/* Definition of the worker thread pool (wtp) object.
*
* Copyright 2008 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 .
*
* 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.
*/
#ifndef WTP_H_INCLUDED
#define WTP_H_INCLUDED
#include
#include "obj.h"
/* commands and states for worker threads. */
typedef enum {
eWRKTHRD_STOPPED = 0, /* worker thread is not running (either actually never ran or was shut down) */
eWRKTHRD_TERMINATING = 1,/* worker thread has shut down, but some finalzing is still needed */
/* ALL active states MUST be numerically higher than eWRKTHRD_TERMINATED and NONE must be lower! */
eWRKTHRD_RUN_CREATED = 2,/* worker thread has been created, but not yet begun initialization (prob. not yet scheduled) */
eWRKTHRD_RUN_INIT = 3, /* worker thread is initializing, but not yet fully running */
eWRKTHRD_RUNNING = 4, /* worker thread is up and running and shall continue to do so */
eWRKTHRD_SHUTDOWN = 5, /* worker thread is running but shall terminate when wtp is empty */
eWRKTHRD_SHUTDOWN_IMMEDIATE = 6/* worker thread is running but shall terminate even if wtp is full */
/* SHUTDOWN_IMMEDIATE MUST alsways be the numerically highest state! */
} qWrkCmd_t;
/* possible states of a worker thread pool */
typedef enum {
wtpState_RUNNING = 0, /* runs in regular mode */
wtpState_SHUTDOWN = 1, /* worker threads shall shutdown when idle */
wtpState_SHUTDOWN_IMMEDIATE = 2 /* worker threads shall shutdown ASAP, even if not idle */
} wtpState_t;
/* the worker thread pool (wtp) object */
typedef struct wtp_s {
BEGINobjInstance;
wtpState_t wtpState;
int iNumWorkerThreads;/* number of worker threads to use */
int iCurNumWrkThrd;/* current number of active worker threads */
struct wti_s **pWrkr;/* array with control structure for the worker thread(s) associated with this wtp */
int toWrkShutdown; /* timeout for idle workers in ms, -1 means indefinite (0 is immediate) */
bool bInactivityGuard;/* prevents inactivity due to race condition */
rsRetVal (*pConsumer)(void *); /* user-supplied consumer function for dewtpd messages */
/* synchronization variables */
pthread_mutex_t mutThrdShutdwn; /* mutex to guard thread shutdown processing */
pthread_mutex_t mut; /* mutex for the wtp's thread management */
pthread_cond_t condThrdTrm;/* signalled when threads terminate */
int bThrdStateChanged; /* at least one thread state has changed if 1 */
/* end sync variables */
/* user objects */
void *pUsr; /* pointer to user object */
pthread_mutex_t *pmutUsr;
pthread_cond_t *pcondBusy; /* condition the user will signal "busy again, keep runing" on (awakes worker) */
rsRetVal (*pfChkStopWrkr)(void *pUsr, int);
rsRetVal (*pfRateLimiter)(void *pUsr);
rsRetVal (*pfIsIdle)(void *pUsr, int);
rsRetVal (*pfDoWork)(void *pUsr, void *pWti, int);
rsRetVal (*pfOnIdle)(void *pUsr, int);
rsRetVal (*pfOnWorkerCancel)(void *pUsr, void*pWti);
rsRetVal (*pfOnWorkerStartup)(void *pUsr);
rsRetVal (*pfOnWorkerShutdown)(void *pUsr);
/* end user objects */
uchar *pszDbgHdr; /* header string for debug messages */
} wtp_t;
/* some symbolic constants for easier reference */
/* prototypes */
rsRetVal wtpConstruct(wtp_t **ppThis);
rsRetVal wtpConstructFinalize(wtp_t *pThis);
rsRetVal wtpDestruct(wtp_t **ppThis);
rsRetVal wtpAdviseMaxWorkers(wtp_t *pThis, int nMaxWrkr);
rsRetVal wtpProcessThrdChanges(wtp_t *pThis);
rsRetVal wtpSetInactivityGuard(wtp_t *pThis, int bNewState, int bLockMutex);
rsRetVal wtpChkStopWrkr(wtp_t *pThis, int bLockMutex, int bLockUsrMutex);
rsRetVal wtpSetState(wtp_t *pThis, wtpState_t iNewState);
rsRetVal wtpWakeupWrkr(wtp_t *pThis);
rsRetVal wtpWakeupAllWrkr(wtp_t *pThis);
rsRetVal wtpCancelAll(wtp_t *pThis);
rsRetVal wtpSetDbgHdr(wtp_t *pThis, uchar *pszMsg, size_t lenMsg);
rsRetVal wtpSignalWrkrTermination(wtp_t *pWtp);
rsRetVal wtpShutdownAll(wtp_t *pThis, wtpState_t tShutdownCmd, struct timespec *ptTimeout);
int wtpGetCurNumWrkr(wtp_t *pThis, int bLockMutex);
PROTOTYPEObjClassInit(wtp);
PROTOTYPEpropSetMethFP(wtp, pfChkStopWrkr, rsRetVal(*pVal)(void*, int));
PROTOTYPEpropSetMethFP(wtp, pfRateLimiter, rsRetVal(*pVal)(void*));
PROTOTYPEpropSetMethFP(wtp, pfIsIdle, rsRetVal(*pVal)(void*, int));
PROTOTYPEpropSetMethFP(wtp, pfDoWork, rsRetVal(*pVal)(void*, void*, int));
PROTOTYPEpropSetMethFP(wtp, pfOnIdle, rsRetVal(*pVal)(void*, int));
PROTOTYPEpropSetMethFP(wtp, pfOnWorkerCancel, rsRetVal(*pVal)(void*,void*));
PROTOTYPEpropSetMethFP(wtp, pfOnWorkerStartup, rsRetVal(*pVal)(void*));
PROTOTYPEpropSetMethFP(wtp, pfOnWorkerShutdown, rsRetVal(*pVal)(void*));
PROTOTYPEpropSetMeth(wtp, toWrkShutdown, long);
PROTOTYPEpropSetMeth(wtp, wtpState, wtpState_t);
PROTOTYPEpropSetMeth(wtp, iMaxWorkerThreads, int);
PROTOTYPEpropSetMeth(wtp, pUsr, void*);
PROTOTYPEpropSetMeth(wtp, iNumWorkerThreads, int);
PROTOTYPEpropSetMethPTR(wtp, pmutUsr, pthread_mutex_t);
PROTOTYPEpropSetMethPTR(wtp, pcondBusy, pthread_cond_t);
#endif /* #ifndef WTP_H_INCLUDED */