diff --git a/src/mesh/http/ContentHandler.cpp b/src/mesh/http/ContentHandler.cpp index df47776b..af00de68 100644 --- a/src/mesh/http/ContentHandler.cpp +++ b/src/mesh/http/ContentHandler.cpp @@ -5,10 +5,12 @@ #include "mesh/http/ContentStatic.h" #include "mesh/http/WiFiAPClient.h" #include "power.h" +#include "sleep.h" #include #include #include #include +#include "main.h" #ifndef NO_ESP32 #include "esp_task_wdt.h" @@ -927,4 +929,132 @@ void handleReport(HTTPRequest *req, HTTPResponse *res) res->println("\"status\": \"ok\""); res->println("}"); -} \ No newline at end of file +} + +// -------- + +void handle404(HTTPRequest *req, HTTPResponse *res) +{ + + // Discard request body, if we received any + // We do this, as this is the default node and may also server POST/PUT requests + req->discardRequestBody(); + + // Set the response status + res->setStatusCode(404); + res->setStatusText("Not Found"); + + // Set content type of the response + res->setHeader("Content-Type", "text/html"); + + // Write a tiny HTTP page + res->println(""); + res->println(""); + res->println("Not Found"); + res->println("

404 Not Found

The requested resource was not found on this server.

"); + res->println(""); +} + +/* + This supports the Apple Captive Network Assistant (CNA) Portal +*/ +void handleHotspot(HTTPRequest *req, HTTPResponse *res) +{ + DEBUG_MSG("Hotspot Request\n"); + + /* + If we don't do a redirect, be sure to return a "Success" message + otherwise iOS will have trouble detecting that the connection to the SoftAP worked. + */ + + // Status code is 200 OK by default. + // We want to deliver a simple HTML page, so we send a corresponding content type: + res->setHeader("Content-Type", "text/html"); + + // res->println(""); + res->println("\n"); +} + +void handleRestart(HTTPRequest *req, HTTPResponse *res) +{ + res->setHeader("Content-Type", "text/html"); + + DEBUG_MSG("***** Restarted on HTTP(s) Request *****\n"); + res->println("Restarting"); + + ESP.restart(); +} + +void handleBlinkLED(HTTPRequest *req, HTTPResponse *res) +{ + res->setHeader("Content-Type", "application/json"); + + ResourceParameters *params = req->getParams(); + std::string blink_target; + + if (!params->getQueryParameter("blink_target", blink_target)) { + // if no blink_target was supplied in the URL parameters of the + // POST request, then assume we should blink the LED + blink_target = "LED"; + } + + if (blink_target == "LED") { + uint8_t count = 10; + while (count > 0) { + setLed(true); + delay(50); + setLed(false); + delay(50); + count = count - 1; + } + } else { + screen->blink(); + } + + res->println("{"); + res->println("\"status\": \"ok\""); + res->println("}"); +} + +void handleScanNetworks(HTTPRequest *req, HTTPResponse *res) +{ + res->setHeader("Content-Type", "application/json"); + // res->setHeader("Content-Type", "text/html"); + + int n = WiFi.scanNetworks(); + res->println("{"); + res->println("\"data\": {"); + if (n == 0) { + // No networks found. + res->println("\"networks\": []"); + + } else { + res->println("\"networks\": ["); + + for (int i = 0; i < n; ++i) { + char ssidArray[50]; + String ssidString = String(WiFi.SSID(i)); + // String ssidString = String(WiFi.SSID(i)).toCharArray(ssidArray, WiFi.SSID(i).length()); + ssidString.replace("\"", "\\\""); + ssidString.toCharArray(ssidArray, 50); + + if (WiFi.encryptionType(i) != WIFI_AUTH_OPEN) { + // res->println("{\"ssid\": \"%s\",\"rssi\": -75}, ", String(WiFi.SSID(i).c_str() ); + + res->printf("{\"ssid\": \"%s\",\"rssi\": %d}", ssidArray, WiFi.RSSI(i)); + // WiFi.RSSI(i) + if (i != n - 1) { + res->printf(","); + } + } + // Yield some cpu cycles to IP stack. + // This is important in case the list is large and it takes us time to return + // to the main loop. + yield(); + } + res->println("]"); + } + res->println("},"); + res->println("\"status\": \"ok\""); + res->println("}"); +} diff --git a/src/mesh/http/WebServer.cpp b/src/mesh/http/WebServer.cpp index da64cd23..2633de52 100644 --- a/src/mesh/http/WebServer.cpp +++ b/src/mesh/http/WebServer.cpp @@ -1,8 +1,6 @@ #include "mesh/http/WebServer.h" #include "NodeDB.h" -#include "main.h" #include "mesh/http/WiFiAPClient.h" -#include "sleep.h" #include #include #include @@ -231,135 +229,3 @@ void initWebServer() } } - -// -------- - - -void handle404(HTTPRequest *req, HTTPResponse *res) -{ - - // Discard request body, if we received any - // We do this, as this is the default node and may also server POST/PUT requests - req->discardRequestBody(); - - // Set the response status - res->setStatusCode(404); - res->setStatusText("Not Found"); - - // Set content type of the response - res->setHeader("Content-Type", "text/html"); - - // Write a tiny HTTP page - res->println(""); - res->println(""); - res->println("Not Found"); - res->println("

404 Not Found

The requested resource was not found on this server.

"); - res->println(""); -} - -/* - This supports the Apple Captive Network Assistant (CNA) Portal -*/ -void handleHotspot(HTTPRequest *req, HTTPResponse *res) -{ - DEBUG_MSG("Hotspot Request\n"); - - /* - If we don't do a redirect, be sure to return a "Success" message - otherwise iOS will have trouble detecting that the connection to the SoftAP worked. - */ - - // Status code is 200 OK by default. - // We want to deliver a simple HTML page, so we send a corresponding content type: - res->setHeader("Content-Type", "text/html"); - - // res->println(""); - res->println("\n"); -} - - -void handleRestart(HTTPRequest *req, HTTPResponse *res) -{ - res->setHeader("Content-Type", "text/html"); - - DEBUG_MSG("***** Restarted on HTTP(s) Request *****\n"); - res->println("Restarting"); - - ESP.restart(); -} - -void handleBlinkLED(HTTPRequest *req, HTTPResponse *res) -{ - res->setHeader("Content-Type", "application/json"); - - ResourceParameters *params = req->getParams(); - std::string blink_target; - - if (!params->getQueryParameter("blink_target", blink_target)) { - // if no blink_target was supplied in the URL parameters of the - // POST request, then assume we should blink the LED - blink_target = "LED"; - } - - if (blink_target == "LED") { - uint8_t count = 10; - while (count > 0) { - setLed(true); - delay(50); - setLed(false); - delay(50); - count = count - 1; - } - } else { - screen->blink(); - } - - res->println("{"); - res->println("\"status\": \"ok\""); - res->println("}"); -} - - -void handleScanNetworks(HTTPRequest *req, HTTPResponse *res) -{ - res->setHeader("Content-Type", "application/json"); - // res->setHeader("Content-Type", "text/html"); - - int n = WiFi.scanNetworks(); - res->println("{"); - res->println("\"data\": {"); - if (n == 0) { - // No networks found. - res->println("\"networks\": []"); - - } else { - res->println("\"networks\": ["); - - for (int i = 0; i < n; ++i) { - char ssidArray[50]; - String ssidString = String(WiFi.SSID(i)); - // String ssidString = String(WiFi.SSID(i)).toCharArray(ssidArray, WiFi.SSID(i).length()); - ssidString.replace("\"", "\\\""); - ssidString.toCharArray(ssidArray, 50); - - if (WiFi.encryptionType(i) != WIFI_AUTH_OPEN) { - // res->println("{\"ssid\": \"%s\",\"rssi\": -75}, ", String(WiFi.SSID(i).c_str() ); - - res->printf("{\"ssid\": \"%s\",\"rssi\": %d}", ssidArray, WiFi.RSSI(i)); - // WiFi.RSSI(i) - if (i != n - 1) { - res->printf(","); - } - } - // Yield some cpu cycles to IP stack. - // This is important in case the list is large and it takes us time to return - // to the main loop. - yield(); - } - res->println("]"); - } - res->println("},"); - res->println("\"status\": \"ok\""); - res->println("}"); -} -