/* ESP8266WiFiGeneric.cpp - WiFi library for esp8266 Copyright (c) 2014 Ivan Grokhotkov. All rights reserved. This file is part of the esp8266 core for Arduino environment. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Reworked on 28 Dec 2015 by Markus Sattler */ #include "WiFi.h" #include "WiFiGeneric.h" extern "C" { #include #include #include #include #include #include #include #include #include #include "lwip/ip_addr.h" #include "lwip/opt.h" #include "lwip/err.h" #include "lwip/dns.h" #include "esp_ipc.h" } //extern "C" #include "esp32-hal-log.h" #undef min #undef max #include void tcpipInit(){ static bool initialized = false; if(!initialized){ initialized = true; tcpip_adapter_init(); esp_event_loop_init(&WiFiGenericClass::_eventCallback, NULL); } } static bool wifiLowLevelInit(){ static bool lowLevelInitDone = false; if(!lowLevelInitDone){ tcpipInit(); wifi_init_config_t cfg = WIFI_INIT_CONFIG_DEFAULT(); esp_err_t err = esp_wifi_init(&cfg); if(err){ log_e("esp_wifi_init %d", err); return false; } esp_wifi_set_storage(WIFI_STORAGE_FLASH); esp_wifi_set_mode(WIFI_MODE_NULL); lowLevelInitDone = true; } return true; } static bool wifiLowLevelDeinit(){ //deinit not working yet! //esp_wifi_deinit(); return true; } static bool _esp_wifi_started = false; static bool espWiFiStart(){ if(_esp_wifi_started){ return true; } if(!wifiLowLevelInit()){ return false; } esp_err_t err = esp_wifi_start(); if (err != ESP_OK) { log_e("esp_wifi_start %d", err); wifiLowLevelDeinit(); return false; } _esp_wifi_started = true; return true; } static bool espWiFiStop(){ esp_err_t err; if(!_esp_wifi_started){ return true; } err = esp_wifi_stop(); if(err){ log_e("Could not stop WiFi! %u", err); return false; } _esp_wifi_started = false; return wifiLowLevelDeinit(); } // ----------------------------------------------------------------------------------------------------------------------- // ------------------------------------------------- Generic WiFi function ----------------------------------------------- // ----------------------------------------------------------------------------------------------------------------------- typedef struct { WiFiEventCb cb; WiFiEventFullCb fcb; system_event_id_t event; } WiFiEventCbList_t; // arduino dont like std::vectors move static here static std::vector cbEventList; bool WiFiGenericClass::_persistent = true; wifi_mode_t WiFiGenericClass::_forceSleepLastMode = WIFI_MODE_NULL; WiFiGenericClass::WiFiGenericClass() { } /** * set callback function * @param cbEvent WiFiEventCb * @param event optional filter (WIFI_EVENT_MAX is all events) */ void WiFiGenericClass::onEvent(WiFiEventCb cbEvent, system_event_id_t event) { if(!cbEvent) { return; } WiFiEventCbList_t newEventHandler; newEventHandler.cb = cbEvent; newEventHandler.fcb = NULL; newEventHandler.event = event; cbEventList.push_back(newEventHandler); } void WiFiGenericClass::onEvent(WiFiEventFullCb cbEvent, system_event_id_t event) { if(!cbEvent) { return; } WiFiEventCbList_t newEventHandler; newEventHandler.cb = NULL; newEventHandler.fcb = cbEvent; newEventHandler.event = event; cbEventList.push_back(newEventHandler); } /** * removes a callback form event handler * @param cbEvent WiFiEventCb * @param event optional filter (WIFI_EVENT_MAX is all events) */ void WiFiGenericClass::removeEvent(WiFiEventCb cbEvent, system_event_id_t event) { if(!cbEvent) { return; } for(uint32_t i = 0; i < cbEventList.size(); i++) { WiFiEventCbList_t entry = cbEventList[i]; if(entry.cb == cbEvent && entry.event == event) { cbEventList.erase(cbEventList.begin() + i); } } } void WiFiGenericClass::removeEvent(WiFiEventFullCb cbEvent, system_event_id_t event) { if(!cbEvent) { return; } for(uint32_t i = 0; i < cbEventList.size(); i++) { WiFiEventCbList_t entry = cbEventList[i]; if(entry.fcb == cbEvent && entry.event == event) { cbEventList.erase(cbEventList.begin() + i); } } } /** * callback for WiFi events * @param arg */ #if ARDUHAL_LOG_LEVEL >= ARDUHAL_LOG_LEVEL_DEBUG const char * system_event_names[] = { "WIFI_READY", "SCAN_DONE", "STA_START", "STA_STOP", "STA_CONNECTED", "STA_DISCONNECTED", "STA_AUTHMODE_CHANGE", "STA_GOT_IP", "STA_WPS_ER_SUCCESS", "STA_WPS_ER_FAILED", "STA_WPS_ER_TIMEOUT", "STA_WPS_ER_PIN", "AP_START", "AP_STOP", "AP_STACONNECTED", "AP_STADISCONNECTED", "AP_PROBEREQRECVED", "AP_STA_GOT_IP6", "ETH_START", "ETH_STOP", "ETH_CONNECTED", "ETH_DISCONNECTED", "ETH_GOT_IP", "MAX"}; #endif #if ARDUHAL_LOG_LEVEL >= ARDUHAL_LOG_LEVEL_WARN const char * system_event_reasons[] = { "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", "AUTH_FAIL", "ASSOC_FAIL", "HANDSHAKE_TIMEOUT" }; #define reason2str(r) ((r>176)?system_event_reasons[r-176]:system_event_reasons[r-1]) #endif esp_err_t WiFiGenericClass::_eventCallback(void *arg, system_event_t *event) { log_d("Event: %d - %s", event->event_id, system_event_names[event->event_id]); if(event->event_id == SYSTEM_EVENT_SCAN_DONE) { WiFiScanClass::_scanDone(); } else if(event->event_id == SYSTEM_EVENT_STA_DISCONNECTED) { uint8_t reason = event->event_info.disconnected.reason; log_w("Reason: %u - %s", reason, reason2str(reason)); if(reason == WIFI_REASON_NO_AP_FOUND) { WiFiSTAClass::_setStatus(WL_NO_SSID_AVAIL); } else if(reason == WIFI_REASON_AUTH_FAIL || reason == WIFI_REASON_ASSOC_FAIL) { WiFiSTAClass::_setStatus(WL_CONNECT_FAILED); } else if(reason == WIFI_REASON_BEACON_TIMEOUT || reason == WIFI_REASON_HANDSHAKE_TIMEOUT) { WiFiSTAClass::_setStatus(WL_CONNECTION_LOST); } else if(reason == WIFI_REASON_AUTH_EXPIRE) { if(WiFi.getAutoReconnect()){ WiFi.begin(); } } else { WiFiSTAClass::_setStatus(WL_DISCONNECTED); } } else if(event->event_id == SYSTEM_EVENT_STA_START) { WiFiSTAClass::_setStatus(WL_DISCONNECTED); } else if(event->event_id == SYSTEM_EVENT_STA_STOP) { WiFiSTAClass::_setStatus(WL_NO_SHIELD); } else if(event->event_id == SYSTEM_EVENT_STA_GOT_IP) { WiFiSTAClass::_setStatus(WL_CONNECTED); } for(uint32_t i = 0; i < cbEventList.size(); i++) { WiFiEventCbList_t entry = cbEventList[i]; if(entry.cb || entry.fcb) { if(entry.event == (system_event_id_t) event->event_id || entry.event == SYSTEM_EVENT_MAX) { if(entry.cb){ entry.cb((system_event_id_t) event->event_id); } else { entry.fcb((system_event_id_t) event->event_id, (system_event_info_t) event->event_info); } } } } return ESP_OK; } /** * Return the current channel associated with the network * @return channel (1-13) */ int32_t WiFiGenericClass::channel(void) { uint8_t primaryChan; wifi_second_chan_t secondChan; esp_wifi_get_channel(&primaryChan, &secondChan); return primaryChan; } /** * store WiFi config in SDK flash area * @param persistent */ void WiFiGenericClass::persistent(bool persistent) { _persistent = persistent; } /** * set new mode * @param m WiFiMode_t */ bool WiFiGenericClass::mode(wifi_mode_t m) { wifi_mode_t cm = getMode(); if(cm == WIFI_MODE_MAX){ return false; } if(cm == m) { return true; } esp_err_t err; err = esp_wifi_set_mode(m); if(err){ log_e("Could not set mode! %u", err); return false; } if(m){ return espWiFiStart(); } return espWiFiStop(); } /** * get WiFi mode * @return WiFiMode */ wifi_mode_t WiFiGenericClass::getMode() { if(!wifiLowLevelInit()){ return WIFI_MODE_MAX; } uint8_t mode; esp_wifi_get_mode((wifi_mode_t*)&mode); return (wifi_mode_t)mode; } /** * control STA mode * @param enable bool * @return ok */ bool WiFiGenericClass::enableSTA(bool enable) { wifi_mode_t currentMode = getMode(); bool isEnabled = ((currentMode & WIFI_MODE_STA) != 0); if(isEnabled != enable) { if(enable) { return mode((wifi_mode_t)(currentMode | WIFI_MODE_STA)); } else { return mode((wifi_mode_t)(currentMode & (~WIFI_MODE_STA))); } } else { return true; } } /** * control AP mode * @param enable bool * @return ok */ bool WiFiGenericClass::enableAP(bool enable) { wifi_mode_t currentMode = getMode(); bool isEnabled = ((currentMode & WIFI_MODE_AP) != 0); if(isEnabled != enable) { if(enable) { return mode((wifi_mode_t)(currentMode | WIFI_MODE_AP)); } else { return mode((wifi_mode_t)(currentMode & (~WIFI_MODE_AP))); } } else { return true; } } // ----------------------------------------------------------------------------------------------------------------------- // ------------------------------------------------ Generic Network function --------------------------------------------- // ----------------------------------------------------------------------------------------------------------------------- static bool _dns_busy = false; /** * DNS callback * @param name * @param ipaddr * @param callback_arg */ static void wifi_dns_found_callback(const char *name, const ip_addr_t *ipaddr, void *callback_arg) { if(ipaddr) { (*reinterpret_cast(callback_arg)) = ipaddr->u_addr.ip4.addr; } _dns_busy = false; } /** * Resolve the given hostname to an IP address. * @param aHostname Name to be resolved * @param aResult IPAddress structure to store the returned IP address * @return 1 if aIPAddrString was successfully converted to an IP address, * else error code */ int WiFiGenericClass::hostByName(const char* aHostname, IPAddress& aResult) { ip_addr_t addr; aResult = static_cast(0); _dns_busy = true; err_t err = dns_gethostbyname(aHostname, &addr, &wifi_dns_found_callback, &aResult); if(err == ERR_OK && addr.u_addr.ip4.addr) { aResult = addr.u_addr.ip4.addr; _dns_busy = false; } else if(err == ERR_INPROGRESS) { while(_dns_busy){ delay(1); } } else { _dns_busy = false; return 0; } return 1; }