CWBool ACEnterRun(int WTPIndex, CWProtocolMessage *msgPtr, CWBool dataFlag) { CWBool toSend = CW_FALSE, timerSet = CW_TRUE; CWControlHeaderValues controlVal; CWProtocolMessage* messages = NULL; int messagesCount = 0; unsigned char StationMacAddr[MAC_ADDR_LEN]; char string[10]; char socketctl_path_name[50]; char socketserv_path_name[50]; msgPtr->offset = 0; // cancel NeighborDeadTimer timer CWStopNeighborDeadTimer(WTPIndex); timerSet = CW_FALSE; if (dataFlag) { /* We have received a Data Message... now just log this event and do actions by the dataType */ CWLog("--> Received a DATA Message"); if (msgPtr->data_msgType == CW_DATA_MSG_FRAME_TYPE) { /*Retrive mac address station from msg*/ memset(StationMacAddr, 0, MAC_ADDR_LEN); memcpy(StationMacAddr, msgPtr->msg + SOURCE_ADDR_START, MAC_ADDR_LEN); int seqNum = CWGetSeqNum(); //Send a Station Configuration Request if (CWAssembleStationConfigurationRequest(&(gWTPs[WTPIndex].messages), &(gWTPs[WTPIndex].messagesCount), gWTPs[WTPIndex].pathMTU, seqNum, StationMacAddr)) { if (CWACSendAcknowledgedPacket(WTPIndex, CW_MSG_TYPE_VALUE_STATION_CONFIGURATION_RESPONSE, seqNum)) return CW_TRUE; else CWACStopRetransmission(WTPIndex); } } else { /************************************************************ * Update 2009: * * Manage special data packets with frequency * * statistics informations. * ************************************************************/ if (msgPtr->data_msgType == CW_DATA_MSG_FREQ_STATS_TYPE) { int cells; /* How many cell are heard */ int isAck; char * freqPayload; int socketIndex, indexToSend = htonl(WTPIndex); int sizeofAckInfoUnit = CW_FREQ_ACK_SIZE; int sizeofFreqInfoUnit = CW_FREQ_CELL_INFO_PAYLOAD_SIZE; int sizeOfPayload = 0, payload_offset = 0; /*----------------------------------------------------------------------------------------------- * Payload Management ( infos for frequency application) : * Ack Structure : | WTPIndex | Ack Value | * Freq Info Structure : | WTPIndex | Number of cells | Frequecies Info Payload | *-----------------------------------------------------------------------------------------------*/ memcpy(&isAck, msgPtr->msg, sizeof(int)); isAck = ntohl(isAck); if (isAck == 0) { /* isnt an ack message */ memcpy(&cells, msgPtr->msg + sizeof(int), sizeof(int)); cells = ntohl(cells); sizeOfPayload = (cells * sizeofFreqInfoUnit) + (2 * sizeof(int)); } else { sizeOfPayload = sizeofAckInfoUnit; } if ((freqPayload = malloc(sizeOfPayload)) != NULL) { memset(freqPayload, 0, sizeOfPayload); memcpy(freqPayload, &indexToSend, sizeof(int)); payload_offset += sizeof(int); if (isAck == 0) { memcpy(freqPayload + payload_offset, msgPtr->msg + sizeof(int), sizeOfPayload - payload_offset); } else { memcpy(freqPayload + payload_offset, msgPtr->msg + sizeof(int), sizeOfPayload - payload_offset); } socketIndex = gWTPs[WTPIndex].applicationIndex; /**************************************************** * Forward payload to correct application * ****************************************************/ if (!CWErr(CWThreadMutexLock(&appsManager.socketMutex[socketIndex]))) { CWLog("[ACrunState]:: Error locking socket Application Mutex"); free(freqPayload); return CW_FALSE; } if (Writen(appsManager.appSocket[socketIndex], freqPayload, sizeOfPayload) < 0) { CWThreadMutexUnlock(&appsManager.socketMutex[socketIndex]); free(freqPayload); CWLog("[ACrunState]:: Error writing Message To Application"); return CW_FALSE; } CWThreadMutexUnlock(&appsManager.socketMutex[socketIndex]); free(freqPayload); } else CWLog("[ACrunState]:: Malloc error (payload to frequency application"); } if (msgPtr->data_msgType == CW_DATA_MSG_STATS_TYPE) { if (!UnixSocksArray[WTPIndex].data_stats_sock) { //Init Socket only the first time when the function is called if ((UnixSocksArray[WTPIndex].data_stats_sock = socket(AF_UNIX, SOCK_DGRAM, 0)) < 0) { CWDebugLog("Error creating socket for data send"); return CW_FALSE; } memset(&(UnixSocksArray[WTPIndex].clntaddr), (int) NULL, sizeof(UnixSocksArray[WTPIndex].clntaddr)); UnixSocksArray[WTPIndex].clntaddr.sun_family = AF_UNIX; //make unix socket client path name by index i snprintf(string, sizeof(string), "%d", WTPIndex); string[sizeof(string) - 1] = 0; strcpy(socketctl_path_name, SOCKET_PATH_AC); strcat(socketctl_path_name, string); strcpy(UnixSocksArray[WTPIndex].clntaddr.sun_path, socketctl_path_name); unlink(socketctl_path_name); memset(&(UnixSocksArray[WTPIndex].servaddr), (int) NULL, sizeof(UnixSocksArray[WTPIndex].servaddr)); UnixSocksArray[WTPIndex].servaddr.sun_family = AF_UNIX; //make unix socket server path name by index i strcpy(socketserv_path_name, SOCKET_PATH_RECV_AGENT); strcat(socketserv_path_name, string); strcpy(UnixSocksArray[WTPIndex].servaddr.sun_path, socketserv_path_name); CWDebugLog("%s\t%s", socketserv_path_name, socketctl_path_name); //fflush(stdout); } int nbytes; int totalBytesToSend = 0; bcopy((char*) msgPtr->msg, (char*) &totalBytesToSend, sizeof(unsigned int)); totalBytesToSend = ntohl(totalBytesToSend); int pDataLen = totalBytesToSend; //len of Monitoring Data //CWDebugLog("\n%s\t%s", socketserv_path_name, socketctl_path_name); CWDebugLog("Total bytes to send %d", totalBytesToSend); //Send data stats from AC thread to monitor client over unix socket nbytes = sendto(UnixSocksArray[WTPIndex].data_stats_sock, msgPtr->msg, pDataLen, 0, (struct sockaddr *) &(UnixSocksArray[WTPIndex].servaddr), sizeof(UnixSocksArray[WTPIndex].servaddr)); if (nbytes < 0) { CWDebugLog("Error sending data over socket"); perror("send error"); return CW_FALSE; } } } return CW_TRUE; } if (!(CWACParseGenericRunMessage(WTPIndex, msgPtr, &controlVal))) { /* Two possible errors: WRONG_ARG and INVALID_FORMAT * In the second case we have an unexpected response: ignore the * message and log the event. */ return CW_FALSE; } switch (controlVal.messageTypeValue) { case CW_MSG_TYPE_VALUE_CONFIGURE_UPDATE_RESPONSE: { CWProtocolResultCode resultCode; /*Update 2009: Store Protocol specific response data*/ CWProtocolVendorSpecificValues* protocolValues = NULL; if (!(CWParseConfigurationUpdateResponseMessage(msgPtr, controlVal.msgElemsLen, &resultCode, &protocolValues))) return CW_FALSE; CWACStopRetransmission(WTPIndex); if (timerSet) { if (!CWRestartNeighborDeadTimer(WTPIndex)) { CWDebugLog("CWRestartNeighborDeadTimer returned false"); CWCloseThread(); } } else { if (!CWStartNeighborDeadTimer(WTPIndex)) { CWDebugLog("CWStartNeighborDeadTimer returned false"); CWCloseThread(); } } //CWSaveConfigurationUpdateResponseMessage(resultCode, WTPIndex, protocolValues); if (resultCode == CW_PROTOCOL_SUCCESS) { CWDebugLog("Result Success for Configuration update!!"); //gWTPs[WTPIndex].isRequestClose = CW_TRUE; //CWSignalThreadCondition(&gWTPs[WTPIndex].interfaceWait); } /*if (gWTPs[WTPIndex].interfaceCommandProgress == CW_TRUE) { CWThreadMutexLock(&gWTPs[WTPIndex].interfaceMutex); gWTPs[WTPIndex].interfaceResult = 1; gWTPs[WTPIndex].interfaceCommandProgress = CW_FALSE; CWSignalThreadCondition(&gWTPs[WTPIndex].interfaceComplete); CWThreadMutexUnlock(&gWTPs[WTPIndex].interfaceMutex); }*/ break; } case CW_MSG_TYPE_VALUE_CHANGE_STATE_EVENT_REQUEST: { CWProtocolChangeStateEventRequestValues *valuesPtr; if (!(CWParseChangeStateEventRequestMessage2(msgPtr, controlVal.msgElemsLen, &valuesPtr))) return CW_FALSE; if (timerSet) { if (!CWRestartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } else { if (!CWStartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } if (!(CWSaveChangeStateEventRequestMessage(valuesPtr, &(gWTPs[WTPIndex].WTPProtocolManager)))) return CW_FALSE; if (!(CWAssembleChangeStateEventResponse(&messages, &messagesCount, gWTPs[WTPIndex].pathMTU, controlVal.seqNum))) return CW_FALSE; toSend = CW_TRUE; break; } case CW_MSG_TYPE_VALUE_ECHO_REQUEST: { if (!(CWParseEchoRequestMessage(msgPtr, controlVal.msgElemsLen))) return CW_FALSE; if (timerSet) { if (!CWRestartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } else { if (!CWStartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } if (!(CWAssembleEchoResponse(&messages, &messagesCount, gWTPs[WTPIndex].pathMTU, controlVal.seqNum))) return CW_FALSE; toSend = CW_TRUE; break; } case CW_MSG_TYPE_VALUE_STATION_CONFIGURATION_RESPONSE: { CWProtocolResultCode resultCode; if (!(CWParseStationConfigurationResponseMessage(msgPtr, controlVal.msgElemsLen, &resultCode))) return CW_FALSE; CWACStopRetransmission(WTPIndex); if (timerSet) { if (!CWRestartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } else { if (!CWStartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } //CWSaveStationConfigurationResponseMessage(resultCode, WTPIndex); <-- Must be Implemented ???? break; } case CW_MSG_TYPE_VALUE_CLEAR_CONFIGURATION_RESPONSE: { CWProtocolResultCode resultCode; if (!(CWParseClearConfigurationResponseMessage(msgPtr, controlVal.msgElemsLen, &resultCode))) return CW_FALSE; CWACStopRetransmission(WTPIndex); if (timerSet) { if (!CWRestartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } else { if (!CWStartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } if (gWTPs[WTPIndex].interfaceCommandProgress == CW_TRUE) { CWThreadMutexLock(&gWTPs[WTPIndex].interfaceMutex); gWTPs[WTPIndex].interfaceResult = 1; gWTPs[WTPIndex].interfaceCommandProgress = CW_FALSE; CWSignalThreadCondition(&gWTPs[WTPIndex].interfaceComplete); CWThreadMutexUnlock(&gWTPs[WTPIndex].interfaceMutex); } break; } case CW_MSG_TYPE_VALUE_DATA_TRANSFER_REQUEST: { CWProtocolWTPDataTransferRequestValues valuesPtr; if (!(CWParseWTPDataTransferRequestMessage(msgPtr, controlVal.msgElemsLen, &valuesPtr))) return CW_FALSE; if (timerSet) { if (!CWRestartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } else { if (!CWStartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } if (!(CWAssembleWTPDataTransferResponse(&messages, &messagesCount, gWTPs[WTPIndex].pathMTU, controlVal.seqNum))) return CW_FALSE; toSend = CW_TRUE; break; } case CW_MSG_TYPE_VALUE_WTP_EVENT_REQUEST: { CWProtocolWTPEventRequestValues valuesPtr; if (!(CWParseWTPEventRequestMessage(msgPtr, controlVal.msgElemsLen, &valuesPtr))) return CW_FALSE; if (timerSet) { if (!CWRestartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } else { if (!CWStartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } if (!(CWSaveWTPEventRequestMessage(&valuesPtr, &(gWTPs[WTPIndex].WTPProtocolManager)))) return CW_FALSE; if (!(CWAssembleWTPEventResponse(&messages, &messagesCount, gWTPs[WTPIndex].pathMTU, controlVal.seqNum))) return CW_FALSE; toSend = CW_TRUE; break; } default: /* * We have an unexpected request and we have to send * a corresponding response containing a failure result code */ CWLog("--> Not valid Request in Run State... we send a failure Response"); if (timerSet) { if (!CWRestartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } else { if (!CWStartNeighborDeadTimer(WTPIndex)) { CWCloseThread(); } } if (!(CWAssembleUnrecognizedMessageResponse(&messages, &messagesCount, gWTPs[WTPIndex].pathMTU, controlVal.seqNum, controlVal.messageTypeValue + 1))) return CW_FALSE; toSend = CW_TRUE; /*return CWErrorRaise(CW_ERROR_INVALID_FORMAT, "Message not valid in Run State");*/ } if (toSend) { int i; CWDebugLog("There is something so send..."); if (messages == NULL) return CWErrorRaise(CW_ERROR_WRONG_ARG, NULL); for (i = 0; i < messagesCount; i++) { #ifdef CW_NO_DTLS if(!CWNetworkSendUnsafeUnconnected(gWTPs[WTPIndex].socket, &gWTPs[WTPIndex].address, messages[i].msg, messages[i].offset) ) { #else if (!(CWSecuritySend(gWTPs[WTPIndex].session, messages[i].msg, messages[i].offset))) { #endif CWFreeMessageFragments(messages, messagesCount); CW_FREE_OBJECT(messages); return CW_FALSE; } } CWFreeMessageFragments(messages, messagesCount); CW_FREE_OBJECT(messages); } gWTPs[WTPIndex].currentState = CW_ENTER_RUN; gWTPs[WTPIndex].subState = CW_WAITING_REQUEST; CWDebugLog("Coming out of ACEnterRun.."); return CW_TRUE; } CWBool CWACParseGenericRunMessage(int WTPIndex, CWProtocolMessage *msg, CWControlHeaderValues* controlVal) { if (msg == NULL || controlVal == NULL) return CWErrorRaise(CW_ERROR_WRONG_ARG, NULL); if (!(CWParseControlHeader(msg, controlVal))) /* will be handled by the caller */ return CW_FALSE; /* skip timestamp */ controlVal->msgElemsLen -= CW_CONTROL_HEADER_OFFSET_FOR_MSG_ELEMS; /* Check if it is a request */ if (controlVal->messageTypeValue % 2 == 1) { return CW_TRUE; } if ((gWTPs[WTPIndex].responseSeqNum != controlVal->seqNum) || (gWTPs[WTPIndex].responseType != controlVal->messageTypeValue)) { CWDebugLog("gWTPs: %d\n", gWTPs[WTPIndex].responseSeqNum); CWDebugLog("controlVal: %d\n", controlVal->seqNum); CWErrorRaise(CW_ERROR_INVALID_FORMAT, "Seq Num or Msg Type not valid!"); return CW_FALSE; } return CW_TRUE; } /*Update 2009: Added vendValues to include a response payload (to pass response data)*/ CWBool CWParseConfigurationUpdateResponseMessage(CWProtocolMessage* msgPtr, int len, CWProtocolResultCode* resultCode, CWProtocolVendorSpecificValues** vendValues) { int offsetTillMessages; if (msgPtr == NULL || resultCode == NULL) return CWErrorRaise(CW_ERROR_WRONG_ARG, NULL); if ((msgPtr->msg) == NULL) return CWErrorRaise(CW_ERROR_WRONG_ARG, NULL); offsetTillMessages = msgPtr->offset; CWLog("Parsing Configuration Update Response..."); /* parse message elements */ while ((msgPtr->offset - offsetTillMessages) < len) { unsigned short int elemType = 0; unsigned short int elemLen = 0; CWParseFormatMsgElem(msgPtr, &elemType, &elemLen); switch (elemType) { case CW_MSG_ELEMENT_RESULT_CODE_CW_TYPE: *resultCode = CWProtocolRetrieve32(msgPtr); break; /*Update 2009: Added case to implement conf update response with payload*/ case CW_MSG_ELEMENT_RESULT_CODE_CW_TYPE_WITH_PAYLOAD: { int payloadSize = 0; CW_CREATE_OBJECT_ERR(*vendValues, CWProtocolVendorSpecificValues, return CWErrorRaise(CW_ERROR_OUT_OF_MEMORY, NULL);); *resultCode = CWProtocolRetrieve32(msgPtr); if (CWProtocolRetrieve16(msgPtr) != CW_MSG_ELEMENT_VENDOR_SPEC_PAYLOAD_CW_TYPE) /*For now, we only have UCI payloads, so we will accept only vendor payloads for protocol data*/ return CWErrorRaise(CW_ERROR_INVALID_FORMAT, "Unrecognized Message Element in Configuration Update Response"); (*vendValues)->vendorPayloadType = CWProtocolRetrieve16(msgPtr); switch ((*vendValues)->vendorPayloadType) { case CW_MSG_ELEMENT_VENDOR_SPEC_PAYLOAD_UCI: payloadSize = CWProtocolRetrieve32(msgPtr); if (payloadSize != 0) { (*vendValues)->payload = (void *) CWProtocolRetrieveStr(msgPtr, payloadSize); } else (*vendValues)->payload = NULL; break; case CW_MSG_ELEMENT_VENDOR_SPEC_PAYLOAD_WUM: payloadSize = CWProtocolRetrieve32(msgPtr); if (payloadSize <= 0) { /* Payload can't be zero here, * at least the message type must be specified */ return CWErrorRaise(CW_ERROR_INVALID_FORMAT, "Unrecognized Message Element in Configuration Update Response"); } (*vendValues)->payload = (void *) CWProtocolRetrieveRawBytes(msgPtr, payloadSize); break; default: return CWErrorRaise(CW_ERROR_INVALID_FORMAT, "Unrecognized Message Element in Configuration Update Response"); break; } } break; default: return CWErrorRaise(CW_ERROR_INVALID_FORMAT, "Unrecognized Message Element in Configuration Update Response"); break; } }
CWBool CWParseConfigureRequestMessage(char *msg, int len, int *seqNumPtr, CWProtocolConfigureRequestValues *valuesPtr) { CWControlHeaderValues controlVal; int i,j; int offsetTillMessages; CWProtocolMessage completeMsg; if(msg == NULL || seqNumPtr == NULL || valuesPtr == NULL) return CWErrorRaise(CW_ERROR_WRONG_ARG, NULL); CWDebugLog("Parsing Configure Request..."); completeMsg.msg = msg; completeMsg.offset = 0; if(!(CWParseControlHeader(&completeMsg, &controlVal))) /* will be handled by the caller */ return CW_FALSE; /* different type */ if(controlVal.messageTypeValue != CW_MSG_TYPE_VALUE_CONFIGURE_REQUEST){ CWLog("messageTypeValue=%o", controlVal.messageTypeValue); return CWErrorRaise(CW_ERROR_INVALID_FORMAT, "Message is not Configure Request (maybe it is Image Data Request)"); } *seqNumPtr = controlVal.seqNum; /* skip timestamp */ controlVal.msgElemsLen -= CW_CONTROL_HEADER_OFFSET_FOR_MSG_ELEMS; offsetTillMessages = completeMsg.offset; /* valuesPtr->WTPRadioInfo.radiosCount=0; */ valuesPtr->ACinWTP.count=0; valuesPtr->radioAdminInfoCount=0; /* parse message elements */ while((completeMsg.offset-offsetTillMessages) < controlVal.msgElemsLen) { unsigned short int elemType = 0;/* = CWProtocolRetrieve32(&completeMsg); */ unsigned short int elemLen = 0; /* = CWProtocolRetrieve16(&completeMsg); */ CWParseFormatMsgElem(&completeMsg,&elemType,&elemLen); /*CWDebugLog("Parsing Message Element: %u, elemLen: %u", elemType, elemLen);*/ switch(elemType) { case CW_MSG_ELEMENT_AC_NAME_CW_TYPE: if(!(CWParseACName(&completeMsg, elemLen, &(valuesPtr->ACName)))) /* will be handled by the caller */ return CW_FALSE; break; case CW_MSG_ELEMENT_AC_NAME_INDEX_CW_TYPE: /* just count how many radios we have, * so we can allocate the array */ valuesPtr->ACinWTP.count++; completeMsg.offset += elemLen; break; case CW_MSG_ELEMENT_RADIO_ADMIN_STATE_CW_TYPE: /* just count how many radios we have, * so we can allocate the array */ (valuesPtr->radioAdminInfoCount)++; completeMsg.offset += elemLen; break; case CW_MSG_ELEMENT_STATISTICS_TIMER_CW_TYPE: if(!(CWParseWTPStatisticsTimer(&completeMsg, elemLen, &(valuesPtr->StatisticsTimer)))) /* will be handled by the caller */ return CW_FALSE; break; case CW_MSG_ELEMENT_WTP_REBOOT_STATISTICS_CW_TYPE: CW_CREATE_OBJECT_ERR(valuesPtr->WTPRebootStatistics, WTPRebootStatisticsInfo, return CWErrorRaise(CW_ERROR_OUT_OF_MEMORY, NULL);); if(!(CWParseWTPRebootStatistics(&completeMsg, elemLen, valuesPtr->WTPRebootStatistics))) /* will be handled by the caller */ return CW_FALSE; break; default: return CWErrorRaise(CW_ERROR_INVALID_FORMAT, "Unrecognized Message Element"); } }