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/*
* Squeezelite - lightweight headless squeezebox emulator
*
* (c) Adrian Smith 2012-2015, triode1@btinternet.com
* Ralph Irving 2015-2021, ralph_irving@hotmail.com
*
* This program 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.
*
* This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
*
* Additions (c) Paul Hermann, 2015-2021 under the same license terms
* -Control of Raspberry pi GPIO for amplifier power
* -Launch script on power status change from LMS
*/
#include "squeezelite.h"
#include "slimproto.h"
static log_level loglevel;
#define SQUEEZENETWORK "mysqueezebox.com:3483"
#define PORT 3483
#define MAXBUF 4096
#if SL_LITTLE_ENDIAN
#define LOCAL_PLAYER_IP 0x0100007f // 127.0.0.1
#define LOCAL_PLAYER_PORT 0x9b0d // 3483
#else
#define LOCAL_PLAYER_IP 0x7f000001 // 127.0.0.1
#define LOCAL_PLAYER_PORT 0x0d9b // 3483
#endif
static sockfd sock = -1;
static in_addr_t slimproto_ip = 0;
extern struct buffer *streambuf;
extern struct buffer *outputbuf;
extern struct streamstate stream;
extern struct outputstate output;
extern struct decodestate decode;
extern struct codec *codecs[];
#if IR
extern struct irstate ir;
#endif
event_event wake_e;
#define LOCK_S mutex_lock(streambuf->mutex)
#define UNLOCK_S mutex_unlock(streambuf->mutex)
#define LOCK_O mutex_lock(outputbuf->mutex)
#define UNLOCK_O mutex_unlock(outputbuf->mutex)
#define LOCK_D mutex_lock(decode.mutex)
#define UNLOCK_D mutex_unlock(decode.mutex)
#if IR
#define LOCK_I mutex_lock(ir.mutex)
#define UNLOCK_I mutex_unlock(ir.mutex)
#endif
static struct {
u32_t updated;
u32_t stream_start;
u32_t stream_full;
u32_t stream_size;
u64_t stream_bytes;
u32_t output_full;
u32_t output_size;
u32_t frames_played;
u32_t device_frames;
u32_t current_sample_rate;
u32_t last;
stream_state stream_state;
} status;
int autostart;
bool sentSTMu, sentSTMo, sentSTMl;
u32_t new_server;
char *new_server_cap;
#define PLAYER_NAME_LEN 64
char player_name[PLAYER_NAME_LEN + 1] = "";
const char *name_file = NULL;
void send_packet(u8_t *packet, size_t len) {
u8_t *ptr = packet;
unsigned try = 0;
ssize_t n;
int error;
while (len) {
n = send(sock, ptr, len, MSG_NOSIGNAL);
if (n <= 0) {
error = last_error();
#if WIN
if (n < 0 && (error == ERROR_WOULDBLOCK || error == WSAENOTCONN) && try < 10) {
#else
if (n < 0 && error == ERROR_WOULDBLOCK && try < 10) {
#endif
LOG_DEBUG("retrying (%d) writing to socket", ++try);
usleep(1000);
continue;
}
LOG_WARN("failed writing to socket: %s", strerror(last_error()));
return;
}
ptr += n;
len -= n;
}
}
static void sendHELO(bool reconnect, const char *fixed_cap, const char *var_cap, u8_t mac[6]) {
#define BASE_CAP "Model=squeezelite,AccuratePlayPoints=1,HasDigitalOut=1,HasPolarityInversion=1,Firmware=" VERSION
#define SSL_CAP "CanHTTPS=1"
const char *base_cap;
struct HELO_packet pkt;
#if USE_SSL
#if !LINKALL && !NO_SSLSYM
if (ssl_loaded) base_cap = SSL_CAP "," BASE_CAP;
else base_cap = BASE_CAP;
#endif
base_cap = SSL_CAP "," BASE_CAP;
#else
base_cap = BASE_CAP;
#endif
memset(&pkt, 0, sizeof(pkt));
memcpy(&pkt.opcode, "HELO", 4);
pkt.length = htonl(sizeof(struct HELO_packet) - 8 + strlen(base_cap) + strlen(fixed_cap) + strlen(var_cap));
pkt.deviceid = 12; // squeezeplay
pkt.revision = 0;
packn(&pkt.wlan_channellist, reconnect ? 0x4000 : 0x0000);
packN(&pkt.bytes_received_H, (u64_t)status.stream_bytes >> 32);
packN(&pkt.bytes_received_L, (u64_t)status.stream_bytes & 0xffffffff);
memcpy(pkt.mac, mac, 6);
LOG_INFO("mac: %02x:%02x:%02x:%02x:%02x:%02x", pkt.mac[0], pkt.mac[1], pkt.mac[2], pkt.mac[3], pkt.mac[4], pkt.mac[5]);
LOG_INFO("cap: %s%s%s", base_cap, fixed_cap, var_cap);
send_packet((u8_t *)&pkt, sizeof(pkt));
send_packet((u8_t *)base_cap, strlen(base_cap));
send_packet((u8_t *)fixed_cap, strlen(fixed_cap));
send_packet((u8_t *)var_cap, strlen(var_cap));
}
static void sendSTAT(const char *event, u32_t server_timestamp) {
struct STAT_packet pkt;
u32_t now = gettime_ms();
u32_t ms_played;
if (status.current_sample_rate && status.frames_played && status.frames_played > status.device_frames) {
ms_played = (u32_t)(((u64_t)(status.frames_played - status.device_frames) * (u64_t)1000) / (u64_t)status.current_sample_rate);
if (now > status.updated) ms_played += (now - status.updated);
LOG_SDEBUG("ms_played: %u (frames_played: %u device_frames: %u)", ms_played, status.frames_played, status.device_frames);
} else if (status.frames_played && now > status.stream_start) {
ms_played = now - status.stream_start;
LOG_SDEBUG("ms_played: %u using elapsed time (frames_played: %u device_frames: %u)", ms_played, status.frames_played, status.device_frames);
} else {
LOG_SDEBUG("ms_played: 0");
ms_played = 0;
}
memset(&pkt, 0, sizeof(struct STAT_packet));
memcpy(&pkt.opcode, "STAT", 4);
pkt.length = htonl(sizeof(struct STAT_packet) - 8);
memcpy(&pkt.event, event, 4);
// num_crlf
// mas_initialized; mas_mode;
packN(&pkt.stream_buffer_fullness, status.stream_full);
packN(&pkt.stream_buffer_size, status.stream_size);
packN(&pkt.bytes_received_H, (u64_t)status.stream_bytes >> 32);
packN(&pkt.bytes_received_L, (u64_t)status.stream_bytes & 0xffffffff);
pkt.signal_strength = 0xffff;
packN(&pkt.jiffies, now);
packN(&pkt.output_buffer_size, status.output_size);
packN(&pkt.output_buffer_fullness, status.output_full);
packN(&pkt.elapsed_seconds, ms_played / 1000);
// voltage;
packN(&pkt.elapsed_milliseconds, ms_played);
pkt.server_timestamp = server_timestamp; // keep this is server format - don't unpack/pack
// error_code;
LOG_DEBUG("STAT: %s", event);
if (loglevel == lSDEBUG) {
LOG_SDEBUG("received bytesL: %u streambuf: %u outputbuf: %u calc elapsed: %u real elapsed: %u (diff: %d) device: %u delay: %d",
(u32_t)status.stream_bytes, status.stream_full, status.output_full, ms_played, now - status.stream_start,
ms_played - now + status.stream_start, status.device_frames * 1000 / status.current_sample_rate, now - status.updated);
}
send_packet((u8_t *)&pkt, sizeof(pkt));
}
static void sendDSCO(disconnect_code disconnect) {
struct DSCO_packet pkt;
memset(&pkt, 0, sizeof(pkt));
memcpy(&pkt.opcode, "DSCO", 4);
pkt.length = htonl(sizeof(pkt) - 8);
pkt.reason = disconnect & 0xFF;
LOG_DEBUG("DSCO: %d", disconnect);
send_packet((u8_t *)&pkt, sizeof(pkt));
}
static void sendRESP(const char *header, size_t len) {
struct RESP_header pkt_header;
memset(&pkt_header, 0, sizeof(pkt_header));
memcpy(&pkt_header.opcode, "RESP", 4);
pkt_header.length = htonl(sizeof(pkt_header) + len - 8);
LOG_DEBUG("RESP");
send_packet((u8_t *)&pkt_header, sizeof(pkt_header));
send_packet((u8_t *)header, len);
}
static void sendMETA(const char *meta, size_t len) {
struct META_header pkt_header;
memset(&pkt_header, 0, sizeof(pkt_header));
memcpy(&pkt_header.opcode, "META", 4);
pkt_header.length = htonl(sizeof(pkt_header) + len - 8);
LOG_DEBUG("META");
send_packet((u8_t *)&pkt_header, sizeof(pkt_header));
send_packet((u8_t *)meta, len);
}
static void sendSETDName(const char *name) {
struct SETD_header pkt_header;
memset(&pkt_header, 0, sizeof(pkt_header));
memcpy(&pkt_header.opcode, "SETD", 4);
pkt_header.id = 0; // id 0 is playername S:P:Squeezebox2
pkt_header.length = htonl(sizeof(pkt_header) + strlen(name) + 1 - 8);
LOG_DEBUG("set playername: %s", name);
send_packet((u8_t *)&pkt_header, sizeof(pkt_header));
send_packet((u8_t *)name, strlen(name) + 1);
}
#if IR
void sendIR(u32_t code, u32_t ts) {
struct IR_packet pkt;
memset(&pkt, 0, sizeof(pkt));
memcpy(&pkt.opcode, "IR ", 4);
pkt.length = htonl(sizeof(pkt) - 8);
packN(&pkt.jiffies, ts);
pkt.ir_code = htonl(code);
LOG_DEBUG("IR: ir code: 0x%x ts: %u", code, ts);
send_packet((u8_t *)&pkt, sizeof(pkt));
}
#endif
static void process_strm(u8_t *pkt, int len) {
struct strm_packet *strm = (struct strm_packet *)pkt;
LOG_DEBUG("strm command %c", strm->command);
switch(strm->command) {
case 't':
sendSTAT("STMt", strm->replay_gain); // STMt replay_gain is no longer used to track latency, but support it
break;
case 'q':
decode_flush();
output_flush();
status.frames_played = 0;
stream_disconnect();
sendSTAT("STMf", 0);
buf_flush(streambuf);
break;
case 'f':
decode_flush();
output_flush();
status.frames_played = 0;
if (stream_disconnect()) {
sendSTAT("STMf", 0);
}
buf_flush(streambuf);
break;
case 'p':
{
unsigned interval = unpackN(&strm->replay_gain);
LOCK_O;
output.pause_frames = interval * status.current_sample_rate / 1000;
if (interval) {
output.state = OUTPUT_PAUSE_FRAMES;
} else if (output.state != OUTPUT_OFF) {
output.state = OUTPUT_STOPPED;
output.stop_time = gettime_ms();
}
UNLOCK_O;
if (!interval) sendSTAT("STMp", 0);
LOG_DEBUG("pause interval: %u", interval);
}
break;
case 'a':
{
unsigned interval = unpackN(&strm->replay_gain);
LOCK_O;
output.skip_frames = interval * status.current_sample_rate / 1000;
output.state = OUTPUT_SKIP_FRAMES;
UNLOCK_O;
LOG_DEBUG("skip ahead interval: %u", interval);
}
break;
case 'u':
{
unsigned jiffies = unpackN(&strm->replay_gain);
LOCK_O;
output.state = jiffies ? OUTPUT_START_AT : OUTPUT_RUNNING;
output.start_at = jiffies;
UNLOCK_O;
LOG_DEBUG("unpause at: %u now: %u", jiffies, gettime_ms());
sendSTAT("STMr", 0);
}
break;
case 's':
{
unsigned header_len = len - sizeof(struct strm_packet);
char *header = (char *)(pkt + sizeof(struct strm_packet));
in_addr_t ip = (in_addr_t)strm->server_ip; // keep in network byte order
u16_t port = strm->server_port; // keep in network byte order
if (ip == 0) ip = slimproto_ip;
LOG_DEBUG("strm s autostart: %c transition period: %u transition type: %u codec: %c",
strm->autostart, strm->transition_period, strm->transition_type - '0', strm->format);
autostart = strm->autostart - '0';
sendSTAT("STMf", 0);
if (header_len > MAX_HEADER -1) {
LOG_WARN("header too long: %u", header_len);
break;
}
if (strm->format != '?') {
codec_open(strm->format, strm->pcm_sample_size, strm->pcm_sample_rate, strm->pcm_channels, strm->pcm_endianness);
} else if (autostart >= 2) {
// extension to slimproto to allow server to detect codec from response header and send back in codc message
LOG_DEBUG("streaming unknown codec");
} else {
LOG_WARN("unknown codec requires autostart >= 2");
break;
}
if (ip == LOCAL_PLAYER_IP && port == LOCAL_PLAYER_PORT) {
// extension to slimproto for LocalPlayer - header is filename not http header, don't expect cont
stream_file(header, header_len, strm->threshold * 1024);
autostart -= 2;
} else {
stream_sock(ip, port, strm->flags & 0x20, header, header_len, strm->threshold * 1024, autostart >= 2);
}
sendSTAT("STMc", 0);
sentSTMu = sentSTMo = sentSTMl = false;
LOCK_O;
output.threshold = strm->output_threshold;
output.next_replay_gain = unpackN(&strm->replay_gain);
output.fade_mode = strm->transition_type - '0';
output.fade_secs = strm->transition_period;
output.invert = (strm->flags & 0x03) == 0x03;
LOG_DEBUG("set fade mode: %u", output.fade_mode);
UNLOCK_O;
}
break;
default:
LOG_WARN("unhandled strm %c", strm->command);
break;
}
}
static void process_cont(u8_t *pkt, int len) {
struct cont_packet *cont = (struct cont_packet *)pkt;
cont->metaint = unpackN(&cont->metaint);
LOG_DEBUG("cont metaint: %u loop: %u", cont->metaint, cont->loop);
if (autostart > 1) {
autostart -= 2;
LOCK_S;
if (stream.state == STREAMING_WAIT) {
stream.state = STREAMING_BUFFERING;
stream.meta_interval = stream.meta_next = cont->metaint;
}
UNLOCK_S;
wake_controller();
}
}
static void process_codc(u8_t *pkt, int len) {
struct codc_packet *codc = (struct codc_packet *)pkt;
LOG_DEBUG("codc: %c", codc->format);
codec_open(codc->format, codc->pcm_sample_size, codc->pcm_sample_rate, codc->pcm_channels, codc->pcm_endianness);
}
static void process_aude(u8_t *pkt, int len) {
struct aude_packet *aude = (struct aude_packet *)pkt;
LOG_DEBUG("enable spdif: %d dac: %d", aude->enable_spdif, aude->enable_dac);
LOCK_O;
if (!aude->enable_spdif && output.state != OUTPUT_OFF) {
output.state = OUTPUT_OFF;
}
if (aude->enable_spdif && output.state == OUTPUT_OFF && !output.idle_to) {
output.state = OUTPUT_STOPPED;
output.stop_time = gettime_ms();
}
UNLOCK_O;
}
static void process_audg(u8_t *pkt, int len) {
struct audg_packet *audg = (struct audg_packet *)pkt;
audg->gainL = unpackN(&audg->gainL);
audg->gainR = unpackN(&audg->gainR);
LOG_DEBUG("audg gainL: %u gainR: %u adjust: %u", audg->gainL, audg->gainR, audg->adjust);
set_volume(audg->adjust ? audg->gainL : FIXED_ONE, audg->adjust ? audg->gainR : FIXED_ONE);
}
static void process_setd(u8_t *pkt, int len) {
struct setd_packet *setd = (struct setd_packet *)pkt;
// handle player name query and change
if (setd->id == 0) {
if (len == 5) {
if (strlen(player_name)) {
sendSETDName(player_name);
}
} else if (len > 5) {
strncpy(player_name, setd->data, PLAYER_NAME_LEN);
player_name[PLAYER_NAME_LEN] = '\0';
LOG_INFO("set name: %s", setd->data);
// confirm change to server
sendSETDName(setd->data);
// write name to name_file if -N option set
if (name_file) {
FILE *fp = fopen(name_file, "w");
if (fp) {
LOG_INFO("storing name in %s", name_file);
fputs(player_name, fp);
fclose(fp);
} else {
LOG_WARN("unable to store new name in %s", name_file);
}
}
}
}
}
#define SYNC_CAP ",SyncgroupID="
#define SYNC_CAP_LEN 13
static void process_serv(u8_t *pkt, int len) {
struct serv_packet *serv = (struct serv_packet *)pkt;
unsigned slimproto_port = 0;
char squeezeserver[] = SQUEEZENETWORK;
if(pkt[4] == 0 && pkt[5] == 0 && pkt[6] == 0 && pkt[7] == 1) {
server_addr(squeezeserver, &new_server, &slimproto_port);
} else {
new_server = serv->server_ip;
}
LOG_INFO("switch server");
if (len - sizeof(struct serv_packet) == 10) {
if (!new_server_cap) {
new_server_cap = malloc(SYNC_CAP_LEN + 10 + 1);
}
new_server_cap[0] = '\0';
strcat(new_server_cap, SYNC_CAP);
strncat(new_server_cap, (const char *)(pkt + sizeof(struct serv_packet)), 10);
} else {
if (new_server_cap) {
free(new_server_cap);
new_server_cap = NULL;
}
}
}
struct handler {
char opcode[5];
void (*handler)(u8_t *, int);
};
static struct handler handlers[] = {
{ "strm", process_strm },
{ "cont", process_cont },
{ "codc", process_codc },
{ "aude", process_aude },
{ "audg", process_audg },
{ "setd", process_setd },
{ "serv", process_serv },
{ "", NULL },
};
static void process(u8_t *pack, int len) {
struct handler *h = handlers;
while (h->handler && strncmp((char *)pack, h->opcode, 4)) { h++; }
if (h->handler) {
LOG_DEBUG("%s", h->opcode);
h->handler(pack, len);
} else {
pack[4] = '\0';
LOG_WARN("unhandled %s", (char *)pack);
}
}
static bool running;
static void slimproto_run() {
static u8_t buffer[MAXBUF];
int expect = 0;
int got = 0;
u32_t now;
static u32_t last = 0;
event_handle ehandles[2];
int timeouts = 0;
set_readwake_handles(ehandles, sock, wake_e);
while (running && !new_server) {
bool wake = false;
event_type ev;
if ((ev = wait_readwake(ehandles, 1000)) != EVENT_TIMEOUT) {
if (ev == EVENT_READ) {
if (expect > 0) {
int n = recv(sock, buffer + got, expect, 0);
if (n <= 0) {
if (n < 0 && last_error() == ERROR_WOULDBLOCK) {
continue;
}
LOG_INFO("error reading from socket: %s", n ? strerror(last_error()) : "closed");
return;
}
expect -= n;
got += n;
if (expect == 0) {
process(buffer, got);
got = 0;
}
} else if (expect == 0) {
int n = recv(sock, buffer + got, 2 - got, 0);
if (n <= 0) {
if (n < 0 && last_error() == ERROR_WOULDBLOCK) {
continue;
}
LOG_INFO("error reading from socket: %s", n ? strerror(last_error()) : "closed");
return;
}
got += n;
if (got == 2) {
expect = buffer[0] << 8 | buffer[1]; // length pack 'n'
got = 0;
if (expect > MAXBUF) {
LOG_ERROR("FATAL: slimproto packet too big: %d > %d", expect, MAXBUF);
return;
}
}
} else {
LOG_ERROR("FATAL: negative expect");
return;
}
}
if (ev == EVENT_WAKE) {
wake = true;
}
timeouts = 0;
} else if (++timeouts > 35) {
// expect message from server every 5 seconds, but 30 seconds on mysb.com so timeout after 35 seconds
LOG_INFO("No messages from server - connection dead");
return;
}
// update playback state when woken or every 100ms
now = gettime_ms();
if (wake || now - last > 100 || last > now) {
bool _sendSTMs = false;
bool _sendDSCO = false;
bool _sendRESP = false;
bool _sendMETA = false;
bool _sendSTMd = false;
bool _sendSTMt = false;
bool _sendSTMl = false;
bool _sendSTMu = false;
bool _sendSTMo = false;
bool _sendSTMn = false;
bool _stream_disconnect = false;
bool _start_output = false;
decode_state _decode_state;
disconnect_code disconnect_code;
static char header[MAX_HEADER];
size_t header_len = 0;
#if IR
bool _sendIR = false;
u32_t ir_code, ir_ts;
#endif
last = now;
LOCK_S;
status.stream_full = _buf_used(streambuf);
status.stream_size = streambuf->size;
status.stream_bytes = stream.bytes;
status.stream_state = stream.state;
if (stream.state == DISCONNECT) {
disconnect_code = stream.disconnect;
stream.state = STOPPED;
_sendDSCO = true;
}
if (!stream.sent_headers &&
(stream.state == STREAMING_HTTP || stream.state == STREAMING_WAIT || stream.state == STREAMING_BUFFERING)) {
header_len = stream.header_len;
memcpy(header, stream.header, header_len);
_sendRESP = true;
stream.sent_headers = true;
}
if (stream.meta_send) {
header_len = stream.header_len;
memcpy(header, stream.header, header_len);
_sendMETA = true;
stream.meta_send = false;
}
UNLOCK_S;
LOCK_D;
if ((status.stream_state == STREAMING_HTTP || status.stream_state == STREAMING_FILE ||
(status.stream_state == DISCONNECT && stream.disconnect == DISCONNECT_OK)) &&
!sentSTMl && decode.state == DECODE_READY) {
if (autostart == 0) {
decode.state = DECODE_RUNNING;
_sendSTMl = true;
sentSTMl = true;
} else if (autostart == 1) {
decode.state = DECODE_RUNNING;
_start_output = true;
}
// autostart 2 and 3 require cont to be received first
}
if (decode.state == DECODE_COMPLETE || decode.state == DECODE_ERROR) {
if (decode.state == DECODE_COMPLETE) _sendSTMd = true;
if (decode.state == DECODE_ERROR) _sendSTMn = true;
decode.state = DECODE_STOPPED;
if (status.stream_state == STREAMING_HTTP || status.stream_state == STREAMING_FILE) {
_stream_disconnect = true;
}
}
_decode_state = decode.state;
UNLOCK_D;
LOCK_O;
status.output_full = _buf_used(outputbuf);
status.output_size = outputbuf->size;
status.frames_played = output.frames_played_dmp;
status.current_sample_rate = output.current_sample_rate;
status.updated = output.updated;
status.device_frames = output.device_frames;
if (output.track_started) {
_sendSTMs = true;
output.track_started = false;
status.stream_start = output.track_start_time;
}
#if PORTAUDIO
if (output.pa_reopen) {
_pa_open();
output.pa_reopen = false;
}
#endif
if (_start_output && (output.state == OUTPUT_STOPPED || output.state == OUTPUT_OFF)) {
output.state = OUTPUT_BUFFER;
}
if (output.state == OUTPUT_RUNNING && !sentSTMu && status.output_full == 0 && status.stream_state <= DISCONNECT &&
_decode_state == DECODE_STOPPED) {
_sendSTMu = true;
sentSTMu = true;
LOG_DEBUG("output underrun");
output.state = OUTPUT_STOPPED;
output.stop_time = now;
}
if (output.state == OUTPUT_RUNNING && !sentSTMo && status.output_full == 0 && status.stream_state == STREAMING_HTTP) {
_sendSTMo = true;
sentSTMo = true;
}
if (output.state == OUTPUT_STOPPED && output.idle_to && (now - output.stop_time > output.idle_to)) {
output.state = OUTPUT_OFF;
LOG_DEBUG("output timeout");
}
if (output.state == OUTPUT_RUNNING && now - status.last > 1000) {
_sendSTMt = true;
status.last = now;
}
UNLOCK_O;
#if IR
LOCK_I;
if (ir.code) {
_sendIR = true;
ir_code = ir.code;
ir_ts = ir.ts;
ir.code = 0;
}
UNLOCK_I;
#endif
if (_stream_disconnect) stream_disconnect();
// send packets once locks released as packet sending can block
if (_sendDSCO) sendDSCO(disconnect_code);
if (_sendSTMs) sendSTAT("STMs", 0);
if (_sendSTMd) sendSTAT("STMd", 0);
if (_sendSTMt) sendSTAT("STMt", 0);
if (_sendSTMl) sendSTAT("STMl", 0);
if (_sendSTMu) sendSTAT("STMu", 0);
if (_sendSTMo) sendSTAT("STMo", 0);
if (_sendSTMn) sendSTAT("STMn", 0);
if (_sendRESP) sendRESP(header, header_len);
if (_sendMETA) sendMETA(header, header_len);
#if IR
if (_sendIR) sendIR(ir_code, ir_ts);
#endif
}
}
}
// called from other threads to wake state machine above
void wake_controller(void) {
wake_signal(wake_e);
}
in_addr_t discover_server(char *default_server) {
struct sockaddr_in d;
struct sockaddr_in s;
char *buf;
struct pollfd pollinfo;
unsigned port;
int disc_sock = socket(AF_INET, SOCK_DGRAM, 0);
socklen_t enable = 1;
setsockopt(disc_sock, SOL_SOCKET, SO_BROADCAST, (const void *)&enable, sizeof(enable));
buf = "e";
memset(&d, 0, sizeof(d));
d.sin_family = AF_INET;
d.sin_port = htons(PORT);
d.sin_addr.s_addr = htonl(INADDR_BROADCAST);
pollinfo.fd = disc_sock;
pollinfo.events = POLLIN;
do {
LOG_INFO("sending discovery");
memset(&s, 0, sizeof(s));
if (sendto(disc_sock, buf, 1, 0, (struct sockaddr *)&d, sizeof(d)) < 0) {
LOG_INFO("error sending disovery");
}
if (poll(&pollinfo, 1, 5000) == 1) {
char readbuf[10];
socklen_t slen = sizeof(s);
recvfrom(disc_sock, readbuf, 10, 0, (struct sockaddr *)&s, &slen);
LOG_INFO("got response from: %s:%d", inet_ntoa(s.sin_addr), ntohs(s.sin_port));
}
if (default_server) {
server_addr(default_server, &s.sin_addr.s_addr, &port);
}
} while (s.sin_addr.s_addr == 0 && running);
closesocket(disc_sock);
return s.sin_addr.s_addr;
}
#define FIXED_CAP_LEN 256
#define VAR_CAP_LEN 128
void slimproto(log_level level, char *server, u8_t mac[6], const char *name, const char *namefile, const char *modelname, int maxSampleRate) {
struct sockaddr_in serv_addr;
static char fixed_cap[FIXED_CAP_LEN], var_cap[VAR_CAP_LEN] = "";
bool reconnect = false;
unsigned failed_connect = 0;
unsigned slimproto_port = 0;
in_addr_t previous_server = 0;
int i;
memset(&status, 0, sizeof(status));
wake_create(wake_e);
loglevel = level;
running = true;
if (server) {
server_addr(server, &slimproto_ip, &slimproto_port);
}
if (!slimproto_ip) {
slimproto_ip = discover_server(server);
}
if (!slimproto_port) {
slimproto_port = PORT;
}
if (name) {
strncpy(player_name, name, PLAYER_NAME_LEN);
player_name[PLAYER_NAME_LEN] = '\0';
}
if (namefile) {
FILE *fp;
name_file = namefile;
fp = fopen(namefile, "r");
if (fp) {
if (!fgets(player_name, PLAYER_NAME_LEN, fp)) {
player_name[PLAYER_NAME_LEN] = '\0';
} else {
// strip any \n from fgets response
int len = strlen(player_name);
if (len > 0 && player_name[len - 1] == '\n') {
player_name[len - 1] = '\0';
}
LOG_INFO("retrieved name %s from %s", player_name, name_file);
}
fclose(fp);
}
}
if (!running) return;
LOCK_O;
snprintf(fixed_cap, FIXED_CAP_LEN, ",ModelName=%s,MaxSampleRate=%u", modelname ? modelname : MODEL_NAME_STRING,
((maxSampleRate > 0) ? maxSampleRate : output.supported_rates[0]));
for (i = 0; i < MAX_CODECS; i++) {
if (codecs[i] && codecs[i]->id && strlen(fixed_cap) < FIXED_CAP_LEN - 10) {
strcat(fixed_cap, ",");
strcat(fixed_cap, codecs[i]->types);
}
}
UNLOCK_O;
memset(&serv_addr, 0, sizeof(serv_addr));
serv_addr.sin_family = AF_INET;
serv_addr.sin_addr.s_addr = slimproto_ip;
serv_addr.sin_port = htons(slimproto_port);
LOG_INFO("connecting to %s:%d", inet_ntoa(serv_addr.sin_addr), ntohs(serv_addr.sin_port));
new_server = 0;
while (running) {
if (new_server) {
previous_server = slimproto_ip;
slimproto_ip = serv_addr.sin_addr.s_addr = new_server;
LOG_INFO("switching server to %s:%d", inet_ntoa(serv_addr.sin_addr), ntohs(serv_addr.sin_port));
new_server = 0;
reconnect = false;
}
sock = socket(AF_INET, SOCK_STREAM, 0);
set_nonblock(sock);
set_nosigpipe(sock);
if (connect_timeout(sock, (struct sockaddr *) &serv_addr, sizeof(serv_addr), 5) != 0) {
if (previous_server) {
slimproto_ip = serv_addr.sin_addr.s_addr = previous_server;
LOG_INFO("new server not reachable, reverting to previous server %s:%d", inet_ntoa(serv_addr.sin_addr), ntohs(serv_addr.sin_port));
} else {
LOG_INFO("unable to connect to server %u", failed_connect);
sleep(5);
}
// rediscover server if it was not set at startup
if (!server && ++failed_connect > 5) {
slimproto_ip = serv_addr.sin_addr.s_addr = discover_server(NULL);
}
} else {
struct sockaddr_in our_addr;
socklen_t len;
LOG_INFO("connected");
var_cap[0] = '\0';
failed_connect = 0;
// check if this is a local player now we are connected & signal to server via 'loc' format
// this requires LocalPlayer server plugin to enable direct file access
len = sizeof(our_addr);
getsockname(sock, (struct sockaddr *) &our_addr, &len);
if (our_addr.sin_addr.s_addr == serv_addr.sin_addr.s_addr) {
LOG_INFO("local player");
strcat(var_cap, ",loc");
}
// add on any capablity to be sent to the new server
if (new_server_cap) {
strcat(var_cap, new_server_cap);
free(new_server_cap);
new_server_cap = NULL;
}
sendHELO(reconnect, fixed_cap, var_cap, mac);
slimproto_run();
if (!reconnect) {
reconnect = true;
}
usleep(100000);
}
previous_server = 0;
closesocket(sock);
}
}
void slimproto_stop(void) {
LOG_INFO("slimproto stop");
running = false;
}
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