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/*
* Copyright 2020 HIMSA II K/S - www.himsa.com. Represented by EHIMA
* - www.ehima.com
*
* 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.
*/
#pragma once
#include <base/logging.h>
#include <map>
#include <memory>
#include <optional>
#include <tuple>
#include <utility> // for std::pair
#include <vector>
#ifdef __ANDROID__
#include <android/sysprop/BluetoothProperties.sysprop.h>
#endif
#include "audio_hal_client/audio_hal_client.h"
#include "bta_groups.h"
#include "btm_iso_api_types.h"
#include "common/strings.h"
#include "gatt_api.h"
#include "le_audio_log_history.h"
#include "le_audio_types.h"
#include "os/log.h"
#include "osi/include/alarm.h"
#include "osi/include/properties.h"
#include "raw_address.h"
namespace le_audio {
// Maps to BluetoothProfile#LE_AUDIO
#define LE_AUDIO_PROFILE_CONSTANT 22
/* Enums */
enum class DeviceConnectState : uint8_t {
/* Initial state */
DISCONNECTED,
/* When ACL connected, encrypted, CCC registered and initial characteristics
read is completed */
CONNECTED,
/* Used when device is unbonding (RemoveDevice() API is called) */
REMOVING,
/* Disconnecting */
DISCONNECTING,
/* Disconnecting for recover - after that we want direct connect to be
initiated */
DISCONNECTING_AND_RECOVER,
/* 2 states below are used when user creates connection. Connect API is
called. */
CONNECTING_BY_USER,
/* Always used after CONNECTING_BY_USER */
CONNECTED_BY_USER_GETTING_READY,
/* 2 states are used when autoconnect was used for the connection.*/
CONNECTING_AUTOCONNECT,
/* Always used after CONNECTING_AUTOCONNECT */
CONNECTED_AUTOCONNECT_GETTING_READY,
};
std::ostream& operator<<(std::ostream& os, const DeviceConnectState& state);
/* Class definitions */
/* LeAudioDevice class represents GATT server device with ASCS, PAC services as
* mandatory. Device may contain multiple ASEs, PACs, audio locations. ASEs from
* multiple devices may be formed in group.
*
* Device is created after connection or after storage restoration.
*
* Active device means that device has at least one ASE which will participate
* in any state transition of state machine. ASEs and devices will be activated
* according to requested by upper context type.
*/
class LeAudioDevice {
public:
RawAddress address_;
DeviceConnectState connection_state_;
bool known_service_handles_;
bool notify_connected_after_read_;
bool closing_stream_for_disconnection_;
bool autoconnect_flag_;
uint16_t conn_id_;
uint16_t mtu_;
bool encrypted_;
int group_id_;
bool csis_member_;
int cis_failed_to_be_established_retry_cnt_;
std::bitset<16> tmap_role_;
uint8_t audio_directions_;
types::AudioLocations snk_audio_locations_;
types::AudioLocations src_audio_locations_;
types::PublishedAudioCapabilities snk_pacs_;
types::PublishedAudioCapabilities src_pacs_;
struct types::hdl_pair snk_audio_locations_hdls_;
struct types::hdl_pair src_audio_locations_hdls_;
struct types::hdl_pair audio_avail_hdls_;
struct types::hdl_pair audio_supp_cont_hdls_;
std::vector<struct types::ase> ases_;
struct types::hdl_pair ctp_hdls_;
uint16_t tmap_role_hdl_;
std::string model_name_;
bool allowlist_flag_;
alarm_t* link_quality_timer;
uint16_t link_quality_timer_data;
LeAudioDevice(const RawAddress& address_, DeviceConnectState state,
int group_id = bluetooth::groups::kGroupUnknown)
: address_(address_),
connection_state_(state),
known_service_handles_(false),
notify_connected_after_read_(false),
closing_stream_for_disconnection_(false),
autoconnect_flag_(false),
conn_id_(GATT_INVALID_CONN_ID),
mtu_(0),
encrypted_(false),
group_id_(group_id),
csis_member_(false),
cis_failed_to_be_established_retry_cnt_(0),
audio_directions_(0),
model_name_(""),
allowlist_flag_(false),
link_quality_timer(nullptr),
dsa_({{DsaMode::DISABLED},
types::DataPathState::IDLE,
GATT_INVALID_CONN_ID}) {}
~LeAudioDevice(void);
void SetConnectionState(DeviceConnectState state);
DeviceConnectState GetConnectionState(void);
void ClearPACs(void);
void RegisterPACs(std::vector<struct types::acs_ac_record>* apr_db,
std::vector<struct types::acs_ac_record>* apr);
struct types::ase* GetAseByValHandle(uint16_t val_hdl);
int GetAseCount(uint8_t direction);
struct types::ase* GetFirstActiveAse(void);
struct types::ase* GetFirstActiveAseByDirection(uint8_t direction);
struct types::ase* GetNextActiveAseWithSameDirection(
struct types::ase* base_ase);
struct types::ase* GetNextActiveAseWithDifferentDirection(
struct types::ase* base_ase);
struct types::ase* GetFirstActiveAseByCisAndDataPathState(
types::CisState cis_state, types::DataPathState data_path_state);
struct types::ase* GetFirstInactiveAse(uint8_t direction,
bool reconnect = false);
struct types::ase* GetFirstAseWithState(uint8_t direction,
types::AseState state);
struct types::ase* GetNextActiveAse(struct types::ase* ase);
struct types::ase* GetAseToMatchBidirectionCis(struct types::ase* ase);
types::BidirectionalPair<struct types::ase*> GetAsesByCisConnHdl(
uint16_t conn_hdl);
types::BidirectionalPair<struct types::ase*> GetAsesByCisId(uint8_t cis_id);
bool HaveActiveAse(void);
bool HaveAllActiveAsesSameState(types::AseState state);
bool HaveAllActiveAsesSameDataPathState(types::DataPathState state) const;
bool HaveAnyUnconfiguredAses(void);
bool IsReadyToCreateStream(void);
bool IsReadyToStream(void) const {
return HaveAllActiveAsesCisEst() &&
HaveAllActiveAsesSameDataPathState(types::DataPathState::CONFIGURED);
}
bool IsReadyToSuspendStream(void);
bool HaveAllActiveAsesCisEst(void) const;
bool HaveAnyCisConnected(void);
const struct types::acs_ac_record* GetCodecConfigurationSupportedPac(
uint8_t direction,
const set_configurations::CodecConfigSetting& codec_capability_setting);
uint8_t GetSupportedAudioChannelCounts(uint8_t direction) const;
uint8_t GetPhyBitmask(void);
bool ConfigureAses(
const le_audio::set_configurations::SetConfiguration& ent,
types::LeAudioContextType context_type,
uint8_t* number_of_already_active_group_ase,
types::BidirectionalPair<types::AudioLocations>&
group_audio_locations_out,
const types::BidirectionalPair<types::AudioContexts>&
metadata_context_types,
const types::BidirectionalPair<std::vector<uint8_t>>& ccid_lists,
bool reuse_cis_id);
inline types::AudioContexts GetSupportedContexts(
int direction = types::kLeAudioDirectionBoth) const {
ASSERT_LOG(direction <= (types::kLeAudioDirectionBoth),
"Invalid direction used.");
if (direction < types::kLeAudioDirectionBoth)
return supp_contexts_.get(direction);
else
return types::get_bidirectional(supp_contexts_);
}
inline void SetSupportedContexts(
types::BidirectionalPair<types::AudioContexts> contexts) {
supp_contexts_ = contexts;
}
inline types::AudioContexts GetAvailableContexts(
int direction = types::kLeAudioDirectionBoth) const {
ASSERT_LOG(direction <= (types::kLeAudioDirectionBoth),
"Invalid direction used.");
if (direction < types::kLeAudioDirectionBoth)
return avail_contexts_.get(direction);
else
return types::get_bidirectional(avail_contexts_);
}
void SetAvailableContexts(
types::BidirectionalPair<types::AudioContexts> cont_val);
void DeactivateAllAses(void);
bool ActivateConfiguredAses(
types::LeAudioContextType context_type,
const types::BidirectionalPair<types::AudioContexts>&
metadata_context_types,
types::BidirectionalPair<std::vector<uint8_t>> ccid_lists);
void SetMetadataToAse(
struct types::ase* ase,
const types::BidirectionalPair<types::AudioContexts>&
metadata_context_types,
types::BidirectionalPair<std::vector<uint8_t>> ccid_lists);
void PrintDebugState(void);
void DumpPacsDebugState(std::stringstream& stream);
void Dump(int fd);
void DisconnectAcl(void);
std::vector<uint8_t> GetMetadata(types::AudioContexts context_type,
const std::vector<uint8_t>& ccid_list);
bool IsMetadataChanged(
const types::BidirectionalPair<types::AudioContexts>& context_types,
const types::BidirectionalPair<std::vector<uint8_t>>& ccid_lists);
void GetDeviceModelName(void);
void UpdateDeviceAllowlistFlag(void);
DsaModes GetDsaModes(void);
types::DataPathState GetDsaDataPathState(void);
void SetDsaDataPathState(types::DataPathState state);
uint16_t GetDsaCisHandle(void);
void SetDsaCisHandle(uint16_t cis_handle);
private:
types::BidirectionalPair<types::AudioContexts> avail_contexts_;
types::BidirectionalPair<types::AudioContexts> supp_contexts_;
struct {
DsaModes modes;
types::DataPathState state;
uint16_t cis_handle;
} dsa_;
static constexpr char kLeAudioDeviceAllowListProp[] =
"persist.bluetooth.leaudio.allow_list";
void DumpPacsDebugState(std::stringstream& stream,
types::PublishedAudioCapabilities pacs);
};
/* LeAudioDevices class represents a wraper helper over all devices in le audio
* implementation. It allows to operate on device from a list (vector container)
* using determinants like address, connection id etc.
*/
class LeAudioDevices {
public:
void Add(const RawAddress& address, le_audio::DeviceConnectState state,
int group_id = bluetooth::groups::kGroupUnknown);
void Remove(const RawAddress& address);
LeAudioDevice* FindByAddress(const RawAddress& address) const;
std::shared_ptr<LeAudioDevice> GetByAddress(const RawAddress& address) const;
LeAudioDevice* FindByConnId(uint16_t conn_id) const;
LeAudioDevice* FindByCisConnHdl(uint8_t cig_id, uint16_t conn_hdl) const;
void SetInitialGroupAutoconnectState(int group_id, int gatt_if,
tBTM_BLE_CONN_TYPE reconnection_mode,
bool current_dev_autoconnect_flag);
size_t Size(void) const;
void Dump(int fd, int group_id) const;
void Cleanup(tGATT_IF client_if);
private:
std::vector<std::shared_ptr<LeAudioDevice>> leAudioDevices_;
};
} // namespace le_audio