MSG_CLASSIFY_T* DEV_CreateEventNotify(char* subtype, char* message) { MSG_CLASSIFY_T *pRoot = MSG_CreateRoot(); if(!pRoot) return pRoot; CreateEventBody(pRoot, subtype, message); return pRoot; }
MSG_CLASSIFY_T* GPS_CreateGPS() { MSG_CLASSIFY_T *pRoot = MSG_CreateRoot(); MSG_CLASSIFY_T *pGPS, *pDevs; if(pRoot) { pGPS =MSG_AddIoTClassify(pRoot, TAG_GPS_ROOT, "1.0", false); pDevs = MSG_AddIoTClassify(pGPS, TAG_GPS_DEVICE_GROUP, "1.0", true); } return pRoot; }
MSG_CLASSIFY_T* DEV_CreateFullEventNotify(char* devID, int severity, char* handler, char* subtype, char* message) { MSG_CLASSIFY_T *pRoot = MSG_CreateRoot(); MSG_CLASSIFY_T *pSusiComm, *pEventNotify = NULL; long long tick = 0; int i=0; MSG_ATTRIBUTE_T *attr; if(pRoot) { pSusiComm = MSG_AddJSONClassify(pRoot, TAG_SUSICOMM_ROOT, NULL, false); pEventNotify = MSG_AddJSONClassify(pSusiComm, TAG_EVENT_NOTIFY, NULL, false); CreateEventBody(pEventNotify, subtype, message); attr = MSG_AddJSONAttribute(pEventNotify, TAG_EVENT_SEVERITY); if(attr) MSG_SetFloatValue(attr, severity, NULL, NULL); if(handler) { attr = MSG_AddJSONAttribute(pEventNotify, TAG_EVENT_HANDLER); if(attr) MSG_SetStringValue(attr, handler, NULL); } attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_CMD); if(attr) MSG_SetFloatValue(attr, 2059, NULL, NULL); //fixed to 2059 attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_REQID); if(attr) MSG_SetFloatValue(attr, 2001, NULL, NULL); //fixed to 2001 attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_AGENTID); if(attr) MSG_SetStringValue(attr, devID, NULL); attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_HANDLER_NAME); if(attr) MSG_SetStringValue(attr, "general", NULL); //fixed to 'general' attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_TIMESTAMP); if(attr) { tick = (long long)time((time_t *) NULL); MSG_SetFloatValue(attr, tick, NULL, NULL); } } return pRoot; }
MSG_CLASSIFY_T* DEV_CreateHandlerList(char* devID, char** handldelist, int count) { MSG_CLASSIFY_T *pRoot = MSG_CreateRoot(); MSG_CLASSIFY_T *pSusiComm, *pHandlerList = NULL; long long tick = 0; int i=0; MSG_ATTRIBUTE_T *attr; if(pRoot) { pSusiComm = MSG_AddJSONClassify(pRoot, TAG_SUSICOMM_ROOT, NULL, false); pHandlerList = MSG_AddJSONClassify(pSusiComm, TAG_HANDLER_LIST, NULL, true); for(i=0; i<count; i++) { attr = MSG_AddJSONAttribute(pHandlerList, handldelist[i]); MSG_SetStringValue(attr, handldelist[i], NULL); //fixed to 'general' } attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_CMD); if(attr) MSG_SetFloatValue(attr, 124, NULL, NULL); //fixed to 124 attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_REQID); if(attr) MSG_SetFloatValue(attr, 1001, NULL, NULL); //fixed to 1001 attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_AGENTID); if(attr) MSG_SetStringValue(attr, devID, NULL); attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_HANDLER_NAME); if(attr) MSG_SetStringValue(attr, "general", NULL); //fixed to 'general' attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_TIMESTAMP); if(attr) { tick = (long long)time((time_t *) NULL); MSG_SetFloatValue(attr, tick, NULL, NULL); } } return pRoot; }
MSG_CLASSIFY_T* DEV_CreateWillMessage(susiaccess_agent_profile_body_t* profile) { MSG_CLASSIFY_T *pRoot = MSG_CreateRoot(); MSG_CLASSIFY_T *pSusiComm; long long tick = 0; MSG_ATTRIBUTE_T *attr; if(pRoot) { pSusiComm = MSG_AddJSONClassify(pRoot, TAG_SUSICOMM_ROOT, NULL, false); DEV_CreateAgentInfoBody(pSusiComm, profile); attr = MSG_AddJSONAttribute(pSusiComm, TAG_AGENTINFO_CONNECT_STATUS); if(attr) MSG_SetFloatValue(attr, 0, NULL, NULL); //disconnected attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_CMD); if(attr) MSG_SetFloatValue(attr, 1, NULL, NULL); //fixed to 1 attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_REQID); if(attr) MSG_SetFloatValue(attr, 21, NULL, NULL); //fixed to 21 attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_AGENTID); if(attr) MSG_SetStringValue(attr, profile->devId, NULL); attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_HANDLER_NAME); if(attr) MSG_SetStringValue(attr, "general", NULL); //fixed to 'general' attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_TIMESTAMP); if(attr) { tick = (long long)time((time_t *) NULL); MSG_SetFloatValue(attr, tick, NULL, NULL); } } return pRoot; }
MSG_CLASSIFY_T* DEV_CreateOSInfo(susiaccess_agent_profile_body_t* profile) { MSG_CLASSIFY_T *pRoot = MSG_CreateRoot(); MSG_CLASSIFY_T *pSusiComm, *pOSInfo = NULL; long long tick = 0; MSG_ATTRIBUTE_T *attr; if(pRoot) { pSusiComm = MSG_AddJSONClassify(pRoot, TAG_SUSICOMM_ROOT, NULL, false); pOSInfo = MSG_AddJSONClassify(pSusiComm, TAG_OSINFO_ROOT, NULL, false); attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_AGENT_VERSION); if(attr) MSG_SetStringValue(attr, profile->version, NULL); attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_OS_VERSION); if(attr) MSG_SetStringValue(attr, profile->osversion, NULL); attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_BIOS_VERSION); if(attr) MSG_SetStringValue(attr, profile->biosversion, NULL); attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_PLATFROM_NAME); if(attr) MSG_SetStringValue(attr, profile->platformname, NULL); attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_PROCESSOR_NAME); if(attr) MSG_SetStringValue(attr, profile->processorname, NULL); attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_OS_ARCH); if(attr) MSG_SetStringValue(attr, profile->osarchitect, NULL); attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_TOTAL_MEMORY); if(attr) MSG_SetFloatValue(attr, profile->totalmemsize, NULL, NULL); //fixed to 116 attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_MAC_LIST); if(attr) MSG_SetStringValue(attr, profile->maclist, NULL); attr = MSG_AddJSONAttribute(pOSInfo, TAG_OSINFO_LOCAL_IP); if(attr) MSG_SetStringValue(attr, profile->localip, NULL); attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_CMD); if(attr) MSG_SetFloatValue(attr, 116, NULL, NULL); //fixed to 116 attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_REQID); if(attr) MSG_SetFloatValue(attr, 161, NULL, NULL); //fixed to 16 attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_AGENTID); if(attr) MSG_SetStringValue(attr, profile->devId, NULL); attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_HANDLER_NAME); if(attr) MSG_SetStringValue(attr, "general", NULL); //fixed to 'general' attr = MSG_AddJSONAttribute(pSusiComm, TAG_SUSICOMM_TIMESTAMP); if(attr) { tick = (long long)time((time_t *) NULL); MSG_SetFloatValue(attr, tick, NULL, NULL); } } return pRoot; }
int main(int argc, char *argv[]) { int iRet = 0; //susiaccess_agent_conf_body_t config; susiaccess_agent_profile_body_t profile; char *buffer = NULL; #ifdef MEM_LEAK_CHECK _CrtSetDbgFlag ( _CRTDBG_ALLOC_MEM_DF | _CRTDBG_LEAK_CHECK_DF ); //_CrtSetBreakAlloc(3719); _CrtMemCheckpoint( &memStateStart); #endif /* memset(&config, 0 , sizeof(susiaccess_agent_conf_body_t)); strcpy(config.runMode,"remote"); strcpy(config.autoStart,"True"); strcpy(config.serverIP,"172.22.12.12"); strcpy(config.serverPort,"1883"); strcpy(config.serverAuth,"F0PE1/aaU8o="); config.tlstype = tls_type_none; switch(config.tlstype) { case tls_type_none: break; case tls_type_tls: { strcpy(config.cafile, "ca.crt"); strcpy(config.capath, ""); strcpy(config.certfile, "server.crt"); strcpy(config.keyfile, "server.key"); strcpy(config.cerpasswd, "123456"); } break; case tls_type_psk: { strcpy(config.psk, ""); strcpy(config.identity, "SAClientSample"); strcpy(config.ciphers, ""); } break; } */ memset(&profile, 0 , sizeof(susiaccess_agent_profile_body_t)); sprintf_s(profile.version, DEF_VERSION_LENGTH, "%d.%d.%d.%d", 3, 1, 0, 0); strcpy(profile.hostname,"SAClientSample"); strcpy(profile.devId,"000014DAE996BE04"); strcpy(profile.sn,"14DAE996BE04"); strcpy(profile.mac,"14DAE996BE04"); strcpy(profile.type,"IPC"); strcpy(profile.product,"Sample Agent"); strcpy(profile.manufacture,"test"); strcpy(profile.osversion,"NA"); strcpy(profile.biosversion,"NA"); strcpy(profile.platformname,"NA"); strcpy(profile.processorname,"NA"); strcpy(profile.osarchitect,"NA"); profile.totalmemsize = 40832; strcpy(profile.maclist,"14DAE996BE04"); strcpy(profile.localip,"172.22.12.21"); strcpy(profile.account,"anonymous"); strcpy(profile.passwd,""); strcpy(profile.workdir, ""); /*GPS Test*/ { MSG_CLASSIFY_T *dev = NULL; MSG_CLASSIFY_T *gps = NULL; gps = GPS_CreateGPS(); dev = GPS_AddDevice(gps, "/dev/0", "1.0"); GPS_SetLatitudeAttribute(dev, 0, 180, -180, NULL); GPS_SetLongitudeAttribute(dev, 0, 90, -90, NULL); GPS_SetCustomFloatAttribute(dev, "Skey", "xdop", "r", 2.53, NULL); buffer = GPS_PrintUnformatted(gps); printf("GPS Format:\r\n%s\r\n", buffer); free(buffer); GPS_ReleaseGPS(gps); } printf("Click enter to next"); fgetc(stdin); /*AgentInfo Test*/ { MSG_CLASSIFY_T *myDev = NULL; myDev = DEV_CreateAgentInfo(&profile); buffer = DEV_PrintUnformatted(myDev); printf("AgentInfo Format:\r\n%s\r\n", buffer); free(buffer); DEV_ReleaseDevice(myDev); buffer = DEV_GetAgentInfoTopic(profile.devId); printf("AgentInfo topic:\r\n%s\r\n", buffer); free(buffer); } printf("Click enter to next"); fgetc(stdin); /*WillMessage Test*/ { MSG_CLASSIFY_T *myDev = NULL; myDev = DEV_CreateWillMessage(&profile); buffer = DEV_PrintUnformatted(myDev); printf("Will Message Format:\r\n%s\r\n", buffer); free(buffer); DEV_ReleaseDevice(myDev); buffer = DEV_GetWillMessageTopic(profile.devId); printf("Will Message topic:\r\n%s\r\n", buffer); free(buffer); } printf("Click enter to next"); fgetc(stdin); /*OSInfo Test*/ { MSG_CLASSIFY_T *myDev = NULL; myDev = DEV_CreateOSInfo(&profile); buffer = DEV_PrintUnformatted(myDev); printf("OSInfo Format:\r\n%s\r\n", buffer); free(buffer); DEV_ReleaseDevice(myDev); buffer = DEV_GetOSInfoTopic(profile.devId); printf("OSInfo topic:\r\n%s\r\n", buffer); free(buffer); } printf("Click enter to next"); fgetc(stdin); /*HandlerList Test*/ { MSG_CLASSIFY_T *myDev = NULL; char* list[] = {"handler1","handler2","handler3"}; myDev = DEV_CreateHandlerList(profile.devId, list, 3); buffer = DEV_PrintUnformatted(myDev); printf("HandlerList Format:\r\n%s\r\n", buffer); free(buffer); DEV_ReleaseDevice(myDev); buffer = DEV_GetHandlerListTopic(profile.devId); printf("HandlerList topic:\r\n%s\r\n", buffer); free(buffer); } printf("Click enter to next"); fgetc(stdin); /*IoT Test*/ { MSG_CLASSIFY_T *myCapability = IoT_CreateRoot("Test"); MSG_CLASSIFY_T *myVoltGroup = IoT_AddGroup(myCapability, "Voltage"); MSG_CLASSIFY_T *myTempGroup = IoT_AddGroup(myCapability, "Temperature"); MSG_ATTRIBUTE_T *attrVolt1 = NULL, *attrVolt2 = NULL, *attrTemp1 = NULL, *attrTemp2 = NULL; MSG_ATTRIBUTE_T* attr = IoT_AddGroupAttribute(myVoltGroup, "bu"); if(attr) IoT_SetStringValue(attr, "V", IoT_READONLY); attr = IoT_AddGroupAttribute(myTempGroup, "bu"); if(attr) IoT_SetStringValue(attr, "Celsius", IoT_READONLY); attrVolt1 = IoT_AddSensorNode(myVoltGroup, "5V"); if(attrVolt1) IoT_SetFloatValueWithMaxMin(attrVolt1, 4.9, IoT_READONLY, 5.5, 4.5, "V"); attrVolt2 = IoT_AddSensorNode(myVoltGroup, "12V"); if(attrVolt2) IoT_SetFloatValueWithMaxMin(attrVolt2, 11, IoT_READONLY, 10, 14, "V"); attrTemp1 = IoT_AddSensorNode(myTempGroup, "CPU"); if(attrTemp1) IoT_SetFloatValue(attrTemp1, 65, IoT_READONLY, "Celsius"); attrTemp2 = IoT_AddSensorNode(myTempGroup, "SYS"); if(attrTemp2) IoT_SetFloatValue(attrTemp2, 50, IoT_READONLY, "Celsius"); buffer = IoT_PrintCapability(myCapability); printf("IoT Format:\r\n%s\r\n", buffer); free(buffer); printf("Click enter to next"); fgetc(stdin); if(attrVolt2) IoT_SetFloatValue(attrVolt2, 12, IoT_READONLY, "V"); if(attrTemp1) IoT_SetFloatValueWithMaxMin(attrTemp1, 80, IoT_READONLY, 100, 40, "Celsius"); buffer = IoT_PrintCapability(myCapability); printf("IoT Format2:\r\n%s\r\n", buffer); free(buffer); printf("Click enter to next"); fgetc(stdin); if(myVoltGroup) IoT_DelSensorNode(myVoltGroup, "SYS"); if(myTempGroup) IoT_DelSensorNode(myTempGroup, "SYS"); buffer = IoT_PrintCapability(myCapability); printf("IoT Format3:\r\n%s\r\n", buffer); free(buffer); printf("Click enter to next"); fgetc(stdin); buffer = IoT_PrintData(myCapability); printf("IoT Data:\r\n%s\r\n", buffer); free(buffer); IoT_ReleaseAll(myCapability); } printf("Click enter to next"); fgetc(stdin); /*EventNotify Test*/ { MSG_CLASSIFY_T *myEvent = NULL; myEvent = DEV_CreateEventNotify("MsgGen", "My MsgGenTest"); buffer = DEV_PrintUnformatted(myEvent); printf("EventNotify Format:\r\n%s\r\n", buffer); free(buffer); DEV_ReleaseDevice(myEvent); } printf("Click enter to next"); fgetc(stdin); /*Full EventNotify Test*/ { MSG_CLASSIFY_T *myEvent = NULL; myEvent = DEV_CreateFullEventNotify(profile.devId, 2, "MsgGen", "MsgGen", "My MsgGenTest"); buffer = DEV_PrintUnformatted(myEvent); printf("EventNotify Format2:\r\n%s\r\n", buffer); free(buffer); DEV_ReleaseDevice(myEvent); buffer = DEV_GetEventNotifyTopic(profile.devId); printf("EventNotify topic:\r\n%s\r\n", buffer); free(buffer); } printf("Click enter to next"); fgetc(stdin); /*Get/Set Sensor Data Test*/ { MSG_ATTRIBUTE_T *attr = NULL; MSG_CLASSIFY_T *pInfoList = NULL, *pEArray = NULL, *pSensor = NULL; MSG_CLASSIFY_T *pRoot = MSG_CreateRoot(); if(pRoot) { attr = MSG_AddJSONAttribute(pRoot, "sessionID"); if(attr) MSG_SetStringValue(attr, "1234", NULL); pInfoList = MSG_AddJSONClassify(pRoot, "sensorInfoList", NULL, false); if(pInfoList) pEArray = MSG_AddJSONClassify(pInfoList, "e", NULL, true); pSensor = MSG_AddJSONClassify(pEArray, "sensor", NULL, false); if(pSensor) { attr = MSG_AddJSONAttribute(pSensor, "n"); if(attr) MSG_SetStringValue(attr, "SUSIControl/Hardware Monitor/Voltage/CPU", NULL); attr = MSG_AddJSONAttribute(pSensor, "v"); if(attr) MSG_SetDoubleValue(attr, 10, NULL, NULL); attr = MSG_AddJSONAttribute(pSensor, "statusCode"); if(attr) MSG_SetDoubleValue(attr, 220, NULL, NULL); } pSensor = MSG_AddJSONClassify(pEArray, "sensor", NULL, false); if(pSensor) { attr = MSG_AddJSONAttribute(pSensor, "n"); if(attr) MSG_SetStringValue(attr, "SUSIControl/Hardware Monitor/Temperature/CPU", NULL); attr = MSG_AddJSONAttribute(pSensor, "v"); if(attr) MSG_SetDoubleValue(attr, 10, NULL, NULL); attr = MSG_AddJSONAttribute(pSensor, "statusCode"); if(attr) MSG_SetDoubleValue(attr, 220, NULL, NULL); } } buffer = MSG_PrintUnformatted(pRoot); printf("Get/Set Sensor Data:\r\n%s\r\n", buffer); free(buffer); MSG_ReleaseRoot(pRoot); } printf("Click enter to exit"); fgetc(stdin); #ifdef MEM_LEAK_CHECK _CrtMemCheckpoint( &memStateEnd ); if ( _CrtMemDifference( &memStateDiff, &memStateStart, &memStateEnd) ) _CrtMemDumpStatistics( &memStateDiff ); #endif return iRet; }
MSG_CLASSIFY_T* IoT_CreateRoot(char* handlerName) { MSG_CLASSIFY_T *pRoot = MSG_CreateRoot(); MSG_AddJSONClassify(pRoot, handlerName, NULL, false); return pRoot; }