/* Cgi/template routines for the /wifi url. */ /* * ---------------------------------------------------------------------------- * "THE BEER-WARE LICENSE" (Revision 42): * Jeroen Domburg wrote this file. As long as you retain * this notice you can do whatever you want with this stuff. If we meet some day, * and you think this stuff is worth it, you can buy me a beer in return. * ---------------------------------------------------------------------------- */ #include #include "cgiwifi.h" #include "status.h" //Enable this to disallow any changes in AP settings //#define DEMO_MODE // ===== wifi status change callback uint8_t wifiState = wifiIsDisconnected; // reasons for which a connection failed uint8_t wifiReason = 0; static char *wifiReasons[] = { "", "unspecified", "auth_expire", "auth_leave", "assoc_expire", "assoc_toomany", "not_authed", "not_assoced", "assoc_leave", "assoc_not_authed", "disassoc_pwrcap_bad", "disassoc_supchan_bad", "ie_invalid", "mic_failure", "4way_handshake_timeout", "group_key_update_timeout", "ie_in_4way_differs", "group_cipher_invalid", "pairwise_cipher_invalid", "akmp_invalid", "unsupp_rsn_ie_version", "invalid_rsn_ie_cap", "802_1x_auth_failed", "cipher_suite_rejected", "beacon_timeout", "no_ap_found" }; static char* ICACHE_FLASH_ATTR wifiGetReason(void) { if (wifiReason <= 24) return wifiReasons[wifiReason]; if (wifiReason >= 200 && wifiReason <= 201) return wifiReasons[wifiReason-200+25]; return wifiReasons[1]; } // handler for wifi status change callback coming in from espressif library static void ICACHE_FLASH_ATTR wifiHandleEventCb(System_Event_t *evt) { switch (evt->event) { case EVENT_STAMODE_CONNECTED: wifiState = wifiIsConnected; wifiReason = 0; os_printf("Wifi connected to ssid %s, ch %d\n", evt->event_info.connected.ssid, evt->event_info.connected.channel); statusWifiUpdate(wifiState); break; case EVENT_STAMODE_DISCONNECTED: wifiState = wifiIsDisconnected; wifiReason = evt->event_info.disconnected.reason; os_printf("Wifi disconnected from ssid %s, reason %s\n", evt->event_info.disconnected.ssid, wifiGetReason()); statusWifiUpdate(wifiState); break; case EVENT_STAMODE_AUTHMODE_CHANGE: os_printf("Wifi auth mode: %d -> %d\n", evt->event_info.auth_change.old_mode, evt->event_info.auth_change.new_mode); break; case EVENT_STAMODE_GOT_IP: wifiState = wifiGotIP; wifiReason = 0; os_printf("Wifi got ip:" IPSTR ",mask:" IPSTR ",gw:" IPSTR "\n", IP2STR(&evt->event_info.got_ip.ip), IP2STR(&evt->event_info.got_ip.mask), IP2STR(&evt->event_info.got_ip.gw)); statusWifiUpdate(wifiState); break; case EVENT_SOFTAPMODE_STACONNECTED: os_printf("Wifi AP: station " MACSTR " joined, AID = %d\n", MAC2STR(evt->event_info.sta_connected.mac), evt->event_info.sta_connected.aid); break; case EVENT_SOFTAPMODE_STADISCONNECTED: os_printf("Wifi AP: station " MACSTR " left, AID = %d\n", MAC2STR(evt->event_info.sta_disconnected.mac), evt->event_info.sta_disconnected.aid); break; default: break; } } // ===== wifi scanning //WiFi access point data typedef struct { char ssid[32]; char rssi; char enc; } ApData; //Scan result typedef struct { char scanInProgress; //if 1, don't access the underlying stuff from the webpage. ApData **apData; int noAps; } ScanResultData; //Static scan status storage. static ScanResultData cgiWifiAps; //Callback the code calls when a wlan ap scan is done. Basically stores the result in //the cgiWifiAps struct. void ICACHE_FLASH_ATTR wifiScanDoneCb(void *arg, STATUS status) { int n; struct bss_info *bss_link = (struct bss_info *)arg; if (status!=OK) { os_printf("wifiScanDoneCb status=%d\n", status); cgiWifiAps.scanInProgress=0; return; } //Clear prev ap data if needed. if (cgiWifiAps.apData!=NULL) { for (n=0; nnext.stqe_next; n++; } //Allocate memory for access point data cgiWifiAps.apData=(ApData **)os_malloc(sizeof(ApData *)*n); cgiWifiAps.noAps=n; os_printf("Scan done: found %d APs\n", n); //Copy access point data to the static struct n=0; bss_link = (struct bss_info *)arg; while (bss_link != NULL) { if (n>=cgiWifiAps.noAps) { //This means the bss_link changed under our nose. Shouldn't happen! //Break because otherwise we will write in unallocated memory. os_printf("Huh? I have more than the allocated %d aps!\n", cgiWifiAps.noAps); break; } //Save the ap data. cgiWifiAps.apData[n]=(ApData *)os_malloc(sizeof(ApData)); cgiWifiAps.apData[n]->rssi=bss_link->rssi; cgiWifiAps.apData[n]->enc=bss_link->authmode; strncpy(cgiWifiAps.apData[n]->ssid, (char*)bss_link->ssid, 32); bss_link = bss_link->next.stqe_next; n++; } //We're done. cgiWifiAps.scanInProgress=0; } //Routine to start a WiFi access point scan. static void ICACHE_FLASH_ATTR wifiStartScan() { // int x; if (cgiWifiAps.scanInProgress) return; cgiWifiAps.scanInProgress=1; wifi_station_scan(NULL, wifiScanDoneCb); } //This CGI is called from the bit of AJAX-code in wifi.tpl. It will initiate a //scan for access points and if available will return the result of an earlier scan. //The result is embedded in a bit of JSON parsed by the javascript in wifi.tpl. int ICACHE_FLASH_ATTR cgiWiFiScan(HttpdConnData *connData) { int pos=(int)connData->cgiData; int len; char buff[1024]; if (!cgiWifiAps.scanInProgress && pos!=0) { //Fill in json code for an access point if (pos-1ssid, cgiWifiAps.apData[pos-1]->rssi, cgiWifiAps.apData[pos-1]->enc, (pos-1==cgiWifiAps.noAps-1)?"":","); httpdSend(connData, buff, len); } pos++; if ((pos-1)>=cgiWifiAps.noAps) { len=os_sprintf(buff, "]\n}\n}\n"); httpdSend(connData, buff, len); //Also start a new scan. wifiStartScan(); return HTTPD_CGI_DONE; } else { connData->cgiData=(void*)pos; return HTTPD_CGI_MORE; } } httpdStartResponse(connData, 200); httpdHeader(connData, "Content-Type", "text/json"); httpdEndHeaders(connData); if (cgiWifiAps.scanInProgress==1) { //We're still scanning. Tell Javascript code that. len=os_sprintf(buff, "{\n \"result\": { \n\"inProgress\": \"1\"\n }\n}\n"); httpdSend(connData, buff, len); return HTTPD_CGI_DONE; } else { //We have a scan result. Pass it on. len=os_sprintf(buff, "{\n \"result\": { \n\"inProgress\": \"0\", \n\"APs\": [\n"); httpdSend(connData, buff, len); if (cgiWifiAps.apData==NULL) cgiWifiAps.noAps=0; connData->cgiData=(void *)1; return HTTPD_CGI_MORE; } } // ===== timers to change state and rescue from failed associations //#define CONNTRY_IDLE 0 //#define CONNTRY_WORKING 1 //#define CONNTRY_SUCCESS 2 //#define CONNTRY_FAIL 3 //Connection result var //static int connTryStatus=CONNTRY_IDLE; // reset timer changes back to STA+AP if we can't associate #define RESET_TIMEOUT (15000) // 15 seconds static ETSTimer resetTimer; //This routine is ran some time after a connection attempt to an access point. If //the connect succeeds, this gets the module in STA-only mode. static void ICACHE_FLASH_ATTR resetTimerCb(void *arg) { int x = wifi_station_get_connect_status(); int m = wifi_get_opmode(); os_printf("Wifi check: mode=%d status=%d\n", m, x); if (x == STATION_GOT_IP) { if (m != 1) { // We're happily connected, go to STA mode os_printf("Wifi got IP. Going into STA mode..\n"); wifi_set_opmode(1); os_timer_arm(&resetTimer, RESET_TIMEOUT, 0); } } else if (m != 3) { os_printf("Wifi connect failed. Going into STA+AP mode..\n"); wifi_set_opmode(3); os_timer_arm(&resetTimer, RESET_TIMEOUT, 0); } } // Temp store for new ap info. static struct station_config stconf; // Reassociate timer to delay change of association so the original request can finish static ETSTimer reassTimer; // Callback actually doing reassociation static void ICACHE_FLASH_ATTR reassTimerCb(void *arg) { os_printf("Wifi changing association\n"); wifi_station_disconnect(); wifi_station_set_config(&stconf); wifi_station_connect(); // Schedule check os_timer_disarm(&resetTimer); os_timer_setfn(&resetTimer, resetTimerCb, NULL); os_timer_arm(&resetTimer, RESET_TIMEOUT, 0); } //This cgi uses the routines above to connect to a specific access point with the //given ESSID using the given password. int ICACHE_FLASH_ATTR cgiWiFiConnect(HttpdConnData *connData) { char essid[128]; char passwd[128]; if (connData->conn==NULL) { //Connection aborted. Clean up. return HTTPD_CGI_DONE; } httpdFindArg(connData->post->buff, "essid", essid, sizeof(essid)); httpdFindArg(connData->post->buff, "passwd", passwd, sizeof(passwd)); os_strncpy((char*)stconf.ssid, essid, 32); os_strncpy((char*)stconf.password, passwd, 64); os_printf("Wifi try to connect to AP %s pw %s\n", essid, passwd); //Schedule disconnect/connect os_timer_disarm(&reassTimer); os_timer_setfn(&reassTimer, reassTimerCb, NULL); //Set to 0 if you want to disable the actual reconnecting bit #ifdef DEMO_MODE httpdRedirect(connData, "/wifi"); #else os_timer_arm(&reassTimer, 1000, 0); httpdRedirect(connData, "connecting.html"); #endif return HTTPD_CGI_DONE; } //This cgi changes the operating mode: STA / AP / STA+AP int ICACHE_FLASH_ATTR cgiWiFiSetMode(HttpdConnData *connData) { int len; char buff[1024]; if (connData->conn==NULL) { //Connection aborted. Clean up. return HTTPD_CGI_DONE; } len=httpdFindArg(connData->getArgs, "mode", buff, sizeof(buff)); if (len!=0) { int m = atoi(buff); os_printf("Wifi switching to mode %d\n", m); #ifndef DEMO_MODE wifi_set_opmode(m); if (m == 1) { // STA-only mode, reset into STA+AP after a timeout os_timer_disarm(&resetTimer); os_timer_setfn(&resetTimer, resetTimerCb, NULL); os_timer_arm(&resetTimer, RESET_TIMEOUT, 0); } #endif } httpdRedirect(connData, "/wifi"); return HTTPD_CGI_DONE; } char *connStatuses[] = { "idle", "connecting", "wrong password", "AP not found", "failed", "got IP address" }; int ICACHE_FLASH_ATTR cgiWiFiConnStatus(HttpdConnData *connData) { char buff[1024]; int len; struct ip_info info; int st=wifi_station_get_connect_status(); httpdStartResponse(connData, 200); httpdHeader(connData, "Content-Type", "text/json"); httpdEndHeaders(connData); len = os_sprintf(buff, "{\"status\": \""); if (st > 0 && st < sizeof(connStatuses)) { len += os_sprintf(buff+len, connStatuses[st]); } else { len += os_sprintf(buff+len, "unknown"); } if (wifiReason != 0) { len += os_sprintf(buff+len, " -- %s", wifiGetReason()); } if (st == STATION_GOT_IP) { wifi_get_ip_info(0, &info); len+=os_sprintf(buff+len, "\", \"ip\": \"%d.%d.%d.%d\" }\n", (info.ip.addr>>0)&0xff, (info.ip.addr>>8)&0xff, (info.ip.addr>>16)&0xff, (info.ip.addr>>24)&0xff); if (wifi_get_opmode() != 1) { //Reset into AP-only mode sooner. os_timer_disarm(&resetTimer); os_timer_setfn(&resetTimer, resetTimerCb, NULL); os_timer_arm(&resetTimer, 1000, 0); } } else { len+=os_sprintf(buff+len, "\" }\n"); } buff[len] = 0; os_printf(" -> %s\n", buff); httpdSend(connData, buff, len); return HTTPD_CGI_DONE; } //Template code for the WLAN page. int ICACHE_FLASH_ATTR tplWlan(HttpdConnData *connData, char *token, void **arg) { char buff[1024]; int x; static struct station_config stconf; if (token==NULL) return HTTPD_CGI_DONE; wifi_station_get_config(&stconf); os_strcpy(buff, "Unknown"); if (os_strcmp(token, "WiFiMode")==0) { x=wifi_get_opmode(); if (x==1) os_strcpy(buff, "Client"); if (x==2) os_strcpy(buff, "SoftAP"); if (x==3) os_strcpy(buff, "STA+AP"); } else if (os_strcmp(token, "currSsid")==0) { os_strcpy(buff, (char*)stconf.ssid); } else if (os_strcmp(token, "currStatus")==0) { int st=wifi_station_get_connect_status(); if (st > 0 && st < sizeof(connStatuses)) os_strcpy(buff, connStatuses[st]); else os_strcpy(buff, "unknown"); } else if (os_strcmp(token, "currPhy")==0) { int m = wifi_get_phy_mode(); os_sprintf(buff, "%d", m); } else if (os_strcmp(token, "WiFiPasswd")==0) { os_strcpy(buff, (char*)stconf.password); } else if (os_strcmp(token, "WiFiapwarn")==0) { x=wifi_get_opmode(); switch (x) { case 1: os_strcpy(buff, "Click here to go to STA+AP mode."); break; case 2: os_strcpy(buff, "Can't scan in this mode. Click here to go to STA+AP mode."); break; case 3: os_strcpy(buff, "Click here to go to STA mode."); break; } } httpdSend(connData, buff, -1); return HTTPD_CGI_DONE; } // Init the wireless, which consists of setting a timer if we expect to connect to an AP // so we can revert to STA+AP mode if we can't connect. void ICACHE_FLASH_ATTR wifiInit() { int x = wifi_get_opmode(); os_printf("Wifi init, mode=%d\n", x); wifi_set_phy_mode(2); wifi_set_event_handler_cb(wifiHandleEventCb); if (x == 1) { // STA-only mode, reset into STA+AP after a timeout os_timer_disarm(&resetTimer); os_timer_setfn(&resetTimer, resetTimerCb, NULL); os_timer_arm(&resetTimer, RESET_TIMEOUT, 0); } }