/*
* Copyright 2018 The Android Open Source Project
*
* 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 <iostream>
#include <memory>
#include <stack>
#include <base/bind.h>
#include <base/cancelable_callback.h>
#include "avrcp_internal.h"
#include "hardware/avrcp/avrcp.h"
#include "packet/avrcp/avrcp_browse_packet.h"
#include "packet/avrcp/avrcp_packet.h"
#include "packet/avrcp/capabilities_packet.h"
#include "packet/avrcp/change_path.h"
#include "packet/avrcp/get_element_attributes_packet.h"
#include "packet/avrcp/get_folder_items.h"
#include "packet/avrcp/get_item_attributes.h"
#include "packet/avrcp/get_total_number_of_items.h"
#include "packet/avrcp/play_item.h"
#include "packet/avrcp/register_notification_packet.h"
#include "packet/avrcp/set_addressed_player.h"
#include "packet/avrcp/set_browsed_player.h"
#include "packet/avrcp/vendor_packet.h"
#include "profile/avrcp/media_id_map.h"
#include "raw_address.h"
namespace bluetooth {
namespace avrcp {
/**
* A class representing a connection with a remote AVRCP device. It holds all
* the state and message handling for the device that it represents.
*/
// TODO (apanicke): Once we move over to having the individual message
// responders for Browse and Classic AVRCP Messages move the device around via a
// weak pointer.
class Device {
public:
/**
* Device is friends with Avrcp::ConnectionHandler so that ConnectionHandler
* can deliver messages to individual devices.
*/
friend class ConnectionHandler;
Device(
const RawAddress& bdaddr, bool avrcp13_compatibility,
base::Callback<void(uint8_t label, bool browse,
std::unique_ptr<::bluetooth::PacketBuilder> message)>
send_msg_cb,
uint16_t ctrl_mtu, uint16_t browse_mtu);
virtual ~Device() = default;
/**
* Gets a weak pointer to this device that is invalidated when the device is
* disconnected.
*/
base::WeakPtr<Device> Get();
const RawAddress& GetAddress() const { return address_; };
/**
* Disconnects the AVRCP connection that this device represents.
*/
bool Disconnect();
/**
* Returns true if the current device is silenced.
*/
bool IsInSilenceMode() const;
/**
* Returns true if the current device is active.
*/
bool IsActive() const;
/**
* Register the interfaces that the device uses to get information. If the
* Volume Interface is null, then absolute volume is disabled.
* TODO (apanicke): Add these to the constructor/factory so that each device
* is created valid and can't be accidentally interacted with when no
* interfaces are registered.
*/
void RegisterInterfaces(MediaInterface* interface,
A2dpInterface* a2dp_interface,
VolumeInterface* volume_interface);
/**
* Set the maximum size of a AVRCP Browsing Packet. This is done after the
* connection of the Browsing channel.
*/
void SetBrowseMtu(uint16_t browse_mtu);
/**
* Notify the device that metadata, play_status, and/or queue have updated
* via a boolean. Each boolean represents whether its respective content has
* updated.
*/
virtual void SendMediaUpdate(bool metadata, bool play_status, bool queue);
/**
* Notify the device that the available_player, addressed_player, or UIDs
* have updated via a boolean. Each boolean represents whether its respective
* content has updated.
*/
virtual void SendFolderUpdate(bool available_player, bool addressed_player,
bool uids);
// TODO (apanicke): Split the message handlers into two files. One
// for handling Browse Messages and the other for handling all other
// messages. This prevents the .cc file from getting bloated like it is
// now. The Device class will then become a state holder for each message
// and all the functions in these handler classes can be static since the
// device will be passed in. The extensions of the Device class can contain
// any interop handling for specific messages on specific devices.
void MessageReceived(uint8_t label, std::shared_ptr<Packet> pkt);
void BrowseMessageReceived(uint8_t label, std::shared_ptr<BrowsePacket> pkt);
void VendorPacketHandler(uint8_t label, std::shared_ptr<VendorPacket> pkt);
/********************
* MESSAGE RESPONSES
********************/
// CURRENT TRACK CHANGED
virtual void HandleTrackUpdate();
virtual void TrackChangedNotificationResponse(
uint8_t label, bool interim, std::string curr_song_id,
std::vector<SongInfo> song_list);
// GET CAPABILITY
virtual void HandleGetCapabilities(
uint8_t label, const std::shared_ptr<GetCapabilitiesRequest>& pkt);
// REGISTER NOTIFICATION
virtual void HandleNotification(
uint8_t label, const std::shared_ptr<RegisterNotificationRequest>& pkt);
// PLAY STATUS CHANGED
virtual void HandlePlayStatusUpdate();
// NOW PLAYING LIST CHANGED
virtual void HandleNowPlayingUpdate();
virtual void HandleNowPlayingNotificationResponse(
uint8_t label, bool interim, std::string curr_song_id,
std::vector<SongInfo> song_list);
// PLAY POSITION CHANGED
virtual void HandlePlayPosUpdate();
virtual void PlaybackPosNotificationResponse(uint8_t label, bool interim,
PlayStatus status);
// GET PLAY STATUS
virtual void GetPlayStatusResponse(uint8_t label, PlayStatus status);
virtual void PlaybackStatusNotificationResponse(uint8_t label, bool interim,
PlayStatus status);
// GET ELEMENT ATTRIBUTE
// TODO (apanicke): Add a Handler function for this so if a specific device
// needs to implement an interop fix, you only need to overload the one
// function.
virtual void GetElementAttributesResponse(
uint8_t label, std::shared_ptr<GetElementAttributesRequest> pkt,
SongInfo info);
// AVAILABLE PLAYER CHANGED
virtual void HandleAvailablePlayerUpdate();
// ADDRESSED PLAYER CHANGED
virtual void HandleAddressedPlayerUpdate();
virtual void RejectNotification();
virtual void AddressedPlayerNotificationResponse(
uint8_t label, bool interim, uint16_t curr_player,
std::vector<MediaPlayerInfo> /* unused */);
// GET FOLDER ITEMS
virtual void HandleGetFolderItems(
uint8_t label, std::shared_ptr<GetFolderItemsRequest> request);
virtual void GetMediaPlayerListResponse(
uint8_t label, std::shared_ptr<GetFolderItemsRequest> pkt,
uint16_t curr_player, std::vector<MediaPlayerInfo> players);
virtual void GetVFSListResponse(uint8_t label,
std::shared_ptr<GetFolderItemsRequest> pkt,
std::vector<ListItem> items);
virtual void GetNowPlayingListResponse(
uint8_t label, std::shared_ptr<GetFolderItemsRequest> pkt,
std::string curr_song_id, std::vector<SongInfo> song_list);
// GET TOTAL NUMBER OF ITEMS
virtual void HandleGetTotalNumberOfItems(
uint8_t label, std::shared_ptr<GetTotalNumberOfItemsRequest> pkt);
virtual void GetTotalNumberOfItemsMediaPlayersResponse(
uint8_t label, uint16_t curr_player, std::vector<MediaPlayerInfo> list);
virtual void GetTotalNumberOfItemsVFSResponse(uint8_t label,
std::vector<ListItem> items);
virtual void GetTotalNumberOfItemsNowPlayingResponse(
uint8_t label, std::string curr_song_id, std::vector<SongInfo> song_list);
// GET ITEM ATTRIBUTES
virtual void HandleGetItemAttributes(
uint8_t label, std::shared_ptr<GetItemAttributesRequest> request);
virtual void GetItemAttributesNowPlayingResponse(
uint8_t label, std::shared_ptr<GetItemAttributesRequest> pkt,
std::string curr_media_id, std::vector<SongInfo> song_list);
virtual void GetItemAttributesVFSResponse(
uint8_t label, std::shared_ptr<GetItemAttributesRequest> pkt,
std::vector<ListItem> item_list);
// SET BROWSED PLAYER
virtual void HandleSetBrowsedPlayer(
uint8_t label, std::shared_ptr<SetBrowsedPlayerRequest> request);
virtual void SetBrowsedPlayerResponse(
uint8_t label, std::shared_ptr<SetBrowsedPlayerRequest> pkt, bool success,
std::string root_id, uint32_t num_items);
// CHANGE PATH
virtual void HandleChangePath(uint8_t label,
std::shared_ptr<ChangePathRequest> request);
virtual void ChangePathResponse(uint8_t label,
std::shared_ptr<ChangePathRequest> request,
std::vector<ListItem> list);
// PLAY ITEM
virtual void HandlePlayItem(uint8_t label,
std::shared_ptr<PlayItemRequest> request);
// SET ADDRESSED PLAYER
virtual void HandleSetAddressedPlayer(
uint8_t label, std::shared_ptr<SetAddressedPlayerRequest> request,
uint16_t curr_player, std::vector<MediaPlayerInfo> players);
/********************
* MESSAGE REQUESTS
********************/
// VOLUME CHANGED NOTIFICATION
virtual void RegisterVolumeChanged();
virtual void HandleVolumeChanged(
uint8_t label, const std::shared_ptr<RegisterNotificationResponse>& pkt);
// SET VOLUME
virtual void SetVolume(int8_t volume);
/**
* This function is called by Avrcp::ConnectionHandler to signify that
* the remote device was disconnected.
*
* TODO (apanicke): Prevent allowing responses to messages while the device is
* disconnected by using a weak pointer handle to the device when we separate
* out the message handling. Also separate the logic in the future when
* disconnecting only browsing (Though this shouldn't matter as if we are
* disconnecting browsing then we should be fully disconnecting the device).
*/
void DeviceDisconnected();
friend std::ostream& operator<<(std::ostream& out, const Device& c);
private:
// This should always contain one item which represents the root id on the
// current player.
std::string CurrentFolder() const {
if (current_path_.empty()) return "";
return current_path_.top();
}
void send_message(uint8_t label, bool browse,
std::unique_ptr<::bluetooth::PacketBuilder> message) {
active_labels_.erase(label);
send_message_cb_.Run(label, browse, std::move(message));
}
base::WeakPtrFactory<Device> weak_ptr_factory_;
// TODO (apanicke): Initialize all the variables in the constructor.
RawAddress address_;
// Enables AVRCP 1.3 Compatibility mode. This disables any AVRCP 1.4+ features
// such as browsing and playlists but has the highest chance of working.
bool avrcp13_compatibility_ = false;
base::Callback<void(uint8_t label, bool browse,
std::unique_ptr<::bluetooth::PacketBuilder> message)>
send_message_cb_;
uint16_t ctrl_mtu_;
uint16_t browse_mtu_;
int curr_browsed_player_id_ = -1;
std::stack<std::string> current_path_;
// Notification Trackers
using Notification = std::pair<bool, uint8_t>;
Notification track_changed_ = Notification(false, 0);
Notification play_status_changed_ = Notification(false, 0);
Notification play_pos_changed_ = Notification(false, 0);
Notification now_playing_changed_ = Notification(false, 0);
Notification addr_player_changed_ = Notification(false, 0);
Notification avail_players_changed_ = Notification(false, 0);
Notification uids_changed_ = Notification(false, 0);
MediaIdMap vfs_ids_;
MediaIdMap now_playing_ids_;
uint32_t play_pos_interval_ = 0;
SongInfo last_song_info_;
PlayStatus last_play_status_;
base::CancelableClosure play_pos_update_cb_;
MediaInterface* media_interface_ = nullptr;
A2dpInterface* a2dp_interface_ = nullptr;
VolumeInterface* volume_interface_ = nullptr;
// Labels used for messages currently in flight.
std::set<uint8_t> active_labels_;
int8_t volume_ = -1;
DISALLOW_COPY_AND_ASSIGN(Device);
};
} // namespace avrcp
} // namespace bluetooth