/** * Create a TCP client or UDP socket * @param sockType TCP or UDP. * @param ipaddr local UDP ip address to bind. * @param port UDP port to receive and send packet. * @return socket id. */ int wfaCreateSock(int sockType, char *ipaddr, unsigned short port) { // tcp if (sockType == SOCK_TYPE_TCP) { return wfaCreateTCPCliSock(); } // udp or default else { return wfaCreateUDPSock(ipaddr, port); } }
/* RecvStart: instruct traffic generator to start receiving * based on a profile * input: cmd -- not used * response: inform controller for "running" * return: success or failed */ int wfaTGRecvStart(int len, BYTE *parms, int *respLen, BYTE *respBuf) { int status = STATUS_COMPLETE, i; int numStreams = len/4; int streamid; tgProfile_t *theProfile; tgStream_t *myStream; DPRINT_INFO(WFA_OUT, "entering tgRecvStart\n"); /* * The function wfaSetProcPriority called here is to enhance the real-time * performance for packet receiving. It is only for tuning and optional * to implement */ //wfaSetProcPriority(60); for(i=0; i<numStreams; i++) { wMEMCPY(&streamid, parms+(4*i), 4); /* changed from 2 to 4, bug reported by n.ojanen */ myStream = findStreamProfile(streamid); if(myStream == NULL) { status = STATUS_INVALID; return status; } theProfile = &myStream->profile; if(theProfile == NULL) { status = STATUS_INVALID; return status; } /* calculate the frame interval which is used to derive its jitter */ if(theProfile->rate != 0 && theProfile->rate < 5000) myStream->fmInterval = 1000000/theProfile->rate; /* in ms */ else myStream->fmInterval = 0; if(theProfile->direction != DIRECT_RECV) { status = STATUS_INVALID; return status; } wMEMSET(&myStream->stats, 0, sizeof(tgStats_t)); // mark the stream active myStream->state = WFA_STREAM_ACTIVE; switch(theProfile->profile) { #ifdef WFA_WPA2_SINGLE_THREAD case PROF_MCAST: case PROF_FILE_TX: // case PROF_IPTV: btSockfd = wfaCreateUDPSock(theProfile->dipaddr, theProfile->dport); gtgRecv = streamid; if(btSockfd < 0) status = STATUS_ERROR; else { /* get current flags setting */ int ioflags = wFCNTL(btSockfd, F_GETFL, 0); /* set only BLOCKING flag to non-blocking */ wFCNTL(btSockfd, F_SETFL, ioflags | O_NONBLOCK); } break; #else case PROF_TRANSC: case PROF_CALI_RTD: /* Calibrate roundtrip delay */ gtgTransac = streamid; case PROF_MCAST: case PROF_FILE_TX: case PROF_IPTV: gtgRecv = streamid; wmm_thr[usedThread].thr_flag = streamid; wPT_MUTEX_LOCK(&wmm_thr[usedThread].thr_flag_mutex); wPT_COND_SIGNAL(&wmm_thr[usedThread].thr_flag_cond); wPT_MUTEX_UNLOCK(&wmm_thr[usedThread].thr_flag_mutex); printf("Recv Start in thread %i for streamid %i\n", usedThread, streamid); usedThread++; break; #endif case PROF_UAPSD: #ifdef WFA_WMM_PS_EXT status = STATUS_COMPLETE; psSockfd = wfaCreateUDPSock(theProfile->dipaddr, WFA_WMMPS_UDP_PORT); wmmps_info.sta_state = 0; wmmps_info.wait_state = WFA_WAIT_STAUT_00; wMEMSET(&wmmps_info.psToAddr, 0, sizeof(wmmps_info.psToAddr)); wmmps_info.psToAddr.sin_family = AF_INET; wmmps_info.psToAddr.sin_addr.s_addr = inet_addr(theProfile->sipaddr); wmmps_info.psToAddr.sin_port = htons(theProfile->sport); wmmps_info.reset = 0; wmm_thr[usedThread].thr_flag = streamid; wmmps_info.streamid = streamid; wPT_MUTEX_LOCK(&wmm_thr[usedThread].thr_flag_mutex); wPT_COND_SIGNAL(&wmm_thr[usedThread].thr_flag_cond); gtgWmmPS = streamid;; wPT_MUTEX_UNLOCK(&wmm_thr[usedThread].thr_flag_mutex); usedThread++; #endif /* WFA_WMM_PS_EXT */ break; } } /* encode a TLV for response for "complete/error ..." */ wfaEncodeTLV(WFA_TRAFFIC_AGENT_RECV_START_RESP_TLV, sizeof(int), (BYTE *)&status, respBuf); *respLen = WFA_TLV_HDR_LEN + sizeof(int); return TRUE; }
void * wfa_wmm_thread(void *thr_param) { int myId = ((tgThrData_t *)thr_param)->tid; tgWMM_t *my_wmm = &wmm_thr[myId]; tgStream_t *myStream = NULL; int myStreamId, i=0,rttime=0,difftime=0, rcvCount=0,sendCount=0; int mySock = -1, status, respLen = 0, nbytes = 0, ret=0, j=0; tgProfile_t *myProfile; pthread_attr_t tattr; #ifdef WFA_WMM_PS_EXT tgThrData_t *tdata =(tgThrData_t *) thr_param; StationProcStatetbl_t curr_state; #endif //#ifdef WFA_VOICE_EXT struct timeval lstime, lrtime; int asn = 1; /* everytime it starts from 1, and to ++ */ //#endif wPT_ATTR_INIT(&tattr); wPT_ATTR_SETSCH(&tattr, SCHED_RR); while(1) { int sleepTotal=0,sendFailCount=0; DPRINT_INFO(WFA_OUT, "wfa_wmm_thread::begin while loop for each send/rcv before mutex lock\n"); pthread_mutex_lock(&my_wmm->thr_flag_mutex); /* it needs to reset the thr_flag to wait again */ while(my_wmm->thr_flag == 0) { printf("Mutex wait\n"); /* * in normal situation, the signal indicates the thr_flag changed to * a valid number (stream id), then it will go out the loop and do * work. */ wPT_COND_WAIT(&my_wmm->thr_flag_cond, &my_wmm->thr_flag_mutex); } wPT_MUTEX_UNLOCK(&my_wmm->thr_flag_mutex); myStreamId = my_wmm->thr_flag; my_wmm->thr_flag=0; /* use the flag as a stream id to file the profile */ myStream = findStreamProfile(myStreamId); myProfile = &myStream->profile; if(myProfile == NULL) { status = STATUS_INVALID; wfaEncodeTLV(WFA_TRAFFIC_AGENT_SEND_RESP_TLV, 4, (BYTE *)&status, respBuf); respLen = WFA_TLV_HDR_LEN+4; /* * send it back to control agent. */ continue; } DPRINT_INFO(WFA_OUT, "wfa_wmm_thread::Mutex unlocked\n"); switch(myProfile->direction) { case DIRECT_SEND: mySock = wfaCreateUDPSock(myProfile->sipaddr, myProfile->sport); if (mySock < 0) { DPRINT_INFO(WFA_OUT, "wfa_wmm_thread SEND ERROR failed create UDP socket! \n"); break; } mySock = wfaConnectUDPPeer(mySock, myProfile->dipaddr, myProfile->dport); sendThrId = myId; /* * Set packet/socket priority TOS field */ wfaTGSetPrio(mySock, myProfile->trafficClass); /* * set a proper priority */ wfaSetThreadPrio(myId, myProfile->trafficClass); /* if delay is too long, it must be something wrong */ if(myProfile->startdelay > 0 && myProfile->startdelay<100) { wSLEEP(myProfile->startdelay); } /* * set timer fire up */ if(myProfile->maxcnt == 0) { wSIGNAL(SIGALRM, tmout_stop_send); wALARM(myProfile->duration ); DPRINT_INFO(WFA_OUT, "wfa_wmm_thread SEND set stop alarm for %d sec \n", myProfile->duration); } if(myProfile->profile == PROF_MCAST) { wfaSetSockMcastSendOpt(mySock); } if (myProfile->profile == PROF_IPTV || myProfile->profile == PROF_FILE_TX || myProfile->profile == PROF_MCAST) { int iOptVal, iOptLen; getsockopt(mySock, SOL_SOCKET, SO_SNDBUF, (char *)&iOptVal, (socklen_t *)&iOptLen); iOptVal = iOptVal * 16; setsockopt(mySock, SOL_SOCKET, SO_SNDBUF, (char *)&iOptVal, (socklen_t )iOptLen); if ( (myProfile->rate != 0 ) /* WFA_SEND_FIX_BITRATE_MAX_FRAME_RATE)*/ && (myProfile->pksize * myProfile->rate * 8 < WFA_SEND_FIX_BITRATE_MAX) ) wfaSendBitrateData(mySock, myStreamId, respBuf, &respLen); else { wfaSendLongFile(mySock, myStreamId, respBuf, &respLen); } /* wfaSendLongFile(mySock, myStreamId, respBuf, &respLen); */ if(mySock != -1) { wCLOSE(mySock); mySock = -1; } } else if(myProfile->profile == PROF_TRANSC || myProfile->profile == PROF_START_SYNC || myProfile->profile == PROF_CALI_RTD) { #if 0 struct timeval nxtime, curtime; int ioflags = wFCNTL(mySock, F_GETFL, 0); #endif struct timeval tmout; gtgTransac = myStreamId; sentTranPkts = 0; #if 0 gettimeofday(&nxtime, NULL); nxtime.tv_usec += 20000; /* fixed 20 min sec timeout */ if(nxtime.tv_usec >= 1000000) { nxtime.tv_sec +=1; nxtime.tv_usec -= 1000000; } wFCNTL(mySock, F_SETFL, ioflags | O_NONBLOCK); #endif gettimeofday(&lstime,0); DPRINT_INFO(WFA_OUT, "Start sending traffic,at sec %d usec %d\n", (int )lstime.tv_sec, (int)lstime.tv_usec); tmout.tv_sec = 0; tmout.tv_usec = 15000; // set for 15000 microsec timeout for rcv ret = setsockopt(mySock, SOL_SOCKET, SO_RCVTIMEO, (char *)&tmout, (socklen_t) sizeof(tmout)); rcvCount=0; sendFailCount=0; j=0; sendCount=0; sleepTotal = 0; while(gtgTransac != 0) { gettimeofday(&lstime, NULL); #ifdef WFA_VOICE_EXT /* * If your device is BIG ENDIAN, you need to * modify the the function calls */ int2BuffBigEndian(asn++, &((tgHeader_t *)trafficBuf)->hdr[8]); int2BuffBigEndian(lstime.tv_sec, &((tgHeader_t *)trafficBuf)->hdr[12]); int2BuffBigEndian(lstime.tv_usec, &((tgHeader_t *)trafficBuf)->hdr[16]); #else j++; i=0; do { #endif /* WFA_VOICE_EXT */ if(gtgTransac != 0/* && nbytes <= 0 */) { if(respBuf == NULL) { DPRINT_INFO(WFA_OUT, "wfa_wmm_thread SEND,PROF_TRANSC::a Null respBuf\n"); } memset(respBuf, 0, WFA_RESP_BUF_SZ); respLen = 0; memset(trafficBuf ,0, MAX_UDP_LEN + 1); if(wfaSendShortFile(mySock, myStreamId, trafficBuf, 0, respBuf, &respLen) == DONE) { if(wfaCtrlSend(gxcSockfd, respBuf, respLen) != respLen) { DPRINT_INFO(WFA_OUT, "wfa_wmm_thread SEND,PROF_TRANSC::wfaCtrlSend Error for wfaSendShortFile\n"); } sendFailCount++; i--; usleep(1000); } else { i++; sendCount++; } //sentTranPkts++; /* send routine already incresed this counter */ if((myProfile->maxcnt>0) &&(sendCount == myProfile->maxcnt)) { DPRINT_INFO(WFA_OUT, "wfa_wmm_thread SEND,PROF_TRANSC::meet maxcnt=%d; end loop\n",myProfile->maxcnt); gtgTransac = 0; /* break snd/rcv wile loop */ break; } nbytes = wfaRecvFile(mySock, myStreamId, (char *)trafficBuf); if(nbytes <= 0) {/* Do not print any msg it will slow down process on snd/rcv */ //setsockopt(mySock, SOL_SOCKET, SO_RCVTIMEO, (char *)&tmout, (socklen_t) sizeof(tmout)); //printf("PROF_TRANSC::time out event, wfaRecvFile failed,resend a new packet ...\n"); //tmout.tv_sec = 0; //tmout.tv_usec = 3000; // set for 20 minlsec timeout //setsockopt(mySock, SOL_SOCKET, SO_RCVTIMEO, (char *)&tmout, (socklen_t) sizeof(tmout)); #if 0 /* if your socket APIs does not support "recvfrom" timeout, this is the way to loop the descriptor */ gettimeofday(&curtime, NULL); if(((curtime.tv_sec - nxtime.tv_sec) * 1000000 + (curtime.tv_usec - nxtime.tv_usec)) < 20000) { continue; } nxtime.tv_usec = curtime.tv_usec += 20000; if(nxtime.tv_usec >= 1000000) { nxtime.tv_sec = curtime.tv_sec +=1; nxtime.tv_usec -= 1000000; } #endif //continue; } else { rcvCount++; nbytes = 0; } } /* if gtgTransac != 0 */ #ifdef WFA_VOICE_EXT /* * Roundtrip time delay: * 1. retrieve the timestamp * 2. calculate the Trt(1) roundtrip delay * 3. store the minimum Trt(1) * 4. store Cdut(t1) and Ctm(2) */ gettimeofday(&lrtime, NULL); /* get a round trip time */ rttime = wfa_ftime_diff(&lstime, &lrtime); if(min_rttime > rttime) { min_rttime = rttime; if(gtgCaliRTD != 0) { gtgPktRTDelay = min_rttime; } } if(gtgCaliRTD != 0 ) { usleep(20000); /* wait a few min seconds before retrying the next calibration */ } #else /* not voice case */ /* for do-while loop for frame rate per sec */ }while ((i <= myProfile->rate + myProfile->rate/3) && (myProfile->rate !=0) && (gtgTransac != 0 )); if(myProfile->maxcnt == 0) { gettimeofday(&lrtime, NULL); rttime = wfa_itime_diff(&lstime, &lrtime); /* we cover frame rate = 0 case without any sleep to continue push data */ if (((difftime = 1000000 - rttime) > 0) && (myProfile->rate != 0)) { if ( j < myProfile->duration) { usleep (difftime); sleepTotal = sleepTotal + difftime/1000; } } if (j > myProfile->duration + 2) { /* avoid infinite loop */ DPRINT_INFO(WFA_OUT, "wfa_wmm_thread SEND over time %d sec, stop sending\n",myProfile->duration); break; } } #endif /* WFA_VOICE_EXT */ } /* while */ if(mySock != -1) { wCLOSE(mySock); mySock = -1; } DPRINT_INFO(WFA_OUT, "wfa_wmm_thread SEND::Sending stats back, sendCount=%d rcvCount=%d sleepTotal in mil-sec=%d sendFailCount=%d frmRate=%d do count=%d\n", sendCount,rcvCount,sleepTotal,sendFailCount, myProfile->rate, j); }/* else if(myProfile->profile == PROF_TRANSC || myProfile->profile == PROF_START_SYNC || myProfile->profile == PROF_CALI_RTD) */ wMEMSET(respBuf, 0, WFA_RESP_BUF_SZ); wSLEEP(1); /* * uses thread that is saved at last to pack the items and ships * it to CA. */ if(myId == sendThrId) { wfaSentStatsResp(gxcSockfd, respBuf); printf("done stats\n"); sendThrId = 0; } break; case DIRECT_RECV: /* * Test WMM-PS */ if(myProfile->profile == PROF_UAPSD) { #ifdef WFA_WMM_PS_EXT /* legacy code not used now */ wmmps_info.sta_test = B_D; wmmps_info.ps_thread = myId; wmmps_info.rcv_state = 0; wmmps_info.tdata = tdata; wmmps_info.dscp = wfaTGSetPrio(psSockfd, TG_WMM_AC_BE); tdata->state_num=0; /* * default timer value */ while(gtgWmmPS>0) { if(resetsnd) { tdata->state_num = 0; resetsnd = 0; } if (wmmps_info.sta_test > LAST_TEST) break; tdata->state = stationProcStatetbl[wmmps_info.sta_test]; curr_state = tdata->state[tdata->state_num]; curr_state.statefunc(curr_state.pw_offon,curr_state.sleep_period,&(tdata->state_num)); } #endif /* WFA_WMM_PS_EXT */ } else if (myProfile->profile == PROF_IPTV || myProfile->profile == PROF_FILE_TX || myProfile->profile == PROF_MCAST) { char recvBuf[MAX_RCV_BUF_LEN+1]; int iOptVal, iOptLen; struct timeval tmout; #ifdef WFA_VOICE_EXT struct timeval currtime; FILE *e2eoutp = NULL; char e2eResults[124]; int le2eCnt = 0; #endif mySock = wfaCreateUDPSock(myProfile->dipaddr, myProfile->dport); if(mySock == -1) { printf("Error open socket\n"); continue; } if (myProfile->profile == PROF_MCAST) { int so = wfaSetSockMcastRecvOpt(mySock, myProfile->dipaddr); if(so < 0) { DPRINT_ERR(WFA_ERR, "Join the multicast group failed\n"); wCLOSE(mySock); continue; } } tgSockfds[myStream->tblidx] = mySock; #ifdef WFA_VOICE_EXT /* only for receive stream needs to create a stats storage */ tgE2EStats_t *e2esp = NULL; int totalE2Cnt = 220 * WFA_G_CODEC_RATE; printf("init E2Cnt %i\n", totalE2Cnt); if(myProfile->profile == PROF_IPTV) { e2esp = malloc(totalE2Cnt * sizeof(tgE2EStats_t)); if(e2esp == NULL) { } } #endif /* increase the rec queue size */ getsockopt(mySock, SOL_SOCKET, SO_RCVBUF, (char *)&iOptVal, (socklen_t *)&iOptLen); iOptVal = iOptVal * 10; setsockopt(mySock, SOL_SOCKET, SO_RCVBUF, (char *)&iOptVal, (socklen_t )iOptLen); /* set timeout for blocking receive */ tmout.tv_sec = 0; tmout.tv_usec = 200000; /* set the receive time out to 200 ms */ setsockopt(mySock, SOL_SOCKET, SO_RCVTIMEO, (char *)&tmout, (socklen_t) sizeof(tmout)); wfaSetThreadPrio(myId, TG_WMM_AC_VO); /* try to raise the receiver higher priority than sender */ for(;;) { nbytes = wfaRecvFile(mySock, myStreamId, (char *)recvBuf); if(nbytes <= 0) { /* due to timeout */ if(tgSockfds[myStream->tblidx] >=0 ) continue; break; } #ifdef WFA_VOICE_EXT if(myProfile->profile == PROF_IPTV) { struct timeval ttval, currTimeVal; int sn = bigEndianBuff2Int(&((tgHeader_t *)recvBuf)->hdr[8]); ttval.tv_sec = bigEndianBuff2Int(&((tgHeader_t *)recvBuf)->hdr[12]); ttval.tv_usec = bigEndianBuff2Int(&((tgHeader_t *)recvBuf)->hdr[16]); gettimeofday(&currTimeVal, NULL); /* * take the end2end stats, limit to the max voice pkt number */ if(le2eCnt < totalE2Cnt) { tgE2EStats_t *ep = e2esp + le2eCnt++; ep->seqnum = sn; ep->rsec = ttval.tv_sec; ep->rusec = ttval.tv_usec; ep->lsec = currTimeVal.tv_sec; ep->lusec = currTimeVal.tv_usec; if(ep->lusec < 0) { ep->lsec -=1; ep->lusec += 1000000; } else if(ep->lusec >= 1000000) { ep->lsec += 1; ep->lusec -= 1000000; } } } #endif /* WFA_VOICE_EXT */ wfaSetThreadPrio(myId, TG_WMM_AC_BE); /* put it back down */ } /* while */ my_wmm->thr_flag = 0; #ifdef WFA_VOICE_EXT if(myProfile->profile == PROF_IPTV) { int j; wGETTIMEOFDAY(&currtime, NULL); sprintf(e2eResults, "/tmp/e2e%u-%i.txt", (unsigned int) currtime.tv_sec, myStreamId); printf("file %s cnt %i\n", e2eResults, le2eCnt); e2eoutp = fopen(e2eResults, "w+"); if(e2eoutp != NULL) { fprintf(e2eoutp, "roundtrip delay: %i\n", (int) (1000000*gtgPktRTDelay)); for(j = 0; j< le2eCnt; j++) { tgE2EStats_t *ep = e2esp+j; fprintf(e2eoutp, "%i:%i:%i:%i:%i\n", ep->seqnum, ep->lsec, ep->lusec, ep->rsec, ep->rusec); } fclose(e2eoutp); } if(e2esp != NULL) free(e2esp); } #endif } else if(myProfile->profile == PROF_TRANSC || myProfile->profile == PROF_START_SYNC || myProfile->profile == PROF_CALI_RTD) { struct timeval tmout; mySock = wfaCreateUDPSock(myProfile->sipaddr, myProfile->sport); if(mySock < 0) { /* return error */ my_wmm->thr_flag = 0; continue; } tgSockfds[myStream->tblidx] = mySock; totalTranPkts = 0xFFFFFFF0; gtgTransac = myStreamId; /* set timeout for blocking receive */ tmout.tv_sec = 0; tmout.tv_usec = 400000; /* set the receive time out to 400 ms, 200ms is too short */ setsockopt(mySock, SOL_SOCKET, SO_RCVTIMEO, (char *)&tmout, (socklen_t) sizeof(tmout)); while(gtgTransac != 0) { memset(trafficBuf, 0, sizeof((char*)trafficBuf)); if(mySock != -1) { int i = gtgTransac; nbytes = 0; /* check for data as long as we are in a transaction */ while ((gtgTransac != 0) && (nbytes <= 0)) { nbytes = wfaRecvFile(mySock, i, (char *)trafficBuf); } /* It is the end of a transaction, go out of the loop */ if (gtgTransac == 0) break; } else { break; } #ifdef WFA_VOICE_EXT /* for a transaction receiver, it just needs to send the local time back */ gettimeofday(&lstime, NULL); int2BuffBigEndian(lstime.tv_sec, &((tgHeader_t *)trafficBuf)->hdr[12]); int2BuffBigEndian(lstime.tv_usec, &((tgHeader_t *)trafficBuf)->hdr[16]); #endif memset(respBuf, 0, WFA_RESP_BUF_SZ); respLen = 0; if(wfaSendShortFile(mySock, gtgTransac, trafficBuf, nbytes, respBuf, &respLen) == DONE) { if(wfaCtrlSend(gxcSockfd, (BYTE *)respBuf, respLen)!=respLen) { DPRINT_WARNING(WFA_WNG, "wfaCtrlSend Error\n"); } } } my_wmm->thr_flag = 0; //////////////////// Wifi Alliance Added if(mySock != -1) { wCLOSE(mySock); mySock = -1; } //////////////////// Wifi Alliance Added } break; default: DPRINT_ERR(WFA_ERR, "Unknown covered case\n"); } } }
/* * wfaTGSendPing(): Instruct Traffic Generator to send ping packets * */ int wfaTGSendPing(int len, BYTE *caCmdBuf, int *respLen, BYTE *respBuf) { int streamid = ++streamId; float interval; /* it could be subseconds/100s minisecond */ tgPingStart_t *staPing = (tgPingStart_t *)caCmdBuf; dutCmdResponse_t *spresp = &gGenericResp; #ifdef WFA_PING_UDP_ECHO_ONLY tgStream_t *myStream = NULL; #endif DPRINT_INFO(WFA_OUT, "Entering wfaTSendPing ...\n"); if(staPing->frameSize == 0) staPing->frameSize = 100; printf("fr %i\n", staPing->frameRate); if(staPing->frameRate == 0) staPing->frameRate = 1; interval = (float) 1/staPing->frameRate; printf("TG: interval %f\n", interval); if(staPing->duration == 0) staPing->duration = 30; switch(staPing->type) { case WFA_PING_ICMP_ECHO: #ifndef WFA_PING_UDP_ECHO_ONLY printf("The steam ID is:%d \n",streamId); if(cmd_traffic_send_ping(sigma_dut_ptr(), staPing, spresp) < 0){ spresp->status = STATUS_ERROR; *respLen = 0; return FALSE; } //wfaSendPing(staPing, &interval, streamId); spresp->status = STATUS_COMPLETE; spresp->streamId = streamid; #else printf("Only support UDP ECHO\n"); #endif break; case WFA_PING_UDP_ECHO: { #ifdef WFA_PING_UDP_ECHO_ONLY /* * Make this like a transaction testing * Then make it a profile and run it */ myStream = &gStreams[slotCnt++]; memset(myStream, 0, sizeof(tgStream_t)); memcpy(&myStream->profile, caCmdBuf, len); myStream->id = streamid; /* the id start from 1 */ myStream->tblidx = slotCnt-1; btSockfd = wfaCreateUDPSock("127.0.0.1", WFA_UDP_ECHO_PORT); if((btSockfd = wfaConnectUDPPeer(btSockfd, staPing->dipaddr, WFA_UDP_ECHO_PORT)) > 0) { gtgTransac = streamid; gtgSend = streamid; totalTranPkts = 512; sentTranPkts = 0; /* * the framerate here is used to derive the timeout * value for waiting transaction echo responses. */ gtimeOut = MINISECONDS/staPing->frameRate; /* in msec */ /* set to longest time */ if(staPing->duration == 0) staPing->duration = 3600; } #else printf("Doesn't support UDP Echo\n"); #endif break; } default: { spresp->status = STATUS_INVALID; spresp->streamId = streamid; } } wfaEncodeTLV(WFA_TRAFFIC_SEND_PING_RESP_TLV, sizeof(dutCmdResponse_t), (BYTE *)spresp, respBuf); *respLen = WFA_TLV_HDR_LEN + sizeof(dutCmdResponse_t); return TRUE; }