch dequeued */
RETiRet;
}
/* remove messages from the physical queue store that are fully processed. This is
* controlled via the to-delete list.
*/
static inline rsRetVal
DeleteBatchFromQStore(qqueue_t *pThis, batch_t *pBatch)
{
toDeleteLst_t *pTdl;
qDeqID deqIDDel;
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
assert(pBatch != NULL);
pTdl = tdlPeek(pThis); /* get current head element */
if(pTdl == NULL) { /* to-delete list empty */
DoDeleteBatchFromQStore(pThis, pBatch->nElem);
} else if(pBatch->deqID == pThis->deqIDDel) {
deqIDDel = pThis->deqIDDel;
pTdl = tdlPeek(pThis);
while(pTdl != NULL && deqIDDel == pTdl->deqID) {
DoDeleteBatchFromQStore(pThis, pTdl->nElemDeq);
tdlPop(pThis);
++deqIDDel;
pTdl = tdlPeek(pThis);
}
/* old entries deleted, now delete current ones... */
DoDeleteBatchFromQStore(pThis, pBatch->nElem);
} else {
/* can not delete, insert into to-delete list */
dbgprintf("not at head of to-delete list, enqueue %d\n", (int) pBatch->deqID);
CHKiRet(tdlAdd(pThis, pBatch->deqID, pBatch->nElem));
}
finalize_it:
RETiRet;
}
/* Delete a batch of processed user objects from the queue, which includes
* destructing the objects themself. Any entries not marked as finally
* processed are enqueued again. The new enqueue is necessary because we have a
* rgerhards, 2009-05-13
*/
static inline rsRetVal
DeleteProcessedBatch(qqueue_t *pThis, batch_t *pBatch)
{
int i;
void *pUsr;
int nEnqueued = 0;
rsRetVal localRet;
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
assert(pBatch != NULL);
for(i = 0 ; i < pBatch->nElem ; ++i) {
pUsr = pBatch->pElem[i].pUsrp;
if( pBatch->pElem[i].state == BATCH_STATE_RDY
|| pBatch->pElem[i].state == BATCH_STATE_SUB) {
localRet = doEnqSingleObj(pThis, eFLOWCTL_NO_DELAY,
(obj_t*)MsgAddRef((msg_t*) pUsr));
++nEnqueued;
if(localRet != RS_RET_OK) {
DBGPRINTF("error %d re-enqueuing unprocessed data element - discarded\n", localRet);
}
}
objDestruct(pUsr);
}
dbgprintf("we deleted %d objects and enqueued %d objects\n", i-nEnqueued, nEnqueued);
if(nEnqueued > 0)
qqueueChkPersist(pThis, nEnqueued);
iRet = DeleteBatchFromQStore(pThis, pBatch);
pBatch->nElem = pBatch->nElemDeq = 0; /* reset batch */
RETiRet;
}
/* dequeue as many user pointers as are available, until we hit the configured
* upper limit of pointers. Note that this function also deletes all processed
* objects from the previous batch. However, it is perfectly valid that the
* previous batch contained NO objects at all. For example, this happens
* immediately after system startup or when a queue was exhausted and the queue
* worker needed to wait for new data.
* This must only be called when the queue mutex is LOOKED, otherwise serious
* malfunction will happen.
*/
static inline rsRetVal
DequeueConsumableElements(qqueue_t *pThis, wti_t *pWti, int *piRemainingQueueSize)
{
int nDequeued;
int nDiscarded;
int nDeleted;
int iQueueSize;
void *pUsr;
rsRetVal localRet;
DEFiRet;
nDeleted = pWti->batch.nElemDeq;
DeleteProcessedBatch(pThis, &pWti->batch);
nDequeued = nDiscarded = 0;
while((iQueueSize = getLogicalQueueSize(pThis)) > 0 && nDequeued < pThis->iDeqBatchSize) {
CHKiRet(qqueueDeq(pThis, &pUsr));
/* check if we should discard this element */
localRet = qqueueChkDiscardMsg(pThis, pThis->iQueueSize, pUsr);
if(localRet == RS_RET_QUEUE_FULL) {
++nDiscarded;
continue;
} else if(localRet != RS_RET_OK) {
ABORT_FINALIZE(localRet);
}
/* all well, use this element */
pWti->batch.pElem[nDequeued].pUsrp = pUsr;
pWti->batch.pElem[nDequeued].state = BATCH_STATE_RDY;
++nDequeued;
}
/* it is sufficient to persist only when the bulk of work is done */
qqueueChkPersist(pThis, nDequeued+nDiscarded+nDeleted);
pWti->batch.nElem = nDequeued;
pWti->batch.nElemDeq = nDequeued + nDiscarded;
pWti->batch.deqID = getNextDeqID(pThis);
*piRemainingQueueSize = iQueueSize;
finalize_it:
RETiRet;
}
/* dequeue the queued object for the queue consumers.
* rgerhards, 2008-10-21
* I made a radical change - we now dequeue multiple elements, and store these objects in
* an array of user pointers. We expect that this increases performance.
* rgerhards, 2009-04-22
*/
static rsRetVal
DequeueConsumable(qqueue_t *pThis, wti_t *pWti)
{
DEFiRet;
int iQueueSize = 0; /* keep the compiler happy... */
/* dequeue element batch (still protected from mutex) */
iRet = DequeueConsumableElements(pThis, pWti, &iQueueSize);
/* awake some flow-controlled sources if we can do this right now */
/* TODO: this could be done better from a performance point of view -- do it only if
* we have someone waiting for the condition (or only when we hit the watermark right
* on the nail [exact value]) -- rgerhards, 2008-03-14
* now that we dequeue batches of pointers, this is much less an issue...
* rgerhards, 2009-04-22
*/
if(iQueueSize < pThis->iFullDlyMrk / 2) {
pthread_cond_broadcast(&pThis->belowFullDlyWtrMrk);
}
if(iQueueSize < pThis->iLightDlyMrk / 2) {
pthread_cond_broadcast(&pThis->belowLightDlyWtrMrk);
}
// TODO: MULTI: check physical queue size?
pthread_cond_signal(&pThis->notFull);
/* WE ARE NO LONGER PROTECTED BY THE MUTEX */
if(iRet != RS_RET_OK && iRet != RS_RET_DISCARDMSG) {
DBGOPRINT((obj_t*) pThis, "error %d dequeueing element - ignoring, but strange things "
"may happen\n", iRet);
}
RETiRet;
}
/* The rate limiter
*
* Here we may wait if a dequeue time window is defined or if we are
* rate-limited. TODO: If we do so, we should also look into the
* way new worker threads are spawned. Obviously, it doesn't make much
* sense to spawn additional worker threads when none of them can do any
* processing. However, it is deemed acceptable to allow this for an initial
* implementation of the timeframe/rate limiting feature.
* Please also note that these feature could also be implemented at the action
* level. However, that would limit them to be used together with actions. We have
* taken the broader approach, moving it right into the queue. This is even
* necessary if we want to prevent spawning of multiple unnecessary worker
* threads as described above. -- rgerhards, 2008-04-02
*
*
* time window: tCurr is current time; tFrom is start time, tTo is end time (in mil 24h format).
* We may have tFrom = 4, tTo = 10 --> run from 4 to 10 hrs. nice and happy
* we may also have tFrom= 22, tTo = 4 -> run from 10pm to 4am, which is actually two
* windows: 0-4; 22-23:59
* so when to run? Let's assume we have 3am
*
* if(tTo < tFrom) {
* if(tCurr < tTo [3 < 4] || tCurr > tFrom [3 > 22])
* do work
* else
* sleep for tFrom - tCurr "hours" [22 - 5 --> 17]
* } else {
* if(tCurr >= tFrom [3 >= 4] && tCurr < tTo [3 < 10])
* do work
* else
* sleep for tTo - tCurr "hours" [4 - 3 --> 1]
* }
*
* Bottom line: we need to check which type of window we have and need to adjust our
* logic accordingly. Of course, sleep calculations need to be done up to the minute,
* but you get the idea from the code above.
*/
static rsRetVal
RateLimiter(qqueue_t *pThis)
{
DEFiRet;
int iDelay;
int iHrCurr;
time_t tCurr;
struct tm m;
ISOBJ_TYPE_assert(pThis, qqueue);
iDelay = 0;
if(pThis->iDeqtWinToHr != 25) { /* 25 means disabled */
/* time calls are expensive, so only do them when needed */
datetime.GetTime(&tCurr);
localtime_r(&tCurr, &m);
iHrCurr = m.tm_hour;
if(pThis->iDeqtWinToHr < pThis->iDeqtWinFromHr) {
if(iHrCurr < pThis->iDeqtWinToHr || iHrCurr > pThis->iDeqtWinFromHr) {
; /* do not delay */
} else {
iDelay = (pThis->iDeqtWinFromHr - iHrCurr) * 3600;
/* this time, we are already into the next hour, so we need
* to subtract our current minute and seconds.
*/
iDelay -= m.tm_min * 60;
iDelay -= m.tm_sec;
}
} else {
if(iHrCurr >= pThis->iDeqtWinFromHr && iHrCurr < pThis->iDeqtWinToHr) {
; /* do not delay */
} else {
if(iHrCurr < pThis->iDeqtWinFromHr) {
iDelay = (pThis->iDeqtWinFromHr - iHrCurr - 1) * 3600; /* -1 as we are already in the hour */
iDelay += (60 - m.tm_min) * 60;
iDelay += 60 - m.tm_sec;
} else {
iDelay = (24 - iHrCurr + pThis->iDeqtWinFromHr) * 3600;
/* this time, we are already into the next hour, so we need
* to subtract our current minute and seconds.
*/
iDelay -= m.tm_min * 60;
iDelay -= m.tm_sec;
}
}
}
}
if(iDelay > 0) {
DBGOPRINT((obj_t*) pThis, "outside dequeue time window, delaying %d seconds\n", iDelay);
srSleep(iDelay, 0);
}
RETiRet;
}
/* This dequeues the next batch. Note that this function must not be
* cancelled, else it will leave back an inconsistent state.
* rgerhards, 2009-05-20
*/
static inline rsRetVal
DequeueForConsumer(qqueue_t *pThis, wti_t *pWti)
{
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
ISOBJ_TYPE_assert(pWti, wti);
CHKiRet(DequeueConsumable(pThis, pWti));
if(pWti->batch.nElem == 0)
ABORT_FINALIZE(RS_RET_IDLE);
finalize_it:
RETiRet;
}
/* This is called when a batch is processed and the worker does not
* ask for another batch (e.g. because it is to be terminated)
* rgerhards, 2009-05-27
*/
static rsRetVal
batchProcessed(qqueue_t *pThis, wti_t *pWti)
{
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
ISOBJ_TYPE_assert(pWti, wti);
DeleteProcessedBatch(pThis, &pWti->batch);
qqueueChkPersist(pThis, pWti->batch.nElemDeq);
RETiRet;
}
/* This is the queue consumer in the regular (non-DA) case. It is
* protected by the queue mutex, but MUST release it as soon as possible.
* rgerhards, 2008-01-21
*/
static rsRetVal
ConsumerReg(qqueue_t *pThis, wti_t *pWti)
{
int iCancelStateSave;
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
ISOBJ_TYPE_assert(pWti, wti);
CHKiRet(DequeueForConsumer(pThis, pWti));
/* we now have a non-idle batch of work, so we can release the queue mutex and process it */
d_pthread_mutex_unlock(pThis->mut);
/* at this spot, we may be cancelled */
pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, &iCancelStateSave);
CHKiRet(pThis->pConsumer(pThis->pUsr, &pWti->batch, &pThis->bShutdownImmediate));
/* we now need to check if we should deliberately delay processing a bit
* and, if so, do that. -- rgerhards, 2008-01-30
*/
//TODO: MULTIQUEUE: the following setting is no longer correct - need to think about how to do that...
if(pThis->iDeqSlowdown) {
DBGOPRINT((obj_t*) pThis, "sleeping %d microseconds as requested by config params\n",
pThis->iDeqSlowdown);
srSleep(pThis->iDeqSlowdown / 1000000, pThis->iDeqSlowdown % 1000000);
}
/* but now cancellation is no longer permitted */
pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &iCancelStateSave);
/* now we are done, but need to re-aquire the mutex */
d_pthread_mutex_lock(pThis->mut);
finalize_it:
dbgprintf("regular consumer finished, iret=%d, szlog %d sz phys %d\n", iRet,
getLogicalQueueSize(pThis), getPhysicalQueueSize(pThis));
RETiRet;
}
/* This is a special consumer to feed the disk-queue in disk-assisted mode.
* When active, our own queue more or less acts as a memory buffer to the disk.
* So this consumer just needs to drain the memory queue and submit entries
* to the disk queue. The disk queue will then call the actual consumer from
* the app point of view (we chain two queues here).
* When this method is entered, the mutex is always locked and needs to be unlocked
* as part of the processing.
* rgerhards, 2008-01-14
*/
static rsRetVal
ConsumerDA(qqueue_t *pThis, wti_t *pWti)
{
int i;
int iCancelStateSave;
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
ISOBJ_TYPE_assert(pWti, wti);
CHKiRet(DequeueForConsumer(pThis, pWti));
/* we now have a non-idle batch of work, so we can release the queue mutex and process it */
d_pthread_mutex_unlock(pThis->mut);
/* at this spot, we may be cancelled */
pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, &iCancelStateSave);
/* iterate over returned results and enqueue them in DA queue */
for(i = 0 ; i < pWti->batch.nElem && !pThis->bShutdownImmediate ; i++) {
/* TODO: we must add a generic "addRef" mechanism, because the disk queue enqueue destructs
* the message. So far, we simply assume we always have msg_t, what currently is always the case.
* rgerhards, 2009-05-28
*/
dbgprintf("DA consumer pushes msg '%s'\n", ((msg_t*)(pWti->batch.pElem[i].pUsrp))->pszRawMsg);
CHKiRet(qqueueEnqObj(pThis->pqDA, eFLOWCTL_NO_DELAY,
(obj_t*)MsgAddRef((msg_t*)(pWti->batch.pElem[i].pUsrp))));
pWti->batch.pElem[i].state = BATCH_STATE_COMM; /* commited to other queue! */
}
/* but now cancellation is no longer permitted */
pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &iCancelStateSave);
/* now we are done, but need to re-aquire the mutex */
d_pthread_mutex_lock(pThis->mut);
finalize_it:
DBGOPRINT((obj_t*) pThis, "DAConsumer returns with iRet %d\n", iRet);
RETiRet;
}
/* must only be called when the queue mutex is locked, else results
* are not stable!
*/
static rsRetVal
qqueueChkStopWrkrDA(qqueue_t *pThis)
{
DEFiRet;
if(pThis->bEnqOnly) {
iRet = RS_RET_TERMINATE_WHEN_IDLE;
}
RETiRet;
}
/* must only be called when the queue mutex is locked, else results
* are not stable!
* If we are a child, we have done our duty when the queue is empty. In that case,
* we can terminate. Version for the regular worker thread.
*/
static rsRetVal
ChkStopWrkrReg(qqueue_t *pThis)
{
DEFiRet;
if(pThis->bEnqOnly) {
iRet = RS_RET_TERMINATE_NOW;
} else if(pThis->pqParent != NULL) {
iRet = RS_RET_TERMINATE_WHEN_IDLE;
}
RETiRet;
}
/* return the configured "deq max at once" interval
* rgerhards, 2009-04-22
*/
static rsRetVal
GetDeqBatchSize(qqueue_t *pThis, int *pVal)
{
DEFiRet;
assert(pVal != NULL);
*pVal = pThis->iDeqBatchSize;
if(pThis->pqParent != NULL) // TODO: check why we actually do this!
*pVal = 16;
RETiRet;
}
/* start up the queue - it must have been constructed and parameters defined
* before.
*/
rsRetVal
qqueueStart(qqueue_t *pThis) /* this is the ConstructionFinalizer */
{
DEFiRet;
uchar pszBuf[64];
size_t lenBuf;
ASSERT(pThis != NULL);
/* we need to do a quick check if our water marks are set plausible. If not,
* we correct the most important shortcomings. TODO: do that!!!! -- rgerhards, 2008-03-14
*/
/* finalize some initializations that could not yet be done because it is
* influenced by properties which might have been set after queueConstruct ()
*/
if(pThis->pqParent == NULL) {
pThis->mut = (pthread_mutex_t *) MALLOC (sizeof (pthread_mutex_t));
pthread_mutex_init(pThis->mut, NULL);
} else {
/* child queue, we need to use parent's mutex */
DBGOPRINT((obj_t*) pThis, "I am a child\n");
pThis->mut = pThis->pqParent->mut;
}
pthread_mutex_init(&pThis->mutThrdMgmt, NULL);
pthread_cond_init (&pThis->condDAReady, NULL);
pthread_cond_init (&pThis->notFull, NULL);
pthread_cond_init (&pThis->notEmpty, NULL);
pthread_cond_init (&pThis->belowFullDlyWtrMrk, NULL);
pthread_cond_init (&pThis->belowLightDlyWtrMrk, NULL);
/* call type-specific constructor */
CHKiRet(pThis->qConstruct(pThis)); /* this also sets bIsDA */
DBGOPRINT((obj_t*) pThis, "type %d, enq-only %d, disk assisted %d, maxFileSz %lld, lqsize %d, pqsize %d, child %d, "
"full delay %d, light delay %d, deq batch size %d starting\n",
pThis->qType, pThis->bEnqOnly, pThis->bIsDA, pThis->iMaxFileSize,
getLogicalQueueSize(pThis), getPhysicalQueueSize(pThis),
pThis->pqParent == NULL ? 0 : 1, pThis->iFullDlyMrk, pThis->iLightDlyMrk,
pThis->iDeqBatchSize);
if(pThis->qType == QUEUETYPE_DIRECT)
FINALIZE; /* with direct queues, we are already finished... */
/* create worker thread pools for regular and DA operation.
*/
lenBuf = snprintf((char*)pszBuf, sizeof(pszBuf), "%s:Reg", obj.GetName((obj_t*) pThis));
CHKiRet(wtpConstruct (&pThis->pWtpReg));
CHKiRet(wtpSetDbgHdr (pThis->pWtpReg, pszBuf, lenBuf));
CHKiRet(wtpSetpfRateLimiter (pThis->pWtpReg, (rsRetVal (*)(void *pUsr)) RateLimiter));
CHKiRet(wtpSetpfChkStopWrkr (pThis->pWtpReg, (rsRetVal (*)(void *pUsr, int)) ChkStopWrkrReg));
CHKiRet(wtpSetpfGetDeqBatchSize (pThis->pWtpReg, (rsRetVal (*)(void *pUsr, int*)) GetDeqBatchSize));
CHKiRet(wtpSetpfDoWork (pThis->pWtpReg, (rsRetVal (*)(void *pUsr, void *pWti)) ConsumerReg));
CHKiRet(wtpSetpfObjProcessed (pThis->pWtpReg, (rsRetVal (*)(void *pUsr, wti_t *pWti)) batchProcessed));
CHKiRet(wtpSetpmutUsr (pThis->pWtpReg, pThis->mut));
CHKiRet(wtpSetpcondBusy (pThis->pWtpReg, &pThis->notEmpty));
CHKiRet(wtpSetiNumWorkerThreads (pThis->pWtpReg, pThis->iNumWorkerThreads));
CHKiRet(wtpSettoWrkShutdown (pThis->pWtpReg, pThis->toWrkShutdown));
CHKiRet(wtpSetpUsr (pThis->pWtpReg, pThis));
CHKiRet(wtpConstructFinalize (pThis->pWtpReg));
/* set up DA system if we have a disk-assisted queue */
if(pThis->bIsDA)
InitDA(pThis, LOCK_MUTEX); /* initiate DA mode */
DBGOPRINT((obj_t*) pThis, "queue finished initialization\n");
/* if the queue already contains data, we need to start the correct number of worker threads. This can be
* the case when a disk queue has been loaded. If we did not start it here, it would never start.
*/
qqueueAdviseMaxWorkers(pThis);
pThis->bQueueStarted = 1;
finalize_it:
RETiRet;
}
/* persist the queue to disk. If we have something to persist, we first
* save the information on the queue properties itself and then we call
* the queue-type specific drivers.
* Variable bIsCheckpoint is set to 1 if the persist is for a checkpoint,
* and 0 otherwise.
* rgerhards, 2008-01-10
*/
static rsRetVal qqueuePersist(qqueue_t *pThis, int bIsCheckpoint)
{
DEFiRet;
strm_t *psQIF = NULL; /* Queue Info File */
uchar pszQIFNam[MAXFNAME];
size_t lenQIFNam;
ASSERT(pThis != NULL);
if(pThis->qType != QUEUETYPE_DISK) {
if(getPhysicalQueueSize(pThis) > 0) {
/* This error code is OK, but we will probably not implement this any time
* The reason is that persistence happens via DA queues. But I would like to
* leave the code as is, as we so have a hook in case we need one.
* -- rgerhards, 2008-01-28
*/
ABORT_FINALIZE(RS_RET_NOT_IMPLEMENTED);
} else
FINALIZE; /* if the queue is empty, we are happy and done... */
}
DBGOPRINT((obj_t*) pThis, "persisting queue to disk, %d entries...\n", getPhysicalQueueSize(pThis));
/* Construct file name */
lenQIFNam = snprintf((char*)pszQIFNam, sizeof(pszQIFNam) / sizeof(uchar), "%s/%s.qi",
(char*) glbl.GetWorkDir(), (char*)pThis->pszFilePrefix);
if((bIsCheckpoint != QUEUE_CHECKPOINT) && (getPhysicalQueueSize(pThis) == 0)) {
if(pThis->bNeedDelQIF) {
unlink((char*)pszQIFNam);
pThis->bNeedDelQIF = 0;
}
/* indicate spool file needs to be deleted */
if(pThis->tVars.disk.pReadDel != NULL) /* may be NULL if we had a startup failure! */
CHKiRet(strm.SetbDeleteOnClose(pThis->tVars.disk.pReadDel, 1));
FINALIZE; /* nothing left to do, so be happy */
}
CHKiRet(strm.Construct(&psQIF));
CHKiRet(strm.SettOperationsMode(psQIF, STREAMMODE_WRITE_TRUNC));
CHKiRet(strm.SetbSync(psQIF, pThis->bSyncQueueFiles));
CHKiRet(strm.SetsType(psQIF, STREAMTYPE_FILE_SINGLE));
CHKiRet(strm.SetFName(psQIF, pszQIFNam, lenQIFNam));
CHKiRet(strm.ConstructFinalize(psQIF));
/* first, write the property bag for ourselfs
* And, surprisingly enough, we currently need to persist only the size of the
* queue. All the rest is re-created with then-current config parameters when the
* queue is re-created. Well, we'll also save the current queue type, just so that
* we know when somebody has changed the queue type... -- rgerhards, 2008-01-11
*/
CHKiRet(obj.BeginSerializePropBag(psQIF, (obj_t*) pThis));
objSerializeSCALAR(psQIF, iQueueSize, INT);
objSerializeSCALAR(psQIF, tVars.disk.sizeOnDisk, INT64);
objSerializeSCALAR(psQIF, tVars.disk.bytesRead, INT64);
CHKiRet(obj.EndSerialize(psQIF));
/* now persist the stream info */
CHKiRet(strm.Serialize(pThis->tVars.disk.pWrite, psQIF));
CHKiRet(strm.Serialize(pThis->tVars.disk.pReadDel, psQIF));
/* tell the input file object that it must not delete the file on close if the queue
* is non-empty - but only if we are not during a simple checkpoint
*/
if(bIsCheckpoint != QUEUE_CHECKPOINT) {
CHKiRet(strm.SetbDeleteOnClose(pThis->tVars.disk.pReadDel, 0));
}
/* we have persisted the queue object. So whenever it comes to an empty queue,
* we need to delete the QIF. Thus, we indicte that need.
*/
pThis->bNeedDelQIF = 1;
finalize_it:
if(psQIF != NULL)
strm.Destruct(&psQIF);
RETiRet;
}
/* check if we need to persist the current queue info. If an
* error occurs, this should be ignored by caller (but we still
* abide to our regular call interface)...
* rgerhards, 2008-01-13
* nUpdates is the number of updates since the last call to this function.
* It may be > 1 due to batches. -- rgerhards, 2009-05-12
*/
static rsRetVal qqueueChkPersist(qqueue_t *pThis, int nUpdates)
{
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
assert(nUpdates >= 0);
if(nUpdates == 0)
FINALIZE;
pThis->iUpdsSincePersist += nUpdates;
if(pThis->iPersistUpdCnt && pThis->iUpdsSincePersist >= pThis->iPersistUpdCnt) {
qqueuePersist(pThis, QUEUE_CHECKPOINT);
pThis->iUpdsSincePersist = 0;
}
finalize_it:
RETiRet;
}
/* persist a queue with all data elements to disk - this is used to handle
* bSaveOnShutdown. We utilize the DA worker to do this. This must only
* be called after all workers have been shut down and if bSaveOnShutdown
* is actually set. Note that this function may potentially run long,
* depending on the queue configuration (e.g. store on remote machine).
* rgerhards, 2009-05-26
*/
static inline rsRetVal
DoSaveOnShutdown(qqueue_t *pThis)
{
struct timespec tTimeout;
rsRetVal iRetLocal;
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
/* we reduce the low water mark, otherwise the DA worker would terminate when
* it is reached.
*/
DBGOPRINT((obj_t*) pThis, "bSaveOnShutdown set, restarting DA worker...\n");
pThis->bShutdownImmediate = 0; /* would termiante the DA worker! */
pThis->iLowWtrMrk = 0;
wtpSetState(pThis->pWtpDA, wtpState_SHUTDOWN); /* shutdown worker (only) when done (was _IMMEDIATE!) */
wtpAdviseMaxWorkers(pThis->pWtpDA, 1); /* restart DA worker */
DBGOPRINT((obj_t*) pThis, "waiting for DA worker to terminate...\n");
timeoutComp(&tTimeout, QUEUE_TIMEOUT_ETERNAL);
/* and run the primary queue's DA worker to drain the queue */
iRetLocal = wtpShutdownAll(pThis->pWtpDA, wtpState_SHUTDOWN, &tTimeout);
DBGOPRINT((obj_t*) pThis, "end queue persistence run, iRet %d, queue size log %d, phys %d\n",
iRetLocal, getLogicalQueueSize(pThis), getPhysicalQueueSize(pThis));
if(iRetLocal != RS_RET_OK) {
DBGOPRINT((obj_t*) pThis, "unexpected iRet state %d after trying to shut down primary queue in disk save mode, "
"continuing, but results are unpredictable\n", iRetLocal);
}
RETiRet;
}
/* destructor for the queue object */
BEGINobjDestruct(qqueue) /* be sure to specify the object type also in END and CODESTART macros! */
CODESTARTobjDestruct(qqueue)
/* shut down all workers
* We do not need to shutdown workers when we are in enqueue-only mode or we are a
* direct queue - because in both cases we have none... ;)
* with a child! -- rgerhards, 2008-01-28
*/
if(pThis->qType != QUEUETYPE_DIRECT && !pThis->bEnqOnly && pThis->pqParent == NULL)
ShutdownWorkers(pThis);
if(pThis->bIsDA && getPhysicalQueueSize(pThis) > 0 && pThis->bSaveOnShutdown) {
CHKiRet(DoSaveOnShutdown(pThis));
}
/* finally destruct our (regular) worker thread pool
* Note: currently pWtpReg is never NULL, but if we optimize our logic, this may happen,
* e.g. when they are not created in enqueue-only mode. We already check the condition
* as this may otherwise be very hard to find once we optimize (and have long forgotten
* about this condition here ;)
* rgerhards, 2008-01-25
*/
if(pThis->qType != QUEUETYPE_DIRECT && pThis->pWtpReg != NULL) {
wtpDestruct(&pThis->pWtpReg);
}
/* Now check if we actually have a DA queue and, if so, destruct it.
* Note that the wtp must be destructed first, it may be in cancel cleanup handler
* *right now* and actually *need* to access the queue object to persist some final
* data (re-queueing case). So we need to destruct the wtp first, which will make
* sure all workers have terminated. Please note that this also generates a situation
* where it is possible that the DA queue has a parent pointer but the parent has
* no WtpDA associated with it - which is perfectly legal thanks to this code here.
*/
if(pThis->pWtpDA != NULL) {
wtpDestruct(&pThis->pWtpDA);
}
if(pThis->pqDA != NULL) {
qqueueDestruct(&pThis->pqDA);
}
/* persist the queue (we always do that - queuePersits() does cleanup if the queue is empty)
* This handler is most important for disk queues, it will finally persist the necessary
* on-disk structures. In theory, other queueing modes may implement their other (non-DA)
* methods of persisting a queue between runs, but in practice all of this is done via
* disk queues and DA mode. Anyhow, it doesn't hurt to know that we could extend it here
* if need arises (what I doubt...) -- rgerhards, 2008-01-25
*/
CHKiRet_Hdlr(qqueuePersist(pThis, QUEUE_NO_CHECKPOINT)) {
DBGOPRINT((obj_t*) pThis, "error %d persisting queue - data lost!\n", iRet);
}
/* finally, clean up some simple things... */
if(pThis->pqParent == NULL) {
/* if we are not a child, we allocated our own mutex, which we now need to destroy */
pthread_mutex_destroy(pThis->mut);
free(pThis->mut);
}
pthread_mutex_destroy(&pThis->mutThrdMgmt);
pthread_cond_destroy(&pThis->condDAReady);
pthread_cond_destroy(&pThis->notFull);
pthread_cond_destroy(&pThis->notEmpty);
pthread_cond_destroy(&pThis->belowFullDlyWtrMrk);
pthread_cond_destroy(&pThis->belowLightDlyWtrMrk);
DESTROY_ATOMIC_HELPER_MUT(pThis->mutQueueSize);
DESTROY_ATOMIC_HELPER_MUT(pThis->mutLogDeq);
/* type-specific destructor */
iRet = pThis->qDestruct(pThis);
free(pThis->pszFilePrefix);
free(pThis->pszSpoolDir);
ENDobjDestruct(qqueue)
/* set the queue's file prefix
* The passed-in string is duplicated. So if the caller does not need
* it any longer, it must free it.
* rgerhards, 2008-01-09
*/
rsRetVal
qqueueSetFilePrefix(qqueue_t *pThis, uchar *pszPrefix, size_t iLenPrefix)
{
DEFiRet;
free(pThis->pszFilePrefix);
pThis->pszFilePrefix = NULL;
if(pszPrefix == NULL) /* just unset the prefix! */
ABORT_FINALIZE(RS_RET_OK);
if((pThis->pszFilePrefix = MALLOC(sizeof(uchar) * iLenPrefix + 1)) == NULL)
ABORT_FINALIZE(RS_RET_OUT_OF_MEMORY);
memcpy(pThis->pszFilePrefix, pszPrefix, iLenPrefix + 1);
pThis->lenFilePrefix = iLenPrefix;
finalize_it:
RETiRet;
}
/* set the queue's maximum file size
* rgerhards, 2008-01-09
*/
rsRetVal
qqueueSetMaxFileSize(qqueue_t *pThis, size_t iMaxFileSize)
{
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
if(iMaxFileSize < 1024) {
ABORT_FINALIZE(RS_RET_VALUE_TOO_LOW);
}
pThis->iMaxFileSize = iMaxFileSize;
finalize_it:
RETiRet;
}
/* enqueue a single data object.
* Note that the queue mutex MUST already be locked when this function is called.
* rgerhards, 2009-06-16
*/
static inline rsRetVal
doEnqSingleObj(qqueue_t *pThis, flowControl_t flowCtlType, void *pUsr)
{
DEFiRet;
struct timespec t;
/* first check if we need to discard this message (which will cause CHKiRet() to exit)
*/
CHKiRet(qqueueChkDiscardMsg(pThis, pThis->iQueueSize, pUsr));
/* handle flow control
* There are two different flow control mechanisms: basic and advanced flow control.
* Basic flow control has always been implemented and protects the queue structures
* in that it makes sure no more data is enqueued than the queue is configured to
* support. Enhanced flow control is being added today. There are some sources which
* can easily be stopped, e.g. a file reader. This is the case because it is unlikely
* that blocking those sources will have negative effects (after all, the file is
* continued to be written). Other sources can somewhat be blocked (e.g. the kernel
* log reader or the local log stream reader): in general, nothing is lost if messages
* from these sources are not picked up immediately. HOWEVER, they can not block for
* an extended period of time, as this either causes message loss or - even worse - some
* other bad effects (e.g. unresponsive system in respect to the main system log socket).
* Finally, there are some (few) sources which can not be blocked at all. UDP syslog is
* a prime example. If a UDP message is not received, it is simply lost. So we can't
* do anything against UDP sockets that come in too fast. The core idea of advanced
* flow control is that we take into account the different natures of the sources and
* select flow control mechanisms that fit these needs. This also means, in the end
* result, that non-blockable sources like UDP syslog receive priority in the system.
* It's a side effect, but a good one ;) -- rgerhards, 2008-03-14
*/
if(flowCtlType == eFLOWCTL_FULL_DELAY) {
while(pThis->iQueueSize >= pThis->iFullDlyMrk) {
DBGOPRINT((obj_t*) pThis, "enqueueMsg: FullDelay mark reached for full delayable message - blocking.\n");
pthread_cond_wait(&pThis->belowFullDlyWtrMrk, pThis->mut); /* TODO error check? But what do then? */
}
} else if(flowCtlType == eFLOWCTL_LIGHT_DELAY) {
if(pThis->iQueueSize >= pThis->iLightDlyMrk) {
DBGOPRINT((obj_t*) pThis, "enqueueMsg: LightDelay mark reached for light delayable message - blocking a bit.\n");
timeoutComp(&t, 1000); /* 1000 millisconds = 1 second TODO: make configurable */
pthread_cond_timedwait(&pThis->belowLightDlyWtrMrk, pThis->mut, &t); /* TODO error check? But what do then? */
}
}
/* from our regular flow control settings, we are now ready to enqueue the object.
* However, we now need to do a check if the queue permits to add more data. If that
* is not the case, basic flow control enters the field, which means we wait for
* the queue to become ready or drop the new message. -- rgerhards, 2008-03-14
*/
while( (pThis->iMaxQueueSize > 0 && pThis->iQueueSize >= pThis->iMaxQueueSize)
|| (pThis->qType == QUEUETYPE_DISK && pThis->sizeOnDiskMax != 0
&& pThis->tVars.disk.sizeOnDisk > pThis->sizeOnDiskMax)) {
DBGOPRINT((obj_t*) pThis, "enqueueMsg: queue FULL - waiting to drain.\n");
timeoutComp(&t, pThis->toEnq);
// TODO : handle enqOnly => discard!
if(pthread_cond_timedwait(&pThis->notFull, pThis->mut, &t) != 0) {
DBGOPRINT((obj_t*) pThis, "enqueueMsg: cond timeout, dropping message!\n");
objDestruct(pUsr);
ABORT_FINALIZE(RS_RET_QUEUE_FULL);
}
}
/* and finally enqueue the message */
CHKiRet(qqueueAdd(pThis, pUsr));
finalize_it:
RETiRet;
}
/* enqueue multiple user data elements at once. The aim is to provide a faster interface
* for object submission. Uses the multi_submit_t helper object.
* Please note that this function is not cancel-safe and consequently
* sets the calling thread's cancelibility state to PTHREAD_CANCEL_DISABLE
* during its execution. If that is not done, race conditions occur if the
* thread is canceled (most important use case is input module termination).
* rgerhards, 2009-06-16
*/
rsRetVal
qqueueMultiEnqObj(qqueue_t *pThis, multi_submit_t *pMultiSub)
{
int iCancelStateSave;
int i;
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
assert(pMultiSub != NULL);
if(pThis->qType != QUEUETYPE_DIRECT) {
pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &iCancelStateSave);
d_pthread_mutex_lock(pThis->mut);
}
for(i = 0 ; i < pMultiSub->nElem ; ++i) {
CHKiRet(doEnqSingleObj(pThis, pMultiSub->ppMsgs[i]->flowCtlType, (void*)pMultiSub->ppMsgs[i]));
}
qqueueChkPersist(pThis, pMultiSub->nElem);
finalize_it:
if(pThis->qType != QUEUETYPE_DIRECT) {
/* make sure at least one worker is running. */
qqueueAdviseMaxWorkers(pThis);
/* and release the mutex */
d_pthread_mutex_unlock(pThis->mut);
pthread_setcancelstate(iCancelStateSave, NULL);
DBGOPRINT((obj_t*) pThis, "MultiEnqObj advised worker start\n");
}
RETiRet;
}
/* enqueue a new user data element
* Enqueues the new element and awakes worker thread.
*/
rsRetVal
qqueueEnqObj(qqueue_t *pThis, flowControl_t flowCtlType, void *pUsr)
{
DEFiRet;
int iCancelStateSave;
ISOBJ_TYPE_assert(pThis, qqueue);
if(pThis->qType != QUEUETYPE_DIRECT) {
pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &iCancelStateSave);
d_pthread_mutex_lock(pThis->mut);
}
CHKiRet(doEnqSingleObj(pThis, flowCtlType, pUsr));
qqueueChkPersist(pThis, 1);
finalize_it:
if(pThis->qType != QUEUETYPE_DIRECT) {
/* make sure at least one worker is running. */
qqueueAdviseMaxWorkers(pThis);
/* and release the mutex */
d_pthread_mutex_unlock(pThis->mut);
pthread_setcancelstate(iCancelStateSave, NULL);
DBGOPRINT((obj_t*) pThis, "EnqueueMsg advised worker start\n");
}
RETiRet;
}
/* some simple object access methods */
DEFpropSetMeth(qqueue, bSyncQueueFiles, int)
DEFpropSetMeth(qqueue, iPersistUpdCnt, int)
DEFpropSetMeth(qqueue, iDeqtWinFromHr, int)
DEFpropSetMeth(qqueue, iDeqtWinToHr, int)
DEFpropSetMeth(qqueue, toQShutdown, long)
DEFpropSetMeth(qqueue, toActShutdown, long)
DEFpropSetMeth(qqueue, toWrkShutdown, long)
DEFpropSetMeth(qqueue, toEnq, long)
DEFpropSetMeth(qqueue, iHighWtrMrk, int)
DEFpropSetMeth(qqueue, iLowWtrMrk, int)
DEFpropSetMeth(qqueue, iDiscardMrk, int)
DEFpropSetMeth(qqueue, iFullDlyMrk, int)
DEFpropSetMeth(qqueue, iDiscardSeverity, int)
DEFpropSetMeth(qqueue, bIsDA, int)
DEFpropSetMeth(qqueue, iMinMsgsPerWrkr, int)
DEFpropSetMeth(qqueue, bSaveOnShutdown, int)
DEFpropSetMeth(qqueue, pUsr, void*)
DEFpropSetMeth(qqueue, iDeqSlowdown, int)
DEFpropSetMeth(qqueue, iDeqBatchSize, int)
DEFpropSetMeth(qqueue, sizeOnDiskMax, int64)
/* This function can be used as a generic way to set properties. Only the subset
* of properties required to read persisted property bags is supported. This
* functions shall only be called by the property bag reader, thus it is static.
* rgerhards, 2008-01-11
*/
#define isProp(name) !rsCStrSzStrCmp(pProp->pcsName, (uchar*) name, sizeof(name) - 1)
static rsRetVal qqueueSetProperty(qqueue_t *pThis, var_t *pProp)
{
DEFiRet;
ISOBJ_TYPE_assert(pThis, qqueue);
ASSERT(pProp != NULL);
if(isProp("iQueueSize")) {
pThis->iQueueSize = pProp->val.num;
} else if(isProp("tVars.disk.sizeOnDisk")) {
pThis->tVars.disk.sizeOnDisk = pProp->val.num;
} else if(isProp("tVars.disk.bytesRead")) {
pThis->tVars.disk.bytesRead = pProp->val.num;
} else if(isProp("qType")) {
if(pThis->qType != pProp->val.num)
ABORT_FINALIZE(RS_RET_QTYPE_MISMATCH);
}
finalize_it:
RETiRet;
}
#undef isProp
/* dummy */
rsRetVal qqueueQueryInterface(void) { return RS_RET_NOT_IMPLEMENTED; }
/* Initialize the stream class. Must be called as the very first method
* before anything else is called inside this class.
* rgerhards, 2008-01-09
*/
BEGINObjClassInit(qqueue, 1, OBJ_IS_CORE_MODULE)
/* request objects we use */
CHKiRet(objUse(glbl, CORE_COMPONENT));
CHKiRet(objUse(strm, CORE_COMPONENT));
CHKiRet(objUse(datetime, CORE_COMPONENT));
CHKiRet(objUse(errmsg, CORE_COMPONENT));
/* now set our own handlers */
OBJSetMethodHandler(objMethod_SETPROPERTY, qqueueSetProperty);
ENDObjClassInit(qqueue)
/* vi:set ai:
*/
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