void testEnabledWithData()
{
MprToSpkr* pToSpkr = NULL;
OsMsgQ* pSpkQ = NULL;
OsMsgQ* pEchoQ = NULL;
MpBufferMsg* pSpkMsg = NULL;
MpBufferMsg* pEchoMsg = NULL;
MpBufPtr pBuf;
OsStatus res;
// Create message queues to get data from MprToSpkr
pSpkQ = new OsMsgQ(MSG_Q_LEN);
CPPUNIT_ASSERT(pSpkQ != NULL);
pEchoQ = new OsMsgQ(MSG_Q_LEN);
CPPUNIT_ASSERT(pEchoQ != NULL);
pToSpkr = new MprToSpkr("MprToSpkr",
pSpkQ, pEchoQ);
CPPUNIT_ASSERT(pToSpkr != NULL);
setupFramework(pToSpkr);
// pToSpkr enabled, there are buffers on the input 0, message queue
// is not full.
CPPUNIT_ASSERT(mpSourceResource->enable());
CPPUNIT_ASSERT(pToSpkr->enable());
res = mpFlowGraph->processNextFrame();
CPPUNIT_ASSERT(res == OS_SUCCESS);
// Get messages from the queues (wait for 1 second)
res = pSpkQ->receive((OsMsg*&)pSpkMsg, OsTime(1000));
CPPUNIT_ASSERT(res == OS_SUCCESS);
res = pEchoQ->receive((OsMsg*&)pEchoMsg, OsTime(1000));
CPPUNIT_ASSERT(res == OS_SUCCESS);
// Store output buffer for convenience
pBuf = mpSourceResource->mLastDoProcessArgs.outBufs[0];
// Buffer is sent to queues and to output
CPPUNIT_ASSERT( (mpSinkResource->mLastDoProcessArgs.inBufs[0] == pBuf)
&& (pSpkMsg->getBuffer().isValid())
&& (pEchoMsg->getBuffer() == pBuf)
);
// Free received message and stored buffer
pSpkMsg->releaseMsg();
pEchoMsg->releaseMsg();
pBuf.release();
// Stop flowgraph
haltFramework();
// Free message queue
delete pSpkQ;
delete pEchoQ;
}
UtlBoolean MpResource::handleMessages(OsMsgQ& msgQ)
{
UtlBoolean handledAllMsgs = FALSE;
while(!msgQ.isEmpty())
{
OsMsg* msg;
OsStatus recvStat = msgQ.receive(msg, OsTime::NO_WAIT_TIME);
UtlBoolean curMsgHandled = FALSE;
if (recvStat == OS_SUCCESS)
{
if (msg->getMsgType() == OsMsg::MP_FLOWGRAPH_MSG)
{
MpFlowGraphMsg* fgMsg = static_cast<MpFlowGraphMsg*>(msg);
if (fgMsg != NULL)
{
curMsgHandled = handleMessage(*fgMsg);
}
}
else if (msg->getMsgType() == OsMsg::MP_RESOURCE_MSG)
{
MpResourceMsg* rMsg = static_cast<MpResourceMsg*>(msg);
if (rMsg != NULL)
{
curMsgHandled = handleMessage(*rMsg);
}
}
// TODO: If message received is not handled, it might be good
// to stuff the message back into the front of the queue
// with msgQ.sendUrgent(msg, OsTime::NO_WAIT_TIME);
// I haven't thought through the ramifications of this,
// so I haven't implemented it yet.
}
// Stop at the first message we encounter that is not handled.
if (curMsgHandled == FALSE)
{
break;
}
// If the queue is empty at this point,
// then all messages have been handled.
if (msgQ.isEmpty())
{
handledAllMsgs = TRUE;
}
}
return handledAllMsgs;
}
UtlBoolean removeMessage(OsMsgQ& messageQueue,
int waitMilliSeconds,
const SipMessage*& message)
{
UtlBoolean gotMessage = FALSE;
message = NULL;
OsTime messageTimeout(0, waitMilliSeconds * 1000);
OsMsg* osMessage = NULL;
messageQueue.receive(osMessage, messageTimeout);
if(osMessage)
{
int msgType = osMessage->getMsgType();
int msgSubType = osMessage->getMsgSubType();
int messageType = ((SipMessageEvent*)osMessage)->getMessageStatus();
if(msgType == OsMsg::PHONE_APP &&
msgSubType == SipMessage::NET_SIP_MESSAGE &&
messageType == SipMessageEvent::APPLICATION)
{
message = ((SipMessageEvent*)osMessage)->getMessage();
gotMessage = TRUE;
#ifdef TEST_PRINT
if(message)
{
UtlString messageBytes;
int len;
message->getBytes(&messageBytes, &len);
printf("%s", messageBytes.data());
}
else
{
printf("removeMessage: messageBytes: <null>\n");
}
#endif
}
}
return(gotMessage);
}
UtlBoolean MprFromMic::doProcessFrame(MpBufPtr inBufs[],
MpBufPtr outBufs[],
int inBufsSize,
int outBufsSize,
UtlBoolean isEnabled,
int samplesPerFrame,
int samplesPerSecond)
{
MpBufPtr out = NULL ;
MpBufferMsg* pMsg;
if (0 == outBufsSize)
{
return FALSE;
}
// Clear the the number of empty frames every 512 frames
mNumFrames++;
if (0 == (mNumFrames & 0x1ff))
{
mNumEmpties = 0;
}
if (isEnabled)
{
// If the microphone queue (holds unprocessed mic data) has more then
// the max_mic_buffers threshold, drain the queue until in range)
OsMsgQ* pMicOutQ;
pMicOutQ = MpMisc.pMicQ;
while (pMicOutQ && MpMisc.max_mic_buffers < pMicOutQ->numMsgs())
{
if (OS_SUCCESS == pMicOutQ->receive((OsMsg*&) pMsg,
OsTime::NO_WAIT))
{
MpBuf_delRef(pMsg->getTag());
MpBuf_delRef(pMsg->getTag(1));
pMsg->releaseMsg();
}
}
if (pMicOutQ && pMicOutQ->numMsgs() <= 0)
{
// osPrintf("MprFromMic: No data available (total frames=%d, starved frames=%d)\n",
// mNumFrames, mNumEmpties);
}
else
{
if (pMicOutQ && OS_SUCCESS == pMicOutQ->receive((OsMsg*&) pMsg,
OsTime::NO_WAIT))
{
out = pMsg->getTag();
pMsg->releaseMsg();
if (NULL != out)
{
#ifdef REAL_SILENCE_DETECTION /* [ */
Sample* shpTmpFrame;
MpBufPtr tpBuf;
int n;
#endif /* REAL_SILENCE_DETECTION ] */
switch(MpBuf_getSpeech(out))
{
case MP_SPEECH_TONE:
break;
case MP_SPEECH_MUTED:
MpBuf_setSpeech(out, MP_SPEECH_SILENT);
break;
default:
#ifdef REAL_SILENCE_DETECTION /* [ */
Sample *shpSamples;
n = MpBuf_getNumSamples(out);
shpSamples = MpBuf_getSamples(out);
tpBuf = MpBuf_getBuf(MpMisc.UcbPool, n, 0, MP_FMT_T12);
assert(NULL != tpBuf);
shpTmpFrame = MpBuf_getSamples(tpBuf);
highpass_filter800(shpSamples, shpTmpFrame, n);
if(0 == speech_detected(shpTmpFrame,n))
{
MpBuf_setSpeech(out, MP_SPEECH_SILENT);
}
else
{
MpBuf_setSpeech(out, MP_SPEECH_ACTIVE);
}
MpBuf_delRef(tpBuf);
#else /* REAL_SILENCE_DETECTION ] [ */
// 24 April 2001 (HZM) I am disabling this because it takes
// too long to recognize the beginning of a talk spurt, and
// causes the bridge mixer to drop the start of each word.
MpBuf_isActiveAudio(out);
#endif /* REAL_SILENCE_DETECTION ] */
break;
}
}
}
}
#ifdef INSERT_SAWTOOTH /* [ */
if (NULL == out)
{
out = MpBuf_getBuf(MpMisc.UcbPool, MpMisc.frameSamples, 0, MP_FMT_T12);
}
MpBuf_insertSawTooth(out);
MpBuf_setSpeech(out, MP_SPEECH_ACTIVE);
#endif /* INSERT_SAWTOOTH ] */
if (s_fnMicDataHook)
{
//
// Allow an external identity to source microphone data. Ideally,
// this should probably become a different resource, but abstracting
// a new CallFlowGraph is a lot of work.
//
if (NULL == out)
{
out = MpBuf_getBuf(MpMisc.UcbPool, MpMisc.frameSamples, 0, MP_FMT_T12);
}
if (NULL != out)
{
int n = 0;
Sample* s = NULL;
s = MpBuf_getSamples(out);
n = MpBuf_getNumSamples(out);
s_fnMicDataHook(n, s) ;
MpBuf_setSpeech(out, MP_SPEECH_UNKNOWN);
MpBuf_isActiveAudio(out);
}
}
if (NULL == out)
{
out = MpBuf_getFgSilence();
}
}
*outBufs = out;
return TRUE;
}
//! Send a pager style instant message to the given destination
UtlBoolean SipPimClient::sendPagerMessage(Url& destinationAor,
const char* messageText,
int& responseCode,
UtlString& responseCodeText)
{
UtlBoolean returnCode = FALSE;
responseCode = -1;
responseCodeText.remove(0);
if(messageText && *messageText)
{
// Construct the text body
HttpBody* textBody = new HttpBody(messageText,
strlen(messageText),
CONTENT_TYPE_TEXT_PLAIN);
// Construct the MESSAGE request
UtlString toAddress = destinationAor.toString();
UtlString requestUri;
destinationAor.getUri(requestUri);
UtlString callId;
CallId::getNewCallId(callId);
SipMessage messageRequest;
messageRequest.setRequestData(SIP_MESSAGE_METHOD, requestUri,
mFromField, toAddress,
callId,
1, // sequenceNumber
NULL); // contactUrl
// Attache the body
messageRequest.setBody(textBody);
messageRequest.setContentType(CONTENT_TYPE_TEXT_PLAIN);
// Set the queue to which the response will be deposited
// for this specific request.
OsMsgQ responseQueue;
messageRequest.setResponseListenerQueue(&responseQueue);
// Send the request
returnCode = mpUserAgent->send(messageRequest);
// wait for the response
OsMsg* qMessage = NULL;
// For now we will block forever. Theoretically this should
// always get a response (e.g. worst case a 408 timed out).
// If we do not wait forever, we need to be sure to wait the
// the maximum transaction timeout period so that the qMessage
// exists when the SipUserAgent queues the response.
responseQueue.receive(qMessage);
// If we got a response, get the response status code and text
if(qMessage)
{
int msgType = qMessage->getMsgType();
int msgSubType = qMessage->getMsgSubType();
// SIP message
if(msgType == OsMsg::PHONE_APP &&
msgSubType == SipMessage::NET_SIP_MESSAGE)
{
const SipMessage* messageResponse =
((SipMessageEvent*)qMessage)->getMessage();
if(messageResponse && messageResponse->isResponse())
{
responseCode = messageResponse->getResponseStatusCode();
messageResponse->getResponseStatusText(&responseCodeText);
}
}
}
}
return(returnCode);
}