// // Created by MightyPork on 2017/07/08. // #include "wifimgr.h" #include "persist.h" WiFiConfigBundle * const wificonf = &persist.current.wificonf; WiFiConfChangeFlags wifi_change_flags; /** * Restore defaults in the WiFi config block. * This is to be called if the WiFi config is corrupted on startup, * before applying the config. */ void ICACHE_FLASH_ATTR wifimgr_restore_defaults(void) { u8 mac[6]; wifi_get_macaddr(SOFTAP_IF, mac); wificonf->opmode = STATIONAP_MODE; // Client+AP, so we can scan without having to enable Station wificonf->tpw = 20; wificonf->ap_channel = 1; sprintf((char *) wificonf->ap_ssid, "TERM-%02X%02X%02X", mac[3], mac[4], mac[5]); wificonf->ap_password[0] = 0; // PSK2 always if password is not null. wificonf->ap_hidden = false; IP4_ADDR(&wificonf->ap_addr.ip, 192, 168, 4, 1); IP4_ADDR(&wificonf->ap_addr.netmask, 255, 255, 255, 0); wificonf->ap_addr.gw.addr = wificonf->ap_addr.gw.addr; IP4_ADDR(&wificonf->ap_dhcp_range.start_ip, 192, 168, 4, 100); IP4_ADDR(&wificonf->ap_dhcp_range.end_ip, 192, 168, 4, 200); wificonf->ap_dhcp_range.enable = 1; // this will never get changed, idk why it's even there wificonf->ap_dhcp_time = 120; // --- Client config --- wificonf->sta_ssid[0] = 0; wificonf->sta_password[0] = 0; wificonf->sta_dhcp_enable = true; IP4_ADDR(&wificonf->sta_addr.ip, 192, 168, 0, (mac[5] == 1 ? 2 : mac[5])); // avoid being the same as "default gw" IP4_ADDR(&wificonf->sta_addr.netmask, 255, 255, 255, 0); IP4_ADDR(&wificonf->sta_addr.gw, 192, 168, 0, 1); // DEBUG ONLY - TODO remove for release // wificonf->opmode = STATION_MODE; // sprintf((char*)wificonf->sta_ssid, "Chlivek"); // sprintf((char*)wificonf->sta_password, "prase chrochta"); } static void ICACHE_FLASH_ATTR configure_station(void) { info("[WiFi] Configuring Station mode..."); struct station_config conf; strcpy((char *) conf.ssid, (char *) wificonf->sta_ssid); strcpy((char *) conf.password, (char *) wificonf->sta_password); dbg("[WiFi] Connecting to \"%s\", password \"%s\"", conf.ssid, conf.password); conf.bssid_set = 0; conf.bssid[0] = 0; wifi_station_disconnect(); wifi_station_set_config_current(&conf); if (wificonf->sta_dhcp_enable) { dbg("[WiFi] Starting DHCP..."); if (!wifi_station_dhcpc_start()) { error("[WiFi] DHCP failed to start!"); return; } } else { info("[WiFi] Setting up static IP..."); dbg("[WiFi] Client.ip = "IPSTR, GOOD_IP2STR(wificonf->sta_addr.ip.addr)); dbg("[WiFi] Client.mask = "IPSTR, GOOD_IP2STR(wificonf->sta_addr.netmask.addr)); dbg("[WiFi] Client.gw = "IPSTR, GOOD_IP2STR(wificonf->sta_addr.gw.addr)); wifi_station_dhcpc_stop(); // Load static IP config if (!wifi_set_ip_info(STATION_IF, &wificonf->sta_addr)) { error("[WiFi] Error setting static IP!"); return; } } info("[WiFi] Trying to connect to AP..."); wifi_station_connect(); } static void ICACHE_FLASH_ATTR configure_ap(void) { bool suc; info("[WiFi] Configuring SoftAP mode..."); // AP is enabled struct softap_config conf; conf.channel = wificonf->ap_channel; strcpy((char *) conf.ssid, (char *) wificonf->ap_ssid); strcpy((char *) conf.password, (char *) wificonf->ap_password); conf.authmode = (wificonf->ap_password[0] == 0 ? AUTH_OPEN : AUTH_WPA2_PSK); conf.ssid_len = (uint8_t) strlen((char *) conf.ssid); conf.ssid_hidden = wificonf->ap_hidden; conf.max_connection = 4; // default 4 (max possible) conf.beacon_interval = 100; // default 100 ms // Set config //ETS_UART_INTR_DISABLE(); suc = wifi_softap_set_config_current(&conf); //ETS_UART_INTR_ENABLE(); if (!suc) { error("[WiFi] AP config set fail!"); return; } // Set IP info("[WiFi] Configuring SoftAP local IP..."); dbg("[WiFi] SoftAP.ip = "IPSTR, GOOD_IP2STR(wificonf->ap_addr.ip.addr)); dbg("[WiFi] SoftAP.mask = "IPSTR, GOOD_IP2STR(wificonf->ap_addr.netmask.addr)); dbg("[WiFi] SoftAP.gw = "IPSTR, GOOD_IP2STR(wificonf->ap_addr.gw.addr)); wifi_softap_dhcps_stop(); // Configure DHCP if (!wifi_set_ip_info(SOFTAP_IF, &wificonf->ap_addr)) { error("[WiFi] IP set fail!"); return; } info("[WiFi] Configuring SoftAP DHCP server..."); dbg("[WiFi] DHCP.start = "IPSTR, GOOD_IP2STR(wificonf->ap_dhcp_range.start_ip.addr)); dbg("[WiFi] DHCP.end = "IPSTR, GOOD_IP2STR(wificonf->ap_dhcp_range.end_ip.addr)); dbg("[WiFi] DHCP.lease = %d minutes", wificonf->ap_dhcp_time); if (!wifi_softap_set_dhcps_lease(&wificonf->ap_dhcp_range)) { error("[WiFi] DHCP address range set fail!"); return; } if (!wifi_softap_set_dhcps_lease_time(wificonf->ap_dhcp_time)) { error("[WiFi] DHCP lease time set fail!"); return; } // some weird magic shit about router uint8 mode = 1; wifi_softap_set_dhcps_offer_option(OFFER_ROUTER, &mode); if (!wifi_softap_dhcps_start()) { error("[WiFi] Failed to start DHCP server!"); return; } } /** * Register the WiFi event listener, cycle WiFi, apply settings */ void ICACHE_FLASH_ATTR wifimgr_apply_settings(void) { info("[WiFi] Initializing..."); // Force wifi cycle // Disconnect - may not be needed? WIFI_MODE opmode = wifi_get_opmode(); bool is_sta = wificonf->opmode & STATION_MODE; bool is_ap = wificonf->opmode & SOFTAP_MODE; if ((wificonf->opmode & STATION_MODE) && !(opmode & STATION_MODE)) { wifi_change_flags.sta = true; } if ((wificonf->opmode & SOFTAP_MODE) && !(opmode & SOFTAP_MODE)) { wifi_change_flags.ap = true; } if (opmode != wificonf->opmode) { wifi_set_opmode_current(wificonf->opmode); } // Configure the client if (is_sta && wifi_change_flags.sta) { configure_station(); } // Configure the AP if (is_ap && wifi_change_flags.ap) { configure_ap(); } wifi_change_flags.ap = false; wifi_change_flags.sta = false; info("[WiFi] WiFi settings applied."); }