void SsdpListenerMulticast::Run() { Signal(); for (;;) { iReaderRequest.Flush(); try { LOG(kSsdpMulticast, "SSDP Multicast Listen\n"); iReaderRequest.Read(0); if (iReaderRequest.Version() == Http::eHttp11) { if (iReaderRequest.Uri() == Ssdp::kMethodUri) { const Brx& method = iReaderRequest.Method(); if (method == Ssdp::kMethodNotify) { LOG(kSsdpMulticast, "SSDP Multicast Notify\n"); iLock.Wait(); EraseDisabled(iNotifyHandlers); VectorNotifyHandler callbacks; TUint count = (TUint)iNotifyHandlers.size(); for (TUint i=0; i<count; i++) { callbacks.push_back(iNotifyHandlers[i]); } iLock.Signal(); for (TUint i = 0; i<count; i++) { Notify(*(callbacks[i])); } } else if (method == Ssdp::kMethodMsearch) { LOG(kSsdpMulticast, "SSDP Multicast Msearch\n"); iLock.Wait(); EraseDisabled(iMsearchHandlers); VectorMsearchHandler callbacks; TUint count = (TUint)iMsearchHandlers.size(); for (TUint i=0; i<count; i++) { callbacks.push_back(iMsearchHandlers[i]); } iLock.Signal(); for (TUint i = 0; i<count; i++) { Msearch(*(callbacks[i])); } } } } } catch (HttpError&) { LOG2(kSsdpMulticast, kError, "SSDP Multicast HttpError\n"); } catch (WriterError&) { LOG2(kSsdpMulticast, kError, "SSDP Multicast WriterError\n"); } catch (ReaderError&) { LOG2(kSsdpMulticast, kError, "SSDP Multicast ReaderError\n"); if (iExiting) { break; } } } }
void SsdpListenerMulticast::Run() { Signal(); for (;;) { iReaderRequest.Flush(); try { LOG(kSsdpMulticast, "SSDP Multicast Listen\n"); iReaderRequest.Read(0); if (iReaderRequest.Version() == Http::eHttp11) { if (iReaderRequest.Uri() == Ssdp::kMethodUri) { const Brx& method = iReaderRequest.Method(); if (method == Ssdp::kMethodNotify) { LOG(kSsdpMulticast, "SSDP Multicast Notify\n"); iLock.Wait(); EraseDisabled(iNotifyHandlers); VectorNotifyHandler callbacks; TUint count = (TUint)iNotifyHandlers.size(); for (TUint i=0; i<count; i++) { callbacks.push_back(iNotifyHandlers[i]); } iLock.Signal(); for (TUint i = 0; i<count; i++) { Notify(*(callbacks[i])); } } else if (method == Ssdp::kMethodMsearch) { LOG(kSsdpMulticast, "SSDP Multicast Msearch\n"); iLock.Wait(); EraseDisabled(iMsearchHandlers); VectorMsearchHandler callbacks; TUint count = (TUint)iMsearchHandlers.size(); for (TUint i=0; i<count; i++) { callbacks.push_back(iMsearchHandlers[i]); } iLock.Signal(); for (TUint i = 0; i<count; i++) { Msearch(*(callbacks[i])); } } } } } catch (HttpError& ex) { Endpoint::EndpointBuf epb; iSocket.Sender().AppendEndpoint(epb); epb.PtrZ(); try { Brn buf = iReaderUntil.Read(kMaxBufferBytes); LOG2(kSsdpMulticast, kError, "SSDP Multicast HttpError (sender=%s) from %s:%u. Received: %.*s\n\n", (const char*)epb.Ptr(), ex.File(), ex.Line(), PBUF(buf)); } catch (ReaderError&) { } } catch (WriterError&) { LOG2(kSsdpMulticast, kError, "SSDP Multicast WriterError\n"); } catch (ReaderError&) { LOG2(kSsdpMulticast, kError, "SSDP Multicast ReaderError\n"); if (iExiting) { break; } } if (iRecreateSocket) { try { iSocket.Interrupt(false); iSocket.ReCreate(); iRecreateSocket = false; } catch (NetworkError&) { LOG2(kSsdpMulticast, kError, "SSDP Multicast failed to recreate socket after library Resumed\n"); } } } }