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//
// Copyright (C) 2017 Google, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at:
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#include "service/avrcp_target.h"
#include <algorithm>
#include <cerrno>
#include <climits>
#include <string>
#include "base/logging.h"
#include "base/macros.h"
#include "base/memory/ptr_util.h"
#include "service/logging_helpers.h"
#include "array_utils.h"
#include "stack/include/avrc_defs.h"
#define PARSE_ADDR(str) \
({ \
RawAddress tmp; \
if (!RawAddress::FromString((str), tmp)) { \
LOG(ERROR) << "Invalid device address given: " << (str); \
return false; \
} \
tmp; \
})
#define TRY_RET(expr, err_msg) \
do { \
if (!(expr)) { \
LOG(ERROR) << err_msg; \
return false; \
} \
return true; \
} while (0)
#define TRY_RET_FUNC(expr) TRY_RET(expr, __func__ << " failed")
using LockGuard = std::lock_guard<std::mutex>;
namespace bluetooth {
namespace {
std::vector<btrc_player_setting_text_t> StringValueToPlayerSettingsText(
const std::vector<AvrcpStringValue>& attrs) {
std::vector<btrc_player_setting_text_t> btrc_attrs(attrs.size());
for (size_t i = 0; i < attrs.size(); ++i) {
btrc_attrs[i].id = attrs[i].id();
std::string str(attrs[i].value());
size_t to_copy = std::min(sizeof(btrc_attrs[i].text) - 1, str.size());
if (to_copy < str.size()) {
LOG(WARNING) << "Value truncated";
}
memcpy(btrc_attrs[i].text, str.data(), to_copy);
btrc_attrs[i].text[to_copy] = '\0';
}
return btrc_attrs;
}
std::vector<btrc_element_attr_val_t> StringValueToElementAttrVal(
const std::vector<AvrcpStringValue>& attrs) {
std::vector<btrc_element_attr_val_t> btrc_attrs(attrs.size());
for (size_t i = 0; i < attrs.size(); ++i) {
btrc_attrs[i].attr_id = attrs[i].id();
std::string str(attrs[i].value());
size_t to_copy = std::min(sizeof(btrc_attrs[i].text) - 1, str.size());
if (to_copy < str.size()) {
LOG(WARNING) << "Value truncated";
}
memcpy(btrc_attrs[i].text, str.data(), to_copy);
btrc_attrs[i].text[to_copy] = '\0';
}
return btrc_attrs;
}
} // namespace
// static
const int AvrcpTarget::kSingletonInstanceId = 0;
AvrcpTarget::AvrcpTarget(const Uuid& uuid) : app_identifier_(uuid) {
hal::BluetoothAvrcpInterface::Get()->AddTargetObserver(this);
}
AvrcpTarget::~AvrcpTarget() {
hal::BluetoothAvrcpInterface::Get()->RemoveTargetObserver(this);
}
const Uuid& AvrcpTarget::GetAppIdentifier() const { return app_identifier_; }
int AvrcpTarget::GetInstanceId() const { return kSingletonInstanceId; }
void AvrcpTarget::SetDelegate(Delegate* delegate) {
LockGuard lock(delegate_mutex_);
delegate_ = delegate;
}
bool AvrcpTarget::Enable() {
LockGuard lock(mutex_);
return hal::BluetoothAvrcpInterface::Get()->AvrcpTargetEnable();
}
void AvrcpTarget::Disable() {
LockGuard lock(mutex_);
hal::BluetoothAvrcpInterface::Get()->AvrcpTargetDisable();
}
bool AvrcpTarget::GetPlayStatusResponse(const std::string& str_addr,
int32_t play_status, uint32_t song_len,
uint32_t song_pos) {
RawAddress addr = PARSE_ADDR(str_addr);
LockGuard lock(mutex_);
TRY_RET_FUNC(hal::BluetoothAvrcpInterface::Get()
->GetTargetHALInterface()
->get_play_status_rsp(
addr, static_cast<btrc_play_status_t>(play_status),
song_len, song_pos) == BT_STATUS_SUCCESS);
}
bool AvrcpTarget::ListPlayerAppAttrResponse(const std::string& str_addr,
const std::vector<int32_t>& attrs) {
RawAddress addr = PARSE_ADDR(str_addr);
std::vector<btrc_player_attr_t> btrc_attrs;
btrc_attrs.reserve(attrs.size());
for (auto attr : attrs) {
btrc_attrs.push_back(static_cast<btrc_player_attr_t>(attr));
}
LockGuard lock(mutex_);
TRY_RET_FUNC(hal::BluetoothAvrcpInterface::Get()
->GetTargetHALInterface()
->list_player_app_attr_rsp(addr, btrc_attrs.size(),
btrc_attrs.data()) ==
BT_STATUS_SUCCESS);
}
bool AvrcpTarget::GetPlayerAppValueResponse(
const std::string& str_addr, const std::vector<AvrcpIntValue>& values) {
RawAddress addr = PARSE_ADDR(str_addr);
btrc_player_settings_t btrc_values;
if (values.size() >= ARRAY_SIZE(btrc_values.attr_ids)) {
LOG(ERROR) << "Too many attribute values";
return false;
}
btrc_values.num_attr = values.size();
for (size_t i = 0; i < values.size(); ++i) {
btrc_values.attr_ids[i] = values[i].id();
btrc_values.attr_values[i] = values[i].value();
}
LockGuard lock(mutex_);
TRY_RET_FUNC(hal::BluetoothAvrcpInterface::Get()
->GetTargetHALInterface()
->get_player_app_value_rsp(addr, &btrc_values) ==
BT_STATUS_SUCCESS);
}
bool AvrcpTarget::GetPlayerAppAttrTextResponse(
const std::string& str_addr, const std::vector<AvrcpStringValue>& attrs) {
RawAddress addr = PARSE_ADDR(str_addr);
auto btrc_attrs = StringValueToPlayerSettingsText(attrs);
LockGuard lock(mutex_);
TRY_RET_FUNC(hal::BluetoothAvrcpInterface::Get()
->GetTargetHALInterface()
->get_player_app_attr_text_rsp(addr, btrc_attrs.size(),
btrc_attrs.data()) ==
BT_STATUS_SUCCESS);
}
bool AvrcpTarget::GetPlayerAppValueTextResponse(
const std::string& str_addr, const std::vector<AvrcpStringValue>& values) {
RawAddress addr = PARSE_ADDR(str_addr);
auto btrc_values = StringValueToPlayerSettingsText(values);
LockGuard lock(mutex_);
TRY_RET_FUNC(hal::BluetoothAvrcpInterface::Get()
->GetTargetHALInterface()
->get_player_app_value_text_rsp(addr, btrc_values.size(),
btrc_values.data()) ==
BT_STATUS_SUCCESS);
}
bool AvrcpTarget::GetElementAttrResponse(
const std::string& str_addr, const std::vector<AvrcpStringValue>& attrs) {
RawAddress addr = PARSE_ADDR(str_addr);
auto btrc_attrs = StringValueToElementAttrVal(attrs);
LockGuard lock(mutex_);
TRY_RET_FUNC(
hal::BluetoothAvrcpInterface::Get()
->GetTargetHALInterface()
->get_element_attr_rsp(addr, btrc_attrs.size(), btrc_attrs.data()) ==
BT_STATUS_SUCCESS);
}
bool AvrcpTarget::SetPlayerAppValueResponse(const std::string& str_addr,
int32_t rsp_status) {
RawAddress addr = PARSE_ADDR(str_addr);
LockGuard lock(mutex_);
TRY_RET_FUNC(hal::BluetoothAvrcpInterface::Get()
->GetTargetHALInterface()
->set_player_app_value_rsp(
addr, static_cast<btrc_status_t>(rsp_status)) ==
BT_STATUS_SUCCESS);
}
bool AvrcpTarget::RegisterNotificationResponse(
int32_t event_id, int32_t type,
const AvrcpRegisterNotificationResponse& param) {
auto param_copy = param.data();
LockGuard lock(mutex_);
TRY_RET_FUNC(hal::BluetoothAvrcpInterface::Get()
->GetTargetHALInterface()
->register_notification_rsp(
static_cast<btrc_event_id_t>(event_id),
static_cast<btrc_notification_type_t>(type),
&param_copy) == BT_STATUS_SUCCESS);
}
bool AvrcpTarget::SetVolume(int volume) {
LockGuard lock(mutex_);
TRY_RET_FUNC(
hal::BluetoothAvrcpInterface::Get()->GetTargetHALInterface()->set_volume(
volume) == BT_STATUS_SUCCESS);
}
void AvrcpTarget::RemoteFeaturesCallback(const RawAddress& bd_addr,
btrc_remote_features_t features) {
auto str_addr = BtAddrString(&bd_addr);
LockGuard lock(delegate_mutex_);
if (delegate_)
delegate_->OnGetRemoteFeatures(str_addr, static_cast<int32_t>(features));
}
void AvrcpTarget::GetPlayStatusCallback(const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
LockGuard lock(delegate_mutex_);
if (delegate_) delegate_->OnGetPlayStatus(str_addr);
}
void AvrcpTarget::ListPlayerAppAttrCallback(const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
LockGuard lock(delegate_mutex_);
if (delegate_) delegate_->OnListPlayerAppAttr(str_addr);
}
void AvrcpTarget::ListPlayerAppValuesCallback(btrc_player_attr_t attr_id,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
LockGuard lock(delegate_mutex_);
if (delegate_)
delegate_->OnListPlayerAppValues(str_addr, static_cast<int32_t>(attr_id));
}
void AvrcpTarget::GetPlayerAppValueCallback(uint8_t num_attr,
btrc_player_attr_t* p_attrs,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
std::vector<int32_t> attr_vec;
attr_vec.reserve(num_attr);
for (auto* it = p_attrs; it != p_attrs + num_attr; ++it) {
attr_vec.push_back(*it);
}
LockGuard lock(delegate_mutex_);
if (delegate_) delegate_->OnGetPlayerAppValue(str_addr, attr_vec);
}
void AvrcpTarget::GetPlayerAppAttrsTextCallback(uint8_t num_attr,
btrc_player_attr_t* p_attrs,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
std::vector<int32_t> attr_vec;
attr_vec.reserve(num_attr);
for (auto* it = p_attrs; it != p_attrs + num_attr; ++it) {
attr_vec.push_back(*it);
}
LockGuard lock(delegate_mutex_);
if (delegate_) delegate_->OnGetPlayerAppAttrsText(str_addr, attr_vec);
}
void AvrcpTarget::GetPlayerAppValuesTextCallback(uint8_t attr_id,
uint8_t num_val,
uint8_t* p_vals,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
std::vector<int32_t> val_vec;
val_vec.reserve(num_val);
for (auto* it = p_vals; it != p_vals + num_val; ++it) {
val_vec.push_back(*it);
}
LockGuard lock(delegate_mutex_);
if (delegate_)
delegate_->OnGetPlayerAppValuesText(str_addr, attr_id, val_vec);
}
void AvrcpTarget::SetPlayerAppValueCallback(btrc_player_settings_t* p_vals,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
std::vector<AvrcpIntValue> values;
values.reserve(p_vals->num_attr);
for (size_t i = 0; i < p_vals->num_attr; ++i) {
values.emplace_back(p_vals->attr_ids[i], p_vals->attr_values[i]);
}
LockGuard lock(delegate_mutex_);
if (delegate_) delegate_->OnSetPlayerAppValue(str_addr, values);
}
void AvrcpTarget::GetElementAttrCallback(uint8_t num_attr,
btrc_media_attr_t* p_attrs,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
std::vector<int32_t> attr_vec;
attr_vec.reserve(num_attr);
for (auto* it = p_attrs; it != p_attrs + num_attr; ++it) {
attr_vec.push_back(*it);
}
LockGuard lock(delegate_mutex_);
if (delegate_) delegate_->OnGetElementAttrs(str_addr, attr_vec);
}
void AvrcpTarget::RegisterNotificationCallback(btrc_event_id_t event_id,
uint32_t param,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
LockGuard lock(delegate_mutex_);
if (delegate_)
delegate_->OnRegisterNotification(str_addr, static_cast<int32_t>(event_id),
param);
}
void AvrcpTarget::VolumeChangeCallback(uint8_t volume, uint8_t ctype,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
LockGuard lock(delegate_mutex_);
if (delegate_) delegate_->OnVolumeChange(str_addr, volume, ctype);
}
void AvrcpTarget::PassthroughCmdCallback(int id, int key_state,
const RawAddress& bd_addr) {
auto str_addr = BtAddrString(&bd_addr);
LockGuard lock(delegate_mutex_);
if (delegate_) delegate_->OnPassThroughCommand(str_addr, id, key_state);
}
// AvrcpTargetFactory implementation
// ========================================================
AvrcpTargetFactory::AvrcpTargetFactory() = default;
AvrcpTargetFactory::~AvrcpTargetFactory() = default;
bool AvrcpTargetFactory::RegisterInstance(const Uuid& uuid,
const RegisterCallback& callback) {
VLOG(1) << __func__ << " - UUID: " << uuid.ToString();
auto avrcp_target = base::WrapUnique(new AvrcpTarget(uuid));
callback(BLE_STATUS_SUCCESS, uuid, std::move(avrcp_target));
return true;
}
} // namespace bluetooth