/*---------------------------------------------------------------------------- * File: RRCMMISC.C * Product: RTP/RTCP implementation. * Description: Provides common RTP/RTCP support functionality. * * * INTEL Corporation Proprietary Information * This listing is supplied under the terms of a license agreement with * Intel Corporation and may not be copied nor disclosed except in * accordance with the terms of that agreement. * Copyright (c) 1995 Intel Corporation. *--------------------------------------------------------------------------*/ #include "rrcm.h" /*--------------------------------------------------------------------------- / Global Variables /--------------------------------------------------------------------------*/ /*--------------------------------------------------------------------------- / External Variables /--------------------------------------------------------------------------*/ #ifdef ENABLE_ISDM2 extern KEY_HANDLE hRRCMRootKey; extern ISDM2 Isdm2; #endif extern RRCM_WS RRCMws; #ifdef _DEBUG extern char debug_string[]; #endif #ifdef ISRDBG extern WORD ghISRInst; #endif /*-------------------------------------------------------------------------- * Function : searchForMySSRC * Description: Find the SSRC for this stream. * * Input : pSSRC : -> to the SSRC entry * RTPSocket : RTP socket descriptor * * Return: NULL ==> Session not found. * Buffer Address ==> OK, Session ptr returned --------------------------------------------------------------------------*/ PSSRC_ENTRY searchForMySSRC(PSSRC_ENTRY pSSRC, SOCKET RTPSocket) { PSSRC_ENTRY pRRCMSession; IN_OUT_STR ("RTP : Enter searchForMySSRC()\n"); for (pRRCMSession = NULL; (pSSRC != NULL); pSSRC = (PSSRC_ENTRY)pSSRC->SSRCList.prev) { if (pSSRC->RTPsd == RTPSocket) { pRRCMSession = pSSRC; break; } } IN_OUT_STR ("RTP : Exit searchForMySSRC()\n"); return (pRRCMSession); } /*-------------------------------------------------------------------------- * Function : searchforSSRCatHead * Description: Search through linked list of RTCP entries starting at the * head of the list. * * Input : pSSRC : -> to the SSRC entry * ssrc : ssrc to look for * * Return: NULL ==> Session not found. * Non-NULL ==> OK, SSRC entry found --------------------------------------------------------------------------*/ PSSRC_ENTRY searchforSSRCatHead(PSSRC_ENTRY pSSRC, DWORD ssrc) { PSSRC_ENTRY pRRCMSession; IN_OUT_STR ("RTP : Enter searchForMySSRCatHead()\n"); for (pRRCMSession = NULL; (pSSRC != NULL) && (pRRCMSession == NULL) && (ssrc <= pSSRC->SSRC); pSSRC = (PSSRC_ENTRY)pSSRC->SSRCList.prev) { if (pSSRC->SSRC == ssrc) { pRRCMSession = pSSRC; } } IN_OUT_STR ("RTP : Exit searchForMySSRCatHead()\n"); return (pRRCMSession); } /*-------------------------------------------------------------------------- * Function : searchforSSRCatTail * Description: Search through linked list of RTCP entries starting at the * tail of the list. * * Input : pSSRC : -> to the SSRC entry * ssrc : SSRC to look for * * Return: NULL ==> Session not found. * Non-NULL ==> OK, SSRC entry found --------------------------------------------------------------------------*/ PSSRC_ENTRY searchforSSRCatTail(PSSRC_ENTRY pSSRC, DWORD ssrc) { PSSRC_ENTRY pRRCMSession; IN_OUT_STR ("RTP : Enter searchForMySSRCatTail()\n"); for (pRRCMSession = NULL; (pSSRC != NULL) && (pRRCMSession == NULL) && (ssrc >= pSSRC->SSRC); pSSRC = (PSSRC_ENTRY)pSSRC->SSRCList.next) { if (pSSRC->SSRC == ssrc) { pRRCMSession = pSSRC; } } IN_OUT_STR ("RTP : Exit searchForMySSRCatTail()\n"); return (pRRCMSession); } /*--------------------------------------------------------------------------- * Function : saveNetworkAddress * Description: Saves the received or local network Address in the local * context. * * Input : pSSRCEntry : -> to the SSRC entry * pNetAddr : -> to the network address * addrLen : Address length * * Return: OK: RRCM_NoError --------------------------------------------------------------------------*/ DWORD saveNetworkAddress (PSSRC_ENTRY pSSRC, PSOCKADDR pNetAddr, int addrLen) { IN_OUT_STR ("RTP : Enter saveNetworkAddress()\n"); pSSRC->dwSSRCStatus |= NETWK_ADDR_UPDATED; pSSRC->fromLen = addrLen; memcpy (&pSSRC->from, pNetAddr, addrLen); IN_OUT_STR ("RTP : Exit saveNetworkAddress()\n"); return RRCM_NoError; } /*--------------------------------------------------------------------------- * Function : updateRTCPDestinationAddress * Description: The applicatino updates the RTCP destination address * * Input : hRTPSess : RTP session * pAddr : -> to address structure of RTCP information * addrLen : Address length * * Return: RRCM_NoError = OK. * Otherwise(!=0) = Check RRCM.h file for references. --------------------------------------------------------------------------*/ DWORD WINAPI updateRTCPDestinationAddress (HANDLE hRTPSess, PSOCKADDR pRtcpAddr, int addrLen) { PRTP_SESSION pRTPSession = (PRTP_SESSION) hRTPSess; PRTCP_SESSION pRTCPses; #ifdef ENABLE_ISDM2 PSSRC_ENTRY pSSRC; #endif IN_OUT_STR ("RTP : Enter updateRTCPDestinationAddress()\n"); if (pRTPSession == NULL) { RRCM_DBG_MSG ("RTP : ERROR - Invalid RTP session", 0, __FILE__, __LINE__, DBG_CRITICAL); IN_OUT_STR ("RTP : Exit updateRTCPDestinationAddress()\n"); return (MAKE_RRCM_ERROR(RRCMError_RTPInvalidSession)); } // get the RTCP session pRTCPses = pRTPSession->pRTCPSession; if (pRTCPses == NULL) { RRCM_DBG_MSG ("RTP : ERROR - Invalid RTCP session", 0, __FILE__, __LINE__, DBG_CRITICAL); IN_OUT_STR ("RTP : Exit updateRTCPDestinationAddress()\n"); return (MAKE_RRCM_ERROR(RRCMError_RTCPInvalidSession)); } if (!(pRTCPses->dwSessionStatus & RTCP_DEST_LEARNED)) { pRTCPses->dwSessionStatus |= RTCP_DEST_LEARNED; pRTCPses->toLen = addrLen; memcpy (&pRTCPses->toBfr, pRtcpAddr, addrLen); // register our Xmt SSRC - Rcvd one will be found later #ifdef ENABLE_ISDM2 if (Isdm2.hISDMdll) { pSSRC = (PSSRC_ENTRY)pRTCPses->XmtSSRCList.prev; if (pSSRC != NULL) registerSessionToISDM (pSSRC, pRTCPses, &Isdm2); } #endif } IN_OUT_STR ("RTP : Exit updateRTCPDestinationAddress()\n"); return RRCM_NoError; } /*--------------------------------------------------------------------------- * Function : updateSSRCentry * Description: The application updates some of the SSRC information * * Input : RTPsd : RTP socket descriptor * updateType : Type of update desired * updateInfo : Update information * misc : Miscelleanous information * * Return: RRCM_NoError = OK. * Otherwise(!=0) = Check RRCM.h file for references. --------------------------------------------------------------------------*/ HRESULT WINAPI updateSSRCentry ( HANDLE hRTPSess, SOCKET RTPsd, DWORD updateType, DWORD_PTR updateInfo, DWORD_PTR misc) { PRTP_SESSION pRTPSession = (PRTP_SESSION) hRTPSess; PRTCP_SESSION pRTCPses; PSSRC_ENTRY pSSRC; PLINK_LIST pTmp; PSDES_DATA pSdes; IN_OUT_STR ("RTP : Enter updateRTCPSdes ()\n"); if (pRTPSession == NULL) { RRCM_DBG_MSG ("RTP : ERROR - Invalid RTP session", 0, __FILE__, __LINE__, DBG_CRITICAL); IN_OUT_STR ("RTP : Exit updateRTCPSdes ()\n"); return (MAKE_RRCM_ERROR(RRCMError_RTPInvalidSession)); } // get the RTCP session pRTCPses = pRTPSession->pRTCPSession; if (pRTCPses == NULL) { RRCM_DBG_MSG ("RTP : ERROR - Invalid RTCP session", 0, __FILE__, __LINE__, DBG_CRITICAL); IN_OUT_STR ("RTP : Exit updateRTCPSdes ()\n"); return (MAKE_RRCM_ERROR(RRCMError_RTCPInvalidSession)); } // search for the socket descriptor (unique per session) // walk through the list from the tail pTmp = (PLINK_LIST)pRTCPses->XmtSSRCList.prev; while (pTmp) { if (((PSSRC_ENTRY)pTmp)->RTPsd == RTPsd) { // lock access to this entry EnterCriticalSection (&((PSSRC_ENTRY)pTmp)->critSect); pSSRC = (PSSRC_ENTRY)pTmp; switch (updateType) { case RRCM_UPDATE_SDES: // update the SDES pSdes = (PSDES_DATA)updateInfo; switch (pSdes->dwSdesType) { case RTCP_SDES_CNAME: pSSRC->cnameInfo.dwSdesLength = pSdes->dwSdesLength; memcpy (pSSRC->cnameInfo.sdesBfr, pSdes->sdesBfr, pSdes->dwSdesLength); pSSRC->cnameInfo.dwSdesFrequency = frequencyToPckt (pSdes->dwSdesFrequency); pSSRC->cnameInfo.dwSdesEncrypted = pSdes->dwSdesEncrypted; break; case RTCP_SDES_NAME: pSSRC->nameInfo.dwSdesLength = pSdes->dwSdesLength; memcpy (pSSRC->nameInfo.sdesBfr, pSdes->sdesBfr, pSdes->dwSdesLength); pSSRC->nameInfo.dwSdesFrequency = frequencyToPckt (pSdes->dwSdesFrequency); pSSRC->nameInfo.dwSdesEncrypted = pSdes->dwSdesEncrypted; break; case RTCP_SDES_EMAIL: pSSRC->emailInfo.dwSdesLength = pSdes->dwSdesLength; memcpy (pSSRC->emailInfo.sdesBfr, pSdes->sdesBfr, pSdes->dwSdesLength); pSSRC->emailInfo.dwSdesFrequency = frequencyToPckt (pSdes->dwSdesFrequency); pSSRC->emailInfo.dwSdesEncrypted = pSdes->dwSdesEncrypted; break; case RTCP_SDES_PHONE: pSSRC->phoneInfo.dwSdesLength = pSdes->dwSdesLength; memcpy (pSSRC->phoneInfo.sdesBfr, pSdes->sdesBfr, pSdes->dwSdesLength); pSSRC->phoneInfo.dwSdesFrequency = frequencyToPckt (pSdes->dwSdesFrequency); pSSRC->phoneInfo.dwSdesEncrypted = pSdes->dwSdesEncrypted; break; case RTCP_SDES_LOC: pSSRC->locInfo.dwSdesLength = pSdes->dwSdesLength; memcpy (pSSRC->locInfo.sdesBfr, pSdes->sdesBfr, pSdes->dwSdesLength); pSSRC->locInfo.dwSdesFrequency = frequencyToPckt (pSdes->dwSdesFrequency); pSSRC->locInfo.dwSdesEncrypted = pSdes->dwSdesEncrypted; break; case RTCP_SDES_TOOL: pSSRC->toolInfo.dwSdesLength = pSdes->dwSdesLength; memcpy (pSSRC->toolInfo.sdesBfr, pSdes->sdesBfr, pSdes->dwSdesLength); pSSRC->toolInfo.dwSdesFrequency = frequencyToPckt (pSdes->dwSdesFrequency); pSSRC->toolInfo.dwSdesEncrypted = pSdes->dwSdesEncrypted; break; case RTCP_SDES_TXT: pSSRC->txtInfo.dwSdesLength = pSdes->dwSdesLength; memcpy (pSSRC->txtInfo.sdesBfr, pSdes->sdesBfr, pSdes->dwSdesLength); pSSRC->txtInfo.dwSdesFrequency = frequencyToPckt (pSdes->dwSdesFrequency); pSSRC->txtInfo.dwSdesEncrypted = pSdes->dwSdesEncrypted; break; case RTCP_SDES_PRIV: pSSRC->privInfo.dwSdesLength = pSdes->dwSdesLength; memcpy (pSSRC->privInfo.sdesBfr, pSdes->sdesBfr, pSdes->dwSdesLength); pSSRC->privInfo.dwSdesFrequency = frequencyToPckt (pSdes->dwSdesFrequency); pSSRC->privInfo.dwSdesEncrypted = pSdes->dwSdesEncrypted; break; } break; case RRCM_UPDATE_STREAM_FREQUENCY: // upate the stream clocking frequency pSSRC->dwStreamClock = (DWORD)updateInfo; break; case RRCM_UPDATE_RTCP_STREAM_MIN_BW: // upate the stream clocking frequency pSSRC->xmtInfo.dwRtcpStreamMinBW = (DWORD)updateInfo; break; case RRCM_UPDATE_CALLBACK: // update the callback information EnterCriticalSection (&pRTCPses->critSect); pRTCPses->pRRCMcallback = (PRRCM_EVENT_CALLBACK)updateInfo; pRTCPses->dwCallbackUserInfo = misc; LeaveCriticalSection (&pRTCPses->critSect); break; } // unlock access to this entry LeaveCriticalSection (&((PSSRC_ENTRY)pTmp)->critSect); } pTmp = pTmp->next; } IN_OUT_STR ("RTP : Exit updateRTCPSdes ()\n"); return RRCM_NoError; } /*--------------------------------------------------------------------------- * Function : RRCMnotification * Description: Notify the application that one of the RTP/RTCP events that * we keep track of has occured. * * Input : RRCMevent : RRCM event to report * pSSRC : -> to the SSRC entry * ssrc : SSRC which generated the event * misc : Miscelleanous value * * Return: OK: RRCM_NoError --------------------------------------------------------------------------*/ void RRCMnotification (RRCM_EVENT_T RRCMevent, PSSRC_ENTRY pSSRC, DWORD dwSSRC, DWORD misc) { IN_OUT_STR ("RRCM: Enter RRCMnotification()\n"); // check to see if the application is interested by the RRCM event if (pSSRC->pRTCPses->pRRCMcallback == NULL) return; switch (RRCMevent) { case RRCM_NEW_SOURCE_EVENT: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, dwSSRC, misc, pSSRC->pRTCPses->dwCallbackUserInfo); break; case RRCM_LOCAL_COLLISION_EVENT: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, pSSRC->SSRC, dwSSRC, pSSRC->pRTCPses->dwCallbackUserInfo); break; case RRCM_REMOTE_COLLISION_EVENT: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, dwSSRC, 0, pSSRC->pRTCPses->dwCallbackUserInfo); break; case RRCM_RECV_RTCP_SNDR_REPORT_EVENT: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, dwSSRC, pSSRC->RTCPsd, pSSRC->pRTCPses->dwCallbackUserInfo); break; case RRCM_RECV_RTCP_RECV_REPORT_EVENT: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, dwSSRC, pSSRC->RTCPsd, pSSRC->pRTCPses->dwCallbackUserInfo); break; case RRCM_TIMEOUT_EVENT: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, dwSSRC, 0, pSSRC->pRTCPses->dwCallbackUserInfo); break; case RRCM_BYE_EVENT: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, dwSSRC, 0, pSSRC->pRTCPses->dwCallbackUserInfo); break; case RRCM_RTCP_WS_RCV_ERROR: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, dwSSRC, misc, pSSRC->pRTCPses->dwCallbackUserInfo); break; case RRCM_RTCP_WS_XMT_ERROR: pSSRC->pRTCPses->pRRCMcallback (RRCMevent, dwSSRC, misc, pSSRC->pRTCPses->dwCallbackUserInfo); break; default: break; } IN_OUT_STR ("RRCM: Exit RRCMnotification()\n"); } /*---------------------------------------------------------------------------- * Function : registerSessionToISDM * Description: Register an RTP/RTCP session with ISDM * * Input : pSSRC : -> to the SSRC's entry * pRTCP : -> to the RTCP session's information * pIsdm : -> to the ISDM information * * Return: None ---------------------------------------------------------------------------*/ #ifdef ENABLE_ISDM2 #define SESSION_BFR_SIZE 30 void registerSessionToISDM (PSSRC_ENTRY pSSRC, PRTCP_SESSION pRTCPses, PISDM2 pIsdm2) { struct sockaddr_in *pSSRCadr; unsigned short port; unsigned long netAddr; CHAR SsrcBfr[10]; CHAR sessionBfr[SESSION_BFR_SIZE]; unsigned char *ptr; int num; HRESULT hError; ISDM2_ENTRY Isdm2Stat; // get the destination address as the session identifier pSSRCadr = (struct sockaddr_in *)&pRTCPses->toBfr; RRCMws.htons (pSSRC->RTPsd, pSSRCadr->sin_port, &port); netAddr = pSSRCadr->sin_addr.S_un.S_addr; ptr = (unsigned char *)&netAddr; memset (sessionBfr, 0x00, SESSION_BFR_SIZE); num = (int)*ptr++; RRCMitoa (num, sessionBfr, 10); strcat (sessionBfr, "."); num = (int)*ptr++; RRCMitoa (num, (sessionBfr + strlen(sessionBfr)), 10); strcat (sessionBfr, "."); num = (int)*ptr++; RRCMitoa (num, (sessionBfr + strlen(sessionBfr)), 10); strcat (sessionBfr, "."); num = (int)*ptr; RRCMitoa (num, (sessionBfr + strlen(sessionBfr)), 10); strcat (sessionBfr, "."); RRCMitoa (port, (sessionBfr + strlen(sessionBfr)), 10); // get the SSRC RRCMultoa (pSSRC->SSRC, SsrcBfr, 16); // register the session if (pRTCPses->hSessKey == NULL) { hError = Isdm2.ISDMEntry.ISD_CreateKey (hRRCMRootKey, sessionBfr, &pRTCPses->hSessKey); if(FAILED(hError)) RRCM_DBG_MSG ("RTP: ISD_CreateKey Failed",0, NULL, 0, DBG_NOTIFY); } memset(&Isdm2Stat, 0x00, sizeof(ISDM2_ENTRY)); hError = Isdm2.ISDMEntry.ISD_CreateValue (pRTCPses->hSessKey, SsrcBfr, BINARY_VALUE, (BYTE *)&Isdm2Stat, sizeof(ISDM2_ENTRY), &pSSRC->hISDM); if(FAILED(hError)) RRCM_DBG_MSG ("RTP: ISD_CreateValue Failed",0, NULL, 0, DBG_NOTIFY); } /*---------------------------------------------------------------------------- * Function : udpateISDMsta * Description: Update an ISDM data structure * * Input : pSSRC : -> to the SSRC's entry * pIsdm : -> to the ISDM entry * flag : Sender/Receive flag * LocalFB : do or dont't update the local feedback * * Return: None ---------------------------------------------------------------------------*/ void updateISDMstat (PSSRC_ENTRY pSSRC, PISDM2 pIsdm2, DWORD flag, BOOL LocalFB) { DWORD curTime = timeGetTime(); DWORD dwTmp; DWORD dwValue; ISDM2_ENTRY Isdm2Stat; HRESULT hError; unsigned short idx = 0; EnterCriticalSection (&pIsdm2->critSect); Isdm2Stat.SSRC = pSSRC->SSRC; Isdm2Stat.PayLoadType = pSSRC->PayLoadType; if (flag == RECVR) { Isdm2Stat.dwSSRCStatus = RECVR; Isdm2Stat.rcvInfo.dwNumPcktRcvd = pSSRC->rcvInfo.dwNumPcktRcvd; Isdm2Stat.rcvInfo.dwPrvNumPcktRcvd = pSSRC->rcvInfo.dwPrvNumPcktRcvd; Isdm2Stat.rcvInfo.dwExpectedPrior = pSSRC->rcvInfo.dwExpectedPrior; Isdm2Stat.rcvInfo.dwNumBytesRcvd = pSSRC->rcvInfo.dwNumBytesRcvd; Isdm2Stat.rcvInfo.dwBaseRcvSeqNum = pSSRC->rcvInfo.dwBaseRcvSeqNum; Isdm2Stat.rcvInfo.dwBadSeqNum = pSSRC->rcvInfo.dwBadSeqNum; Isdm2Stat.rcvInfo.dwProbation = pSSRC->rcvInfo.dwProbation; Isdm2Stat.rcvInfo.dwPropagationTime= pSSRC->rcvInfo.dwPropagationTime; Isdm2Stat.rcvInfo.interJitter = pSSRC->rcvInfo.interJitter; Isdm2Stat.rcvInfo.XtendedSeqNum.seq_union.dwXtndedHighSeqNumRcvd = pSSRC->rcvInfo.XtendedSeqNum.seq_union.dwXtndedHighSeqNumRcvd; } else // (flag == ISDM_UPDATE_XMTSTAT) { Isdm2Stat.dwSSRCStatus = XMITR; Isdm2Stat.xmitinfo.dwNumPcktSent = pSSRC->xmtInfo.dwNumPcktSent; Isdm2Stat.xmitinfo.dwNumBytesSent = pSSRC->xmtInfo.dwNumBytesSent; Isdm2Stat.xmitinfo.dwNTPmsw = pSSRC->xmtInfo.dwNTPmsw; Isdm2Stat.xmitinfo.dwNTPlsw = pSSRC->xmtInfo.dwNTPlsw; Isdm2Stat.xmitinfo.dwRTPts = pSSRC->xmtInfo.dwRTPts; Isdm2Stat.xmitinfo.dwCurXmtSeqNum = pSSRC->xmtInfo.dwCurXmtSeqNum; Isdm2Stat.xmitinfo.dwPrvXmtSeqNum = pSSRC->xmtInfo.dwPrvXmtSeqNum; Isdm2Stat.xmitinfo.sessionBW = pSSRC->xmtInfo.dwRtcpStreamMinBW; Isdm2Stat.xmitinfo.dwLastSR = pSSRC->xmtInfo.dwLastSR; Isdm2Stat.xmitinfo.dwLastSRLocalTime = pSSRC->xmtInfo.dwLastSRLocalTime; Isdm2Stat.xmitinfo.dwLastSendRTPSystemTime = pSSRC->xmtInfo.dwLastSendRTPSystemTime; Isdm2Stat.xmitinfo.dwLastSendRTPTimeStamp = pSSRC->xmtInfo.dwLastSendRTPTimeStamp; } if(LocalFB) { memcpy(&Isdm2Stat.rrFeedback, &pSSRC->rrFeedback, sizeof(RTCP_FEEDBACK)); } else { Isdm2Stat.rrFeedback.SSRC = pSSRC->rrFeedback.SSRC; #ifdef ENABLE_FLOATING_POINT Isdm2Stat.rrFeedback.dwInterJitter = pSSRC->rcvInfo.interJitter; #else // Check RFC for details of the round off Isdm2Stat.rrFeedback.dwInterJitter = pSSRC->rcvInfo.interJitter >> 4; #endif Isdm2Stat.rrFeedback.XtendedSeqNum.seq_union.dwXtndedHighSeqNumRcvd = pSSRC->rcvInfo.XtendedSeqNum.seq_union.dwXtndedHighSeqNumRcvd; // fraction/cumulative number lost are in network order dwTmp = getSSRCpcktLoss (pSSRC, FALSE); Isdm2Stat.rrFeedback.fractionLost = (dwTmp & 0xFF); RRCMws.ntohl (pSSRC->RTPsd, dwTmp, &dwValue); Isdm2Stat.rrFeedback.cumNumPcktLost = (dwValue & 0x00FFFFFF); Isdm2Stat.rrFeedback.dwLastRcvRpt = pSSRC->rrFeedback.dwLastRcvRpt; Isdm2Stat.rrFeedback.dwLastSR = pSSRC->xmtInfo.dwLastSR; Isdm2Stat.rrFeedback.dwDelaySinceLastSR = getDLSR (pSSRC); } Isdm2Stat.dwLastReportRcvdTime = pSSRC->dwLastReportRcvdTime; memcpy(&Isdm2Stat.cnameInfo, &pSSRC->cnameInfo, sizeof(SDES_DATA)); memcpy(&Isdm2Stat.nameInfo, &pSSRC->nameInfo, sizeof(SDES_DATA)); memcpy(&Isdm2Stat.from, &pSSRC->from, sizeof(SOCKADDR)); Isdm2Stat.fromLen = pSSRC->fromLen; Isdm2Stat.dwNumRptSent = pSSRC->dwNumRptSent; Isdm2Stat.dwNumRptRcvd = pSSRC->dwNumRptRcvd; Isdm2Stat.dwNumXmtIoPending = pSSRC->dwNumXmtIoPending; Isdm2Stat.dwStreamClock = pSSRC->dwStreamClock; hError = Isdm2.ISDMEntry.ISD_SetValue (NULL, pSSRC->hISDM, NULL, BINARY_VALUE, (BYTE *)&Isdm2Stat, sizeof(ISDM2_ENTRY)); if(FAILED(hError)) RRCM_DBG_MSG ("RTP: ISD_SetValue Failed",0, NULL, 0, DBG_NOTIFY); LeaveCriticalSection (&pIsdm2->critSect); } #endif // #ifdef ENABLE_ISDM2 /*--------------------------------------------------------------------------- * Function : RRCMdebugMsg * Description: Output RRCM debug messages * * Input : pMsg: -> to message * err: Error code * pFile: -> to file where the error occured * line: Line number where the error occured * * Return: None --------------------------------------------------------------------------*/ void RRCMdebugMsg (PCHAR pMsg, DWORD err, PCHAR pFile, DWORD line, DWORD type) { #ifdef ISRDBG wsprintf (debug_string, "%s", pMsg); if (err) wsprintf (debug_string+strlen(debug_string), " Error:%d", err); if (pFile != NULL) wsprintf (debug_string+strlen(debug_string), " - %s, line:%d", pFile, line); switch (type) { case DBG_NOTIFY: ISRNOTIFY(ghISRInst, debug_string, 0); break; case DBG_TRACE: ISRTRACE(ghISRInst, debug_string, 0); break; case DBG_ERROR: ISRERROR(ghISRInst, debug_string, 0); break; case DBG_WARNING: ISRWARNING(ghISRInst, debug_string, 0); break; case DBG_TEMP: ISRTEMP(ghISRInst, debug_string, 0); break; case DBG_CRITICAL: ISRCRITICAL(ghISRInst, debug_string, 0); break; default: break; } #elif DEBUG extern HDBGZONE ghDbgZoneRRCM ; wsprintf (debug_string, "%s", pMsg); if (err) wsprintf (debug_string+strlen(debug_string), " Error:%d", err); if (pFile != NULL) wsprintf (debug_string+strlen(debug_string), " - %s, line:%d", pFile, line); switch (type) { case DBG_NOTIFY: case DBG_TRACE: case DBG_WARNING: case DBG_TEMP: DBGMSG(ghDbgZoneRRCM,0,(debug_string)); // Trace Zone break; case DBG_ERROR: case DBG_CRITICAL: DBGMSG(ghDbgZoneRRCM,1,(debug_string)); // Error Zone break; default: break; } #endif } // [EOF]