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pipewire/spa/plugins/bluez5/bluez5-dbus.c

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/* Spa V4l2 dbus
*
* Copyright © 2018 Wim Taymans
*
* 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 (including the next
* paragraph) 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 <errno.h>
#include <stddef.h>
#include <unistd.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <fcntl.h>
#include <bluetooth/bluetooth.h>
#include <dbus/dbus.h>
#include <spa/support/log.h>
#include <spa/support/loop.h>
#include <spa/support/dbus.h>
#include <spa/support/plugin.h>
#include <spa/monitor/device.h>
#include <spa/monitor/utils.h>
#include <spa/utils/hook.h>
#include <spa/utils/type.h>
#include <spa/utils/keys.h>
#include <spa/utils/names.h>
#include <spa/utils/result.h>
#include <spa/utils/string.h>
#include <spa/utils/json.h>
#include "a2dp-codecs.h"
#include "defs.h"
#define NAME "bluez5-monitor"
struct spa_bt_monitor {
struct spa_handle handle;
struct spa_device device;
struct spa_log *log;
struct spa_loop *main_loop;
struct spa_system *main_system;
struct spa_dbus *dbus;
struct spa_dbus_connection *dbus_connection;
DBusConnection *conn;
struct spa_hook_list hooks;
uint32_t id;
/*
* Lists of BlueZ objects, kept up-to-date by following DBus events
* initiated by BlueZ. Object lifetime is also determined by that.
*/
struct spa_list adapter_list;
struct spa_list device_list;
struct spa_list remote_endpoint_list;
struct spa_list transport_list;
unsigned int filters_added:1;
unsigned int objects_listed:1;
struct spa_bt_backend *backend_native;
struct spa_bt_backend *backend_ofono;
struct spa_bt_backend *backend_hsphfpd;
struct spa_dict enabled_codecs;
unsigned int connection_info_supported:1;
struct spa_bt_quirks *quirks;
unsigned int enable_sbc_xq:1;
unsigned int backend_native_registered:1;
unsigned int backend_ofono_registered:1;
unsigned int backend_hsphfpd_registered:1;
/* A reference audio info for A2DP codec configuration. */
struct a2dp_codec_audio_info default_audio_info;
};
/* Stream endpoints owned by BlueZ for each device */
struct spa_bt_remote_endpoint {
struct spa_list link;
struct spa_list device_link;
struct spa_bt_monitor *monitor;
char *path;
char *uuid;
unsigned int codec;
struct spa_bt_device *device;
uint8_t *capabilities;
int capabilities_len;
bool delay_reporting;
};
/*
* Codec switching tries various codec/remote endpoint combinations
* in order, until an acceptable one is found. This triggers BlueZ
* to initiate DBus calls that result to the creation of a transport
* with the desired capabilities.
* The codec switch struct tracks candidates still to be tried.
*/
struct spa_bt_a2dp_codec_switch {
struct spa_bt_device *device;
struct spa_list device_link;
DBusPendingCall *pending;
uint32_t profile;
/*
* Called asynchronously, so endpoint paths instead of pointers (which may be
* invalidated in the meantime).
*/
const struct a2dp_codec **codecs;
char **paths;
const struct a2dp_codec **codec_iter; /**< outer iterator over codecs */
char **path_iter; /**< inner iterator over endpoint paths */
size_t num_paths;
};
#define DEFAULT_RECONNECT_PROFILES SPA_BT_PROFILE_NULL
#define DEFAULT_HW_VOLUME_PROFILES (SPA_BT_PROFILE_HEADSET_AUDIO_GATEWAY | SPA_BT_PROFILE_HEADSET_HEAD_UNIT | \
SPA_BT_PROFILE_A2DP_SOURCE | SPA_BT_PROFILE_A2DP_SINK)
#define BT_DEVICE_DISCONNECTED 0
#define BT_DEVICE_CONNECTED 1
#define BT_DEVICE_INIT -1
/*
* SCO socket connect may fail with ECONNABORTED if it is done too soon after
* previous close. To avoid this in cases where nodes are toggled between
* stopped/started rapidly, postpone release until the transport has remained
* unused for a time. Since this appears common to multiple SCO backends, we do
* it for all SCO backends here.
*/
#define SCO_TRANSPORT_RELEASE_TIMEOUT_MSEC 1000
#define SPA_BT_TRANSPORT_IS_SCO(transport) (transport->backend != NULL)
#define TRANSPORT_VOLUME_TIMEOUT_MSEC 200
static int spa_bt_transport_stop_volume_timer(struct spa_bt_transport *transport);
static int spa_bt_transport_start_volume_timer(struct spa_bt_transport *transport);
static int spa_bt_transport_stop_release_timer(struct spa_bt_transport *transport);
static int spa_bt_transport_start_release_timer(struct spa_bt_transport *transport);
static int device_start_timer(struct spa_bt_device *device);
static int device_stop_timer(struct spa_bt_device *device);
// Working with BlueZ Battery Provider.
// Developed using https://github.com/dgreid/adhd/commit/655b58f as an example of DBus calls.
// Name of battery, formatted as /org/freedesktop/pipewire/battery/org/bluez/hciX/dev_XX_XX_XX_XX_XX_XX
static char *battery_get_name(const char *device_path)
{
char *path = malloc(strlen(PIPEWIRE_BATTERY_PROVIDER) + strlen(device_path) + 1);
sprintf(path, PIPEWIRE_BATTERY_PROVIDER "%s", device_path);
return path;
}
// Unregister virtual battery of device
static void battery_remove(struct spa_bt_device *device) {
DBusMessageIter i, entry;
DBusMessage *m;
const char *interface;
if (device->battery_pending_call) {
spa_log_debug(device->monitor->log, "Cancelling and freeing pending battery provider register call");
dbus_pending_call_cancel(device->battery_pending_call);
dbus_pending_call_unref(device->battery_pending_call);
device->battery_pending_call = NULL;
}
if (!device->adapter->has_battery_provider || !device->has_battery)
return;
spa_log_debug(device->monitor->log, NAME": Removing virtual battery: %s", device->battery_path);
m = dbus_message_new_signal(PIPEWIRE_BATTERY_PROVIDER,
DBUS_INTERFACE_OBJECT_MANAGER,
DBUS_SIGNAL_INTERFACES_REMOVED);
dbus_message_iter_init_append(m, &i);
dbus_message_iter_append_basic(&i, DBUS_TYPE_OBJECT_PATH,
&device->battery_path);
dbus_message_iter_open_container(&i, DBUS_TYPE_ARRAY,
DBUS_TYPE_STRING_AS_STRING, &entry);
interface = BLUEZ_INTERFACE_BATTERY_PROVIDER;
dbus_message_iter_append_basic(&entry, DBUS_TYPE_STRING,
&interface);
dbus_message_iter_close_container(&i, &entry);
if (!dbus_connection_send(device->monitor->conn, m, NULL)) {
spa_log_error(device->monitor->log, NAME": sending " DBUS_SIGNAL_INTERFACES_REMOVED " failed");
}
dbus_message_unref(m);
device->has_battery = false;
}
// Create properties for Battery Provider request
static void battery_write_properties(DBusMessageIter *iter, struct spa_bt_device *device)
{
DBusMessageIter dict, entry, variant;
dbus_message_iter_open_container(iter, DBUS_TYPE_ARRAY, "{sv}", &dict);
dbus_message_iter_open_container(&dict, DBUS_TYPE_DICT_ENTRY, NULL,
&entry);
const char *prop_percentage = "Percentage";
dbus_message_iter_append_basic(&entry, DBUS_TYPE_STRING, &prop_percentage);
dbus_message_iter_open_container(&entry, DBUS_TYPE_VARIANT,
DBUS_TYPE_BYTE_AS_STRING, &variant);
dbus_message_iter_append_basic(&variant, DBUS_TYPE_BYTE, &device->battery);
dbus_message_iter_close_container(&entry, &variant);
dbus_message_iter_close_container(&dict, &entry);
dbus_message_iter_open_container(&dict, DBUS_TYPE_DICT_ENTRY, NULL, &entry);
const char *prop_device = "Device";
dbus_message_iter_append_basic(&entry, DBUS_TYPE_STRING, &prop_device);
dbus_message_iter_open_container(&entry, DBUS_TYPE_VARIANT,
DBUS_TYPE_OBJECT_PATH_AS_STRING,
&variant);
dbus_message_iter_append_basic(&variant, DBUS_TYPE_OBJECT_PATH, &device->path);
dbus_message_iter_close_container(&entry, &variant);
dbus_message_iter_close_container(&dict, &entry);
dbus_message_iter_close_container(iter, &dict);
}
// Send current percentage to BlueZ
static void battery_update(struct spa_bt_device *device)
{
spa_log_debug(device->monitor->log, NAME": updating battery: %s", device->battery_path);
DBusMessage *msg;
DBusMessageIter iter;
msg = dbus_message_new_signal(device->battery_path,
DBUS_INTERFACE_PROPERTIES,
DBUS_SIGNAL_PROPERTIES_CHANGED);
dbus_message_iter_init_append(msg, &iter);
const char *interface = BLUEZ_INTERFACE_BATTERY_PROVIDER;
dbus_message_iter_append_basic(&iter, DBUS_TYPE_STRING,
&interface);
battery_write_properties(&iter, device);
if (!dbus_connection_send(device->monitor->conn, msg, NULL))
spa_log_error(device->monitor->log, NAME": Error updating battery");
dbus_message_unref(msg);
}
// Create new virtual battery with value stored in current device object
static void battery_create(struct spa_bt_device *device) {
DBusMessage *msg;
DBusMessageIter iter, entry, dict;
msg = dbus_message_new_signal(PIPEWIRE_BATTERY_PROVIDER,
DBUS_INTERFACE_OBJECT_MANAGER,
DBUS_SIGNAL_INTERFACES_ADDED);
dbus_message_iter_init_append(msg, &iter);
dbus_message_iter_append_basic(&iter, DBUS_TYPE_OBJECT_PATH,
&device->battery_path);
dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, "{sa{sv}}", &dict);
dbus_message_iter_open_container(&dict, DBUS_TYPE_DICT_ENTRY, NULL, &entry);
const char *interface = BLUEZ_INTERFACE_BATTERY_PROVIDER;
dbus_message_iter_append_basic(&entry, DBUS_TYPE_STRING,
&interface);
battery_write_properties(&entry, device);
dbus_message_iter_close_container(&dict, &entry);
dbus_message_iter_close_container(&iter, &dict);
if (!dbus_connection_send(device->monitor->conn, msg, NULL)) {
spa_log_error(device->monitor->log, NAME": Failed to create virtual battery for %s", device->address);
return;
}
dbus_message_unref(msg);
spa_log_debug(device->monitor->log, NAME": Created virtual battery for %s", device->address);
device->has_battery = true;
}
static void on_battery_provider_registered(DBusPendingCall *pending_call,
void *data)
{
DBusMessage *reply;
struct spa_bt_device *device = data;
reply = dbus_pending_call_steal_reply(pending_call);
dbus_pending_call_unref(pending_call);
device->battery_pending_call = NULL;
if (dbus_message_get_type(reply) == DBUS_MESSAGE_TYPE_ERROR) {
spa_log_error(device->monitor->log, NAME": Failed to register battery provider. Error: %s", dbus_message_get_error_name(reply));
spa_log_error(device->monitor->log, NAME": BlueZ Battery Provider is not available, won't retry to register it. Make sure you are running BlueZ 5.56+ with experimental features to use Battery Provider.");
device->adapter->battery_provider_unavailable = true;
dbus_message_unref(reply);
return;
}
spa_log_debug(device->monitor->log, NAME": Registered Battery Provider");
device->adapter->has_battery_provider = true;
if (!device->has_battery)
battery_create(device);
dbus_message_unref(reply);
}
// Register Battery Provider for adapter and then create virtual battery for device
static void register_battery_provider(struct spa_bt_device *device)
{
DBusMessage *method_call;
DBusMessageIter message_iter;
if (device->battery_pending_call) {
spa_log_debug(device->monitor->log, NAME": Already registering battery provider");
return;
}
method_call = dbus_message_new_method_call(
BLUEZ_SERVICE, device->adapter_path,
BLUEZ_INTERFACE_BATTERY_PROVIDER_MANAGER,
"RegisterBatteryProvider");
if (!method_call) {
spa_log_error(device->monitor->log, NAME": Failed to register battery provider");
return;
}
dbus_message_iter_init_append(method_call, &message_iter);
const char *object_path = PIPEWIRE_BATTERY_PROVIDER;
dbus_message_iter_append_basic(&message_iter, DBUS_TYPE_OBJECT_PATH,
&object_path);
if (!dbus_connection_send_with_reply(device->monitor->conn, method_call, &device->battery_pending_call,
DBUS_TIMEOUT_USE_DEFAULT)) {
dbus_message_unref(method_call);
spa_log_error(device->monitor->log, NAME": Failed to register battery provider");
return;
}
dbus_message_unref(method_call);
if (!device->battery_pending_call) {
spa_log_error(device->monitor->log, NAME": Failed to register battery provider");
return;
}
if (!dbus_pending_call_set_notify(
device->battery_pending_call, on_battery_provider_registered,
device, NULL)) {
spa_log_error(device->monitor->log, "Failed to register battery provider");
dbus_pending_call_cancel(device->battery_pending_call);
dbus_pending_call_unref(device->battery_pending_call);
device->battery_pending_call = NULL;
}
}
static inline void add_dict(struct spa_pod_builder *builder, const char *key, const char *val)
{
spa_pod_builder_string(builder, key);
spa_pod_builder_string(builder, val);
}
static int a2dp_codec_to_endpoint(const struct a2dp_codec *codec,
const char * endpoint,
char** object_path)
{
*object_path = spa_aprintf("%s/%s", endpoint, codec->name);
if (*object_path == NULL)
return -errno;
return 0;
}
static const struct a2dp_codec *a2dp_endpoint_to_codec(const char *endpoint)
{
const char *codec_name;
int i;
if (strstr(endpoint, A2DP_SINK_ENDPOINT "/") == endpoint)
codec_name = endpoint + strlen(A2DP_SINK_ENDPOINT "/");
else if (strstr(endpoint, A2DP_SOURCE_ENDPOINT "/") == endpoint)
codec_name = endpoint + strlen(A2DP_SOURCE_ENDPOINT "/");
else
return NULL;
for (i = 0; a2dp_codecs[i]; i++) {
const struct a2dp_codec *codec = a2dp_codecs[i];
if (spa_streq(codec->name, codec_name))
return codec;
}
return NULL;
}
static int a2dp_endpoint_to_profile(const char *endpoint)
{
if (strstr(endpoint, A2DP_SINK_ENDPOINT "/") == endpoint)
return SPA_BT_PROFILE_A2DP_SOURCE;
else if (strstr(endpoint, A2DP_SOURCE_ENDPOINT "/") == endpoint)
return SPA_BT_PROFILE_A2DP_SINK;
else
return SPA_BT_PROFILE_NULL;
}
static bool is_a2dp_codec_enabled(struct spa_bt_monitor *monitor, const struct a2dp_codec *codec)
{
if (!monitor->enable_sbc_xq && codec->feature_flag != NULL &&
spa_streq(codec->feature_flag, "sbc-xq"))
return false;
return spa_dict_lookup(&monitor->enabled_codecs, codec->name) != NULL;
}
static DBusHandlerResult endpoint_select_configuration(DBusConnection *conn, DBusMessage *m, void *userdata)
{
struct spa_bt_monitor *monitor = userdata;
const char *path;
uint8_t *cap, config[A2DP_MAX_CAPS_SIZE];
uint8_t *pconf = (uint8_t *) config;
DBusMessage *r;
DBusError err;
int i, size, res;
const struct a2dp_codec *codec;
dbus_error_init(&err);
path = dbus_message_get_path(m);
if (!dbus_message_get_args(m, &err, DBUS_TYPE_ARRAY,
DBUS_TYPE_BYTE, &cap, &size, DBUS_TYPE_INVALID)) {
spa_log_error(monitor->log, "Endpoint SelectConfiguration(): %s", err.message);
dbus_error_free(&err);
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
spa_log_info(monitor->log, "%p: %s select conf %d", monitor, path, size);
for (i = 0; i < size; i++)
spa_log_debug(monitor->log, " %d: %02x", i, cap[i]);
codec = a2dp_endpoint_to_codec(path);
if (codec != NULL)
/* FIXME: We can't determine which device the SelectConfiguration()
* call is associated with, therefore device settings are not passed.
* This causes inconsistency with SelectConfiguration() triggered
* by codec switching.
*/
res = codec->select_config(codec, 0, cap, size, &monitor->default_audio_info, NULL, config);
else
res = -ENOTSUP;
if (res < 0 || res != size) {
spa_log_error(monitor->log, "can't select config: %d (%s)",
res, spa_strerror(res));
if ((r = dbus_message_new_error(m, "org.bluez.Error.InvalidArguments",
"Unable to select configuration")) == NULL)
return DBUS_HANDLER_RESULT_NEED_MEMORY;
goto exit_send;
}
for (i = 0; i < size; i++)
spa_log_debug(monitor->log, " %d: %02x", i, pconf[i]);
if ((r = dbus_message_new_method_return(m)) == NULL)
return DBUS_HANDLER_RESULT_NEED_MEMORY;
if (!dbus_message_append_args(r, DBUS_TYPE_ARRAY,
DBUS_TYPE_BYTE, &pconf, size, DBUS_TYPE_INVALID))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
exit_send:
if (!dbus_connection_send(conn, r, NULL))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
dbus_message_unref(r);
return DBUS_HANDLER_RESULT_HANDLED;
}
static struct spa_bt_adapter *adapter_find(struct spa_bt_monitor *monitor, const char *path)
{
struct spa_bt_adapter *d;
spa_list_for_each(d, &monitor->adapter_list, link)
if (spa_streq(d->path, path))
return d;
return NULL;
}
static bool check_iter_signature(DBusMessageIter *it, const char *sig)
{
char *v;
bool res;
v = dbus_message_iter_get_signature(it);
res = spa_streq(v, sig);
dbus_free(v);
return res;
}
static int parse_modalias(const char *modalias, uint16_t *source, uint16_t *vendor,
uint16_t *product, uint16_t *version)
{
char *pos;
unsigned int src, i, j, k;
if (strncmp(modalias, "bluetooth:", strlen("bluetooth:")) == 0)
src = SOURCE_ID_BLUETOOTH;
else if (strncmp(modalias, "usb:", strlen("usb:")) == 0)
src = SOURCE_ID_USB;
else
return -EINVAL;
pos = strchr(modalias, ':');
if (pos == NULL)
return -EINVAL;
if (sscanf(pos + 1, "v%04Xp%04Xd%04X", &i, &j, &k) != 3)
return -EINVAL;
/* Ignore BlueZ placeholder value */
if (src == SOURCE_ID_USB && i == 0x1d6b && j == 0x0246)
return -ENXIO;
*source = src;
*vendor = i;
*product = j;
*version = k;
return 0;
}
static int adapter_update_props(struct spa_bt_adapter *adapter,
DBusMessageIter *props_iter,
DBusMessageIter *invalidated_iter)
{
struct spa_bt_monitor *monitor = adapter->monitor;
while (dbus_message_iter_get_arg_type(props_iter) != DBUS_TYPE_INVALID) {
DBusMessageIter it[2];
const char *key;
int type;
dbus_message_iter_recurse(props_iter, &it[0]);
dbus_message_iter_get_basic(&it[0], &key);
dbus_message_iter_next(&it[0]);
dbus_message_iter_recurse(&it[0], &it[1]);
type = dbus_message_iter_get_arg_type(&it[1]);
if (type == DBUS_TYPE_STRING || type == DBUS_TYPE_OBJECT_PATH) {
const char *value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "adapter %p: %s=%s", adapter, key, value);
if (spa_streq(key, "Alias")) {
free(adapter->alias);
adapter->alias = strdup(value);
}
else if (spa_streq(key, "Name")) {
free(adapter->name);
adapter->name = strdup(value);
}
else if (spa_streq(key, "Address")) {
free(adapter->address);
adapter->address = strdup(value);
}
else if (spa_streq(key, "Modalias")) {
int ret;
ret = parse_modalias(value, &adapter->source_id, &adapter->vendor_id,
&adapter->product_id, &adapter->version_id);
if (ret < 0)
spa_log_debug(monitor->log, "adapter %p: %s=%s ignored: %s",
adapter, key, value, spa_strerror(ret));
}
}
else if (type == DBUS_TYPE_UINT32) {
uint32_t value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "adapter %p: %s=%d", adapter, key, value);
if (spa_streq(key, "Class"))
adapter->bluetooth_class = value;
}
else if (type == DBUS_TYPE_BOOLEAN) {
int value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "adapter %p: %s=%d", adapter, key, value);
if (spa_streq(key, "Powered")) {
adapter->powered = value;
}
}
else if (spa_streq(key, "UUIDs")) {
DBusMessageIter iter;
if (!check_iter_signature(&it[1], "as"))
goto next;
dbus_message_iter_recurse(&it[1], &iter);
while (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_INVALID) {
const char *uuid;
enum spa_bt_profile profile;
dbus_message_iter_get_basic(&iter, &uuid);
profile = spa_bt_profile_from_uuid(uuid);
if (profile && (adapter->profiles & profile) == 0) {
spa_log_debug(monitor->log, "adapter %p: add UUID=%s", adapter, uuid);
adapter->profiles |= profile;
}
dbus_message_iter_next(&iter);
}
}
else
spa_log_debug(monitor->log, "adapter %p: unhandled key %s", adapter, key);
next:
dbus_message_iter_next(props_iter);
}
return 0;
}
static int adapter_init_bus_type(struct spa_bt_monitor *monitor, struct spa_bt_adapter *d)
{
char path[1024], buf[1024];
const char *str;
ssize_t res = -EINVAL;
d->bus_type = BUS_TYPE_OTHER;
str = strrchr(d->path, '/'); /* hciXX */
if (str == NULL)
return -ENOENT;
snprintf(path, sizeof(path), "/sys/class/bluetooth/%s/device/subsystem", str);
if ((res = readlink(path, buf, sizeof(buf)-1)) < 0)
return -errno;
buf[res] = '\0';
str = strrchr(buf, '/');
if (str && spa_streq(str, "/usb"))
d->bus_type = BUS_TYPE_USB;
return 0;
}
static int adapter_init_modalias(struct spa_bt_monitor *monitor, struct spa_bt_adapter *d)
{
char path[1024];
FILE *f = NULL;
int vendor_id, product_id;
const char *str;
int res = -EINVAL;
/* Lookup vendor/product id for the device, if present */
str = strrchr(d->path, '/'); /* hciXX */
if (str == NULL)
goto fail;
snprintf(path, sizeof(path), "/sys/class/bluetooth/%s/device/modalias", str);
if ((f = fopen(path, "rb")) == NULL) {
res = -errno;
goto fail;
}
if (fscanf(f, "usb:v%04Xp%04X", &vendor_id, &product_id) != 2)
goto fail;
d->source_id = SOURCE_ID_USB;
d->vendor_id = vendor_id;
d->product_id = product_id;
fclose(f);
spa_log_debug(monitor->log, "adapter %p: usb vendor:%04x product:%04x",
d, vendor_id, product_id);
return 0;
fail:
if (f)
fclose(f);
return res;
}
static struct spa_bt_adapter *adapter_create(struct spa_bt_monitor *monitor, const char *path)
{
struct spa_bt_adapter *d;
d = calloc(1, sizeof(struct spa_bt_adapter));
if (d == NULL)
return NULL;
d->monitor = monitor;
d->path = strdup(path);
spa_list_prepend(&monitor->adapter_list, &d->link);
adapter_init_bus_type(monitor, d);
adapter_init_modalias(monitor, d);
return d;
}
static void adapter_free(struct spa_bt_adapter *adapter)
{
struct spa_bt_monitor *monitor = adapter->monitor;
spa_log_debug(monitor->log, "%p", adapter);
spa_list_remove(&adapter->link);
free(adapter->alias);
free(adapter->name);
free(adapter->address);
free(adapter->path);
free(adapter);
}
struct spa_bt_device *spa_bt_device_find(struct spa_bt_monitor *monitor, const char *path)
{
struct spa_bt_device *d;
spa_list_for_each(d, &monitor->device_list, link)
if (spa_streq(d->path, path))
return d;
return NULL;
}
struct spa_bt_device *spa_bt_device_find_by_address(struct spa_bt_monitor *monitor, const char *remote_address, const char *local_address)
{
struct spa_bt_device *d;
spa_list_for_each(d, &monitor->device_list, link)
if (spa_streq(d->address, remote_address) && spa_streq(d->adapter->address, local_address))
return d;
return NULL;
}
static struct spa_bt_device *device_create(struct spa_bt_monitor *monitor, const char *path)
{
struct spa_bt_device *d;
d = calloc(1, sizeof(struct spa_bt_device));
if (d == NULL)
return NULL;
d->id = monitor->id++;
d->monitor = monitor;
d->path = strdup(path);
d->battery_path = battery_get_name(d->path);
d->reconnect_profiles = DEFAULT_RECONNECT_PROFILES;
d->hw_volume_profiles = DEFAULT_HW_VOLUME_PROFILES;
spa_list_init(&d->remote_endpoint_list);
spa_list_init(&d->transport_list);
spa_list_init(&d->codec_switch_list);
spa_hook_list_init(&d->listener_list);
spa_list_prepend(&monitor->device_list, &d->link);
return d;
}
static int device_stop_timer(struct spa_bt_device *device);
static void a2dp_codec_switch_free(struct spa_bt_a2dp_codec_switch *sw);
static void device_clear_sub(struct spa_bt_device *device)
{
battery_remove(device);
spa_bt_device_release_transports(device);
}
static void device_free(struct spa_bt_device *device)
{
struct spa_bt_remote_endpoint *ep, *tep;
struct spa_bt_a2dp_codec_switch *sw;
struct spa_bt_transport *t, *tt;
struct spa_bt_monitor *monitor = device->monitor;
spa_log_debug(monitor->log, "%p", device);
spa_bt_device_emit_destroy(device);
device_clear_sub(device);
device_stop_timer(device);
if (device->added) {
spa_device_emit_object_info(&monitor->hooks, device->id, NULL);
}
spa_list_for_each_safe(ep, tep, &device->remote_endpoint_list, device_link) {
if (ep->device == device) {
spa_list_remove(&ep->device_link);
ep->device = NULL;
}
}
spa_list_for_each_safe(t, tt, &device->transport_list, device_link) {
if (t->device == device) {
spa_list_remove(&t->device_link);
t->device = NULL;
}
}
spa_list_consume(sw, &device->codec_switch_list, device_link)
a2dp_codec_switch_free(sw);
spa_list_remove(&device->link);
free(device->path);
free(device->alias);
free(device->address);
free(device->adapter_path);
free(device->battery_path);
free(device->name);
free(device->icon);
free(device);
}
int spa_bt_format_vendor_product_id(uint16_t source_id, uint16_t vendor_id, uint16_t product_id,
char *vendor_str, int vendor_str_size, char *product_str, int product_str_size)
{
char *source_str;
switch (source_id) {
case SOURCE_ID_USB:
source_str = "usb";
break;
case SOURCE_ID_BLUETOOTH:
source_str = "bluetooth";
break;
default:
return -EINVAL;
}
spa_scnprintf(vendor_str, vendor_str_size, "%s:%04x", source_str, (unsigned int)vendor_id);
spa_scnprintf(product_str, product_str_size, "%04x", (unsigned int)product_id);
return 0;
}
static void emit_device_info(struct spa_bt_monitor *monitor,
struct spa_bt_device *device, bool with_connection)
{
struct spa_device_object_info info;
char dev[32], name[128], class[16], vendor_id[64], product_id[64], product_id_tot[67];
struct spa_dict_item items[23];
uint32_t n_items = 0;
info = SPA_DEVICE_OBJECT_INFO_INIT();
info.type = SPA_TYPE_INTERFACE_Device;
info.factory_name = SPA_NAME_API_BLUEZ5_DEVICE;
info.change_mask = SPA_DEVICE_OBJECT_CHANGE_MASK_FLAGS |
SPA_DEVICE_OBJECT_CHANGE_MASK_PROPS;
info.flags = 0;
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_API, "bluez5");
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_BUS, "bluetooth");
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_MEDIA_CLASS, "Audio/Device");
snprintf(name, sizeof(name), "bluez_card.%s", device->address);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_NAME, name);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_DESCRIPTION, device->alias);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_ALIAS, device->name);
if (spa_bt_format_vendor_product_id(
device->source_id, device->vendor_id, device->product_id,
vendor_id, sizeof(vendor_id), product_id, sizeof(product_id)) == 0) {
snprintf(product_id_tot, sizeof(product_id_tot), "0x%s", product_id);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_VENDOR_ID, vendor_id);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_PRODUCT_ID, product_id_tot);
}
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_FORM_FACTOR,
spa_bt_form_factor_name(
spa_bt_form_factor_from_class(device->bluetooth_class)));
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_DEVICE_STRING, device->address);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_API_BLUEZ5_ICON, device->icon);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_API_BLUEZ5_PATH, device->path);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_API_BLUEZ5_ADDRESS, device->address);
snprintf(dev, sizeof(dev), "pointer:%p", device);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_API_BLUEZ5_DEVICE, dev);
snprintf(class, sizeof(class), "0x%06x", device->bluetooth_class);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_API_BLUEZ5_CLASS, class);
if (with_connection) {
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_API_BLUEZ5_CONNECTION,
device->connected ? "connected": "disconnected");
}
info.props = &SPA_DICT_INIT(items, n_items);
spa_device_emit_object_info(&monitor->hooks, device->id, &info);
}
static int device_connected_old(struct spa_bt_monitor *monitor,
struct spa_bt_device *device, int connected)
{
if (connected == BT_DEVICE_INIT)
return 0;
device->connected = connected;
if (device->connected) {
emit_device_info(monitor, device, false);
device->added = true;
} else {
if (!device->added)
return 0;
device_clear_sub(device);
spa_device_emit_object_info(&monitor->hooks, device->id, NULL);
device->added = false;
}
return 0;
}
enum {
BT_DEVICE_RECONNECT_INIT = 0,
BT_DEVICE_RECONNECT_PROFILE,
BT_DEVICE_RECONNECT_STOP
};
static int device_connected(struct spa_bt_monitor *monitor,
struct spa_bt_device *device, int status)
{
bool connected, init = (status == BT_DEVICE_INIT);
connected = init ? 0 : status;
if (!init) {
device->reconnect_state =
connected ? BT_DEVICE_RECONNECT_STOP
: BT_DEVICE_RECONNECT_PROFILE;
}
if ((device->connected_profiles != 0) ^ connected) {
spa_log_error(monitor->log,
"device %p: unexpected call, connected_profiles:%08x connected:%d",
device, device->connected_profiles, device->connected);
return -EINVAL;
}
if (!monitor->connection_info_supported)
return device_connected_old(monitor, device, status);
if (init) {
device->connected = connected;
} else {
if (!device->added || !(connected ^ device->connected))
return 0;
device->connected = connected;
spa_bt_device_emit_connected(device, device->connected);
if (!device->connected)
device_clear_sub(device);
}
emit_device_info(monitor, device, true);
device->added = true;
return 0;
}
/*
* Add profile to device based on bluez actions
* (update property UUIDs, trigger profile handlers),
* in case UUIDs is empty on signal InterfaceAdded for
* org.bluez.Device1. And emit device info if there is
* at least 1 profile on device. This should be called
* before any device setting accessing.
*/
int spa_bt_device_add_profile(struct spa_bt_device *device, enum spa_bt_profile profile)
{
struct spa_bt_monitor *monitor = device->monitor;
if (profile && (device->profiles & profile) == 0) {
spa_log_info(monitor->log, "device %p: add new profile %08x", device, profile);
device->profiles |= profile;
}
if (!device->added && device->profiles) {
device_connected(monitor, device, BT_DEVICE_INIT);
if (device->reconnect_state == BT_DEVICE_RECONNECT_INIT)
device_start_timer(device);
}
return 0;
}
static int device_try_connect_profile(struct spa_bt_device *device,
const char *profile_uuid)
{
struct spa_bt_monitor *monitor = device->monitor;
DBusMessage *m;
spa_log_info(monitor->log, "device %p %s: profile %s not connected; try ConnectProfile()",
device, device->path, profile_uuid);
/* Call org.bluez.Device1.ConnectProfile() on device, ignoring result */
m = dbus_message_new_method_call(BLUEZ_SERVICE,
device->path,
BLUEZ_DEVICE_INTERFACE,
"ConnectProfile");
if (m == NULL)
return -ENOMEM;
dbus_message_append_args(m, DBUS_TYPE_STRING, &profile_uuid, DBUS_TYPE_INVALID);
if (!dbus_connection_send(monitor->conn, m, NULL)) {
dbus_message_unref(m);
return -EIO;
}
dbus_message_unref(m);
return 0;
}
static int reconnect_device_profiles(struct spa_bt_device *device)
{
uint32_t reconnect = device->profiles
& device->reconnect_profiles
& (device->connected_profiles ^ device->profiles);
if (!(device->connected_profiles & SPA_BT_PROFILE_HEADSET_HEAD_UNIT)) {
if (reconnect & SPA_BT_PROFILE_HFP_HF) {
SPA_FLAG_CLEAR(reconnect, SPA_BT_PROFILE_HSP_HS);
} else if (reconnect & SPA_BT_PROFILE_HSP_HS) {
SPA_FLAG_CLEAR(reconnect, SPA_BT_PROFILE_HFP_HF);
}
} else
SPA_FLAG_CLEAR(reconnect, SPA_BT_PROFILE_HEADSET_HEAD_UNIT);
if (!(device->connected_profiles & SPA_BT_PROFILE_HEADSET_AUDIO_GATEWAY)) {
if (reconnect & SPA_BT_PROFILE_HFP_AG)
SPA_FLAG_CLEAR(reconnect, SPA_BT_PROFILE_HSP_AG);
else if (reconnect & SPA_BT_PROFILE_HSP_AG)
SPA_FLAG_CLEAR(reconnect, SPA_BT_PROFILE_HFP_AG);
} else
SPA_FLAG_CLEAR(reconnect, SPA_BT_PROFILE_HEADSET_AUDIO_GATEWAY);
if (reconnect & SPA_BT_PROFILE_HFP_HF)
device_try_connect_profile(device, SPA_BT_UUID_HFP_HF);
if (reconnect & SPA_BT_PROFILE_HSP_HS)
device_try_connect_profile(device, SPA_BT_UUID_HSP_HS);
if (reconnect & SPA_BT_PROFILE_HFP_AG)
device_try_connect_profile(device, SPA_BT_UUID_HFP_AG);
if (reconnect & SPA_BT_PROFILE_HSP_AG)
device_try_connect_profile(device, SPA_BT_UUID_HSP_AG);
if (reconnect & SPA_BT_PROFILE_A2DP_SINK)
device_try_connect_profile(device, SPA_BT_UUID_A2DP_SINK);
if (reconnect & SPA_BT_PROFILE_A2DP_SOURCE)
device_try_connect_profile(device, SPA_BT_UUID_A2DP_SOURCE);
return reconnect;
}
#define DEVICE_RECONNECT_TIMEOUT_SEC 2
#define DEVICE_PROFILE_TIMEOUT_SEC 3
static void device_timer_event(struct spa_source *source)
{
struct spa_bt_device *device = source->data;
struct spa_bt_monitor *monitor = device->monitor;
uint64_t exp;
if (spa_system_timerfd_read(monitor->main_system, source->fd, &exp) < 0)
spa_log_warn(monitor->log, "error reading timerfd: %s", strerror(errno));
spa_log_debug(monitor->log, "device %p: timeout %08x %08x",
device, device->profiles, device->connected_profiles);
device_stop_timer(device);
if (BT_DEVICE_RECONNECT_STOP != device->reconnect_state) {
device->reconnect_state = BT_DEVICE_RECONNECT_STOP;
if (device->paired
&& device->trusted
&& !device->blocked
&& device->reconnect_profiles != 0
&& reconnect_device_profiles(device))
{
device_start_timer(device);
return;
}
}
if (device->connected_profiles)
device_connected(device->monitor, device, BT_DEVICE_CONNECTED);
}
static int device_start_timer(struct spa_bt_device *device)
{
struct spa_bt_monitor *monitor = device->monitor;
struct itimerspec ts;
spa_log_debug(monitor->log, "device %p: start timer", device);
if (device->timer.data == NULL) {
device->timer.data = device;
device->timer.func = device_timer_event;
device->timer.fd = spa_system_timerfd_create(monitor->main_system,
CLOCK_MONOTONIC, SPA_FD_CLOEXEC | SPA_FD_NONBLOCK);
device->timer.mask = SPA_IO_IN;
device->timer.rmask = 0;
spa_loop_add_source(monitor->main_loop, &device->timer);
}
ts.it_value.tv_sec = device->reconnect_state == BT_DEVICE_RECONNECT_STOP
? DEVICE_PROFILE_TIMEOUT_SEC
: DEVICE_RECONNECT_TIMEOUT_SEC;
ts.it_value.tv_nsec = 0;
ts.it_interval.tv_sec = 0;
ts.it_interval.tv_nsec = 0;
spa_system_timerfd_settime(monitor->main_system, device->timer.fd, 0, &ts, NULL);
return 0;
}
static int device_stop_timer(struct spa_bt_device *device)
{
struct spa_bt_monitor *monitor = device->monitor;
struct itimerspec ts;
if (device->timer.data == NULL)
return 0;
spa_log_debug(monitor->log, "device %p: stop timer", device);
spa_loop_remove_source(monitor->main_loop, &device->timer);
ts.it_value.tv_sec = 0;
ts.it_value.tv_nsec = 0;
ts.it_interval.tv_sec = 0;
ts.it_interval.tv_nsec = 0;
spa_system_timerfd_settime(monitor->main_system, device->timer.fd, 0, &ts, NULL);
spa_system_close(monitor->main_system, device->timer.fd);
device->timer.data = NULL;
return 0;
}
int spa_bt_device_check_profiles(struct spa_bt_device *device, bool force)
{
struct spa_bt_monitor *monitor = device->monitor;
uint32_t connected_profiles = device->connected_profiles;
if (connected_profiles & SPA_BT_PROFILE_HEADSET_HEAD_UNIT)
connected_profiles |= SPA_BT_PROFILE_HEADSET_HEAD_UNIT;
if (connected_profiles & SPA_BT_PROFILE_HEADSET_AUDIO_GATEWAY)
connected_profiles |= SPA_BT_PROFILE_HEADSET_AUDIO_GATEWAY;
spa_log_debug(monitor->log, "device %p: profiles %08x %08x %d",
device, device->profiles, connected_profiles, device->added);
if (connected_profiles == 0 && spa_list_is_empty(&device->codec_switch_list)) {
device_stop_timer(device);
device_connected(monitor, device, BT_DEVICE_DISCONNECTED);
} else if (force || (device->profiles & connected_profiles) == device->profiles) {
device_stop_timer(device);
device_connected(monitor, device, BT_DEVICE_CONNECTED);
} else {
/* The initial reconnect event has not been triggered,
* the connecting is triggered by bluez. */
if (device->reconnect_state == BT_DEVICE_RECONNECT_INIT)
device->reconnect_state = BT_DEVICE_RECONNECT_PROFILE;
device_start_timer(device);
}
return 0;
}
static void device_set_connected(struct spa_bt_device *device, int connected)
{
struct spa_bt_monitor *monitor = device->monitor;
if (device->connected && !connected)
device->connected_profiles = 0;
if (connected)
spa_bt_device_check_profiles(device, false);
else {
if (device->reconnect_state != BT_DEVICE_RECONNECT_INIT)
device_stop_timer(device);
device_connected(monitor, device, BT_DEVICE_DISCONNECTED);
}
}
int spa_bt_device_connect_profile(struct spa_bt_device *device, enum spa_bt_profile profile)
{
uint32_t prev_connected = device->connected_profiles;
device->connected_profiles |= profile;
spa_bt_device_check_profiles(device, false);
if (device->connected_profiles != prev_connected)
spa_bt_device_emit_profiles_changed(device, device->profiles, prev_connected);
return 0;
}
static void device_update_hw_volume_profiles(struct spa_bt_device *device)
{
struct spa_bt_monitor *monitor = device->monitor;
uint32_t bt_features = 0;
if (!monitor->quirks)
return;
if (spa_bt_quirks_get_features(monitor->quirks, device->adapter, device, &bt_features) != 0)
return;
if (!(bt_features & SPA_BT_FEATURE_HW_VOLUME))
device->hw_volume_profiles = 0;
spa_log_debug(monitor->log, NAME ": hw-volume-profiles:%08x", (int)device->hw_volume_profiles);
}
static int device_update_props(struct spa_bt_device *device,
DBusMessageIter *props_iter,
DBusMessageIter *invalidated_iter)
{
struct spa_bt_monitor *monitor = device->monitor;
while (dbus_message_iter_get_arg_type(props_iter) != DBUS_TYPE_INVALID) {
DBusMessageIter it[2];
const char *key;
int type;
dbus_message_iter_recurse(props_iter, &it[0]);
dbus_message_iter_get_basic(&it[0], &key);
dbus_message_iter_next(&it[0]);
dbus_message_iter_recurse(&it[0], &it[1]);
type = dbus_message_iter_get_arg_type(&it[1]);
if (type == DBUS_TYPE_STRING || type == DBUS_TYPE_OBJECT_PATH) {
const char *value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "device %p: %s=%s", device, key, value);
if (spa_streq(key, "Alias")) {
free(device->alias);
device->alias = strdup(value);
}
else if (spa_streq(key, "Name")) {
free(device->name);
device->name = strdup(value);
}
else if (spa_streq(key, "Address")) {
free(device->address);
device->address = strdup(value);
}
else if (spa_streq(key, "Adapter")) {
free(device->adapter_path);
device->adapter_path = strdup(value);
device->adapter = adapter_find(monitor, value);
if (device->adapter == NULL) {
spa_log_warn(monitor->log, "unknown adapter %s", value);
}
}
else if (spa_streq(key, "Icon")) {
free(device->icon);
device->icon = strdup(value);
}
else if (spa_streq(key, "Modalias")) {
int ret;
ret = parse_modalias(value, &device->source_id, &device->vendor_id,
&device->product_id, &device->version_id);
if (ret < 0)
spa_log_debug(monitor->log, "device %p: %s=%s ignored: %s",
device, key, value, spa_strerror(ret));
}
}
else if (type == DBUS_TYPE_UINT32) {
uint32_t value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "device %p: %s=%08x", device, key, value);
if (spa_streq(key, "Class"))
device->bluetooth_class = value;
}
else if (type == DBUS_TYPE_UINT16) {
uint16_t value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "device %p: %s=%d", device, key, value);
if (spa_streq(key, "Appearance"))
device->appearance = value;
}
else if (type == DBUS_TYPE_INT16) {
int16_t value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "device %p: %s=%d", device, key, value);
if (spa_streq(key, "RSSI"))
device->RSSI = value;
}
else if (type == DBUS_TYPE_BOOLEAN) {
int value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "device %p: %s=%d", device, key, value);
if (spa_streq(key, "Paired")) {
device->paired = value;
}
else if (spa_streq(key, "Trusted")) {
device->trusted = value;
}
else if (spa_streq(key, "Connected")) {
device_set_connected(device, value);
}
else if (spa_streq(key, "Blocked")) {
device->blocked = value;
}
else if (spa_streq(key, "ServicesResolved")) {
if (value)
spa_bt_device_check_profiles(device, false);
}
}
else if (spa_streq(key, "UUIDs")) {
DBusMessageIter iter;
uint32_t prev_profiles = device->profiles;
if (!check_iter_signature(&it[1], "as"))
goto next;
dbus_message_iter_recurse(&it[1], &iter);
while (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_INVALID) {
const char *uuid;
enum spa_bt_profile profile;
dbus_message_iter_get_basic(&iter, &uuid);
profile = spa_bt_profile_from_uuid(uuid);
if (profile && (device->profiles & profile) == 0) {
spa_log_debug(monitor->log, "device %p: add UUID=%s", device, uuid);
device->profiles |= profile;
}
dbus_message_iter_next(&iter);
}
if (device->profiles != prev_profiles)
spa_bt_device_emit_profiles_changed(
device, prev_profiles, device->connected_profiles);
}
else
spa_log_debug(monitor->log, "device %p: unhandled key %s type %d", device, key, type);
next:
dbus_message_iter_next(props_iter);
}
return 0;
}
bool spa_bt_device_supports_a2dp_codec(struct spa_bt_device *device, const struct a2dp_codec *codec)
{
struct spa_bt_remote_endpoint *ep;
if (!is_a2dp_codec_enabled(device->monitor, codec))
return false;
if (!device->adapter->application_registered) {
/* Codec switching not supported: only plain SBC allowed */
return (codec->codec_id == A2DP_CODEC_SBC && spa_streq(codec->name, "sbc"));
}
spa_list_for_each(ep, &device->remote_endpoint_list, device_link) {
if (a2dp_codec_check_caps(codec, ep->codec, ep->capabilities, ep->capabilities_len,
&ep->monitor->default_audio_info))
return true;
}
return false;
}
const struct a2dp_codec **spa_bt_device_get_supported_a2dp_codecs(struct spa_bt_device *device, size_t *count)
{
const struct a2dp_codec **supported_codecs;
size_t i, j, size;
*count = 0;
size = 8;
supported_codecs = malloc(size * sizeof(const struct a2dp_codec *));
if (supported_codecs == NULL)
return NULL;
j = 0;
for (i = 0; a2dp_codecs[i] != NULL; ++i) {
if (spa_bt_device_supports_a2dp_codec(device, a2dp_codecs[i])) {
supported_codecs[j] = a2dp_codecs[i];
++j;
}
if (j >= size) {
const struct a2dp_codec **p;
size = size * 2;
p = realloc(supported_codecs, size * sizeof(const struct a2dp_codec *));
if (p == NULL) {
free(supported_codecs);
return NULL;
}
supported_codecs = p;
}
}
supported_codecs[j] = NULL;
*count = j;
return supported_codecs;
}
static struct spa_bt_remote_endpoint *device_remote_endpoint_find(struct spa_bt_device *device, const char *path)
{
struct spa_bt_remote_endpoint *ep;
spa_list_for_each(ep, &device->remote_endpoint_list, device_link)
if (spa_streq(ep->path, path))
return ep;
return NULL;
}
static struct spa_bt_remote_endpoint *remote_endpoint_find(struct spa_bt_monitor *monitor, const char *path)
{
struct spa_bt_remote_endpoint *ep;
spa_list_for_each(ep, &monitor->remote_endpoint_list, link)
if (spa_streq(ep->path, path))
return ep;
return NULL;
}
static int remote_endpoint_update_props(struct spa_bt_remote_endpoint *remote_endpoint,
DBusMessageIter *props_iter,
DBusMessageIter *invalidated_iter)
{
struct spa_bt_monitor *monitor = remote_endpoint->monitor;
while (dbus_message_iter_get_arg_type(props_iter) != DBUS_TYPE_INVALID) {
DBusMessageIter it[2];
const char *key;
int type;
dbus_message_iter_recurse(props_iter, &it[0]);
dbus_message_iter_get_basic(&it[0], &key);
dbus_message_iter_next(&it[0]);
dbus_message_iter_recurse(&it[0], &it[1]);
type = dbus_message_iter_get_arg_type(&it[1]);
if (type == DBUS_TYPE_STRING || type == DBUS_TYPE_OBJECT_PATH) {
const char *value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "remote_endpoint %p: %s=%s", remote_endpoint, key, value);
if (spa_streq(key, "UUID")) {
free(remote_endpoint->uuid);
remote_endpoint->uuid = strdup(value);
}
else if (spa_streq(key, "Device")) {
struct spa_bt_device *device;
device = spa_bt_device_find(monitor, value);
if (device == NULL)
goto next;
spa_log_debug(monitor->log, "remote_endpoint %p: device -> %p", remote_endpoint, device);
if (remote_endpoint->device != device) {
if (remote_endpoint->device != NULL)
spa_list_remove(&remote_endpoint->device_link);
remote_endpoint->device = device;
if (device != NULL)
spa_list_append(&device->remote_endpoint_list, &remote_endpoint->device_link);
}
}
}
else if (type == DBUS_TYPE_BOOLEAN) {
int value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "remote_endpoint %p: %s=%d", remote_endpoint, key, value);
if (spa_streq(key, "DelayReporting")) {
remote_endpoint->delay_reporting = value;
}
}
else if (type == DBUS_TYPE_BYTE) {
uint8_t value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "remote_endpoint %p: %s=%02x", remote_endpoint, key, value);
if (spa_streq(key, "Codec")) {
remote_endpoint->codec = value;
}
}
else if (spa_streq(key, "Capabilities")) {
DBusMessageIter iter;
uint8_t *value;
int i, len;
if (!check_iter_signature(&it[1], "ay"))
goto next;
dbus_message_iter_recurse(&it[1], &iter);
dbus_message_iter_get_fixed_array(&iter, &value, &len);
spa_log_debug(monitor->log, "remote_endpoint %p: %s=%d", remote_endpoint, key, len);
for (i = 0; i < len; i++)
spa_log_debug(monitor->log, " %d: %02x", i, value[i]);
free(remote_endpoint->capabilities);
remote_endpoint->capabilities_len = 0;
remote_endpoint->capabilities = malloc(len);
if (remote_endpoint->capabilities) {
memcpy(remote_endpoint->capabilities, value, len);
remote_endpoint->capabilities_len = len;
}
}
else
spa_log_debug(monitor->log, "remote_endpoint %p: unhandled key %s", remote_endpoint, key);
next:
dbus_message_iter_next(props_iter);
}
return 0;
}
static struct spa_bt_remote_endpoint *remote_endpoint_create(struct spa_bt_monitor *monitor, const char *path)
{
struct spa_bt_remote_endpoint *ep;
ep = calloc(1, sizeof(struct spa_bt_remote_endpoint));
if (ep == NULL)
return NULL;
ep->monitor = monitor;
ep->path = strdup(path);
spa_list_prepend(&monitor->remote_endpoint_list, &ep->link);
return ep;
}
static void remote_endpoint_free(struct spa_bt_remote_endpoint *remote_endpoint)
{
struct spa_bt_monitor *monitor = remote_endpoint->monitor;
spa_log_debug(monitor->log, "remote endpoint %p: free %s",
remote_endpoint, remote_endpoint->path);
if (remote_endpoint->device)
spa_list_remove(&remote_endpoint->device_link);
spa_list_remove(&remote_endpoint->link);
free(remote_endpoint->path);
free(remote_endpoint->uuid);
free(remote_endpoint->capabilities);
free(remote_endpoint);
}
struct spa_bt_transport *spa_bt_transport_find(struct spa_bt_monitor *monitor, const char *path)
{
struct spa_bt_transport *t;
spa_list_for_each(t, &monitor->transport_list, link)
if (spa_streq(t->path, path))
return t;
return NULL;
}
struct spa_bt_transport *spa_bt_transport_find_full(struct spa_bt_monitor *monitor,
bool (*callback) (struct spa_bt_transport *t, const void *data),
const void *data)
{
struct spa_bt_transport *t;
spa_list_for_each(t, &monitor->transport_list, link)
if (callback(t, data) == true)
return t;
return NULL;
}
struct spa_bt_transport *spa_bt_transport_create(struct spa_bt_monitor *monitor, char *path, size_t extra)
{
struct spa_bt_transport *t;
t = calloc(1, sizeof(struct spa_bt_transport) + extra);
if (t == NULL)
return NULL;
t->acquire_refcount = 0;
t->monitor = monitor;
t->path = path;
t->fd = -1;
t->sco_io = NULL;
t->delay = SPA_BT_UNKNOWN_DELAY;
t->user_data = SPA_PTROFF(t, sizeof(struct spa_bt_transport), void);
spa_hook_list_init(&t->listener_list);
spa_list_append(&monitor->transport_list, &t->link);
return t;
}
bool spa_bt_transport_volume_enabled(struct spa_bt_transport *transport)
{
return transport->device != NULL
&& (transport->device->hw_volume_profiles & transport->profile);
}
static void transport_sync_volume(struct spa_bt_transport *transport)
{
if (!spa_bt_transport_volume_enabled(transport))
return;
for (int i = 0; i < SPA_BT_VOLUME_ID_TERM; ++i)
spa_bt_transport_set_volume(transport, i, transport->volumes[i].volume);
spa_bt_transport_emit_volume_changed(transport);
}
void spa_bt_transport_set_state(struct spa_bt_transport *transport, enum spa_bt_transport_state state)
{
struct spa_bt_monitor *monitor = transport->monitor;
enum spa_bt_transport_state old = transport->state;
if (old != state) {
transport->state = state;
spa_log_debug(monitor->log, "transport %p: %s state changed %d -> %d",
transport, transport->path, old, state);
spa_bt_transport_emit_state_changed(transport, old, state);
if (state >= SPA_BT_TRANSPORT_STATE_PENDING && old < SPA_BT_TRANSPORT_STATE_PENDING)
transport_sync_volume(transport);
}
}
void spa_bt_transport_free(struct spa_bt_transport *transport)
{
struct spa_bt_monitor *monitor = transport->monitor;
struct spa_bt_device *device = transport->device;
uint32_t prev_connected = 0;
spa_log_debug(monitor->log, "transport %p: free %s", transport, transport->path);
spa_bt_transport_set_state(transport, SPA_BT_TRANSPORT_STATE_IDLE);
spa_bt_transport_emit_destroy(transport);
spa_bt_transport_stop_volume_timer(transport);
spa_bt_transport_stop_release_timer(transport);
if (transport->sco_io) {
spa_bt_sco_io_destroy(transport->sco_io);
transport->sco_io = NULL;
}
spa_bt_transport_destroy(transport);
if (transport->fd >= 0) {
shutdown(transport->fd, SHUT_RDWR);
close(transport->fd);
transport->fd = -1;
}
spa_list_remove(&transport->link);
if (transport->device) {
prev_connected = transport->device->connected_profiles;
transport->device->connected_profiles &= ~transport->profile;
spa_list_remove(&transport->device_link);
}
if (device && device->connected_profiles != prev_connected)
spa_bt_device_emit_profiles_changed(device, device->profiles, prev_connected);
free(transport->path);
free(transport);
}
int spa_bt_transport_acquire(struct spa_bt_transport *transport, bool optional)
{
struct spa_bt_monitor *monitor = transport->monitor;
int res;
if (transport->acquire_refcount > 0) {
spa_log_debug(monitor->log, "transport %p: incref %s", transport, transport->path);
transport->acquire_refcount += 1;
return 0;
}
spa_assert(transport->acquire_refcount == 0);
res = spa_bt_transport_impl(transport, acquire, 0, optional);
if (res >= 0)
transport->acquire_refcount = 1;
return res;
}
int spa_bt_transport_release(struct spa_bt_transport *transport)
{
struct spa_bt_monitor *monitor = transport->monitor;
int res;
if (transport->acquire_refcount > 1) {
spa_log_debug(monitor->log, "transport %p: decref %s", transport, transport->path);
transport->acquire_refcount -= 1;
return 0;
}
else if (transport->acquire_refcount == 0) {
spa_log_info(monitor->log, "transport %s already released", transport->path);
return 0;
}
spa_assert(transport->acquire_refcount == 1);
if (SPA_BT_TRANSPORT_IS_SCO(transport)) {
/* Postpone SCO transport releases, since we might need it again soon */
res = spa_bt_transport_start_release_timer(transport);
} else {
res = spa_bt_transport_impl(transport, release, 0);
if (res >= 0)
transport->acquire_refcount = 0;
}
return res;
}
static int spa_bt_transport_release_now(struct spa_bt_transport *transport)
{
int res;
if (transport->acquire_refcount == 0)
return 0;
spa_bt_transport_stop_release_timer(transport);
res = spa_bt_transport_impl(transport, release, 0);
if (res >= 0)
transport->acquire_refcount = 0;
return res;
}
int spa_bt_device_release_transports(struct spa_bt_device *device)
{
struct spa_bt_transport *t;
spa_list_for_each(t, &device->transport_list, device_link)
spa_bt_transport_release_now(t);
return 0;
}
static int start_timeout_timer(struct spa_bt_monitor *monitor,
struct spa_source *timer, spa_source_func_t timer_event,
time_t timeout_msec, void *data)
{
struct itimerspec ts;
if (timer->data == NULL) {
timer->data = data;
timer->func = timer_event;
timer->fd = spa_system_timerfd_create(
monitor->main_system, CLOCK_MONOTONIC, SPA_FD_CLOEXEC | SPA_FD_NONBLOCK);
timer->mask = SPA_IO_IN;
timer->rmask = 0;
spa_loop_add_source(monitor->main_loop, timer);
}
ts.it_value.tv_sec = timeout_msec / SPA_MSEC_PER_SEC;
ts.it_value.tv_nsec = (timeout_msec % SPA_MSEC_PER_SEC) * SPA_NSEC_PER_MSEC;
ts.it_interval.tv_sec = 0;
ts.it_interval.tv_nsec = 0;
spa_system_timerfd_settime(monitor->main_system, timer->fd, 0, &ts, NULL);
return 0;
}
static int stop_timeout_timer(struct spa_bt_monitor *monitor, struct spa_source *timer)
{
struct itimerspec ts;
if (timer->data == NULL)
return 0;
spa_loop_remove_source(monitor->main_loop, timer);
ts.it_value.tv_sec = 0;
ts.it_value.tv_nsec = 0;
ts.it_interval.tv_sec = 0;
ts.it_interval.tv_nsec = 0;
spa_system_timerfd_settime(monitor->main_system, timer->fd, 0, &ts, NULL);
spa_system_close(monitor->main_system, timer->fd);
timer->data = NULL;
return 0;
}
static void spa_bt_transport_release_timer_event(struct spa_source *source)
{
struct spa_bt_transport *transport = source->data;
struct spa_bt_monitor *monitor = transport->monitor;
spa_assert(transport->acquire_refcount >= 1);
spa_bt_transport_stop_release_timer(transport);
if (transport->acquire_refcount == 1) {
spa_bt_transport_impl(transport, release, 0);
} else {
spa_log_debug(monitor->log, "transport %p: delayed decref %s", transport, transport->path);
}
transport->acquire_refcount -= 1;
}
static int spa_bt_transport_start_release_timer(struct spa_bt_transport *transport)
{
return start_timeout_timer(transport->monitor,
&transport->release_timer,
spa_bt_transport_release_timer_event,
SCO_TRANSPORT_RELEASE_TIMEOUT_MSEC, transport);
}
static int spa_bt_transport_stop_release_timer(struct spa_bt_transport *transport)
{
return stop_timeout_timer(transport->monitor, &transport->release_timer);
}
static void spa_bt_transport_volume_changed(struct spa_bt_transport *transport)
{
struct spa_bt_monitor *monitor = transport->monitor;
struct spa_bt_transport_volume * t_volume;
int volume_id;
if (transport->profile & SPA_BT_PROFILE_A2DP_SINK)
volume_id = SPA_BT_VOLUME_ID_TX;
else if (transport->profile & SPA_BT_PROFILE_A2DP_SOURCE)
volume_id = SPA_BT_VOLUME_ID_RX;
else
return;
t_volume = &transport->volumes[volume_id];
if (t_volume->hw_volume != t_volume->new_hw_volume) {
t_volume->hw_volume = t_volume->new_hw_volume;
t_volume->volume = spa_bt_volume_hw_to_linear(t_volume->hw_volume,
t_volume->hw_volume_max);
spa_log_debug(monitor->log, "transport %p: volume changed %d(%f) ",
transport, t_volume->new_hw_volume, t_volume->volume);
if (spa_bt_transport_volume_enabled(transport)) {
transport->device->a2dp_volume_active[volume_id] = true;
spa_bt_transport_emit_volume_changed(transport);
}
}
}
static void spa_bt_transport_volume_timer_event(struct spa_source *source)
{
struct spa_bt_transport *transport = source->data;
struct spa_bt_monitor *monitor = transport->monitor;
uint64_t exp;
if (spa_system_timerfd_read(monitor->main_system, source->fd, &exp) < 0)
spa_log_warn(monitor->log, "error reading timerfd: %s", strerror(errno));
spa_bt_transport_volume_changed(transport);
}
static int spa_bt_transport_start_volume_timer(struct spa_bt_transport *transport)
{
return start_timeout_timer(transport->monitor,
&transport->volume_timer,
spa_bt_transport_volume_timer_event,
TRANSPORT_VOLUME_TIMEOUT_MSEC, transport);
}
static int spa_bt_transport_stop_volume_timer(struct spa_bt_transport *transport)
{
return stop_timeout_timer(transport->monitor, &transport->volume_timer);
}
int spa_bt_transport_ensure_sco_io(struct spa_bt_transport *t, struct spa_loop *data_loop)
{
if (t->sco_io == NULL) {
t->sco_io = spa_bt_sco_io_create(data_loop,
t->fd,
t->read_mtu,
t->write_mtu);
if (t->sco_io == NULL)
return -ENOMEM;
}
return 0;
}
int64_t spa_bt_transport_get_delay_nsec(struct spa_bt_transport *t)
{
if (t->delay != SPA_BT_UNKNOWN_DELAY)
return (int64_t)t->delay * 100 * SPA_NSEC_PER_USEC;
/* Fallback values when device does not provide information */
if (t->a2dp_codec == NULL)
return 30 * SPA_NSEC_PER_MSEC;
switch (t->a2dp_codec->codec_id) {
case A2DP_CODEC_SBC:
return 200 * SPA_NSEC_PER_MSEC;
case A2DP_CODEC_MPEG24:
return 200 * SPA_NSEC_PER_MSEC;
case A2DP_CODEC_VENDOR:
{
uint32_t vendor_id = t->a2dp_codec->vendor.vendor_id;
uint16_t codec_id = t->a2dp_codec->vendor.codec_id;
if (vendor_id == APTX_VENDOR_ID && codec_id == APTX_CODEC_ID)
return 150 * SPA_NSEC_PER_MSEC;
if (vendor_id == APTX_HD_VENDOR_ID && codec_id == APTX_HD_CODEC_ID)
return 150 * SPA_NSEC_PER_MSEC;
if (vendor_id == LDAC_VENDOR_ID && codec_id == LDAC_CODEC_ID)
return 175 * SPA_NSEC_PER_MSEC;
break;
}
default:
break;
};
return 150 * SPA_NSEC_PER_MSEC;
}
static int transport_update_props(struct spa_bt_transport *transport,
DBusMessageIter *props_iter,
DBusMessageIter *invalidated_iter)
{
struct spa_bt_monitor *monitor = transport->monitor;
while (dbus_message_iter_get_arg_type(props_iter) != DBUS_TYPE_INVALID) {
DBusMessageIter it[2];
const char *key;
int type;
dbus_message_iter_recurse(props_iter, &it[0]);
dbus_message_iter_get_basic(&it[0], &key);
dbus_message_iter_next(&it[0]);
dbus_message_iter_recurse(&it[0], &it[1]);
type = dbus_message_iter_get_arg_type(&it[1]);
if (type == DBUS_TYPE_STRING || type == DBUS_TYPE_OBJECT_PATH) {
const char *value;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "transport %p: %s=%s", transport, key, value);
if (spa_streq(key, "UUID")) {
switch (spa_bt_profile_from_uuid(value)) {
case SPA_BT_PROFILE_A2DP_SOURCE:
transport->profile = SPA_BT_PROFILE_A2DP_SINK;
break;
case SPA_BT_PROFILE_A2DP_SINK:
transport->profile = SPA_BT_PROFILE_A2DP_SOURCE;
break;
default:
spa_log_warn(monitor->log, "unknown profile %s", value);
break;
}
}
else if (spa_streq(key, "State")) {
spa_bt_transport_set_state(transport, spa_bt_transport_state_from_string(value));
}
else if (spa_streq(key, "Device")) {
transport->device = spa_bt_device_find(monitor, value);
if (transport->device == NULL)
spa_log_warn(monitor->log, "could not find device %s", value);
}
}
else if (spa_streq(key, "Codec")) {
uint8_t value;
if (type != DBUS_TYPE_BYTE)
goto next;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "transport %p: %s=%02x", transport, key, value);
transport->codec = value;
}
else if (spa_streq(key, "Configuration")) {
DBusMessageIter iter;
uint8_t *value;
int i, len;
if (!check_iter_signature(&it[1], "ay"))
goto next;
dbus_message_iter_recurse(&it[1], &iter);
dbus_message_iter_get_fixed_array(&iter, &value, &len);
spa_log_debug(monitor->log, "transport %p: %s=%d", transport, key, len);
for (i = 0; i < len; i++)
spa_log_debug(monitor->log, " %d: %02x", i, value[i]);
free(transport->configuration);
transport->configuration_len = 0;
transport->configuration = malloc(len);
if (transport->configuration) {
memcpy(transport->configuration, value, len);
transport->configuration_len = len;
}
}
else if (spa_streq(key, "Volume")) {
uint16_t value;
struct spa_bt_transport_volume * t_volume;
if (type != DBUS_TYPE_UINT16)
goto next;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "transport %p: %s=%d", transport, key, value);
if (transport->profile & SPA_BT_PROFILE_A2DP_SINK)
t_volume = &transport->volumes[SPA_BT_VOLUME_ID_TX];
else if (transport->profile & SPA_BT_PROFILE_A2DP_SOURCE)
t_volume = &transport->volumes[SPA_BT_VOLUME_ID_RX];
else
goto next;
t_volume->active = true;
t_volume->new_hw_volume = value;
if (transport->profile & SPA_BT_PROFILE_A2DP_SINK)
spa_bt_transport_start_volume_timer(transport);
else
spa_bt_transport_volume_changed(transport);
}
else if (spa_streq(key, "Delay")) {
uint16_t value;
if (type != DBUS_TYPE_UINT16)
goto next;
dbus_message_iter_get_basic(&it[1], &value);
spa_log_debug(monitor->log, "transport %p: %s=%02x", transport, key, value);
transport->delay = value;
spa_bt_transport_emit_delay_changed(transport);
}
next:
dbus_message_iter_next(props_iter);
}
return 0;
}
static int transport_set_property_volume(struct spa_bt_transport *transport, uint16_t value)
{
struct spa_bt_monitor *monitor = transport->monitor;
DBusMessage *m, *r;
DBusMessageIter it[2];
DBusError err;
const char *interface = BLUEZ_MEDIA_TRANSPORT_INTERFACE;
const char *name = "Volume";
int res = 0;
m = dbus_message_new_method_call(BLUEZ_SERVICE,
transport->path,
DBUS_INTERFACE_PROPERTIES,
"Set");
if (m == NULL)
return -ENOMEM;
dbus_message_iter_init_append(m, &it[0]);
dbus_message_iter_append_basic(&it[0], DBUS_TYPE_STRING, &interface);
dbus_message_iter_append_basic(&it[0], DBUS_TYPE_STRING, &name);
dbus_message_iter_open_container(&it[0], DBUS_TYPE_VARIANT,
DBUS_TYPE_UINT16_AS_STRING, &it[1]);
dbus_message_iter_append_basic(&it[1], DBUS_TYPE_UINT16, &value);
dbus_message_iter_close_container(&it[0], &it[1]);
dbus_error_init(&err);
r = dbus_connection_send_with_reply_and_block(monitor->conn, m, -1, &err);
dbus_message_unref(m);
if (r == NULL) {
spa_log_error(monitor->log, NAME": set volume %u failed for transport %s (%s)",
value, transport->path, err.message);
dbus_error_free(&err);
return -EIO;
}
if (dbus_message_get_type(r) == DBUS_MESSAGE_TYPE_ERROR)
res = -EIO;
dbus_message_unref(r);
spa_log_debug(monitor->log, "transport %p: set volume to %d", transport, value);
return res;
}
static int transport_set_volume(void *data, int id, float volume)
{
struct spa_bt_transport *transport = data;
struct spa_bt_transport_volume *t_volume = &transport->volumes[id];
uint16_t value;
if (!t_volume->active || !spa_bt_transport_volume_enabled(transport))
return -ENOTSUP;
value = spa_bt_volume_linear_to_hw(volume, 127);
t_volume->volume = volume;
/* AVRCP volume would not applied on remote sink device
* if transport is not acquired (idle). */
if (transport->fd < 0 && (transport->profile & SPA_BT_PROFILE_A2DP_SINK)) {
t_volume->hw_volume = SPA_BT_VOLUME_INVALID;
return 0;
} else if (t_volume->hw_volume != value) {
t_volume->hw_volume = value;
spa_bt_transport_stop_volume_timer(transport);
transport_set_property_volume(transport, value);
}
return 0;
}
static int transport_acquire(void *data, bool optional)
{
struct spa_bt_transport *transport = data;
struct spa_bt_monitor *monitor = transport->monitor;
DBusMessage *m, *r;
DBusError err;
int ret = 0;
const char *method = optional ? "TryAcquire" : "Acquire";
m = dbus_message_new_method_call(BLUEZ_SERVICE,
transport->path,
BLUEZ_MEDIA_TRANSPORT_INTERFACE,
method);
if (m == NULL)
return -ENOMEM;
dbus_error_init(&err);
r = dbus_connection_send_with_reply_and_block(monitor->conn, m, -1, &err);
dbus_message_unref(m);
m = NULL;
if (r == NULL) {
if (optional && spa_streq(err.name, "org.bluez.Error.NotAvailable")) {
spa_log_info(monitor->log, "Failed optional acquire of unavailable transport %s",
transport->path);
}
else {
spa_log_error(monitor->log, "Transport %s() failed for transport %s (%s)",
method, transport->path, err.message);
}
dbus_error_free(&err);
return -EIO;
}
if (dbus_message_get_type(r) == DBUS_MESSAGE_TYPE_ERROR) {
spa_log_error(monitor->log, "%s returned error: %s", method, dbus_message_get_error_name(r));
ret = -EIO;
goto finish;
}
if (!dbus_message_get_args(r, &err,
DBUS_TYPE_UNIX_FD, &transport->fd,
DBUS_TYPE_UINT16, &transport->read_mtu,
DBUS_TYPE_UINT16, &transport->write_mtu,
DBUS_TYPE_INVALID)) {
spa_log_error(monitor->log, "Failed to parse %s() reply: %s", method, err.message);
dbus_error_free(&err);
ret = -EIO;
goto finish;
}
spa_log_debug(monitor->log, "transport %p: %s %s, fd %d MTU %d:%d", transport, method,
transport->path, transport->fd, transport->read_mtu, transport->write_mtu);
transport_sync_volume(transport);
finish:
dbus_message_unref(r);
return ret;
}
static int transport_release(void *data)
{
struct spa_bt_transport *transport = data;
struct spa_bt_monitor *monitor = transport->monitor;
DBusMessage *m, *r;
DBusError err;
bool is_idle = (transport->state == SPA_BT_TRANSPORT_STATE_IDLE);
spa_log_debug(monitor->log, NAME": transport %p: Release %s",
transport, transport->path);
close(transport->fd);
transport->fd = -1;
m = dbus_message_new_method_call(BLUEZ_SERVICE,
transport->path,
BLUEZ_MEDIA_TRANSPORT_INTERFACE,
"Release");
if (m == NULL)
return -ENOMEM;
dbus_error_init(&err);
r = dbus_connection_send_with_reply_and_block(monitor->conn, m, -1, &err);
dbus_message_unref(m);
m = NULL;
if (r != NULL)
dbus_message_unref(r);
if (dbus_error_is_set(&err)) {
if (is_idle) {
/* XXX: The fd always needs to be closed. However, Release()
* XXX: apparently doesn't need to be called on idle transports
* XXX: and fails. We call it just to be sure (e.g. in case
* XXX: there's a race with updating the property), but tone down the error.
*/
spa_log_debug(monitor->log, "Failed to release idle transport %s: %s",
transport->path, err.message);
} else {
spa_log_error(monitor->log, "Failed to release transport %s: %s",
transport->path, err.message);
}
dbus_error_free(&err);
}
else
spa_log_info(monitor->log, "Transport %s released", transport->path);
return 0;
}
static const struct spa_bt_transport_implementation transport_impl = {
SPA_VERSION_BT_TRANSPORT_IMPLEMENTATION,
.acquire = transport_acquire,
.release = transport_release,
.set_volume = transport_set_volume,
};
static void append_basic_array_variant_dict_entry(DBusMessageIter *dict, int key_type_int, void* key, const char* variant_type_str, const char* array_type_str, int array_type_int, void* data, int data_size);
static void a2dp_codec_switch_reply(DBusPendingCall *pending, void *userdata);
static int a2dp_codec_switch_cmp(const void *a, const void *b);
static struct spa_bt_a2dp_codec_switch *a2dp_codec_switch_cmp_sw; /* global for qsort */
static void a2dp_codec_switch_free(struct spa_bt_a2dp_codec_switch *sw)
{
char **p;
if (sw->pending != NULL) {
dbus_pending_call_cancel(sw->pending);
dbus_pending_call_unref(sw->pending);
}
if (sw->device != NULL)
spa_list_remove(&sw->device_link);
if (sw->paths != NULL)
for (p = sw->paths; *p != NULL; ++p)
free(*p);
free(sw->paths);
free(sw->codecs);
free(sw);
}
static void a2dp_codec_switch_next(struct spa_bt_a2dp_codec_switch *sw)
{
spa_assert(*sw->codec_iter != NULL && *sw->path_iter != NULL);
++sw->path_iter;
if (*sw->path_iter == NULL) {
++sw->codec_iter;
sw->path_iter = sw->paths;
}
}
static bool a2dp_codec_switch_process_current(struct spa_bt_a2dp_codec_switch *sw)
{
struct spa_bt_remote_endpoint *ep;
const struct a2dp_codec *codec;
uint8_t config[A2DP_MAX_CAPS_SIZE];
char *local_endpoint_base;
char *local_endpoint = NULL;
int res, config_size;
dbus_bool_t dbus_ret;
const char *str;
DBusMessage *m;
DBusMessageIter iter, d;
int i;
/* Try setting configuration for current codec on current endpoint in list */
codec = *sw->codec_iter;
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: consider codec %s for remote endpoint %s",
sw, (*sw->codec_iter)->name, *sw->path_iter);
ep = device_remote_endpoint_find(sw->device, *sw->path_iter);
if (ep == NULL || ep->capabilities == NULL || ep->uuid == NULL) {
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: endpoint %s not valid, try next",
sw, *sw->path_iter);
goto next;
}
/* Setup and check compatible configuration */
if (ep->codec != codec->codec_id) {
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: different codec, try next", sw);
goto next;
}
if (!(sw->profile & spa_bt_profile_from_uuid(ep->uuid))) {
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: wrong uuid (%s) for profile, try next",
sw, ep->uuid);
goto next;
}
if (sw->profile & SPA_BT_PROFILE_A2DP_SINK) {
local_endpoint_base = A2DP_SOURCE_ENDPOINT;
} else if (sw->profile & SPA_BT_PROFILE_A2DP_SOURCE) {
local_endpoint_base = A2DP_SINK_ENDPOINT;
} else {
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: bad profile (%d), try next",
sw, sw->profile);
goto next;
}
if (a2dp_codec_to_endpoint(codec, local_endpoint_base, &local_endpoint) < 0) {
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: no endpoint for codec %s, try next",
sw, codec->name);
goto next;
}
res = codec->select_config(codec, 0, ep->capabilities, ep->capabilities_len,
&sw->device->monitor->default_audio_info,
sw->device->settings, config);
if (res < 0) {
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: incompatible capabilities (%d), try next",
sw, res);
goto next;
}
config_size = res;
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: configuration %d", sw, config_size);
for (i = 0; i < config_size; i++)
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: %d: %02x", sw, i, config[i]);
/* org.bluez.MediaEndpoint1.SetConfiguration on remote endpoint */
m = dbus_message_new_method_call(BLUEZ_SERVICE, ep->path, BLUEZ_MEDIA_ENDPOINT_INTERFACE, "SetConfiguration");
if (m == NULL) {
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: dbus allocation failure, try next", sw);
goto next;
}
spa_log_info(sw->device->monitor->log, NAME": a2dp codec switch %p: trying codec %s for endpoint %s, local endpoint %s",
sw, codec->name, ep->path, local_endpoint);
dbus_message_iter_init_append(m, &iter);
dbus_message_iter_append_basic(&iter, DBUS_TYPE_OBJECT_PATH, &local_endpoint);
dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, "{sv}", &d);
str = "Capabilities";
append_basic_array_variant_dict_entry(&d, DBUS_TYPE_STRING, &str, "ay", "y", DBUS_TYPE_BYTE, config, config_size);
dbus_message_iter_close_container(&iter, &d);
spa_assert(sw->pending == NULL);
dbus_ret = dbus_connection_send_with_reply(sw->device->monitor->conn, m, &sw->pending, -1);
if (!dbus_ret || sw->pending == NULL) {
spa_log_error(sw->device->monitor->log, NAME": a2dp codec switch %p: dbus call failure, try next", sw);
dbus_message_unref(m);
goto next;
}
dbus_ret = dbus_pending_call_set_notify(sw->pending, a2dp_codec_switch_reply, sw, NULL);
dbus_message_unref(m);
if (!dbus_ret) {
spa_log_error(sw->device->monitor->log, NAME": a2dp codec switch %p: dbus set notify failure", sw);
goto next;
}
free(local_endpoint);
return true;
next:
free(local_endpoint);
return false;
}
static void a2dp_codec_switch_process(struct spa_bt_a2dp_codec_switch *sw)
{
while (*sw->codec_iter != NULL && *sw->path_iter != NULL) {
if (sw->path_iter == sw->paths && (*sw->codec_iter)->caps_preference_cmp) {
/* Sort endpoints according to codec preference, when at a new codec. */
a2dp_codec_switch_cmp_sw = sw;
qsort(sw->paths, sw->num_paths, sizeof(char *), a2dp_codec_switch_cmp);
}
if (a2dp_codec_switch_process_current(sw)) {
/* Wait for dbus reply */
return;
}
a2dp_codec_switch_next(sw);
};
/* Didn't find any suitable endpoint. Report failure. */
spa_log_info(sw->device->monitor->log, NAME": a2dp codec switch %p: failed to get an endpoint", sw);
spa_bt_device_emit_codec_switched(sw->device, -ENODEV);
spa_bt_device_check_profiles(sw->device, false);
a2dp_codec_switch_free(sw);
}
static void a2dp_codec_switch_reply(DBusPendingCall *pending, void *user_data)
{
struct spa_bt_a2dp_codec_switch *sw = user_data;
struct spa_bt_a2dp_codec_switch *active_sw;
struct spa_bt_device *device = sw->device;
DBusMessage *r;
r = dbus_pending_call_steal_reply(pending);
spa_assert(sw->pending == pending);
dbus_pending_call_unref(pending);
sw->pending = NULL;
active_sw = spa_list_first(&device->codec_switch_list, struct spa_bt_a2dp_codec_switch, device_link);
if (active_sw != sw) {
struct spa_bt_a2dp_codec_switch *t;
/* This codec switch has been canceled. Switch to the newest one. */
spa_log_debug(sw->device->monitor->log, NAME": a2dp codec switch %p: canceled, go to new switch", sw);
if (r != NULL)
dbus_message_unref(r);
spa_list_for_each_safe(sw, t, &device->codec_switch_list, device_link) {
if (sw != active_sw)
a2dp_codec_switch_free(sw);
}
a2dp_codec_switch_process(active_sw);
return;
}
if (r == NULL) {
spa_log_error(sw->device->monitor->log,
NAME": a2dp codec switch %p: empty reply from dbus, trying next",
sw);
goto next;
}
if (dbus_message_get_type(r) == DBUS_MESSAGE_TYPE_ERROR) {
spa_log_debug(sw->device->monitor->log,
NAME": a2dp codec switch %p: failed (%s), trying next",
sw, dbus_message_get_error_name(r));
dbus_message_unref(r);
goto next;
}
dbus_message_unref(r);
/* Success */
spa_log_info(sw->device->monitor->log, NAME": a2dp codec switch %p: success", sw);
spa_bt_device_emit_codec_switched(sw->device, 0);
spa_bt_device_check_profiles(sw->device, false);
a2dp_codec_switch_free(sw);
return;
next:
a2dp_codec_switch_next(sw);
a2dp_codec_switch_process(sw);
return;
}
static int a2dp_codec_switch_cmp(const void *a, const void *b)
{
struct spa_bt_a2dp_codec_switch *sw = a2dp_codec_switch_cmp_sw;
const struct a2dp_codec *codec = *sw->codec_iter;
const char *path1 = *(char **)a, *path2 = *(char **)b;
struct spa_bt_remote_endpoint *ep1, *ep2;
ep1 = device_remote_endpoint_find(sw->device, path1);
ep2 = device_remote_endpoint_find(sw->device, path2);
if (ep1 != NULL && (ep1->uuid == NULL || ep1->codec != codec->codec_id || ep1->capabilities == NULL))
ep1 = NULL;
if (ep2 != NULL && (ep2->uuid == NULL || ep2->codec != codec->codec_id || ep2->capabilities == NULL))
ep2 = NULL;
if (ep1 == NULL && ep2 == NULL)
return 0;
else if (ep1 == NULL)
return 1;
else if (ep2 == NULL)
return -1;
return codec->caps_preference_cmp(codec, ep1->capabilities, ep1->capabilities_len,
ep2->capabilities, ep2->capabilities_len, &sw->device->monitor->default_audio_info);
}
/* Ensure there's a transport for at least one of the listed codecs */
int spa_bt_device_ensure_a2dp_codec(struct spa_bt_device *device, const struct a2dp_codec * const *codecs)
{
struct spa_bt_a2dp_codec_switch *sw;
struct spa_bt_remote_endpoint *ep;
struct spa_bt_transport *t;
const struct a2dp_codec *preferred_codec = NULL;
size_t i, j, num_codecs, num_eps;
if (!device->adapter->application_registered) {
/* Codec switching not supported */
return -ENOTSUP;
}
for (i = 0; codecs[i] != NULL; ++i) {
if (spa_bt_device_supports_a2dp_codec(device, codecs[i])) {
preferred_codec = codecs[i];
break;
}
}
/* Check if we already have an enabled transport for the most preferred codec.
* However, if there already was a codec switch running, these transports may
* disappear soon. In that case, we have to do the full thing.
*/
if (spa_list_is_empty(&device->codec_switch_list) && preferred_codec != NULL) {
spa_list_for_each(t, &device->transport_list, device_link) {
if (t->a2dp_codec != preferred_codec)
continue;
if ((device->connected_profiles & t->profile) != t->profile)
continue;
spa_bt_device_emit_codec_switched(device, 0);
return 0;
}
}
/* Setup and start iteration */
sw = calloc(1, sizeof(struct spa_bt_a2dp_codec_switch));
if (sw == NULL)
return -ENOMEM;
num_eps = 0;
spa_list_for_each(ep, &device->remote_endpoint_list, device_link)
++num_eps;
num_codecs = 0;
while (codecs[num_codecs] != NULL)
++num_codecs;
sw->codecs = calloc(num_codecs + 1, sizeof(const struct a2dp_codec *));
sw->paths = calloc(num_eps + 1, sizeof(char *));
sw->num_paths = num_eps;
if (sw->codecs == NULL || sw->paths == NULL) {
a2dp_codec_switch_free(sw);
return -ENOMEM;
}
for (i = 0, j = 0; i < num_codecs; ++i) {
if (is_a2dp_codec_enabled(device->monitor, codecs[i])) {
sw->codecs[j] = codecs[i];
++j;
}
}
sw->codecs[j] = NULL;
i = 0;
spa_list_for_each(ep, &device->remote_endpoint_list, device_link) {
sw->paths[i] = strdup(ep->path);
if (sw->paths[i] == NULL) {
a2dp_codec_switch_free(sw);
return -ENOMEM;
}
++i;
}
sw->paths[i] = NULL;
sw->codec_iter = sw->codecs;
sw->path_iter = sw->paths;
sw->profile = device->connected_profiles;
sw->device = device;
if (!spa_list_is_empty(&device->codec_switch_list)) {
/*
* There's a codec switch already running. BlueZ does not appear to allow
* calling dbus_pending_call_cancel on an active request, so we have to
* wait for the reply to arrive first, and only then start processing this
* request.
*/
spa_log_debug(sw->device->monitor->log,
NAME": a2dp codec switch: already in progress, canceling previous");
spa_list_prepend(&device->codec_switch_list, &sw->device_link);
} else {
spa_list_prepend(&device->codec_switch_list, &sw->device_link);
a2dp_codec_switch_process(sw);
}
return 0;
}
int spa_bt_device_ensure_hfp_codec(struct spa_bt_device *device, unsigned int codec)
{
struct spa_bt_monitor *monitor = device->monitor;
if (monitor->backend_hsphfpd_registered)
return spa_bt_backend_ensure_codec(monitor->backend_hsphfpd, device, codec);
if (monitor->backend_ofono_registered)
return spa_bt_backend_ensure_codec(monitor->backend_ofono, device, codec);
return spa_bt_backend_ensure_codec(monitor->backend_native, device, codec);
}
int spa_bt_device_supports_hfp_codec(struct spa_bt_device *device, unsigned int codec)
{
struct spa_bt_monitor *monitor = device->monitor;
if (monitor->backend_hsphfpd_registered)
return spa_bt_backend_supports_codec(monitor->backend_hsphfpd, device, codec);
if (monitor->backend_ofono_registered)
return spa_bt_backend_supports_codec(monitor->backend_ofono, device, codec);
return spa_bt_backend_supports_codec(monitor->backend_native, device, codec);
}
static DBusHandlerResult endpoint_set_configuration(DBusConnection *conn,
const char *path, DBusMessage *m, void *userdata)
{
struct spa_bt_monitor *monitor = userdata;
const char *transport_path, *endpoint;
DBusMessageIter it[2];
DBusMessage *r;
struct spa_bt_transport *transport;
bool is_new = false;
const struct a2dp_codec *codec;
int profile;
if (!dbus_message_has_signature(m, "oa{sv}")) {
spa_log_warn(monitor->log, "invalid SetConfiguration() signature");
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
endpoint = dbus_message_get_path(m);
profile = a2dp_endpoint_to_profile(endpoint);
codec = a2dp_endpoint_to_codec(endpoint);
if (codec == NULL) {
spa_log_warn(monitor->log, "unknown SetConfiguration() codec");
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
dbus_message_iter_init(m, &it[0]);
dbus_message_iter_get_basic(&it[0], &transport_path);
dbus_message_iter_next(&it[0]);
dbus_message_iter_recurse(&it[0], &it[1]);
transport = spa_bt_transport_find(monitor, transport_path);
is_new = transport == NULL;
if (is_new) {
char *tpath = strdup(transport_path);
transport = spa_bt_transport_create(monitor, tpath, 0);
if (transport == NULL) {
free(tpath);
return DBUS_HANDLER_RESULT_NEED_MEMORY;
}
spa_bt_transport_set_implementation(transport, &transport_impl, transport);
if (profile & SPA_BT_PROFILE_A2DP_SOURCE) {
transport->volumes[SPA_BT_VOLUME_ID_RX].volume = DEFAULT_AG_VOLUME;
transport->volumes[SPA_BT_VOLUME_ID_TX].volume = DEFAULT_AG_VOLUME;
} else {
transport->volumes[SPA_BT_VOLUME_ID_RX].volume = DEFAULT_RX_VOLUME;
transport->volumes[SPA_BT_VOLUME_ID_TX].volume = DEFAULT_TX_VOLUME;
}
}
for (int i = 0; i < SPA_BT_VOLUME_ID_TERM; ++i) {
transport->volumes[i].hw_volume = SPA_BT_VOLUME_INVALID;
transport->volumes[i].hw_volume_max = SPA_BT_VOLUME_A2DP_MAX;
}
transport->profile = profile;
transport->a2dp_codec = codec;
transport_update_props(transport, &it[1], NULL);
if (transport->device == NULL) {
spa_log_warn(monitor->log, "no device found for transport");
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
spa_bt_device_add_profile(transport->device, transport->profile);
if (is_new)
spa_list_append(&transport->device->transport_list, &transport->device_link);
if (profile & SPA_BT_PROFILE_A2DP_SOURCE) {
/* PW is the rendering device so it's responsible for reporting hardware volume. */
transport->volumes[SPA_BT_VOLUME_ID_RX].active = true;
} else if (profile & SPA_BT_PROFILE_A2DP_SINK) {
transport->volumes[SPA_BT_VOLUME_ID_TX].active
|= transport->device->a2dp_volume_active[SPA_BT_VOLUME_ID_TX];
}
if (codec->validate_config) {
struct spa_audio_info info;
if (codec->validate_config(codec, 0,
transport->configuration, transport->configuration_len,
&info) < 0) {
spa_log_error(monitor->log, "invalid transport configuration");
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
transport->n_channels = info.info.raw.channels;
memcpy(transport->channels, info.info.raw.position,
transport->n_channels * sizeof(uint32_t));
} else {
transport->n_channels = 2;
transport->channels[0] = SPA_AUDIO_CHANNEL_FL;
transport->channels[1] = SPA_AUDIO_CHANNEL_FR;
}
spa_log_info(monitor->log, "%p: %s validate conf channels:%d",
monitor, path, transport->n_channels);
spa_bt_device_connect_profile(transport->device, transport->profile);
/* Sync initial volumes */
transport_sync_volume(transport);
if ((r = dbus_message_new_method_return(m)) == NULL)
return DBUS_HANDLER_RESULT_NEED_MEMORY;
if (!dbus_connection_send(conn, r, NULL))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
dbus_message_unref(r);
return DBUS_HANDLER_RESULT_HANDLED;
}
static DBusHandlerResult endpoint_clear_configuration(DBusConnection *conn, DBusMessage *m, void *userdata)
{
struct spa_bt_monitor *monitor = userdata;
DBusError err;
DBusMessage *r;
const char *transport_path;
struct spa_bt_transport *transport;
dbus_error_init(&err);
if (!dbus_message_get_args(m, &err,
DBUS_TYPE_OBJECT_PATH, &transport_path,
DBUS_TYPE_INVALID)) {
spa_log_warn(monitor->log, "Bad ClearConfiguration method call: %s",
err.message);
dbus_error_free(&err);
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
transport = spa_bt_transport_find(monitor, transport_path);
if (transport != NULL) {
struct spa_bt_device *device = transport->device;
spa_log_debug(monitor->log, "transport %p: free %s",
transport, transport->path);
spa_bt_transport_free(transport);
if (device != NULL)
spa_bt_device_check_profiles(device, false);
}
if ((r = dbus_message_new_method_return(m)) == NULL)
return DBUS_HANDLER_RESULT_NEED_MEMORY;
if (!dbus_connection_send(conn, r, NULL))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
dbus_message_unref(r);
return DBUS_HANDLER_RESULT_HANDLED;
}
static DBusHandlerResult endpoint_release(DBusConnection *conn, DBusMessage *m, void *userdata)
{
DBusMessage *r;
r = dbus_message_new_error(m, BLUEZ_MEDIA_ENDPOINT_INTERFACE ".Error.NotImplemented",
"Method not implemented");
if (r == NULL)
return DBUS_HANDLER_RESULT_NEED_MEMORY;
if (!dbus_connection_send(conn, r, NULL))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
dbus_message_unref(r);
return DBUS_HANDLER_RESULT_HANDLED;
}
static DBusHandlerResult endpoint_handler(DBusConnection *c, DBusMessage *m, void *userdata)
{
struct spa_bt_monitor *monitor = userdata;
const char *path, *interface, *member;
DBusMessage *r;
DBusHandlerResult res;
path = dbus_message_get_path(m);
interface = dbus_message_get_interface(m);
member = dbus_message_get_member(m);
spa_log_debug(monitor->log, "dbus: path=%s, interface=%s, member=%s", path, interface, member);
if (dbus_message_is_method_call(m, "org.freedesktop.DBus.Introspectable", "Introspect")) {
const char *xml = ENDPOINT_INTROSPECT_XML;
if ((r = dbus_message_new_method_return(m)) == NULL)
return DBUS_HANDLER_RESULT_NEED_MEMORY;
if (!dbus_message_append_args(r, DBUS_TYPE_STRING, &xml, DBUS_TYPE_INVALID))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
if (!dbus_connection_send(monitor->conn, r, NULL))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
dbus_message_unref(r);
res = DBUS_HANDLER_RESULT_HANDLED;
}
else if (dbus_message_is_method_call(m, BLUEZ_MEDIA_ENDPOINT_INTERFACE, "SetConfiguration"))
res = endpoint_set_configuration(c, path, m, userdata);
else if (dbus_message_is_method_call(m, BLUEZ_MEDIA_ENDPOINT_INTERFACE, "SelectConfiguration"))
res = endpoint_select_configuration(c, m, userdata);
else if (dbus_message_is_method_call(m, BLUEZ_MEDIA_ENDPOINT_INTERFACE, "ClearConfiguration"))
res = endpoint_clear_configuration(c, m, userdata);
else if (dbus_message_is_method_call(m, BLUEZ_MEDIA_ENDPOINT_INTERFACE, "Release"))
res = endpoint_release(c, m, userdata);
else
res = DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
return res;
}
static void bluez_register_endpoint_reply(DBusPendingCall *pending, void *user_data)
{
struct spa_bt_monitor *monitor = user_data;
DBusMessage *r;
r = dbus_pending_call_steal_reply(pending);
if (r == NULL)
return;
if (dbus_message_is_error(r, DBUS_ERROR_UNKNOWN_METHOD)) {
spa_log_warn(monitor->log, "BlueZ D-Bus ObjectManager not available");
goto finish;
}
if (dbus_message_get_type(r) == DBUS_MESSAGE_TYPE_ERROR) {
spa_log_error(monitor->log, "RegisterEndpoint() failed: %s",
dbus_message_get_error_name(r));
goto finish;
}
finish:
dbus_message_unref(r);
dbus_pending_call_unref(pending);
}
static void append_basic_variant_dict_entry(DBusMessageIter *dict, int key_type_int, void* key, int variant_type_int, const char* variant_type_str, void* variant) {
DBusMessageIter dict_entry_it, variant_it;
dbus_message_iter_open_container(dict, DBUS_TYPE_DICT_ENTRY, NULL, &dict_entry_it);
dbus_message_iter_append_basic(&dict_entry_it, key_type_int, key);
dbus_message_iter_open_container(&dict_entry_it, DBUS_TYPE_VARIANT, variant_type_str, &variant_it);
dbus_message_iter_append_basic(&variant_it, variant_type_int, variant);
dbus_message_iter_close_container(&dict_entry_it, &variant_it);
dbus_message_iter_close_container(dict, &dict_entry_it);
}
static void append_basic_array_variant_dict_entry(DBusMessageIter *dict, int key_type_int, void* key, const char* variant_type_str, const char* array_type_str, int array_type_int, void* data, int data_size) {
DBusMessageIter dict_entry_it, variant_it, array_it;
dbus_message_iter_open_container(dict, DBUS_TYPE_DICT_ENTRY, NULL, &dict_entry_it);
dbus_message_iter_append_basic(&dict_entry_it, key_type_int, key);
dbus_message_iter_open_container(&dict_entry_it, DBUS_TYPE_VARIANT, variant_type_str, &variant_it);
dbus_message_iter_open_container(&variant_it, DBUS_TYPE_ARRAY, array_type_str, &array_it);
dbus_message_iter_append_fixed_array (&array_it, array_type_int, &data, data_size);
dbus_message_iter_close_container(&variant_it, &array_it);
dbus_message_iter_close_container(&dict_entry_it, &variant_it);
dbus_message_iter_close_container(dict, &dict_entry_it);
}
static int bluez_register_endpoint(struct spa_bt_monitor *monitor,
const char *path, const char *endpoint,
const char *uuid, const struct a2dp_codec *codec) {
char *str, *object_path = NULL;
DBusMessage *m;
DBusMessageIter object_it, dict_it;
DBusPendingCall *call;
uint8_t caps[A2DP_MAX_CAPS_SIZE];
int ret, caps_size;
uint16_t codec_id = codec->codec_id;
ret = a2dp_codec_to_endpoint(codec, endpoint, &object_path);
if (ret < 0)
return ret;
caps_size = codec->fill_caps(codec, 0, caps);
if (caps_size < 0)
return caps_size;
m = dbus_message_new_method_call(BLUEZ_SERVICE,
path,
BLUEZ_MEDIA_INTERFACE,
"RegisterEndpoint");
if (m == NULL)
return -EIO;
dbus_message_iter_init_append(m, &object_it);
dbus_message_iter_append_basic(&object_it, DBUS_TYPE_OBJECT_PATH, &object_path);
dbus_message_iter_open_container(&object_it, DBUS_TYPE_ARRAY, "{sv}", &dict_it);
str = "UUID";
append_basic_variant_dict_entry(&dict_it, DBUS_TYPE_STRING, &str, DBUS_TYPE_STRING, "s", &uuid);
str = "Codec";
append_basic_variant_dict_entry(&dict_it, DBUS_TYPE_STRING, &str, DBUS_TYPE_BYTE, "y", &codec_id);
str = "Capabilities";
append_basic_array_variant_dict_entry(&dict_it, DBUS_TYPE_STRING, &str, "ay", "y", DBUS_TYPE_BYTE, caps, caps_size);
dbus_message_iter_close_container(&object_it, &dict_it);
dbus_connection_send_with_reply(monitor->conn, m, &call, -1);
dbus_pending_call_set_notify(call, bluez_register_endpoint_reply, monitor, NULL);
dbus_message_unref(m);
free(object_path);
return 0;
}
static int register_a2dp_endpoint(struct spa_bt_monitor *monitor,
const struct a2dp_codec *codec, const char *endpoint)
{
int ret;
char* object_path = NULL;
const DBusObjectPathVTable vtable_endpoint = {
.message_function = endpoint_handler,
};
ret = a2dp_codec_to_endpoint(codec, endpoint, &object_path);
if (ret < 0)
return ret;
spa_log_info(monitor->log, "Registering endpoint: %s", object_path);
if (!dbus_connection_register_object_path(monitor->conn,
object_path,
&vtable_endpoint, monitor)) {
free(object_path);
return -EIO;
}
free(object_path);
return 0;
}
static int adapter_register_endpoints(struct spa_bt_adapter *a)
{
struct spa_bt_monitor *monitor = a->monitor;
int i;
int err = 0;
if (a->endpoints_registered)
return err;
/* The legacy bluez5 api doesn't support codec switching
* It doesn't make sense to register codecs other than SBC
* as bluez5 will probably use SBC anyway and we have no control over it
* let's incentivize users to upgrade their bluez5 daemon
* if they want proper a2dp codec support
* */
spa_log_warn(monitor->log, "Using legacy bluez5 API for A2DP - only SBC will be supported. "
"Please upgrade bluez5.");
for (i = 0; a2dp_codecs[i]; i++) {
const struct a2dp_codec *codec = a2dp_codecs[i];
if (!is_a2dp_codec_enabled(monitor, codec))
continue;
if (!(codec->codec_id == A2DP_CODEC_SBC && spa_streq(codec->name, "sbc")))
continue;
if ((err = bluez_register_endpoint(monitor, a->path,
A2DP_SOURCE_ENDPOINT,
SPA_BT_UUID_A2DP_SOURCE,
codec)))
goto out;
if ((err = bluez_register_endpoint(monitor, a->path,
A2DP_SINK_ENDPOINT,
SPA_BT_UUID_A2DP_SINK,
codec)))
goto out;
a->endpoints_registered = true;
break;
}
if (!a->endpoints_registered) {
/* Should never happen as SBC support is always enabled */
spa_log_error(monitor->log, "Broken Pipewire build - unable to locate SBC codec");
err = -ENOSYS;
}
out:
if (err) {
spa_log_error(monitor->log, "Failed to register bluez5 endpoints");
}
return err;
}
static void append_a2dp_object(DBusMessageIter *iter, const char *endpoint,
const char *uuid, uint8_t codec_id, uint8_t *caps, size_t caps_size)
{
char* str;
const char *interface_name = BLUEZ_MEDIA_ENDPOINT_INTERFACE;
DBusMessageIter object, array, entry, dict;
dbus_bool_t delay_reporting;
dbus_message_iter_open_container(iter, DBUS_TYPE_DICT_ENTRY, NULL, &object);
dbus_message_iter_append_basic(&object, DBUS_TYPE_OBJECT_PATH, &endpoint);
dbus_message_iter_open_container(&object, DBUS_TYPE_ARRAY, "{sa{sv}}", &array);
dbus_message_iter_open_container(&array, DBUS_TYPE_DICT_ENTRY, NULL, &entry);
dbus_message_iter_append_basic(&entry, DBUS_TYPE_STRING, &interface_name);
dbus_message_iter_open_container(&entry, DBUS_TYPE_ARRAY, "{sv}", &dict);
str = "UUID";
append_basic_variant_dict_entry(&dict, DBUS_TYPE_STRING, &str, DBUS_TYPE_STRING, "s", &uuid);
str = "Codec";
append_basic_variant_dict_entry(&dict, DBUS_TYPE_STRING, &str, DBUS_TYPE_BYTE, "y", &codec_id);
str = "Capabilities";
append_basic_array_variant_dict_entry(&dict, DBUS_TYPE_STRING, &str, "ay", "y", DBUS_TYPE_BYTE, caps, caps_size);
if (spa_bt_profile_from_uuid(uuid) & SPA_BT_PROFILE_A2DP_SOURCE) {
str = "DelayReporting";
delay_reporting = TRUE;
append_basic_variant_dict_entry(&dict, DBUS_TYPE_STRING, &str, DBUS_TYPE_BOOLEAN, "b", &delay_reporting);
}
dbus_message_iter_close_container(&entry, &dict);
dbus_message_iter_close_container(&array, &entry);
dbus_message_iter_close_container(&object, &array);
dbus_message_iter_close_container(iter, &object);
}
static DBusHandlerResult object_manager_handler(DBusConnection *c, DBusMessage *m, void *user_data)
{
struct spa_bt_monitor *monitor = user_data;
const char *path, *interface, *member;
char *endpoint;
DBusMessage *r;
DBusMessageIter iter, array;
DBusHandlerResult res;
int i;
path = dbus_message_get_path(m);
interface = dbus_message_get_interface(m);
member = dbus_message_get_member(m);
spa_log_debug(monitor->log, "dbus: path=%s, interface=%s, member=%s", path, interface, member);
if (dbus_message_is_method_call(m, "org.freedesktop.DBus.Introspectable", "Introspect")) {
const char *xml = OBJECT_MANAGER_INTROSPECT_XML;
if ((r = dbus_message_new_method_return(m)) == NULL)
return DBUS_HANDLER_RESULT_NEED_MEMORY;
if (!dbus_message_append_args(r, DBUS_TYPE_STRING, &xml, DBUS_TYPE_INVALID))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
if (!dbus_connection_send(monitor->conn, r, NULL))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
dbus_message_unref(r);
res = DBUS_HANDLER_RESULT_HANDLED;
}
else if (dbus_message_is_method_call(m, "org.freedesktop.DBus.ObjectManager", "GetManagedObjects")) {
if ((r = dbus_message_new_method_return(m)) == NULL)
return DBUS_HANDLER_RESULT_NEED_MEMORY;
dbus_message_iter_init_append(r, &iter);
dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, "{oa{sa{sv}}}", &array);
for (i = 0; a2dp_codecs[i]; i++) {
const struct a2dp_codec *codec = a2dp_codecs[i];
uint8_t caps[A2DP_MAX_CAPS_SIZE];
int caps_size, ret;
uint16_t codec_id = codec->codec_id;
if (!is_a2dp_codec_enabled(monitor, codec))
continue;
caps_size = codec->fill_caps(codec, 0, caps);
if (caps_size < 0)
continue;
if (codec->decode != NULL) {
ret = a2dp_codec_to_endpoint(codec, A2DP_SINK_ENDPOINT, &endpoint);
if (ret == 0) {
spa_log_info(monitor->log, "register A2DP sink codec %s: %s", a2dp_codecs[i]->name, endpoint);
append_a2dp_object(&array, endpoint, SPA_BT_UUID_A2DP_SINK,
codec_id, caps, caps_size);
free(endpoint);
}
}
if (codec->encode != NULL) {
ret = a2dp_codec_to_endpoint(codec, A2DP_SOURCE_ENDPOINT, &endpoint);
if (ret == 0) {
spa_log_info(monitor->log, "register A2DP source codec %s: %s", a2dp_codecs[i]->name, endpoint);
append_a2dp_object(&array, endpoint, SPA_BT_UUID_A2DP_SOURCE,
codec_id, caps, caps_size);
free(endpoint);
}
}
}
dbus_message_iter_close_container(&iter, &array);
if (!dbus_connection_send(monitor->conn, r, NULL))
return DBUS_HANDLER_RESULT_NEED_MEMORY;
res = DBUS_HANDLER_RESULT_HANDLED;
}
else
res = DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
return res;
}
static void bluez_register_application_reply(DBusPendingCall *pending, void *user_data)
{
struct spa_bt_adapter *adapter = user_data;
struct spa_bt_monitor *monitor = adapter->monitor;
DBusMessage *r;
bool fallback = true;
r = dbus_pending_call_steal_reply(pending);
if (r == NULL)
return;
if (dbus_message_is_error(r, BLUEZ_ERROR_NOT_SUPPORTED)) {
spa_log_warn(monitor->log, "Registering media applications for adapter %s is disabled in bluez5", adapter->path);
goto finish;
}
if (dbus_message_get_type(r) == DBUS_MESSAGE_TYPE_ERROR) {
spa_log_error(monitor->log, "RegisterApplication() failed: %s",
dbus_message_get_error_name(r));
goto finish;
}
fallback = false;
adapter->application_registered = true;
finish:
dbus_message_unref(r);
dbus_pending_call_unref(pending);
if (fallback)
adapter_register_endpoints(adapter);
}
static int register_media_application(struct spa_bt_monitor * monitor)
{
const DBusObjectPathVTable vtable_object_manager = {
.message_function = object_manager_handler,
};
spa_log_info(monitor->log, "Registering media application object: " A2DP_OBJECT_MANAGER_PATH);
if (!dbus_connection_register_object_path(monitor->conn,
A2DP_OBJECT_MANAGER_PATH,
&vtable_object_manager, monitor))
return -EIO;
for (int i = 0; a2dp_codecs[i]; i++) {
const struct a2dp_codec *codec = a2dp_codecs[i];
if (!is_a2dp_codec_enabled(monitor, codec))
continue;
register_a2dp_endpoint(monitor, codec, A2DP_SOURCE_ENDPOINT);
register_a2dp_endpoint(monitor, codec, A2DP_SINK_ENDPOINT);
}
return 0;
}
static void unregister_media_application(struct spa_bt_monitor * monitor)
{
int ret;
char *object_path = NULL;
for (int i = 0; a2dp_codecs[i]; i++) {
const struct a2dp_codec *codec = a2dp_codecs[i];
if (!is_a2dp_codec_enabled(monitor, codec))
continue;
ret = a2dp_codec_to_endpoint(codec, A2DP_SOURCE_ENDPOINT, &object_path);
if (ret == 0) {
dbus_connection_unregister_object_path(monitor->conn, object_path);
free(object_path);
}
ret = a2dp_codec_to_endpoint(codec, A2DP_SINK_ENDPOINT, &object_path);
if (ret == 0) {
dbus_connection_unregister_object_path(monitor->conn, object_path);
free(object_path);
}
}
dbus_connection_unregister_object_path(monitor->conn, A2DP_OBJECT_MANAGER_PATH);
}
static int adapter_register_application(struct spa_bt_adapter *a) {
const char *object_manager_path = A2DP_OBJECT_MANAGER_PATH;
struct spa_bt_monitor *monitor = a->monitor;
DBusMessage *m;
DBusMessageIter i, d;
DBusPendingCall *call;
if (a->application_registered)
return 0;
spa_log_debug(monitor->log, "Registering bluez5 media application on adapter %s", a->path);
m = dbus_message_new_method_call(BLUEZ_SERVICE,
a->path,
BLUEZ_MEDIA_INTERFACE,
"RegisterApplication");
if (m == NULL)
return -EIO;
dbus_message_iter_init_append(m, &i);
dbus_message_iter_append_basic(&i, DBUS_TYPE_OBJECT_PATH, &object_manager_path);
dbus_message_iter_open_container(&i, DBUS_TYPE_ARRAY, "{sv}", &d);
dbus_message_iter_close_container(&i, &d);
dbus_connection_send_with_reply(monitor->conn, m, &call, -1);
dbus_pending_call_set_notify(call, bluez_register_application_reply, a, NULL);
dbus_message_unref(m);
return 0;
}
static void interface_added(struct spa_bt_monitor *monitor,
DBusConnection *conn,
const char *object_path,
const char *interface_name,
DBusMessageIter *props_iter)
{
spa_log_debug(monitor->log, "Found object %s, interface %s", object_path, interface_name);
if (spa_streq(interface_name, BLUEZ_ADAPTER_INTERFACE)) {
struct spa_bt_adapter *a;
a = adapter_find(monitor, object_path);
if (a == NULL) {
a = adapter_create(monitor, object_path);
if (a == NULL) {
spa_log_warn(monitor->log, "can't create adapter: %m");
return;
}
}
adapter_update_props(a, props_iter, NULL);
adapter_register_application(a);
}
else if (spa_streq(interface_name, BLUEZ_PROFILE_MANAGER_INTERFACE)) {
if (!monitor->backend_ofono_registered && !monitor->backend_hsphfpd_registered) {
spa_bt_backend_register_profiles(monitor->backend_native);
monitor->backend_native_registered = true;
}
}
else if (spa_streq(interface_name, BLUEZ_DEVICE_INTERFACE)) {
struct spa_bt_device *d;
d = spa_bt_device_find(monitor, object_path);
if (d == NULL) {
d = device_create(monitor, object_path);
if (d == NULL) {
spa_log_warn(monitor->log, "can't create Bluetooth device %s: %m",
object_path);
return;
}
}
device_update_props(d, props_iter, NULL);
d->reconnect_state = BT_DEVICE_RECONNECT_INIT;
device_update_hw_volume_profiles(d);
/* Trigger bluez device creation before bluez profile negotiation started so that
* profile connection handlers can receive per-device settings during profile negotiation. */
spa_bt_device_add_profile(d, SPA_BT_PROFILE_NULL);
}
else if (spa_streq(interface_name, BLUEZ_MEDIA_ENDPOINT_INTERFACE)) {
struct spa_bt_remote_endpoint *ep;
struct spa_bt_device *d;
ep = remote_endpoint_find(monitor, object_path);
if (ep == NULL) {
ep = remote_endpoint_create(monitor, object_path);
if (ep == NULL) {
spa_log_warn(monitor->log, "can't create Bluetooth remote endpoint %s: %m",
object_path);
return;
}
}
remote_endpoint_update_props(ep, props_iter, NULL);
d = ep->device;
if (d)
spa_bt_device_emit_profiles_changed(d, d->profiles, d->connected_profiles);
}
}
static void interfaces_added(struct spa_bt_monitor *monitor, DBusMessageIter *arg_iter)
{
DBusMessageIter it[3];
const char *object_path;
dbus_message_iter_get_basic(arg_iter, &object_path);
dbus_message_iter_next(arg_iter);
dbus_message_iter_recurse(arg_iter, &it[0]);
while (dbus_message_iter_get_arg_type(&it[0]) != DBUS_TYPE_INVALID) {
const char *interface_name;
dbus_message_iter_recurse(&it[0], &it[1]);
dbus_message_iter_get_basic(&it[1], &interface_name);
dbus_message_iter_next(&it[1]);
dbus_message_iter_recurse(&it[1], &it[2]);
interface_added(monitor, monitor->conn,
object_path, interface_name,
&it[2]);
dbus_message_iter_next(&it[0]);
}
}
static void interfaces_removed(struct spa_bt_monitor *monitor, DBusMessageIter *arg_iter)
{
const char *object_path;
DBusMessageIter it;
dbus_message_iter_get_basic(arg_iter, &object_path);
dbus_message_iter_next(arg_iter);
dbus_message_iter_recurse(arg_iter, &it);
while (dbus_message_iter_get_arg_type(&it) != DBUS_TYPE_INVALID) {
const char *interface_name;
dbus_message_iter_get_basic(&it, &interface_name);
spa_log_debug(monitor->log, "Found object %s, interface %s", object_path, interface_name);
if (spa_streq(interface_name, BLUEZ_DEVICE_INTERFACE)) {
struct spa_bt_device *d;
d = spa_bt_device_find(monitor, object_path);
if (d != NULL)
device_free(d);
} else if (spa_streq(interface_name, BLUEZ_ADAPTER_INTERFACE)) {
struct spa_bt_adapter *a;
a = adapter_find(monitor, object_path);
if (a != NULL)
adapter_free(a);
} else if (spa_streq(interface_name, BLUEZ_MEDIA_ENDPOINT_INTERFACE)) {
struct spa_bt_remote_endpoint *ep;
ep = remote_endpoint_find(monitor, object_path);
if (ep != NULL) {
struct spa_bt_device *d = ep->device;
remote_endpoint_free(ep);
if (d)
spa_bt_device_emit_profiles_changed(d, d->profiles, d->connected_profiles);
}
}
dbus_message_iter_next(&it);
}
}
static void get_managed_objects_reply(DBusPendingCall *pending, void *user_data)
{
struct spa_bt_monitor *monitor = user_data;
DBusMessage *r;
DBusMessageIter it[6];
r = dbus_pending_call_steal_reply(pending);
if (r == NULL)
return;
if (dbus_message_is_error(r, DBUS_ERROR_UNKNOWN_METHOD)) {
spa_log_warn(monitor->log, "BlueZ D-Bus ObjectManager not available");
goto finish;
}
if (dbus_message_get_type(r) == DBUS_MESSAGE_TYPE_ERROR) {
spa_log_error(monitor->log, "GetManagedObjects() failed: %s",
dbus_message_get_error_name(r));
goto finish;
}
if (!dbus_message_iter_init(r, &it[0]) ||
!spa_streq(dbus_message_get_signature(r), "a{oa{sa{sv}}}")) {
spa_log_error(monitor->log, "Invalid reply signature for GetManagedObjects()");
goto finish;
}
dbus_message_iter_recurse(&it[0], &it[1]);
while (dbus_message_iter_get_arg_type(&it[1]) != DBUS_TYPE_INVALID) {
dbus_message_iter_recurse(&it[1], &it[2]);
interfaces_added(monitor, &it[2]);
dbus_message_iter_next(&it[1]);
}
monitor->objects_listed = true;
finish:
dbus_message_unref(r);
dbus_pending_call_unref(pending);
return;
}
static void get_managed_objects(struct spa_bt_monitor *monitor)
{
DBusMessage *m;
DBusPendingCall *call;
m = dbus_message_new_method_call(BLUEZ_SERVICE,
"/",
"org.freedesktop.DBus.ObjectManager",
"GetManagedObjects");
dbus_connection_send_with_reply(monitor->conn, m, &call, -1);
dbus_pending_call_set_notify(call, get_managed_objects_reply, monitor, NULL);
dbus_message_unref(m);
}
static DBusHandlerResult filter_cb(DBusConnection *bus, DBusMessage *m, void *user_data)
{
struct spa_bt_monitor *monitor = user_data;
DBusError err;
dbus_error_init(&err);
if (dbus_message_is_signal(m, "org.freedesktop.DBus", "NameOwnerChanged")) {
const char *name, *old_owner, *new_owner;
spa_log_debug(monitor->log, "Name owner changed %s", dbus_message_get_path(m));
if (!dbus_message_get_args(m, &err,
DBUS_TYPE_STRING, &name,
DBUS_TYPE_STRING, &old_owner,
DBUS_TYPE_STRING, &new_owner,
DBUS_TYPE_INVALID)) {
spa_log_error(monitor->log, NAME": Failed to parse org.freedesktop.DBus.NameOwnerChanged: %s", err.message);
goto fail;
}
if (spa_streq(name, BLUEZ_SERVICE)) {
bool has_old_owner = old_owner && *old_owner;
bool has_new_owner = new_owner && *new_owner;
if (has_old_owner) {
spa_log_debug(monitor->log, "Bluetooth daemon disappeared");
}
if (has_old_owner || has_new_owner) {
struct spa_bt_adapter *a;
struct spa_bt_device *d;
struct spa_bt_remote_endpoint *ep;
struct spa_bt_transport *t;
monitor->objects_listed = false;
if (monitor->backend_native_registered) {
spa_bt_backend_unregister_profiles(monitor->backend_native);
monitor->backend_native_registered = false;
}
spa_list_consume(t, &monitor->transport_list, link)
spa_bt_transport_free(t);
spa_list_consume(ep, &monitor->remote_endpoint_list, link)
remote_endpoint_free(ep);
spa_list_consume(d, &monitor->device_list, link)
device_free(d);
spa_list_consume(a, &monitor->adapter_list, link)
adapter_free(a);
}
if (has_new_owner) {
spa_log_debug(monitor->log, "Bluetooth daemon appeared");
get_managed_objects(monitor);
}
} else if (spa_streq(name, OFONO_SERVICE) && monitor->backend_ofono) {
if (old_owner && *old_owner) {
spa_log_debug(monitor->log, "oFono daemon disappeared");
monitor->backend_ofono_registered = false;
spa_bt_backend_register_profiles(monitor->backend_native);
monitor->backend_native_registered = true;
}
if (new_owner && *new_owner) {
spa_log_debug(monitor->log, "oFono daemon appeared");
if (monitor->backend_native_registered) {
spa_bt_backend_unregister_profiles(monitor->backend_native);
monitor->backend_native_registered = false;
}
if (spa_bt_backend_register_profiles(monitor->backend_ofono) == 0)
monitor->backend_ofono_registered = true;
else {
spa_bt_backend_register_profiles(monitor->backend_native);
monitor->backend_native_registered = true;
}
}
} else if (spa_streq(name, HSPHFPD_SERVICE) && monitor->backend_hsphfpd) {
if (old_owner && *old_owner) {
spa_log_debug(monitor->log, "hsphfpd daemon disappeared");
spa_bt_backend_unregistered(monitor->backend_hsphfpd);
monitor->backend_hsphfpd_registered = false;
spa_bt_backend_register_profiles(monitor->backend_native);
monitor->backend_native_registered = true;
}
if (new_owner && *new_owner) {
spa_log_debug(monitor->log, "hsphfpd daemon appeared");
if (monitor->backend_native_registered) {
spa_bt_backend_unregister_profiles(monitor->backend_native);
monitor->backend_native_registered = false;
}
if (spa_bt_backend_register_profiles(monitor->backend_hsphfpd) == 0)
monitor->backend_hsphfpd_registered = true;
else {
spa_bt_backend_register_profiles(monitor->backend_native);
monitor->backend_native_registered = true;
}
}
}
} else if (dbus_message_is_signal(m, "org.freedesktop.DBus.ObjectManager", "InterfacesAdded")) {
DBusMessageIter it;
spa_log_debug(monitor->log, "interfaces added %s", dbus_message_get_path(m));
if (!monitor->objects_listed)
goto finish;
if (!dbus_message_iter_init(m, &it) || !spa_streq(dbus_message_get_signature(m), "oa{sa{sv}}")) {
spa_log_error(monitor->log, NAME": Invalid signature found in InterfacesAdded");
goto finish;
}
interfaces_added(monitor, &it);
} else if (dbus_message_is_signal(m, "org.freedesktop.DBus.ObjectManager", "InterfacesRemoved")) {
DBusMessageIter it;
spa_log_debug(monitor->log, "interfaces removed %s", dbus_message_get_path(m));
if (!monitor->objects_listed)
goto finish;
if (!dbus_message_iter_init(m, &it) || !spa_streq(dbus_message_get_signature(m), "oas")) {
spa_log_error(monitor->log, NAME": Invalid signature found in InterfacesRemoved");
goto finish;
}
interfaces_removed(monitor, &it);
} else if (dbus_message_is_signal(m, "org.freedesktop.DBus.Properties", "PropertiesChanged")) {
DBusMessageIter it[2];
const char *iface, *path;
if (!monitor->objects_listed)
goto finish;
if (!dbus_message_iter_init(m, &it[0]) ||
!spa_streq(dbus_message_get_signature(m), "sa{sv}as")) {
spa_log_error(monitor->log, "Invalid signature found in PropertiesChanged");
goto finish;
}
path = dbus_message_get_path(m);
dbus_message_iter_get_basic(&it[0], &iface);
dbus_message_iter_next(&it[0]);
dbus_message_iter_recurse(&it[0], &it[1]);
if (spa_streq(iface, BLUEZ_ADAPTER_INTERFACE)) {
struct spa_bt_adapter *a;
a = adapter_find(monitor, path);
if (a == NULL) {
spa_log_warn(monitor->log,
"Properties changed in unknown adapter %s", path);
goto finish;
}
spa_log_debug(monitor->log, "Properties changed in adapter %s", path);
adapter_update_props(a, &it[1], NULL);
}
else if (spa_streq(iface, BLUEZ_DEVICE_INTERFACE)) {
struct spa_bt_device *d;
d = spa_bt_device_find(monitor, path);
if (d == NULL) {
spa_log_debug(monitor->log,
"Properties changed in unknown device %s", path);
goto finish;
}
spa_log_debug(monitor->log, "Properties changed in device %s", path);
device_update_props(d, &it[1], NULL);
spa_bt_device_add_profile(d, SPA_BT_PROFILE_NULL);
}
else if (spa_streq(iface, BLUEZ_MEDIA_ENDPOINT_INTERFACE)) {
struct spa_bt_remote_endpoint *ep;
struct spa_bt_device *d;
ep = remote_endpoint_find(monitor, path);
if (ep == NULL) {
spa_log_debug(monitor->log,
"Properties changed in unknown remote endpoint %s", path);
goto finish;
}
spa_log_debug(monitor->log, "Properties changed in remote endpoint %s", path);
remote_endpoint_update_props(ep, &it[1], NULL);
d = ep->device;
if (d)
spa_bt_device_emit_profiles_changed(d, d->profiles, d->connected_profiles);
}
else if (spa_streq(iface, BLUEZ_MEDIA_TRANSPORT_INTERFACE)) {
struct spa_bt_transport *transport;
transport = spa_bt_transport_find(monitor, path);
if (transport == NULL) {
spa_log_warn(monitor->log,
"Properties changed in unknown transport %s", path);
goto finish;
}
spa_log_debug(monitor->log, "Properties changed in transport %s", path);
transport_update_props(transport, &it[1], NULL);
}
}
fail:
dbus_error_free(&err);
finish:
return DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
static void add_filters(struct spa_bt_monitor *this)
{
DBusError err;
if (this->filters_added)
return;
dbus_error_init(&err);
if (!dbus_connection_add_filter(this->conn, filter_cb, this, NULL)) {
spa_log_error(this->log, "failed to add filter function");
goto fail;
}
dbus_bus_add_match(this->conn,
"type='signal',sender='org.freedesktop.DBus',"
"interface='org.freedesktop.DBus',member='NameOwnerChanged',"
"arg0='" BLUEZ_SERVICE "'", &err);
#ifdef HAVE_BLUEZ_5_BACKEND_OFONO
dbus_bus_add_match(this->conn,
"type='signal',sender='org.freedesktop.DBus',"
"interface='org.freedesktop.DBus',member='NameOwnerChanged',"
"arg0='" OFONO_SERVICE "'", &err);
#endif
#ifdef HAVE_BLUEZ_5_BACKEND_HSPHFPD
dbus_bus_add_match(this->conn,
"type='signal',sender='org.freedesktop.DBus',"
"interface='org.freedesktop.DBus',member='NameOwnerChanged',"
"arg0='" HSPHFPD_SERVICE "'", &err);
#endif
dbus_bus_add_match(this->conn,
"type='signal',sender='" BLUEZ_SERVICE "',"
"interface='org.freedesktop.DBus.ObjectManager',member='InterfacesAdded'", &err);
dbus_bus_add_match(this->conn,
"type='signal',sender='" BLUEZ_SERVICE "',"
"interface='org.freedesktop.DBus.ObjectManager',member='InterfacesRemoved'", &err);
dbus_bus_add_match(this->conn,
"type='signal',sender='" BLUEZ_SERVICE "',"
"interface='org.freedesktop.DBus.Properties',member='PropertiesChanged',"
"arg0='" BLUEZ_ADAPTER_INTERFACE "'", &err);
dbus_bus_add_match(this->conn,
"type='signal',sender='" BLUEZ_SERVICE "',"
"interface='org.freedesktop.DBus.Properties',member='PropertiesChanged',"
"arg0='" BLUEZ_DEVICE_INTERFACE "'", &err);
dbus_bus_add_match(this->conn,
"type='signal',sender='" BLUEZ_SERVICE "',"
"interface='org.freedesktop.DBus.Properties',member='PropertiesChanged',"
"arg0='" BLUEZ_MEDIA_ENDPOINT_INTERFACE "'", &err);
dbus_bus_add_match(this->conn,
"type='signal',sender='" BLUEZ_SERVICE "',"
"interface='org.freedesktop.DBus.Properties',member='PropertiesChanged',"
"arg0='" BLUEZ_MEDIA_TRANSPORT_INTERFACE "'", &err);
this->filters_added = true;
return;
fail:
dbus_error_free(&err);
}
static int
impl_device_add_listener(void *object, struct spa_hook *listener,
const struct spa_device_events *events, void *data)
{
struct spa_bt_monitor *this = object;
struct spa_hook_list save;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(events != NULL, -EINVAL);
spa_hook_list_isolate(&this->hooks, &save, listener, events, data);
add_filters(this);
get_managed_objects(this);
if (this->backend_ofono)
spa_bt_backend_add_filters(this->backend_ofono);
if (this->backend_hsphfpd)
spa_bt_backend_add_filters(this->backend_hsphfpd);
spa_hook_list_join(&this->hooks, &save);
return 0;
}
static const struct spa_device_methods impl_device = {
SPA_VERSION_DEVICE_METHODS,
.add_listener = impl_device_add_listener,
};
static int impl_get_interface(struct spa_handle *handle, const char *type, void **interface)
{
struct spa_bt_monitor *this;
spa_return_val_if_fail(handle != NULL, -EINVAL);
spa_return_val_if_fail(interface != NULL, -EINVAL);
this = (struct spa_bt_monitor *) handle;
if (spa_streq(type, SPA_TYPE_INTERFACE_Device))
*interface = &this->device;
else
return -ENOENT;
return 0;
}
static int impl_clear(struct spa_handle *handle)
{
struct spa_bt_monitor *monitor;
struct spa_bt_adapter *a;
struct spa_bt_device *d;
struct spa_bt_remote_endpoint *ep;
struct spa_bt_transport *t;
monitor = (struct spa_bt_monitor *) handle;
/*
* We don't call BlueZ API unregister methods here, since BlueZ generally does the
* unregistration when the DBus connection is closed below. We'll unregister DBus
* object managers and filter callbacks though.
*/
unregister_media_application(monitor);
if (monitor->filters_added) {
dbus_connection_remove_filter(monitor->conn, filter_cb, monitor);
monitor->filters_added = false;
}
spa_list_consume(t, &monitor->transport_list, link)
spa_bt_transport_free(t);
spa_list_consume(ep, &monitor->remote_endpoint_list, link)
remote_endpoint_free(ep);
spa_list_consume(d, &monitor->device_list, link)
device_free(d);
spa_list_consume(a, &monitor->adapter_list, link)
adapter_free(a);
if (monitor->backend_native) {
spa_bt_backend_free(monitor->backend_native);
monitor->backend_native = NULL;
}
if (monitor->backend_ofono) {
spa_bt_backend_free(monitor->backend_ofono);
monitor->backend_ofono = NULL;
}
if (monitor->backend_hsphfpd) {
spa_bt_backend_free(monitor->backend_hsphfpd);
monitor->backend_hsphfpd = NULL;
}
free((void*)monitor->enabled_codecs.items);
spa_zero(monitor->enabled_codecs);
dbus_connection_unref(monitor->conn);
spa_dbus_connection_destroy(monitor->dbus_connection);
monitor->dbus_connection = NULL;
monitor->conn = NULL;
monitor->objects_listed = false;
monitor->connection_info_supported = false;
monitor->enable_sbc_xq = false;
monitor->backend_native_registered = false;
monitor->backend_ofono_registered = false;
monitor->backend_hsphfpd_registered = false;
spa_bt_quirks_destroy(monitor->quirks);
return 0;
}
static size_t
impl_get_size(const struct spa_handle_factory *factory,
const struct spa_dict *params)
{
return sizeof(struct spa_bt_monitor);
}
int spa_bt_profiles_from_json_array(const char *str)
{
struct spa_json it, it_array;
char role_name[256];
enum spa_bt_profile profiles = SPA_BT_PROFILE_NULL;
spa_json_init(&it, str, strlen(str));
if (spa_json_enter_array(&it, &it_array) <= 0)
return -EINVAL;
while (spa_json_get_string(&it_array, role_name, sizeof(role_name)) > 0) {
if (spa_streq(role_name, "hsp_hs")) {
profiles |= SPA_BT_PROFILE_HSP_HS;
} else if (spa_streq(role_name, "hsp_ag")) {
profiles |= SPA_BT_PROFILE_HSP_AG;
} else if (spa_streq(role_name, "hfp_hf")) {
profiles |= SPA_BT_PROFILE_HFP_HF;
} else if (spa_streq(role_name, "hfp_ag")) {
profiles |= SPA_BT_PROFILE_HFP_AG;
} else if (spa_streq(role_name, "a2dp_sink")) {
profiles |= SPA_BT_PROFILE_A2DP_SINK;
} else if (spa_streq(role_name, "a2dp_source")) {
profiles |= SPA_BT_PROFILE_A2DP_SOURCE;
}
}
return profiles;
}
static int parse_codec_array(struct spa_bt_monitor *this, const struct spa_dict *info)
{
const char *str;
struct spa_dict_item *codecs;
struct spa_json it, it_array;
char codec_name[256];
size_t num_codecs;
int i;
/* Parse bluez5.codecs property to a dict of enabled codecs */
num_codecs = 0;
while (a2dp_codecs[num_codecs])
++num_codecs;
codecs = calloc(num_codecs, sizeof(struct spa_dict_item));
if (codecs == NULL)
return -ENOMEM;
if (info == NULL || (str = spa_dict_lookup(info, "bluez5.codecs")) == NULL)
goto fallback;
spa_json_init(&it, str, strlen(str));
if (spa_json_enter_array(&it, &it_array) <= 0) {
spa_log_error(this->log, NAME": property bluez5.codecs '%s' is not an array", str);
goto fallback;
}
this->enabled_codecs = SPA_DICT_INIT(codecs, 0);
while (spa_json_get_string(&it_array, codec_name, sizeof(codec_name)) > 0) {
int i;
for (i = 0; a2dp_codecs[i]; ++i) {
const struct a2dp_codec *codec = a2dp_codecs[i];
if (!spa_streq(codec->name, codec_name))
continue;
if (spa_dict_lookup_item(&this->enabled_codecs, codec->name) != NULL)
continue;
spa_log_debug(this->log, NAME": enabling codec %s", codec->name);
spa_assert(this->enabled_codecs.n_items < num_codecs);
codecs[this->enabled_codecs.n_items].key = codec->name;
codecs[this->enabled_codecs.n_items].value = "true";
++this->enabled_codecs.n_items;
break;
}
}
spa_dict_qsort(&this->enabled_codecs);
for (i = 0; a2dp_codecs[i]; ++i) {
const struct a2dp_codec *codec = a2dp_codecs[i];
if (!is_a2dp_codec_enabled(this, codec))
spa_log_debug(this->log, NAME": disabling codec %s", codec->name);
}
return 0;
fallback:
for (i = 0; a2dp_codecs[i]; ++i) {
const struct a2dp_codec *codec = a2dp_codecs[i];
spa_log_debug(this->log, NAME": enabling codec %s", codec->name);
codecs[i].key = codec->name;
codecs[i].value = "true";
}
this->enabled_codecs = SPA_DICT_INIT(codecs, i);
spa_dict_qsort(&this->enabled_codecs);
return 0;
}
static int
impl_init(const struct spa_handle_factory *factory,
struct spa_handle *handle,
const struct spa_dict *info,
const struct spa_support *support,
uint32_t n_support)
{
struct spa_bt_monitor *this;
int res;
spa_return_val_if_fail(factory != NULL, -EINVAL);
spa_return_val_if_fail(handle != NULL, -EINVAL);
handle->get_interface = impl_get_interface;
handle->clear = impl_clear;
this = (struct spa_bt_monitor *) handle;
this->log = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_Log);
this->dbus = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_DBus);
this->main_loop = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_Loop);
this->main_system = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_System);
if (this->dbus == NULL) {
spa_log_error(this->log, "a dbus is needed");
return -EINVAL;
}
this->quirks = spa_bt_quirks_create(info, this->log);
if (this->quirks == NULL) {
spa_log_error(this->log, NAME ": failed to parse quirk table");
return -EINVAL;
}
this->dbus_connection = spa_dbus_get_connection(this->dbus, SPA_DBUS_TYPE_SYSTEM);
if (this->dbus_connection == NULL) {
spa_log_error(this->log, "no dbus connection");
return -EIO;
}
this->conn = spa_dbus_connection_get(this->dbus_connection);
if (this->conn == NULL) {
spa_log_error(this->log, "failed to get dbus connection");
spa_dbus_connection_destroy(this->dbus_connection);
this->dbus_connection = NULL;
return -EIO;
}
/* XXX: We should handle spa_dbus reconnecting, but we don't, so ref
* XXX: the handle so that we can keep it if spa_dbus unrefs it.
*/
dbus_connection_ref(this->conn);
spa_hook_list_init(&this->hooks);
this->device.iface = SPA_INTERFACE_INIT(
SPA_TYPE_INTERFACE_Device,
SPA_VERSION_DEVICE,
&impl_device, this);
spa_list_init(&this->adapter_list);
spa_list_init(&this->device_list);
spa_list_init(&this->remote_endpoint_list);
spa_list_init(&this->transport_list);
if ((res = parse_codec_array(this, info)) < 0)
return res;
this->default_audio_info.rate = A2DP_CODEC_DEFAULT_RATE;
this->default_audio_info.channels = A2DP_CODEC_DEFAULT_CHANNELS;
if (info) {
const char *str;
uint32_t tmp;
if ((str = spa_dict_lookup(info, "api.bluez5.connection-info")) != NULL &&
spa_atob(str))
this->connection_info_supported = true;
if ((str = spa_dict_lookup(info, "bluez5.default.rate")) != NULL &&
(tmp = atoi(str)) > 0)
this->default_audio_info.rate = tmp;
if ((str = spa_dict_lookup(info, "bluez5.default.channels")) != NULL &&
((tmp = atoi(str)) > 0))
this->default_audio_info.channels = tmp;
if ((str = spa_dict_lookup(info, "bluez5.enable-sbc-xq")) != NULL &&
spa_atob(str))
this->enable_sbc_xq = true;
}
register_media_application(this);
this->backend_native = backend_native_new(this, this->conn, info, this->quirks, support, n_support);
this->backend_ofono = backend_ofono_new(this, this->conn, info, this->quirks, support, n_support);
this->backend_hsphfpd = backend_hsphfpd_new(this, this->conn, info, this->quirks, support, n_support);
if (this->backend_ofono && spa_bt_backend_register_profiles(this->backend_ofono) == 0)
this->backend_ofono_registered = true;
else if (this->backend_hsphfpd && spa_bt_backend_register_profiles(this->backend_hsphfpd) == 0)
this->backend_hsphfpd_registered = true;
return 0;
}
static const struct spa_interface_info impl_interfaces[] = {
{SPA_TYPE_INTERFACE_Device,},
};
static int
impl_enum_interface_info(const struct spa_handle_factory *factory,
const struct spa_interface_info **info,
uint32_t *index)
{
spa_return_val_if_fail(factory != NULL, -EINVAL);
spa_return_val_if_fail(info != NULL, -EINVAL);
spa_return_val_if_fail(index != NULL, -EINVAL);
if (*index >= SPA_N_ELEMENTS(impl_interfaces))
return 0;
*info = &impl_interfaces[(*index)++];
return 1;
}
const struct spa_handle_factory spa_bluez5_dbus_factory = {
SPA_VERSION_HANDLE_FACTORY,
SPA_NAME_API_BLUEZ5_ENUM_DBUS,
NULL,
impl_get_size,
impl_init,
impl_enum_interface_info,
};
// Report battery percentage to BlueZ using experimental (BlueZ 5.56) Battery Provider API. No-op if no changes occurred.
int spa_bt_device_report_battery_level(struct spa_bt_device *device, uint8_t percentage)
{
if (percentage == SPA_BT_NO_BATTERY) {
battery_remove(device);
return 0;
}
// BlueZ likely is running without battery provider support, don't try to report battery
if (device->adapter->battery_provider_unavailable) return 0;
// If everything is initialized and battery level has not changed we don't need to send anything to BlueZ
if (device->adapter->has_battery_provider && device->has_battery && device->battery == percentage) return 1;
device->battery = percentage;
if (!device->adapter->has_battery_provider) {
// No provider: register it, create battery when registered
register_battery_provider(device);
} else if (!device->has_battery) {
// Have provider but no battery: create battery with correct percentage
battery_create(device);
} else {
// Just update existing battery percentage
battery_update(device);
}
return 1;
}
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