Пример #1
0
Файл: main.c Проект: dlugaz/All
//*****************************************************************************
//
//! Check the device mode and switch to P2P mode
//! restart the NWP to activate P2P mode
//!
//! \param  None
//!
//! \return status code - Success:0, Failure:-ve
//
//*****************************************************************************
long StartDeviceInP2P()
{
    long lRetVal = -1;
    // Reset CC3200 Network State Machine
    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of application
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
            UART_PRINT("Failed to configure the device in its default state \n\r");

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //

    lRetVal = sl_Start(NULL,NULL,NULL);
    ASSERT_ON_ERROR(lRetVal);

    if(lRetVal != ROLE_P2P)
    {
        lRetVal = sl_WlanSetMode(ROLE_P2P);
        ASSERT_ON_ERROR(lRetVal);

        lRetVal = sl_Stop(0xFF);

        // reset the Status bits
        CLR_STATUS_BIT_ALL(g_ulStatus);

        lRetVal = sl_Start(NULL,NULL,NULL);
        if(lRetVal < 0 || lRetVal != ROLE_P2P)
        {
            ASSERT_ON_ERROR(P2P_MODE_START_FAILED);
        }
        else
        {
            UART_PRINT("Started SimpleLink Device: P2P Mode\n\r");
            return SUCCESS;
        }
    }

    return SUCCESS;
}
Пример #2
0
static void Init()
{
    long lRetVal = -1;
    BoardInit();
    UDMAInit();
    PinMuxConfig();
    InitTerm();

    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();

    if (lRetVal < 0) {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
            UART_PRINT(
                    "Failed to configure the device in its default state \n\r");

        LOOP_FOREVER()
        ;
    }

    //
    // Asumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0) {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER()
        ;
    }

    UART_PRINT("Connecting to AP: '%s'...\r\n", SSID_NAME);

    // Connecting to WLAN AP - Set with static parameters defined at common.h
    // After this call we will be connected and have IP address
    lRetVal = WlanConnect();
    if (lRetVal < 0) {
        UART_PRINT("Connection to AP failed \n\r");
        LOOP_FOREVER()
        ;
    }

    UART_PRINT("Connected to AP: '%s' \n\r", SSID_NAME);

#ifdef NEW_ID
    iobeam_Reset();
#endif
}
Пример #3
0
//****************************************************************************
//
//! \brief Start simplelink, connect to the ap and run the ping test
//!
//! This function starts the simplelink, connect to the ap and start the ping
//! test on the default gateway for the ap
//!
//! \param[in]  pvParameters - Pointer to the list of parameters that 
//!             can bepassed to the task while creating it
//!
//! \return  None
//
//****************************************************************************
void WlanStationMode( void *pvParameters )
{

    long lRetVal = -1;
    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
        {
            UART_PRINT("Failed to configure the device in its default state\n\r");
        }

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Device started as STATION \n\r");

    //
    //Connecting to WLAN AP
    //
    lRetVal = WlanConnect();
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to establish connection w/ an AP \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Connection established w/ AP and IP is aquired \n\r");


	gizwits_main();
    
}
Пример #4
0
//****************************************************************************
//
//!  \brief                     Handles HTTP Server Task
//!                                              
//! \param[in]                  pvParameters is the data passed to the Task
//!
//! \return                        None
//
//****************************************************************************
static void HTTPServerTask(void *pvParameters)
{
    long lRetVal = -1;
    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
            UART_PRINT("Failed to configure the device in its default state\n\r");

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");  
  
    memset(g_ucSSID,'\0',AP_SSID_LEN_MAX);
    
    //Read Device Mode Configuration
    ReadDeviceConfiguration();

    //Connect to Network
    lRetVal = ConnectToNetwork();

    //Stop Internal HTTP Server
    lRetVal = sl_NetAppStop(SL_NET_APP_HTTP_SERVER_ID);
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }

    //Start Internal HTTP Server
    lRetVal = sl_NetAppStart(SL_NET_APP_HTTP_SERVER_ID);
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }

    //Handle Async Events
    while(1)
    {
         
    }
}
Пример #5
0
//*****************************************************************************
//
//! Network_IF_InitDriver
//! The function initializes a CC3200 device and triggers it to start operation
//!
//! \param  uiMode (device mode in which device will be configured)
//!
//! \return none
//
//*****************************************************************************
void
Network_IF_InitDriver(unsigned int uiMode)
{
    long retVal = -1;
    // Reset CC3200 Network State Machine
    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of application
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    retVal = ConfigureSimpleLinkToDefaultState();
    if(retVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == retVal)
            UART_PRINT("Failed to configure the device in its default state \n\r");

        LOOP_FOREVER(__LINE__);
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //

    retVal = sl_Start(NULL,NULL,NULL);

    if (retVal < 0 || retVal != uiMode)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER(__LINE__);
    }

    UART_PRINT("Started SimpleLink Device: STA Mode\n\r");

}
Пример #6
0
Файл: main.c Проект: dlugaz/All
int main()
{
    long lRetVal = -1;

    //
    // Board Initialization
    //
    BoardInit();

    //
    // Configure the pinmux settings for the peripherals exercised
    //
    PinMuxConfig();

    //
    // Configuring UART
    //
    InitTerm();

    //
    // Display banner
    //
    DisplayBanner(APP_NAME);

    InitializeAppVariables();

    lRetVal = ServerFileDownload();

    if(lRetVal < 0)
    {
        UART_PRINT("Server file download failed\n\r");
        LOOP_FOREVER();
    }
    else
    {
        UART_PRINT("Downloading File Completed\n\r");
    }
    UART_PRINT("\nThank you\r\n");
    // Stop the CC3200 device
    lRetVal = sl_Stop(SL_STOP_TIMEOUT);
    
    LOOP_FOREVER();
}
Пример #7
0
//*****************************************************************************
//
//! Network Task
//!
//! \param  pvParameters - Parameters to the task's entry function
//!
//! \return None
//!
//*****************************************************************************
void Network( void *pvParameters )
{
    long lRetVal = -1;
    
    //Initialize Global Variable
    InitializeAppVariables();

    //Connect to Network
    lRetVal = ConnectToNetwork();
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to establish connection w/ an AP \n\r");
        LOOP_FOREVER();
    }    
    
    //Cread UDP Socket and Bind to Local IP Address
    lRetVal = CreateUdpServer(&g_UdpSock);
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to Create UDP Server \n\r");
        LOOP_FOREVER();
    }


#ifdef MULTICAST  
    //Add to Multicast Group
    lRetVal = ReceiveMulticastPacket();
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to Create UDP Server \n\r");
        LOOP_FOREVER();
    }

    //Delete the Networking Task as Service Discovery is not needed
    osi_TaskDelete(&g_NetworkTask);
#else
    //Discover CC3200 Audio Devices  
    mDNS_Task();
#endif    

}
Пример #8
0
//*****************************************************************************
//
//! Network_IF_InitDriver
//! The function initializes a CC3200 device and triggers it to start operation
//!  
//! \param  uiMode (device mode in which device will be configured)
//!  
//! \return 0 : sucess, -ve : failure
//
//*****************************************************************************
long
Network_IF_InitDriver(unsigned int uiMode)
{
    long lRetVal = -1;
    // Reset CC3200 Network State Machine
    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of application
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
           UART_PRINT("Failed to configure the device in its default state \n\r");

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //

    lRetVal = sl_Start(NULL,NULL,NULL);

    if (lRetVal < 0 || lRetVal != ROLE_STA)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Started SimpleLink Device: STA Mode\n\r");

    if(uiMode == ROLE_AP)
    {
        UART_PRINT("Switching to AP mode on application request\n\r");
        // Switch to AP role and restart
        lRetVal = sl_WlanSetMode(uiMode);
        ASSERT_ON_ERROR(lRetVal);

        lRetVal = sl_Stop(0xFF);

        lRetVal = sl_Start(0, 0, 0);
        ASSERT_ON_ERROR(lRetVal);

        // Check if the device is up in AP Mode
        if (ROLE_AP == lRetVal)
        {
            // If the device is in AP mode, we need to wait for this event
            // before doing anything
            while(!IS_IP_ACQUIRED(g_ulStatus))
            {
#ifndef SL_PLATFORM_MULTI_THREADED
              _SlNonOsMainLoopTask();
#else
              osi_Sleep(1);
#endif
            }
        }
        else
        {
            // We don't want to proceed if the device is not coming up in AP-mode
            ASSERT_ON_ERROR(DEVICE_NOT_IN_AP_MODE);
        }

        UART_PRINT("Re-started SimpleLink Device: AP Mode\n\r");
    }
    else if(uiMode == ROLE_P2P)
    {
        UART_PRINT("Switching to P2P mode on application request\n\r");
        // Switch to AP role and restart
        lRetVal = sl_WlanSetMode(uiMode);
        ASSERT_ON_ERROR(lRetVal);

        lRetVal = sl_Stop(0xFF);

        lRetVal = sl_Start(0, 0, 0);
        ASSERT_ON_ERROR(lRetVal);

        // Check if the device is in station again
        if (ROLE_P2P != lRetVal)
        {
            // We don't want to proceed if the device is not coming up in P2P-mode
            ASSERT_ON_ERROR(DEVICE_NOT_IN_P2P_MODE);
        }

        UART_PRINT("Re-started SimpleLink Device: P2P Mode\n\r");
    }
    else
    {
        // Device already started in STA-Mode
    }
    return 0;
}
Пример #9
0
//****************************************************************************
//                            MAIN FUNCTION
//****************************************************************************
void main()
{
    long retVal = -1;
    unsigned long ulResetCause;
    unsigned long ulDestinationIP;

    //
    // Board Initialization
    //
    BoardInit();

    //
    // Configure the pinmux settings for the peripherals exercised
    //
    PinMuxConfig();

    //
    // Configuring UART
    //
    InitTerm();

    //
    // Initialize WDT
    //
    WDT_IF_Init(NULL,80000000 * 10);

    //
    // Get the reset cause
    //
    ulResetCause = PRCMSysResetCauseGet();

    //
    // If watchdog triggered reset request hibernate
    // to clean boot the system
    //
    if( ulResetCause == PRCM_WDT_RESET )
    {
        HIBEntrePreamble();
        MAP_PRCMOCRRegisterWrite(0,1);
        MAP_PRCMHibernateWakeupSourceEnable(PRCM_HIB_SLOW_CLK_CTR);
        MAP_PRCMHibernateIntervalSet(330);
        MAP_PRCMHibernateEnter();
    }

    //
    // uDMA Initialization
    //
    UDMAInit();

    //
    // Display banner
    //
    DisplayBanner(APPLICATION_NAME);

    if( ulResetCause == PRCM_HIB_EXIT &&  (MAP_PRCMOCRRegisterRead(0) & 1) == 1 )
    {
        UART_PRINT("Reset Cause        : Watchdog Reset\n\r");
    }
    else
    {
        UART_PRINT("Reset Cause        : Power On\n\r");

        //
        // Initialize the variables.
        //
        InitializeAppVariables();

        //
        // Following function configure the device to default state by cleaning
        // the persistent settings stored in NVMEM (viz. connection profiles &
        // policies, power policy etc)
        //
        // Applications may choose to skip this step if the developer is sure
        // that the device is in its desired state at start of applicaton
        //
        // Note that all profiles and persistent settings that were done on the
        // device will be lost
        //
        retVal = ConfigureSimpleLinkToDefaultState();

        if(retVal < 0)
        {
            if (DEVICE_NOT_IN_STATION_MODE == retVal)
                UART_PRINT("Failed to configure the device in its default"
                            " state \n\r");

            LOOP_FOREVER();
        }
    }

    //
    // Set destination IP
    //
    ulDestinationIP = IP_ADDR;

    //
    // Asumption is that the device is configured in station mode already
    // and it is in its default state
    //
    retVal = sl_Start(0, 0, 0);

    //
    // Acknowledge the watchdog so that it doesn't resets
    //
    WatchdogAck();

    if (retVal < 0 || retVal != ROLE_STA)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    //
    //Connecting to WLAN AP
    //
    retVal = WlanConnect();

    //
    // Acknowledge the watchdog so that it doesn't resets
    //
    WatchdogAck();

    if(retVal < 0)
    {
        UART_PRINT("Failed to establish connection w/ an AP \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Connected to AP    : %s \n\r",SSID_NAME);

    UART_PRINT("Device IP          : %d.%d.%d.%d\n\r\n\r",
                SL_IPV4_BYTE(g_ulIpAddr,3),
                SL_IPV4_BYTE(g_ulIpAddr,2),
                SL_IPV4_BYTE(g_ulIpAddr,1),
                SL_IPV4_BYTE(g_ulIpAddr,0));


    UART_PRINT("\nStarting UDP Client\n\n\r");

    UART_PRINT("Source IP          : %d.%d.%d.%d\n\r"
                 "Destination IP     : %d.%d.%d.%d\n\r"
                 "PORT               : %d\n\r",
                 SL_IPV4_BYTE(g_ulIpAddr,3),
                 SL_IPV4_BYTE(g_ulIpAddr,2),
                 SL_IPV4_BYTE(g_ulIpAddr,1),
                 SL_IPV4_BYTE(g_ulIpAddr,0),
                 SL_IPV4_BYTE(ulDestinationIP,3),
                 SL_IPV4_BYTE(ulDestinationIP,2),
                 SL_IPV4_BYTE(ulDestinationIP,1),
                 SL_IPV4_BYTE(ulDestinationIP,0),
                 g_uiPortNum);


    //
    // Acknowledge the watchdog so that it doesn't resets
    //
    WatchdogAck();

    //
    // Send packets
    //
    BsdUdpClient(PORT_NUM,ulDestinationIP);


    //
    // power off the network processor
    //
    sl_Stop(SL_STOP_TIMEOUT);
    while (1)
    {
        _SlNonOsMainLoopTask();
    }
}
Пример #10
0
int main(void)
{
    long lRetVal = -1;
    //
    // Initialize Board configurations
    //
    BoardInit();
    //
    // Configure the pinmux settings for the peripherals exercised
    //
    PinMuxConfig();

    #ifndef NOTERM
        InitTerm();
    #endif

    // configure RED LED
    GPIO_IF_LedConfigure(LED1);

    GPIO_IF_LedOff(MCU_RED_LED_GPIO);

    InitializeAppVariables();

    //
   // Following function configure the device to default state by cleaning
   // the persistent settings stored in NVMEM (viz. connection profiles &
   // policies, power policy etc)
   //
   // Applications may choose to skip this step if the developer is sure
   // that the device is in its default state at start of applicaton
   //
   // Note that all profiles and persistent settings that were done on the
   // device will be lost
   //
   lRetVal = ConfigureSimpleLinkToDefaultState();
   if(lRetVal < 0)
   {
       if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
           UART_PRINT("Failed to configure the device in its "
                         "default state \n\r");

       LOOP_FOREVER();
   }

   UART_PRINT("Device is configured in default state \n\r");


   CLR_STATUS_BIT_ALL(g_ulStatus);

   //Start simplelink
   lRetVal = sl_Start(0,0,0);
   if (lRetVal < 0 || ROLE_STA != lRetVal)
   {
       UART_PRINT("Failed to start the device \n\r");
       LOOP_FOREVER();
   }

   UART_PRINT("Device started as STATION \n\r");

   /* Connect to our AP using SmartConfig method */
   lRetVal = SmartConfigConnect();
   if(lRetVal < 0)
   {
     ERR_PRINT(lRetVal);
   }    

   LOOP_FOREVER();
}
Пример #11
0
int main(void)
{
    long lRetVal = -1;
    //
    // Initialize Board configurations
    //
    BoardInit();

    InitializeAppVariables();
    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
        {
            UART_PRINT("Failed to configure the device in its default state\n\r");
        }

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Device started as STATION \n\r");

    /* Connect to our AP using SmartConfig method */
    lRetVal = SetConnectionPolicy();
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }

    // revert all settings
    lRetVal = sl_WlanProfileDel(0xFF);
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }

    lRetVal = sl_Stop(SL_STOP_TIMEOUT);

    LOOP_FOREVER();
}
Пример #12
0
//****************************************************************************
//
//! \brief Start simplelink, connect to the ap and run the ping test
//!
//! This function starts the simplelink, connect to the ap and start the ping
//! test on the default gateway for the ap
//!
//! \param[in]  pvParameters - Pointer to the list of parameters that 
//!             can bepassed to the task while creating it
//!
//! \return  None
//
//****************************************************************************
void WlanStationMode( void *pvParameters )
{

    long lRetVal = -1;
    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
        {
            UART_PRINT("Failed to configure the device in its default state\n\r");
        }

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Device started as STATION \n\r");

    //
    //Connecting to WLAN AP
    //
    lRetVal = WlanConnect();
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to establish connection w/ an AP \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Connection established w/ AP and IP is aquired \n\r");
    UART_PRINT("Pinging...! \n\r");

    //
    // Checking the Lan connection by pinging to AP gateway
    //
    lRetVal = CheckLanConnection();
    if(lRetVal < 0)
    {
        UART_PRINT("Device couldn't ping the gateway \n\r");
        LOOP_FOREVER();
    }
    
    // Turn on GREEN LED when device gets PING response from AP
    GPIO_IF_LedOn(MCU_EXECUTE_SUCCESS_IND);

    //
    // Checking the internet connection by pinging to external host
    //
    lRetVal = CheckInternetConnection();
    if(lRetVal < 0)
    {
        UART_PRINT("Device couldn't ping the external host \n\r");
        LOOP_FOREVER();
    }

    // Turn on ORAGE LED when device gets PING response from AP
    GPIO_IF_LedOn(MCU_ORANGE_LED_GPIO);

    UART_PRINT("Device pinged both the gateway and the external host \n\r");

    UART_PRINT("WLAN STATION example executed successfully \n\r");

    //
    // power off the network processor
    //
    lRetVal = sl_Stop(SL_STOP_TIMEOUT);

    LOOP_FOREVER();
    
}
Пример #13
0
//*****************************************************************************
//
//! Configure the device as xmpp client
//!
//! \param  pvParameters pointer to parameters
//!
//! \return None
//
//*****************************************************************************
static void XmppClient(void *pvParameters)
{
    SlNetAppXmppOpt_t XmppOption;
    SlNetAppXmppUserName_t UserName;
    SlNetAppXmppPassword_t Password;
    SlNetAppXmppDomain_t Domain;
    SlNetAppXmppResource_t Resource;
    unsigned char pRemoteJid[REMOTE_USERID_LEN];
    unsigned char pRecvMessage[RECV_MSG_LEN];
    signed short  Status = 0;

    long lRetVal = -1;
    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
        {
           UART_PRINT("Failed to configure the device in its default state\n\r");
        }

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //

    lRetVal = sl_Start(0, 0, 0);

    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
      UART_PRINT("Failed to start the device \n\r");
      LOOP_FOREVER();
    }

    UART_PRINT("Device started as STATION \n\r");

    // Connecting to WLAN AP - Set with static parameters defined at the top
    // After this call we will be connected and have IP address
    lRetVal = WlanConnect();
    if(lRetVal < 0)
    {
        UART_PRINT("Unable to connect wlan.\n\r");
        LOOP_FOREVER();
    }


    // Configuring different parameters which are required for XMPP connection
    XmppOption.Port = XMPP_DST_PORT;
    XmppOption.Family = SL_AF_INET;
    XmppOption.SecurityMethod = SO_SECMETHOD_SSLV3;
    XmppOption.SecurityCypher = SECURE_MASK_SSL_RSA_WITH_RC4_128_SHA;
    XmppOption.Ip = XMPP_IP_ADDR;

    //DNS query to get IP address of XMPP Server
//    lRetVal = sl_NetAppDnsGetHostByName(XMPP_DOMAIN_NAME, \
//                                    strlen((const char *)XMPP_DOMAIN_NAME), \
//                                    (unsigned long*)&XmppOption.Ip, SL_AF_INET);
//
//    if(lRetVal < 0)
//    {
//        UART_PRINT("Device couldn't retrive the host name \n\r");
//        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
//        LOOP_FOREVER();
//    }

    lRetVal = sl_NetAppXmppSet(SL_NET_APP_XMPP_ID, NETAPP_XMPP_ADVANCED_OPT, \
                    sizeof(SlNetAppXmppOpt_t), (unsigned char *)&XmppOption);

    if(lRetVal < 0)
    {
        UART_PRINT("Unable to connect wlan.\n\r");
        LOOP_FOREVER();
    }
    // Configure Client's user name
    memcpy(UserName.UserName, CLIENT_USER_NAME, strlen(CLIENT_USER_NAME));
    UserName.Length = strlen(CLIENT_USER_NAME);

    lRetVal = sl_NetAppXmppSet(SL_NET_APP_XMPP_ID, NETAPP_XMPP_USER_NAME, \
                                UserName.Length, \
                                (unsigned char *)&UserName);
    if(lRetVal < 0)
    {
        UART_PRINT("Unable to set XMPP user id.\n\r");
        LOOP_FOREVER();
    }

    // Configure Client's password
    memcpy(Password.Password, CLIENT_PASSWORD, strlen(CLIENT_PASSWORD));
    Password.Length = strlen(CLIENT_PASSWORD);

    lRetVal = sl_NetAppXmppSet(SL_NET_APP_XMPP_ID, NETAPP_XMPP_PASSWORD, \
                                Password.Length, \
                                (unsigned char *)&Password);
    if(lRetVal < 0)
    {
        UART_PRINT("Unable to set XMPP user password.\n\r");
        LOOP_FOREVER();
    }

    memcpy(Domain.DomainName, XMPP_DOMAIN_NAME, strlen(XMPP_DOMAIN_NAME));
    Domain.Length = strlen(XMPP_DOMAIN_NAME);

    lRetVal = sl_NetAppXmppSet(SL_NET_APP_XMPP_ID, NETAPP_XMPP_DOMAIN, \
                                Domain.Length, \
                                (unsigned char *)&Domain);
    if(lRetVal < 0)
    {
        UART_PRINT("Unable to XMPP domain.\n\r");
        LOOP_FOREVER();
    }

    memcpy(Resource.Resource, XMPP_RESOURCE,strlen(XMPP_RESOURCE));
    Resource.Length = strlen(XMPP_RESOURCE);

    lRetVal = sl_NetAppXmppSet(SL_NET_APP_XMPP_ID, NETAPP_XMPP_RESOURCE, \
                                Resource.Length, \
                                (unsigned char *)&Resource);
    if(lRetVal < 0)
    {
        UART_PRINT("Unable to set XMPP resources.\n\r");
        LOOP_FOREVER();
    }


    while(sl_NetAppXmppConnect() < 0)
    {
        MAP_UtilsDelay(10000);
    }

    Status = sl_NetAppXmppRecv(pRemoteJid, REMOTE_USERID_LEN, pRecvMessage, \
                                RECV_MSG_LEN );
    while(1)
    {
        while ( Status < 0)
        {
            MAP_UtilsDelay(10000);
            Status = sl_NetAppXmppRecv(pRemoteJid, REMOTE_USERID_LEN, \
                                        pRecvMessage, RECV_MSG_LEN );
        }

        //
        // Toggle Orange LED to indicate if it gets some chat message
        //
        GPIO_IF_LedOn(MCU_ORANGE_LED_GPIO);
        MAP_UtilsDelay(800000);
        GPIO_IF_LedOff(MCU_ORANGE_LED_GPIO);
        Status = sl_NetAppXmppSend(pRemoteJid, strlen((char*)pRemoteJid), \
                                    pRecvMessage, strlen((char*)pRecvMessage) );  
    }
}
Пример #14
0
//****************************************************************************
//                            MAIN FUNCTION
//****************************************************************************
void main()
{
    long   lRetVal = -1;

    //
    // Board Initilization
    //
    BoardInit();
    
    //
    // Configure the pinmux settings for the peripherals exercised
    //
    PinMuxConfig();

    PinConfigSet(PIN_58,PIN_STRENGTH_2MA|PIN_STRENGTH_4MA,PIN_TYPE_STD_PD);

    // Initialize Global Variables
    InitializeAppVariables();
    
    //
    // UART Init
    //
    InitTerm();
    
    DisplayBanner(APP_NAME);

    //
    // LED Init
    //
    GPIO_IF_LedConfigure(LED1);
      
    //Turn Off the LEDs
    GPIO_IF_LedOff(MCU_RED_LED_GPIO);
       
    //
    // I2C Init
    //
    lRetVal = I2C_IF_Open(I2C_MASTER_MODE_FST);
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }    

    //Init Temprature Sensor
    lRetVal = TMP006DrvOpen();
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }    

    //Init Accelerometer Sensor
    lRetVal = BMA222Open();
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }    
    
    //
    // Simplelinkspawntask
    //
    lRetVal = VStartSimpleLinkSpawnTask(SPAWN_TASK_PRIORITY);
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }    
    
    //
    // Create OOB Task
    //
    lRetVal = osi_TaskCreate(OOBTask, (signed char*)"OOBTask", \
                                OSI_STACK_SIZE, NULL, \
                                OOB_TASK_PRIORITY, NULL );
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }    

    //
    // Start OS Scheduler
    //
    osi_start();

    while (1)
    {

    }

}
Пример #15
0
//*****************************************************************************
//! \brief This function puts the device in its default state. It:
//!           - Set the mode to STATION
//!           - Configures connection policy to Auto and AutoSmartConfig
//!           - Deletes all the stored profiles
//!           - Enables DHCP
//!           - Disables Scan policy
//!           - Sets Tx power to maximum
//!           - Sets power policy to normal
//!           - Unregister mDNS services
//!           - Remove all filters
//!
//! \param   none
//! \return  On success, zero is returned. On error, negative is returned
//*****************************************************************************
static long ConfigureSimpleLinkToDefaultState()
{
    SlVersionFull   ver = {0};
    _WlanRxFilterOperationCommandBuff_t  RxFilterIdMask = {0};

    unsigned char ucVal = 1;
    unsigned char ucConfigOpt = 0;
    unsigned char ucConfigLen = 0;
    unsigned char ucPower = 0;

    long lRetVal = -1;
    long lMode = -1;

    lMode = sl_Start(0, 0, 0);
    ASSERT_ON_ERROR(lMode);

    // If the device is not in station-mode, try configuring it in station-mode 
    if (ROLE_STA != lMode)
    {
        if (ROLE_AP == lMode)
        {
            // If the device is in AP mode, we need to wait for this event 
            // before doing anything 
            while(!IS_IP_ACQUIRED(g_ulStatus))
            {
#ifndef SL_PLATFORM_MULTI_THREADED
              _SlNonOsMainLoopTask(); 
#endif
            }
        }

        // Switch to STA role and restart 
        lRetVal = sl_WlanSetMode(ROLE_STA);
        ASSERT_ON_ERROR(lRetVal);

        lRetVal = sl_Stop(0xFF);
        ASSERT_ON_ERROR(lRetVal);

        lRetVal = sl_Start(0, 0, 0);
        ASSERT_ON_ERROR(lRetVal);

        // Check if the device is in station again 
        if (ROLE_STA != lRetVal)
        {
            // We don't want to proceed if the device is not coming up in STA-mode 
            return DEVICE_NOT_IN_STATION_MODE;
        }
    }
    
    // Get the device's version-information
    ucConfigOpt = SL_DEVICE_GENERAL_VERSION;
    ucConfigLen = sizeof(ver);
    lRetVal = sl_DevGet(SL_DEVICE_GENERAL_CONFIGURATION, &ucConfigOpt, 
                                &ucConfigLen, (unsigned char *)(&ver));
    ASSERT_ON_ERROR(lRetVal);
    
    UART_PRINT("Host Driver Version: %s\n\r",SL_DRIVER_VERSION);
    UART_PRINT("Build Version %d.%d.%d.%d.31.%d.%d.%d.%d.%d.%d.%d.%d\n\r",
    ver.NwpVersion[0],ver.NwpVersion[1],ver.NwpVersion[2],ver.NwpVersion[3],
    ver.ChipFwAndPhyVersion.FwVersion[0],ver.ChipFwAndPhyVersion.FwVersion[1],
    ver.ChipFwAndPhyVersion.FwVersion[2],ver.ChipFwAndPhyVersion.FwVersion[3],
    ver.ChipFwAndPhyVersion.PhyVersion[0],ver.ChipFwAndPhyVersion.PhyVersion[1],
    ver.ChipFwAndPhyVersion.PhyVersion[2],ver.ChipFwAndPhyVersion.PhyVersion[3]);

    // Set connection policy to Auto + SmartConfig 
    //      (Device's default connection policy)
    lRetVal = sl_WlanPolicySet(SL_POLICY_CONNECTION, 
                                SL_CONNECTION_POLICY(1, 0, 0, 0, 1), NULL, 0);
    ASSERT_ON_ERROR(lRetVal);

    // Remove all profiles
    lRetVal = sl_WlanProfileDel(0xFF);
    ASSERT_ON_ERROR(lRetVal);

    

    //
    // Device in station-mode. Disconnect previous connection if any
    // The function returns 0 if 'Disconnected done', negative number if already
    // disconnected Wait for 'disconnection' event if 0 is returned, Ignore 
    // other return-codes
    //
    lRetVal = sl_WlanDisconnect();
    if(0 == lRetVal)
    {
        // Wait
        while(IS_CONNECTED(g_ulStatus))
        {
#ifndef SL_PLATFORM_MULTI_THREADED
              _SlNonOsMainLoopTask(); 
#endif
        }
    }

    // Enable DHCP client
    lRetVal = sl_NetCfgSet(SL_IPV4_STA_P2P_CL_DHCP_ENABLE,1,1,&ucVal);
    ASSERT_ON_ERROR(lRetVal);

    // Disable scan
    ucConfigOpt = SL_SCAN_POLICY(0);
    lRetVal = sl_WlanPolicySet(SL_POLICY_SCAN , ucConfigOpt, NULL, 0);
    ASSERT_ON_ERROR(lRetVal);

    // Set Tx power level for station mode
    // Number between 0-15, as dB offset from max power - 0 will set max power
    ucPower = 0;
    lRetVal = sl_WlanSet(SL_WLAN_CFG_GENERAL_PARAM_ID, 
            WLAN_GENERAL_PARAM_OPT_STA_TX_POWER, 1, (unsigned char *)&ucPower);
    ASSERT_ON_ERROR(lRetVal);

    // Set PM policy to normal
    lRetVal = sl_WlanPolicySet(SL_POLICY_PM , SL_NORMAL_POLICY, NULL, 0);
    ASSERT_ON_ERROR(lRetVal);

    // Unregister mDNS services
    lRetVal = sl_NetAppMDNSUnRegisterService(0, 0);
    ASSERT_ON_ERROR(lRetVal);

    // Remove  all 64 filters (8*8)
    memset(RxFilterIdMask.FilterIdMask, 0xFF, 8);
    lRetVal = sl_WlanRxFilterSet(SL_REMOVE_RX_FILTER, (_u8 *)&RxFilterIdMask,
                       sizeof(_WlanRxFilterOperationCommandBuff_t));
    ASSERT_ON_ERROR(lRetVal);

    lRetVal = sl_Stop(SL_STOP_TIMEOUT);
    ASSERT_ON_ERROR(lRetVal);

    InitializeAppVariables();
    
    return lRetVal; // Success
}
Пример #16
0
//****************************************************************************
//
//!    \brief start simplelink, wait for the sta to connect to the device and 
//!        run the ping test for that sta
//!
//!    \param  pvparameters is the pointer to the list of parameters that can be
//!         passed to the task while creating it
//!
//!    \return None
//
//****************************************************************************
void WlanAPMode( void *pvParameters )
{   
    int iTestResult = 0;
    unsigned char ucDHCP;
    long retVal = -1;

    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    retVal = ConfigureSimpleLinkToDefaultState();
    if(retVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == retVal)
            UART_PRINT("Failed to configure the device in its default state \n\r");

        LOOP_FOREVER(__LINE__);
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Asumption is that the device is configured in station mode already
    // and it is in its default state
    //
    retVal = sl_Start(NULL,NULL,NULL);

    if (retVal < 0)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER(__LINE__);
    }

    UART_PRINT("Device started as STATION \n\r");
    
    //
    // Configure the networking mode and ssid name(for AP mode)
    //
    if(retVal != ROLE_AP)
    {
        if(ConfigureMode(retVal) !=ROLE_AP)
        {
            UART_PRINT("Unable to set AP mode, exiting Application...\n\r");
            sl_Stop(SL_STOP_TIMEOUT);
            return;
        }
    }

    while(!IS_IP_ACQUIRED(g_ulStatus))
    {
      //looping till ip is acquired
    }

    unsigned char len = sizeof(_NetCfgIpV4Args_t);
    _NetCfgIpV4Args_t ipV4 = {0};

    retVal = sl_NetCfgGet(SL_IPV4_STA_P2P_CL_GET_INFO,&ucDHCP,&len,
                            (unsigned char *)&ipV4);
    if (retVal < 0)
    {
        UART_PRINT("Failed to get network configuration \n\r");
        LOOP_FOREVER(__LINE__);
    }
    
    UART_PRINT("Connect a client to Device\n\r");
    while(!IS_IP_LEASED(g_ulStatus))
    {
      //wating for the client to connect
    }
    UART_PRINT("Client is connected to Device\n\r");

    iTestResult = PingTest(g_ulStaIp);
    UNUSED(ucDHCP);
    UNUSED(iTestResult);
    sl_WlanSetMode(ROLE_STA);

    /* Switch off Network processor */
    sl_Stop(SL_STOP_TIMEOUT);
    UART_PRINT("Application exits\n\r");
    while(1);
}
Пример #17
0
//****************************************************************************
//                            MAIN FUNCTION
//****************************************************************************
void main()
{
    long lRetVal = -1;

    //
    // Board Initialization
    //
    BoardInit();

    //
    // uDMA Initialization
    //
    UDMAInit();

    //
    // Configure the pinmux settings for the peripherals exercised
    //
    PinMuxConfig();

    //
    // Configuring UART
    //
    InitTerm();

    //
    // Display banner
    //
    DisplayBanner(APPLICATION_NAME);

    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its desired state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();

    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
          UART_PRINT("Failed to configure the device in its default state \n\r");

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Asumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0 || lRetVal != ROLE_STA)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Device started as STATION \n\r");

    UART_PRINT("Connecting to AP: %s ...\r\n",SSID_NAME);

    //
    //Connecting to WLAN AP
    //
    lRetVal = WlanConnect();
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to establish connection w/ an AP \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Connected to AP: %s \n\r",SSID_NAME);

    UART_PRINT("Device IP: %d.%d.%d.%d\n\r\n\r",
                SL_IPV4_BYTE(g_ulIpAddr,3),
                SL_IPV4_BYTE(g_ulIpAddr,2),
                SL_IPV4_BYTE(g_ulIpAddr,1),
                SL_IPV4_BYTE(g_ulIpAddr,0));

#ifdef USER_INPUT_ENABLE
    lRetVal = UserInput();
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }

#else
    lRetVal = BsdUdpClient(PORT_NUM);
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }

    lRetVal = BsdUdpServer(PORT_NUM);
    if(lRetVal < 0)
    {
        ERR_PRINT(lRetVal);
        LOOP_FOREVER();
    }
#endif

    UART_PRINT("Exiting Application ...\n\r");

    //
    // power off the network processor
    //
    lRetVal = sl_Stop(SL_STOP_TIMEOUT);

    while (1)
    {
     _SlNonOsMainLoopTask();
    }
}
Пример #18
0
//****************************************************************************
//
//! Task function implements the Antenna Selection functionality
//!
//! \param none
//!
//! This function
//!    1. Starts Device in STA Mode
//!    2. Scans, Sort and Stores all the AP with Antenna 1
//!    3. Scans, Sort and Stores all the AP with Antenna 2
//!    4. Switch to AP Mode and Wait for AP Configuration from Browser
//!    5. Switch to STA Mode and Connect to Configured AP with Selected Antenna
//!
//! \return None.
//
//****************************************************************************
void AntennaSelection(void* pTaskParams)
{

   int iDeviceMode = 0;
   unsigned char ucCountSSID;
   unsigned char ucCountSSIDAnt2;
   long lRetVal = -1;
   InitializeAppVariables();

   //
   // Following function configure the device to default state by cleaning
   // the persistent settings stored in NVMEM (viz. connection profiles &
   // policies, power policy etc)
   //
   // Applications may choose to skip this step if the developer is sure
   // that the device is in its default state at start of applicaton
   //
   // Note that all profiles and persistent settings that were done on the
   // device will be lost
   //
   lRetVal = ConfigureSimpleLinkToDefaultState();
   if(lRetVal < 0)
   {
       if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
       {
           UART_PRINT("Failed to configure the device in its default state\n\r");
       }

       LOOP_FOREVER(__LINE__);
   }

   UART_PRINT("Device is configured in default state \n\r");

   //
   // Assumption is that the device is configured in station mode already
   // and it is in its default state
   //
   lRetVal = sl_Start(0, 0, 0);
   if (lRetVal < 0 || ROLE_STA != lRetVal)
   {
       UART_PRINT("Failed to start the device \n\r");
       LOOP_FOREVER(__LINE__);
   }

   UART_PRINT("Device started as STATION \n\r");

    //
    // Start the driver
    //
    iDeviceMode = InitDriver();

    if (iDeviceMode == ROLE_AP)
    {
        //Device in AP Mode, Wait for Initialization to Complete
        while (g_ucIpObtained == 0)
        {
            MAP_UtilsDelay(100);
        }
    }

    sl_WlanSetMode(ROLE_STA);


    if (iDeviceMode == ROLE_AP)
        DeInitDriverAP();
    else
        DeInitDriver();

    g_ucIpObtained = 0;
    g_ucConnectionStatus = 0;

    InitDriver();

    //Select Antenna 1
    AntennaSelect(1);

    //Get Scan Result
    ucCountSSID = GetScanResult(&g_netEntries[0]);

    //Select Antenna 2
    AntennaSelect(2);

    //Get Scan Result
    ucCountSSIDAnt2 = GetScanResult(&g_netEntriesAnt2[0]);

    //Sort Scan Result
    SortByRSSI(&g_netEntries[0],ucCountSSID);
    SortByRSSI(&g_netEntriesAnt2[0],ucCountSSIDAnt2);

  while(!g_ucAntSelectDone)
  {

    //Switch to AP Mode
    sl_WlanSetMode(ROLE_AP);

    DeInitDriver();
    g_ucIpObtained = 0;
    g_ucConnectionStatus = 0;


    //Initialize the SLHost Driver
    InitDriver();

    //Wait for Ip Acquired Event in AP Mode
    while (g_ucIpObtained == 0)
    {
        MAP_UtilsDelay(100);
    }

     //
    // Wait for AP Configuraiton, Open Browser and Configure AP
    //
    while (g_ucProfileAdded && !g_ucAntSelectDone)
    {
        MAP_UtilsDelay(100);
    }

        g_ucProfileAdded = 1;

    //Switch to STA Mode
    sl_WlanSetMode(ROLE_STA);

    //AP Configured, Restart in STA Mode
    DeInitDriverAP();

    g_ucIpObtained = 0;
    g_ucConnectionStatus = 0;

    //MAP_UtilsDelay(10000000);
    InitDriver();

    //
    // Connect to the Configured Access Point
    //
    WlanConnect();

    g_ucConnectedToConfAP = g_ucConnectionStatus;

    sl_WlanDisconnect();

  }

  while (1)
  {

  }

}
Пример #19
0
//*****************************************************************************
//
//! Main which invokes the WPS provisioning APIs
//!
//! \param  none
//!
//! \return 0
//
//*****************************************************************************
void
main()
{
    long lRetVal = -1;
    //
    // Initialize board configurations
    BoardInit();
    //
    // Configure the pinmux settings for the peripherals exercised
    //
    PinMuxConfig();

#ifndef NOTERM
    //
    // Configuring UART
    //
    InitTerm();
#endif
   
    // configure RED LED
    GPIO_IF_LedConfigure(LED1);

    GPIO_IF_LedOff(MCU_RED_LED_GPIO);

    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
            UART_PRINT("Failed to configure the device in its default state \n\r");

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Initialzing the CC3200 networking layers
    //
    lRetVal = sl_Start(NULL, NULL, NULL);
    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Device started as STATION \n\r");

    //
    // Connecting to WLAN AP with WPS security, using Push Button method.
    // The AP parameters are set with static values defined at the top.
    // After this function call we will be connected and have IP address.
    //
    lRetVal = WpsConnectPushButton();
    if(lRetVal < 0)
    {
        ERR_PRINT("Connect through push button failed\n\r");
        LOOP_FOREVER();
    }

    //
    // Turn ON the RED LED to indicate connection success
    //
    GPIO_IF_LedOn(MCU_RED_LED_GPIO);

    //
    // Wait for a while
    //
    MAP_UtilsDelay(80000000);

    //
    // Disconnect from the WLAN AP.
    // After this function call we will be disconnected
    //
    lRetVal = WlanDisconnect();
    if(lRetVal < 0)
    {
        ERR_PRINT("Disconect failed\n\r");
        LOOP_FOREVER();
    }

    MAP_UtilsDelay(8000000);

    //
    // Turn OFF the RED LED to indicate connection disconnected
    //
    GPIO_IF_LedOff(MCU_RED_LED_GPIO);

    //
    // Connecting to WLAN AP with WPS security, using Pin Code method.
    // The default pin code is as specified in WPS_PIN_CODE.
    // The AP parameters are set with static values defined at the top.
    // After this function call we will be connected and have IP address.
    //
    lRetVal = WpsConnectPinCode();
    if(lRetVal < 0)
    {
        ERR_PRINT("Connect through pin code failed\n\r");
        LOOP_FOREVER();
    }

    //
    // Turn ON the RED LED to indicate connection success
    //
    GPIO_IF_LedOn(MCU_RED_LED_GPIO);

    //
    // Wait for a while
    //
    MAP_UtilsDelay(80000000);

    //
    // Disconnect from the WLAN AP.
    // After this function call we will be disconnected
    //
    lRetVal = WlanDisconnect();
    if(lRetVal < 0)
    {
        ERR_PRINT("Disconnect failed\n\r");
        LOOP_FOREVER();
    }

    //
    // Turn OFF the RED LED to indicate connection disconnected
    //
    GPIO_IF_LedOff(MCU_RED_LED_GPIO);
    lRetVal = sl_Stop(SL_STOP_TIMEOUT);

    while (1)
    {
        _SlNonOsMainLoopTask();
    }

}
Пример #20
0
int main()
{
    UserIn User;
    int iFlag = 1;
    long lRetVal = -1;
    char cChar;
    unsigned char policyVal;
    
    //
    // Initialize Board configuration
    //
    BoardInit();
    
    //
    //
    //Pin muxing
    //
    PinMuxConfig();
    
    // Configuring UART
    //
    InitTerm();
    DisplayBanner(APPLICATION_NAME);

    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
          UART_PRINT("Failed to configure the device in its default state \n\r");
          LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    CLR_STATUS_BIT_ALL(g_ulStatus);

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Device started as STATION \n\r");

    //
    // reset all network policies
    //
    lRetVal = sl_WlanPolicySet(  SL_POLICY_CONNECTION,
                  SL_CONNECTION_POLICY(0,0,0,0,0),
                  &policyVal,
                  1 /*PolicyValLen*/);
    if (lRetVal < 0)
    {
        UART_PRINT("Failed to set policy \n\r");
        LOOP_FOREVER();
    }

    while (iFlag)
    { 
    User = UserInput();

    switch(User.choice)
    {
    case(1):

        /*******An example of Tx continuous on user selected channel, rate 11,
        * user selected number of packets, minimal delay between packets*******/
        lRetVal = Tx_continuous(User.channel,User.rate,User.packets, \
                             User.Txpower,0);
        if(lRetVal < 0)
        {
            UART_PRINT("Error during transmission of raw data\n\r");
            LOOP_FOREVER();
        }
        break;
    case(2):

        /******An example of Rx statistics using user selected channel *******/
        lRetVal = RxStatisticsCollect();
        if(lRetVal < 0)
        {
            UART_PRINT("Error while collecting statistics data\n\r");
            LOOP_FOREVER();
        }
        break;
    }

    UART_PRINT("\n\rEnter \"1\" to restart or \"0\" to quit: ");
    //
    // Wait to receive a character over UART
    //
    cChar = MAP_UARTCharGet(CONSOLE);
    //
    // Echo the received character
    //
    MAP_UARTCharPut(CONSOLE, cChar);
    UART_PRINT("\n\r");
    iFlag = atoi(&cChar);
    }
    UART_PRINT("\r\nEnding the application....");
    //
    // power off network processor
    //
    lRetVal = sl_Stop(SL_STOP_TIMEOUT);

    LOOP_FOREVER();

}
Пример #21
0
//*****************************************************************************
//
//! NwpFilter - Function which Creates and Enables the Filter
//!
//! \param  pvParameters
//!
//! \return 0
//!
//*****************************************************************************
static int NwpFilter(void *pvParameters)
{
    long lRetVal = 0;
    InitializeAppVariables();

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
        if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
        {
            UART_PRINT("Failed to configure the device in its default state\n\r");
        }

        LOOP_FOREVER();
    }

    UART_PRINT("Device is configured in default state \n\r");

    //
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
        UART_PRINT("Failed to start the device \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Device started as STATION \n\r");

    //
    // Reset policy settings
    //
    lRetVal = sl_WlanPolicySet(SL_POLICY_CONNECTION, \
                                SL_CONNECTION_POLICY(0,0,0,0,0), 0, 0);

    //
    // This function creates two different filters:
    // (1) Filter packets according to remote MAC
    // (2) Filter packets according to remote IP address
    //
    lRetVal=CreateFilters();
    if (lRetVal < 0)
    {
        UART_PRINT("Filter creation failed\n\r");
        LOOP_FOREVER();
    }

    //
    // Activate pre-defined filters  - The filters will be deleted upon reset
    //
    if(EnableAllFilters() < 0)
    {
        UART_PRINT("Unable to enable filter \n\r");
        LOOP_FOREVER();
    }
    
    //
    //Connecting to WLAN AP
    //
    lRetVal = WlanConnect();
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to establish connection w/ an AP \n\r");
        LOOP_FOREVER();
    }

    UART_PRINT("Connection established w/ AP and IP is aquired \n\r");

    //
    // After calling this function, you can start sending data to CC3200 IP 
    // address on PORT_NUM TCP connection will be refused if remote MAC/IP is of 
    // the filtered. It's also possible to enable the filters after TCP 
    // connection, resulting in TCP packets to not being received 
    //
    lRetVal = BsdTcpServer(PORT_NUM);
    if(lRetVal < 0)
    {
        UART_PRINT("Failure in TCP server\n\r");
        LOOP_FOREVER();
    }

    //
    // Power off Network processor
    //
    lRetVal = sl_Stop(SL_STOP_TIMEOUT);

    return 0;
}
Пример #22
0
//*****************************************************************************
//
//! This function demonstrates how certificate can be used with SSL.
//! The procedure includes the following steps:
//! 1) connect to an open AP
//! 2) get the server name via a DNS request
//! 3) define all socket options and point to the CA certificate
//! 4) connect to the server via TCP
//!
//! \param None
//!
//! \return  0 on success else error code
//! \return  LED1 is turned solid in case of success
//!    LED2 is turned solid in case of failure
//!
//*****************************************************************************
static long ssl()
{
    SlSockAddrIn_t    Addr;
    int    iAddrSize;
    unsigned char    ucMethod = SL_SO_SEC_METHOD_SSLV3;
    unsigned int uiIP,uiCipher = SL_SEC_MASK_SSL_RSA_WITH_RC4_128_SHA;
    long lRetVal = -1;
    int iSockID;

    GPIO_IF_LedConfigure(LED1|LED3);

    GPIO_IF_LedOff(MCU_RED_LED_GPIO);
    GPIO_IF_LedOff(MCU_GREEN_LED_GPIO); 

    lRetVal = InitializeAppVariables();
    ASSERT_ON_ERROR(lRetVal);

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
      if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
          UART_PRINT("Failed to configure the device in its default state \n\r");

      return lRetVal;
    }

    UART_PRINT("Device is configured in default state \n\r");

    CLR_STATUS_BIT_ALL(g_ulStatus);

    ///
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
        UART_PRINT("Failed to start the device \n\r");
        return lRetVal;
    }

    UART_PRINT("Device started as STATION \n\r");

    //
    //Connecting to WLAN AP
    //
    lRetVal = WlanConnect();
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to establish connection w/ an AP \n\r");
        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
        return lRetVal;
    }

    UART_PRINT("Connection established w/ AP and IP is aquired \n\r");

    //Set time of the device for certificate verification.
    lRetVal = set_time();
    if(lRetVal < 0)
    {
        UART_PRINT("Unable to set time in the device");
        return lRetVal;
    }


    lRetVal = sl_NetAppDnsGetHostByName(g_Host, strlen((const char *)g_Host),
                                    (unsigned long*)&uiIP, SL_AF_INET);

    if(lRetVal < 0)
    {
        UART_PRINT("Device couldn't retrive the host name \n\r");
        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
        return lRetVal;
    }

    Addr.sin_family = SL_AF_INET;
    Addr.sin_port = sl_Htons(GOOGLE_DST_PORT);
    Addr.sin_addr.s_addr = sl_Htonl(uiIP);
    iAddrSize = sizeof(SlSockAddrIn_t);
    //
    // opens a secure socket 
    //
    iSockID = sl_Socket(SL_AF_INET,SL_SOCK_STREAM, SL_SEC_SOCKET);
    if( iSockID < 0 )
    {
        UART_PRINT("Device unable to create secure socket \n\r");
        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
        return lRetVal;
    }

    //
    // configure the socket as SSLV3.0 
    //
    lRetVal = sl_SetSockOpt(iSockID, SL_SOL_SOCKET, SL_SO_SECMETHOD, &ucMethod,\
                               sizeof(ucMethod));
    if(lRetVal < 0)
    {
        UART_PRINT("Device couldn't set socket options \n\r");
        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
        return lRetVal;
    }
    //
    //configure the socket as RSA with RC4 128 SHA 
    //
    lRetVal = sl_SetSockOpt(iSockID, SL_SOL_SOCKET, SL_SO_SECURE_MASK, &uiCipher,\
                           sizeof(uiCipher));
    if(lRetVal < 0)
    {
        UART_PRINT("Device couldn't set socket options \n\r");
        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
        return lRetVal;
    }

    //
    //configure the socket with GOOGLE CA certificate - for server verification
    //
    lRetVal = sl_SetSockOpt(iSockID, SL_SOL_SOCKET, \
                           SL_SO_SECURE_FILES_CA_FILE_NAME, \
                           SL_SSL_CA_CERT_FILE_NAME, \
                           strlen(SL_SSL_CA_CERT_FILE_NAME));

    if(lRetVal < 0)
    {
        UART_PRINT("Device couldn't set socket options \n\r");
        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
        return lRetVal;
    }

    lRetVal = sl_SetSockOpt(iSockID, SL_SOL_SOCKET, \
    						SO_SECURE_DOMAIN_NAME_VERIFICATION, \
							g_Host, strlen((const char *)g_Host));
    if( lRetVal < 0 )
    {
    	UART_PRINT("Device couldn't set socket options \n\r");
    	GPIO_IF_LedOn(MCU_RED_LED_GPIO);
    	return lRetVal;
    }


    /* connect to the peer device - Google server */
    lRetVal = sl_Connect(iSockID, ( SlSockAddr_t *)&Addr, iAddrSize);

    if(lRetVal < 0)
    {
        UART_PRINT("Device couldn't connect to Google server \n\r");
        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
        return lRetVal;
    }

    GPIO_IF_LedOff(MCU_RED_LED_GPIO);
    GPIO_IF_LedOn(MCU_GREEN_LED_GPIO);
    return SUCCESS;
}
Пример #23
0
int connectToAccessPoint(){
	long lRetVal = -1;
    GPIO_IF_LedConfigure(LED1|LED3);

    GPIO_IF_LedOff(MCU_RED_LED_GPIO);
    GPIO_IF_LedOff(MCU_GREEN_LED_GPIO);

    lRetVal = InitializeAppVariables();
    ASSERT_ON_ERROR(lRetVal);

    //
    // Following function configure the device to default state by cleaning
    // the persistent settings stored in NVMEM (viz. connection profiles &
    // policies, power policy etc)
    //
    // Applications may choose to skip this step if the developer is sure
    // that the device is in its default state at start of applicaton
    //
    // Note that all profiles and persistent settings that were done on the
    // device will be lost
    //
    lRetVal = ConfigureSimpleLinkToDefaultState();
    if(lRetVal < 0)
    {
      if (DEVICE_NOT_IN_STATION_MODE == lRetVal)
          UART_PRINT("Failed to configure the device in its default state \n\r");

      return lRetVal;
    }

    UART_PRINT("Device is configured in default state \n\r");

    CLR_STATUS_BIT_ALL(g_ulStatus);

    ///
    // Assumption is that the device is configured in station mode already
    // and it is in its default state
    //
    lRetVal = sl_Start(0, 0, 0);
    if (lRetVal < 0 || ROLE_STA != lRetVal)
    {
        UART_PRINT("Failed to start the device \n\r");
        return lRetVal;
    }

    UART_PRINT("Device started as STATION \n\r");

    //
    //Connecting to WLAN AP
    //
    lRetVal = WlanConnect();
    if(lRetVal < 0)
    {
        UART_PRINT("Failed to establish connection w/ an AP \n\r");
        GPIO_IF_LedOn(MCU_RED_LED_GPIO);
        return lRetVal;
    }

    UART_PRINT("Connection established w/ AP and IP is aquired \n\r");
    return 0;
}