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/* msg.h
* Header file for all msg-related functions.
*
* File begun on 2007-07-13 by RGerhards (extracted from syslogd.c)
*
* Copyright 2007 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 "template.h" /* this is a quirk, but these two are too interdependant... */
#ifndef MSG_H_INCLUDED
#define MSG_H_INCLUDED 1
#include <pthread.h>
#include "obj.h"
#include "syslogd-types.h"
#include "template.h"
/* rgerhards 2004-11-08: The following structure represents a
* syslog message.
*
* Important Note:
* The message object is used for multiple purposes (once it
* has been created). Once created, it actully is a read-only
* object (though we do not specifically express this). In order
* to avoid multiple copies of the same object, we use a
* reference counter. This counter is set to 1 by the constructer
* and increased by 1 with a call to MsgAddRef(). The destructor
* checks the reference count. If it is more than 1, only the counter
* will be decremented. If it is 1, however, the object is actually
* destroyed. To make this work, it is vital that MsgAddRef() is
* called each time a "copy" is stored somewhere.
*/
struct msg {
BEGINobjInstance; /* Data to implement generic object - MUST be the first data element! */
pthread_mutexattr_t mutAttr;
pthread_mutex_t mut;
int iRefCount; /* reference counter (0 = unused) */
short bParseHOSTNAME; /* should the hostname be parsed from the message? */
/* background: the hostname is not present on "regular" messages
* received via UNIX domain sockets from the same machine. However,
* it is available when we have a forwarder (e.g. rfc3195d) using local
* sockets. All in all, the parser would need parse templates, that would
* resolve all these issues... rgerhards, 2005-10-06
*/
flowControl_t flowCtlType; /**< type of flow control we can apply, for enqueueing, needs not to be persisted because
once data has entered the queue, this property is no longer needed. */
short iSeverity; /* the severity 0..7 */
uchar *pszSeverity; /* severity as string... */
int iLenSeverity; /* ... and its length. */
uchar *pszSeverityStr; /* severity name... */
int iLenSeverityStr; /* ... and its length. */
short iFacility; /* Facility code 0 .. 23*/
uchar *pszFacility; /* Facility as string... */
int iLenFacility; /* ... and its length. */
uchar *pszFacilityStr; /* facility name... */
int iLenFacilityStr; /* ... and its length. */
uchar *pszPRI; /* the PRI as a string */
int iLenPRI; /* and its length */
uchar *pszRawMsg; /* message as it was received on the
* wire. This is important in case we
* need to preserve cryptographic verifiers.
*/
int iLenRawMsg; /* length of raw message */
uchar *pszMSG; /* the MSG part itself */
int iLenMSG; /* Length of the MSG part */
uchar *pszUxTradMsg; /* the traditional UNIX message */
int iLenUxTradMsg;/* Length of the traditional UNIX message */
uchar *pszTAG; /* pointer to tag value */
int iLenTAG; /* Length of the TAG part */
uchar *pszHOSTNAME; /* HOSTNAME from syslog message */
int iLenHOSTNAME; /* Length of HOSTNAME */
uchar *pszRcvFrom; /* System message was received from */
int iLenRcvFrom; /* Length of pszRcvFrom */
uchar *pszRcvFromIP; /* IP of system message was received from */
int iLenRcvFromIP; /* Length of pszRcvFromIP */
short iProtocolVersion;/* protocol version of message received 0 - legacy, 1 syslog-protocol) */
cstr_t *pCSProgName; /* the (BSD) program name */
cstr_t *pCSStrucData;/* STRUCTURED-DATA */
cstr_t *pCSAPPNAME; /* APP-NAME */
cstr_t *pCSPROCID; /* PROCID */
cstr_t *pCSMSGID; /* MSGID */
struct syslogTime tRcvdAt;/* time the message entered this program */
char *pszRcvdAt3164; /* time as RFC3164 formatted string (always 15 charcters) */
char *pszRcvdAt3339; /* time as RFC3164 formatted string (32 charcters at most) */
char *pszRcvdAt_SecFrac;/* time just as fractional seconds (6 charcters) */
char *pszRcvdAt_MySQL; /* rcvdAt as MySQL formatted string (always 14 charcters) */
char *pszRcvdAt_PgSQL; /* rcvdAt as PgSQL formatted string (always 21 characters) */
struct syslogTime tTIMESTAMP;/* (parsed) value of the timestamp */
char *pszTIMESTAMP3164; /* TIMESTAMP as RFC3164 formatted string (always 15 charcters) */
char *pszTIMESTAMP3339; /* TIMESTAMP as RFC3339 formatted string (32 charcters at most) */
char *pszTIMESTAMP_MySQL;/* TIMESTAMP as MySQL formatted string (always 14 charcters) */
char *pszTIMESTAMP_PgSQL;/* TIMESTAMP as PgSQL formatted string (always 21 characters) */
char *pszTIMESTAMP_SecFrac;/* TIMESTAMP fractional seconds (always 6 characters) */
int msgFlags; /* flags associated with this message */
};
/* function prototypes
*/
PROTOTYPEObjClassInit(msg);
char* getProgramName(msg_t*);
rsRetVal msgConstruct(msg_t **ppThis);
rsRetVal msgDestruct(msg_t **ppM);
msg_t* MsgDup(msg_t* pOld);
msg_t *MsgAddRef(msg_t *pM);
void setProtocolVersion(msg_t *pM, int iNewVersion);
int getProtocolVersion(msg_t *pM);
char *getProtocolVersionString(msg_t *pM);
int getMSGLen(msg_t *pM);
char *getRawMsg(msg_t *pM);
char *getUxTradMsg(msg_t *pM);
char *getMSG(msg_t *pM);
char *getPRI(msg_t *pM);
int getPRIi(msg_t *pM);
char *getTimeReported(msg_t *pM, enum tplFormatTypes eFmt);
char *getTimeGenerated(msg_t *pM, enum tplFormatTypes eFmt);
char *getSeverity(msg_t *pM);
char *getSeverityStr(msg_t *pM);
char *getFacility(msg_t *pM);
char *getFacilityStr(msg_t *pM);
rsRetVal MsgSetAPPNAME(msg_t *pMsg, char* pszAPPNAME);
char *getAPPNAME(msg_t *pM);
rsRetVal MsgSetPROCID(msg_t *pMsg, char* pszPROCID);
int getPROCIDLen(msg_t *pM);
char *getPROCID(msg_t *pM);
rsRetVal MsgSetMSGID(msg_t *pMsg, char* pszMSGID);
void MsgAssignTAG(msg_t *pMsg, uchar *pBuf);
void MsgSetTAG(msg_t *pMsg, char* pszTAG);
rsRetVal MsgSetFlowControlType(msg_t *pMsg, flowControl_t eFlowCtl);
char *getTAG(msg_t *pM);
int getHOSTNAMELen(msg_t *pM);
char *getHOSTNAME(msg_t *pM);
char *getRcvFrom(msg_t *pM);
rsRetVal MsgSetStructuredData(msg_t *pMsg, char* pszStrucData);
char *getStructuredData(msg_t *pM);
int getProgramNameLen(msg_t *pM);
char *getProgramName(msg_t *pM);
void MsgSetRcvFrom(msg_t *pMsg, char* pszRcvFrom);
rsRetVal MsgSetRcvFromIP(msg_t *pMsg, uchar* pszRcvFromIP);
void MsgAssignHOSTNAME(msg_t *pMsg, char *pBuf);
void MsgSetHOSTNAME(msg_t *pMsg, char* pszHOSTNAME);
int MsgSetUxTradMsg(msg_t *pMsg, char* pszUxTradMsg);
void MsgSetMSG(msg_t *pMsg, char* pszMSG);
void MsgSetRawMsg(msg_t *pMsg, char* pszRawMsg);
void moveHOSTNAMEtoTAG(msg_t *pM);
char *getMSGID(msg_t *pM);
char *MsgGetProp(msg_t *pMsg, struct templateEntry *pTpe,
cstr_t *pCSPropName, unsigned short *pbMustBeFreed);
char *textpri(char *pRes, size_t pResLen, int pri);
rsRetVal msgGetMsgVar(msg_t *pThis, cstr_t *pstrPropName, var_t **ppVar);
rsRetVal MsgEnableThreadSafety(void);
/* The MsgPrepareEnqueue() function is a macro for performance reasons.
* It needs one global variable to work. This is acceptable, as it gains
* us quite some performance and is fully abstracted using this header file.
* The important thing is that no other module is permitted to actually
* access that global variable! -- rgerhards, 2008-01-05
*/
extern void (*funcMsgPrepareEnqueue)(msg_t *pMsg);
#define MsgPrepareEnqueue(pMsg) funcMsgPrepareEnqueue(pMsg)
#endif /* #ifndef MSG_H_INCLUDED */
/*
* vi:set ai:
*/
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