void VirginCheck(void)
{
uint8_t cBuffer[20];
//EEPROM_Test();
memset((uint8_t *)cBuffer, 0x00, 19);
// EEPROM_Write(GAINSPAN_SIGNATURE_ADDR, "12345678", GAINSPAN_SIGNATURE_LEN);
EEPROM_Read(GAINSPAN_SIGNATURE_ADDR, cBuffer, GAINSPAN_SIGNATURE_LEN);
EEPROM_Read(GAINSPAN_SIGNATURE_ADDR, cBuffer, GAINSPAN_SIGNATURE_LEN);
EEPROM_Read(98, cBuffer, GAINSPAN_SIGNATURE_LEN);
cBuffer[GAINSPAN_SIGNATURE_LEN+1]=0;
if(strcmp((char const *)GainspanSignature, (char const*)cBuffer)) // write signature "Gainspan"
{
EEPROM_Write(GAINSPAN_SIGNATURE_ADDR, "Gainspan", GAINSPAN_SIGNATURE_LEN);
EEPROM_Read(GAINSPAN_SIGNATURE_ADDR, cBuffer, GAINSPAN_SIGNATURE_LEN);
strcpy(str_config_ssid, (char const*)ATLIBGS_ADK_SSID);
AtLibGs_GetMAC((char *)cBuffer);
strncat(str_config_ssid, (char const*)&cBuffer[9],2);
strncat(str_config_ssid, (char const*)&cBuffer[12],2);
strncat(str_config_ssid, (char const*)&cBuffer[15],2);
EEPROM_Write(GAINSPAN_SSID_ADDR, str_config_ssid, GAINSPAN_SSID_MAX_LEN);
}
#if 1
memset(str_config_ssid, 0x00, GAINSPAN_SSID_MAX_LEN);
EEPROM_Read(GAINSPAN_SSID_ADDR, str_config_ssid, GAINSPAN_SSID_MAX_LEN); // read SSID from EEPROM
EEPROM_Read(GAINSPAN_CHANNEL_ADDR, &wifi_channel, GAINSPAN_CHANNEL_MAX_LEN); // read WiFi channel from EEPROM
if(wifi_channel<1 || wifi_channel>14) // something wrong, set to default channel
{
wifi_channel = 6;
EEPROM_Write(GAINSPAN_CHANNEL_ADDR, &wifi_channel, GAINSPAN_CHANNEL_MAX_LEN);
}
#endif
}
/*---------------------------------------------------------------------------*
* Routine: App_OverTheAirProgrammingPushMetheod
*---------------------------------------------------------------------------*
* Description:
* Put the unit into over the air programming mode in Push Method after connecting to an
* access point in infrastructure mode.
* Inputs:
* void
* Outputs:
* void
*---------------------------------------------------------------------------*/
void App_OverTheAirProgrammingPushMetheod(void)
{
ATLIBGS_MSG_ID_E r;
App_InitModule();
while(1)
{
r = AtLibGs_GetMAC(WiFiMAC);
if(r != ATLIBGS_MSG_ID_OK)
{
DisplayLCD(LCD_LINE6, "Get MAC Failed!");
MSTimerDelay(2000);
continue;
}
break;
};
if(r == ATLIBGS_MSG_ID_OK)
AtLibGs_ParseGetMacResponse(WiFiMACStr);
strcpy(str_config_ssid, (char const*)ATLIBGS_ADK_SSID);
strcat(str_config_ssid, &WiFiMACStr[6]); // concatenate last 6 digis of MAC as SSID
App_StartupLimitedAP(str_config_ssid);
r = AtLibGs_WebProv(",", ",");
while(r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Bad WebProv!");
MSTimerDelay(2000);
continue;
}
DisplayLCD(LCD_LINE6, "Download ON");
DisplayLCD(LCD_LINE7, (const uint8_t *) "192.168.240.");
DisplayLCD(LCD_LINE8, (const uint8_t *) "1/otafu.html");
while(1)
;
}
/*---------------------------------------------------------------------------*
* Routine: WIFI_init
*---------------------------------------------------------------------------*
* Description:
* Initial setting + DHCP and show status on the LCD.
*
* Inputs:
* void
* Outputs:
* ATLIBGS_MSG_ID_E
*---------------------------------------------------------------------------*/
ATLIBGS_MSG_ID_E WIFI_init(int16_t showMessage)
{
ATLIBGS_MSG_ID_E rxMsgId = ATLIBGS_MSG_ID_NONE;
char wifi_mac[20];
// Check the link
#ifdef HOST_APP_DEBUG_ENABLE
ConsolePrintf("Checking link\r\n");
#endif
AtLibGs_Init();
// Wait for the banner
MSTimerDelay(500);
// Send command to check
do {
AtLibGs_FlushIncomingMessage();
DisplayLCD(LCD_LINE8, "Checking...");
rxMsgId = AtLibGs_Check();
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
do {
rxMsgId = AtLibGs_SetEcho(0); // disable Echo
}while (ATLIBGS_MSG_ID_OK != rxMsgId);
do {
rxMsgId = AtLibGs_Version(); // check the GS version
}while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Get MAC Address & Show
rxMsgId = AtLibGs_GetMAC(wifi_mac);
if (rxMsgId == ATLIBGS_MSG_ID_OK)
AtLibGs_ParseGetMacResponse(wifi_mac);
memset(&wifi_mac[12], 0, 7);
if (showMessage > 0) {
DisplayLCD(LCD_LINE5, "MAC ADDRESS");
DisplayLCD(LCD_LINE6, (const uint8_t *)wifi_mac);
DisplayLCD(LCD_LINE2, (const uint8_t *)AppVersion);
MSTimerDelay(2000);
DisplayLCD(LCD_LINE2, " ");
}
do {
AtLibGs_FlushIncomingMessage();
DisplayLCD(LCD_LINE8, "Disassociate");
rxMsgId = AtLibGs_DisAssoc();
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Enable DHCP
do {
DisplayLCD(LCD_LINE8, "DHCP On...");
rxMsgId = AtLibGs_DHCPSet(1);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
if(strlen(GNV_Setting.webprov.ssid) > 0)
{
if(GNV_Setting.webprov.security == ATLIBGS_PROVSECU_WEP)
{
do {
DisplayLCD(LCD_LINE8, " Setting WEP");
rxMsgId = AtLibGs_SetWEP1((int8_t*)GNV_Setting.webprov.password);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
DisplayLCD(LCD_LINE8, " WEP Set");
}
else if(GNV_Setting.webprov.security == ATLIBGS_PROVSECU_WPA_PER)
{
do {
DisplayLCD(LCD_LINE8, " Setting PSK");
rxMsgId = AtLibGs_CalcNStorePSK(GNV_Setting.webprov.ssid, GNV_Setting.webprov.password);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
DisplayLCD(LCD_LINE8, " PSK Set");
}
else if(GNV_Setting.webprov.security == ATLIBGS_PROVSECU_WPA_ENT)
{
// Set AT+WAUTH=0 for WPA or WPA2
do {
DisplayLCD(LCD_LINE8, " " );
rxMsgId = AtLibGs_SetAuthentictionMode(ATLIBGS_AUTHMODE_NONE_WPA);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Security Configuration
do {
DisplayLCD(LCD_LINE8, "Set Security");
rxMsgId = AtLibGs_SetSecurity(ATLIBGS_SMAUTO);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
}
}
else
{
#ifdef HOST_APP_SEC_WEP
// Set AT+WAUTH=2 for WEP
do {
DisplayLCD(LCD_LINE8, " WEP AUTH " );
rxMsgId = AtLibGs_SetAuthentictionMode(2);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Set WEP
do {
rxMsgId = AtLibGs_SetWEP1(HOST_APP_AP_SEC_WEP);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Security Configuration
do {
rxMsgId = AtLibGs_SetSecurity(2); // WEP
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
#ifdef HOST_APP_SEC_PSK
// Store the PSK value. This call takes might take few seconds to return
do {
DisplayLCD(LCD_LINE8, "Setting PSK");
rxMsgId = AtLibGs_CalcNStorePSK(HOST_APP_AP_SSID, HOST_APP_AP_SEC_PSK);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
#ifdef HOST_APP_SEC_OPEN
// Store the PSK value. This call takes might take few seconds to return
do {
DisplayLCD(LCD_LINE8, "No Security" );
rxMsgId = AtLibGs_SetAuthentictionMode(1);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
#ifdef HOST_APP_WPA
// Set AT+WAUTH=0 for WPA or WPA2
do {
DisplayLCD(LCD_LINE8, " WPA " );
rxMsgId = AtLibGs_SetAuthentictionMode(0);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Store the PSK value. This call takes might take few seconds to return
do {
DisplayLCD(LCD_LINE8, "Setting PSK");
rxMsgId = AtLibGs_CalcNStorePSK(HOST_APP_AP_SSID, HOST_APP_AP_SEC_PSK);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Security Configuration
do {
DisplayLCD(LCD_LINE8, " WPA ");
rxMsgId = AtLibGs_SetSecurity(4);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
#ifdef HOST_APP_WPA2
// Set AT+WAUTH=0 for WPA or WPA2
do {
DisplayLCD(LCD_LINE8, " WPA2 " );
rxMsgId = AtLibGs_SetAuthentictionMode(ATLIBGS_AUTHMODE_NONE_WPA);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Store the PSK value. This call takes might take few seconds to return
do {
DisplayLCD(LCD_LINE8, "Setting PSK");
rxMsgId = AtLibGs_CalcNStorePSK(HOST_APP_AP_SSID, HOST_APP_AP_SEC_PSK);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Security Configuration
do {
DisplayLCD(LCD_LINE8, " Set WPA ");
rxMsgId = AtLibGs_SetSecurity(ATLIBGS_SMWPA2PSK);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
}
// Clear MAC Address and show WIFI
DisplayLCD(LCD_LINE6, " WIFI ");
DisplayLCD(LCD_LINE5, " ");
return rxMsgId;
}
ATLIBGS_MSG_ID_E WIFI_init(int16_t showMessage)
{
ATLIBGS_MSG_ID_E rxMsgId = ATLIBGS_MSG_ID_NONE;
// Check the link
#ifdef HOST_APP_DEBUG_ENABLE
ConsolePrintf("Checking link\r\n");
#endif
AtLibGs_Init();
// Wait for the banner
MSTimerDelay(500);
/* Send command to check */
do {
AtLibGs_FlushIncomingMessage();
DisplayLCD(LCD_LINE4, "wl_check.. ");
rxMsgId = AtLibGs_Check();
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
do {
rxMsgId = AtLibGs_SetEcho(0); // disable Echo
}while (ATLIBGS_MSG_ID_OK != rxMsgId);
do {
rxMsgId = AtLibGs_Version(); // check the GS version
}while (ATLIBGS_MSG_ID_OK != rxMsgId);
#if 0
if(strstr((const char *)MRBuffer, "2.3.")) // still debug why receive 2 extra bytes: ESC S
{
G_Extra2B = 2;
}
#endif
do{
rxMsgId = AtLibGs_EnableRadio(1); // enable radio
}while(rxMsgId != ATLIBGS_MSG_ID_OK);
/* Get MAC Address & Show */
rxMsgId = AtLibGs_GetMAC(WiFiMAC);
if (rxMsgId == ATLIBGS_MSG_ID_OK)
AtLibGs_ParseGetMacResponse(WifiMAC);
if (showMessage > 0) {
DisplayLCD(LCD_LINE3, (const uint8_t *)WifiMAC);
MSTimerDelay(2000);
}
do {
AtLibGs_FlushIncomingMessage();
DisplayLCD(LCD_LINE4, "wl_disass.. ");
rxMsgId = AtLibGs_DisAssoc();
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Enable DHCP
do {
DisplayLCD(LCD_LINE4, "wl_dhcpon.. ");
rxMsgId = AtLibGs_DHCPSet(1);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
if(strlen(GNV_Setting.webprov.ssid) > 0)
{
if(GNV_Setting.webprov.security == ATLIBGS_PROVSECU_WEP)
{
do {
DisplayLCD(LCD_LINE4, "wl_setwep.. ");
rxMsgId = AtLibGs_SetWEP1((int8_t*)GNV_Setting.webprov.password);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
DisplayLCD(LCD_LINE4, "wl_wepset.. ");
}
else if(GNV_Setting.webprov.security == ATLIBGS_PROVSECU_WPA_PER)
{
do {
DisplayLCD(LCD_LINE4, "wl_setpsk.. ");
rxMsgId = AtLibGs_CalcNStorePSK(GNV_Setting.webprov.ssid, GNV_Setting.webprov.password);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
DisplayLCD(LCD_LINE4, "wl_pskset.. ");
}
else if(GNV_Setting.webprov.security == ATLIBGS_PROVSECU_WPA_ENT)
{
/* Set AT+WAUTH=0 for WPA or WPA2 */
do {
DisplayLCD(LCD_LINE4, " " );
rxMsgId = AtLibGs_SetAuthentictionMode(ATLIBGS_AUTHMODE_NONE_WPA);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
/* Security Configuration */
do {
DisplayLCD(LCD_LINE4, "wl_setsec.. ");
rxMsgId = AtLibGs_SetSecurity(ATLIBGS_SMAUTO);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
}
}
else
{
#ifdef HOST_APP_SEC_WEP
// Set AT+WAUTH=2 for WEP
do {
DisplayLCD(LCD_LINE4, "wl_wepauth.." );
rxMsgId = AtLibGs_SetAuthentictionMode(2);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
// Set WEP
do {
rxMsgId = AtLibGs_SetWEP1(HOST_APP_AP_SEC_WEP);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
/* Security Configuration */
do {
rxMsgId = AtLibGs_SetSecurity(2); // WEP
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
#ifdef HOST_APP_SEC_PSK
/* Store the PSK value. This call takes might take few seconds to return */
do {
DisplayLCD(LCD_LINE4, "wl_setpsk.. ");
rxMsgId = AtLibGs_CalcNStorePSK(HOST_APP_AP_SSID, HOST_APP_AP_SEC_PSK);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
#ifdef HOST_APP_SEC_OPEN
/* Store the PSK value. This call takes might take few seconds to return */
do {
DisplayLCD(LCD_LINE4, "wl_nosec.. " );
rxMsgId = AtLibGs_SetAuthentictionMode(1);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
#ifdef HOST_APP_WPA
// Set AT+WAUTH=0 for WPA or WPA2
do {
DisplayLCD(LCD_LINE4, "wl_wpa.. " );
rxMsgId = AtLibGs_SetAuthentictionMode(0);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
/* Store the PSK value. This call takes might take few seconds to return */
do {
DisplayLCD(LCD_LINE4, "wl_setpsk.. ");
rxMsgId = AtLibGs_CalcNStorePSK(HOST_APP_AP_SSID, HOST_APP_AP_SEC_PSK);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
/* Security Configuration */
do {
DisplayLCD(LCD_LINE4, "wl_wpa.. ");
rxMsgId = AtLibGs_SetSecurity(4);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
#ifdef HOST_APP_WPA2
// Set AT+WAUTH=0 for WPA or WPA2
do {
DisplayLCD(LCD_LINE4, "wl_wpa2.. " );
rxMsgId = AtLibGs_SetAuthentictionMode(ATLIBGS_AUTHMODE_NONE_WPA);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
/* Store the PSK value. This call takes might take few seconds to return */
do {
DisplayLCD(LCD_LINE4, "wl_setpsk.. ");
rxMsgId = AtLibGs_CalcNStorePSK(HOST_APP_AP_SSID, HOST_APP_AP_SEC_PSK);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
/* Security Configuration */
do {
DisplayLCD(LCD_LINE4, "wl_setwpa.. ");
rxMsgId = AtLibGs_SetSecurity(ATLIBGS_SMWPA2PSK);
} while (ATLIBGS_MSG_ID_OK != rxMsgId);
#endif
}
return rxMsgId;
}
/*---------------------------------------------------------------------------*
* Routine: App_StartupADKDemo
*---------------------------------------------------------------------------*
* Description:
* Put the unit into a limited AP mode, enable XML parse, and setup mDNS
*
* Inputs:
* void
* Outputs:
* void
*---------------------------------------------------------------------------*/
void App_StartupADKDemo(void)
{
ATLIBGS_MSG_ID_E r;
// DisplayLCD(LCD_LINE3, "Limited AP");
// DisplayLCD(LCD_LINE4, ATLIBGS_LIMITED_AP_SSID);
// VirginCheck();
#if 1
DisplayLCD(LCD_LINE3, (const uint8_t *) "192.168.240.");
DisplayLCD(LCD_LINE4, (const uint8_t *) "1/rdk.html");
#else
DisplayLCD(LCD_LINE3, (const uint8_t *) "192.168.1.1/");
DisplayLCD(LCD_LINE4, (const uint8_t *) "rdk.html");
#endif
#ifdef ATLIBGS_DEBUG_ENABLE
ConsolePrintf("Starting Limited AP: %s\n", ATLIBGS_LIMITED_AP_SSID);
#endif
/* Try to disassociate if not already associated */
AtLibGs_DisAssoc();
while (1) {
DisplayLCD(LCD_LINE6, " Setting up");
r =AtLibGs_EnableRadio(1); // enable radio
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Bad Mode!");
MSTimerDelay(2000);
continue;
}
#if 0
r = AtLibGs_ConfigAntenna(1);
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Configure Antenna Fail!");
MSTimerDelay(2000);
continue;
}
#endif
r = AtLibGs_Mode(ATLIBGS_STATIONMODE_LIMITED_AP);
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Bad Mode!");
MSTimerDelay(2000);
continue;
}
r = AtLibGs_IPSet(ATLIBGS_ADK_IP, ATLIBGS_ADK_MASK,
ATLIBGS_ADK_GATEWAY);
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Bad IP!");
MSTimerDelay(2000);
continue;
}
AtLibGs_DisableDHCPServer();
r = AtLibGs_EnableDHCPServer();
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Bad DHCPSrv!");
MSTimerDelay(2000);
continue;
}
#if 0
r = AtLibGs_SetRegulatoryDomain(ATLIBGS_REGDOMAIN_TELEC);
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Set Domain Fail");
MSTimerDelay(2000);
continue;
}
#endif
r = AtLibGs_GetMAC(WiFiMAC);
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Get MAC Failed!");
MSTimerDelay(2000);
continue;
}
if(r == ATLIBGS_MSG_ID_OK)
AtLibGs_ParseGetMacResponse(WiFiMACStr);
strcpy(str_config_ssid, (char const*)ATLIBGS_ADK_SSID);
strcat(str_config_ssid, &WiFiMACStr[6]); // concatenate last 6 digis of MAC as SSID
DisplayLCD(LCD_LINE1, (const uint8_t *)str_config_ssid);
r = AtLibGs_Assoc(str_config_ssid /*ATLIBGS_ADK_SSID*/, 0,
ATLIBGS_ADK_CHANNEL);
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "AP Failed!");
MSTimerDelay(2000);
continue;
}
r = AtLibGs_WebServer(1, "", "", "", "");
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Server Failed!");
MSTimerDelay(2000);
continue;
}
r = AtLibGs_SetXMLParse(1);;
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "XML Failed!");
MSTimerDelay(2000);
continue;
}
#if 1 // mDNS_ENABLED
// now start mNDS service
r = AtLibGs_StartMDNS();
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "MDNS1 Failed!");
MSTimerDelay(2000);
continue;
}
r = AtLibGs_RegisterMDNSHost("xyz","local");
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "MDNS2 Failed!");
MSTimerDelay(2000);
continue;
}
r = AtLibGs_RegisterMDNSService(ATLIBGS_ADK_MDNS_SERVER,"","_http","_tcp","local","80","path=/gainspan/profile/mcu");
// r = AtLibGs_RegisterMDNSService(ATLIBGS_ADK_MDNS_SERVER,"","_http","_tcp","local","80","path=/rdk.html");
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "MDNS3 Failed!");
MSTimerDelay(2000);
continue;
}
r = AtLibGs_AnnounceMDNS();
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "MDNS4 Failed!");
MSTimerDelay(2000);
continue;
}
#endif
break;
}
DisplayLCD(LCD_LINE6, "");
MSTimerDelay(2000);
AtLibGs_FlushIncomingMessage();
#ifdef ATLIBGS_DEBUG_ENABLE
ConsolePrintf("ADK Demo Started\n");
#endif
}
/*---------------------------------------------------------------------------*
* Routine: App_WebProvisioning
*---------------------------------------------------------------------------*
* Description:
* Put the unit into web provisioning mode and wait for the user to
* connect with a web browser, change the settings, and click Save.
* The settings will then be parsed by the AtLibGs library and
* get saved into the nv settings.
* Inputs:
* void
* Outputs:
* void
*---------------------------------------------------------------------------*/
void App_WebProvisioning(void)
{
ATLIBGS_MSG_ID_E r;
/* At power up, load up the default settings */
if(NVSettingsLoad(&G_nvsettings))
NVSettingsSave(&G_nvsettings);
App_InitModule();
while(1)
{
r = AtLibGs_GetMAC(WiFiMAC);
if(r != ATLIBGS_MSG_ID_OK)
{
DisplayLCD(LCD_LINE6, "Get MAC Failed!");
MSTimerDelay(2000);
continue;
}
break;
};
if(r == ATLIBGS_MSG_ID_OK)
AtLibGs_ParseGetMacResponse(WiFiMACStr);
strcpy(str_config_ssid, (char const*)ATLIBGS_ADK_SSID);
strcat(str_config_ssid, &WiFiMACStr[6]); // concatenate last 6 digis of MAC as SSID
App_StartupLimitedAP(str_config_ssid);
/* Before going into web provisioning, provide DNS to give a link. */
/* The user can then go to http://webprov.gainspan.com/gsclient.html to get */
/* access to the web provisioning screen. */
while (1) {
#if 0
AtLibGs_DisableDNSServer();
r = AtLibGs_EnableDNSServer("webprov.gainspan.com");
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Bad DNS!");
MSTimerDelay(2000);
continue;
}
#endif
r = AtLibGs_WebProv(",", ",");
if (r != ATLIBGS_MSG_ID_OK) {
DisplayLCD(LCD_LINE6, "Bad WebProv!");
MSTimerDelay(2000);
continue;
}
break;
}
DisplayLCD(LCD_LINE6, "WebProv ON");
DisplayLCD(LCD_LINE7, (const uint8_t *) "192.168.240.");
DisplayLCD(LCD_LINE8, (const uint8_t *) "1/prov.html");
#if 0
do {
DisplayLCD(LCD_LINE7, "IP: ???.???.");
DisplayLCD(LCD_LINE8, " ???.???");
r = AtLibGs_GetNetworkStatus(&network_status);
} while (ATLIBGS_MSG_ID_OK != r);
sprintf(text, "IP: " _F8_ "." _F8_ ".",
network_status.addr.ipv4[0], network_status.addr.ipv4[1]);
DisplayLCD(LCD_LINE7, (uint8_t *)text);
sprintf(text, " " _F8_ "." _F8_, network_status.addr.ipv4[2],
network_status.addr.ipv4[3]);
DisplayLCD(LCD_LINE8, (uint8_t *)text);
#endif
#ifdef ATLIBGS_DEBUG_ENABLE
ConsolePrintf("Web Provisioning ON\n");
#endif
/* Now wait for a list of responses until we get a blank line */
#ifdef ATLIBGS_DEBUG_ENABLE
ConsolePrintf("Waiting for web provisioning response...\n");
#endif
AtLibGs_GetWebProvSettings(&G_nvsettings.webprov, 0);
/* Save the above settings */
NVSettingsSave(&G_nvsettings);
#ifdef ATLIBGS_DEBUG_ENABLE
ConsolePrintf("Web provisioning complete.\n");
#endif
DisplayLCD(LCD_LINE6, "WebProv Done");
DisplayLCD(LCD_LINE7, "");
DisplayLCD(LCD_LINE8, "Press RESET");
while (1)
{}
}