Added sleep mode for VS1053, HTTP server, tar upload, JSON status, RFID card removal debouncing, ...

This commit is contained in:
Fabian Schlenz 2019-08-12 20:15:00 +02:00
parent 7695e6196c
commit 25fa963752
7 changed files with 274 additions and 13 deletions

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@ -16,6 +16,7 @@ private:
void _check_buttons(); void _check_buttons();
uint32_t _get_rfid_card_uid(); uint32_t _get_rfid_card_uid();
uint32_t _last_rfid_card_uid = 0; uint32_t _last_rfid_card_uid = 0;
uint8_t _no_rfid_card_count = 0;
Player* _player; Player* _player;
unsigned long _last_rfid_scan_at = 0; unsigned long _last_rfid_scan_at = 0;
String _serial_buffer = String(); String _serial_buffer = String();
@ -26,5 +27,6 @@ private:
bool _check_button(uint8_t btn); bool _check_button(uint8_t btn);
public: public:
Controller(Player* p, MCP* m); Controller(Player* p, MCP* m);
String rfid_uid() { return String(_last_rfid_card_uid, HEX); }
void loop(); void loop();
}; };

28
include/http_server.h Normal file
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@ -0,0 +1,28 @@
#pragma once
#include <ESP8266WebServer.h>
#include "spi_master.h"
#include "player.h"
#include "controller.h"
#include <SD.h>
#include <WiFiClient.h>
#include <ESP8266WiFi.h>
#include <ESP8266mDNS.h>
class HTTPServer {
private:
ESP8266WebServer* _http_server;
void _handle_upload();
uint16_t _chunk_length;
uint8_t* _chunk;
uint32_t _file_size;
uint32_t _file_size_done;
bool _need_header;
uint32_t _upload_position;
void _handle_index();
void _handle_status();
Player* _player;
Controller* _controller;
public:
HTTPServer(Player* p, Controller* c);
void loop();
};

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@ -10,6 +10,7 @@
#define SCI_STATUS 0x01 #define SCI_STATUS 0x01
#define SCI_CLOCKF 0x03 #define SCI_CLOCKF 0x03
#define SCI_DECODE_TIME 0x04 #define SCI_DECODE_TIME 0x04
#define SCI_AUDATA 0x05
#define SCI_VOL 0x0B #define SCI_VOL 0x0B
#define SCI_WRAMADDR 0x07 #define SCI_WRAMADDR 0x07
#define SCI_WRAM 0x06 #define SCI_WRAM 0x06
@ -30,7 +31,8 @@
class Player { class Player {
private: private:
enum state { uninitialized, idle, playing, stopping, enum state { uninitialized, idle, playing, stopping,
system_sound_while_playing, system_sound_while_stopped }; system_sound_while_playing, system_sound_while_stopped,
sleeping };
struct album_state { struct album_state {
uint8_t index; uint8_t index;
uint32_t position; uint32_t position;
@ -51,12 +53,15 @@ private:
void _flush(uint count, int8_t fill_byte); void _flush(uint count, int8_t fill_byte);
void _set_last_track(const char* album, uint8_t track, uint32_t position); void _set_last_track(const char* album, uint8_t track, uint32_t position);
std::map<String, album_state> _last_tracks; std::map<String, album_state> _last_tracks;
String _random_album();
void _play_file(String filename, uint32_t offset); void _play_file(String filename, uint32_t offset);
uint32_t _id3_tag_offset(File f); uint32_t _id3_tag_offset(File f);
void _finish_playing(); void _finish_playing();
void _finish_stopping(); void _finish_stopping();
void _mute(); void _mute();
void _unmute(); void _unmute();
void _sleep();
void _wakeup();
SPISettings _spi_settings_slow = SPISettings(250000, MSBFIRST, SPI_MODE0); SPISettings _spi_settings_slow = SPISettings(250000, MSBFIRST, SPI_MODE0);
SPISettings _spi_settings_fast = SPISettings(4000000, MSBFIRST, SPI_MODE0); SPISettings _spi_settings_fast = SPISettings(4000000, MSBFIRST, SPI_MODE0);
@ -75,18 +80,25 @@ private:
uint16_t _stop_delay; uint16_t _stop_delay;
uint32_t _skip_to; uint32_t _skip_to;
MCP* _mcp; MCP* _mcp;
unsigned long _stopped_at;
public: public:
Player(MCP* m); Player(MCP* m);
void vol_up(); void vol_up();
void vol_down(); void vol_down();
void track_next(); void track_next();
void track_prev(); void track_prev();
bool is_playing();
bool play_album(String album); bool play_album(String album);
void play_random_album();
bool play_song(String album, uint8_t song_index, uint32_t offset=0); bool play_song(String album, uint8_t song_index, uint32_t offset=0);
void play_system_sound(String filename); void play_system_sound(String filename);
void stop(); void stop();
bool loop(); bool loop();
void set_volume(uint8_t vol, bool save = true); void set_volume(uint8_t vol, bool save = true);
std::list<String> ls(String path); std::list<String> ls(String path, bool withFiles=true, bool withDirs=true, bool withHidden=false);
String album() { return _playing_album; }
uint8_t track() { return _playing_index; }
uint32_t position() { return _current_play_position; }
uint8_t volume() { return _volume; }
}; };

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@ -53,12 +53,18 @@ void Controller::_check_rfid() {
uint32_t uid = _get_rfid_card_uid(); uint32_t uid = _get_rfid_card_uid();
if (uid != _last_rfid_card_uid) { if (uid != _last_rfid_card_uid) {
if (uid > 0) { if (uid > 0) {
_no_rfid_card_count = 0;
INFO("New RFID card uid: %08x\n", uid); INFO("New RFID card uid: %08x\n", uid);
String s_uid = String(uid, HEX); String s_uid = String(uid, HEX);
_player->play_album(s_uid); _player->play_album(s_uid);
} else { } else {
if (_no_rfid_card_count >= 1) {
INFO("No more RFID card."); INFO("No more RFID card.");
_player->stop(); _player->stop();
} else {
_no_rfid_card_count++;
return;
}
} }
_last_rfid_card_uid = uid; _last_rfid_card_uid = uid;
} }
@ -80,12 +86,14 @@ void Controller::_check_serial() {
} }
void Controller::_execute_serial_command(String cmd) { void Controller::_execute_serial_command(String cmd) {
DEBUG("Executing command: %s", cmd.c_str()); DEBUG("Executing command: %s\n", cmd.c_str());
if (cmd.equals("ls")) { if (cmd.equals("ls")) {
_execute_command_ls("/"); _execute_command_ls("/");
} else if (cmd.startsWith("ls ")) { } else if (cmd.startsWith("ls ")) {
_execute_command_ls(cmd.substring(3)); _execute_command_ls(cmd.substring(3));
} else if (cmd.equals("play")) {
_player->play_random_album();
} else if (cmd.startsWith("play ")) { } else if (cmd.startsWith("play ")) {
_player->play_album(cmd.substring(5)); _player->play_album(cmd.substring(5));
} else if (cmd.startsWith("sys ")) { } else if (cmd.startsWith("sys ")) {

154
src/http_server.cpp Normal file
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@ -0,0 +1,154 @@
#include "http_server.h"
HTTPServer::HTTPServer(Player* p, Controller* c) {
_player = p;
_controller = c;
_http_server = new ESP8266WebServer(80);
DEBUG("Connecting to wifi \"%s\"...\n", WIFI_SSID);
WiFi.mode(WIFI_AP_STA);
WiFi.begin(WIFI_SSID, WIFI_PASS);
if (WiFi.waitForConnectResult() != WL_CONNECTED) {
ERROR("Could not connect to Wifi. Rebooting.");
delay(1000);
ESP.restart();
}
INFO("WiFi connected.\n");
MDNS.begin("esmp3");
//_http_server->onFileUpload([&]() { _handle_upload(); yield();});
_http_server->on("/upload", HTTP_POST, [&]() {
_http_server->sendHeader("Connection", "close");
_http_server->send(200, "text/plain", "OK");
}, [&]() {
_handle_upload();
yield();
});
_http_server->on("/", HTTP_GET, [&](){ _handle_index(); });
_http_server->on("/status", HTTP_GET, [&](){ _handle_status(); });
_http_server->begin();
MDNS.addService("http", "tcp", 80);
}
void HTTPServer::_handle_upload() {
// https://www.gnu.org/software/tar/manual/html_node/Standard.html
// https://www.mkssoftware.com/docs/man4/tar.4.asp
HTTPUpload* upload = &_http_server->upload();
DEBUG("_handle_upload Status: %d, length: %d\n", upload->status, upload->currentSize);
if (upload->status == UPLOAD_FILE_START) {
_chunk = new uint8_t[512];
_chunk_length = 0;
_upload_position = 0;
_file_size = 0;
_file_size_done = 0;
_need_header = true;
}
if (upload->status == UPLOAD_FILE_END || upload->status == UPLOAD_FILE_ABORTED) {
// Close the file
delete _chunk;
return;
}
uint32_t upload_offset = 0;
while (upload_offset < upload->currentSize) {
// Load a chunk
if (_chunk_length < 512 && upload->currentSize > upload_offset) {
uint16_t needed = 512 - _chunk_length;
if (needed > upload->currentSize - upload_offset) needed = upload->currentSize - upload_offset;
memcpy(_chunk + _chunk_length, upload->buf + upload_offset, needed);
_chunk_length += needed;
upload_offset += needed;
_upload_position += needed;
if (_chunk_length == 512) {
// Process chunk
DEBUG("Chunk.\n");
if (_need_header) {
if (_chunk[257]=='u'&&_chunk[258]=='s'&&_chunk[259]=='t'&&_chunk[260]=='a'&&_chunk[261]=='r') {
DEBUG("It is a valid header, starting at 0x%X!\n", _upload_position-512);
char filename[200];
strncpy(filename, (char*)_chunk, 100);
DEBUG("filename: %s\n", filename);
_file_size = 0;
_file_size_done = 0;
for (int i=0; i<11; i++) {
//Serial.print(_header_buffer[124 + i]);
_file_size = (_file_size<<3) + (_chunk[124 + i] - '0');
}
DEBUG("filesize: %d\n", _file_size);
uint8_t type = _chunk[156] - '0';
if (type==0) {
DEBUG("Is a file.\n");
} else if (type==5) {
DEBUG("Is a directory.\n");
} else {
ERROR("Unknown file type %d\n", type);
}
_need_header = (type==5 || _file_size==0); // No chunks needed for directories.
} else {
bool byte_found = false;
for (int i=0; i<512; i++) byte_found = byte_found || _chunk[i]>0;
if (!byte_found) {
DEBUG("Empty chunk while looking for header -> ignoring.\n");
} else {
ERROR("Invalid tar header: %c %c %c %c %c. Looking at header start offset 0x%X.\n", _chunk[257], _chunk[258], _chunk[259], _chunk[260], _chunk[261], _upload_position-512);
}
}
} else {
uint16_t bytes_to_write = _file_size - _file_size_done;
if (bytes_to_write > 512) bytes_to_write=512;
// Write bytes...
_file_size_done += bytes_to_write;
if (_file_size_done >= _file_size) _need_header = true;
}
_chunk_length = 0;
}
}
}
}
void HTTPServer::_handle_index() {
String response = String("<html><head><title>ESMP3</title><script>function play_album(e) {}</script></head><body>");
response.concat("Albums on SD card:<table>");
std::list<String> files = _player->ls("/", false, true, false);
for(std::list<String>::iterator it=files.begin(); it!=files.end(); it++) {
response.concat("<tr><td>");
response.concat(*it);
response.concat("</td><td><a href='#' onclick='play_album();'>Play</a></td></tr>\n");
}
response.concat("</table></body></html>");
_http_server->send(200, "text/html", response);
}
void HTTPServer::_handle_status() {
String response = String("{");
response.concat("\"state\": \"");
response.concat(_player->is_playing() ? "playing" : "idle");
response.concat("\", ");
if (_player->is_playing()) {
response.concat("\"album\": \"");
response.concat(_player->album());
response.concat("\", \"track\": ");
response.concat(_player->track());
response.concat(", \"position\": ");
response.concat(_player->position());
response.concat(", ");
}
response.concat("\"volume\": ");
response.concat(_player->volume());
response.concat(", \"volume_max\": ");
response.concat(VOLUME_MAX);
response.concat(", \"volume_min\": ");
response.concat(VOLUME_MIN);
response.concat(", \"rfid_uid\": ");
response.concat(_controller->rfid_uid());
response.concat("}");
_http_server->send(200, "application/json", response);
}
void HTTPServer::loop() {
_http_server->handleClient();
MDNS.update();
}

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@ -6,10 +6,12 @@
#include "controller.h" #include "controller.h"
#include "player.h" #include "player.h"
#include "spi_master.h" #include "spi_master.h"
#include "http_server.h"
Controller* controller; Controller* controller;
Player* player; Player* player;
MCP* mcp; MCP* mcp;
HTTPServer* http_server;
void setup() { void setup() {
delay(500); delay(500);
@ -17,6 +19,8 @@ void setup() {
INFO("Starting.\n"); INFO("Starting.\n");
INFO("Initializing...\n"); INFO("Initializing...\n");
DEBUG("Setting up SPI...\n"); DEBUG("Setting up SPI...\n");
SPI.begin(); SPI.begin();
SPIMaster::init(); SPIMaster::init();
@ -35,8 +39,14 @@ void setup() {
ERROR("Could not initialize SD card. Halting.\n"); ERROR("Could not initialize SD card. Halting.\n");
while(1); while(1);
} }
DEBUG("Initializing Player and Controller...\n");
player = new Player(mcp); player = new Player(mcp);
controller = new Controller(player, mcp); controller = new Controller(player, mcp);
INFO("Player and controller initialized.\n");
DEBUG("Setting up WiFi and web server...\n");
http_server = new HTTPServer(player, controller);
INFO("Initialization completed.\n"); INFO("Initialization completed.\n");
} }
@ -46,4 +56,5 @@ void loop() {
if (more_data_needed) return; if (more_data_needed) return;
controller->loop(); controller->loop();
http_server->loop();
} }

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@ -72,6 +72,27 @@ void Player::_init() {
_state = idle; _state = idle;
} }
void Player::_sleep() {
DEBUG("VS1053 going to sleep.\n");
_write_control_register(SCI_CLOCKF, 0x0000);
_spi_settings = &_spi_settings_slow;
_write_control_register(SCI_AUDATA, 0x0010);
set_volume(0, false);
_state = sleeping;
}
void Player::_wakeup() {
if (_state != sleeping) return;
_stopped_at = millis();
DEBUG("Waking VS1053...\n");
set_volume(_volume, false);
_write_control_register(SCI_AUDATA, 0x0000);
_write_control_register(SCI_CLOCKF, 0x6000);
delay(10);
_spi_settings = &_spi_settings_fast;
_state = idle;
}
void Player::_check_system_sound(String filename) { void Player::_check_system_sound(String filename) {
String path = String("/system/") + filename; String path = String("/system/") + filename;
if (!SD.exists(path)) { if (!SD.exists(path)) {
@ -159,7 +180,6 @@ void Player::set_volume(uint8_t vol, bool save) {
} }
INFO("Setting volume to %d\n", vol); INFO("Setting volume to %d\n", vol);
vol = 0xFF - vol; vol = 0xFF - vol;
if (vol==0xFF) vol=0xFE;
uint16_t value = (vol<<8)|vol; uint16_t value = (vol<<8)|vol;
DEBUG("Setting volume register to 0x%04X\n", value); DEBUG("Setting volume register to 0x%04X\n", value);
_write_control_register(SCI_VOL, value); _write_control_register(SCI_VOL, value);
@ -178,12 +198,12 @@ void Player::vol_down() {
} }
void Player::_mute() { void Player::_mute() {
INFO("Muting."); INFO("Muting.\n");
set_volume(0, false); set_volume(1, false);
} }
void Player::_unmute() { void Player::_unmute() {
INFO("Unmuting."); INFO("Unmuting.\n");
set_volume(_volume, false); set_volume(_volume, false);
} }
@ -212,21 +232,30 @@ void Player::track_prev() {
} }
} }
std::list<String> Player::ls(String path) { bool Player::is_playing() {
return _state == playing;
}
std::list<String> Player::ls(String path, bool withFiles, bool withDirs, bool withHidden) {
SPIMaster::enable(PIN_SD_CS); SPIMaster::enable(PIN_SD_CS);
std::list<String> result; std::list<String> result;
if (!SD.exists(path)) return result; if (!SD.exists(path)) return result;
File dir = SD.open(path); File dir = SD.open(path);
File entry; File entry;
while (entry = dir.openNextFile()) { while (entry = dir.openNextFile()) {
if (!withDirs && entry.isDirectory()) continue;
if (!withFiles && !entry.isDirectory()) continue;
String filename = entry.name(); String filename = entry.name();
if (!withHidden && filename.startsWith(".")) continue;
if (entry.isDirectory()) filename.concat("/"); if (entry.isDirectory()) filename.concat("/");
result.push_back(filename); result.push_back(filename);
} }
result.sort();
return result; return result;
} }
String Player::_find_album_dir(String id) { String Player::_find_album_dir(String id) {
if (id.endsWith("/")) id = id.substring(0, id.length() - 1);
String id_with_divider = id + " - "; String id_with_divider = id + " - ";
File root = SD.open("/"); File root = SD.open("/");
File entry; File entry;
@ -259,10 +288,10 @@ std::list<String> Player::_files_in_dir(String path) {
filename.endsWith(".wma") || filename.endsWith(".wma") ||
filename.endsWith(".mp4") || filename.endsWith(".mp4") ||
filename.endsWith(".mpa"))) { filename.endsWith(".mpa"))) {
DEBUG(" Adding entry %s\n", filename.c_str()); TRACE(" Adding entry %s\n", filename.c_str());
result.push_back(path + filename); result.push_back(path + filename);
} else { } else {
DEBUG(" Ignoring entry %s\n", filename.c_str()); TRACE(" Ignoring entry %s\n", filename.c_str());
} }
entry.close(); entry.close();
} }
@ -272,14 +301,26 @@ std::list<String> Player::_files_in_dir(String path) {
return result; return result;
} }
String Player::_random_album() {
std::list<String> albums = ls("/", false, true, false);
uint8_t rnd = random(albums.size());
std::list<String>::iterator it = albums.begin();
for (int i=0; i<rnd; i++) { it++; }
return *it;
}
void Player::play_random_album() {
play_album(_random_album());
}
bool Player::play_album(String album) { bool Player::play_album(String album) {
//if (_state==playing) stop();
album_state s = _last_tracks[album.c_str()]; album_state s = _last_tracks[album.c_str()];
DEBUG("Last index for album %s was %d,%d\n", album.c_str(), s.index, s.position); DEBUG("Last index for album %s was %d,%d\n", album.c_str(), s.index, s.position);
return play_song(album, s.index, s.position); return play_song(album, s.index, s.position);
} }
bool Player::play_song(String album, uint8_t index, uint32_t skip_to) { bool Player::play_song(String album, uint8_t index, uint32_t skip_to) {
if (_state == sleeping) _wakeup();
if (_state != idle) return false; if (_state != idle) return false;
DEBUG("Trying to play song at index %d, offset %d of album %s\n", index, skip_to, album.c_str()); DEBUG("Trying to play song at index %d, offset %d of album %s\n", index, skip_to, album.c_str());
String path = _find_album_dir(album); String path = _find_album_dir(album);
@ -420,6 +461,7 @@ void Player::stop() {
void Player::_finish_stopping() { void Player::_finish_stopping() {
_state = idle; _state = idle;
_stopped_at = millis();
if (_file) { if (_file) {
_file.close(); _file.close();
} }
@ -483,6 +525,10 @@ bool Player::loop() {
_refill(); _refill();
return true; return true;
} }
if (_state == idle && _stopped_at < millis() - VS1053_SLEEP_DELAY) {
_sleep();
}
return false; return false;
} }