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android / platform / system / bt / 49a57cd2346a716eca07153ac83026787fb9d03a / . / stack / include / a2dp_codec_api.h
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/*
* Copyright (C) 2016 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.
*/
//
// A2DP Codecs API
//
#ifndef A2DP_CODEC_API_H
#define A2DP_CODEC_API_H
#include <stddef.h>
#include <string.h>
#include <functional>
#include <list>
#include <map>
#include <mutex>
#include <string>
#include <hardware/bt_av.h>
#include "a2dp_api.h"
#include "audio_a2dp_hw/include/audio_a2dp_hw.h"
#include "avdt_api.h"
#include "osi/include/time.h"
/**
* Structure used to initialize the A2DP encoder with A2DP peer information
*/
typedef struct {
bool is_peer_edr; // True if the A2DP peer supports EDR
bool peer_supports_3mbps; // True if the A2DP peer supports 3 Mbps EDR
uint16_t peer_mtu; // MTU of the A2DP peer
} tA2DP_ENCODER_INIT_PEER_PARAMS;
class A2dpCodecConfig {
friend class A2dpCodecs;
public:
// Creates a codec entry. The selected codec is defined by |codec_index|,
// Returns the codec entry on success, otherwise nullptr.
static A2dpCodecConfig* createCodec(
btav_a2dp_codec_index_t codec_index,
btav_a2dp_codec_priority_t codec_priority =
BTAV_A2DP_CODEC_PRIORITY_DEFAULT);
virtual ~A2dpCodecConfig() = 0;
// Gets the pre-defined codec index.
btav_a2dp_codec_index_t codecIndex() const { return codec_index_; }
// Gets the codec name.
const std::string& name() const { return name_; }
// Gets the current priority of the codec.
btav_a2dp_codec_priority_t codecPriority() const { return codec_priority_; }
// Copies out the current OTA codec config to |p_codec_info|.
// Returns true if the current codec config is valid and copied,
// otherwise false.
bool copyOutOtaCodecConfig(uint8_t* p_codec_info);
// Gets the current codec configuration.
// Returns a copy of the current codec configuration.
btav_a2dp_codec_config_t getCodecConfig();
// Gets the current codec capability.
// The capability is computed by intersecting the local codec's capability
// and the peer's codec capability. However, if there is an explicit user
// configuration for some of the parameters, the result codec configuration
// and capability is restricted to the user's configuration choice.
// Returns a copy of the current codec capability.
btav_a2dp_codec_config_t getCodecCapability();
// Gets the codec local capability.
// Returns a copy of the codec local capability.
btav_a2dp_codec_config_t getCodecLocalCapability();
// Gets the codec selectable capability.
// The capability is computed by intersecting the local codec's capability
// and the peer's codec capability. Any explicit user configuration is
// not included in the result.
// Returns a copy of the codec selectable capability.
btav_a2dp_codec_config_t getCodecSelectableCapability();
// Gets the current codec user configuration.
// Returns a copy of the current codec user configuration.
btav_a2dp_codec_config_t getCodecUserConfig();
// Gets the current codec audio configuration.
// Returns a copy of the current codec audio configuration.
btav_a2dp_codec_config_t getCodecAudioConfig();
// Gets the number of bits per sample of the current codec configuration,
// or 0 if not configured.
uint8_t getAudioBitsPerSample();
// Checks whether the codec uses the RTP Header Marker bit (see RFC 6416).
// NOTE: Even if the encoded data uses RTP headers, some codecs do not use
// the Marker bit - that bit is expected to be set to 0.
// Returns true if the encoded data packets have RTP headers, and
// the Marker bit in the header is set according to RFC 6416.
virtual bool useRtpHeaderMarkerBit() const = 0;
// Checks whether |codec_config| is empty and contains no configuration.
// Returns true if |codec_config| is empty, otherwise false.
static bool isCodecConfigEmpty(const btav_a2dp_codec_config_t& codec_config);
protected:
// Sets the current priority of the codec to |codec_priority|.
// If |codec_priority| is BTAV_A2DP_CODEC_PRIORITY_DEFAULT, the priority is
// reset to its default value.
void setCodecPriority(btav_a2dp_codec_priority_t codec_priority);
// Sets the current priority of the codec to its default value.
void setDefaultCodecPriority();
// Sets the A2DP Source-to-Sink codec configuration to be used
// with a peer Sink device.
// |p_peer_codec_info| is the peer's A2DP Sink codec information
// to use. If |is_capability| is true, then |p_peer_codec_info| contains the
// peer's A2DP Sink codec capability, otherwise it contains the peer's
// preferred A2DP codec configuration to use.
// The result codec configuration is stored in |p_result_codec_config|.
// See |A2dpCodecs.setCodecConfig| for detailed description of
// the actual mechanism used to compute the configuration.
// Returns true on success, othewise false.
virtual bool setCodecConfig(const uint8_t* p_peer_codec_info,
bool is_capability,
uint8_t* p_result_codec_config) = 0;
// Sets the user prefered codec configuration.
// |codec_user_config| contains the preferred codec user configuration.
// |codec_audio_config| contains the selected audio feeding configuration.
// |p_peer_params| contains the A2DP peer information.
// |p_peer_codec_info| is the peer's A2DP Sink codec information
// to use. If |is_capability| is true, then |p_peer_codec_info| contains the
// peer's A2DP Sink codec capability, otherwise it contains the peer's
// preferred A2DP codec configuration to use.
// If there is a change in the codec configuration that requires restarting
// if the audio input stream, flag |p_restart_input| is set to true.
// If there is a change in the encoder configuration that requires restarting
// of the A2DP connection, the new codec configuration is stored in
// |p_result_codec_config|, and flag |p_restart_output| is set to true.
// If there is any change in the codec configuration, flag |p_config_updated|
// is set to true.
// Returns true on success, otherwise false.
virtual bool setCodecUserConfig(
const btav_a2dp_codec_config_t& codec_user_config,
const btav_a2dp_codec_config_t& codec_audio_config,
const tA2DP_ENCODER_INIT_PEER_PARAMS* p_peer_params,
const uint8_t* p_peer_codec_info, bool is_capability,
uint8_t* p_result_codec_config, bool* p_restart_input,
bool* p_restart_output, bool* p_config_updated);
// Updates the encoder with the user prefered codec configuration.
// |p_peer_params| contains the A2DP peer information.
// If there is a change in the encoder configuration that requires restarting
// the audio input stream, flag |p_restart_input| is set to true.
// If there is a change in the encoder configuration that requires restarting
// of the A2DP connection, flag |p_restart_output| is set to true.
// If there is any change in the codec configuration, flag |p_config_updated|
// is set to true.
// Returns true on success, otherwise false.
virtual bool updateEncoderUserConfig(
const tA2DP_ENCODER_INIT_PEER_PARAMS* p_peer_params,
bool* p_restart_input, bool* p_restart_output,
bool* p_config_updated) = 0;
// Constructor where |codec_index| is the unique index that identifies the
// codec. The user-friendly name is |name|.
// The default codec priority is |codec_priority|. If the value is
// |BTAV_A2DP_CODEC_PRIORITY_DEFAULT|, the codec priority is computed
// internally.
A2dpCodecConfig(btav_a2dp_codec_index_t codec_index, const std::string& name,
btav_a2dp_codec_priority_t codec_priority);
// Initializes the codec entry.
// Returns true on success, otherwise false.
virtual bool init() = 0;
// Checks whether the internal state is valid
virtual bool isValid() const;
// Returns the encoder's periodic interval (in milliseconds).
virtual period_ms_t encoderIntervalMs() const = 0;
// Checks whether the A2DP Codec Configuration is valid.
// Returns true if A2DP Codec Configuration stored in |codec_config|
// is valid, otherwise false.
static bool codecConfigIsValid(const btav_a2dp_codec_config_t& codec_config);
// Gets the string representation of A2DP Codec Configuration.
// Returns the string representation of A2DP Codec Configuration stored
// in |codec_config|. The format is:
// "Rate=44100|48000 Bits=16|24 Mode=MONO|STEREO"
static std::string codecConfig2Str(
const btav_a2dp_codec_config_t& codec_config);
// Gets the string representation of A2DP Codec Sample Rate.
// Returns the string representation of A2DP Codec Sample Rate stored
// in |codec_sample_rate|. If there are multiple values stored in
// |codec_sample_rate|, the return string format is "rate1|rate2|rate3".
static std::string codecSampleRate2Str(
btav_a2dp_codec_sample_rate_t codec_sample_rate);
// Gets the string representation of A2DP Codec Bits Per Sample.
// Returns the string representation of A2DP Codec Bits Per Sample stored
// in |codec_bits_per_sample|. If there are multiple values stored in
// |codec_bits_per_sample|, the return string format is "bits1|bits2|bits3".
static std::string codecBitsPerSample2Str(
btav_a2dp_codec_bits_per_sample_t codec_bits_per_sample);
// Gets the string representation of A2DP Codec Channel Mode.
// Returns the string representation of A2DP Channel Mode stored
// in |codec_channel_mode|. If there are multiple values stored in
// |codec_channel_mode|, the return string format is "mode1|mode2|mode3".
static std::string codecChannelMode2Str(
btav_a2dp_codec_channel_mode_t codec_channel_mode);
// Dumps codec-related information.
// The information is written in user-friendly form to file descriptor |fd|.
virtual void debug_codec_dump(int fd);
std::recursive_mutex codec_mutex_;
const btav_a2dp_codec_index_t codec_index_; // The unique codec index
const std::string name_; // The codec name
btav_a2dp_codec_priority_t codec_priority_; // Codec priority: must be unique
btav_a2dp_codec_priority_t default_codec_priority_;
btav_a2dp_codec_config_t codec_config_;
btav_a2dp_codec_config_t codec_capability_;
btav_a2dp_codec_config_t codec_local_capability_;
btav_a2dp_codec_config_t codec_selectable_capability_;
// The optional user configuration. The values (if set) are used
// as a preference when there is a choice. If a particular value
// is not supported by the local or remote device, it is ignored.
btav_a2dp_codec_config_t codec_user_config_;
// The selected audio feeding configuration.
btav_a2dp_codec_config_t codec_audio_config_;
uint8_t ota_codec_config_[AVDT_CODEC_SIZE];
uint8_t ota_codec_peer_capability_[AVDT_CODEC_SIZE];
uint8_t ota_codec_peer_config_[AVDT_CODEC_SIZE];
};
class A2dpCodecs {
public:
// Constructor for class |A2dpCodecs|.
// |codec_priorities| contains the codec priorities to use.
A2dpCodecs(const std::vector<btav_a2dp_codec_config_t>& codec_priorities);
~A2dpCodecs();
// Initializes all supported codecs.
// Returns true if at least one Source codec and one Sink codec were
// initialized, otherwise false.
bool init();
// Finds the Source codec that corresponds to the A2DP over-the-air
// |p_codec_info| information.
// Returns the Source codec if found, otherwise nullptr.
A2dpCodecConfig* findSourceCodecConfig(const uint8_t* p_codec_info);
// Gets the codec config that is currently selected.
// Returns the codec config that is currently selected, or nullptr if
// no codec is selected.
A2dpCodecConfig* getCurrentCodecConfig() const {
return current_codec_config_;
}
// Gets the list of Source codecs ordered by priority: higher priority first.
const std::list<A2dpCodecConfig*> orderedSourceCodecs() const {
return ordered_source_codecs_;
}
// Gets the list of Sink codecs ordered by priority: higher priority first.
const std::list<A2dpCodecConfig*> orderedSinkCodecs() const {
return ordered_sink_codecs_;
}
// Sets the A2DP Source-to-Sink codec configuration to be used
// with a peer Sink device.
// |p_peer_codec_info| is the peer's A2DP Sink codec information
// to use. If |is_capability| is true, then |p_peer_codec_info| contains the
// peer's A2DP Sink codec capability, otherwise it contains the peer's
// preferred A2DP codec configuration to use.
// If the codec can be used and |select_current_codec| is true, then
// this codec is selected as the current one.
//
// The codec configuration is built by considering the optional user
// configuration, the local codec capabilities, the peer's codec
// capabilities, and the codec's locally-defined default values.
// For each codec parameter:
//
// 1. If it is user-configurable parameter (sample rate, bits per sample,
// channel mode, and some codec-specific parameters),
// if the user has an explicit preference, and that preference
// is supported by both the local and remote device, this is the
// parameter value that is used.
// 2. Otherwise, if the explicit internal default value is supported
// by both the local and remote device, this is the parameter value
// that is used.
// 3. Otherwise, the best match is chosen among all values supported by
// the local and remote device.
//
// In addition, the codec's internal state is updated to reflect
// the capabilities that are advertised to the upstream audio source
// (Media Framework) to make run-time audio parameter choices:
// 4. If the user-configurable parameter was selected, this is the
// only parameter value that is advertised to the Media Framework.
// 5. Otherwise, all values supported by both the local and remote
// devices are advertised to the Media Framework.
//
// The result codec configuration is stored in |p_result_codec_config|.
// Returns true on success, othewise false.
bool setCodecConfig(const uint8_t* p_peer_codec_info, bool is_capability,
uint8_t* p_result_codec_config,
bool select_current_codec);
// Sets the user prefered codec configuration.
// |codec_user_config| contains the preferred codec configuration.
// |p_peer_params| contains the A2DP peer information.
// |p_peer_sink_capabilities| is the peer's A2DP Sink codec capabilities
// to use.
// If there is a change in the encoder configuration that requires restarting
// the audio input stream, flag |p_restart_input| is set to true.
// If there is a change in the encoder configuration that requires restarting
// of the A2DP connection, flag |p_restart_output| is set to true, and the
// new codec is stored in |p_result_codec_config|.
// If there is any change in the codec configuration, flag |p_config_updated|
// is set to true.
// Returns true on success, otherwise false.
bool setCodecUserConfig(const btav_a2dp_codec_config_t& codec_user_config,
const tA2DP_ENCODER_INIT_PEER_PARAMS* p_peer_params,
const uint8_t* p_peer_sink_capabilities,
uint8_t* p_result_codec_config, bool* p_restart_input,
bool* p_restart_output, bool* p_config_updated);
// Sets the Audio HAL selected audio feeding parameters.
// Those parameters are applied only to the currently selected codec.
// |codec_audio_config| contains the selected audio feeding configuration.
// |p_peer_params| contains the A2DP peer information.
// |p_peer_sink_capabilities| is the peer's A2DP Sink codec capabilities
// to use.
// If there is a change in the encoder configuration that requires restarting
// of the A2DP connection, flag |p_restart_output| is set to true, and the
// new codec is stored in |p_result_codec_config|.
// If there is any change in the codec configuration, flag |p_config_updated|
// is set to true.
// Returns true on success, otherwise false.
bool setCodecAudioConfig(const btav_a2dp_codec_config_t& codec_audio_config,
const tA2DP_ENCODER_INIT_PEER_PARAMS* p_peer_params,
const uint8_t* p_peer_sink_capabilities,
uint8_t* p_result_codec_config,
bool* p_restart_output, bool* p_config_updated);
// Sets the Over-The-Air preferred codec configuration.
// The OTA prefered codec configuration is ignored if the current
// codec configuration contains explicit user configuration, or if the
// codec configuration for the same codec contains explicit user
// configuration.
// |p_ota_codec_config| contains the received OTA A2DP codec configuration
// from the remote peer. Note: this is not the peer codec capability,
// but the codec configuration that the peer would like to use.
// |p_peer_params| contains the A2DP peer information.
// If there is a change in the encoder configuration that requires restarting
// the audio input stream, flag |p_restart_input| is set to true.
// If there is a change in the encoder configuration that requires restarting
// of the A2DP connection, flag |p_restart_output| is set to true, and the
// new codec is stored in |p_result_codec_config|.
// If there is any change in the codec configuration, flag |p_config_updated|
// is set to true.
// Returns true on success, otherwise false.
bool setCodecOtaConfig(const uint8_t* p_ota_codec_config,
const tA2DP_ENCODER_INIT_PEER_PARAMS* p_peer_params,
uint8_t* p_result_codec_config, bool* p_restart_input,
bool* p_restart_output, bool* p_config_updated);
// Gets the current codec configuration and the capabilities of
// all configured codecs.
// The current codec configuration is stored in |p_codec_config|.
// Local device's codecs capabilities are stored in
// |p_codecs_local_capabilities|.
// The codecs capabilities that can be used between the local device
// and the remote device are stored in |p_codecs_selectable_capabilities|.
// Returns true on success, otherwise false.
bool getCodecConfigAndCapabilities(
btav_a2dp_codec_config_t* p_codec_config,
std::vector<btav_a2dp_codec_config_t>* p_codecs_local_capabilities,
std::vector<btav_a2dp_codec_config_t>* p_codecs_selectable_capabilities);
// Dumps codec-related information.
// The information is written in user-friendly form to file descriptor |fd|.
void debug_codec_dump(int fd);
private:
struct CompareBtBdaddr
: public std::binary_function<RawAddress, RawAddress, bool> {
bool operator()(const RawAddress& lhs, const RawAddress& rhs) const {
return (memcmp(&lhs, &rhs, sizeof(lhs)) < 0);
}
};
typedef std::map<btav_a2dp_codec_index_t, A2dpCodecConfig*> IndexedCodecs;
std::recursive_mutex codec_mutex_;
A2dpCodecConfig* current_codec_config_; // Currently selected codec
std::map<btav_a2dp_codec_index_t, btav_a2dp_codec_priority_t>
codec_priorities_;
IndexedCodecs indexed_codecs_; // The codecs indexed by codec index
IndexedCodecs disabled_codecs_; // The disabled codecs
// A2DP Source codecs ordered by priority
std::list<A2dpCodecConfig*> ordered_source_codecs_;
// A2DP Sink codecs ordered by priority
std::list<A2dpCodecConfig*> ordered_sink_codecs_;
std::map<RawAddress, IndexedCodecs*, CompareBtBdaddr> peer_codecs_;
};
/**
* Structure used to configure the A2DP feeding.
*/
typedef struct {
tA2DP_SAMPLE_RATE sample_rate; // 44100, 48000, etc
tA2DP_BITS_PER_SAMPLE bits_per_sample; // 8, 16, 24, 32
tA2DP_CHANNEL_COUNT channel_count; // 1 for mono or 2 for stereo
} tA2DP_FEEDING_PARAMS;
// Prototype for a callback to read audio data for encoding.
// |p_buf| is the buffer to store the data. |len| is the number of octets to
// read.
// Returns the number of octets read.
typedef uint32_t (*a2dp_source_read_callback_t)(uint8_t* p_buf, uint32_t len);
// Prototype for a callback to enqueue A2DP Source packets for transmission.
// |p_buf| is the buffer with the audio data to enqueue. The callback is
// responsible for freeing |p_buf|.
// |frames_n| is the number of audio frames in |p_buf| - it is used for
// statistics purpose.
// Returns true if the packet was enqueued, otherwise false.
typedef bool (*a2dp_source_enqueue_callback_t)(BT_HDR* p_buf, size_t frames_n);
//
// A2DP encoder callbacks interface.
//
typedef struct {
// Initialize the A2DP encoder.
// |p_peer_params| contains the A2DP peer information
// The current A2DP codec config is in |a2dp_codec_config|.
// |read_callback| is the callback for reading the input audio data.
// |enqueue_callback| is the callback for enqueueing the encoded audio data.
void (*encoder_init)(const tA2DP_ENCODER_INIT_PEER_PARAMS* p_peer_params,
A2dpCodecConfig* a2dp_codec_config,
a2dp_source_read_callback_t read_callback,
a2dp_source_enqueue_callback_t enqueue_callback);
// Cleanup the A2DP encoder.
void (*encoder_cleanup)(void);
// Reset the feeding for the A2DP encoder.
void (*feeding_reset)(void);
// Flush the feeding for the A2DP encoder.
void (*feeding_flush)(void);
// Get the A2DP encoder interval (in milliseconds).
period_ms_t (*get_encoder_interval_ms)(void);
// Prepare and send A2DP encoded frames.
// |timestamp_us| is the current timestamp (in microseconds).
void (*send_frames)(uint64_t timestamp_us);
// Set transmit queue length for the A2DP encoder.
void (*set_transmit_queue_length)(size_t transmit_queue_length);
} tA2DP_ENCODER_INTERFACE;
// Gets the A2DP codec type.
// |p_codec_info| contains information about the codec capabilities.
tA2DP_CODEC_TYPE A2DP_GetCodecType(const uint8_t* p_codec_info);
// Checks whether the codec capabilities contain a valid A2DP Source codec.
// NOTE: only codecs that are implemented are considered valid.
// Returns true if |p_codec_info| contains information about a valid codec,
// otherwise false.
bool A2DP_IsSourceCodecValid(const uint8_t* p_codec_info);
// Checks whether the codec capabilities contain a valid A2DP Sink codec.
// NOTE: only codecs that are implemented are considered valid.
// Returns true if |p_codec_info| contains information about a valid codec,
// otherwise false.
bool A2DP_IsSinkCodecValid(const uint8_t* p_codec_info);
// Checks whether the codec capabilities contain a valid peer A2DP Source
// codec.
// NOTE: only codecs that are implemented are considered valid.
// Returns true if |p_codec_info| contains information about a valid codec,
// otherwise false.
bool A2DP_IsPeerSourceCodecValid(const uint8_t* p_codec_info);
// Checks whether the codec capabilities contain a valid peer A2DP Sink codec.
// NOTE: only codecs that are implemented are considered valid.
// Returns true if |p_codec_info| contains information about a valid codec,
// otherwise false.
bool A2DP_IsPeerSinkCodecValid(const uint8_t* p_codec_info);
// Checks whether an A2DP Sink codec is supported.
// |p_codec_info| contains information about the codec capabilities.
// Returns true if the A2DP Sink codec is supported, otherwise false.
bool A2DP_IsSinkCodecSupported(const uint8_t* p_codec_info);
// Checks whether an A2DP Source codec for a peer Source device is supported.
// |p_codec_info| contains information about the codec capabilities of the
// peer device.
// Returns true if the A2DP Source codec for a peer Source device is supported,
// otherwise false.
bool A2DP_IsPeerSourceCodecSupported(const uint8_t* p_codec_info);
// Initialize state with the default A2DP codec.
// The initialized state with the codec capabilities is stored in
// |p_codec_info|.
void A2DP_InitDefaultCodec(uint8_t* p_codec_info);
// Builds A2DP preferred Sink capability from Source capability.
// |p_src_cap| is the Source capability to use.
// |p_pref_cfg| is the result Sink capability to store.
// Returns |A2DP_SUCCESS| on success, otherwise the corresponding A2DP error
// status code.
tA2DP_STATUS A2DP_BuildSrc2SinkConfig(const uint8_t* p_src_cap,
uint8_t* p_pref_cfg);
// Checks whether the A2DP data packets should contain RTP header.
// |content_protection_enabled| is true if Content Protection is
// enabled. |p_codec_info| contains information about the codec capabilities.
// Returns true if the A2DP data packets should contain RTP header, otherwise
// false.
bool A2DP_UsesRtpHeader(bool content_protection_enabled,
const uint8_t* p_codec_info);
// Gets the |AVDT_MEDIA_TYPE_*| media type from the codec capability
// in |p_codec_info|.
uint8_t A2DP_GetMediaType(const uint8_t* p_codec_info);
// Gets the A2DP codec name for a given |p_codec_info|.
const char* A2DP_CodecName(const uint8_t* p_codec_info);
// Checks whether two A2DP codecs |p_codec_info_a| and |p_codec_info_b| have
// the same type.
// Returns true if the two codecs have the same type, otherwise false.
// If the codec type is not recognized, the return value is false.
bool A2DP_CodecTypeEquals(const uint8_t* p_codec_info_a,
const uint8_t* p_codec_info_b);
// Checks whether two A2DP codecs p_codec_info_a| and |p_codec_info_b| are
// exactly the same.
// Returns true if the two codecs are exactly the same, otherwise false.
// If the codec type is not recognized, the return value is false.
bool A2DP_CodecEquals(const uint8_t* p_codec_info_a,
const uint8_t* p_codec_info_b);
// Gets the track sample rate value for the A2DP codec.
// |p_codec_info| is a pointer to the codec_info to decode.
// Returns the track sample rate on success, or -1 if |p_codec_info|
// contains invalid codec information.
int A2DP_GetTrackSampleRate(const uint8_t* p_codec_info);
// Gets the channel count for the A2DP codec.
// |p_codec_info| is a pointer to the codec_info to decode.
// Returns the channel count on success, or -1 if |p_codec_info|
// contains invalid codec information.
int A2DP_GetTrackChannelCount(const uint8_t* p_codec_info);
// Gets the channel type for the A2DP Sink codec:
// 1 for mono, or 3 for dual/stereo/joint.
// |p_codec_info| is a pointer to the codec_info to decode.
// Returns the channel type on success, or -1 if |p_codec_info|
// contains invalid codec information.
int A2DP_GetSinkTrackChannelType(const uint8_t* p_codec_info);
// Computes the number of frames to process in a time window for the A2DP
// Sink codec. |time_interval_ms| is the time interval (in milliseconds).
// |p_codec_info| is a pointer to the codec_info to decode.
// Returns the number of frames to process on success, or -1 if |p_codec_info|
// contains invalid codec information.
int A2DP_GetSinkFramesCountToProcess(uint64_t time_interval_ms,
const uint8_t* p_codec_info);
// Gets the A2DP audio data timestamp from an audio packet.
// |p_codec_info| contains the codec information.
// |p_data| contains the audio data.
// The timestamp is stored in |p_timestamp|.
// Returns true on success, otherwise false.
bool A2DP_GetPacketTimestamp(const uint8_t* p_codec_info, const uint8_t* p_data,
uint32_t* p_timestamp);
// Builds A2DP codec header for audio data.
// |p_codec_info| contains the codec information.
// |p_buf| contains the audio data.
// |frames_per_packet| is the number of frames in this packet.
// Returns true on success, otherwise false.
bool A2DP_BuildCodecHeader(const uint8_t* p_codec_info, BT_HDR* p_buf,
uint16_t frames_per_packet);
// Gets the A2DP encoder interface that can be used to encode and prepare
// A2DP packets for transmission - see |tA2DP_ENCODER_INTERFACE|.
// |p_codec_info| contains the codec information.
// Returns the A2DP encoder interface if the |p_codec_info| is valid and
// supported, otherwise NULL.
const tA2DP_ENCODER_INTERFACE* A2DP_GetEncoderInterface(
const uint8_t* p_codec_info);
// Adjusts the A2DP codec, based on local support and Bluetooth specification.
// |p_codec_info| contains the codec information to adjust.
// Returns true if |p_codec_info| is valid and supported, otherwise false.
bool A2DP_AdjustCodec(uint8_t* p_codec_info);
// Gets the A2DP Source codec index for a given |p_codec_info|.
// Returns the corresponding |btav_a2dp_codec_index_t| on success,
// otherwise |BTAV_A2DP_CODEC_INDEX_MAX|.
btav_a2dp_codec_index_t A2DP_SourceCodecIndex(const uint8_t* p_codec_info);
// Gets the A2DP codec name for a given |codec_index|.
const char* A2DP_CodecIndexStr(btav_a2dp_codec_index_t codec_index);
// Initializes A2DP codec-specific information into |tAVDT_CFG| configuration
// entry pointed by |p_cfg|. The selected codec is defined by |codec_index|.
// Returns true on success, otherwise false.
bool A2DP_InitCodecConfig(btav_a2dp_codec_index_t codec_index,
tAVDT_CFG* p_cfg);
// Decodes and displays A2DP codec info when using |LOG_DEBUG|.
// |p_codec_info| is a pointer to the codec_info to decode and display.
// Returns true if the codec information is valid, otherwise false.
bool A2DP_DumpCodecInfo(const uint8_t* p_codec_info);
// Add enum-based flag operators to the btav_a2dp_codec_config_t fields
#ifndef DEFINE_ENUM_FLAG_OPERATORS
#define DEFINE_ENUM_FLAG_OPERATORS(bitmask) \
extern "C++" { \
inline constexpr bitmask operator&(bitmask X, bitmask Y) { \
return static_cast<bitmask>(static_cast<int>(X) & static_cast<int>(Y)); \
} \
inline constexpr bitmask operator|(bitmask X, bitmask Y) { \
return static_cast<bitmask>(static_cast<int>(X) | static_cast<int>(Y)); \
} \
inline constexpr bitmask operator^(bitmask X, bitmask Y) { \
return static_cast<bitmask>(static_cast<int>(X) ^ static_cast<int>(Y)); \
} \
inline constexpr bitmask operator~(bitmask X) { \
return static_cast<bitmask>(~static_cast<int>(X)); \
} \
inline bitmask& operator&=(bitmask& X, bitmask Y) { \
X = X & Y; \
return X; \
} \
inline bitmask& operator|=(bitmask& X, bitmask Y) { \
X = X | Y; \
return X; \
} \
inline bitmask& operator^=(bitmask& X, bitmask Y) { \
X = X ^ Y; \
return X; \
} \
}
#endif // DEFINE_ENUM_FLAG_OPERATORS
DEFINE_ENUM_FLAG_OPERATORS(btav_a2dp_codec_sample_rate_t);
DEFINE_ENUM_FLAG_OPERATORS(btav_a2dp_codec_bits_per_sample_t);
DEFINE_ENUM_FLAG_OPERATORS(btav_a2dp_codec_channel_mode_t);
#endif // A2DP_CODEC_API_H