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AutoConnect/src/AutoConnect.cpp

974 lines
31 KiB

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/**
* AutoConnect class implementation.
* @file AutoConnect.cpp
* @author hieromon@gmail.com
* @version 0.9.7
* @date 2019-01-21
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* @copyright MIT license.
*/
#include "AutoConnect.h"
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#ifdef ARDUINO_ARCH_ESP32
#include <esp_wifi.h>
#endif
/**
* An actual reset function dependent on the architecture
*/
#if defined(ARDUINO_ARCH_ESP8266)
#define SOFT_RESET() ESP.reset()
#define SET_HOSTNAME(x) do { WiFi.hostname(x); } while(0)
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#elif defined(ARDUINO_ARCH_ESP32)
#define SOFT_RESET() ESP.restart()
#define SET_HOSTNAME(x) do { WiFi.setHostname(x); } while(0)
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#endif
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/**
* AutoConnect default constructor. This entry activates WebServer
* internally and the web server is allocated internal.
*/
AutoConnect::AutoConnect() {
_initialize();
_webServer.reset(nullptr);
_dnsServer.reset(nullptr);
_webServerAlloc = AC_WEBSERVER_HOSTED;
}
/**
* Run the AutoConnect site using the externally ensured ESP 8266 WebServer.
* User's added URI handler response can be included in handleClient method.
* @param webServer A reference of ESP8266WebServer instance.
*/
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AutoConnect::AutoConnect(WebServerClass& webServer) {
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_initialize();
_webServer.reset(&webServer);
_dnsServer.reset(nullptr);
_webServerAlloc = AC_WEBSERVER_PARASITIC;
}
void AutoConnect::_initialize() {
_rfConnect = false;
_rfReset = false;
_responsePage = nullptr;
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_currentPageElement = nullptr;
_menuTitle = String(AUTOCONNECT_MENU_TITLE);
_connectTimeout = AUTOCONNECT_TIMEOUT;
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memset(&_credential, 0x00, sizeof(struct station_config));
#ifdef ARDUINO_ARCH_ESP32
_disconnectEventId = -1; // The member available for ESP32 only
#endif
_aux.release();
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}
/**
* A destructor. Free AutoConnect web pages and release Web server.
* When the server is hosted it will be purged.
*/
AutoConnect::~AutoConnect() {
end();
}
/**
* Starts establishing WiFi connection without SSID and password.
*/
bool AutoConnect::begin() {
return begin(nullptr, nullptr);
}
/**
* Starts establishing WiFi connection.
* Before establishing, start the Web server and DNS server for the captive
* portal. Then begins connection establishment in WIFI_STA mode. If
* connection can not established with the specified SSID and password,
* switch to WIFI_AP_STA mode and activate SoftAP.
* @param ssid SSID to be connected.
* @param passphrase Password for connection.
* @param timeout A time out value in milliseconds for waiting connection.
* @return true Connection established, AutoConnect service started with WIFI_STA mode.
* @return false Could not connected, Captive portal started with WIFI_AP_STA mode.
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*/
bool AutoConnect::begin(const char* ssid, const char* passphrase, unsigned long timeout) {
bool cs;
// Overwrite for the current timeout value.
_connectTimeout = timeout;
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// Start WiFi connection with station mode.
#if defined(ARDUINO_ARCH_ESP32)
WiFi.softAPdisconnect(false);
#endif
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WiFi.enableAP(false);
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WiFi.mode(WIFI_STA);
delay(100);
// Set host name
if (_apConfig.hostName.length())
SET_HOSTNAME(_apConfig.hostName.c_str());
// Advance configuration for STA mode.
#ifdef AC_DEBUG
String staip_s = _apConfig.staip.toString();
String staGateway_s = _apConfig.staGateway.toString();
String staNetmask_s = _apConfig.staNetmask.toString();
String dns1_s = _apConfig.dns1.toString();
String dns2_s = _apConfig.dns2.toString();
AC_DBG("WiFi.config(IP=%s, Gateway=%s, Subnetmask=%s, DNS1=%s, DNS2=%s)\n", staip_s.c_str(), staGateway_s.c_str(), staNetmask_s.c_str(), dns1_s.c_str(), dns2_s.c_str());
#endif
if (!WiFi.config(_apConfig.staip, _apConfig.staGateway, _apConfig.staNetmask, _apConfig.dns1, _apConfig.dns2)) {
AC_DBG("failed\n");
return false;
}
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#ifdef ARDUINO_ARCH_ESP8266
AC_DBG("DHCP client(%s)\n", wifi_station_dhcpc_status() == DHCP_STOPPED ? "STOPPED" : "STARTED");
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#endif
// If the portal is requested promptly skip the first WiFi.begin and
// immediately start the portal.
if (_apConfig.immediateStart) {
cs = false;
_apConfig.autoReconnect = false;
_apConfig.autoRise = true;
AC_DBG("Start the portal immediately\n");
}
else {
// Try to connect by STA immediately.
if (ssid == nullptr && passphrase == nullptr)
WiFi.begin();
else {
_disconnectWiFi(false);
WiFi.begin(ssid, passphrase);
}
AC_DBG("WiFi.begin(%s%s%s)\n", ssid == nullptr ? "" : ssid, passphrase == nullptr ? "" : ",", passphrase == nullptr ? "" : passphrase);
cs = _waitForConnect(_connectTimeout) == WL_CONNECTED;
}
// Reconnect with a valid credential as the autoReconnect option is enabled.
if (!cs && _apConfig.autoReconnect && (ssid == nullptr && passphrase == nullptr)) {
// Load a valid credential.
if (_loadAvailCredential()) {
// Try to reconnect with a stored credential.
AC_DBG("autoReconnect loaded SSID:%s\n", reinterpret_cast<const char*>(_credential.ssid));
const char* psk = strlen(reinterpret_cast<const char*>(_credential.password)) ? reinterpret_cast<const char*>(_credential.password) : nullptr;
WiFi.begin(reinterpret_cast<const char*>(_credential.ssid), psk);
AC_DBG("WiFi.begin(%s%s%s)\n", _credential.ssid, psk == nullptr ? "" : ",", psk == nullptr ? "" : psk);
cs = _waitForConnect(_connectTimeout) == WL_CONNECTED;
}
}
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_currentHostIP = WiFi.localIP();
// Rushing into the portal.
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if (!cs) {
// The captive portal is effective at the autoRise is valid only.
if (_apConfig.autoRise) {
// Change WiFi working mode, Enable AP with STA
WiFi.setAutoConnect(false);
_disconnectWiFi(false);
// Activate the AP mode with configured softAP and start the access point.
WiFi.mode(WIFI_AP_STA);
while (WiFi.getMode() != WIFI_AP_STA) {
delay(1);
yield();
}
// Connection unsuccessful, launch the captive portal.
#if defined(ARDUINO_ARCH_ESP8266)
if (!(_apConfig.apip == IPAddress(0, 0, 0, 0) || _apConfig.gateway == IPAddress(0, 0, 0, 0) || _apConfig.netmask == IPAddress(0, 0, 0, 0))) {
_config();
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}
#endif
WiFi.softAP(_apConfig.apid.c_str(), _apConfig.psk.c_str(), _apConfig.channel, _apConfig.hidden);
do {
delay(100);
yield();
} while (WiFi.softAPIP() == IPAddress(0, 0, 0, 0));
#if defined(ARDUINO_ARCH_ESP32)
if (!(_apConfig.apip == IPAddress(0, 0, 0, 0) || _apConfig.gateway == IPAddress(0, 0, 0, 0) || _apConfig.netmask == IPAddress(0, 0, 0, 0))) {
_config();
}
#endif
if (_apConfig.apip != IPAddress(0, 0, 0, 0)) {
do {
delay(100);
yield();
} while (WiFi.softAPIP() != _apConfig.apip);
}
_currentHostIP = WiFi.softAPIP();
AC_DBG("SoftAP %s/%s CH(%d) H(%d) IP:%s\n", _apConfig.apid.c_str(), _apConfig.psk.c_str(), _apConfig.channel, _apConfig.hidden, _currentHostIP.toString().c_str());
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// Fork to the exit routine that starts captive portal.
cs = _onDetectExit ? _onDetectExit(_currentHostIP) : true;
// Start Web server when TCP connection is enabled.
_startWebServer();
// Start captive portal without cancellation by DetectExit.
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if (cs) {
// Prepare for redirecting captive portal detection.
// Pass all URL requests to _captivePortal to disguise the captive portal.
_startDNSServer();
// Start the captive portal to make a new connection
bool hasTimeout = false;
_portalAccessPeriod = millis();
while (WiFi.status() != WL_CONNECTED && !_rfReset) {
handleClient();
// Force execution of queued processes.
yield();
// Check timeout
if ((hasTimeout = _hasTimeout(_apConfig.portalTimeout))) {
AC_DBG("CP timeout exceeded:%ld\n", millis() - _portalAccessPeriod);
break;
}
}
cs = WiFi.status() == WL_CONNECTED;
// If WLAN successfully connected, release DNS server.
if (cs) {
_dnsServer->stop();
_dnsServer.reset();
AC_DBG("DNS server stopped\n");
}
// Captive portal staying time exceeds timeout,
// Close the portal if an option for keeping the portal is false.
else if (hasTimeout) {
if (_apConfig.retainPortal) {
_purgePages();
AC_DBG("Maintain portal\n");
}
else {
_stopPortal();
}
}
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}
}
else {
AC_DBG("Suppress autoRise\n");
}
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}
// It doesn't matter the connection status for launching the Web server.
if (!_responsePage)
_startWebServer();
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return cs;
}
/**
* Configure AutoConnect portal access point.
* @param ap SSID for access point.
* @param psk Password for access point.
*/
bool AutoConnect::config(const char* ap, const char* password) {
_apConfig.apid = String(ap);
_apConfig.psk = String(password);
return _config();
}
/**
* Configure AutoConnect portal access point.
* @param Config AutoConnectConfig class instance.
*/
bool AutoConnect::config(AutoConnectConfig& Config) {
_apConfig = Config;
return _config();
}
/**
* Configure access point.
* Set up access point with internal AucoConnectConfig parameter corrected
* by Config method.
*/
bool AutoConnect::_config() {
bool rc = WiFi.softAPConfig(_apConfig.apip, _apConfig.gateway, _apConfig.netmask);
AC_DBG("SoftAP configure %s, %s, %s %s\n", _apConfig.apip.toString().c_str(), _apConfig.gateway.toString().c_str(), _apConfig.netmask.toString().c_str(), rc ? "" : "failed");
return rc;
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}
/**
* Put a user site's home URI.
* The URI specified by home is linked from "HOME" in the AutoConnect
* portal menu.
* @param uri A URI string of user site's home.
*/
void AutoConnect::home(String uri) {
_apConfig.homeUri = uri;
}
/**
* Stops AutoConnect captive portal service.
*/
void AutoConnect::end() {
if (_responsePage != nullptr) {
_responsePage->~PageBuilder();
delete _responsePage;
_responsePage = nullptr;
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}
if (_currentPageElement != nullptr) {
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_currentPageElement->~PageElement();
_currentPageElement = nullptr;
}
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_stopPortal();
if (_webServer) {
switch (_webServerAlloc) {
case AC_WEBSERVER_HOSTED:
if (_dnsServer) {
_dnsServer->stop();
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_dnsServer.reset();
}
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_webServer.reset();
break;
case AC_WEBSERVER_PARASITIC:
_webServer.release();
break;
}
}
}
/**
* Returns the current hosted ESP8266WebServer.
*/
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WebServerClass& AutoConnect::host() {
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return *_webServer;
}
/**
* Returns AutoConnectAux instance of specified.
* @param uri An uri string.
* @return A pointer of AutoConnectAux instance.
*/
AutoConnectAux* AutoConnect::aux(const String& uri) const {
AutoConnectAux* aux_p = _aux.get();
while (aux_p) {
if (!strcmp(aux_p->uri(), uri.c_str()))
break;
aux_p = aux_p->_next.get();
}
return aux_p;
}
/**
* Append auxiliary pages made up with AutoConnectAux.
* @param aux A reference to AutoConnectAux that made up
* the auxiliary page to be added.
*/
void AutoConnect::join(AutoConnectAux& aux) {
if (_aux)
_aux->_concat(aux);
else
_aux.reset(&aux);
aux._join(*this);
AC_DBG("%s on hands\n", aux.uri());
}
/**
* Append auxiliary pages made up with AutoConnectAux.
* @param aux A vector of reference to AutoConnectAux that made up
* the auxiliary page to be added.
*/
void AutoConnect::join(AutoConnectAuxVT auxVector) {
for (std::reference_wrapper<AutoConnectAux> aux : auxVector)
join(aux.get());
}
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/**
* Starts Web server for AutoConnect service.
*/
void AutoConnect::_startWebServer() {
// Boot Web server
if (!_webServer) {
// Only when hosting WebServer internally
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_webServer.reset(new WebServerClass(AUTOCONNECT_HTTPPORT));
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_webServerAlloc = AC_WEBSERVER_HOSTED;
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AC_DBG("WebServer allocated\n");
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}
// Discard the original the not found handler to redirect captive portal detection.
// It is supposed to evacuate but ESP8266WebServer::_notFoundHandler is not accessible.
_webServer->onNotFound(std::bind(&AutoConnect::_handleNotFound, this));
// here, Prepare PageBuilders for captive portal
if (!_responsePage) {
_responsePage = new PageBuilder();
_responsePage->chunked(AUTOCONNECT_HTTP_TRANSFER);
_responsePage->exitCanHandle(std::bind(&AutoConnect::_classifyHandle, this, std::placeholders::_1, std::placeholders::_2));
_responsePage->insert(*_webServer);
_webServer->begin();
AC_DBG("http server started\n");
}
else {
AC_DBG("http server readied\n");
}
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}
/**
* Starts DNS server for Captive portal.
*/
void AutoConnect::_startDNSServer() {
// Boot DNS server, set up for captive portal redirection.
if (!_dnsServer) {
_dnsServer.reset(new DNSServer());
_dnsServer->setErrorReplyCode(DNSReplyCode::NoError);
_dnsServer->start(AUTOCONNECT_DNSPORT, "*", WiFi.softAPIP());
AC_DBG("DNS server started\n");
}
}
/**
* Handling for the AutoConnect web interface.
* Invoke the handleClient of parent web server to process client request of
* AutoConnect WEB interface.
* No effects when the web server is not available.
*/
void AutoConnect::handleClient() {
// Is there DNS Server process next request?
if (_dnsServer)
_dnsServer->processNextRequest();
// handleClient valid only at _webServer activated.
if (_webServer)
_webServer->handleClient();
handleRequest();
}
/**
* Handling for the AutoConnect menu request.
*/
void AutoConnect::handleRequest() {
// Handling processing requests to AutoConnect.
if (_rfConnect) {
// Leave from the AP currently.
if (WiFi.status() == WL_CONNECTED)
_disconnectWiFi(true);
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// An attempt to establish a new AP.
AC_DBG("Request for %s\n", reinterpret_cast<const char*>(_credential.ssid));
WiFi.begin(reinterpret_cast<const char*>(_credential.ssid), reinterpret_cast<const char*>(_credential.password), _apConfig.channel);
if (_waitForConnect(_connectTimeout) == WL_CONNECTED) {
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if (WiFi.BSSID() != NULL) {
memcpy(_credential.bssid, WiFi.BSSID(), sizeof(station_config::bssid));
_currentHostIP = WiFi.localIP();
_redirectURI = String(AUTOCONNECT_URI_SUCCESS);
// Save current credential
if (_apConfig.autoSave == AC_SAVECREDENTIAL_AUTO) {
AutoConnectCredential credit(_apConfig.boundaryOffset);
credit.save(&_credential);
AC_DBG("%s credential saved\n", reinterpret_cast<const char*>(_credential.ssid));
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}
// Ensures that keeps a connection with the current AP while the portal behaves.
_setReconnect(AC_RECONNECT_SET);
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}
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else
AC_DBG("%s has no BSSID, saving is unavailable\n", reinterpret_cast<const char*>(_credential.ssid));
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}
else {
_currentHostIP = WiFi.softAPIP();
_redirectURI = String(AUTOCONNECT_URI_FAIL);
_rsConnect = WiFi.status();
_disconnectWiFi(false);
while (WiFi.status() != WL_IDLE_STATUS && WiFi.status() != WL_DISCONNECTED) {
delay(1);
yield();
}
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}
_rfConnect = false;
}
if (_rfReset) {
// Reset or disconnect by portal operation result
_stopPortal();
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AC_DBG("Reset\n");
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delay(1000);
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SOFT_RESET();
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delay(1000);
}
if (_rfDisconnect) {
// Disconnect from the current AP.
_waitForEndTransmission();
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_stopPortal();
_disconnectWiFi(false);
while (WiFi.status() == WL_CONNECTED) {
delay(10);
yield();
}
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AC_DBG("Disconnected\n");
// Reset disconnection request
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_rfDisconnect = false;
if (_apConfig.autoReset) {
delay(1000);
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SOFT_RESET();
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delay(1000);
}
}
}
/**
* Register the exit routine for AutoConnectAux.
* @param uri Specify the URI of the AutoConnectAux page that
* registers the exit routine.
* @param handler A handler function of the exit routine.
* @param order Specify an enumeration type of
* AutoConnectExitOrder_t for the call timing of the exit routine.
* @return true An exit routine registered.
* @return false AutoConnectAux page for the specified URI is not
* registered.
*/
bool AutoConnect::on(const String& uri, const AuxHandlerFunctionT handler, AutoConnectExitOrder_t order) {
AutoConnectAux* aux = _aux.get();
while (aux) {
if (!strcmp(uri.c_str(), aux->uri())) {
aux->on(handler, order);
return true;
}
aux = aux->_next.get();
}
return false;
}
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/**
* Register the exit routine for the starting captive portal.
* @param fn A function of the exit routine.
*/
void AutoConnect::onDetect(DetectExit_ft fn) {
_onDetectExit = fn;
}
/**
* Register the handler function for undefined url request detected.
* @param fn A function of the not found handler.
*/
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void AutoConnect::onNotFound(WebServerClass::THandlerFunction fn) {
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_notFoundHandler = fn;
}
/**
* Load stored credentials that match nearby WLANs.
* @return true A matched credential of BSSID was loaded.
*/
bool AutoConnect::_loadAvailCredential() {
AutoConnectCredential credential(_apConfig.boundaryOffset);
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if (credential.entries() > 0) {
// Scan the vicinity only when the saved credentials are existing.
WiFi.scanDelete();
int8_t nn = WiFi.scanNetworks(false, true);
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AC_DBG("%d network(s) found\n", (int)nn);
if (nn > 0) {
// Determine valid credentials by BSSID.
for (uint8_t i = 0; i < credential.entries(); i++) {
credential.load(i, &_credential);
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for (uint8_t n = 0; n < nn; n++) {
if (!memcmp(_credential.bssid, WiFi.BSSID(n), sizeof(station_config::bssid)))
return true;
}
}
}
}
return false;
}
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/**
* Disconnect from the AP and stop the AutoConnect portal.
* Stops DNS server and flush tcp sending.
*/
void AutoConnect::_stopPortal() {
if (_dnsServer && _webServerAlloc == AC_WEBSERVER_HOSTED)
_dnsServer->stop();
if (_webServer) {
_webServer->client().stop();
delay(1000);
}
_setReconnect(AC_RECONNECT_RESET);
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WiFi.softAPdisconnect(false);
AC_DBG("Portal stopped\n");
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}
/**
* Redirect to captive portal if we got a request for another domain.
* Return true in that case so the page handler do not try to handle the request again.
*/
bool AutoConnect::_captivePortal() {
String hostHeader = _webServer->hostHeader();
if (!_isIP(hostHeader) && (hostHeader != WiFi.localIP().toString())) {
String location = String("http://") + _webServer->client().localIP().toString() + String(AUTOCONNECT_URI);
_webServer->sendHeader("Location", location, true);
_webServer->send(302, "text/plain", "");
_webServer->client().flush();
_webServer->client().stop();
return true;
}
return false;
}
/**
* Check whether the stay-time in the captive portal has a timeout.
* If the station is connected, the time measurement will be reset.
* @param timeout The time limit for keeping the captive portal.
* @return true There is no connection from the station even the time limit exceeds.
* @return false Connectionless duration has not exceeded yet.
*/
bool AutoConnect::_hasTimeout(unsigned long timeout) {
uint8_t staNum;
if (!_apConfig.portalTimeout)
return false;
#if defined(ARDUINO_ARCH_ESP8266)
staNum = 0;
struct station_info* station = wifi_softap_get_station_info();
while (station) {
staNum++;
station = STAILQ_NEXT(station, next);
}
wifi_softap_free_station_info();
#elif defined(ARDUINO_ARCH_ESP32)
staNum = WiFi.softAPgetStationNum();
#endif
if (staNum)
_portalAccessPeriod = millis();
return (millis() - _portalAccessPeriod > timeout) ? true : false;
}
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/**
* A handler that redirects access to the captive portal to the connection
* configuration page.
*/
void AutoConnect::_handleNotFound() {
if (!_captivePortal()) {
if (_notFoundHandler) {
_notFoundHandler();
}
else {
PageElement page404(_PAGE_404, { { "HEAD", std::bind(&AutoConnect::_token_HEAD, this, std::placeholders::_1) } });
String html = page404.build();
_webServer->sendHeader(F("Cache-Control"), F("no-cache, no-store, must-revalidate"), true);
_webServer->sendHeader(F("Pragma"), F("no-cache"));
_webServer->sendHeader(F("Expires"), F("-1"));
_webServer->sendHeader(F("Content-Length"), String(html.length()));
_webServer->send(404, F("text/html"), html);
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}
}
}
/**
* Reset the ESP8266 module.
* It is called from the PageBuilder of the disconnect page and indicates
* the request for disconnection. It will be into progress after handleClient.
*/
String AutoConnect::_induceReset(PageArgument& args) {
_rfReset = true;
return String("Reset in progress...");
}
/**
* Disconnect from AP.
* It is called from the PageBuilder of the disconnect page and indicates
* the request for disconnection. It will be into progress after handleClient.
*/
String AutoConnect::_induceDisconnect(PageArgument& args) {
_rfDisconnect = true;
return String("");
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}
/**
* Indicates a connection establishment request and returns a redirect
* response to the waiting for connection page. This is called from
* handling of the current request by PageBuilder triggered by handleClient().
* If "Credential" exists in POST parameter, it reads from EEPROM.
* @param args http request arguments.
* @return A redirect response including "Location:" header.
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*/
String AutoConnect::_induceConnect(PageArgument& args) {
// Retrieve credential from the post method content.
if (args.hasArg(AUTOCONNECT_PARAMID_CRED)) {
// Read from EEPROM
AutoConnectCredential credential(_apConfig.boundaryOffset);
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struct station_config entry;
credential.load(args.arg(AUTOCONNECT_PARAMID_CRED).c_str(), &entry);
strncpy(reinterpret_cast<char*>(_credential.ssid), reinterpret_cast<const char*>(entry.ssid), sizeof(_credential.ssid));
strncpy(reinterpret_cast<char*>(_credential.password), reinterpret_cast<const char*>(entry.password), sizeof(_credential.password));
AC_DBG("Credential loaded:%s\n", _credential.ssid);
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}
else {
// Credential had by the post parameter.
strncpy(reinterpret_cast<char*>(_credential.ssid), args.arg(AUTOCONNECT_PARAMID_SSID).c_str(), sizeof(_credential.ssid));
strncpy(reinterpret_cast<char*>(_credential.password), args.arg(AUTOCONNECT_PARAMID_PASS).c_str(), sizeof(_credential.password));
}
// Turn on the trigger to start WiFi.begin().
_rfConnect = true;
_menuTitle = String("Connecting");
// Since v0.9.7, the redirect method changed from a 302 response to the
// meta tag with refresh attribute.
// This approach for ESP32 makes an inefficient choice. The waiting
// procedure for a connection attempt should be the server side. Also,
// the proper value of waiting time until refreshing is unknown. But
// AutoConnect cannot avoid the following error as affairs stand now
// that occurs at connection establishment.
// [WiFiClient.cpp:463] connected(): Disconnected: RES: 0, ERR: 128
// When connecting as a station, TCP reset caused by switching of the
// radio channel occurs. Although the Espressif's view is true. However,
// the actual TCP reset occurs not at the time of switching the channel.
// It occurs at the connection from the ESP32 to the AP is established
// and it is possible that TCP reset is occurring in other situations.
// So, it may not be the real cause. Client-origin redirects with HTML
// refresh depend on the behavior of the arduino-esp32 library. Thus,
// the implementations for redirects with HTML will continue until
// the arduino-esp32 core supports reconnection.
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// Redirect to waiting URI while executing connection request.
// String url = String(F("http://")) + _webServer->client().localIP().toString() + String(AUTOCONNECT_URI_RESULT);
// _webServer->sendHeader(F("Location"), url, true);
// _webServer->send(302, F("text/plain"), "");
// _webServer->client().stop();
// _webServer->client().flush();
// _waitForEndTransmission(); // Wait for response transmission complete
// _responsePage->cancel();
return String("");
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}
/**
* Responds response as redirect to the connection result page.
* A destination as _redirectURI is indicated by loop to establish connection.
*/
String AutoConnect::_invokeResult(PageArgument& args) {
String redirect = String(F("http://"));
// The host address to which the connection result for ESP32 responds
// changed from v0.9.7. This change is a measure according to the
// implementation of the arduino-esp32 1.0.1 core.
#if defined(ARDUINO_ARCH_ESP32)
// In ESP32, the station IP address just established could not be reached.
redirect += _webServer->client().localIP().toString();
#elif defined(ARDUINO_ARCH_ESP8266)
// In ESP8266, the host address that responds for the connection
// successful is the IP address of ESP8266 as a station.
// This is the specification as before.
redirect += _currentHostIP.toString();
#endif
redirect += _redirectURI;
_webServer->sendHeader(F("Location"), redirect, true);
_webServer->send(302, F("text/plain"), "");
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_webServer->client().stop();
_webServer->client().flush();
_waitForEndTransmission(); // Wait for response transmission complete
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_responsePage->cancel();
return String("");
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}
/**
* Classify the requested URI to responsive page builder.
* There is always only one PageBuilder instance that can exist in
* AutoConnect for saving RAM. Invokes a subordinate function that
* dynamically generates a response page at handleRequest. This is
* a part of the handling of http request originated from handleClient.
*/
bool AutoConnect::_classifyHandle(HTTPMethod method, String uri) {
_portalAccessPeriod = millis();
AC_DBG("Host:%s, URI:%s", _webServer->hostHeader().c_str(), uri.c_str());
// When handleClient calls RequestHandler, the parsed http argument
// remains the previous request.
// If the current request argument contains AutoConnectElement, it is
// the form data of the AutoConnectAux page and with this timing save
// the value of each element.
if (_webServer->hasArg(AUTOCONNECT_AUXURI_PARAM)) {
String auxUri = _webServer->arg(AUTOCONNECT_AUXURI_PARAM);
auxUri.replace("&#47;", "/");
AutoConnectAux* aux = _aux.get();
while (aux) {
if (aux->_uriStr == auxUri) {
aux->_storeElements(_webServer.get());
break;
}
aux = aux->_next.get();
}
}
// Here, classify requested uri
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if (uri == _uri) {
AC_DBG_DUMB(", already allocated\n");
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return true; // The response page already exists.
}
// Dispose decrepit page
_purgePages();
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// Create the page dynamically
if ((_currentPageElement = _setupPage(uri)) == nullptr)
if (_aux) {
// Requested URL is not a normal page, exploring AUX pages
_currentPageElement = _aux->_setupPage(uri);
}
if (_currentPageElement != nullptr) {
AC_DBG_DUMB(", generated:%s", uri.c_str());
_uri = uri;
_responsePage->addElement(*_currentPageElement);
_responsePage->setUri(_uri.c_str());
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}
AC_DBG_DUMB(", %s\n", _currentPageElement != nullptr ? "allocated" : "ignored");
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return _currentPageElement != nullptr ? true : false;
}
/**
* Purge allocated pages.
*/
void AutoConnect::_purgePages() {
_responsePage->clearElement();
if (_currentPageElement != nullptr) {
delete _currentPageElement;
_currentPageElement = nullptr;
}
_uri = String("");
}
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/**
* It checks whether the specified character string is a valid IP address.
* @param ipStr IP string for validation.
* @return true Valid.
*/
bool AutoConnect::_isIP(String ipStr) {
for (uint8_t i = 0; i < ipStr.length(); i++) {
char c = ipStr.charAt(i);
if (c != '.' && (c < '0' || c > '9'))
return false;
}
return true;
}
/**
* Convert MAC address in uint8_t array to Sting XX:XX:XX:XX:XX:XX format.
* @param mac Array of MAC address 6 bytes.
* @return MAC address string in XX:XX:XX:XX:XX:XX format.
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*/
String AutoConnect::_toMACAddressString(const uint8_t mac[]) {
String macAddr = String("");
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for (uint8_t i = 0; i < 6; i++) {
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char buf[3];
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sprintf(buf, "%02X", mac[i]);
macAddr += buf;
if (i < 5)
macAddr += ':';
}
return macAddr;
}
/**
* Convert dBm to the wifi signal quality.
* @param rssi dBm.
* @return A signal quality percentage.
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*/
unsigned int AutoConnect::_toWiFiQuality(int32_t rssi) {
unsigned int qu;
if (rssi == 31) // WiFi signal is weak and RSSI value is unreliable.
qu = 0;
else if (rssi <= -100)
qu = 0;
else if (rssi >= -50)
qu = 100;
else
qu = 2 * (rssi + 100);
return qu;
}
/**
* Wait for establishment of the connection until the specified time expires.
* @param timeout Expiration time by millisecond unit.
* @return wl_status_t
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*/
wl_status_t AutoConnect::_waitForConnect(unsigned long timeout) {
wl_status_t wifiStatus;
AC_DBG("Connecting");
unsigned long st = millis();
while ((wifiStatus = WiFi.status()) != WL_CONNECTED) {
if (timeout) {
if (millis() - st > timeout)
break;
}
AC_DBG_DUMB("%c", '.');
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delay(300);
}
AC_DBG_DUMB("%s IP:%s\n", wifiStatus == WL_CONNECTED ? "established" : "time out", WiFi.localIP().toString().c_str());
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return wifiStatus;
}
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/**
* Control the automatic reconnection behaves. Reconnection behavior
* to the AP connected during captive portal operation is activated
* by an order as the argument.
* @param order AC_RECONNECT_SET or AC_RECONNECT_RESET
*/
void AutoConnect::_setReconnect(const AC_STARECONNECT_t order) {
#if defined(ARDUINO_ARCH_ESP32)
if (order == AC_RECONNECT_SET) {
_disconnectEventId = WiFi.onEvent([](WiFiEvent_t e, WiFiEventInfo_t info) {
AC_DBG("STA lost connection:%d\n", info.disconnected.reason);
bool rst = WiFi.reconnect();
AC_DBG("STA connection %s\n", rst ? "restored" : "failed");
}, WiFiEvent_t::SYSTEM_EVENT_AP_STADISCONNECTED);
AC_DBG("Event<%d> handler registered\n", static_cast<int>(WiFiEvent_t::SYSTEM_EVENT_AP_STADISCONNECTED));
}
else if (order == AC_RECONNECT_RESET) {
if (_disconnectEventId) {
WiFi.removeEvent(_disconnectEventId);
AC_DBG("Event<%d> handler released\n", static_cast<int>(WiFiEvent_t::SYSTEM_EVENT_AP_STADISCONNECTED));
}
}
#elif defined(ARDUINO_ARCH_ESP8266)
bool strc = order == AC_RECONNECT_SET ? true : false;
WiFi.setAutoReconnect(strc);
AC_DBG("STA reconnection:%s\n", strc ? "EN" : "DIS");
#endif
}
/**
* Wait for the end of transmission of the http response by closed
* from the http client.
*/
void AutoConnect::_waitForEndTransmission() {
#ifdef AC_DEBUG
AC_DBG("Leaves:");
unsigned long lt = millis();
#endif
while (_webServer->client().connected()) {
delay(1);
yield();
}
#ifdef AC_DEBUG
// Notifies of the time taken to end the session. If the http client
// times out, AC_DEBUG must be enabled and it is necessary to confirm
// that the http response is being transmitted correctly.
// To trace the correctness the close sequence of TCP connection,
// enable the debug log of the Arduino core side. If the normal,
// a message of closed the TCP connection will be logged between
// "Leaves:" and "the time taken to end the session" of the log.
AC_DBG_DUMB("%d[ms]\n", static_cast<int>(millis() - lt));
#endif
}
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/**
* Disconnects the station from an associated access point.
* @param wifiOff The station mode turning switch.
*/
void AutoConnect::_disconnectWiFi(bool wifiOff) {
#if defined(ARDUINO_ARCH_ESP8266)
WiFi.disconnect(wifiOff);
#elif defined(ARDUINO_ARCH_ESP32)
WiFi.disconnect(wifiOff, true);
#endif
while (WiFi.status() == WL_CONNECTED) {
delay(1);
yield();
}
}