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rtsp.c
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rtsp.c
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/*
* RTSP protocol handler. This file is part of Shairport.
* Copyright (c) James Laird 2013
* Modifications associated with audio synchronization, mutithreading and
* metadata handling copyright (c) Mike Brady 2014-2015
* All rights reserved.
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use,
* copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
#include <memory.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <netdb.h>
#include <sys/select.h>
#include <signal.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include <errno.h>
#include <fcntl.h>
#include <pthread.h>
#include <poll.h>
#include <sys/stat.h>
#include "config.h"
#ifdef HAVE_LIBSSL
#include <openssl/md5.h>
#endif
#ifdef HAVE_LIBPOLARSSL
#include <polarssl/md5.h>
#endif
#include "common.h"
#include "player.h"
#include "rtp.h"
#include "mdns.h"
#ifdef AF_INET6
#define INETx_ADDRSTRLEN INET6_ADDRSTRLEN
#else
#define INETx_ADDRSTRLEN INET_ADDRSTRLEN
#endif
enum rtsp_read_request_response {
rtsp_read_request_response_ok,
rtsp_read_request_response_shutdown_requested,
rtsp_read_request_response_bad_packet,
rtsp_read_request_response_error
};
// Mike Brady's part...
static pthread_mutex_t play_lock = PTHREAD_MUTEX_INITIALIZER;
// every time we want to retain or release a reference count, lock it with this
// if a reference count is read as zero, it means the it's being deallocated.
static pthread_mutex_t reference_counter_lock = PTHREAD_MUTEX_INITIALIZER;
// only one thread is allowed to use the player at once.
// it monitors the request variable (at least when interrupted)
static pthread_mutex_t playing_mutex = PTHREAD_MUTEX_INITIALIZER;
static int please_shutdown = 0;
static pthread_t playing_thread = 0;
typedef struct {
int fd;
stream_cfg stream;
SOCKADDR remote;
int running;
pthread_t thread;
} rtsp_conn_info;
#ifdef CONFIG_METADATA
typedef struct {
pthread_mutex_t pc_queue_lock;
pthread_cond_t pc_queue_item_added_signal;
pthread_cond_t pc_queue_item_removed_signal;
size_t item_size; // number of bytes in each item
uint32_t count; // number of items in the queue
uint32_t capacity; // maximum number of items
uint32_t toq; // first item to take
uint32_t eoq; // free space at end of queue
void *items; // a pointer to where the items are actually stored
} pc_queue; // producer-consumer queue
#endif
typedef struct {
uint32_t referenceCount; // we might start using this...
int nheaders;
char *name[16];
char *value[16];
int contentlength;
char *content;
// for requests
char method[16];
// for responses
int respcode;
} rtsp_message;
#ifdef CONFIG_METADATA
typedef struct {
uint32_t type;
uint32_t code;
char *data;
uint32_t length;
rtsp_message *carrier;
} metadata_package;
void pc_queue_init(pc_queue *the_queue, char *items, size_t item_size, uint32_t number_of_items) {
the_queue->item_size = item_size;
the_queue->items = items;
the_queue->count = 0;
the_queue->capacity = number_of_items;
the_queue->toq = 0;
the_queue->eoq = 0;
}
int send_metadata(uint32_t type, uint32_t code, char *data, uint32_t length, rtsp_message *carrier,
int block);
int send_ssnc_metadata(uint32_t code, char *data, uint32_t length, int block) {
return send_metadata('ssnc', code, data, length, NULL, block);
}
int pc_queue_add_item(pc_queue *the_queue, const void *the_stuff, int block) {
int rc;
if (the_queue) {
if (block == 0) {
rc = pthread_mutex_trylock(&the_queue->pc_queue_lock);
if (rc == EBUSY)
return EBUSY;
} else
rc = pthread_mutex_lock(&the_queue->pc_queue_lock);
if (rc)
debug(1, "Error locking for pc_queue_add_item");
while (the_queue->count == the_queue->capacity) {
rc = pthread_cond_wait(&the_queue->pc_queue_item_removed_signal, &the_queue->pc_queue_lock);
if (rc)
debug(1, "Error waiting for item to be removed");
}
uint32_t i = the_queue->eoq;
void *p = the_queue->items + the_queue->item_size * i;
// void * p = &the_queue->qbase + the_queue->item_size*the_queue->eoq;
memcpy(p, the_stuff, the_queue->item_size);
// update the pointer
i++;
if (i == the_queue->capacity)
// fold pointer if necessary
i = 0;
the_queue->eoq = i;
the_queue->count++;
if (the_queue->count == the_queue->capacity)
debug(1, "pc_queue is full!");
rc = pthread_cond_signal(&the_queue->pc_queue_item_added_signal);
if (rc)
debug(1, "Error signalling after pc_queue_add_item");
rc = pthread_mutex_unlock(&the_queue->pc_queue_lock);
if (rc)
debug(1, "Error unlocking for pc_queue_add_item");
} else {
debug(1, "Adding an item to a NULL queue");
}
return 0;
}
int pc_queue_get_item(pc_queue *the_queue, void *the_stuff) {
int rc;
if (the_queue) {
rc = pthread_mutex_lock(&the_queue->pc_queue_lock);
if (rc)
debug(1, "Error locking for pc_queue_get_item");
while (the_queue->count == 0) {
rc = pthread_cond_wait(&the_queue->pc_queue_item_added_signal, &the_queue->pc_queue_lock);
if (rc)
debug(1, "Error waiting for item to be added");
}
uint32_t i = the_queue->toq;
// void * p = &the_queue->qbase + the_queue->item_size*the_queue->toq;
void *p = the_queue->items + the_queue->item_size * i;
memcpy(the_stuff, p, the_queue->item_size);
// update the pointer
i++;
if (i == the_queue->capacity)
// fold pointer if necessary
i = 0;
the_queue->toq = i;
the_queue->count--;
rc = pthread_cond_signal(&the_queue->pc_queue_item_removed_signal);
if (rc)
debug(1, "Error signalling after pc_queue_removed_item");
rc = pthread_mutex_unlock(&the_queue->pc_queue_lock);
if (rc)
debug(1, "Error unlocking for pc_queue_get_item");
} else {
debug(1, "Removing an item from a NULL queue");
}
return 0;
}
#endif
// determine if we are the currently playing thread
static inline int rtsp_playing(void) {
if (pthread_mutex_trylock(&playing_mutex)) {
return pthread_equal(playing_thread, pthread_self());
} else {
pthread_mutex_unlock(&playing_mutex);
return 0;
}
}
void rtsp_request_shutdown_stream(void) {
please_shutdown = 1;
pthread_kill(playing_thread, SIGUSR1);
}
static void rtsp_take_player(void) {
if (rtsp_playing())
return;
if (pthread_mutex_trylock(&playing_mutex)) {
debug(1, "shutting down playing thread.");
// XXX minor race condition between please_shutdown and signal delivery
please_shutdown = 1;
pthread_kill(playing_thread, SIGUSR1);
pthread_mutex_lock(&playing_mutex);
}
playing_thread = pthread_self(); // make us the currently-playing thread (why?)
}
void rtsp_shutdown_stream(void) {
rtsp_take_player();
pthread_mutex_unlock(&playing_mutex);
}
// keep track of the threads we have spawned so we can join() them
static rtsp_conn_info **conns = NULL;
static int nconns = 0;
static void track_thread(rtsp_conn_info *conn) {
conns = realloc(conns, sizeof(rtsp_conn_info *) * (nconns + 1));
conns[nconns] = conn;
nconns++;
}
static void cleanup_threads(void) {
void *retval;
int i;
debug(2, "culling threads.");
for (i = 0; i < nconns;) {
if (conns[i]->running == 0) {
pthread_join(conns[i]->thread, &retval);
free(conns[i]);
debug(2, "one joined...");
nconns--;
if (nconns)
conns[i] = conns[nconns];
} else {
i++;
}
}
}
// park a null at the line ending, and return the next line pointer
// accept \r, \n, or \r\n
static char *nextline(char *in, int inbuf) {
char *out = NULL;
while (inbuf) {
if (*in == '\r') {
*in++ = 0;
out = in;
}
if (*in == '\n') {
*in++ = 0;
out = in;
}
if (out)
break;
in++;
inbuf--;
}
return out;
}
static void msg_retain(rtsp_message *msg) {
if (msg) {
int rc = pthread_mutex_lock(&reference_counter_lock);
if (rc)
debug(1, "Error %d locking reference counter lock");
msg->referenceCount++;
rc = pthread_mutex_unlock(&reference_counter_lock);
if (rc)
debug(1, "Error %d unlocking reference counter lock");
} else {
debug(1, "null rtsp_message pointer passed to retain");
}
}
static rtsp_message *msg_init(void) {
rtsp_message *msg = malloc(sizeof(rtsp_message));
memset(msg, 0, sizeof(rtsp_message));
msg->referenceCount = 1; // from now on, any access to this must be protected with the lock
return msg;
}
static int msg_add_header(rtsp_message *msg, char *name, char *value) {
if (msg->nheaders >= sizeof(msg->name) / sizeof(char *)) {
warn("too many headers?!");
return 1;
}
msg->name[msg->nheaders] = strdup(name);
msg->value[msg->nheaders] = strdup(value);
msg->nheaders++;
return 0;
}
static char *msg_get_header(rtsp_message *msg, char *name) {
int i;
for (i = 0; i < msg->nheaders; i++)
if (!strcasecmp(msg->name[i], name))
return msg->value[i];
return NULL;
}
static void msg_print_debug_headers(rtsp_message *msg) {
int i;
for (i = 0; i < msg->nheaders; i++) {
debug(1, " Type: \"%s\", content: \"%s\"", msg->name[i], msg->value[i]);
}
}
static void msg_free(rtsp_message *msg) {
if (msg) {
int rc = pthread_mutex_lock(&reference_counter_lock);
if (rc)
debug(1, "Error %d locking reference counter lock during msg_free()", rc);
msg->referenceCount--;
rc = pthread_mutex_unlock(&reference_counter_lock);
if (rc)
debug(1, "Error %d unlocking reference counter lock during msg_free()", rc);
if (msg->referenceCount == 0) {
int i;
for (i = 0; i < msg->nheaders; i++) {
free(msg->name[i]);
free(msg->value[i]);
}
if (msg->content)
free(msg->content);
free(msg);
} // else {
// debug(1,"rtsp_message reference count non-zero: %d!",msg->referenceCount);
//}
} else {
debug(1, "null rtsp_message pointer passed to msg_free()");
}
}
static int msg_handle_line(rtsp_message **pmsg, char *line) {
rtsp_message *msg = *pmsg;
if (!msg) {
msg = msg_init();
*pmsg = msg;
char *sp, *p;
// debug(1, "received request: %s", line);
p = strtok_r(line, " ", &sp);
if (!p)
goto fail;
strncpy(msg->method, p, sizeof(msg->method) - 1);
p = strtok_r(NULL, " ", &sp);
if (!p)
goto fail;
p = strtok_r(NULL, " ", &sp);
if (!p)
goto fail;
if (strcmp(p, "RTSP/1.0"))
goto fail;
return -1;
}
if (strlen(line)) {
char *p;
p = strstr(line, ": ");
if (!p) {
warn("bad header: >>%s<<", line);
goto fail;
}
*p = 0;
p += 2;
msg_add_header(msg, line, p);
debug(2, " %s: %s.", line, p);
return -1;
} else {
char *cl = msg_get_header(msg, "Content-Length");
if (cl)
return atoi(cl);
else
return 0;
}
fail:
*pmsg = NULL;
msg_free(msg);
return 0;
}
static enum rtsp_read_request_response rtsp_read_request(int fd, rtsp_message **the_packet) {
enum rtsp_read_request_response reply = rtsp_read_request_response_ok;
ssize_t buflen = 512;
char *buf = malloc(buflen + 1);
rtsp_message *msg = NULL;
ssize_t nread;
ssize_t inbuf = 0;
int msg_size = -1;
while (msg_size < 0) {
if (please_shutdown) {
debug(1, "RTSP shutdown requested.");
reply = rtsp_read_request_response_shutdown_requested;
goto shutdown;
}
nread = read(fd, buf + inbuf, buflen - inbuf);
if (!nread) {
debug(1, "RTSP connection closed.");
reply = rtsp_read_request_response_shutdown_requested;
goto shutdown;
}
if (nread < 0) {
if (errno == EINTR)
continue;
perror("read failure");
reply = rtsp_read_request_response_error;
goto shutdown;
}
inbuf += nread;
char *next;
while (msg_size < 0 && (next = nextline(buf, inbuf))) {
msg_size = msg_handle_line(&msg, buf);
if (!msg) {
warn("no RTSP header received");
reply = rtsp_read_request_response_bad_packet;
goto shutdown;
}
inbuf -= next - buf;
if (inbuf)
memmove(buf, next, inbuf);
}
}
if (msg_size > buflen) {
buf = realloc(buf, msg_size);
if (!buf) {
warn("too much content");
reply = rtsp_read_request_response_error;
goto shutdown;
}
buflen = msg_size;
}
uint64_t threshold_time =
get_absolute_time_in_fp() + ((uint64_t)5 << 32); // i.e. five seconds from now
int warning_message_sent = 0;
const size_t max_read_chunk = 50000;
while (inbuf < msg_size) {
// we are going to read the stream in chunks and time how long it takes to do so.
// If it's taking too long, (and we find out about it), we will send an error message as
// metadata
if (warning_message_sent == 0) {
uint64_t time_now = get_absolute_time_in_fp();
if (time_now > threshold_time) { // it's taking too long
debug(1, "Error receiving metadata from source -- transmission seems to be stalled.");
#ifdef CONFIG_METADATA
send_ssnc_metadata('stal', NULL, 0, 1);
#endif
warning_message_sent = 1;
}
}
ssize_t read_chunk = msg_size - inbuf;
if (read_chunk > max_read_chunk)
read_chunk = max_read_chunk;
nread = read(fd, buf + inbuf, read_chunk);
if (!nread) {
reply = rtsp_read_request_response_error;
goto shutdown;
}
if (nread == EINTR)
continue;
if (nread < 0) {
perror("read failure");
reply = rtsp_read_request_response_error;
goto shutdown;
}
inbuf += nread;
}
msg->contentlength = inbuf;
msg->content = buf;
*the_packet = msg;
return reply;
shutdown:
if (msg) {
msg_free(msg); // which will free the content and everything else
}
// in case the message wasn't formed or wasn't fully initialised
if ((msg && (msg->content == NULL)) || (!msg))
free(buf);
*the_packet = NULL;
return reply;
}
static void msg_write_response(int fd, rtsp_message *resp) {
char pkt[1024];
int pktfree = sizeof(pkt);
char *p = pkt;
int i, n;
n = snprintf(p, pktfree, "RTSP/1.0 %d %s\r\n", resp->respcode,
resp->respcode == 200 ? "OK" : "Error");
// debug(1, "sending response: %s", pkt);
pktfree -= n;
p += n;
for (i = 0; i < resp->nheaders; i++) {
debug(2, " %s: %s.", resp->name[i], resp->value[i]);
n = snprintf(p, pktfree, "%s: %s\r\n", resp->name[i], resp->value[i]);
pktfree -= n;
p += n;
if (pktfree <= 0)
die("Attempted to write overlong RTSP packet");
}
if (pktfree < 3)
die("Attempted to write overlong RTSP packet");
strcpy(p, "\r\n");
int ignore = write(fd, pkt, p - pkt + 2);
}
static void handle_record(rtsp_conn_info *conn, rtsp_message *req, rtsp_message *resp) {
//debug(1,"Handle Record");
resp->respcode = 200;
// I think this is for telling the client what the absolute minimum latency actually is,
// and when the client specifies a latency, it should be added to this figure.
// Thus, AirPlay's latency figure of 77175, when added to 11025 gives you exactly 88200
// and iTunes' latency figure of 88553, when added to 11025 gives you 99578, pretty close to the 99400 we guessed.
msg_add_header(resp, "Audio-Latency", "11025");
char *p;
uint32_t rtptime = 0;
char *hdr = msg_get_header(req, "RTP-Info");
if (hdr) {
// debug(1,"FLUSH message received: \"%s\".",hdr);
// get the rtp timestamp
p = strstr(hdr, "rtptime=");
if (p) {
p = strchr(p, '=') + 1;
if (p) {
rtptime = uatoi(p); // unsigned integer -- up to 2^32-1
rtptime--;
// debug(1,"RTSP Flush Requested by handle_record: %u.",rtptime);
player_flush(rtptime);
}
}
}
}
static void handle_options(rtsp_conn_info *conn, rtsp_message *req, rtsp_message *resp) {
resp->respcode = 200;
msg_add_header(resp, "Public", "ANNOUNCE, SETUP, RECORD, "
"PAUSE, FLUSH, TEARDOWN, "
"OPTIONS, GET_PARAMETER, SET_PARAMETER");
}
static void handle_teardown(rtsp_conn_info *conn, rtsp_message *req, rtsp_message *resp) {
if (!rtsp_playing())
return;
resp->respcode = 200;
msg_add_header(resp, "Connection", "close");
please_shutdown = 1;
}
static void handle_flush(rtsp_conn_info *conn, rtsp_message *req, rtsp_message *resp) {
if (!rtsp_playing())
return;
char *p;
uint32_t rtptime = 0;
char *hdr = msg_get_header(req, "RTP-Info");
if (hdr) {
// debug(1,"FLUSH message received: \"%s\".",hdr);
// get the rtp timestamp
p = strstr(hdr, "rtptime=");
if (p) {
p = strchr(p, '=') + 1;
if (p)
rtptime = uatoi(p); // unsigned integer -- up to 2^32-1
}
}
// debug(1,"RTSP Flush Requested: %u.",rtptime);
player_flush(rtptime);
resp->respcode = 200;
}
static void handle_setup(rtsp_conn_info *conn, rtsp_message *req, rtsp_message *resp) {
// debug(1,"Handle Setup");
int cport, tport;
int lsport, lcport, ltport;
uint32_t active_remote = 0;
char *ar = msg_get_header(req, "Active-Remote");
if (ar) {
debug(1,"Active-Remote string seen: \"%s\".",ar);
// get the active remote
char *p;
active_remote = strtoul(ar, &p, 10);
#ifdef CONFIG_METADATA
send_metadata('ssnc','acre',ar,strlen(ar),req,1);
#endif
}
#ifdef CONFIG_METADATA
ar = msg_get_header(req, "DACP-ID");
if (ar) {
debug(1,"DACP-ID string seen: \"%s\".",ar);
send_metadata('ssnc','daid',ar,strlen(ar),req,1);
}
#endif
// This latency-setting mechanism is deprecated and will be removed.
// If no non-standard latency is chosen, automatic negotiated latency setting is permitted.
// Select a static latency
// if iTunes V10 or later is detected, use the iTunes latency setting
// if AirPlay is detected, use the AirPlay latency setting
// for everything else, use the general latency setting, if given, or
// else use the default latency setting
config.latency = -1;
if (config.userSuppliedLatency)
config.latency = config.userSuppliedLatency;
char *ua = msg_get_header(req, "User-Agent");
if (ua == 0) {
debug(1, "No User-Agent string found in the SETUP message. Using latency of %d frames.",
config.latency);
} else {
if (strstr(ua, "iTunes") == ua) {
int iTunesVersion = 0;
// now check it's version 10 or later
char *pp = strchr(ua, '/') + 1;
if (pp)
iTunesVersion = atoi(pp);
else
debug(2, "iTunes Version Number not found.");
if (iTunesVersion >= 10) {
debug(2, "User-Agent is iTunes 10 or better, (actual version is %d); selecting the iTunes "
"latency of %d frames.",
iTunesVersion, config.iTunesLatency);
config.latency = config.iTunesLatency;
}
} else if (strstr(ua, "AirPlay") == ua) {
debug(2, "User-Agent is AirPlay; selecting the AirPlay latency of %d frames.",
config.AirPlayLatency);
config.latency = config.AirPlayLatency;
} else if (strstr(ua, "forked-daapd") == ua) {
debug(2, "User-Agent is forked-daapd; selecting the forked-daapd latency of %d frames.",
config.ForkedDaapdLatency);
config.latency = config.ForkedDaapdLatency;
} else {
debug(2, "Unrecognised User-Agent. Using latency of %d frames.", config.latency);
}
}
if (config.latency==-1) {
// this means that no static latency was set, so we'll allow it to be set dynamically
config.latency=88198; // to be sure, to be sure -- make it slighty different from the default to ensure we get a debug message when set to 88200
config.use_negotiated_latencies = 1;
}
char *hdr = msg_get_header(req, "Transport");
if (!hdr)
goto error;
char *p;
p = strstr(hdr, "control_port=");
if (!p)
goto error;
p = strchr(p, '=') + 1;
cport = atoi(p);
p = strstr(hdr, "timing_port=");
if (!p)
goto error;
p = strchr(p, '=') + 1;
tport = atoi(p);
rtsp_take_player();
rtp_setup(&conn->remote, cport, tport, active_remote, &lsport, &lcport, <port);
if (!lsport)
goto error;
char *q;
p = strstr(hdr, "control_port=");
if (p) {
q = strchr(p, ';'); // get past the control port entry
*p++ = 0;
if (q++)
strcat(hdr, q); // should unsplice the control port entry
}
p = strstr(hdr, "timing_port=");
if (p) {
q = strchr(p, ';'); // get past the timing port entry
*p++ = 0;
if (q++)
strcat(hdr, q); // should unsplice the timing port entry
}
player_play(&conn->stream);
char *resphdr = alloca(200);
*resphdr = 0;
sprintf(resphdr, "RTP/AVP/"
"UDP;unicast;interleaved=0-1;mode=record;control_port=%d;timing_port=%d;server_"
"port=%d",
lcport, ltport, lsport);
msg_add_header(resp, "Transport", resphdr);
msg_add_header(resp, "Session", "1");
resp->respcode = 200;
return;
error:
warn("Error in setup request.");
pthread_mutex_unlock(&play_lock);
resp->respcode = 451; // invalid arguments
}
static void handle_ignore(rtsp_conn_info *conn, rtsp_message *req, rtsp_message *resp) {
resp->respcode = 200;
}
static void handle_set_parameter_parameter(rtsp_conn_info *conn, rtsp_message *req,
rtsp_message *resp) {
char *cp = req->content;
int cp_left = req->contentlength;
char *next;
while (cp_left && cp) {
next = nextline(cp, cp_left);
cp_left -= next - cp;
if (!strncmp(cp, "volume: ", 8)) {
if (config.ignore_volume_control == 0) {
float volume = atof(cp + 8);
debug(2, "volume: %f\n", volume);
player_volume(volume);
}
} else
#ifdef CONFIG_METADATA
if (!strncmp(cp, "progress: ", 10)) {
char *progress = cp + 10;
debug(2, "progress: \"%s\"\n",
progress); // rtpstampstart/rtpstampnow/rtpstampend 44100 per second
send_ssnc_metadata('prgr', strdup(progress), strlen(progress), 1);
} else
#endif
{
debug(1, "unrecognised parameter: \"%s\" (%d)\n", cp, strlen(cp));
}
cp = next;
}
}
#ifdef CONFIG_METADATA
// Metadata is not used by shairport-sync.
// Instead we send all metadata to a fifo pipe, so that other apps can listen to the pipe and use
// the metadata.
// We use two 4-character codes to identify each piece of data and we send the data itself, if any,
// in base64 form.
// The first 4-character code, called the "type", is either:
// 'core' for all the regular metadadata coming from iTunes, etc., or
// 'ssnc' (for 'shairport-sync') for all metadata coming from Shairport Sync itself, such as
// start/end delimiters, etc.
// For 'core' metadata, the second 4-character code is the 4-character metadata code coming from
// iTunes etc.
// For 'ssnc' metadata, the second 4-character code is used to distinguish the messages.
// Cover art is not tagged in the same way as other metadata, it seems, so is sent as an 'ssnc' type
// metadata message with the code 'PICT'
// Here are the 'ssnc' codes defined so far:
// 'PICT' -- the payload is a picture, either a JPEG or a PNG. Check the first few bytes to see
// which.
// 'pbeg' -- play stream begin. No arguments
// 'pend' -- play stream end. No arguments
// 'pfls' -- play stream flush. No arguments
// 'prsm' -- play stream resume. No arguments
// 'pvol' -- play volume. The volume is sent as a string --
// "airplay_volume,volume,lowest_volume,highest_volume,has_true_mute,is_muted"
// volume, lowest_volume and highest_volume are given in dB
// is_muted is 1 if [true] mute is enabled, 0 otherwise.
// The "airplay_volume" is what's sent to the player, and is from 0.00 down to -30.00,
// with -144.00 meaning mute.
// This is linear on the volume control slider of iTunes or iOS AirPLay
// 'prgr' -- progress -- this is metadata from AirPlay consisting of RTP timestamps for the start
// of the current play sequence, the current play point and the end of the play sequence.
// I guess the timestamps wrap at 2^32.
// 'mdst' -- a sequence of metadata is about to start
// 'mden' -- a sequence of metadata has ended
// 'snam' -- A device -- e.g. "Joe's iPhone" -- has opened a play session. Specifically, it's the "X-Apple-Client-Name" string
// 'snua' -- A "user agent" -- e.g. "iTunes/12..." -- has opened a play session. Specifically, it's the "User-Agent" string
// The next two two tokens are to facilitiate remote control of the source.
// There is some information at http://nto.github.io/AirPlay.html about remote control of the source.
//
// 'daid' -- this is the source's DACP-ID (if it has one -- it's not guaranteed), useful if you want to remotely control the source. Use this string to identify the source's remote control on the network.
// 'acre' -- this is the source's Active-Remote token, necessary if you want to send commands to the source's remote control (if it has one).
//
// including a simple base64 encoder to minimise malloc/free activity
// From Stack Overflow, with thanks:
// http://stackoverflow.com/questions/342409/how-do-i-base64-encode-decode-in-c
// minor mods to make independent of C99.
// more significant changes make it not malloc memory
// needs to initialise the docoding table first
// add _so to end of name to avoid confusion with polarssl's implementation
static char encoding_table[] = {'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M',
'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z',
'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm',
'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '+', '/'};
static int mod_table[] = {0, 2, 1};
// pass in a pointer to the data, its length, a pointer to the output buffer and a pointer to an int
// containing its maximum length
// the actual length will be returned.
char *base64_encode_so(const unsigned char *data, size_t input_length, char *encoded_data,
size_t *output_length) {
size_t calculated_output_length = 4 * ((input_length + 2) / 3);
if (calculated_output_length > *output_length)
return (NULL);
*output_length = calculated_output_length;
int i, j;
for (i = 0, j = 0; i < input_length;) {
uint32_t octet_a = i < input_length ? (unsigned char)data[i++] : 0;
uint32_t octet_b = i < input_length ? (unsigned char)data[i++] : 0;
uint32_t octet_c = i < input_length ? (unsigned char)data[i++] : 0;
uint32_t triple = (octet_a << 0x10) + (octet_b << 0x08) + octet_c;
encoded_data[j++] = encoding_table[(triple >> 3 * 6) & 0x3F];
encoded_data[j++] = encoding_table[(triple >> 2 * 6) & 0x3F];
encoded_data[j++] = encoding_table[(triple >> 1 * 6) & 0x3F];
encoded_data[j++] = encoding_table[(triple >> 0 * 6) & 0x3F];
}
for (i = 0; i < mod_table[input_length % 3]; i++)
encoded_data[*output_length - 1 - i] = '=';
return encoded_data;
}
// with thanks!
//
static int fd = -1;
static int dirty = 0;
pc_queue metadata_queue;
#define metadata_queue_size 500
metadata_package metadata_queue_items[metadata_queue_size];
static pthread_t metadata_thread;
void metadata_create(void) {
if (config.metadata_enabled == 0)
return;
size_t pl = strlen(config.metadata_pipename) + 1;
char *path = malloc(pl + 1);
snprintf(path, pl + 1, "%s", config.metadata_pipename);
if (mkfifo(path, 0644) && errno != EEXIST)
die("Could not create metadata FIFO %s", path);
free(path);
}
void metadata_open(void) {
if (config.metadata_enabled == 0)
return;
size_t pl = strlen(config.metadata_pipename) + 1;
char *path = malloc(pl + 1);
snprintf(path, pl + 1, "%s", config.metadata_pipename);
fd = open(path, O_WRONLY | O_NONBLOCK);
// if (fd < 0)
// debug(1, "Could not open metadata FIFO %s. Will try again later.", path);
free(path);
}
static void metadata_close(void) {
close(fd);
fd = -1;
}
void metadata_process(uint32_t type, uint32_t code, char *data, uint32_t length) {
debug(2, "Process metadata with type %x, code %x and length %u.", type, code, length);
int ret;
// readers may go away and come back
if (fd < 0)
metadata_open();
if (fd < 0)
return;
char thestring[1024];
snprintf(thestring, 1024, "<item><type>%x</type><code>%x</code><length>%u</length>", type, code,
length);
ret = non_blocking_write(fd, thestring, strlen(thestring));
if (ret < 1)
return;
if ((data != NULL) && (length > 0)) {
snprintf(thestring, 1024, "\n<data encoding=\"base64\">\n");
ret = non_blocking_write(fd, thestring, strlen(thestring));
if (ret < 1) // no reader
return;
// here, we write the data in base64 form using our nice base64 encoder
// but, we break it into lines of 76 output characters, except for the last one.
// thus, we send groups of (76/4)*3 = 57 bytes to the encoder at a time
size_t remaining_count = length;
char *remaining_data = data;
size_t towrite_count;
char outbuf[76];
while ((remaining_count) && (ret >= 0)) {
size_t towrite_count = remaining_count;
if (towrite_count > 57)
towrite_count = 57;
size_t outbuf_size = 76; // size of output buffer on entry, length of result on exit
if (base64_encode_so((unsigned char *)remaining_data, towrite_count, outbuf, &outbuf_size) == NULL)
debug(1, "Error encoding base64 data.");