/* © 2020, Chris Harlow. All rights reserved. This file is part of Asbelos DCC API This is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. It 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 General Public License for more details. You should have received a copy of the GNU General Public License along with CommandStation. If not, see . */ #include "WifiInterface.h" #include "DIAG.h" #include "StringFormatter.h" #include "WiThrottle.h" const char PROGMEM READY_SEARCH[] = "\r\nready\r\n"; const char PROGMEM OK_SEARCH[] = "\r\nOK\r\n"; const char PROGMEM END_DETAIL_SEARCH[] = "@ 1000"; const char PROGMEM PROMPT_SEARCH[] = ">"; const char PROGMEM SEND_OK_SEARCH[] = "\r\nSEND OK\r\n"; const char PROGMEM IPD_SEARCH[] = "+IPD"; const unsigned long LOOP_TIMEOUT = 2000; bool WifiInterface::connected = false; bool WifiInterface::closeAfter = false; DCCEXParser WifiInterface::parser; byte WifiInterface::loopstate = 0; unsigned long WifiInterface::loopTimeoutStart = 0; int WifiInterface::datalength = 0; int WifiInterface::connectionId; byte WifiInterface::buffer[MAX_WIFI_BUFFER]; MemStream WifiInterface::streamer(buffer, sizeof(buffer)); Stream * WifiInterface::wifiStream = NULL; HTTP_CALLBACK WifiInterface::httpCallback = 0; void WifiInterface::setup(Stream & setupStream, const __FlashStringHelper* SSid, const __FlashStringHelper* password, const __FlashStringHelper* hostname, const __FlashStringHelper* servername, int port) { wifiStream = &setupStream; DIAG(F("\n++++++ Wifi Setup In Progress ++++++++\n")); connected = setup2( SSid, password, hostname, servername, port); if (connected) StringFormatter::send(wifiStream, F("ATE0\r\n")); // turn off the echo server on port DIAG(F("\n++++++ Wifi Setup %S ++++++++\n"), connected ? F("OK") : F("FAILED")); } bool WifiInterface::setup2(const __FlashStringHelper* SSid, const __FlashStringHelper* password, const __FlashStringHelper* hostname, const __FlashStringHelper* servername, int port) { int ipOK = 0; if (checkForOK(200,IPD_SEARCH, true)) { DIAG(F("\nPreconfigured Wifi already running with data waiting\n")); loopstate=4; // carry on from correct place return true; } StringFormatter::send(wifiStream, F("ATE1\r\n")); // turn on the echo server on port StringFormatter::send(wifiStream, F("AT+GMR\r\n")); // request AT version checkForOK(2000, OK_SEARCH, true, false); // Makes this visible on the console StringFormatter::send(wifiStream, F("AT+CWMODE=1\r\n")); // configure as client checkForOK(1000, OK_SEARCH, true); // Not always OK, sometimes "no change" delay(8000); // give preconfigured ES8266 a chance to connect StringFormatter::send(wifiStream, F("AT+CIFSR\r\n")); if (checkForOK(5000, (const char*) F("+CIFSR:STAIP"), true,false)) if (!checkForOK(1000, (const char*) F("0.0.0.0"), true,false)) ipOK = 1; if (!ipOK) { StringFormatter::send(wifiStream, F("AT+CWMODE=3\r\n")); // configure as server or access point checkForOK(1000, OK_SEARCH, true); // Not always OK, sometimes "no change" // Older ES versions have AT+CWJAP, newer ones have AT+CWJAP_CUR and AT+CWHOSTNAME StringFormatter::send(wifiStream, F("AT+CWJAP?\r\n")); if (checkForOK(2000, OK_SEARCH, true)) { // early version supports CWJAP StringFormatter::send(wifiStream, F("AT+CWJAP=\"%S\",\"%S\"\r\n"), SSid, password); checkForOK(20000, OK_SEARCH, true); // can ignore failure as AP mode may still be ok } else { // later version supports CWJAP_CUR StringFormatter::send(wifiStream, F("AT+CWHOSTNAME=\"%S\"\r\n"), hostname); // Set Host name for Wifi Client checkForOK(2000, OK_SEARCH, true); // dont care if not supported StringFormatter::send(wifiStream, F("AT+CWJAP_CUR=\"%S\",\"%S\"\r\n"), SSid, password); checkForOK(20000, OK_SEARCH, true); // can ignore failure as AP mode may still be ok StringFormatter::send(wifiStream, F("AT+CIPRECVMODE=0\r\n"), port); // make sure transfer mode is correct checkForOK(2000, OK_SEARCH, true); // StringFormatter::send(wifiStream, F("AT+MDNS=1,\"%S.local\",\"%S.local\",%d\r\n"), hostname, servername, port); // Setup mDNS for Server // if (!checkForOK(5000, OK_SEARCH, true)) return false; (void)servername; // avoid compiler warning from commented out AT_MDNS above } StringFormatter::send(wifiStream, F("AT+CIFSR\r\n")); // get ip address //192.168.4.1 if (!checkForOK(10000, OK_SEARCH, true, false)) return false; } StringFormatter::send(wifiStream, F("AT+CIPMUX=1\r\n")); // configure for multiple connections if (!checkForOK(10000, OK_SEARCH, true)) return false; StringFormatter::send(wifiStream, F("AT+CIPSERVER=1,%d\r\n"), port); // turn on server on port if (!checkForOK(10000, OK_SEARCH, true)) return false; return true; } // This function is used to allow users to enter <+ commands> through the DCCEXParser // Once the user has made whatever changes to the AT commands, a <+X> command can be used // to force on the connectd flag so that the loop will start picking up wifi traffic. // If the settings are corrupted <+RST> will clear this and then you must restart the arduino. void WifiInterface::ATCommand(const byte * command) { if (*command=='X') { connected = true; DIAG(F("\n++++++ Wifi Connction forced on ++++++++\n")); } else { StringFormatter:: send(wifiStream, F("AT+%s\r\n"), command + 1); checkForOK(10000, OK_SEARCH, true); } } void WifiInterface::setHTTPCallback(HTTP_CALLBACK callback) { httpCallback = callback; } bool WifiInterface::checkForOK( const unsigned int timeout, const char * waitfor, bool echo, bool escapeEcho) { unsigned long startTime = millis(); char const *locator = waitfor; DIAG(F("\nWifi Check: [%E]"), waitfor); while ( millis() - startTime < timeout) { while (wifiStream->available()) { int ch = wifiStream->read(); if (echo) { if (escapeEcho) StringFormatter::printEscape(&DIAGSERIAL, ch); /// THIS IS A DIAG IN DISGUISE else DIAG(F("%c"), ch); } if (ch != pgm_read_byte_near(locator)) locator = waitfor; if (ch == pgm_read_byte_near(locator)) { locator++; if (!pgm_read_byte_near(locator)) { DIAG(F("\nFound in %dms"), millis() - startTime); return true; } } } } DIAG(F("\nTIMEOUT after %dms\n"), timeout); return false; } bool WifiInterface::isHTTP() { // POST GET PUT PATCH DELETE // You may think a simple strstr() is better... but not when ram & time is in short supply switch (buffer[0]) { case 'P': if (buffer[1] == 'U' && buffer[2] == 'T' && buffer[3] == ' ' ) return true; if (buffer[1] == 'O' && buffer[2] == 'S' && buffer[3] == 'T' && buffer[4] == ' ') return true; if (buffer[1] == 'A' && buffer[2] == 'T' && buffer[3] == 'C' && buffer[4] == 'H' && buffer[5] == ' ') return true; return false; case 'G': if (buffer[1] == 'E' && buffer[2] == 'T' && buffer[3] == ' ' ) return true; return false; case 'D': if (buffer[1] == 'E' && buffer[2] == 'L' && buffer[3] == 'E' && buffer[4] == 'T' && buffer[5] == 'E' && buffer[6] == ' ') return true; return false; default: return false; } } void WifiInterface::loop() { if (!connected) return; WiThrottle::loop(); // check heartbeats // read anything into a buffer, collecting info on the way while (loopstate != 99 && wifiStream->available()) { int ch = wifiStream->read(); // echo the char to the diagnostic stream in escaped format StringFormatter::printEscape(&DIAGSERIAL,ch); // DIAG in disguise switch (loopstate) { case 0: // looking for +IPD connectionId = 0; if (ch == '+') loopstate = 1; break; case 1: // Looking for I in +IPD loopstate = (ch == 'I') ? 2 : 0; break; case 2: // Looking for P in +IPD loopstate = (ch == 'P') ? 3 : 0; break; case 3: // Looking for D in +IPD loopstate = (ch == 'D') ? 4 : 0; break; case 4: // Looking for , After +IPD loopstate = (ch == ',') ? 5 : 0; break; case 5: // reading connection id if (ch == ',') loopstate = 6; else connectionId = 10 * connectionId + (ch - '0'); break; case 6: // reading for length if (ch == ':') loopstate = (datalength == 0) ? 99 : 7; // 99 is getout without reading next char else datalength = datalength * 10 + (ch - '0'); streamer.flush(); // basically sets write point at start of buffer break; case 7: // reading data streamer.write(ch); datalength--; if (datalength == 0) loopstate = 99; break; case 10: // Waiting for > so we can send reply if (millis() - loopTimeoutStart > LOOP_TIMEOUT) { DIAG(F("\nWifi TIMEOUT on wait for > prompt or ERROR\n")); loopstate = 0; // go back to +IPD break; } if (ch == '>') { // DIAG(F("\n> [%e]\n"),buffer); wifiStream->print((char *) buffer); loopTimeoutStart = millis(); loopstate = closeAfter ? 11 : 0; break; } if (ch == '.') { // busy during send, delay and retry loopstate = 12; // look for SEND OK finished break; } break; case 11: // Waiting for SEND OK or ERROR to complete so we can closeAfter if (millis() - loopTimeoutStart > LOOP_TIMEOUT) { DIAG(F("\nWifi TIMEOUT on wait for SEND OK or ERROR\n")); loopstate = 0; // go back to +IPD break; } if (ch == 'K') { // assume its in SEND OK DIAG(F("\n Wifi AT+CIPCLOSE=%d\r\n"), connectionId); StringFormatter::send(wifiStream, F("AT+CIPCLOSE=%d\r\n"), connectionId); loopstate = 0; // wait for +IPD } break; case 12: // Waiting for OK after send busy if (ch == '+') { // Uh-oh IPD problem DIAG(F("\n\n Wifi ASYNC CLASH - LOST REPLY\n")); connectionId = 0; loopstate = 1; } if (ch == 'K') { // assume its in SEND OK DIAG(F("\n\n Wifi BUSY RETRYING.. AT+CIPSEND=%d,%d\r\n"), connectionId, streamer.available() - 1); StringFormatter::send(wifiStream, F("AT+CIPSEND=%d,%d\r\n"), connectionId, streamer.available() - 1); loopTimeoutStart = millis(); loopstate = 10; // non-blocking loop waits for > before sending break; } break; } // switch } // while if (loopstate != 99) return; // AT this point we have read an incoming message into the buffer streamer.print('\0'); // null the end of the buffer so we can treat it as a string DIAG(F("\n%l Wifi(%d)<-[%e]\n"), millis(),connectionId, buffer); streamer.setBufferContentPosition(0, 0); // reset write position to start of buffer // SIDE EFFECT WARNING::: // We know that parser will read the entire buffer before starting to write to it. // Otherwise we would have to copy the buffer elsewhere and RAM is in short supply. closeAfter = false; // Intercept HTTP requests if (isHTTP()) { if (httpCallback) httpCallback(&streamer, buffer); else { StringFormatter::send(streamer, F("HTTP/1.1 404 Not Found\nContent-Type: text/html\nConnnection: close\n\n")); StringFormatter::send(streamer, F("This is not a web server.
")); } closeAfter = true; } else if (buffer[0] == '<') parser.parse(&streamer, buffer, true); // tell JMRI parser that ACKS are blocking because we can't handle the async else WiThrottle::getThrottle(connectionId)->parse(streamer, buffer); if (streamer.available() == 0) { // No reply if (closeAfter) { DIAG(F("AT+CIPCLOSE=%d\r\n"), connectionId); StringFormatter::send(wifiStream, F("AT+CIPCLOSE=%d\r\n"), connectionId); } loopstate = 0; // go back to waiting for +IPD return; } // prepare to send reply streamer.print('\0'); // null the end of the buffer so we can treat it as a string DIAG(F("%l WiFi(%d)->[%e] l(%d)\n"), millis(), connectionId, buffer, streamer.available() - 1); StringFormatter::send(wifiStream, F("AT+CIPSEND=%d,%d\r\n"), connectionId, streamer.available() - 1); loopTimeoutStart = millis(); loopstate = 10; // non-blocking loop waits for > before sending }