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avdtp add second state machine for remote site

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This commit is contained in:
Milanka Ringwald 2016-10-05 15:55:30 +02:00
parent 5b7b47f2d5
commit 55863429e4
5 changed files with 585 additions and 118 deletions
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60
test/avdtp/Makefile
View File

@ -1,30 +1,74 @@
# Makefile for libusb based PTS tests
BTSTACK_ROOT = ../..
CORE += main.c stdin_support.c
include ${BTSTACK_ROOT}/3rd-party/bluedroid/decoder/Makefile.inc
include ${BTSTACK_ROOT}/3rd-party/bluedroid/encoder/Makefile.inc
COMMON += hci_transport_h2_libusb.c btstack_run_loop_posix.c btstack_link_key_db_fs.c le_device_db_fs.c
CORE += \
btstack_memory.c \
btstack_linked_list.c \
btstack_memory_pool.c \
btstack_run_loop.c \
btstack_util.c \
main.c \
stdin_support.c \
include ${BTSTACK_ROOT}/example/Makefile.inc
CFLAGS += -g -Wall -Wmissing-prototypes -Wstrict-prototypes -Wshadow -Werror \
-I${BTSTACK_ROOT}/platform/posix \
-I${BTSTACK_ROOT}/platform/embedded \
-I${BTSTACK_ROOT}/port/libusb
COMMON += \
hci.c \
hci_cmd.c \
hci_dump.c \
l2cap.c \
l2cap_signaling.c \
hci_transport_h2_libusb.c \
btstack_run_loop_posix.c \
btstack_link_key_db_fs.c \
le_device_db_fs.c \
wav_util.c \
sdp_util.c \
sdp_server.c \
CFLAGS += -g -Wall -Wmissing-prototypes -Wstrict-prototypes -Wshadow -Werror
CFLAGS += -I.
CFLAGS += -I${BTSTACK_ROOT}/src
CFLAGS += -I${BTSTACK_ROOT}/src/classic
CFLAGS += -I${BTSTACK_ROOT}/3rd-party/bluedroid/decoder/include
CFLAGS += -I${BTSTACK_ROOT}/3rd-party/bluedroid/encoder/include
CFLAGS += -I${BTSTACK_ROOT}/platform/posix
CFLAGS += -I${BTSTACK_ROOT}/platform/embedded
CFLAGS += -I${BTSTACK_ROOT}/port/libusb
VPATH += ${BTSTACK_ROOT}/src
VPATH += ${BTSTACK_ROOT}/src/classic
VPATH += ${BTSTACK_ROOT}/platform/posix
VPATH += ${BTSTACK_ROOT}/port/libusb
VPATH += ${BTSTACK_ROOT}/3rd-party/bluedroid/decoder/srce
VPATH += ${BTSTACK_ROOT}/3rd-party/bluedroid/encoder/srce
# use pkg-config for libusb
CFLAGS += $(shell pkg-config libusb-1.0 --cflags)
LDFLAGS += $(shell pkg-config libusb-1.0 --libs)
SBC_DECODER += \
${BTSTACK_ROOT}/src/classic/btstack_sbc_plc.c \
${BTSTACK_ROOT}/src/classic/btstack_sbc_bludroid.c \
SBC_ENCODER += \
${BTSTACK_ROOT}/src/classic/btstack_sbc_bludroid.c \
${BTSTACK_ROOT}/src/classic/hfp_msbc.c \
AVDTP_TESTS = avdtp_test
CORE_OBJ = $(CORE:.c=.o)
COMMON_OBJ = $(COMMON:.c=.o)
SBC_DECODER_OBJ = $(SBC_DECODER:.c=.o)
SBC_ENCODER_OBJ = $(SBC_ENCODER:.c=.o)
all: ${AVDTP_TESTS}
avdtp_test: ${CORE_OBJ} ${COMMON_OBJ} avdtp_sink.o avdtp_test.o
avdtp_test: ${CORE_OBJ} ${COMMON_OBJ} ${SBC_DECODER_OBJ} ${SBC_ENCODER_OBJ} avdtp_sink.o avdtp_test.o
${CC} $^ ${CFLAGS} ${LDFLAGS} -o $@
test: all

97
test/avdtp/avdtp.h
View File

@ -68,6 +68,8 @@ extern "C" {
#define AV_REMOTE_CONTROL 0X110E
#define AV_REMOTE_CONTROL_CONTROLER 0X110F
#define MAX_CSRC_NUM 15
// Supported Features
#define AVDTP_SOURCE_SF_Player 0x0001
#define AVDTP_SOURCE_SF_Microphone 0x0002
@ -140,6 +142,14 @@ typedef enum{
AVDTP_MULTIMEDIA
} avdtp_media_type_t;
typedef enum{
AVDTP_CODEC_SBC = 0x00,
AVDTP_CODEC_MPEG_1_2_AUDIO = 0x01,
AVDTP_CODEC_MPEG_2_4_AAC = 0x02,
AVDTP_CODEC_ATRAC_FAMILY = 0x04,
AVDTP_CODEC_NON_A2DP = 0xFF
} avdtp_media_codec_type_t;
typedef enum{
AVDTP_SOURCE = 0,
AVDTP_SINK
@ -163,15 +173,17 @@ typedef struct {
} avdtp_recovery_capabilities_t;
typedef struct {
uint8_t media_type; // upper 4 bits, 4 lower are reserved
uint8_t media_codec_type; //
//uint8_t Media Codec Specific Information Elements
avdtp_media_type_t media_type;
avdtp_media_codec_type_t media_codec_type;
uint16_t media_codec_information_len;
const uint8_t * media_codec_information;
} adtvp_media_codec_capabilities_t;
typedef struct {
uint8_t CP_TYPE_LSB;
uint8_t CP_TYPE_MSB;
//uint8_t CP_Type Specific Value
uint8_t cp_type_lsb;
uint8_t cp_type_msb;
uint16_t cp_type_value_len;
const uint8_t * cp_type_value;
} adtvp_content_protection_t;
typedef struct{
@ -184,17 +196,17 @@ typedef struct{
uint8_t fragmentation; // byte0 - bit 8, Allow Adaptation Layer Fragmentation, 0 no, 1 yes
// Request/indicate value of the Transport Session Identifier for a media, reporting, or recovery transport sessions, respectively
uint8_t transport_identifiers_num;
uint8_t transport_session_identifiers[4]; // byte1, upper 5bits, 0x01 to 0x1E
uint8_t transport_session_identifiers[3]; // byte1, upper 5bits, 0x01 to 0x1E
// Request/indicate value for TCID for a media, reporting, or transport session
uint8_t transport_c_identifiers[4]; // byte2 0x01 to 0x1E
uint8_t tcid[3]; // byte2 0x01 to 0x1E
} avdtp_multiplexing_mode_capabilities_t;
typedef struct{
avdtp_recovery_capabilities_t recovery_caps;
adtvp_media_codec_capabilities_t media_codec_caps;
adtvp_content_protection_t content_protection_caps;
avdtp_header_compression_capabilities_t header_compression_caps;
avdtp_multiplexing_mode_capabilities_t multiplexing_mode_caps;
avdtp_recovery_capabilities_t recovery;
adtvp_media_codec_capabilities_t media_codec;
adtvp_content_protection_t content_protection;
avdtp_header_compression_capabilities_t header_compression;
avdtp_multiplexing_mode_capabilities_t multiplexing_mode;
} avdtp_capabilities_t;
typedef struct {
@ -207,6 +219,65 @@ typedef struct {
avdtp_capabilities_t capabilities;
} avdtp_sep_t;
typedef enum{
AVDTP_SBC_48000 = 1,
AVDTP_SBC_44100 = 2,
AVDTP_SBC_32000 = 4,
AVDTP_SBC_16000 = 8
} avdtp_sbc_sampling_frequency_t;
typedef enum{
AVDTP_SBC_JOINT_STEREO = 1,
AVDTP_SBC_STEREO = 2,
AVDTP_SBC_DUAL_CHANNEL = 4,
AVDTP_SBC_MONO = 8
} avdtp_sbc_channel_mode_t;
typedef enum{
AVDTP_SBC_BLOCK_LENGTH_16 = 1,
AVDTP_SBC_BLOCK_LENGTH_12 = 2,
AVDTP_SBC_BLOCK_LENGTH_8 = 4,
AVDTP_SBC_BLOCK_LENGTH_4 = 8
} avdtp_sbc_block_length_t;
typedef enum{
AVDTP_SBC_SUBBANDS_8 = 1,
AVDTP_SBC_SUBBANDS_4 = 2
} avdtp_sbc_subbands_t;
typedef enum{
AVDTP_SBC_ALLOCATION_METHOD_LOUDNESS = 1,
AVDTP_SBC_ALLOCATION_METHOD_SNR = 2
} avdtp_sbc_allocation_method_t;
typedef struct {
uint8_t fragmentation;
uint8_t starting_packet; // of fragmented SBC frame
uint8_t last_packet; // of fragmented SBC frame
uint8_t num_frames;
} avdtp_sbc_codec_header_t;
typedef struct {
uint8_t transaction_label;
avdtp_packet_type_t packet_type;
avdtp_message_type_t message_type;
uint8_t signal_identifier;
} avdtp_signaling_packet_header_t;
typedef struct {
uint8_t version;
uint8_t padding;
uint8_t extension;
uint8_t csrc_count;
uint8_t marker;
uint8_t payload_type;
uint16_t sequence_number;
uint32_t timestamp;
uint32_t synchronization_source;
uint32_t csrc_list[MAX_CSRC_NUM];
} avdtp_media_packet_header_t;
#if defined __cplusplus
}

478
test/avdtp/avdtp_sink.c
View File

@ -46,6 +46,12 @@
#include "avdtp.h"
#include "avdtp_sink.h"
#include "btstack_sbc.h"
#include "wav_util.h"
#define OI_DEBUG
#define STORE_SBC_TO_SBC_FILE
static const char * default_avdtp_sink_service_name = "BTstack AVDTP Sink Service";
static const char * default_avdtp_sink_service_provider_name = "BTstack AVDTP Sink Service Provider";
@ -58,6 +64,25 @@ static btstack_packet_handler_t avdtp_sink_callback;
static void packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size);
static void avdtp_sink_run_for_connection(avdtp_sink_connection_t *connection);
#ifdef STORE_SBC_TO_WAV_FILE
// store sbc as wav:
static btstack_sbc_decoder_state_t state;
static int total_num_samples = 0;
static int frame_count = 0;
static char * wav_filename = "avdtp_sink.wav";
static btstack_sbc_mode_t mode = SBC_MODE_STANDARD;
static void handle_pcm_data(int16_t * data, int num_samples, int num_channels, int sample_rate, void * context){
wav_writer_write_int16(num_samples, data);
total_num_samples+=num_samples;
frame_count++;
}
#endif
#ifdef STORE_SBC_TO_SBC_FILE
static FILE * sbc_file;
static char * sbc_filename = "avdtp_sink.sbc";
#endif
void a2dp_sink_create_sdp_record(uint8_t * service, uint32_t service_record_handle, uint16_t supported_features, const char * service_name, const char * service_provider_name){
uint8_t* attribute;
de_create_sequence(service);
@ -173,7 +198,9 @@ void avdtp_sink_register_media_transport_category(uint8_t seid){
log_error("invalid stream end point identifier");
return;
}
store_bit16(local_seps[seid].registered_service_categories, AVDTP_MEDIA_TRANSPORT, 1);
uint16_t bitmap = store_bit16(local_seps[seid].registered_service_categories, AVDTP_MEDIA_TRANSPORT, 1);
local_seps[seid].registered_service_categories = bitmap;
printf("registered services AVDTP_MEDIA_TRANSPORT(%d) %02x\n", AVDTP_MEDIA_TRANSPORT, local_seps[seid].registered_service_categories);
}
void avdtp_sink_register_reporting_category(uint8_t seid){
@ -181,7 +208,8 @@ void avdtp_sink_register_reporting_category(uint8_t seid){
log_error("invalid stream end point identifier");
return;
}
store_bit16(local_seps[seid].registered_service_categories, AVDTP_REPORTING, 1);
uint16_t bitmap = store_bit16(local_seps[seid].registered_service_categories, AVDTP_REPORTING, 1);
local_seps[seid].registered_service_categories = bitmap;
}
void avdtp_sink_register_delay_reporting_category(uint8_t seid){
@ -189,7 +217,8 @@ void avdtp_sink_register_delay_reporting_category(uint8_t seid){
log_error("invalid stream end point identifier");
return;
}
store_bit16(local_seps[seid].registered_service_categories, AVDTP_DELAY_REPORTING, 1);
uint16_t bitmap = store_bit16(local_seps[seid].registered_service_categories, AVDTP_DELAY_REPORTING, 1);
local_seps[seid].registered_service_categories = bitmap;
}
void avdtp_sink_register_recovery_category(uint8_t seid, uint8_t maximum_recovery_window_size, uint8_t maximum_number_media_packets){
@ -197,15 +226,24 @@ void avdtp_sink_register_recovery_category(uint8_t seid, uint8_t maximum_recover
log_error("invalid stream end point identifier");
return;
}
store_bit16(local_seps[seid].registered_service_categories, AVDTP_RECOVERY, 1);
uint16_t bitmap = store_bit16(local_seps[seid].registered_service_categories, AVDTP_RECOVERY, 1);
local_seps[seid].registered_service_categories = bitmap;
local_seps[seid].capabilities.recovery.recovery_type = 0x01; // 0x01 = RFC2733
local_seps[seid].capabilities.recovery.maximum_recovery_window_size = maximum_recovery_window_size;
local_seps[seid].capabilities.recovery.maximum_number_media_packets = maximum_number_media_packets;
}
void avdtp_sink_register_content_protection_category(uint8_t seid, uint8_t cp_type_lsb, uint8_t cp_type_msb){
void avdtp_sink_register_content_protection_category(uint8_t seid, uint8_t cp_type_lsb, uint8_t cp_type_msb, const uint8_t * cp_type_value, uint8_t cp_type_value_len){
if (seid >= local_seps_num){
log_error("invalid stream end point identifier");
return;
}
store_bit16(local_seps[seid].registered_service_categories, AVDTP_CONTENT_PROTECTION, 1);
uint16_t bitmap = store_bit16(local_seps[seid].registered_service_categories, AVDTP_CONTENT_PROTECTION, 1);
local_seps[seid].registered_service_categories = bitmap;
local_seps[seid].capabilities.content_protection.cp_type_lsb = cp_type_lsb;
local_seps[seid].capabilities.content_protection.cp_type_msb = cp_type_msb;
local_seps[seid].capabilities.content_protection.cp_type_value = cp_type_value;
local_seps[seid].capabilities.content_protection.cp_type_value_len = cp_type_value_len;
}
void avdtp_sink_register_header_compression_category(uint8_t seid, uint8_t back_ch, uint8_t media, uint8_t recovery){
@ -213,24 +251,40 @@ void avdtp_sink_register_header_compression_category(uint8_t seid, uint8_t back_
log_error("invalid stream end point identifier");
return;
}
store_bit16(local_seps[seid].registered_service_categories, AVDTP_HEADER_COMPRESSION, 1);
uint16_t bitmap = store_bit16(local_seps[seid].registered_service_categories, AVDTP_HEADER_COMPRESSION, 1);
local_seps[seid].registered_service_categories = bitmap;
local_seps[seid].capabilities.header_compression.back_ch = back_ch;
local_seps[seid].capabilities.header_compression.media = media;
local_seps[seid].capabilities.header_compression.recovery = recovery;
}
void avdtp_sink_register_media_codec_category(uint8_t seid, uint8_t media_type, uint8_t media_codec_type){
void avdtp_sink_register_media_codec_category(uint8_t seid, avdtp_media_type_t media_type, avdtp_media_codec_type_t media_codec_type, const uint8_t * media_codec_info, uint16_t media_codec_info_len){
if (seid >= local_seps_num){
log_error("invalid stream end point identifier");
return;
}
store_bit16(local_seps[seid].registered_service_categories, AVDTP_MEDIA_CODEC, 1);
uint16_t bitmap = store_bit16(local_seps[seid].registered_service_categories, AVDTP_MEDIA_CODEC, 1);
local_seps[seid].registered_service_categories = bitmap;
printf("registered services AVDTP_MEDIA_CODEC(%d) %02x\n", AVDTP_MEDIA_CODEC, local_seps[seid].registered_service_categories);
local_seps[seid].capabilities.media_codec.media_type = media_type;
local_seps[seid].capabilities.media_codec.media_codec_type = media_codec_type;
local_seps[seid].capabilities.media_codec.media_codec_information = media_codec_info;
local_seps[seid].capabilities.media_codec.media_codec_information_len = media_codec_info_len;
}
void avdtp_sink_register_multiplexing_category(uint8_t seid, uint8_t fragmentation, uint8_t transport_identifiers_num, uint8_t * transport_session_identifiers, uint8_t * transport_c_identifiers){
void avdtp_sink_register_multiplexing_category(uint8_t seid, uint8_t fragmentation){
if (seid >= local_seps_num){
log_error("invalid stream end point identifier");
return;
}
store_bit16(local_seps[seid].registered_service_categories, AVDTP_MULTIPLEXING, 1);
uint16_t bitmap = store_bit16(local_seps[seid].registered_service_categories, AVDTP_MULTIPLEXING, 1);
local_seps[seid].registered_service_categories = bitmap;
local_seps[seid].capabilities.multiplexing_mode.fragmentation = fragmentation;
}
// // media, reporting. recovery
// void avdtp_sink_register_media_transport_identifier_for_multiplexing_category(uint8_t seid, uint8_t fragmentation){
// }
static void audio_sink_generate_next_transaction_label(avdtp_sink_connection_t * connection){
connection->local_transaction_label++;
@ -264,7 +318,13 @@ static avdtp_sink_connection_t * get_avdtp_sink_connection_context_for_l2cap_cid
btstack_linked_list_iterator_init(&it, (btstack_linked_list_t *) &avdtp_sink_connections);
while (btstack_linked_list_iterator_has_next(&it)){
avdtp_sink_connection_t * connection = (avdtp_sink_connection_t *)btstack_linked_list_iterator_next(&it);
if (connection->l2cap_cid == l2cap_cid){
if (connection->l2cap_signaling_cid == l2cap_cid){
return connection;
}
if (connection->l2cap_media_cid == l2cap_cid){
return connection;
}
if (connection->l2cap_reporting_cid == l2cap_cid){
return connection;
}
}
@ -299,95 +359,278 @@ static int avdtp_sink_send_seps_response(uint16_t cid, uint8_t transaction_label
return l2cap_send(cid, command, pos);
}
static int avdtp_sink_send_accept_response(uint16_t cid, avdtp_signal_identifier_t identifier, uint8_t transaction_label){
uint8_t command[2];
command[0] = avdtp_header(transaction_label, AVDTP_SINGLE_PACKET, AVDTP_RESPONSE_ACCEPT_MSG);
command[1] = (uint8_t)identifier;
return l2cap_send(cid, command, sizeof(command));
}
// static int avdtp_sink_send_configuration_reject_response(uint16_t cid, uint8_t transaction_label){
// uint8_t command[3];
// command[0] = avdtp_header(transaction_label, AVDTP_SINGLE_PACKET, AVDTP_RESPONSE_REJECT_MSG);
// command[1] = (uint8_t)AVDTP_SET_CONFIGURATION;
// command[2] = 0x00;
// // TODO: add reason for reject AVDTP 8.9
// return l2cap_send(cid, command, sizeof(command));
// }
static int avdtp_sink_send_get_capabilities_cmd(uint16_t cid, uint8_t sep_id){
return 0;
}
static int avdtp_pack_service_category(uint8_t * buffer, int size, avdtp_sep_t sep, avdtp_service_category_t category){
int pos = 0;
static int avdtp_pack_service_capabilities(uint8_t * buffer, int size, avdtp_capabilities_t caps, avdtp_service_category_t category){
int i;
// pos = 0 reserved for length
int pos = 1;
switch(category){
case AVDTP_MEDIA_TRANSPORT:
break;
case AVDTP_REPORTING:
break;
case AVDTP_RECOVERY:
break;
case AVDTP_CONTENT_PROTECTION:
break;
case AVDTP_HEADER_COMPRESSION:
break;
case AVDTP_MULTIPLEXING:
break;
case AVDTP_MEDIA_CODEC:
break;
case AVDTP_DELAY_REPORTING:
break;
case AVDTP_RECOVERY:
buffer[pos++] = caps.recovery.recovery_type; // 0x01=RFC2733
buffer[pos++] = caps.recovery.maximum_recovery_window_size;
buffer[pos++] = caps.recovery.maximum_number_media_packets;
break;
case AVDTP_CONTENT_PROTECTION:
buffer[pos++] = caps.content_protection.cp_type_lsb;
buffer[pos++] = caps.content_protection.cp_type_msb;
for (i = 0; i<caps.content_protection.cp_type_value_len; i++){
buffer[pos++] = caps.content_protection.cp_type_value[i];
}
break;
case AVDTP_HEADER_COMPRESSION:
buffer[pos++] = (caps.header_compression.back_ch << 7) | (caps.header_compression.media << 6) | (caps.header_compression.recovery << 5);
break;
case AVDTP_MULTIPLEXING:
buffer[pos++] = caps.multiplexing_mode.fragmentation << 7;
for (i=0; i<caps.multiplexing_mode.transport_identifiers_num; i++){
buffer[pos++] = caps.multiplexing_mode.transport_session_identifiers[i] << 7;
buffer[pos++] = caps.multiplexing_mode.tcid[i] << 7;
// media, reporting. recovery
}
break;
case AVDTP_MEDIA_CODEC:
buffer[pos++] = ((uint8_t)caps.media_codec.media_type) << 4;
buffer[pos++] = (uint8_t)caps.media_codec.media_codec_type;
for (i = 0; i<caps.media_codec.media_codec_information_len; i++){
buffer[pos++] = caps.media_codec.media_codec_information[i];
}
break;
}
buffer[0] = pos; // length
return pos;
}
static uint16_t avdtp_unpack_service_capabilities(avdtp_capabilities_t * caps, uint8_t * packet, uint16_t size){
int pos = 0;
uint16_t registered_service_categories = 0;
avdtp_service_category_t category = (avdtp_service_category_t)packet[pos++];
uint8_t cap_len = packet[pos++];
int i;
while (pos < size){
switch(category){
case AVDTP_MEDIA_TRANSPORT:
case AVDTP_REPORTING:
case AVDTP_DELAY_REPORTING:
pos++;
break;
case AVDTP_RECOVERY:
caps->recovery.recovery_type = packet[pos++];
caps->recovery.maximum_recovery_window_size = packet[pos++];
caps->recovery.maximum_number_media_packets = packet[pos++];
break;
case AVDTP_CONTENT_PROTECTION:
caps->content_protection.cp_type_lsb = packet[pos++];
caps->content_protection.cp_type_msb = packet[pos++];
caps->content_protection.cp_type_value_len = cap_len - 2;
printf_hexdump(packet+pos, caps->content_protection.cp_type_value_len);
pos += caps->content_protection.cp_type_value_len;
break;
case AVDTP_HEADER_COMPRESSION:
caps->header_compression.back_ch = packet[pos] >> 7;
caps->header_compression.media = packet[pos] >> 6;
caps->header_compression.recovery = packet[pos] >> 5;
pos++;
break;
case AVDTP_MULTIPLEXING:
caps->multiplexing_mode.fragmentation = packet[pos++] >> 7;
for (i=0; i<caps->multiplexing_mode.transport_identifiers_num; i++){
caps->multiplexing_mode.transport_session_identifiers[i] = packet[pos++] >> 7;
caps->multiplexing_mode.tcid[i] = packet[pos++] >> 7;
// media, reporting. recovery
}
break;
case AVDTP_MEDIA_CODEC:
caps->media_codec.media_type = packet[pos++] >> 4;
caps->media_codec.media_codec_type = packet[pos++];
caps->media_codec.media_codec_information_len = cap_len - 2;
printf_hexdump(packet+pos, caps->media_codec.media_codec_information_len);
pos += caps->media_codec.media_codec_information_len;
break;
}
registered_service_categories = store_bit16(registered_service_categories, category, 1);
}
return registered_service_categories;
}
static int avdtp_sink_send_capabilities_response(uint16_t cid, uint8_t transaction_label, avdtp_sep_t sep){
uint8_t command[2+2*MAX_NUM_SEPS];
uint8_t command[100];
int pos = 0;
command[pos++] = avdtp_header(transaction_label, AVDTP_SINGLE_PACKET, AVDTP_RESPONSE_ACCEPT_MSG);
command[pos++] = (uint8_t)AVDTP_GET_CAPABILITIES;
int i = 0;
for (i = 1; i < 9; i++){
if (get_bit16(sep.registered_service_categories, i)){
pos += avdtp_pack_service_category(command+pos, sizeof(command)-pos, sep, (avdtp_service_category_t)i);
// service category
command[pos++] = i;
pos += avdtp_pack_service_capabilities(command+pos, sizeof(command)-pos, sep.capabilities, (avdtp_service_category_t)i);
}
}
return l2cap_send(cid, command, pos);
}
static void handle_l2cap_data_packet(avdtp_sink_connection_t * connection, uint8_t *packet, uint16_t size){
static void handle_l2cap_media_data_packet(avdtp_sink_connection_t * connection, uint8_t *packet, uint16_t size){
int pos = 0;
avdtp_media_packet_header_t media_header;
media_header.version = packet[pos] & 0x03;
media_header.padding = get_bit16(packet[pos],2);
media_header.extension = get_bit16(packet[pos],3);
media_header.csrc_count = (packet[pos] >> 4) & 0x0F;
pos++;
media_header.marker = get_bit16(packet[pos],0);
media_header.payload_type = (packet[pos] >> 1) & 0x7F;
pos++;
media_header.sequence_number = big_endian_read_16(packet, pos);
pos+=2;
media_header.timestamp = big_endian_read_32(packet, pos);
pos+=4;
media_header.synchronization_source = big_endian_read_32(packet, pos);
pos+=4;
// TODO: read csrc list
printf_hexdump( packet, pos );
printf("MEDIA HEADER: %u timestamp, version %u, padding %u, extension %u, csrc_count %u\n",
media_header.timestamp, media_header.version, media_header.padding, media_header.extension, media_header.csrc_count);
printf("MEDIA HEADER: marker %02x, payload_type %02x, sequence_number %u, synchronization_source %u\n",
media_header.marker, media_header.payload_type, media_header.sequence_number, media_header.synchronization_source);
avdtp_sbc_codec_header_t sbc_header;
sbc_header.fragmentation = get_bit16(packet[pos], 7);
sbc_header.starting_packet = get_bit16(packet[pos], 6);
sbc_header.last_packet = get_bit16(packet[pos], 5);
sbc_header.num_frames = packet[pos] & 0x0f;
pos++;
printf("SBC HEADER: num_frames %u, fragmented %u, start %u, stop %u\n", sbc_header.num_frames, sbc_header.fragmentation, sbc_header.starting_packet, sbc_header.last_packet);
printf_hexdump( packet+pos, size-pos );
#ifdef STORE_SBC_TO_WAV_FILE
btstack_sbc_decoder_process_data(&state, 0, packet+pos, size-pos);
#endif
#ifdef STORE_SBC_TO_SBC_FILE
fwrite(packet+pos, size-pos, 1, sbc_file);
#endif
}
static void handle_l2cap_signaling_data_packet(avdtp_sink_connection_t * connection, uint8_t *packet, uint16_t size){
if (size < 2) {
log_error("l2cap data packet too small");
return;
}
uint8_t tr_label = packet[0] >> 4;
avdtp_packet_type_t packet_type = (avdtp_packet_type_t)((packet[0] >> 2) & 0x03);
avdtp_message_type_t msg_type = (avdtp_message_type_t) (packet[0] & 0x03);
uint8_t signal_identifier = packet[1] & 0x3f;
avdtp_signaling_packet_header_t signaling_header;
printf("\nheader: tr_label %d, packet_type %d, msg_type %d, signal_identifier %02x\n", tr_label, packet_type, msg_type, signal_identifier);
signaling_header.transaction_label = packet[0] >> 4;
signaling_header.packet_type = (avdtp_packet_type_t)((packet[0] >> 2) & 0x03);
signaling_header.message_type = (avdtp_message_type_t) (packet[0] & 0x03);
signaling_header.signal_identifier = packet[1] & 0x3f;
printf("SIGNALING HEADER: tr_label %d, packet_type %d, msg_type %d, signal_identifier %02x\n",
signaling_header.transaction_label, signaling_header.packet_type, signaling_header.message_type, signaling_header.signal_identifier);
int i = 2;
avdtp_sep_t sep;
if (msg_type == AVDTP_CMD_MSG){
if (signaling_header.message_type == AVDTP_CMD_MSG){
// remote
printf("command from remote\n");
switch (signal_identifier){
printf("command from remote: ");
connection->remote_transaction_label = signaling_header.transaction_label;
switch (signaling_header.signal_identifier){
case AVDTP_DISCOVER:
connection->remote_transaction_label = tr_label;
connection->remote_state = AVDTP_SINK_W2_DISCOVER_SEPS;
l2cap_request_can_send_now_event(connection->l2cap_cid);
if (connection->remote_state != AVDTP_REMOTE_IDLE) return;
printf("AVDTP_DISCOVER\n");
connection->remote_state = AVDTP_REMOTE_W2_ANSWER_DISCOVER_SEPS;
l2cap_request_can_send_now_event(connection->l2cap_signaling_cid);
break;
case AVDTP_GET_CAPABILITIES:
sep.seid = packet[2] >> 2;
connection->remote_transaction_label = tr_label;
connection->requested_local_seid = sep.seid;
connection->remote_state = AVDTP_SINK_W2_GET_CAPABILITIES;
l2cap_request_can_send_now_event(connection->l2cap_cid);
if (connection->remote_state != AVDTP_REMOTE_IDLE) return;
printf("AVDTP_GET_CAPABILITIES\n");
connection->local_seid = packet[2] >> 2;
connection->remote_state = AVDTP_REMOTE_W2_ANSWER_GET_CAPABILITIES;
l2cap_request_can_send_now_event(connection->l2cap_signaling_cid);
break;
case AVDTP_SET_CONFIGURATION:
if (connection->remote_state != AVDTP_REMOTE_IDLE) return;
printf("AVDTP_SET_CONFIGURATION\n");
connection->local_seid = packet[2] >> 2;
sep.seid = packet[3] >> 2;
// find or add sep
for (i=0; i<connection->remote_seps_num; i++){
if (connection->remote_seps[i].seid == sep.seid){
connection->remote_sep_index = i;
}
}
sep.registered_service_categories = avdtp_unpack_service_capabilities(&sep.capabilities, packet+4, size-4);
connection->remote_seps[connection->remote_sep_index] = sep;
connection->remote_state = AVDTP_REMOTE_W2_ANSWER_SET_CONFIGURATION;
l2cap_request_can_send_now_event(connection->l2cap_signaling_cid);
break;
case AVDTP_OPEN:
if (connection->remote_state != AVDTP_REMOTE_IDLE) return;
printf("AVDTP_OPEN\n");
connection->local_seid = packet[2] >> 2;
connection->remote_state = AVDTP_REMOTE_W2_ANSWER_OPEN_STREAM;
l2cap_request_can_send_now_event(connection->l2cap_signaling_cid);
break;
case AVDTP_START:
if (connection->remote_state != AVDTP_REMOTE_OPEN) return;
printf("AVDTP_START\n");
connection->local_seid = packet[2] >> 2;
connection->remote_state = AVDTP_REMOTE_W2_ANSWER_START_SINGLE_STREAM;
l2cap_request_can_send_now_event(connection->l2cap_signaling_cid);
break;
default:
printf("NOT IMPLEMENTED signal_identifier %d\n", signaling_header.signal_identifier);
printf_hexdump( packet, size );
break;
}
return;
}
printf("send to remote: ");
switch (connection->local_state){
case AVDTP_SINK_W4_SEPS_DISCOVERED:
if (tr_label != connection->local_transaction_label){
log_error("unexpected transaction label, got %d, expected %d", tr_label, connection->local_transaction_label);
printf("AVDTP_SINK_W4_SEPS_DISCOVERED\n");
if (signaling_header.transaction_label != connection->local_transaction_label){
log_error("unexpected transaction label, got %d, expected %d", signaling_header.transaction_label, connection->local_transaction_label);
return;
}
if (signal_identifier != AVDTP_DISCOVER) {
if (signaling_header.signal_identifier != AVDTP_DISCOVER) {
log_error("unexpected signal identifier ...");
return;
}
if (msg_type != AVDTP_RESPONSE_ACCEPT_MSG){
if (signaling_header.message_type != AVDTP_RESPONSE_ACCEPT_MSG){
log_error("request rejected...");
return;
}
@ -410,9 +653,10 @@ static void handle_l2cap_data_packet(avdtp_sink_connection_t * connection, uint8
}
// connection->local_state = AVDTP_SINK_W2_GET_CAPABILITIES;
// connection->local_transaction_label++;
// l2cap_request_can_send_now_event(connection->l2cap_cid);
// l2cap_request_can_send_now_event(connection->l2cap_signaling_cid);
break;
default:
printf("NOT IMPLEMENTED\n");
printf_hexdump( packet, size );
break;
}
@ -430,10 +674,18 @@ static void packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packe
case L2CAP_DATA_PACKET:
connection = get_avdtp_sink_connection_context_for_l2cap_cid(channel);
if (!connection){
log_error("avdtp packet handler L2CAP_EVENT_INCOMING_CONNECTION: connection for local cid 0x%02x not found", channel);
log_error("avdtp packet handler L2CAP_DATA_PACKET: connection for local cid 0x%02x not found", channel);
break;
}
handle_l2cap_data_packet(connection, packet, size);
if (channel == connection->l2cap_signaling_cid){
handle_l2cap_signaling_data_packet(connection, packet, size);
} else if (channel == connection->l2cap_media_cid){
handle_l2cap_media_data_packet(connection, packet, size);
} else if (channel == connection->l2cap_reporting_cid){
// TODO
} else {
log_error("avdtp packet handler L2CAP_DATA_PACKET: local cid 0x%02x not found", channel);
}
break;
case HCI_EVENT_PACKET:
@ -456,34 +708,50 @@ static void packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packe
printf("L2CAP_EVENT_INCOMING_CONNECTION %s, handle 0x%02x, psm 0x%02x, local cid 0x%02x, remote cid 0x%02x\n",
bd_addr_to_str(event_addr), con_handle, psm, local_cid, remote_cid);
connection->local_state = AVDTP_SINK_W4_L2CAP_CONNECTED;
l2cap_accept_connection(local_cid);
break;
case L2CAP_EVENT_CHANNEL_OPENED:
// inform about new l2cap connection
l2cap_event_channel_opened_get_address(packet, event_addr);
connection = get_avdtp_sink_connection_context_for_bd_addr(event_addr);
if (!connection || connection->local_state != AVDTP_SINK_W4_L2CAP_CONNECTED) return;
if (!connection){
log_error("avdtp sink: L2CAP_EVENT_CHANNEL_OPENED: connection for bd addr %s cannot be found", bd_addr_to_str(event_addr));
return;
}
if (l2cap_event_channel_opened_get_status(packet)){
printf("L2CAP connection to device %s failed. status code %u\n",
printf("L2CAP connection to device %s failed. status code 0x%02x\n",
bd_addr_to_str(event_addr), l2cap_event_channel_opened_get_status(packet));
break;
}
psm = l2cap_event_channel_opened_get_psm(packet);
connection->l2cap_cid = l2cap_event_channel_opened_get_local_cid(packet);
connection->acl_handle = l2cap_event_channel_opened_get_handle(packet);
printf("Channel successfully opened: %s, handle 0x%02x, psm 0x%02x, local cid 0x%02x, remote cid 0x%02x, context %p\n",
bd_addr_to_str(event_addr), connection->acl_handle, psm, connection->l2cap_cid, l2cap_event_channel_opened_get_remote_cid(packet),
connection);
if (psm != PSM_AVDTP){
log_error("unexpected PSM - Not implemented yet, avdtp sink: L2CAP_EVENT_CHANNEL_OPENED");
return;
}
printf("L2CAP_EVENT_CHANNEL_OPENED cid %02x, context %p, local state %d, remote state %d\n",
l2cap_event_channel_opened_get_local_cid(packet), connection, connection->local_state, connection->remote_state);
if (connection->local_state == AVDTP_SINK_W4_L2CAP_CONNECTED){
connection->l2cap_signaling_cid = l2cap_event_channel_opened_get_local_cid(packet);
connection->local_state = AVDTP_SINK_W2_DISCOVER_SEPS;
audio_sink_generate_next_transaction_label(connection);
l2cap_request_can_send_now_event(connection->l2cap_cid);
l2cap_request_can_send_now_event(connection->l2cap_signaling_cid);
printf("L2CAP_EVENT_CHANNEL_OPENED: Signaling ");
} else if (connection->remote_state <= AVDTP_REMOTE_W4_STREAMING_CONNECTION_OPEN){
connection->l2cap_media_cid = l2cap_event_channel_opened_get_local_cid(packet);
connection->remote_state = AVDTP_REMOTE_STREAMING;
// l2cap_request_can_send_now_event(connection->l2cap_media_cid);
printf("L2CAP_EVENT_CHANNEL_OPENED: Media ");
} else {
printf("unexpected connection state: Not implemented yet remote state %d\n", connection->remote_state);
return;
}
con_handle = l2cap_event_channel_opened_get_handle(packet);
printf("Channel successfully opened: %s, handle 0x%02x, psm 0x%02x, local cid 0x%02x, remote cid 0x%02x, context %p\n",
bd_addr_to_str(event_addr), con_handle, psm, connection->l2cap_signaling_cid, l2cap_event_channel_opened_get_remote_cid(packet),
connection);
break;
case L2CAP_EVENT_CHANNEL_CLOSED:
@ -497,6 +765,19 @@ static void packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packe
connection->local_state = AVDTP_SINK_IDLE;
break;
case HCI_EVENT_DISCONNECTION_COMPLETE:{
#ifdef STORE_SBC_TO_WAV_FILE
wav_writer_close();
int total_frames_nr = state.good_frames_nr + state.bad_frames_nr + state.zero_frames_nr;
printf("\nDecoding done. Processed totaly %d frames:\n - %d good\n - %d bad\n - %d zero frames\n", total_frames_nr, state.good_frames_nr, state.bad_frames_nr, state.zero_frames_nr);
printf("Write %d frames to wav file: %s\n\n", frame_count, wav_filename);
#endif
#ifdef STORE_SBC_TO_SBC_FILE
fclose(sbc_file);
#endif
}
default:
// other event
break;
@ -512,6 +793,15 @@ static void packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packe
// TODO: find out which security level is needed, and replace LEVEL_0 in avdtp_sink_init
void avdtp_sink_init(void){
#ifdef STORE_SBC_TO_WAV_FILE
btstack_sbc_decoder_init(&state, mode, &handle_pcm_data, NULL);
wav_writer_open(wav_filename, 2, 44100);
#endif
#ifdef STORE_SBC_TO_SBC_FILE
sbc_file = fopen(sbc_filename, "wb");
#endif
l2cap_register_service(&packet_handler, PSM_AVDTP, 0xffff, LEVEL_0);
}
@ -526,47 +816,73 @@ void avdtp_sink_register_packet_handler(btstack_packet_handler_t callback){
static void avdtp_sink_run_for_connection(avdtp_sink_connection_t *connection){
if (!connection) return;
// handle disconnect request
if (connection->release_l2cap_connection){
if (connection->local_state > AVDTP_SINK_W4_L2CAP_CONNECTED ||
connection->local_state < AVDTP_SINK_W4_L2CAP_DISCONNECTED){
connection->release_l2cap_connection = 0;
connection->local_state = AVDTP_SINK_W4_L2CAP_DISCONNECTED;
l2cap_disconnect(connection->l2cap_cid, 0);
l2cap_disconnect(connection->l2cap_signaling_cid, 0);
return;
}
}
if (!l2cap_can_send_packet_now(connection->l2cap_cid)) {
log_info("avdtp_sink_run_for_connection: request cannot send for 0x%02x", connection->l2cap_cid);
if (!l2cap_can_send_packet_now(connection->l2cap_signaling_cid)) {
log_info("avdtp_sink_run_for_connection: request cannot send for 0x%02x", connection->l2cap_signaling_cid);
return;
}
printf("avdtp_sink_run_for_connection: \n");
int sent = 1;
switch (connection->remote_state){
case AVDTP_SINK_W2_DISCOVER_SEPS:
connection->local_state = AVDTP_SINK_W4_SEPS_DISCOVERED;
avdtp_sink_send_seps_response(connection->l2cap_cid, connection->remote_transaction_label, local_seps, local_seps_num);
return;
case AVDTP_SINK_W2_GET_CAPABILITIES:
connection->local_state = AVDTP_SINK_W4_CAPABILITIES;
avdtp_sink_send_capabilities_response(connection->l2cap_cid, connection->remote_transaction_label, local_seps[connection->requested_local_seid]);
case AVDTP_REMOTE_W2_ANSWER_DISCOVER_SEPS:
connection->remote_state = AVDTP_REMOTE_IDLE;
avdtp_sink_send_seps_response(connection->l2cap_signaling_cid, connection->remote_transaction_label, local_seps, local_seps_num);
break;
case AVDTP_REMOTE_W2_ANSWER_GET_CAPABILITIES:
connection->remote_state = AVDTP_REMOTE_IDLE;
avdtp_sink_send_capabilities_response(connection->l2cap_signaling_cid, connection->remote_transaction_label, local_seps[connection->local_seid]);
break;
case AVDTP_REMOTE_W2_ANSWER_SET_CONFIGURATION:
connection->remote_state = AVDTP_REMOTE_IDLE;
avdtp_sink_send_accept_response(connection->l2cap_signaling_cid, AVDTP_SET_CONFIGURATION, connection->remote_transaction_label);
break;
case AVDTP_REMOTE_W2_ANSWER_OPEN_STREAM:
connection->remote_state = AVDTP_REMOTE_OPEN;
avdtp_sink_send_accept_response(connection->l2cap_signaling_cid, AVDTP_OPEN, connection->remote_transaction_label);
break;
case AVDTP_REMOTE_W2_ANSWER_START_SINGLE_STREAM:
connection->remote_state = AVDTP_REMOTE_W4_STREAMING_CONNECTION_OPEN;
avdtp_sink_send_accept_response(connection->l2cap_signaling_cid, AVDTP_START, connection->remote_transaction_label);
break;
default:
sent = 0;
break;
}
if (sent == 1){
printf("answered to remote\n");
return;
}
sent = 1;
switch (connection->local_state){
case AVDTP_SINK_W2_DISCOVER_SEPS:
connection->local_state = AVDTP_SINK_W4_SEPS_DISCOVERED;
avdtp_sink_send_signaling_cmd(connection->l2cap_cid, AVDTP_DISCOVER, connection->local_transaction_label);
return;
avdtp_sink_send_signaling_cmd(connection->l2cap_signaling_cid, AVDTP_DISCOVER, connection->local_transaction_label);
break;
case AVDTP_SINK_W2_GET_CAPABILITIES:
connection->local_state = AVDTP_SINK_W4_CAPABILITIES;
avdtp_sink_send_get_capabilities_cmd(connection->l2cap_cid, 0);
return;
default:
avdtp_sink_send_get_capabilities_cmd(connection->l2cap_signaling_cid, 0);
break;
default:
sent = 0;
break;
}
if (sent){
printf("sent request to remote\n");
return;
}
}

52
test/avdtp/avdtp_sink.h
View File

@ -58,12 +58,19 @@ extern "C" {
typedef enum {
AVDTP_SINK_IDLE,
AVDTP_SINK_W4_L2CAP_CONNECTED,
AVDTP_SINK_W2_DISCOVER_SEPS,
AVDTP_SINK_W4_SEPS_DISCOVERED,
AVDTP_SINK_W2_GET_CAPABILITIES,
AVDTP_SINK_W4_CAPABILITIES,
AVDTP_SINK_W2_SET_CONFIGURATION,
AVDTP_SINK_W4_CONFIGURATION_SET,
AVDTP_SINK_W2_GET_CONFIGURATION,
AVDTP_SINK_W4_CONFIGURATION_RECEIVED,
AVDTP_SINK_CONFIGURED,
AVDTP_SINK_OPEN,
AVDTP_SINK_STREAMING,
@ -72,27 +79,45 @@ typedef enum {
AVDTP_SINK_W4_L2CAP_DISCONNECTED
} avdtp_sink_state_t;
typedef enum {
AVDTP_REMOTE_IDLE,
AVDTP_REMOTE_W2_ANSWER_DISCOVER_SEPS,
AVDTP_REMOTE_W2_ANSWER_GET_CAPABILITIES,
AVDTP_REMOTE_W2_ANSWER_SET_CONFIGURATION,
AVDTP_REMOTE_W2_ANSWER_OPEN_STREAM,
AVDTP_REMOTE_OPEN,
AVDTP_REMOTE_W2_ANSWER_START_SINGLE_STREAM,
AVDTP_REMOTE_W4_STREAMING_CONNECTION_OPEN,
AVDTP_REMOTE_STREAMING
} avdtp_source_state_t;
typedef struct avdtp_sink_connection {
btstack_linked_item_t item;
bd_addr_t remote_addr;
hci_con_handle_t acl_handle;
uint16_t l2cap_cid;
uint16_t l2cap_signaling_cid;
uint16_t l2cap_media_cid;
uint16_t l2cap_reporting_cid;
avdtp_sink_state_t local_state;
avdtp_sink_state_t remote_state;
avdtp_sep_t remote_seps[MAX_NUM_SEPS];
uint8_t remote_seps_num;
uint8_t remote_sep_index_get_capabilities;
avdtp_source_state_t remote_state;
uint8_t local_transaction_label;
uint8_t remote_transaction_label;
uint8_t release_l2cap_connection;
// store remote seps
avdtp_sep_t remote_seps[MAX_NUM_SEPS];
uint8_t remote_seps_num;
avdtp_capabilities_t remote_capabilities;
uint8_t requested_local_seid;
// currently active local_seid
uint8_t local_seid;
// currently active remote seid
uint8_t remote_sep_index;
// register request for L2cap connection release
uint8_t release_l2cap_connection;
} avdtp_sink_connection_t;
@ -120,10 +145,11 @@ void avdtp_sink_register_media_transport_category(uint8_t seid);
void avdtp_sink_register_reporting_category(uint8_t seid);
void avdtp_sink_register_delay_reporting_category(uint8_t seid);
void avdtp_sink_register_recovery_category(uint8_t seid, uint8_t maximum_recovery_window_size, uint8_t maximum_number_media_packets);
void avdtp_sink_register_content_protection_category(uint8_t seid, uint8_t cp_type_lsb, uint8_t cp_type_msb);
void avdtp_sink_register_header_compression_category(uint8_t seid, uint8_t back_ch, uint8_t media, uint8_t recovery);
void avdtp_sink_register_media_codec_category(uint8_t seid, uint8_t media_type, uint8_t media_codec_type);
void avdtp_sink_register_multiplexing_category(uint8_t seid, uint8_t fragmentation, uint8_t transport_identifiers_num, uint8_t * transport_session_identifiers, uint8_t * transport_c_identifiers);
void avdtp_sink_register_multiplexing_category(uint8_t seid, uint8_t fragmentation);
void avdtp_sink_register_media_codec_category(uint8_t seid, avdtp_media_type_t media_type, avdtp_media_codec_type_t media_codec_type, const uint8_t * media_codec_info, uint16_t media_codec_info_len);
void avdtp_sink_register_content_protection_category(uint8_t seid, uint8_t cp_type_lsb, uint8_t cp_type_msb, const uint8_t * cp_type_value, uint8_t cp_type_value_len);
/**
* @brief Register callback for the AVDTP Sink client.

12
test/avdtp/avdtp_test.c
View File

@ -135,6 +135,12 @@ static void stdin_process(btstack_data_source_t *ds, btstack_data_source_callbac
}
}
static const uint8_t media_sbc_codec_info[] = {
(AVDTP_SBC_44100 << 4) | AVDTP_SBC_STEREO,
(AVDTP_SBC_BLOCK_LENGTH_16 << 4) | (AVDTP_SBC_SUBBANDS_8 << 2) | AVDTP_SBC_ALLOCATION_METHOD_LOUDNESS,
2, 250
};
int btstack_main(int argc, const char * argv[]);
int btstack_main(int argc, const char * argv[]){
@ -147,7 +153,11 @@ int btstack_main(int argc, const char * argv[]){
// Initialize AVDTP Sink
avdtp_sink_init();
avdtp_sink_register_packet_handler(&packet_handler);
avdtp_sink_register_stream_end_point(AVDTP_SINK, AVDTP_AUDIO);
uint8_t seid = avdtp_sink_register_stream_end_point(AVDTP_SINK, AVDTP_AUDIO);
avdtp_sink_register_media_transport_category(seid);
avdtp_sink_register_media_codec_category(seid, AVDTP_AUDIO, AVDTP_CODEC_SBC, media_sbc_codec_info, sizeof(media_sbc_codec_info));
// Initialize SDP
sdp_init();