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dacp.c 54.68 KB
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Mike Brady 提交于 2021-04-26 11:23 . Version 3.3.8 is 3.3.8rc7.
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/*
* DACP protocol handler. This file is part of Shairport Sync.
* Copyright (c) Mike Brady 2017 -- 2020
* 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.
*/
// Information about the four-character codes is from many sources, with thanks, including
// https://github.com/melloware/dacp-net/blob/master/Melloware.DACP/
#include "dacp.h"
#include "common.h"
#include "config.h"
#include <arpa/inet.h>
#include <errno.h>
#include <inttypes.h>
#include <math.h>
#include <memory.h>
#include <netdb.h>
#include <netinet/in.h>
#include <pthread.h>
#include <stdlib.h>
#include <sys/time.h>
#include <time.h>
#include <unistd.h>
#include "metadata_hub.h"
#include "tinyhttp/http.h"
typedef struct {
int players_connection_thread_index; // the connection thread index when a player thread is
// associated with this, zero otherwise
int scan_enable; // set to 1 if scanning should be considered
char dacp_id[256]; // the DACP ID string
uint16_t port; // zero if no port discovered
short connection_family; // AF_INET6 or AF_INET
int always_use_revision_number_1; // for dealing with forked-daapd;
uint32_t scope_id; // if it's an ipv6 connection, this will be its scope id
char ip_string[INET6_ADDRSTRLEN]; // the ip string pointing to the client
char *active_remote_id; // send this when you want to send remote control commands
void *port_monitor_private_storage;
} dacp_server_record;
int dacp_monitor_initialised = 0;
pthread_t dacp_monitor_thread;
dacp_server_record dacp_server;
void *mdns_dacp_monitor_private_storage_pointer;
// HTTP Response data/funcs (See the tinyhttp example.cpp file for more on this.)
struct HttpResponse {
void *body; // this will be a malloc'ed pointer
ssize_t malloced_size; // this will be its allocated size
ssize_t size; // the current size of the content
int code;
};
void *response_realloc(__attribute__((unused)) void *opaque, void *ptr, int size) {
void *t = realloc(ptr, size);
if ((t == NULL) && (size != 0))
debug(1, "Response realloc of size %d failed!", size);
return t;
}
void response_body(void *opaque, const char *data, int size) {
struct HttpResponse *response = (struct HttpResponse *)opaque;
ssize_t space_available = response->malloced_size - response->size;
if (space_available < size) {
// debug(1,"Getting more space for the response -- need %d bytes but only %ld bytes left.\n",
// size,
// size - space_available);
ssize_t size_requested = size - space_available + response->malloced_size + 16384;
void *t = realloc(response->body, size_requested);
response->malloced_size = size_requested;
if (t)
response->body = t;
else {
die("dacp: can't allocate any more space for parser.");
}
}
memcpy(response->body + response->size, data, size);
response->size += size;
}
static void
response_header(__attribute__((unused)) void *opaque, __attribute__((unused)) const char *ckey,
__attribute__((unused)) int nkey, __attribute__((unused)) const char *cvalue,
__attribute__((unused)) int nvalue) { /* example doesn't care about headers */
}
static void response_code(void *opaque, int code) {
struct HttpResponse *response = (struct HttpResponse *)opaque;
response->code = code;
}
static const struct http_funcs responseFuncs = {
response_realloc,
response_body,
response_header,
response_code,
};
// static pthread_mutex_t dacp_conversation_lock = PTHREAD_MUTEX_INITIALIZER;
// static pthread_mutex_t dacp_server_information_lock = PTHREAD_MUTEX_INITIALIZER;
static pthread_mutex_t dacp_conversation_lock;
static pthread_mutex_t dacp_server_information_lock;
static pthread_cond_t dacp_server_information_cv;
void addrinfo_cleanup(void *arg) {
// debug(1, "addrinfo cleanup called.");
struct addrinfo **info = (struct addrinfo **)arg;
freeaddrinfo(*info);
}
void mutex_lock_cleanup(void *arg) {
pthread_mutex_t *m = (pthread_mutex_t *)arg;
if (pthread_mutex_unlock(m))
debug(1, "Error releasing mutex.");
}
void connect_cleanup(void *arg) {
int *fd = (int *)arg;
// debug(2, "dacp_send_command: close socket %d.",*fd);
close(*fd);
}
void http_cleanup(void *arg) {
// debug(1, "http cleanup called.");
struct http_roundtripper *rt = (struct http_roundtripper *)arg;
http_free(rt);
}
int dacp_send_command(const char *command, char **body, ssize_t *bodysize) {
int result;
// debug(1,"dacp_send_command: command is: \"%s\".",command);
if (dacp_server.port == 0) {
// debug(3, "No DACP port specified yet");
result = 490; // no port specified
} else {
// will malloc space for the body or set it to NULL -- the caller should free it.
// Using some custom HTTP-like return codes
// 498 Bad Address information for the DACP server
// 497 Can't establish a socket to the DACP server
// 496 Can't connect to the DACP server
// 495 Error receiving response
// 494 This client is already busy
// 493 Client failed to send a message
// 492 Argument out of range
// 491 Client refused connection
// 490 No port specified
struct addrinfo hints, *res;
int sockfd;
struct HttpResponse response;
response.body = NULL;
response.malloced_size = 0;
response.size = 0;
response.code = 0;
char portstring[10], server[1024], message[1024];
memset(&portstring, 0, sizeof(portstring));
if (dacp_server.connection_family == AF_INET6) {
snprintf(server, sizeof(server), "%s%%%u", dacp_server.ip_string, dacp_server.scope_id);
} else {
strcpy(server, dacp_server.ip_string);
}
snprintf(portstring, sizeof(portstring), "%u", dacp_server.port);
// first, load up address structs with getaddrinfo():
memset(&hints, 0, sizeof(hints));
hints.ai_family = AF_UNSPEC;
hints.ai_socktype = SOCK_STREAM;
// debug(1, "DACP port string is \"%s:%s\".", server, portstring);
int ires = getaddrinfo(server, portstring, &hints, &res);
if (ires) {
// debug(1,"Error %d \"%s\" at getaddrinfo.",ires,gai_strerror(ires));
response.code = 498; // Bad Address information for the DACP server
} else {
uint64_t start_time = get_absolute_time_in_ns();
pthread_cleanup_push(addrinfo_cleanup, (void *)&res);
// only do this one at a time -- not sure it is necessary, but better safe than sorry
int mutex_reply = sps_pthread_mutex_timedlock(&dacp_conversation_lock, 2000000, command, 1);
// int mutex_reply = pthread_mutex_lock(&dacp_conversation_lock);
if (mutex_reply == 0) {
pthread_cleanup_push(mutex_lock_cleanup, (void *)&dacp_conversation_lock);
// make a socket:
sockfd = socket(res->ai_family, res->ai_socktype, res->ai_protocol);
if (sockfd == -1) {
// debug(1, "DACP socket could not be created -- error %d:
// \"%s\".",errno,strerror(errno));
response.code = 497; // Can't establish a socket to the DACP server
} else {
pthread_cleanup_push(connect_cleanup, (void *)&sockfd);
// debug(2, "dacp_send_command: open socket %d.",sockfd);
// This is for limiting the time to be spent waiting for a response.
struct timeval tv;
tv.tv_sec = 0;
tv.tv_usec = 500000;
if (setsockopt(sockfd, SOL_SOCKET, SO_RCVTIMEO, (const char *)&tv, sizeof tv) == -1)
debug(1, "dacp_send_command: error %d setting receive timeout.", errno);
if (setsockopt(sockfd, SOL_SOCKET, SO_SNDTIMEO, (const char *)&tv, sizeof tv) == -1)
debug(1, "dacp_send_command: error %d setting send timeout.", errno);
// connect!
// debug(1, "DACP socket created.");
if (connect(sockfd, res->ai_addr, res->ai_addrlen) < 0) {
// debug(1, "dacp_send_command: connect failed with errno %d.", errno);
if (errno == ECONNREFUSED)
response.code = 491; // DACP server doesn't want to talk anymore...
else
response.code = 496; // Can't connect to the DACP server
} else {
// debug(1,"DACP connect succeeded.");
snprintf(message, sizeof(message),
"GET /ctrl-int/1/%s HTTP/1.1\r\nHost: %s:%u\r\nActive-Remote: %s\r\n\r\n",
command, dacp_server.ip_string, dacp_server.port,
dacp_server.active_remote_id);
// Send command
debug(3, "dacp_send_command: \"%s\".", command);
ssize_t wresp = send(sockfd, message, strlen(message), 0);
if (wresp == -1) {
char errorstring[1024];
strerror_r(errno, (char *)errorstring, sizeof(errorstring));
debug(2, "dacp_send_command: write error %d: \"%s\".", errno, (char *)errorstring);
struct linger so_linger;
so_linger.l_onoff = 1; // "true"
so_linger.l_linger = 0;
int err = setsockopt(sockfd, SOL_SOCKET, SO_LINGER, &so_linger, sizeof so_linger);
if (err)
debug(1, "Could not set the dacp socket to abort due to a write error on closing.");
}
if (wresp != (ssize_t)strlen(message)) {
// debug(1, "dacp_send_command: send failed.");
response.code = 493; // Client failed to send a message
} else {
response.body = malloc(2048); // it can resize this if necessary
response.malloced_size = 2048;
pthread_cleanup_push(malloc_cleanup, response.body);
struct http_roundtripper rt;
http_init(&rt, responseFuncs, &response);
pthread_cleanup_push(http_cleanup, &rt);
int needmore = 1;
int looperror = 0;
char buffer[8192];
memset(buffer, 0, sizeof(buffer));
while (needmore && !looperror) {
const char *data = buffer;
if (setsockopt(sockfd, SOL_SOCKET, SO_RCVTIMEO, (const char *)&tv, sizeof tv) == -1)
debug(1, "dacp_send_command: error %d setting receive timeout.", errno);
ssize_t ndata = recv(sockfd, buffer, sizeof(buffer), 0);
// debug(3, "Received %d bytes: \"%s\".", ndata, buffer);
if (ndata <= 0) {
if (ndata == -1) {
char errorstring[1024];
strerror_r(errno, (char *)errorstring, sizeof(errorstring));
debug(2, "dacp_send_command: receiving error %d: \"%s\".", errno,
(char *)errorstring);
struct linger so_linger;
so_linger.l_onoff = 1; // "true"
so_linger.l_linger = 0;
int err =
setsockopt(sockfd, SOL_SOCKET, SO_LINGER, &so_linger, sizeof so_linger);
if (err)
debug(
1,
"Could not set the dacp socket to abort due to a read error on closing.");
}
free(response.body);
response.body = NULL;
response.malloced_size = 0;
response.size = 0;
response.code = 495; // Error receiving response
looperror = 1;
}
while (needmore && ndata && !looperror) {
int read;
needmore = http_data(&rt, data, ndata, &read);
ndata -= read;
data += read;
}
}
if (http_iserror(&rt)) {
debug(3, "dacp_send_command: error parsing data.");
free(response.body);
response.body = NULL;
response.malloced_size = 0;
response.size = 0;
}
// debug(1,"Size of response body is %d",response.size);
pthread_cleanup_pop(1); // this should call http_cleanup
// http_free(&rt);
pthread_cleanup_pop(
0); // this should *not* free the malloced buffer -- just pop the malloc cleanup
}
}
pthread_cleanup_pop(1); // this should close the socket
// close(sockfd);
// debug(1,"DACP socket closed.");
}
pthread_cleanup_pop(1); // this should unlock the dacp_conversation_lock);
// pthread_mutex_unlock(&dacp_conversation_lock);
// debug(1,"Sent command\"%s\" with a response body of size %d.",command,response.size);
// debug(1,"dacp_conversation_lock released.");
} else {
debug(3,
"dacp_send_command: could not acquire a lock on the dacp transmit/receive section "
"when attempting to "
"send the command \"%s\". Possible timeout?",
command);
response.code = 494; // This client is already busy
}
pthread_cleanup_pop(1); // this should free the addrinfo
// freeaddrinfo(res);
uint64_t et = get_absolute_time_in_ns() - start_time; // this will be in nanoseconds
debug(3, "dacp_send_command: %f seconds, response code %d, command \"%s\".",
(1.0 * et) / 1000000000, response.code, command);
}
*body = response.body;
*bodysize = response.size;
result = response.code;
}
return result;
}
int send_simple_dacp_command(const char *command) {
int reply = 0;
char *server_reply = NULL;
debug(2, "send_simple_dacp_command: sending command \"%s\".", command);
ssize_t reply_size = 0;
reply = dacp_send_command(command, &server_reply, &reply_size);
if (server_reply) {
free(server_reply);
server_reply = NULL;
}
return reply;
}
void relinquish_dacp_server_information(rtsp_conn_info *conn) {
// this will set the dacp_server.players_connection_thread_index to zero iff it has the same value
// as the conn's connection number
// this is to signify that the player has stopped, but only if another thread (with a different
// index) hasn't already taken over the dacp service
debug_mutex_lock(&dacp_server_information_lock, 500000, 2);
if (dacp_server.players_connection_thread_index == conn->connection_number)
dacp_server.players_connection_thread_index = 0;
debug_mutex_unlock(&dacp_server_information_lock, 3);
}
// this will be running on the thread of its caller, not of the conversation thread...
// tell the DACP conversation thread what DACP server we are listening to
// if the active_remote_id is the same we don't change anything apart from
// the conversation number
// Thus, we can keep the DACP port that might have previously been discovered
void set_dacp_server_information(rtsp_conn_info *conn) {
// debug(1, "set_dacp_server_information");
debug_mutex_lock(&dacp_server_information_lock, 500000, 2);
dacp_server.players_connection_thread_index = conn->connection_number;
if ((conn->dacp_id == NULL) || (strcmp(conn->dacp_id, dacp_server.dacp_id) != 0)) {
if (conn->dacp_id)
strncpy(dacp_server.dacp_id, conn->dacp_id, sizeof(dacp_server.dacp_id) - 1);
else
dacp_server.dacp_id[0] = '\0';
dacp_server.port = 0;
dacp_server.scan_enable = 0;
dacp_server.connection_family = conn->connection_ip_family;
dacp_server.scope_id = conn->self_scope_id;
strncpy(dacp_server.ip_string, conn->client_ip_string, INET6_ADDRSTRLEN);
debug(2, "set_dacp_server_information set IP to \"%s\" and DACP id to \"%s\".",
dacp_server.ip_string, dacp_server.dacp_id);
// If the client is forked-daapd, then we always use revision number 1
// because otherwise the return read will hang in a "long poll" if there
// are no changes.
// This is different to other AirPlay clients
// which return immediately with a 403 code if there are no changes.
dacp_server.always_use_revision_number_1 = 0;
char *p = strstr(conn->UserAgent, "forked-daapd");
if ((p != 0) &&
(p == conn->UserAgent)) { // must exist and be at the start of the UserAgent string
dacp_server.always_use_revision_number_1 = 1;
}
metadata_hub_modify_prolog();
int ch = metadata_store.dacp_server_active != dacp_server.scan_enable;
metadata_store.dacp_server_active = dacp_server.scan_enable;
if ((metadata_store.client_ip == NULL) ||
(strncmp(metadata_store.client_ip, conn->client_ip_string, INET6_ADDRSTRLEN) != 0)) {
if (metadata_store.client_ip)
free(metadata_store.client_ip);
metadata_store.client_ip = strndup(conn->client_ip_string, INET6_ADDRSTRLEN);
debug(3, "MH Client IP set to: \"%s\"", metadata_store.client_ip);
ch = 1;
}
metadata_hub_modify_epilog(ch);
} else {
if (dacp_server.port) {
// debug(1, "Re-enable scanning.");
dacp_server.scan_enable = 1;
// metadata_hub_modify_prolog();
// int ch = metadata_store.dacp_server_active != dacp_server.scan_enable;
// metadata_store.dacp_server_active = dacp_server.scan_enable;
// metadata_hub_modify_epilog(ch);
}
}
if (dacp_server.active_remote_id)
free(dacp_server.active_remote_id);
if (conn->dacp_active_remote)
dacp_server.active_remote_id =
strdup(conn->dacp_active_remote); // even if the dacp_id remains the same,
// the active remote will change.
else
dacp_server.active_remote_id = NULL;
debug(3, "set_dacp_server_information set active-remote id to %s.", dacp_server.active_remote_id);
pthread_cond_signal(&dacp_server_information_cv);
debug_mutex_unlock(&dacp_server_information_lock, 3);
}
void dacp_monitor_port_update_callback(char *dacp_id, uint16_t port) {
debug_mutex_lock(&dacp_server_information_lock, 500000, 2);
debug(2,
"dacp_monitor_port_update_callback with Remote ID \"%s\", target ID \"%s\" and port "
"number %d.",
dacp_id, dacp_server.dacp_id, port);
if ((dacp_id == NULL) || (dacp_server.dacp_id == NULL)) {
warn("dacp_id or dacp_server.dacp_id NULL detected");
} else {
if (strcmp(dacp_id, dacp_server.dacp_id) == 0) {
dacp_server.port = port;
if (port == 0)
dacp_server.scan_enable = 0;
else {
dacp_server.scan_enable = 1;
// debug(2, "dacp_monitor_port_update_callback enables scan");
}
// metadata_hub_modify_prolog();
// int ch = metadata_store.dacp_server_active != dacp_server.scan_enable;
// metadata_store.dacp_server_active = dacp_server.scan_enable;
// metadata_hub_modify_epilog(ch);
} else {
debug(1, "dacp port monitor reporting on an out-of-use remote.");
}
}
pthread_cond_signal(&dacp_server_information_cv);
debug_mutex_unlock(&dacp_server_information_lock, 3);
}
void dacp_monitor_thread_code_cleanup(__attribute__((unused)) void *arg) {
// debug(1, "dacp_monitor_thread_code_cleanup called.");
pthread_mutex_unlock(&dacp_server_information_lock);
}
void *dacp_monitor_thread_code(__attribute__((unused)) void *na) {
int scan_index = 0;
int always_use_revision_number_1 = 0;
// char server_reply[10000];
// debug(1, "DACP monitor thread started.");
// wait until we get a valid port number to begin monitoring it
int32_t revision_number = 1;
int bad_result_count = 0;
int idle_scan_count = 0;
while (1) {
int result = 0;
sps_pthread_mutex_timedlock(
&dacp_server_information_lock, 500000,
"dacp_monitor_thread_code couldn't get DACP server information lock in 0.5 second!.", 2);
int32_t the_volume;
pthread_cleanup_push(dacp_monitor_thread_code_cleanup, NULL);
if (dacp_server.scan_enable == 0) {
metadata_hub_modify_prolog();
int ch = (metadata_store.dacp_server_active != 0) ||
(metadata_store.advanced_dacp_server_active != 0);
metadata_store.dacp_server_active = 0;
metadata_store.advanced_dacp_server_active = 0;
/*
debug(3,
"setting metadata_store.dacp_server_active and "
"metadata_store.advanced_dacp_server_active to 0 with an update "
"flag value of %d",
ch);
*/
metadata_hub_modify_epilog(ch);
uint64_t time_to_wait_for_wakeup_ns =
(uint64_t)(1000000000 * config.missing_port_dacp_scan_interval_seconds);
#ifdef COMPILE_FOR_LINUX_AND_FREEBSD_AND_CYGWIN_AND_OPENBSD
uint64_t time_of_wakeup_ns = get_absolute_time_in_ns() + time_to_wait_for_wakeup_ns;
uint64_t sec = time_of_wakeup_ns / 1000000000;
uint64_t nsec = time_of_wakeup_ns % 1000000000;
#endif
#ifdef COMPILE_FOR_OSX
uint64_t sec = time_to_wait_for_wakeup_ns / 1000000000;
uint64_t nsec = time_to_wait_for_wakeup_ns % 1000000000;
#endif
struct timespec time_to_wait;
time_to_wait.tv_sec = sec;
time_to_wait.tv_nsec = nsec;
while ((dacp_server.scan_enable == 0) && (result != ETIMEDOUT)) {
// debug(1, "dacp_monitor_thread_code wait for an event to possibly enable scan");
#ifdef COMPILE_FOR_LINUX_AND_FREEBSD_AND_CYGWIN_AND_OPENBSD
result = pthread_cond_timedwait(&dacp_server_information_cv, &dacp_server_information_lock,
&time_to_wait); // this is a pthread cancellation point
// debug(1, "result is %d, dacp_server.scan_enable is %d, time_to_wait_for_wakeup_ns is %"
// PRId64 ".", result, dacp_server.scan_enable, time_to_wait_for_wakeup_ns);
#endif
#ifdef COMPILE_FOR_OSX
result = pthread_cond_timedwait_relative_np(&dacp_server_information_cv,
&dacp_server_information_lock, &time_to_wait);
#endif
}
if (dacp_server.scan_enable == 1) {
bad_result_count = 0;
idle_scan_count = 0;
}
}
always_use_revision_number_1 =
dacp_server.always_use_revision_number_1; // set this while access is locked
result = dacp_get_volume(&the_volume); // just want the http code
pthread_cleanup_pop(1);
if (result == 490) { // 490 means no port was specified
if (((char *)dacp_server.dacp_id != NULL) && (strlen(dacp_server.dacp_id) != 0)) {
// debug(1,"mdns_dacp_monitor_set_id");
mdns_dacp_monitor_set_id(dacp_server.dacp_id);
}
} else {
scan_index++;
// debug(1,"DACP Scan Result: %d.", result);
if ((result == 200) || (result == 400)) {
bad_result_count = 0;
} else {
if (bad_result_count < config.scan_max_bad_response_count) // limit to some reasonable value
bad_result_count++;
}
// here, do the debouncing calculations to see
// if the dacp server and the
// advanced dacp server are available
// -1 means we don't know because some bad statuses have been reported
// 0 means definitely no
// +1 means definitely yes
int dacp_server_status_now = -1;
int advanced_dacp_server_status_now = -1;
if (bad_result_count == 0) {
dacp_server_status_now = 1;
if (result == 200)
advanced_dacp_server_status_now = 1;
else if (result == 400)
advanced_dacp_server_status_now = 0;
} else if (bad_result_count ==
config.scan_max_bad_response_count) { // if a sequence of bad return codes occurs,
// then it's gone
dacp_server_status_now = 0;
advanced_dacp_server_status_now = 0;
}
if (metadata_store.player_thread_active == 0)
idle_scan_count++;
else
idle_scan_count = 0;
debug(3, "Scan Result: %d, Bad Scan Count: %d, Idle Scan Count: %d.", result,
bad_result_count, idle_scan_count);
/* not used
// decide if idle for too long
if (idle_scan_count == config.scan_max_inactive_count) {
debug(2, "DACP server status scanning stopped.");
dacp_server.scan_enable = 0;
}
*/
int update_needed = 0;
metadata_hub_modify_prolog();
if (dacp_server_status_now != -1) { // if dacp_server_status_now is actually known...
if (metadata_store.dacp_server_active != dacp_server_status_now) {
debug(2, "metadata_store.dacp_server_active set to %d.", dacp_server_status_now);
metadata_store.dacp_server_active = dacp_server_status_now;
update_needed = 1;
}
}
if (advanced_dacp_server_status_now !=
-1) { // if advanced_dacp_server_status_now is actually known...
if (metadata_store.advanced_dacp_server_active != advanced_dacp_server_status_now) {
debug(2, "metadata_store.advanced_dacp_server_active set to %d.", dacp_server_status_now);
metadata_store.advanced_dacp_server_active = advanced_dacp_server_status_now;
update_needed = 1;
}
}
metadata_hub_modify_epilog(update_needed);
// pthread_mutex_unlock(&dacp_server_information_lock);
// debug(1, "DACP Server ID \"%u\" at \"%s:%u\", scan %d.", dacp_server.active_remote_id,
// dacp_server.ip_string, dacp_server.port, scan_index);
if (result == 200) {
metadata_hub_modify_prolog();
int diff = metadata_store.speaker_volume != the_volume;
if (diff)
metadata_store.speaker_volume = the_volume;
metadata_hub_modify_epilog(diff);
ssize_t le;
char *response = NULL;
int32_t item_size;
char command[1024] = "";
if (always_use_revision_number_1 != 0) // for forked-daapd
revision_number = 1;
snprintf(command, sizeof(command) - 1, "playstatusupdate?revision-number=%d",
revision_number);
// debug(1,"dacp_monitor_thread_code: command: \"%s\"",command);
result = dacp_send_command(command, &response, &le);
// debug(1,"Response to \"%s\" is %d.",command,result);
// remember: unless the revision_number you pass in is 1,
// response will be 200 only if there's something new to report.
if (result == 200) {
// if (0) {
char *sp = response;
if (le >= 8) {
// here start looking for the contents of the status update
if (dacp_tlv_crawl(&sp, &item_size) == 'cmst') { // status
// here, we know that we are receiving playerstatusupdates, so set a flag
metadata_hub_modify_prolog();
// debug(1, "playstatusupdate release track metadata");
// metadata_hub_reset_track_metadata();
// metadata_store.playerstatusupdates_are_received = 1;
sp -= item_size; // drop down into the array -- don't skip over it
le -= 8;
// char typestring[5];
// we need to acquire the metadata data structure and possibly update it
while (le >= 8) {
uint32_t type = dacp_tlv_crawl(&sp, &item_size);
le -= item_size + 8;
char *t;
// char u;
// char *st;
int32_t r;
uint32_t ui;
// uint64_t v;
// int i;
switch (type) {
case 'cmsr': // revision number
t = sp - item_size;
revision_number = ntohl(*(uint32_t *)(t));
// debug(1,"New revision number received: %d", revision_number);
break;
case 'caps': // play status
t = sp - item_size;
r = *(unsigned char *)(t);
switch (r) {
case 2:
if (metadata_store.play_status != PS_STOPPED) {
metadata_store.play_status = PS_STOPPED;
debug(2, "Play status is \"stopped\".");
}
break;
case 3:
if (metadata_store.play_status != PS_PAUSED) {
metadata_store.play_status = PS_PAUSED;
debug(2, "Play status is \"paused\".");
}
break;
case 4:
if (metadata_store.play_status != PS_PLAYING) {
metadata_store.play_status = PS_PLAYING;
debug(2, "Play status changed to \"playing\".");
}
break;
default:
debug(1, "Unrecognised play status %d received.", r);
break;
}
break;
case 'cash': // shuffle status
t = sp - item_size;
r = *(unsigned char *)(t);
switch (r) {
case 0:
if (metadata_store.shuffle_status != SS_OFF) {
metadata_store.shuffle_status = SS_OFF;
debug(2, "Shuffle status is \"off\".");
}
break;
case 1:
if (metadata_store.shuffle_status != SS_ON) {
metadata_store.shuffle_status = SS_ON;
debug(2, "Shuffle status is \"on\".");
}
break;
default:
debug(1, "Unrecognised shuffle status %d received.", r);
break;
}
break;
case 'carp': // repeat status
t = sp - item_size;
r = *(unsigned char *)(t);
switch (r) {
case 0:
if (metadata_store.repeat_status != RS_OFF) {
metadata_store.repeat_status = RS_OFF;
debug(2, "Repeat status is \"none\".");
}
break;
case 1:
if (metadata_store.repeat_status != RS_ONE) {
metadata_store.repeat_status = RS_ONE;
debug(2, "Repeat status is \"one\".");
}
break;
case 2:
if (metadata_store.repeat_status != RS_ALL) {
metadata_store.repeat_status = RS_ALL;
debug(2, "Repeat status is \"all\".");
}
break;
default:
debug(1, "Unrecognised repeat status %d received.", r);
break;
}
break;
case 'cann': // track name
debug(2, "DACP Track Name seen");
if (string_update_with_size(&metadata_store.track_name,
&metadata_store.track_name_changed, sp - item_size,
item_size)) {
debug(2, "DACP Track Name set to: \"%s\"", metadata_store.track_name);
}
break;
case 'cana': // artist name
debug(2, "DACP Artist Name seen");
if (string_update_with_size(&metadata_store.artist_name,
&metadata_store.artist_name_changed, sp - item_size,
item_size)) {
debug(2, "DACP Artist Name set to: \"%s\"", metadata_store.artist_name);
}
break;
case 'canl': // album name
debug(2, "DACP Album Name seen");
if (string_update_with_size(&metadata_store.album_name,
&metadata_store.album_name_changed, sp - item_size,
item_size)) {
debug(2, "DACP Album Name set to: \"%s\"", metadata_store.album_name);
}
break;
case 'cang': // genre
debug(2, "DACP Genre seen");
if (string_update_with_size(&metadata_store.genre, &metadata_store.genre_changed,
sp - item_size, item_size)) {
debug(2, "DACP Genre set to: \"%s\"", metadata_store.genre);
}
break;
case 'canp': // nowplaying 4 ids: dbid, plid, playlistItem, itemid (from mellowware
// see reference above)
debug(2, "DACP Composite ID seen");
if (memcmp(metadata_store.item_composite_id, sp - item_size,
sizeof(metadata_store.item_composite_id)) != 0) {
memcpy(metadata_store.item_composite_id, sp - item_size,
sizeof(metadata_store.item_composite_id));
char st[33];
char *pt = st;
int it;
for (it = 0; it < 16; it++) {
snprintf(pt, 3, "%02X", metadata_store.item_composite_id[it]);
pt += 2;
}
*pt = 0;
debug(2, "Item composite ID changed to 0x%s.", st);
metadata_store.item_composite_id_changed = 1;
}
break;
case 'astm':
t = sp - item_size;
ui = ntohl(*(uint32_t *)(t));
debug(2, "DACP Song Time seen: \"%u\" of length %u.", ui, item_size);
if (ui != metadata_store.songtime_in_milliseconds) {
metadata_store.songtime_in_milliseconds = ui;
metadata_store.songtime_in_milliseconds_changed = 1;
debug(2, "DACP Song Time set to: \"%u\"",
metadata_store.songtime_in_milliseconds);
}
break;
/*
case 'mstt':
case 'cant':
case 'cast':
case 'cmmk':
case 'caas':
case 'caar':
t = sp - item_size;
r = ntohl(*(uint32_t *)(t));
printf(" %d", r);
printf(" (0x");
t = sp - item_size;
for (i = 0; i < item_size; i++) {
printf("%02x", *t & 0xff);
t++;
}
printf(")");
break;
case 'asai':
t = sp - item_size;
s = ntohl(*(uint32_t *)(t));
s = s << 32;
t += 4;
v = (ntohl(*(uint32_t *)(t))) & 0xffffffff;
s += v;
printf(" %lu", s);
printf(" (0x");
t = sp - item_size;
for (i = 0; i < item_size; i++) {
printf("%02x", *t & 0xff);
t++;
}
printf(")");
break;
*/
default:
/*
printf(" 0x");
t = sp - item_size;
for (i = 0; i < item_size; i++) {
printf("%02x", *t & 0xff);
t++;
}
*/
break;
}
// printf("\n");
}
// finished possibly writing to the metadata hub
metadata_hub_modify_epilog(
1); // should really see if this can be made responsive to changes
} else {
debug(1, "Status Update not found.\n");
}
} else {
debug(1, "Can't find any content in playerstatusupdate request");
}
} /* else {
if (result != 403)
debug(1, "Unexpected response %d to playerstatusupdate request", result);
} */
if (response) {
free(response);
response = NULL;
};
};
/*
strcpy(command,"nowplayingartwork?mw=320&mh=320");
debug(1,"Command: \"%s\", result is %d",command, dacp_send_command(command, &response, &le));
if (response) {
free(response);
response = NULL;
}
strcpy(command,"getproperty?properties=dmcp.volume");
debug(1,"Command: \"%s\", result is %d",command, dacp_send_command(command, &response, &le));
if (response) {
free(response);
response = NULL;
}
strcpy(command,"setproperty?dmcp.volume=100.000000");
debug(1,"Command: \"%s\", result is %d",command, dacp_send_command(command, &response, &le));
if (response) {
free(response);
response = NULL;
}
*/
if (metadata_store.player_thread_active)
sleep(config.scan_interval_when_active);
else
sleep(config.scan_interval_when_inactive);
}
}
debug(1, "DACP monitor thread exiting -- should never happen.");
pthread_exit(NULL);
}
void dacp_monitor_start() {
int rc;
#ifdef COMPILE_FOR_LINUX_AND_FREEBSD_AND_CYGWIN_AND_OPENBSD
pthread_condattr_t attr;
pthread_condattr_init(&attr);
pthread_condattr_setclock(&attr, CLOCK_MONOTONIC); // can't do this in OS X, and don't need it.
rc = pthread_cond_init(&dacp_server_information_cv, &attr);
if (rc)
debug(1, "Error initialising the DACP Server Information Condition Variable");
pthread_condattr_destroy(&attr);
#endif
#ifdef COMPILE_FOR_OSX
rc = pthread_cond_init(&dacp_server_information_cv, NULL);
#endif
pthread_mutexattr_t mta;
rc = pthread_mutexattr_init(&mta);
if (rc)
debug(1, "Error creating the DACP Conversation Lock Mutex Att Init");
rc = pthread_mutexattr_settype(&mta, PTHREAD_MUTEX_ERRORCHECK);
if (rc)
debug(1, "Error creating the DACP Conversation Lock Mutex Errorcheck");
// rc = pthread_mutexattr_setname_np(&mta, "DACP Conversation Lock");
// if (rc)
// debug(1,"Error creating the DACP Conversation Lock Mutex Set Name");
rc = pthread_mutex_init(&dacp_conversation_lock, &mta);
if (rc)
debug(1, "Error creating the DACP Conversation Lock Mutex Init");
// else
// debug(1, "DACP Conversation Lock Mutex Init");
rc = pthread_mutexattr_destroy(&mta);
if (rc)
debug(1, "Error creating the DACP Conversation Lock Attr Destroy");
rc = pthread_mutexattr_init(&mta);
if (rc)
debug(1, "Error creating the DACP Server Information Lock Mutex Att Init");
rc = pthread_mutexattr_settype(&mta, PTHREAD_MUTEX_ERRORCHECK);
if (rc)
debug(1, "Error creating the DACP Server Information Lock Mutex Errorcheck");
// rc = pthread_mutexattr_setname_np(&mta, "DACP Conversation Lock");
// if (rc)
// debug(1,"Error creating the DACP Server Information Lock Mutex Set Name");
rc = pthread_mutex_init(&dacp_server_information_lock, &mta);
if (rc)
debug(1, "Error creating the DACP Server Information Lock Mutex Init");
rc = pthread_mutexattr_destroy(&mta);
if (rc)
debug(1, "Error creating the DACP Server Information Lock Attr Destroy");
memset(&dacp_server, 0, sizeof(dacp_server_record));
pthread_create(&dacp_monitor_thread, NULL, dacp_monitor_thread_code, NULL);
dacp_monitor_initialised = 1;
}
void dacp_monitor_stop() {
if (dacp_monitor_initialised) { // only if it's been started and initialised
debug(2, "dacp_monitor_stop");
pthread_cancel(dacp_monitor_thread);
pthread_join(dacp_monitor_thread, NULL);
pthread_mutex_destroy(&dacp_server_information_lock);
debug(3, "DACP Conversation Lock Mutex Destroyed");
pthread_mutex_destroy(&dacp_conversation_lock);
pthread_cond_destroy(&dacp_server_information_cv);
debug(3, "DACP Server Information Condition Variable destroyed.");
if (dacp_server.active_remote_id) {
free(dacp_server.active_remote_id);
dacp_server.active_remote_id = NULL;
}
}
}
uint32_t dacp_tlv_crawl(char **p, int32_t *length) {
char typecode[5];
memcpy(typecode, *p, 4);
typecode[4] = '\0';
uint32_t type = ntohl(*(uint32_t *)*p);
*p += 4;
*length = ntohl(*(uint32_t *)*p);
*p += 4 + *length;
// debug(1,"Type seen: '%s' of length %d",typecode,*length);
return type;
}
int dacp_get_client_volume(int32_t *result) {
// debug(1,"dacp_get_client_volume");
char *server_reply = NULL;
int32_t overall_volume = -1;
ssize_t reply_size;
// debug(1,"dacp_get_client_volume: dacp_send_command");
int response =
dacp_send_command("getproperty?properties=dmcp.volume", &server_reply, &reply_size);
if (response == 200) { // if we get an okay
char *sp = server_reply;
int32_t item_size;
if (reply_size >= 8) {
if (dacp_tlv_crawl(&sp, &item_size) == 'cmgt') {
sp -= item_size; // drop down into the array -- don't skip over it
reply_size -= 8;
while (reply_size >= 8) {
uint32_t type = dacp_tlv_crawl(&sp, &item_size);
reply_size -= item_size + 8;
if (type == 'cmvo') { // drop down into the dictionary -- don't skip over it
char *t = sp - item_size;
overall_volume = ntohl(*(uint32_t *)(t));
}
}
} else {
debug(1, "Unexpected payload response from getproperty?properties=dmcp.volume");
}
} else {
debug(1, "Too short a response from getproperty?properties=dmcp.volume");
}
// debug(1, "Overall Volume is %d.", overall_volume);
}
if (server_reply) {
// debug(1, "Freeing response memory.");
free(server_reply);
server_reply = NULL;
}
if (result) {
*result = overall_volume;
// debug(1,"dacp_get_client_volume returns: %" PRId32 ".",overall_volume);
}
return response;
}
int dacp_set_include_speaker_volume(int64_t machine_number, int32_t vo) {
debug(2, "dacp_set_include_speaker_volume to %" PRId32 ".", vo);
char message[1000];
memset(message, 0, sizeof(message));
snprintf(message, sizeof(message),
"setproperty?include-speaker-id=%" PRId64 "&dmcp.volume=%" PRId32 "", machine_number,
vo);
debug(2, "sending \"%s\"", message);
return send_simple_dacp_command(message);
// should return 204
}
int dacp_set_speaker_volume(int64_t machine_number, int32_t vo) {
char message[1000];
memset(message, 0, sizeof(message));
snprintf(message, sizeof(message), "setproperty?speaker-id=%" PRId64 "&dmcp.volume=%" PRId32 "",
machine_number, vo);
debug(2, "sending \"%s\"", message);
return send_simple_dacp_command(message);
// should return 204
}
int dacp_get_speaker_list(dacp_spkr_stuff *speaker_info, int max_size_of_array,
int *actual_speaker_count) {
// char typestring[5];
char *server_reply = NULL;
int speaker_index = -1; // will be incremented before use
int speaker_count = -1; // will be fixed if there is no problem
ssize_t le;
// debug(1,"dacp_speaker_list: dacp_send_command");
int response = dacp_send_command("getspeakers", &server_reply, &le);
if (response == 200) {
char *sp = server_reply;
int32_t item_size;
if (le >= 8) {
if (dacp_tlv_crawl(&sp, &item_size) == 'casp') {
// debug(1,"Speakers:",item_size);
sp -= item_size; // drop down into the array -- don't skip over it
le -= 8;
while (le >= 8) {
uint32_t type = dacp_tlv_crawl(&sp, &item_size);
if (type == 'mdcl') { // drop down into the dictionary -- don't skip over it
// debug(1,">>>> Dictionary:");
sp -= item_size;
le -= 8;
speaker_index++;
if (speaker_index == max_size_of_array) {
return 413; // Payload Too Large -- too many speakers
}
speaker_info[speaker_index].active = 0;
speaker_info[speaker_index].speaker_number = 0;
speaker_info[speaker_index].volume = 0;
speaker_info[speaker_index].name[0] = '\0';
} else {
le -= item_size + 8;
char *t;
// char u;
int32_t r;
int64_t s, v;
switch (type) {
case 'minm':
t = sp - item_size;
strncpy((char *)&speaker_info[speaker_index].name, t,
sizeof(speaker_info[speaker_index].name));
speaker_info[speaker_index].name[sizeof(speaker_info[speaker_index].name) - 1] =
'\0'; // just in case
break;
case 'cmvo':
t = sp - item_size;
r = ntohl(*(uint32_t *)(t));
speaker_info[speaker_index].volume = r;
// debug(1,"The individual volume of speaker \"%s\" is
// \"%d\".",speaker_info[speaker_index].name,r);
break;
case 'msma':
t = sp - item_size;
s = ntohl(*(uint32_t *)(t));
s = s << 32;
t += 4;
v = (ntohl(*(uint32_t *)(t))) & 0xffffffff;
s += v;
speaker_info[speaker_index].speaker_number = s;
// debug(1,"Speaker machine number: %ld",s);
break;
case 'caia':
speaker_info[speaker_index].active = 1;
break;
/*
case 'caip':
case 'cavd':
case 'caiv':
case 'cads':
*(uint32_t *)typestring = htonl(type);
typestring[4] = 0;
t = sp-item_size;
u = *t;
debug(1,"Type: '%s' Value: \"%d\".",typestring,u);
break;
*/
default:
break;
}
}
}
// debug(1,"Total of %d speakers found. Here are the active ones:",speaker_index+1);
speaker_count = speaker_index + 1; // number of speaker entries in the array
} else {
debug(1, "Speaker array not found.");
}
/*
int i;
for (i=0;i<le;i++) {
if (*sp < ' ')
debug(1,"%d %02x", i, *sp);
else
debug(1,"%d %02x '%c'", i, *sp,*sp);
sp++;
}
*/
} else {
debug(1, "Can't find any content in dacp speakers request");
}
free(server_reply);
server_reply = NULL;
} else {
// debug(1, "Unexpected response %d to dacp speakers request", response);
if (server_reply) {
debug(1, "Freeing response memory.");
free(server_reply);
server_reply = NULL;
}
}
if (actual_speaker_count)
*actual_speaker_count = speaker_count;
return response;
}
int dacp_get_volume(int32_t *the_actual_volume) {
// get the speaker volume information from the DACP source and store it in the metadata_hub
// A volume command has been sent from the client
// let's get the master volume from the DACP remote control
struct dacp_speaker_stuff speaker_info[50];
// we need the overall volume and the speakers information to get this device's relative volume to
// calculate the real volume
int32_t overall_volume = 0;
int32_t actual_volume = 0;
int http_response = dacp_get_client_volume(&overall_volume);
if (http_response == 200) {
// debug(1,"Overall volume is: %u.",overall_volume);
int speaker_count = 0;
http_response = dacp_get_speaker_list((dacp_spkr_stuff *)&speaker_info, 50, &speaker_count);
if (http_response == 200) {
// get our machine number
uint16_t *hn = (uint16_t *)config.hw_addr;
uint32_t *ln = (uint32_t *)(config.hw_addr + 2);
uint64_t t1 = ntohs(*hn);
uint64_t t2 = ntohl(*ln);
int64_t machine_number = (t1 << 32) + t2; // this form is useful
// Let's find our own speaker in the array and pick up its relative volume
int i;
int32_t relative_volume = 0;
for (i = 0; i < speaker_count; i++) {
if (speaker_info[i].speaker_number == machine_number) {
relative_volume = speaker_info[i].volume;
/*
debug(1,"Our speaker was found with a relative volume of: %u.",relative_volume);
if (speaker_info[i].active)
debug(1,"Our speaker is active.");
else
debug(1,"Our speaker is inactive.");
*/
}
}
actual_volume = (overall_volume * relative_volume + 50) / 100;
// debug(1,"Overall volume: %d, relative volume: %d%, actual volume:
// %d.",overall_volume,relative_volume,actual_volume);
// debug(1,"Our actual speaker volume is %d.",actual_volume);
// metadata_hub_modify_prolog();
// metadata_store.speaker_volume = actual_volume;
// metadata_hub_modify_epilog(1);
} else {
debug(2, "Unexpected return code %d from dacp_get_speaker_list.", http_response);
}
} else if ((http_response != 400) && (http_response != 490)) {
debug(3, "Unexpected return code %d from dacp_get_client_volume.", http_response);
}
if (the_actual_volume) {
// debug(1,"dacp_get_volume returns %d.",actual_volume);
*the_actual_volume = actual_volume;
}
return http_response;
}
int dacp_set_volume(int32_t vo) {
int http_response = 492; // argument out of range
if ((vo >= 0) && (vo <= 100)) {
// get the information we need -- the absolute volume, the speaker list, our ID
struct dacp_speaker_stuff speaker_info[50];
int32_t overall_volume;
http_response = dacp_get_client_volume(&overall_volume);
if (http_response == 200) {
int speaker_count;
http_response = dacp_get_speaker_list((dacp_spkr_stuff *)&speaker_info, 50, &speaker_count);
if (http_response == 200) {
// get our machine number
uint16_t *hn = (uint16_t *)config.hw_addr;
uint32_t *ln = (uint32_t *)(config.hw_addr + 2);
uint64_t t1 = ntohs(*hn);
uint64_t t2 = ntohl(*ln);
int64_t machine_number = (t1 << 32) + t2; // this form is useful
// Let's find our own speaker in the array and pick up its relative volume
int i;
int32_t active_speakers = 0;
for (i = 0; i < speaker_count; i++) {
if (speaker_info[i].speaker_number == machine_number) {
debug(2, "Our speaker number found: %ld with relative volume.", machine_number,
speaker_info[i].volume);
}
if (speaker_info[i].active == 1) {
active_speakers++;
}
}
if (active_speakers == 1) {
// must be just this speaker
debug(2, "Remote-setting volume to %d on just one speaker.", vo);
http_response = dacp_set_include_speaker_volume(machine_number, vo);
} else if (active_speakers == 0) {
debug(2, "No speakers!");
} else {
debug(2, "Speakers: %d, active: %d", speaker_count, active_speakers);
if (vo >= overall_volume) {
debug(2, "Multiple speakers active, but desired new volume is highest");
http_response = dacp_set_include_speaker_volume(machine_number, vo);
} else {
// the desired volume is less than the current overall volume and there is more than
// one
// speaker
// we must find out the highest other speaker volume.
// If the desired volume is less than it, we must set the current_overall volume to
// that
// highest volume
// and set our volume relative to it.
// If the desired volume is greater than the highest current volume, then we can just
// go
// ahead
// with dacp_set_include_speaker_volume, setting the new current overall volume to the
// desired new level
// with the speaker at 100%
int32_t highest_other_volume = 0;
for (i = 0; i < speaker_count; i++) {
if ((speaker_info[i].speaker_number != machine_number) &&
(speaker_info[i].active == 1) &&
(speaker_info[i].volume > highest_other_volume)) {
highest_other_volume = speaker_info[i].volume;
}
}
highest_other_volume = (highest_other_volume * overall_volume + 50) / 100;
if (highest_other_volume <= vo) {
debug(2,
"Highest other volume %d is less than or equal to the desired new volume %d.",
highest_other_volume, vo);
http_response = dacp_set_include_speaker_volume(machine_number, vo);
} else {
debug(2, "Highest other volume %d is greater than the desired new volume %d.",
highest_other_volume, vo);
// if the present overall volume is higher than the highest other volume at present,
// then bring it down to it.
if (overall_volume > highest_other_volume) {
debug(2, "Lower overall volume to new highest volume.");
http_response = dacp_set_include_speaker_volume(
machine_number,
highest_other_volume); // set the overall volume to the highest one
}
int32_t desired_relative_volume =
(vo * 100 + (highest_other_volume / 2)) / highest_other_volume;
debug(2, "Set our speaker volume relative to the highest volume.");
http_response = dacp_set_speaker_volume(
machine_number,
desired_relative_volume); // set the overall volume to the highest one
}
}
}
} else {
debug(2, "Can't get speakers list");
}
} else {
debug(2, "Can't get client volume");
}
} else {
debug(2, "Invalid volume: %d -- ignored.", vo);
}
return http_response;
}
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