Exemplo n.º 1
0
// Demux the call event to the right PeerConnection
void PeerConnectionCtx::onCallEvent_m(ccapi_call_event_e aCallEvent,
                                      CSF::CC_CallPtr aCall,
                                      CSF::CC_CallInfoPtr aInfo) {
    CSFLogDebug(logTag, "onCallEvent()");
    PeerConnectionWrapper pc(aCall->getPeerConnection());
    if (!pc.impl())  // This must be an event on a dead PC. Ignore
        return;

    CSFLogDebug(logTag, "Calling PC");
    pc.impl()->onCallEvent(aCallEvent, aCall, aInfo);
}
void
PeerConnectionImpl::onCallEvent(ccapi_call_event_e aCallEvent,
                                CSF::CC_CallPtr aCall, CSF::CC_CallInfoPtr aInfo)
{
  PC_AUTO_ENTER_API_CALL_NO_CHECK();
  MOZ_ASSERT(aCall.get());
  MOZ_ASSERT(aInfo.get());

  cc_call_state_t event = aInfo->getCallState();
  std::string statestr = aInfo->callStateToString(event);

  if (CCAPI_CALL_EV_CREATED != aCallEvent && CCAPI_CALL_EV_STATE != aCallEvent) {
    CSFLogDebug(logTag, "%s: **** CALL HANDLE IS: %s, **** CALL STATE IS: %s",
      __FUNCTION__, mHandle.c_str(), statestr.c_str());
    return;
  }

  switch (event) {
    case SETLOCALDESC:
    case UPDATELOCALDESC:
      mLocalSDP = aInfo->getSDP();
      break;

    case SETREMOTEDESC:
    case ADDICECANDIDATE:
      mRemoteSDP = aInfo->getSDP();
      break;

    case CONNECTED:
      CSFLogDebug(logTag, "Setting PeerConnnection state to kActive");
      ChangeReadyState(kActive);
      break;
    default:
      break;
  }

  nsCOMPtr<IPeerConnectionObserver> pco = do_QueryReferent(mPCObserver);
  if (!pco) {
    return;
  }

  PeerConnectionObserverDispatch* runnable =
      new PeerConnectionObserverDispatch(aInfo, this, pco);

  if (mThread) {
    mThread->Dispatch(runnable, NS_DISPATCH_NORMAL);
    return;
  }
  runnable->Run();
  delete runnable;
}
Exemplo n.º 3
0
void
PeerConnectionImpl::onCallEvent(ccapi_call_event_e aCallEvent,
                                CSF::CC_CallPtr aCall, CSF::CC_CallInfoPtr aInfo)
{
  PC_AUTO_ENTER_API_CALL_NO_CHECK();
  MOZ_ASSERT(aCall.get());
  MOZ_ASSERT(aInfo.get());

  cc_call_state_t event = aInfo->getCallState();
  std::string statestr = aInfo->callStateToString(event);

  if (CCAPI_CALL_EV_CREATED != aCallEvent && CCAPI_CALL_EV_STATE != aCallEvent) {
    CSFLogDebugS(logTag, ": **** CALL HANDLE IS: " << mHandle <<
      ": **** CALL STATE IS: " << statestr);
    return;
  }

  switch (event) {
    case SETLOCALDESC:
    case UPDATELOCALDESC:
      mLocalSDP = aInfo->getSDP();
      break;

    case SETREMOTEDESC:
    case UPDATEREMOTEDESC:
      mRemoteSDP = aInfo->getSDP();
      break;

    case CONNECTED:
      CSFLogDebugS(logTag, "Setting PeerConnnection state to kActive");
      ChangeReadyState(kActive);
      break;
    default:
      break;
  }

  if (mPCObserver) {
    PeerConnectionObserverDispatch* runnable =
        new PeerConnectionObserverDispatch(aInfo, this, mPCObserver);

    if (mThread) {
      mThread->Dispatch(runnable, NS_DISPATCH_NORMAL);
      return;
    }
    runnable->Run();
  }
}
void PeerConnectionCtx::onCallEvent(ccapi_call_event_e aCallEvent,
                                    CSF::CC_CallPtr aCall,
                                    CSF::CC_CallInfoPtr aInfo) {
  // This is called on a SIPCC thread.
  //
  // We cannot use SyncRunnable to main thread, as that would deadlock on
  // shutdown. Instead, we dispatch asynchronously. We copy getPeerConnection(),
  // a "weak ref" to the PC, which is safe in shutdown, and CC_CallInfoPtr (an
  // nsRefPtr) is thread-safe and keeps aInfo alive.
  nsAutoPtr<std::string> pcDuped(new std::string(aCall->getPeerConnection()));

  // DISPATCH_NORMAL with duped string
  nsresult rv = gMainThread->Dispatch(WrapRunnableNM(&onCallEvent_m, pcDuped,
                                                     aCallEvent, aInfo),
                                      NS_DISPATCH_NORMAL);
  if (NS_FAILED(rv)) {
    CSFLogError( logTag, "%s(): Could not dispatch to main thread", __FUNCTION__);
  }
}