void OsclDNSMethod::Run() { //the request timed out! MethodDone(); LOGINFOMED((0, "OsclSocket: %s %s", TPVDNSFxnStr[iDNSFxn], TPVDNSEventStr[EPVDNSTimeout])); iDNSObserver->HandleDNSEvent(iId, iDNSFxn, EPVDNSTimeout, 0); }
void OsclDNSRequestAO::Run() { //the request was completed. RequestDone(); switch (Status()) { case OSCL_REQUEST_ERR_NONE: Success(); LOGINFOMED((0, "OsclSocket: %s %s", TPVDNSFxnStr[iDNSMethod->iDNSFxn], TPVDNSEventStr[EPVDNSSuccess])); iDNSMethod->iDNSObserver->HandleDNSEvent(iDNSMethod->iId, iDNSMethod->iDNSFxn, EPVDNSSuccess, 0); break; case OSCL_REQUEST_ERR_CANCEL: LOGINFOMED((0, "OsclSocket: %s %s", TPVDNSFxnStr[iDNSMethod->iDNSFxn], TPVDNSEventStr[EPVDNSCancel])); iDNSMethod->iDNSObserver->HandleDNSEvent(iDNSMethod->iId, iDNSMethod->iDNSFxn, EPVDNSCancel, 0); break; default: LOGINFOMED((0, "OsclSocket: %s %s %d", TPVDNSFxnStr[iDNSMethod->iDNSFxn], TPVDNSEventStr[EPVDNSCancel], GetSocketError())); iDNSMethod->iDNSObserver->HandleDNSEvent(iDNSMethod->iId, iDNSMethod->iDNSFxn, EPVDNSFailure, GetSocketError()); break; } }
void OsclSocketRequestAO::Run() { //The server has completed the socket request. RequestDone(); // Check the request completion status switch (Status()) { case OSCL_REQUEST_ERR_NONE: ADD_STATS(iContainer.iSocketFxn, EOsclSocket_RequestAO_Success); Success(); LOGINFOMED((0, "OsclSocket(0x%x): %s %s ", SocketI(), TPVSocketFxnStr[iContainer.iSocketFxn], TPVSocketEventStr[EPVSocketSuccess])); LOG_STATS(iContainer.iSocketFxn); CLEAR_STATS(iContainer.iSocketFxn); SocketObserver()->HandleSocketEvent(Id(), iContainer.iSocketFxn, EPVSocketSuccess, 0); break; case OSCL_REQUEST_ERR_CANCEL: ADD_STATS(iContainer.iSocketFxn, EOsclSocket_RequestAO_Canceled); //Request was cancelled, either due to an API call or due to the //socket server shutting down before completing the operation. LOGINFOMED((0, "OsclSocket(0x%x): %s %s ", SocketI(), TPVSocketFxnStr[iContainer.iSocketFxn], TPVSocketEventStr[EPVSocketCancel])); LOG_STATS(iContainer.iSocketFxn); CLEAR_STATS(iContainer.iSocketFxn); SocketObserver()->HandleSocketEvent(Id(), iContainer.iSocketFxn, EPVSocketCancel, 0); break; default: ADD_STATS(iContainer.iSocketFxn, EOsclSocket_RequestAO_Error); //Some error. LOGINFOMED((0, "OsclSocket(0x%x): %s %s %d", SocketI(), TPVSocketFxnStr[iContainer.iSocketFxn], TPVSocketEventStr[EPVSocketFailure], GetSocketError())); LOG_STATS(iContainer.iSocketFxn); CLEAR_STATS(iContainer.iSocketFxn); SocketObserver()->HandleSocketEvent(Id(), iContainer.iSocketFxn, EPVSocketFailure, GetSocketError()); break; } }
OsclAny* OsclSocketRequestAO::NewRequest(const uint32 size) { //Activate the AO. The socket server will complete the request. PendForExec(); bool reallocate = (!iParam || size != iParamSize); //Cleanup any previous parameters. CleanupParam(reallocate); LOGINFOMED((0, "OsclSocket(0x%x): New Request %s", SocketI(), TPVSocketFxnStr[iContainer.iSocketFxn])); //Allocate space for new parameters, or recycle current space. if (reallocate) { iParamSize = size; return Alloc().ALLOCATE(size); } else return iParam; }
//////////// Request AO ////////////////////// void OsclDNSRequestAO::NewRequest() { PendForExec(); LOGINFOMED((0, "OsclSocket: New Request %s", TPVDNSFxnStr[iDNSMethod->iDNSFxn])); }