You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
OSC2MIDI/OSC2MidiGateway.ino

631 lines
16 KiB

#if !(defined(ESP32) )
#error This code is intended to run on the ESP32 platform! Please check your Tools->Board setting.
#endif
// Use from 0 to 4. Higher number, more debugging messages and memory usage.
#define _WIFIMGR_LOGLEVEL_ 3
#define DEBUG 1
#define MDNS_NAME "osc2midi"
#define AP_SSID_NAME "OSC2MIDI"
#define AP_SSID_CONFIG_NAME "OSC2MIDI-Config"
#define AP_PASSWORD "osc2midi"
#define MDNS_NAME "osc2midi"
#define SOFT_SERIAL_RX 18
#define SOFT_SERIAL_TX 19
#define AP_TIMEOUT 120
#define AP_TRIGGER_PIN 15
#define AP_DATA_RESET_PIN 15
#define AP_MODE 23
#define LCD_I2C_ADDR 0x27
#define LCD_COL 16
#define LCD_ROW 2
#define FileFS SPIFFS
#define FS_Name "SPIFFS"
#define MIN_AP_PASSWORD_SIZE 8
#define SSID_MAX_LEN 32
#define PASS_MAX_LEN 64
#define NUM_WIFI_CREDENTIALS 2
#define CONFIG_FILENAME F("/wifi_cred.dat")
// You only need to format the filesystem once
//#define FORMAT_FILESYSTEM
//#define RESET_AP_DATA
#define WIFI_MULTI_1ST_CONNECT_WAITING_MS 100
#define WIFI_MULTI_CONNECT_WAITING_MS 200
#define WIFICHECK_INTERVAL 1000
#define HEARTBEAT_INTERVAL 10000
#include <esp_wifi.h>
#include <WiFi.h>
#include <WiFiClient.h>
#include <ESPmDNS.h>
#include <SPIFFS.h>
#include <WiFiMulti.h>
// Use false if you don't like to display Available Pages in Information Page of Config Portal
// Comment out or use true to display Available Pages in Information Page of Config Portal
// Must be placed before #include <ESP_WiFiManager.h>
#define USE_AVAILABLE_PAGES false
//#define USE_STATIC_IP_CONFIG_IN_CP false
#define USE_ESP_WIFIMANAGER_NTP false
#define USE_CLOUDFLARE_NTP false
#define USING_CORS_FEATURE false
#include <ESP_WiFiManager.h>
#include "debug.h"
#include <Arduino.h>
//#include <ESP8266WiFi.h>
#include <WiFiManager.h>
#include <WiFiUdp.h>
#include <OSCMessage.h>
#include <OSCBundle.h>
#include <OSCData.h>
#include <MIDI.h>
#include "OSC2Midi.h"
#include <HardwareSerial.h>
#include <SoftwareSerial.h>
#include <LiquidCrystal_I2C.h>
typedef struct
{
char wifi_ssid[SSID_MAX_LEN];
char wifi_pw [PASS_MAX_LEN];
} WiFi_Credentials;
typedef struct
{
String wifi_ssid;
String wifi_pw;
} WiFi_Credentials_String;
typedef struct
{
WiFi_Credentials WiFi_Creds [NUM_WIFI_CREDENTIALS];
} WM_Config;
void OSCToMidiCC(OSCMessage &msg, int offset);
void MidiCCToOSC(uint8_t channel, uint8_t number, uint8_t value);
uint8_t connectMultiWiFi(void);
WiFiUDP udp;
IPAddress clientIP; // store client IP for feedback
WiFiMulti wifiMulti;
FS* filesystem = &SPIFFS;
String Router_SSID;
String Router_Pass; WM_Config WM_config;
bool initialConfig = false;
String AP_SSID;
String AP_PASS;
IPAddress stationIP = IPAddress(0, 0, 0, 0);
IPAddress gatewayIP = IPAddress(192, 168, 2, 1);
IPAddress netMask = IPAddress(255, 255, 255, 0);
LiquidCrystal_I2C lcd(LCD_I2C_ADDR, LCD_COL, LCD_ROW);
/*
UART RX IO TX IO CTS RTS
UART0 GPIO3 GPIO1 N/A N/A
UART1 GPIO9 GPIO10 GPIO6 GPIO11
UART2 GPIO16 GPIO17 GPIO8 GPIO7
*/
HardwareSerial midi1(2); // RX: 16, TX: 17
#ifndef D5
#define D5 (SOFT_SERIAL_RX)
#define D6 (SOFT_SERIAL_TX)
//#define D7 (23)
//#define D8 (5)
//#define TX (1)
#endif
SoftwareSerial midi2;
MIDI_CREATE_INSTANCE(HardwareSerial, midi1, MIDI1);
void setup()
{
pinMode(AP_TRIGGER_PIN, INPUT_PULLUP);
pinMode(AP_DATA_RESET_PIN, INPUT_PULLUP);
pinMode(AP_MODE, INPUT_PULLUP);
Serial.begin(115200);
Serial.setDebugOutput(true);
DEBUG_MSG("<start>\nOSC2Midi\n");
lcd.init();
lcd.backlight();
lcd.clear();
lcd.noCursor();
lcd.setCursor(0, 0);
lcd.print("OSC2MIDI");
WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP
Serial.print("\nStarting AutoConnectWithFeedBack using " + String(FS_Name));
Serial.println(" on " + String(ARDUINO_BOARD));
if (digitalRead(AP_MODE) == LOW)
{
Serial.println("Mode AccessPoint");
WiFi.softAP(AP_SSID_NAME, AP_PASSWORD);
lcd.clear();
lcd.setCursor(0, 0);
lcd.print("Mode AP");
}
else
{
Serial.println("Mode: Client");
lcd.clear();
#if defined(FORMAT_FILESYSTEM)
FileFS.format();
#endif
// Format FileFS if not yet
if (!FileFS.begin(true))
{
Serial.print(FS_Name);
Serial.println(F(" failed! AutoFormatting."));
}
unsigned long startedAt = millis();
ESP_WiFiManager ESP_wifiManager("osc2midi");
if (digitalRead(AP_DATA_RESET_PIN) == LOW)
{
ESP_wifiManager.resetSettings();
Serial.println("Restting AP data");
delay(5000);
ESP.restart();
}
//set callback that gets called when connecting to previous WiFi fails, and enters Access Point mode
ESP_wifiManager.setAPCallback(configModeCallback);
ESP_wifiManager.setDebugOutput(true);
//set custom ip for portal
ESP_wifiManager.setAPStaticIPConfig(IPAddress(192, 168, 100, 1), IPAddress(192, 168, 100, 1), IPAddress(255, 255, 255, 0));
ESP_wifiManager.setMinimumSignalQuality(-1);
ESP_wifiManager.setConfigPortalChannel(0);
ESP_wifiManager.setSTAStaticIPConfig(stationIP, gatewayIP, netMask);
#if USING_CORS_FEATURE == true
ESP_wifiManager.setCORSHeader("Your Access-Control-Allow-Origin");
#endif
Router_SSID = ESP_wifiManager.WiFi_SSID();
Router_Pass = ESP_wifiManager.WiFi_Pass();
//Remove this line if you do not want to see WiFi password printed
Serial.println("Stored: SSID = " + Router_SSID + ", Pass = " + Router_Pass);
if (Router_SSID != "")
{
ESP_wifiManager.setConfigPortalTimeout(120); //If no access point name has been previously entered disable timeout.
Serial.println("Got stored Credentials. Timeout 120s");
}
else
{
Serial.println("No stored Credentials. No timeout");
}
// SSID and PW for Config Portal
AP_SSID = AP_SSID_CONFIG_NAME;
AP_PASS = AP_PASSWORD;
// From v1.1.0, Don't permit NULL password
if ( (Router_SSID == "") || (Router_Pass == "") )
{
Serial.println("We haven't got any access point credentials, so get them now");
initialConfig = true;
// Starts an access point
//if (!ESP_wifiManager.startConfigPortal((const char *) ssid.c_str(), password))
if ( !ESP_wifiManager.startConfigPortal(AP_SSID.c_str(), AP_PASS.c_str()) )
{
Serial.println("Not connected to WiFi but continuing anyway.");
lcd.setCursor(0, 0);
lcd.print("Mode WiFi Cfg-AP");
lcd.setCursor(0, 1);
lcd.print("192.168.100.1");
}
else
{
Serial.println("WiFi connected...yeey :)");
}
memset(&WM_config, 0, sizeof(WM_config));
for (uint8_t i = 0; i < NUM_WIFI_CREDENTIALS; i++)
{
String tempSSID = ESP_wifiManager.getSSID(i);
String tempPW = ESP_wifiManager.getPW(i);
if (strlen(tempSSID.c_str()) < sizeof(WM_config.WiFi_Creds[i].wifi_ssid) - 1)
strcpy(WM_config.WiFi_Creds[i].wifi_ssid, tempSSID.c_str());
else
strncpy(WM_config.WiFi_Creds[i].wifi_ssid, tempSSID.c_str(), sizeof(WM_config.WiFi_Creds[i].wifi_ssid) - 1);
if (strlen(tempPW.c_str()) < sizeof(WM_config.WiFi_Creds[i].wifi_pw) - 1)
strcpy(WM_config.WiFi_Creds[i].wifi_pw, tempPW.c_str());
else
strncpy(WM_config.WiFi_Creds[i].wifi_pw, tempPW.c_str(), sizeof(WM_config.WiFi_Creds[i].wifi_pw) - 1);
// Don't permit NULL SSID and password len < MIN_AP_PASSWORD_SIZE (8)
if ( (String(WM_config.WiFi_Creds[i].wifi_ssid) != "") && (strlen(WM_config.WiFi_Creds[i].wifi_pw) >= MIN_AP_PASSWORD_SIZE) )
{
LOGERROR3(F("* Add SSID = "), WM_config.WiFi_Creds[i].wifi_ssid, F(", PW = "), WM_config.WiFi_Creds[i].wifi_pw );
wifiMulti.addAP(WM_config.WiFi_Creds[i].wifi_ssid, WM_config.WiFi_Creds[i].wifi_pw);
}
}
saveConfigData();
Serial.println("Restarting...");
ESP.restart();
}
wifiMulti.addAP(Router_SSID.c_str(), Router_Pass.c_str());
startedAt = millis();
if (!initialConfig)
{
// Load stored data, the addAP ready for MultiWiFi reconnection
loadConfigData();
for (uint8_t i = 0; i < NUM_WIFI_CREDENTIALS; i++)
{
// Don't permit NULL SSID and password len < MIN_AP_PASSWORD_SIZE (8)
if ( (String(WM_config.WiFi_Creds[i].wifi_ssid) != "") && (strlen(WM_config.WiFi_Creds[i].wifi_pw) >= MIN_AP_PASSWORD_SIZE) )
{
LOGERROR3(F("* Add SSID = "), WM_config.WiFi_Creds[i].wifi_ssid, F(", PW = "), WM_config.WiFi_Creds[i].wifi_pw );
wifiMulti.addAP(WM_config.WiFi_Creds[i].wifi_ssid, WM_config.WiFi_Creds[i].wifi_pw);
}
}
if ( WiFi.status() != WL_CONNECTED )
{
Serial.println("ConnectMultiWiFi in setup");
connectMultiWiFi();
}
}
Serial.print("After waiting ");
Serial.print((float) (millis() - startedAt) / 1000L);
Serial.print(" secs more in setup(), connection result is ");
if (WiFi.status() == WL_CONNECTED)
{
Serial.print("connected. Local IP: ");
Serial.println(WiFi.localIP());
}
else
Serial.println(ESP_wifiManager.getStatus(WiFi.status()));
if (!MDNS.begin(MDNS_NAME)) {
Serial.println("Error setting up MDNS responder!");
while (1) {
delay(1000);
}
}
else
{
Serial.println("mDNS started.");
}
lcd.clear();
lcd.setCursor(0, 0);
lcd.print("Mode WiFi client");
lcd.setCursor(0, 1);
lcd.print(WiFi.localIP());
}
/*
midi1.begin(31250, SERIAL_8N1, 16, 17);
midi2.begin(31250, SERIAL_8N1, 35, 34);
*/
midi1.begin(31250);
midi2.begin(31250, SWSERIAL_8N1, D5, D6, false, 95, 11);
midi2.enableIntTx(false);
udp.begin(8000);
MIDI1.begin(MIDI_CHANNEL_OMNI);
MIDI1.setHandleControlChange(MidiCCToOSC);
MIDI1.turnThruOff();
}
void loop()
{
if (digitalRead(AP_MODE) != LOW)
check_status();
// check if we need to configure a AP
if (digitalRead(AP_TRIGGER_PIN) == LOW)
{
WiFiManager wm;
//reset settings - for testing
//wifiManager.resetSettings();
wm.setConfigPortalTimeout(AP_TIMEOUT);
if (!wm.startConfigPortal(AP_SSID_NAME))
{
DEBUG_MSG("Failed to connect and hit timeout - restarting!\n");
delay(3000);
ESP.restart();
delay(5000);
}
DEBUG_MSG("\nAP IP address: %s\n", WiFi.softAPIP().toString().c_str());
}
else
{
OSCMessage msg;
uint8_t buffer[1024];
uint16_t outPort;
// Check if there are any OSC packets to handle
size_t size = udp.parsePacket();
if (size > 0 && size <= 1024)
{
udp.read(buffer, size);
msg.fill(buffer, size);
if (!msg.hasError())
{
DEBUG_OSC_MESSAGE(msg);
msg.route("/midi/cc", OSCToMidiCC);
//msg.route("/midi/sysex", OSCToMidiSYSEX);
//msg.route("/midi/note", OSCToMidiNote);
}
else
{
DEBUG_MSG("Error parsing OSC message: %d\n", msg.getError());
}
// Keep track of the client IP address for "talking back"
clientIP = udp.remoteIP();
udp.flush();
}
// Check if there are any CC messages from synth itself
//MIDI1.read();
if (MIDI1.read())
{
DEBUG_MSG("MIDI-IN[1] Type: ");
DEBUG_MSG("%3d", MIDI1.getType());
DEBUG_MSG(" Data1: ");
DEBUG_MSG("%3d", MIDI1.getData1());
DEBUG_MSG(" Data2: ");
DEBUG_MSG("%3d", MIDI1.getData2());
DEBUG_MSG(" Channel: ");
DEBUG_MSG("%0d", MIDI1.getChannel());
DEBUG_MSG("\n");
}
// MIDI-Merger from (Soft-)MIDI2 to MIDI1
if (midi2.available() > 0)
{
while (midi2.available() > 0)
{
Serial.print("->M:");
Serial.println(midi2.peek(), DEC);
midi1.write(midi2.read());
}
}
}
}
void OSCToMidiCC(OSCMessage & msg, int offset)
{
char address[100] = { 0 };
uint8_t cc, value;
uint8_t midichannel;
msg.getAddress(address, offset, sizeof(address));
midichannel = getMIDIChannel(address);
//midichannel--;
if (msg.size() == 1 && msg.isFloat(0))
{
// Single or multi control with sending one value
cc = getCC(address);
value = round(msg.getFloat(0));
value = value > 127 ? 127 : value;
DEBUG_MSG("MSG: % s\tChannel: % u\t\tCC: % u\tValue: % u\n", address, midichannel, cc, value);
MIDI1.sendControlChange(cc, value, midichannel);
}
else if (msg.size() == 2 && msg.isFloat(0) && msg.isFloat(1))
{
// XY pad, two values
cc = getVar(address, 1);
value = round(msg.getFloat(0));
value = value > 127 ? 127 : value;
DEBUG_MSG("MSG: % s\tChannel: % u\t\tCC: % u\tValue: % u\n", address, midichannel, cc, value);
MIDI1.sendControlChange(cc, value, midichannel);
cc = getVar(address, 2);
value = round(msg.getFloat(1));
value = value > 127 ? 127 : value;
DEBUG_MSG("MSG: % s\tChannel: % u\t\tCC: % u\tValue: % u\n", address, midichannel, cc, value);
MIDI1.sendControlChange(cc, value, midichannel);
}
else
{
DEBUG_MSG("Cannot handle: % s\n", address);
}
}
void MidiCCToOSC(uint8_t channel, uint8_t number, uint8_t val)
{
char buffer[1024];
snprintf(buffer, sizeof(buffer), " / midi / cc / % u / % u", channel, number);
DEBUG_MSG("MidiCCToOsc: % s % f\n", buffer, val * 1.0);
if (clientIP)
{
OSCMessage msg = OSCMessage(buffer);
msg.add(val);
udp.beginPacket(clientIP, 9000);
msg.send(udp);
udp.endPacket();
}
}
void heartBeatPrint(void)
{
static int num = 1;
if (WiFi.status() == WL_CONNECTED)
Serial.print("H"); // H means connected to WiFi
else
Serial.print("F"); // F means not connected to WiFi
if (num == 80)
{
Serial.println();
num = 1;
}
else if (num++ % 10 == 0)
{
Serial.print(" ");
}
}
void check_WiFi(void)
{
if ( (WiFi.status() != WL_CONNECTED) )
{
Serial.println("\nWiFi lost. Call connectMultiWiFi in loop");
connectMultiWiFi();
}
}
void check_status(void)
{
static ulong checkstatus_timeout = 0;
static ulong checkwifi_timeout = 0;
static ulong current_millis;
current_millis = millis();
// Check WiFi every WIFICHECK_INTERVAL (1) seconds.
if ((current_millis > checkwifi_timeout) || (checkwifi_timeout == 0))
{
check_WiFi();
checkwifi_timeout = current_millis + WIFICHECK_INTERVAL;
}
// Print hearbeat every HEARTBEAT_INTERVAL (10) seconds.
if ((current_millis > checkstatus_timeout) || (checkstatus_timeout == 0))
{
heartBeatPrint();
checkstatus_timeout = current_millis + HEARTBEAT_INTERVAL;
}
}
void configModeCallback (ESP_WiFiManager *myESP_WiFiManager)
{
Serial.print("Entered config mode with ");
Serial.println("AP_SSID : " + myESP_WiFiManager->getConfigPortalSSID() + " and AP_PASS = " + myESP_WiFiManager->getConfigPortalPW());
}
void loadConfigData(void)
{
File file = FileFS.open(CONFIG_FILENAME, "r");
LOGERROR(F("LoadWiFiCfgFile "));
if (file)
{
file.readBytes((char *) &WM_config, sizeof(WM_config));
file.close();
LOGERROR(F("OK"));
}
else
{
LOGERROR(F("failed"));
}
}
void saveConfigData(void)
{
File file = FileFS.open(CONFIG_FILENAME, "w");
LOGERROR(F("SaveWiFiCfgFile "));
if (file)
{
file.write((uint8_t*) &WM_config, sizeof(WM_config));
file.close();
LOGERROR(F("OK"));
}
else
{
LOGERROR(F("failed"));
}
}
uint8_t connectMultiWiFi(void)
{
uint8_t status;
LOGERROR(F("ConnectMultiWiFi with : "));
if ( (Router_SSID != "") && (Router_Pass != "") )
{
LOGERROR3(F("* Flash - stored Router_SSID = "), Router_SSID, F(", Router_Pass = "), Router_Pass );
}
for (uint8_t i = 0; i < NUM_WIFI_CREDENTIALS; i++)
{
// Don't permit NULL SSID and password len < MIN_AP_PASSWORD_SIZE (8)
if ( (String(WM_config.WiFi_Creds[i].wifi_ssid) != "") && (strlen(WM_config.WiFi_Creds[i].wifi_pw) >= MIN_AP_PASSWORD_SIZE) )
{
LOGERROR3(F("* Additional SSID = "), WM_config.WiFi_Creds[i].wifi_ssid, F(", PW = "), WM_config.WiFi_Creds[i].wifi_pw );
}
}
LOGERROR(F("Connecting MultiWifi..."));
WiFi.mode(WIFI_STA);
WiFi.config(stationIP, gatewayIP, netMask);
int i = 0;
status = wifiMulti.run();
delay(WIFI_MULTI_1ST_CONNECT_WAITING_MS);
while ( ( i++ < 10 ) && ( status != WL_CONNECTED ) )
{
status = wifiMulti.run();
if ( status == WL_CONNECTED )
break;
else
delay(WIFI_MULTI_CONNECT_WAITING_MS);
}
if ( status == WL_CONNECTED )
{
LOGERROR1(F("WiFi connected after time: "), i);
LOGERROR3(F("SSID: "), WiFi.SSID(), F(", RSSI = "), WiFi.RSSI());
LOGERROR3(F("Channel: "), WiFi.channel(), F(", IP address: "), WiFi.localIP() );
}
else
LOGERROR(F("WiFi not connected"));
return status;
}