BOOL VideoService_GetParamBoolValue ( ANSC_HANDLE hInsContext, char* ParamName, BOOL* pBool ) { if (AnscEqualString(ParamName, "Enabled", TRUE)) { char buf[5] = {0}; syscfg_get( NULL, "X_RDKCENTRAL-COM_VIDEOSERVICE", buf, sizeof(buf)); if( buf != NULL ) { if (strcmp(buf,"1") == 0) { *pBool = TRUE; return TRUE; } } *pBool = FALSE; return TRUE; } return FALSE; }
static int check_ethernet_wan_status() { int ret = -1, size =0, val_size =0; char compName[MAX_PARAMETERNAME_LEN/2] = { '\0' }; char dbusPath[MAX_PARAMETERNAME_LEN/2] = { '\0' }; parameterValStruct_t **parameterval = NULL; char *getList[] = {ETH_WAN_STATUS_PARAM}; componentStruct_t ** ppComponents = NULL; char dst_pathname_cr[256] = {0}; char isEthEnabled[64]={'\0'}; if(0 == syscfg_init()) { if( 0 == syscfg_get( NULL, "eth_wan_enabled", isEthEnabled, sizeof(isEthEnabled)) && (isEthEnabled[0] != '\0' && strncmp(isEthEnabled, "true", strlen("true")) == 0)) { CcspTraceInfo(("Ethernet WAN is enabled\n")); ret = CCSP_SUCCESS; } } else { waitForEthAgentComponentReady(); sprintf(dst_pathname_cr, "%s%s", "eRT.", CCSP_DBUS_INTERFACE_CR); ret = CcspBaseIf_discComponentSupportingNamespace(bus_handle, dst_pathname_cr, ETH_WAN_STATUS_PARAM, "", &ppComponents, &size); if ( ret == CCSP_SUCCESS && size >= 1) { strncpy(compName, ppComponents[0]->componentName, sizeof(compName)-1); strncpy(dbusPath, ppComponents[0]->dbusPath, sizeof(compName)-1); } else { CcspTraceError(("Failed to get component for %s ret: %d\n",ETH_WAN_STATUS_PARAM,ret)); } free_componentStruct_t(bus_handle, size, ppComponents); if(strlen(compName) != 0 && strlen(dbusPath) != 0) { ret = CcspBaseIf_getParameterValues(bus_handle, compName, dbusPath, getList, 1, &val_size, ¶meterval); if(ret == CCSP_SUCCESS && val_size > 0) { if(parameterval[0]->parameterValue != NULL && strncmp(parameterval[0]->parameterValue, "true", strlen("true")) == 0) { CcspTraceInfo(("Ethernet WAN is enabled\n")); ret = CCSP_SUCCESS; } else { CcspTraceInfo(("Ethernet WAN is disabled\n")); ret = CCSP_FAILURE; } } else { CcspTraceError(("Failed to get values for %s ret: %d\n",getList[0],ret)); } free_parameterValStruct_t(bus_handle, val_size, parameterval); } } return ret; }
BOOL ConnectivityTest_GetParamIntValue ( ANSC_HANDLE hInsContext, char* ParamName, int* pInt ) { PCOSA_DATAMODEL_SELFHEAL pMyObject = (PCOSA_DATAMODEL_SELFHEAL)g_pCosaBEManager->hSelfHeal; if( AnscEqualString(ParamName, "X_RDKCENTRAL-COM_RebootInterval", TRUE)) { /* collect value */ *pInt = pMyObject->pConnTest->RouterRebootInterval ; return TRUE; } if( AnscEqualString(ParamName, "X_RDKCENTRAL-COM_CurrentCount", TRUE)) { /* collect value */ char buf[16]={0}; syscfg_get( NULL, "todays_reset_count", buf, sizeof(buf)); if( buf[0] != '\0' ) { *pInt = atoi(buf); return TRUE; } } return FALSE; }
BOOL ConnectivityTest_GetParamUlongValue ( ANSC_HANDLE hInsContext, char* ParamName, ULONG* pUlong ) { PCOSA_DATAMODEL_SELFHEAL pMyObject = (PCOSA_DATAMODEL_SELFHEAL)g_pCosaBEManager->hSelfHeal; if( AnscEqualString(ParamName, "X_RDKCENTRAL-COM_PingInterval", TRUE)) { /* collect value */ *pUlong = pMyObject->pConnTest->PingInterval; return TRUE; } if( AnscEqualString(ParamName, "X_RDKCENTRAL-COM_NumPingsPerServer", TRUE)) { /* collect value */ *pUlong = pMyObject->pConnTest->PingCount; return TRUE; } if( AnscEqualString(ParamName, "X_RDKCENTRAL-COM_MinNumPingServer", TRUE)) { /* collect value */ *pUlong = pMyObject->pConnTest->MinPingServer; return TRUE; } if( AnscEqualString(ParamName, "X_RDKCENTRAL-COM_PingRespWaitTime", TRUE)) { /* collect value */ *pUlong = pMyObject->pConnTest->WaitTime; return TRUE; } if( AnscEqualString(ParamName, "X_RDKCENTRAL-COM_LastReboot", TRUE)) { /* collect value */ char buf[64]={0}; syscfg_get( NULL, "last_router_reboot_time", buf, sizeof(buf)); if( buf[0] != '\0' ) { *pUlong = atoi(buf); return TRUE; } } return FALSE; }
void alarm_handler(int signal) { char buf[4]; memset(buf, 0, sizeof(buf)); syscfg_get(NULL, "HomeSecurityEthernet4Flag", buf, sizeof(buf)); if(strcmp(buf, "1") && signal == SIGALRM) { //system("date"); homesecurity_timeout_handler(); log_printf(LOG_WARNING, "received alarm signal, stopping eth4 Home Security\n"); } }
ANSC_STATUS CosaDmlDiGetCloudCapable ( BOOL *pValue ) { int rc; char buf[5]; memset(buf, 0, sizeof(buf)); rc = syscfg_get( NULL, "cloud_capable_flag", buf, sizeof(buf)); if( rc == 0 ) { if (strcmp(buf,"1") == 0) *pValue = TRUE; else *pValue = FALSE; } return ANSC_STATUS_SUCCESS; }
ANSC_STATUS CosaUsersBackendGetUserInfo ( ANSC_HANDLE hThisObject ) { ANSC_STATUS returnStatus = ANSC_STATUS_SUCCESS; PCOSA_DATAMODEL_USERS pMyObject = (PCOSA_DATAMODEL_USERS)hThisObject; PCOSA_DML_USER pCosaUser = NULL; ULONG clientCount = 0; ULONG count = 0; ULONG ulIndex = 0; PCOSA_CONTEXT_LINK_OBJECT pUserCxtLink = NULL; PCOSA_CONTEXT_LINK_OBJECT pUserCxtLink2 = NULL; PCOSA_CONTEXT_LINK_OBJECT pCxtLink = NULL; BOOL bNeedSave = FALSE; /* Get Users.user.{i} */ clientCount = CosaDmlUserGetNumberOfEntries(NULL); for ( ulIndex = 0; ulIndex < clientCount; ulIndex++ ) { pCosaUser = (PCOSA_DML_USER)AnscAllocateMemory( sizeof(COSA_DML_USER) ); if ( !pCosaUser ) { break; } USERS_USER_SET_DEFAULTVALUE(pCosaUser); pCosaUser->NumOfFailedAttempts=0; returnStatus = CosaDmlUserGetEntry(NULL, ulIndex, pCosaUser); if ( returnStatus != ANSC_STATUS_SUCCESS ) { AnscFreeMemory(pCosaUser); break; } if (ulIndex == 2) { char buff[128]={'\0'}; syscfg_get( NULL, "hash_password_3",buff, sizeof(buff)); if( buff[0] != '\0' && pCosaUser->HashedPassword[0]== '\0') { _ansc_strncpy(pCosaUser->HashedPassword,buff,sizeof(pCosaUser->HashedPassword)); } } #if defined(_COSA_FOR_BCI_) if (ulIndex == 1) { char buff[128]={'\0'}; syscfg_get( NULL, "hash_password_2",buff, sizeof(buff)); if( buff[0] != '\0' && pCosaUser->HashedPassword[0]== '\0') { _ansc_strncpy(pCosaUser->HashedPassword,buff,sizeof(pCosaUser->HashedPassword)); } pCosaUser->LockOutRemainingTime = 0 ; memset(buff,0,sizeof(buff)); syscfg_get( NULL, "PasswordLockoutAttempts", buff, sizeof(buff)); if( atoi ( buff ) != 10 ) { memset(buff,0,sizeof(buff)); sprintf(buff, "%d", 10); syscfg_set(NULL, "PasswordLockoutAttempts", buff) ; syscfg_commit() ; } memset(buff,0,sizeof(buff)); syscfg_get( NULL, "NumOfFailedAttempts_2", buff, sizeof(buff)); if( buff[0] != '\0' ) { pCosaUser->NumOfFailedAttempts = atoi(buff) ; } memset(buff,0,sizeof(buff)); syscfg_get( NULL, "PasswordLoginCounts_2", buff, sizeof(buff)); if( buff[0] != '\0' ) { pCosaUser->LoginCounts = atoi(buff) ; } } #endif pUserCxtLink = (PCOSA_CONTEXT_LINK_OBJECT)AnscAllocateMemory( sizeof(COSA_CONTEXT_LINK_OBJECT) ); if ( !pUserCxtLink ) { AnscFreeMemory(pCosaUser); break; } COSA_CONTEXT_LINK_INITIATION_CONTENT(pUserCxtLink) pUserCxtLink->hContext = (ANSC_HANDLE)pCosaUser; pUserCxtLink->bNew = FALSE; if ( !pCosaUser->InstanceNumber ) { if ( !++pMyObject->maxInstanceOfUser ) { pMyObject->maxInstanceOfUser = 1; } bNeedSave = TRUE; pCosaUser->InstanceNumber = pMyObject->maxInstanceOfUser; pUserCxtLink->InstanceNumber = pCosaUser->InstanceNumber; _ansc_sprintf(pCosaUser->Username, "Username%d", pCosaUser->InstanceNumber); returnStatus = CosaDmlUserSetValues ( NULL, ulIndex, pCosaUser->InstanceNumber ); if ( returnStatus != ANSC_STATUS_SUCCESS ) { AnscFreeMemory(pCosaUser); AnscFreeMemory(pUserCxtLink); break; } /* Put into our list */ CosaSListPushEntryByInsNum(&pMyObject->UserList, pUserCxtLink); } else { pUserCxtLink->InstanceNumber = pCosaUser->InstanceNumber; if ( pMyObject->maxInstanceOfUser < pUserCxtLink->InstanceNumber ) { pMyObject->maxInstanceOfUser = pUserCxtLink->InstanceNumber; bNeedSave = TRUE; } /* if this entry is in link tree already because it's the parent of delay_added table. */ pUserCxtLink2 = (PCOSA_CONTEXT_LINK_OBJECT)CosaSListGetEntryByInsNum(&pMyObject->UserList, pUserCxtLink->InstanceNumber); if ( !pUserCxtLink2 ) { CosaSListPushEntryByInsNum(&pMyObject->UserList, pUserCxtLink); } else { AnscFreeMemory( pUserCxtLink2->hContext ); pUserCxtLink2->hContext = (ANSC_HANDLE)pCosaUser; if ( pUserCxtLink2->bNew ) { pUserCxtLink2->bNew = FALSE; bNeedSave = TRUE; } AnscFreeMemory(pUserCxtLink); pUserCxtLink = pUserCxtLink2; pUserCxtLink2 = NULL; } } } /* Max InstanceNumber is changed. Save now.*/ if (bNeedSave) { CosaUsersRegSetUserInfo(pMyObject); } return returnStatus; }
int hotspot_update_circuit_ids(int greinst, int queuestart) { int retval = 0; char localinterfaces[200]; char paramname[60]; char circuitid[100]; char outdata[80]; char* save = NULL; char* curInt = NULL; int nameSave = 0; int circuitSave = 0; int ssidInst = 0; int size; int inst; parameterValStruct_t varStruct; varStruct.parameterName = paramname; varStruct.parameterValue = outdata; // /*if (ppComponents == NULL) { // initWifiComp(); // }*/ //snprintf(paramname, sizeof(paramname), GrePsmGetStr(GRE_PARAM_LOCALIFS, greinst, localinterfaces, sizeof(localinterfaces)); curInt = strtok_r(localinterfaces, ",", &save); while (curInt) { circuitSave=0; //Trim off the trailing dot if it exists size = strlen(curInt); if (curInt[size -1] == '.') curInt[size - 1]='\0'; inst = atoi(strrchr(curInt,'.')+1); size = sizeof(outdata); if (syscfg_get(NULL, "wan_physical_ifname", paramname, sizeof(paramname)) != 0) { AnscTraceWarning(("fail to get wan_physical_ifname\n")); snprintf(paramname, sizeof(paramname), "erouter0"); } if (get_if_hwaddr(paramname, circuitid, sizeof(circuitid)) != 0) { AnscTraceWarning(("fail to get HW Addr for %s\n", paramname)); snprintf(circuitid, sizeof(circuitid), "00:00:00:00:00:00"); } circuitSave = strlen(circuitid); circuitSave += snprintf(circuitid + circuitSave, sizeof(circuitid) - circuitSave, ";"); #if 0 snprintf(paramname, sizeof(paramname), "%s.%s", curInt, "BSSID"); retval = COSAGetParamValueByPathName(bus_handle, &varStruct, &size); if ( retval != ANSC_STATUS_SUCCESS) return -1; circuitSave = snprintf(circuitid, sizeof(circuitid), "%s;", varStruct.parameterValue); #endif size = sizeof(outdata); snprintf(paramname, sizeof(paramname),"%s.%s", curInt, "SSID"); retval = COSAGetParamValueByPathName(bus_handle, &varStruct, &size); if ( retval != ANSC_STATUS_SUCCESS) return -1; circuitSave += snprintf(circuitid + circuitSave, sizeof(circuitid) - circuitSave, "%s;", varStruct.parameterValue); size = sizeof(outdata); snprintf(paramname, sizeof(paramname), "Device.WiFi.AccessPoint.%d.Security.ModeEnabled", inst); retval = COSAGetParamValueByPathName(bus_handle, &varStruct, &size); if ( retval != ANSC_STATUS_SUCCESS) return -1; if(strcmp("None", varStruct.parameterValue)) { snprintf(circuitid + circuitSave, sizeof(circuitid) - circuitSave, "s"); } else { snprintf(circuitid + circuitSave, sizeof(circuitid) - circuitSave, "o"); } snprintf(paramname, sizeof(paramname), "snooper-queue%d-circuitID", queuestart); sysevent_set(sysevent_fd, sysevent_token, paramname, circuitid, 0); snprintf(paramname, sizeof(paramname), "snooper-ssid%d-index", queuestart++); snprintf(outdata, sizeof(outdata), "%d", inst); sysevent_set(sysevent_fd, sysevent_token, paramname, outdata, 0); //sysevent set snoopereventforcircuitid_queuestart++ circuitid curInt = strtok_r(NULL, ",", &save); } return queuestart; ////get_wifi_param(dm, buf); //get local interfaces //foreach //read bssid //read ssid //read security type //sysevent set circuit id //ef }
BOOL VideoService_SetParamBoolValue ( ANSC_HANDLE hInsContext, char* ParamName, BOOL bValue ) { if (AnscEqualString(ParamName, "Enabled", TRUE)) { char bval[2] = {0}; if( bValue == TRUE ) { char buf[5] = {0}; syscfg_get( NULL, "X_RDKCENTRAL-COM_VIDEOSERVICE", buf, sizeof(buf)); if( buf != NULL ) { if (strcmp(buf,"1") == 0) { return TRUE; } } if(videoServiceEnableInProgress==FALSE) { bval[0] = '1'; pthread_mutex_lock(&g_videoservice_mutex); videoServiceEnableInProgress = TRUE; pthread_t videoServiceThread; if (pthread_create(&videoServiceThread, NULL, &SetVideoServiceConfig, NULL)) { CcspTraceError(("RDK_LOG_ERROR, CcspPandM %s : Failed to Start Thread to start SetVideoServiceConfig \n", __FUNCTION__ )); return FALSE; } pthread_mutex_unlock(&g_videoservice_mutex); CcspTraceWarning(("VIDEOSERVICE is ENABLED\n")); } } else { bval[0] = '0'; CcspTraceWarning(("VIDEOSERVICE is DISABLED\n")); } if (syscfg_set(NULL, "X_RDKCENTRAL-COM_VIDEOSERVICE", bval) != 0) { AnscTraceWarning(("[VideoService] syscfg_set X_RDKCENTRAL-COM_VIDEOSERVICE failed!\n")); } else { if (syscfg_commit() != 0) { AnscTraceWarning(("[VideoService] syscfg_commit X_RDKCENTRAL-COM_VIDEOSERVICE failed!\n")); } } return TRUE; } return FALSE; }
void SetVideoServiceConfig() { int ret = ANSC_STATUS_SUCCESS; BOOL isBridgeMode = FALSE; char bval[2] = {0}; char pMoCAComponentName[64]="eRT.com.cisco.spvtg.ccsp.moca"; char pComponentPath[64]="/com/cisco/spvtg/ccsp/moca"; char *paramNames[]={"Device.MoCA.Interface.1.Enable"}; char buf[5] = {0}; char FirewallLevel[32] = {0}; ULONG len = 0; len = sizeof(FirewallLevel); ret = g_GetParamValueString(g_pDslhDmlAgent, "Device.X_CISCO_COM_Security.Firewall.FirewallLevel", FirewallLevel, &len ); if(ret != ANSC_STATUS_SUCCESS) { pthread_mutex_lock(&g_videoservice_mutex); videoServiceEnableInProgress = FALSE; pthread_mutex_unlock(&g_videoservice_mutex); AnscTraceError(("[%s] VideoService : Fail to get Firewall Level \n", __FUNCTION__)); return; } if(!strcmp(FirewallLevel, "High")) { ret = g_SetParamValueString("Device.X_CISCO_COM_Security.Firewall.FirewallLevel", "Medium"); if(ret != ANSC_STATUS_SUCCESS) { pthread_mutex_lock(&g_videoservice_mutex); videoServiceEnableInProgress = FALSE; pthread_mutex_unlock(&g_videoservice_mutex); AnscTraceError(("[%s] VideoService : Fail to set Firewall Level to Medium\n", __FUNCTION__)); return; } else { CcspTraceWarning(("Firewall Level being set to MEDIUM when VIDEOSERVICE is ENABLED\n")); } } ret = is_usg_in_bridge_mode(&isBridgeMode); if ( ret == ANSC_STATUS_SUCCESS ) { if(isBridgeMode) { ret = g_SetParamValueString("Device.X_CISCO_COM_DeviceControl.LanManagementEntry.1.LanMode","router"); if(ret != ANSC_STATUS_SUCCESS) { pthread_mutex_lock(&g_videoservice_mutex); videoServiceEnableInProgress = FALSE; pthread_mutex_unlock(&g_videoservice_mutex); AnscTraceError(("[%s] VideoService : Fail to set Disable Bridge Mode \n", __FUNCTION__)); return; } else { CcspTraceWarning(("Bridge Mode being DISABLED when VIDEOSERVICE is ENABLED\n")); } } } else { pthread_mutex_lock(&g_videoservice_mutex); videoServiceEnableInProgress = FALSE; pthread_mutex_unlock(&g_videoservice_mutex); AnscTraceError(("[%s] VideoService : Fail to query bridge mode \n", __FUNCTION__)); return; } syscfg_get( NULL, "moca_enabled", buf, sizeof(buf)); if( buf != NULL ) { if (strcmp(buf,"0") == 0) { parameterValStruct_t value = {"Device.MoCA.Interface.1.Enable", "true", ccsp_boolean}; char compo[256] = "eRT.com.cisco.spvtg.ccsp.moca"; char bus[256] = "/com/cisco/spvtg/ccsp/moca"; char* faultParam = NULL; int ret1 = CCSP_FAILURE; CCSP_MESSAGE_BUS_INFO *bus_info = (CCSP_MESSAGE_BUS_INFO *)bus_handle; ret1 = CcspBaseIf_setParameterValues( bus_handle, compo, bus, 0, 0, &value, 1, TRUE, &faultParam ); if(ret1 != CCSP_SUCCESS) { if(faultParam) { bus_info->freefunc(faultParam); } pthread_mutex_lock(&g_videoservice_mutex); videoServiceEnableInProgress = FALSE; pthread_mutex_unlock(&g_videoservice_mutex); CcspTraceError(("RDK_LOG_ERROR, [%s] VideoService MoCA Enable FAILED: Failed ret %d\n",__FUNCTION__,ret1)); return; } else { CcspTraceWarning(("MoCA is being ENABLED when VIDEOSERVICE is ENABLED\n")); } } } pthread_mutex_lock(&g_videoservice_mutex); videoServiceEnableInProgress = FALSE; pthread_mutex_unlock(&g_videoservice_mutex); }
/* * hnapsrv main entry point */ int main(int argc, char *argv[]) { int port; int fdSock, ret; struct sockaddr_in addrServer; struct ifreq ifr; char buf[4]; openlog ("hs_log", LOG_CONS | LOG_PID | LOG_NDELAY, LOG_LOCAL1); #ifdef INCLUDE_BREAKPAD breakpad_ExceptionHandler(); #endif /* Command line */ if (argc < 2) { perror("Error: No port provided\n"); exit(1); } port = atoi(argv[1]); syscfg_init(); /* Bind to the socket */ fdSock = socket(AF_INET, SOCK_STREAM, 0); if (fdSock < 0) { perror("Error: Failure opening socket\n"); exit(1); } memset(&addrServer, 0, sizeof(addrServer)); addrServer.sin_family = AF_INET; addrServer.sin_addr.s_addr = INADDR_ANY; addrServer.sin_port = htons(port); memset(&ifr, 0, sizeof(ifr)); strncpy(ifr.ifr_name, "brlan1", IFNAMSIZ); //binding interface while (setsockopt(fdSock, SOL_SOCKET, SO_BINDTODEVICE, (void *)&ifr, sizeof(ifr)) < 0) { log_printf(LOG_WARNING, "Failure binding interface"); sleep(1); } if (bind(fdSock, (struct sockaddr*)&addrServer, sizeof(addrServer)) < 0) { perror("Error: Failure binding socket"); exit(1); } mbus_init(); //If HomeSecurityEthernet4Flag was not set, need toggle Ethernet port 4 again to aviod //unexpected reboot during previous SetBridgeConnect method memset(buf, 0, sizeof(buf)); ret = syscfg_get(NULL, "HomeSecurityEthernet4Flag", buf, sizeof(buf)); //printf("*************************** %s\n", buf); if(ret == -1 || strcmp(buf, "1")) { homesecurity_timeout_handler(); } //For SetBridgeConnect timer signal( SIGALRM, alarm_handler); /* Loop forever... */ while (1) { int fdRequest; socklen_t cbRequest; struct sockaddr_in addrRequest; /* Listen on the socket */ listen(fdSock, 5); cbRequest = sizeof(addrRequest); fdRequest = accept(fdSock, (struct sockaddr*)&addrRequest, &cbRequest); if (fdRequest >= 0) { /* Create the request file streams */ FILE* pfhRead = fdopen(fdRequest, "r+b"); FILE* pfhWrite = fdopen(fdRequest, "w+b"); if (pfhRead && pfhWrite) { HTTP_HandleRequest(pfhRead, pfhWrite); } /* Close the socket */ if (pfhWrite) { fflush(pfhWrite); fclose(pfhWrite); } if (pfhRead) { fclose(pfhRead); } } } return 0; }
/********************************************************************** caller: owner of this object prototype: ULONG DeviceInfo_GetParamStringValue_Custom ( ANSC_HANDLE hInsContext, char* ParamName, char* pValue, ULONG* pUlSize ); description: This function is called to retrieve string parameter value; argument: ANSC_HANDLE hInsContext, The instance handle; char* ParamName, The parameter name; char* pValue, The string value buffer; ULONG* pUlSize The buffer of length of string value; Usually size of 1023 will be used. If it's not big enough, put required size here and return 1; return: 0 if succeeded; 1 if short of buffer size; (*pUlSize = required size) -1 if not supported. **********************************************************************/ ULONG DeviceInfo_GetParamStringValue_Custom ( ANSC_HANDLE hInsContext, char* ParamName, char* pValue, ULONG* pulSize ) { PCOSA_DATAMODEL_DEVICEINFO pMyObject = (PCOSA_DATAMODEL_DEVICEINFO)g_pCosaBEManager->hDeviceInfo; #ifdef CONFIG_INTERNET2P0 if( AnscEqualString(ParamName, "X_RDKCENTRAL-COM_CloudUIWebURL", TRUE)) { syscfg_get(NULL, "redirection_url", pMyObject->WebURL, sizeof(pMyObject->WebURL)); AnscCopyString(pValue, pMyObject->WebURL); return 0; } #endif #ifdef CONFIG_VENDOR_CUSTOMER_COMCAST if( AnscEqualString(ParamName, "X_COMCAST-COM_CM_MAC", TRUE)) { CosaDmlDiGetCMMacAddress(NULL, pValue,pulSize); return 0; } if( AnscEqualString(ParamName, "X_COMCAST-COM_WAN_MAC", TRUE)) { CosaDmlDiGetRouterMacAddress(NULL, pValue,pulSize); return 0; } if( AnscEqualString(ParamName, "X_COMCAST-COM_AP_MAC", TRUE)) { CosaDmlDiGetRouterMacAddress(NULL, pValue,pulSize); return 0; } if( AnscEqualString(ParamName, "X_COMCAST-COM_MTA_MAC", TRUE)) { CosaDmlDiGetMTAMacAddress(NULL, pValue,pulSize); return 0; } if( AnscEqualString(ParamName, "X_COMCAST-COM_CM_IP", TRUE)) { CosaDmlDiGetCMIPAddress(NULL, pValue,pulSize); return 0; } if( AnscEqualString(ParamName, "X_COMCAST-COM_WAN_IP", TRUE)) { CosaDmlDiGetRouterIPAddress(NULL, pValue,pulSize); return 0; } if( AnscEqualString(ParamName, "X_COMCAST-COM_WAN_IPv6", TRUE)) { CosaDmlDiGetRouterIPv6Address(NULL, pValue,pulSize); return 0; } if( AnscEqualString(ParamName, "X_COMCAST-COM_MTA_IP", TRUE)) { CosaDmlDiGetMTAIPAddress(NULL, pValue,pulSize); return 0; } #endif /* CcspTraceWarning(("Unsupported parameter '%s'\n", ParamName)); */ return -1; }
/********************************************************************** caller: owner of this object prototype: BOOL DeviceInfo_GetParamBoolValue_Custom ( ANSC_HANDLE hInsContext, char* ParamName, BOOL* pBool ); description: This function is called to retrieve Boolean parameter value; argument: ANSC_HANDLE hInsContext, The instance handle; char* ParamName, The parameter name; BOOL* pBool The buffer of returned boolean value; return: TRUE if succeeded. **********************************************************************/ BOOL DeviceInfo_GetParamBoolValue_Custom ( ANSC_HANDLE hInsContext, char* ParamName, BOOL* pBool ) { PCOSA_DATAMODEL_DEVICEINFO pMyObject = (PCOSA_DATAMODEL_DEVICEINFO)g_pCosaBEManager->hDeviceInfo; char *param_value = NULL; #ifdef CONFIG_INTERNET2P0 if (AnscEqualString(ParamName, "X_RDKCENTRAL-COM_ConfigureWiFi", TRUE)) { PSM_Get_Record_Value2(bus_handle,g_Subsystem, "Device.DeviceInfo.X_RDKCENTRAL-COM_ConfigureWiFi", NULL, ¶m_value); if(strcmp(param_value,"true") == 0) pMyObject->bWiFiConfigued = TRUE; else pMyObject->bWiFiConfigued = FALSE; *pBool = pMyObject->bWiFiConfigued; return TRUE; } if (AnscEqualString(ParamName, "X_RDKCENTRAL-COM_WiFiNeedsPersonalization",TRUE)) { char buf[5]; syscfg_get( NULL, "redirection_flag", buf, sizeof(buf)); if( buf != NULL ) { if (strcmp(buf,"true") == 0) *pBool = TRUE; else *pBool = FALSE; } return TRUE; } if (AnscEqualString(ParamName, "X_RDKCENTRAL-COM_CaptivePortalEnable", TRUE)) { // *pBool = pMyObject->bCaptivePortalEnable; if (CosaDmlGetCaptivePortalEnable(&pMyObject->bCaptivePortalEnable) != ANSC_STATUS_SUCCESS) return FALSE; *pBool = pMyObject->bCaptivePortalEnable; return TRUE; } if (AnscEqualString(ParamName, "X_RDKCENTRAL-COM_CloudUICapable", TRUE)) { *pBool = pMyObject->bCloudCapable; return TRUE; } if (AnscEqualString(ParamName, "X_RDKCENTRAL-COM_CloudUIEnable", TRUE)) { *pBool = pMyObject->bCloudEnable; char buf[5]; syscfg_get( NULL, "cloud_enable_flag", buf, sizeof(buf)); if( buf != NULL ) { if (strcmp(buf,"1") == 0) pMyObject->bCloudEnable = TRUE; else pMyObject->bCloudEnable = FALSE; } *pBool = pMyObject->bCloudEnable; return TRUE; } #endif #ifdef CONFIG_CISCO_HOTSPOT /* check the parameter name and return the corresponding value */ if (AnscEqualString(ParamName, "X_COMCAST-COM_xfinitywifiCapableCPE", TRUE)) { if (CosaDmlDiGetXfinityWiFiCapable(pBool) != ANSC_STATUS_SUCCESS) return FALSE; return TRUE; } if (AnscEqualString(ParamName, "X_COMCAST_COM_xfinitywifiEnable", TRUE)) { if (CosaDmlDiGetXfinityWiFiEnable(pBool) != ANSC_STATUS_SUCCESS) return FALSE; // printf("%s : bxfinitywifiEnable value is : %d\n",__FUNCTION__,pMyObject->bxfinitywifiEnable); //*pBool = pMyObject->bxfinitywifiEnable; return TRUE; } #endif if (AnscEqualString(ParamName, "X_COMCAST-COM_rdkbPlatformCapable", TRUE)) { *pBool = TRUE; return TRUE; } /* CcspTraceWarning(("Unsupported parameter '%s'\n", ParamName)); */ return FALSE; }