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gfiber / vendor / opensource / bluez / 4bea860211a1c441ed68b0e9dbbc95757f8040e0 / . / android / avrcp.c
blob: 8c3e25a952b483b693248d9cb385b6d59eea749c [file] [log] [blame]
/*
*
* BlueZ - Bluetooth protocol stack for Linux
*
* Copyright (C) 2013-2014 Intel Corporation. All rights reserved.
*
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdlib.h>
#include <stdbool.h>
#include <errno.h>
#include <glib.h>
#include "btio/btio.h"
#include "lib/bluetooth.h"
#include "lib/sdp.h"
#include "lib/sdp_lib.h"
#include "src/sdp-client.h"
#include "src/shared/util.h"
#include "src/log.h"
#include "avctp.h"
#include "avrcp-lib.h"
#include "hal-msg.h"
#include "ipc-common.h"
#include "ipc.h"
#include "bluetooth.h"
#include "avrcp.h"
#include "utils.h"
#define L2CAP_PSM_AVCTP 0x17
static bdaddr_t adapter_addr;
static uint32_t record_tg_id = 0;
static uint32_t record_ct_id = 0;
static GSList *devices = NULL;
static GIOChannel *server = NULL;
static struct ipc *hal_ipc = NULL;
struct avrcp_request {
struct avrcp_device *dev;
uint8_t pdu_id;
uint8_t event_id;
uint8_t transaction;
};
struct avrcp_device {
bdaddr_t dst;
uint16_t version;
uint16_t features;
struct avrcp *session;
GIOChannel *io;
GQueue *queue;
};
static struct avrcp_request *pop_request(uint8_t pdu_id, uint8_t event_id,
bool peek)
{
GSList *l;
for (l = devices; l; l = g_slist_next(l)) {
struct avrcp_device *dev = l->data;
GList *reqs = g_queue_peek_head_link(dev->queue);
int i;
for (i = 0; reqs; reqs = g_list_next(reqs), i++) {
struct avrcp_request *req = reqs->data;
if (req->pdu_id != pdu_id || req->event_id != event_id)
continue;
if (!peek)
g_queue_pop_nth(dev->queue, i);
return req;
}
}
return NULL;
}
static void handle_get_play_status(const void *buf, uint16_t len)
{
const struct hal_cmd_avrcp_get_play_status *cmd = buf;
uint8_t status;
struct avrcp_request *req;
int ret;
DBG("");
req = pop_request(AVRCP_GET_PLAY_STATUS, 0, false);
if (!req) {
status = HAL_STATUS_FAILED;
goto done;
}
ret = avrcp_get_play_status_rsp(req->dev->session, req->transaction,
cmd->position, cmd->duration,
cmd->status);
if (ret < 0) {
status = HAL_STATUS_FAILED;
g_free(req);
goto done;
}
status = HAL_STATUS_SUCCESS;
g_free(req);
done:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_GET_PLAY_STATUS, status);
}
static void handle_list_player_attrs(const void *buf, uint16_t len)
{
DBG("");
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_LIST_PLAYER_ATTRS, HAL_STATUS_FAILED);
}
static void handle_list_player_values(const void *buf, uint16_t len)
{
DBG("");
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_LIST_PLAYER_VALUES, HAL_STATUS_FAILED);
}
static void handle_get_player_attrs(const void *buf, uint16_t len)
{
DBG("");
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_GET_PLAYER_ATTRS, HAL_STATUS_FAILED);
}
static void handle_get_player_attrs_text(const void *buf, uint16_t len)
{
DBG("");
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_GET_PLAYER_ATTRS_TEXT, HAL_STATUS_FAILED);
}
static void handle_get_player_values_text(const void *buf, uint16_t len)
{
DBG("");
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_GET_PLAYER_VALUES_TEXT, HAL_STATUS_FAILED);
}
static size_t write_element_text(uint8_t id, uint8_t text_len, uint8_t *text,
uint8_t *pdu)
{
uint16_t charset = 106;
size_t len = 0;
put_be32(id, pdu);
pdu += 4;
len += 4;
put_be16(charset, pdu);
pdu += 2;
len += 2;
put_be16(text_len, pdu);
pdu += 2;
len += 2;
memcpy(pdu, text, text_len);
len += text_len;
return len;
}
static void write_element_attrs(uint8_t *ptr, uint8_t number, uint8_t *pdu,
size_t *len)
{
int i;
*pdu = number;
pdu++;
*len += 1;
for (i = 0; i < number; i++) {
struct hal_avrcp_player_setting_text *text = (void *) ptr;
size_t ret;
ret = write_element_text(text->id, text->len, text->text, pdu);
ptr += sizeof(*text) + text->len;
pdu += ret;
*len += ret;
}
}
static void handle_get_element_attrs_text(const void *buf, uint16_t len)
{
struct hal_cmd_avrcp_get_element_attrs_text *cmd = (void *) buf;
uint8_t status;
struct avrcp_request *req;
uint8_t pdu[IPC_MTU];
uint8_t *ptr;
size_t pdu_len;
int ret;
DBG("");
req = pop_request(AVRCP_GET_ELEMENT_ATTRIBUTES, 0, false);
if (!req) {
status = HAL_STATUS_FAILED;
goto done;
}
ptr = (uint8_t *) &cmd->values[0];
pdu_len = 0;
write_element_attrs(ptr, cmd->number, pdu, &pdu_len);
ret = avrcp_get_element_attrs_rsp(req->dev->session, req->transaction,
pdu, pdu_len);
if (ret < 0) {
status = HAL_STATUS_FAILED;
g_free(req);
goto done;
}
status = HAL_STATUS_SUCCESS;
g_free(req);
done:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_GET_ELEMENT_ATTRS_TEXT, status);
}
static void handle_set_player_attrs_value(const void *buf, uint16_t len)
{
DBG("");
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_SET_PLAYER_ATTRS_VALUE, HAL_STATUS_FAILED);
}
static void handle_register_notification(const void *buf, uint16_t len)
{
struct hal_cmd_avrcp_register_notification *cmd = (void *) buf;
uint8_t status;
struct avrcp_request *req;
uint8_t code;
bool peek = false;
int ret;
DBG("");
switch (cmd->type) {
case HAL_AVRCP_EVENT_TYPE_INTERIM:
code = AVC_CTYPE_INTERIM;
peek = true;
break;
case HAL_AVRCP_EVENT_TYPE_CHANGED:
code = AVC_CTYPE_CHANGED;
break;
default:
status = HAL_STATUS_FAILED;
goto done;
}
req = pop_request(AVRCP_REGISTER_NOTIFICATION, cmd->event, peek);
if (!req) {
status = HAL_STATUS_FAILED;
goto done;
}
ret = avrcp_register_notification_rsp(req->dev->session,
req->transaction, code,
cmd->event, cmd->data,
cmd->len);
if (ret < 0) {
status = HAL_STATUS_FAILED;
if (!peek)
g_free(req);
goto done;
}
status = HAL_STATUS_SUCCESS;
if (!peek)
g_free(req);
done:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_OP_AVRCP_REGISTER_NOTIFICATION, status);
}
static void handle_set_volume(const void *buf, uint16_t len)
{
struct hal_cmd_avrcp_set_volume *cmd = (void *) buf;
struct avrcp_device *dev;
uint8_t status;
int ret;
DBG("");
if (!devices) {
error("AVRCP: No device found to set volume");
status = HAL_STATUS_FAILED;
goto done;
}
/*
* Peek the first device since the HAL cannot really address a specific
* device it might mean there could only be one connected.
*/
dev = devices->data;
ret = avrcp_set_volume(dev->session, cmd->value & 0x7f);
if (ret < 0) {
status = HAL_STATUS_FAILED;
goto done;
}
status = HAL_STATUS_SUCCESS;
done:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_AVRCP, HAL_OP_AVRCP_SET_VOLUME,
status);
}
static const struct ipc_handler cmd_handlers[] = {
/* HAL_OP_AVRCP_GET_PLAY_STATUS */
{ handle_get_play_status, false,
sizeof(struct hal_cmd_avrcp_get_play_status) },
/* HAL_OP_AVRCP_LIST_PLAYER_ATTRS */
{ handle_list_player_attrs, true,
sizeof(struct hal_cmd_avrcp_list_player_attrs) },
/* HAL_OP_AVRCP_LIST_PLAYER_VALUES */
{ handle_list_player_values, true,
sizeof(struct hal_cmd_avrcp_list_player_values) },
/* HAL_OP_AVRCP_GET_PLAYER_ATTRS */
{ handle_get_player_attrs, true,
sizeof(struct hal_cmd_avrcp_get_player_attrs) },
/* HAL_OP_AVRCP_GET_PLAYER_ATTRS_TEXT */
{ handle_get_player_attrs_text, true,
sizeof(struct hal_cmd_avrcp_get_player_attrs_text) },
/* HAL_OP_AVRCP_GET_PLAYER_VALUES_TEXT */
{ handle_get_player_values_text, true,
sizeof(struct hal_cmd_avrcp_get_player_values_text) },
/* HAL_OP_AVRCP_GET_ELEMENT_ATTRS_TEXT */
{ handle_get_element_attrs_text, true,
sizeof(struct hal_cmd_avrcp_get_element_attrs_text) },
/* HAL_OP_AVRCP_SET_PLAYER_ATTRS_VALUE */
{ handle_set_player_attrs_value, true,
sizeof(struct hal_cmd_avrcp_set_player_attrs_value) },
/* HAL_OP_AVRCP_REGISTER_NOTIFICATION */
{ handle_register_notification, true,
sizeof(struct hal_cmd_avrcp_register_notification) },
/* HAL_OP_AVRCP_SET_VOLUME */
{ handle_set_volume, false, sizeof(struct hal_cmd_avrcp_set_volume) },
};
static sdp_record_t *avrcp_tg_record(void)
{
sdp_list_t *svclass_id, *pfseq, *apseq, *root;
uuid_t root_uuid, l2cap, avctp, avrtg;
sdp_profile_desc_t profile[1];
sdp_list_t *aproto_control, *proto_control[2];
sdp_record_t *record;
sdp_data_t *psm, *version, *features;
uint16_t lp = L2CAP_PSM_AVCTP;
uint16_t avrcp_ver = 0x0105, avctp_ver = 0x0104;
uint16_t feat = (AVRCP_FEATURE_CATEGORY_1 |
AVRCP_FEATURE_CATEGORY_2 |
AVRCP_FEATURE_CATEGORY_3 |
AVRCP_FEATURE_CATEGORY_4);
record = sdp_record_alloc();
if (!record)
return NULL;
sdp_uuid16_create(&root_uuid, PUBLIC_BROWSE_GROUP);
root = sdp_list_append(NULL, &root_uuid);
sdp_set_browse_groups(record, root);
/* Service Class ID List */
sdp_uuid16_create(&avrtg, AV_REMOTE_TARGET_SVCLASS_ID);
svclass_id = sdp_list_append(NULL, &avrtg);
sdp_set_service_classes(record, svclass_id);
/* Protocol Descriptor List */
sdp_uuid16_create(&l2cap, L2CAP_UUID);
proto_control[0] = sdp_list_append(NULL, &l2cap);
psm = sdp_data_alloc(SDP_UINT16, &lp);
proto_control[0] = sdp_list_append(proto_control[0], psm);
apseq = sdp_list_append(NULL, proto_control[0]);
sdp_uuid16_create(&avctp, AVCTP_UUID);
proto_control[1] = sdp_list_append(NULL, &avctp);
version = sdp_data_alloc(SDP_UINT16, &avctp_ver);
proto_control[1] = sdp_list_append(proto_control[1], version);
apseq = sdp_list_append(apseq, proto_control[1]);
aproto_control = sdp_list_append(NULL, apseq);
sdp_set_access_protos(record, aproto_control);
/* Bluetooth Profile Descriptor List */
sdp_uuid16_create(&profile[0].uuid, AV_REMOTE_PROFILE_ID);
profile[0].version = avrcp_ver;
pfseq = sdp_list_append(NULL, &profile[0]);
sdp_set_profile_descs(record, pfseq);
features = sdp_data_alloc(SDP_UINT16, &feat);
sdp_attr_add(record, SDP_ATTR_SUPPORTED_FEATURES, features);
sdp_set_info_attr(record, "AVRCP TG", NULL, NULL);
sdp_data_free(psm);
sdp_data_free(version);
sdp_list_free(proto_control[0], NULL);
sdp_list_free(proto_control[1], NULL);
sdp_list_free(apseq, NULL);
sdp_list_free(aproto_control, NULL);
sdp_list_free(pfseq, NULL);
sdp_list_free(root, NULL);
sdp_list_free(svclass_id, NULL);
return record;
}
static sdp_record_t *avrcp_ct_record(void)
{
sdp_list_t *svclass_id, *pfseq, *apseq, *root;
uuid_t root_uuid, l2cap, avctp, avrct, avrctr;
sdp_profile_desc_t profile[1];
sdp_list_t *aproto, *proto[2];
sdp_record_t *record;
sdp_data_t *psm, *version, *features;
uint16_t lp = AVCTP_CONTROL_PSM;
uint16_t avrcp_ver = 0x0105, avctp_ver = 0x0104;
uint16_t feat = ( AVRCP_FEATURE_CATEGORY_1 |
AVRCP_FEATURE_CATEGORY_2 |
AVRCP_FEATURE_CATEGORY_3 |
AVRCP_FEATURE_CATEGORY_4);
record = sdp_record_alloc();
if (!record)
return NULL;
sdp_uuid16_create(&root_uuid, PUBLIC_BROWSE_GROUP);
root = sdp_list_append(NULL, &root_uuid);
sdp_set_browse_groups(record, root);
/* Service Class ID List */
sdp_uuid16_create(&avrct, AV_REMOTE_SVCLASS_ID);
svclass_id = sdp_list_append(NULL, &avrct);
sdp_uuid16_create(&avrctr, AV_REMOTE_CONTROLLER_SVCLASS_ID);
svclass_id = sdp_list_append(svclass_id, &avrctr);
sdp_set_service_classes(record, svclass_id);
/* Protocol Descriptor List */
sdp_uuid16_create(&l2cap, L2CAP_UUID);
proto[0] = sdp_list_append(NULL, &l2cap);
psm = sdp_data_alloc(SDP_UINT16, &lp);
proto[0] = sdp_list_append(proto[0], psm);
apseq = sdp_list_append(NULL, proto[0]);
sdp_uuid16_create(&avctp, AVCTP_UUID);
proto[1] = sdp_list_append(NULL, &avctp);
version = sdp_data_alloc(SDP_UINT16, &avctp_ver);
proto[1] = sdp_list_append(proto[1], version);
apseq = sdp_list_append(apseq, proto[1]);
aproto = sdp_list_append(NULL, apseq);
sdp_set_access_protos(record, aproto);
/* Bluetooth Profile Descriptor List */
sdp_uuid16_create(&profile[0].uuid, AV_REMOTE_PROFILE_ID);
profile[0].version = avrcp_ver;
pfseq = sdp_list_append(NULL, &profile[0]);
sdp_set_profile_descs(record, pfseq);
features = sdp_data_alloc(SDP_UINT16, &feat);
sdp_attr_add(record, SDP_ATTR_SUPPORTED_FEATURES, features);
sdp_set_info_attr(record, "AVRCP CT", NULL, NULL);
free(psm);
free(version);
sdp_list_free(proto[0], NULL);
sdp_list_free(proto[1], NULL);
sdp_list_free(apseq, NULL);
sdp_list_free(pfseq, NULL);
sdp_list_free(aproto, NULL);
sdp_list_free(root, NULL);
sdp_list_free(svclass_id, NULL);
return record;
}
static void avrcp_device_free(void *data)
{
struct avrcp_device *dev = data;
if (dev->queue) {
g_queue_foreach(dev->queue, (GFunc) g_free, NULL);
g_queue_free(dev->queue);
}
if (dev->session)
avrcp_shutdown(dev->session);
if (dev->io) {
g_io_channel_shutdown(dev->io, FALSE, NULL);
g_io_channel_unref(dev->io);
}
g_free(dev);
}
static void avrcp_device_remove(struct avrcp_device *dev)
{
devices = g_slist_remove(devices, dev);
avrcp_device_free(dev);
}
static struct avrcp_device *avrcp_device_new(const bdaddr_t *dst)
{
struct avrcp_device *dev;
dev = g_new0(struct avrcp_device, 1);
bacpy(&dev->dst, dst);
devices = g_slist_prepend(devices, dev);
return dev;
}
static int device_cmp(gconstpointer s, gconstpointer user_data)
{
const struct avrcp_device *dev = s;
const bdaddr_t *dst = user_data;
return bacmp(&dev->dst, dst);
}
static struct avrcp_device *avrcp_device_find(const bdaddr_t *dst)
{
GSList *l;
l = g_slist_find_custom(devices, dst, device_cmp);
if (!l)
return NULL;
return l->data;
}
static void disconnect_cb(void *data)
{
struct avrcp_device *dev = data;
DBG("");
dev->session = NULL;
avrcp_device_remove(dev);
}
static bool handle_fast_forward(struct avrcp *session, bool pressed,
void *user_data)
{
struct hal_ev_avrcp_passthrough_cmd ev;
DBG("pressed %s", pressed ? "true" : "false");
ev.id = AVC_FAST_FORWARD;
ev.state = pressed;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_EV_AVRCP_PASSTHROUGH_CMD, sizeof(ev), &ev);
return true;
}
static bool handle_rewind(struct avrcp *session, bool pressed,
void *user_data)
{
struct hal_ev_avrcp_passthrough_cmd ev;
DBG("pressed %s", pressed ? "true" : "false");
ev.id = AVC_REWIND;
ev.state = pressed;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_EV_AVRCP_PASSTHROUGH_CMD, sizeof(ev), &ev);
return true;
}
static const struct avrcp_passthrough_handler passthrough_handlers[] = {
{ AVC_FAST_FORWARD, handle_fast_forward },
{ AVC_REWIND, handle_rewind },
{ },
};
static int handle_get_capabilities_cmd(struct avrcp *session,
uint8_t transaction, void *user_data)
{
uint8_t events[] = { AVRCP_EVENT_STATUS_CHANGED,
AVRCP_EVENT_TRACK_CHANGED,
AVRCP_EVENT_PLAYBACK_POS_CHANGED };
DBG("");
/*
* Android do not provide this info via HAL so the list most
* be hardcoded according to what RegisterNotification can
* actually handle
*/
avrcp_get_capabilities_rsp(session, transaction, sizeof(events),
events);
return 0;
}
static void push_request(struct avrcp_device *dev, uint8_t pdu_id,
uint8_t event_id, uint8_t transaction)
{
struct avrcp_request *req;
req = g_new0(struct avrcp_request, 1);
req->dev = dev;
req->pdu_id = pdu_id;
req->event_id = event_id;
req->transaction = transaction;
g_queue_push_tail(dev->queue, req);
}
static int handle_get_play_status_cmd(struct avrcp *session,
uint8_t transaction, void *user_data)
{
struct avrcp_device *dev = user_data;
DBG("");
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_EV_AVRCP_GET_PLAY_STATUS, 0, NULL);
push_request(dev, AVRCP_GET_PLAY_STATUS, 0, transaction);
return 0;
}
static int handle_get_element_attrs_cmd(struct avrcp *session,
uint8_t transaction, uint64_t uid,
uint8_t number, uint32_t *attrs,
void *user_data)
{
struct avrcp_device *dev = user_data;
uint8_t buf[IPC_MTU];
struct hal_ev_avrcp_get_element_attrs *ev = (void *) buf;
int i;
DBG("");
ev->number = number;
/* Set everything in case of empty list */
if (ev->number == 0) {
for (i = 0; i < HAL_AVRCP_MEDIA_ATTR_DURATION; i++) {
/* Skip 0x00 as the attributes start with 0x01 */
ev->attrs[i] = i + 1;
}
ev->number = i;
goto done;
}
for (i = 0; i < number; i++)
ev->attrs[i] = attrs[i];
done:
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_EV_AVRCP_GET_ELEMENT_ATTRS,
sizeof(*ev) + ev->number, ev);
push_request(dev, AVRCP_GET_ELEMENT_ATTRIBUTES, 0, transaction);
return 0;
}
static int handle_register_notification_cmd(struct avrcp *session,
uint8_t transaction,
uint8_t event,
uint32_t interval,
void *user_data)
{
struct avrcp_device *dev = user_data;
struct hal_ev_avrcp_register_notification ev;
DBG("");
/* TODO: Add any missing events supported by Android */
switch (event) {
case AVRCP_EVENT_STATUS_CHANGED:
case AVRCP_EVENT_TRACK_CHANGED:
case AVRCP_EVENT_PLAYBACK_POS_CHANGED:
break;
default:
return -EINVAL;
}
ev.event = event;
ev.param = interval;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_EV_AVRCP_REGISTER_NOTIFICATION,
sizeof(ev), &ev);
push_request(dev, AVRCP_REGISTER_NOTIFICATION, event, transaction);
return 0;
}
static const struct avrcp_control_ind control_ind = {
.get_capabilities = handle_get_capabilities_cmd,
.get_play_status = handle_get_play_status_cmd,
.get_element_attributes = handle_get_element_attrs_cmd,
.register_notification = handle_register_notification_cmd,
};
static bool handle_register_notification_rsp(struct avrcp *session, int err,
uint8_t code, uint8_t event,
void *params,
void *user_data)
{
struct avrcp_device *dev = user_data;
struct hal_ev_avrcp_volume_changed ev;
uint8_t *volume = params;
if (err < 0) {
error("AVRCP: %s", strerror(-err));
return false;
}
if (code != AVC_CTYPE_INTERIM && code != AVC_CTYPE_CHANGED)
return false;
if (event != AVRCP_EVENT_VOLUME_CHANGED)
return false;
ev.type = code;
ev.volume = volume[0];
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_EV_AVRCP_VOLUME_CHANGED,
sizeof(ev), &ev);
if (code == AVC_CTYPE_INTERIM)
return true;
avrcp_register_notification(dev->session, event, 0);
return false;
}
static void handle_get_capabilities_rsp(struct avrcp *session, int err,
uint8_t number, uint8_t *events,
void *user_data)
{
struct avrcp_device *dev = user_data;
int i;
if (err < 0) {
error("AVRCP: %s", strerror(-err));
return;
}
for (i = 0; i < number; i++) {
if (events[i] != AVRCP_EVENT_VOLUME_CHANGED)
continue;
avrcp_register_notification(dev->session, events[i], 0);
break;
}
return;
}
static void handle_set_volume_rsp(struct avrcp *session, int err,
uint8_t value, void *user_data)
{
struct hal_ev_avrcp_volume_changed ev;
if (err < 0) {
ev.volume = 0;
ev.type = AVC_CTYPE_REJECTED;
goto done;
}
ev.volume = value;
ev.type = AVC_CTYPE_ACCEPTED;
done:
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_EV_AVRCP_VOLUME_CHANGED,
sizeof(ev), &ev);
}
static const struct avrcp_control_cfm control_cfm = {
.get_capabilities = handle_get_capabilities_rsp,
.register_notification = handle_register_notification_rsp,
.set_volume = handle_set_volume_rsp,
};
static int avrcp_device_add_session(struct avrcp_device *dev, int fd,
uint16_t imtu, uint16_t omtu)
{
struct hal_ev_avrcp_remote_features ev;
char address[18];
dev->session = avrcp_new(fd, imtu, omtu, dev->version);
if (!dev->session)
return -EINVAL;
avrcp_set_destroy_cb(dev->session, disconnect_cb, dev);
avrcp_set_passthrough_handlers(dev->session, passthrough_handlers,
dev);
avrcp_register_player(dev->session, &control_ind, &control_cfm, dev);
dev->queue = g_queue_new();
ba2str(&dev->dst, address);
/* FIXME: get the real name of the device */
avrcp_init_uinput(dev->session, "bluetooth", address);
bdaddr2android(&dev->dst, ev.bdaddr);
ev.features = HAL_AVRCP_FEATURE_NONE;
DBG("version 0x%02x", dev->version);
if (dev->version < 0x0103)
goto done;
ev.features |= HAL_AVRCP_FEATURE_METADATA;
if (dev->version < 0x0104)
goto done;
ev.features |= HAL_AVRCP_FEATURE_ABSOLUTE_VOLUME;
avrcp_get_capabilities(dev->session, CAP_EVENTS_SUPPORTED);
done:
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_AVRCP,
HAL_EV_AVRCP_REMOTE_FEATURES,
sizeof(ev), &ev);
return 0;
}
static void connect_cb(GIOChannel *chan, GError *err, gpointer user_data)
{
struct avrcp_device *dev = user_data;
uint16_t imtu, omtu;
char address[18];
GError *gerr = NULL;
int fd;
if (err) {
error("%s", err->message);
return;
}
bt_io_get(chan, &gerr,
BT_IO_OPT_DEST, address,
BT_IO_OPT_IMTU, &imtu,
BT_IO_OPT_OMTU, &omtu,
BT_IO_OPT_INVALID);
if (gerr) {
error("%s", gerr->message);
g_error_free(gerr);
g_io_channel_shutdown(chan, TRUE, NULL);
return;
}
fd = g_io_channel_unix_get_fd(chan);
if (avrcp_device_add_session(dev, fd, imtu, omtu) < 0) {
avrcp_device_free(dev);
return;
}
g_io_channel_set_close_on_unref(chan, FALSE);
if (dev->io) {
g_io_channel_unref(dev->io);
dev->io = NULL;
}
DBG("%s connected", address);
}
static bool avrcp_device_connect(struct avrcp_device *dev, BtIOConnect cb)
{
GError *err = NULL;
dev->io = bt_io_connect(cb, dev, NULL, &err,
BT_IO_OPT_SOURCE_BDADDR, &adapter_addr,
BT_IO_OPT_DEST_BDADDR, &dev->dst,
BT_IO_OPT_PSM, L2CAP_PSM_AVCTP,
BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_MEDIUM,
BT_IO_OPT_INVALID);
if (err) {
error("%s", err->message);
g_error_free(err);
return false;
}
return true;
}
static void search_cb(sdp_list_t *recs, int err, gpointer data)
{
struct avrcp_device *dev = data;
sdp_list_t *list;
DBG("");
if (!g_slist_find(devices, dev))
return;
if (err < 0) {
error("Unable to get AV_REMOTE_SVCLASS_ID SDP record: %s",
strerror(-err));
goto fail;
}
if (!recs || !recs->data) {
error("No AVRCP records found");
goto fail;
}
for (list = recs; list; list = list->next) {
sdp_record_t *rec = list->data;
sdp_list_t *l;
sdp_profile_desc_t *desc;
int features;
if (sdp_get_profile_descs(rec, &l) < 0)
continue;
desc = l->data;
dev->version = desc->version;
if (sdp_get_int_attr(rec, SDP_ATTR_SUPPORTED_FEATURES,
&features) == 0)
dev->features = features;
sdp_list_free(l, free);
break;
}
if (dev->io) {
GError *gerr = NULL;
if (!bt_io_accept(dev->io, connect_cb, dev, NULL, &gerr)) {
error("bt_io_accept: %s", gerr->message);
g_error_free(gerr);
goto fail;
}
return;
}
if (!avrcp_device_connect(dev, connect_cb)) {
error("Unable to connect to AVRCP");
goto fail;
}
return;
fail:
avrcp_device_remove(dev);
}
static int avrcp_device_search(struct avrcp_device *dev)
{
uuid_t uuid;
sdp_uuid16_create(&uuid, AV_REMOTE_SVCLASS_ID);
return bt_search_service(&adapter_addr, &dev->dst, &uuid, search_cb,
dev, NULL, 0);
}
static void confirm_cb(GIOChannel *chan, gpointer data)
{
struct avrcp_device *dev;
char address[18];
bdaddr_t dst;
GError *err = NULL;
bt_io_get(chan, &err,
BT_IO_OPT_DEST_BDADDR, &dst,
BT_IO_OPT_DEST, address,
BT_IO_OPT_INVALID);
if (err) {
error("%s", err->message);
g_error_free(err);
g_io_channel_shutdown(chan, TRUE, NULL);
return;
}
DBG("incoming connect from %s", address);
dev = avrcp_device_find(&dst);
if (dev && dev->session) {
error("AVRCP: Refusing unexpected connect");
g_io_channel_shutdown(chan, TRUE, NULL);
return;
}
dev = avrcp_device_new(&dst);
if (avrcp_device_search(dev) < 0) {
error("AVRCP: Failed to search SDP details");
avrcp_device_free(dev);
g_io_channel_shutdown(chan, TRUE, NULL);
}
dev->io = g_io_channel_ref(chan);
}
bool bt_avrcp_register(struct ipc *ipc, const bdaddr_t *addr, uint8_t mode)
{
GError *err = NULL;
sdp_record_t *rec;
DBG("");
bacpy(&adapter_addr, addr);
server = bt_io_listen(NULL, confirm_cb, NULL, NULL, &err,
BT_IO_OPT_SOURCE_BDADDR, &adapter_addr,
BT_IO_OPT_PSM, L2CAP_PSM_AVCTP,
BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_MEDIUM,
BT_IO_OPT_INVALID);
if (!server) {
error("Failed to listen on AVDTP channel: %s", err->message);
g_error_free(err);
return false;
}
rec = avrcp_tg_record();
if (!rec) {
error("Failed to allocate AVRCP TG record");
goto fail;
}
if (bt_adapter_add_record(rec, 0) < 0) {
error("Failed to register AVRCP TG record");
sdp_record_free(rec);
goto fail;
}
record_tg_id = rec->handle;
rec = avrcp_ct_record();
if (!rec) {
error("Failed to allocate AVRCP CT record");
bt_adapter_remove_record(record_tg_id);
goto fail;
}
if (bt_adapter_add_record(rec, 0) < 0) {
error("Failed to register AVRCP CT record");
bt_adapter_remove_record(record_tg_id);
sdp_record_free(rec);
goto fail;
}
record_ct_id = rec->handle;
hal_ipc = ipc;
ipc_register(hal_ipc, HAL_SERVICE_ID_AVRCP, cmd_handlers,
G_N_ELEMENTS(cmd_handlers));
return true;
fail:
g_io_channel_shutdown(server, TRUE, NULL);
g_io_channel_unref(server);
server = NULL;
return false;
}
void bt_avrcp_unregister(void)
{
DBG("");
g_slist_free_full(devices, avrcp_device_free);
devices = NULL;
ipc_unregister(hal_ipc, HAL_SERVICE_ID_AVRCP);
hal_ipc = NULL;
bt_adapter_remove_record(record_tg_id);
record_tg_id = 0;
bt_adapter_remove_record(record_ct_id);
record_ct_id = 0;
if (server) {
g_io_channel_shutdown(server, TRUE, NULL);
g_io_channel_unref(server);
server = NULL;
}
}
void bt_avrcp_connect(const bdaddr_t *dst)
{
struct avrcp_device *dev;
char addr[18];
DBG("");
if (avrcp_device_find(dst))
return;
dev = avrcp_device_new(dst);
if (avrcp_device_search(dev) < 0) {
error("AVRCP: Failed to search SDP details");
avrcp_device_free(dev);
}
ba2str(&dev->dst, addr);
DBG("connecting to %s", addr);
}
void bt_avrcp_disconnect(const bdaddr_t *dst)
{
struct avrcp_device *dev;
DBG("");
dev = avrcp_device_find(dst);
if (!dev)
return;
if (dev->session) {
avrcp_shutdown(dev->session);
return;
}
avrcp_device_remove(dev);
}