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pigweed / third_party / github / zephyrproject-rtos / zephyr / 159617c8f6196bf9f69f2f6d47d31303c5a1c464 / . / subsys / bluetooth / audio / shell / cap_initiator.c
blob: d6c21003a16918ea0d9e6215100d19bb35ee876b [file] [log] [blame]
/**
* @file
* @brief Shell APIs for Bluetooth CAP initiator
*
* Copyright (c) 2022-2023 Nordic Semiconductor ASA
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <stdlib.h>
#include <zephyr/types.h>
#include <zephyr/shell/shell.h>
#include <zephyr/bluetooth/conn.h>
#include <zephyr/bluetooth/gatt.h>
#include <zephyr/bluetooth/bluetooth.h>
#include <zephyr/bluetooth/audio/cap.h>
#include "shell/bt.h"
#include "audio.h"
#if defined(CONFIG_BT_BAP_UNICAST_CLIENT)
#define UNICAST_SINK_SUPPORTED (CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 0)
#define UNICAST_SRC_SUPPORTED (CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 0)
#define CAP_UNICAST_CLIENT_STREAM_COUNT ARRAY_SIZE(unicast_streams)
static void cap_discover_cb(struct bt_conn *conn, int err,
const struct bt_csip_set_coordinator_csis_inst *csis_inst)
{
if (err != 0) {
shell_error(ctx_shell, "discover failed (%d)", err);
return;
}
shell_print(ctx_shell, "discovery completed%s",
csis_inst == NULL ? "" : " with CSIS");
}
static void cap_unicast_start_complete_cb(int err, struct bt_conn *conn)
{
if (err == -ECANCELED) {
shell_print(ctx_shell, "Unicast start was cancelled for conn %p", conn);
} else if (err != 0) {
shell_error(ctx_shell, "Unicast start failed for conn %p (%d)", conn, err);
} else {
shell_print(ctx_shell, "Unicast start completed");
}
}
static void unicast_update_complete_cb(int err, struct bt_conn *conn)
{
if (err == -ECANCELED) {
shell_print(ctx_shell, "Unicast update was cancelled for conn %p", conn);
} else if (err != 0) {
shell_error(ctx_shell, "Unicast update failed for conn %p (%d)",
conn, err);
} else {
shell_print(ctx_shell, "Unicast updated completed");
}
}
static void unicast_stop_complete_cb(int err, struct bt_conn *conn)
{
if (err == -ECANCELED) {
shell_print(ctx_shell, "Unicast stop was cancelled for conn %p", conn);
} else if (err != 0) {
shell_error(ctx_shell, "Unicast stop failed for conn %p (%d)", conn, err);
} else {
shell_print(ctx_shell, "Unicast stop completed");
if (default_unicast_group != NULL) {
err = bt_bap_unicast_group_delete(default_unicast_group);
if (err != 0) {
shell_error(ctx_shell, "Failed to delete unicast group %p: %d",
default_unicast_group, err);
} else {
default_unicast_group = NULL;
}
}
}
}
static struct bt_cap_initiator_cb cbs = {
.unicast_discovery_complete = cap_discover_cb,
.unicast_start_complete = cap_unicast_start_complete_cb,
.unicast_update_complete = unicast_update_complete_cb,
.unicast_stop_complete = unicast_stop_complete_cb,
};
static int cmd_cap_initiator_discover(const struct shell *sh, size_t argc,
char *argv[])
{
static bool cbs_registered;
int err;
if (default_conn == NULL) {
shell_error(sh, "Not connected");
return -ENOEXEC;
}
if (ctx_shell == NULL) {
ctx_shell = sh;
}
if (!cbs_registered) {
bt_cap_initiator_register_cb(&cbs);
cbs_registered = true;
}
err = bt_cap_initiator_unicast_discover(default_conn);
if (err != 0) {
shell_error(sh, "Fail: %d", err);
}
return err;
}
static void populate_connected_conns(struct bt_conn *conn, void *data)
{
struct bt_conn **connected_conns = (struct bt_conn **)data;
for (int i = 0; i < CONFIG_BT_MAX_CONN; i++) {
if (connected_conns[i] == NULL) {
connected_conns[i] = conn;
return;
}
}
}
static int cmd_cap_initiator_unicast_start(const struct shell *sh, size_t argc,
char *argv[])
{
struct bt_bap_unicast_group_stream_param
group_stream_params[CAP_UNICAST_CLIENT_STREAM_COUNT] = {0};
struct bt_bap_unicast_group_stream_pair_param
pair_params[CAP_UNICAST_CLIENT_STREAM_COUNT] = {0};
struct bt_cap_unicast_audio_start_stream_param
stream_param[CAP_UNICAST_CLIENT_STREAM_COUNT] = {0};
struct bt_conn *connected_conns[CONFIG_BT_MAX_CONN] = {0};
struct bt_cap_unicast_audio_start_param start_param = {0};
struct bt_bap_unicast_group_param group_param = {0};
size_t source_cnt = 1U;
ssize_t conn_cnt = 1U;
size_t sink_cnt = 1U;
size_t pair_cnt = 0U;
int err = 0;
if (default_conn == NULL) {
shell_error(sh, "Not connected");
return -ENOEXEC;
}
start_param.type = BT_CAP_SET_TYPE_AD_HOC;
for (size_t argn = 1; argn < argc; argn++) {
const char *arg = argv[argn];
if (strcmp(arg, "csip") == 0) {
start_param.type = BT_CAP_SET_TYPE_CSIP;
} else if (strcmp(arg, "sinks") == 0) {
if (++argn == argc) {
shell_help(sh);
return SHELL_CMD_HELP_PRINTED;
}
sink_cnt = shell_strtoul(argv[argn], 10, &err);
} else if (strcmp(arg, "sources") == 0) {
if (++argn == argc) {
shell_help(sh);
return SHELL_CMD_HELP_PRINTED;
}
source_cnt = shell_strtoul(argv[argn], 10, &err);
} else if (strcmp(arg, "conns") == 0) {
if (++argn == argc) {
shell_help(sh);
return SHELL_CMD_HELP_PRINTED;
}
if (strcmp(argv[argn], "all") == 0) {
conn_cnt = CONFIG_BT_MAX_CONN;
} else {
conn_cnt = shell_strtoul(argv[argn], 10, &err);
/* Ensure that we do not iterate over more conns
* than the array supports
*/
conn_cnt = MIN(conn_cnt, ARRAY_SIZE(connected_conns));
}
} else {
shell_help(sh);
return SHELL_CMD_HELP_PRINTED;
}
if (err != 0) {
shell_error(sh, "Failed to parse argument: %s: %s (%d)",
arg, argv[argn], err);
return err;
}
}
shell_print(sh, "Setting up %u sinks and %u sources on each (%u) conn", sink_cnt,
source_cnt, conn_cnt);
/* Populate the array of connected connections */
(void)memset(connected_conns, 0, sizeof(connected_conns));
bt_conn_foreach(BT_CONN_TYPE_LE, populate_connected_conns,
(void *)connected_conns);
start_param.count = 0U;
start_param.stream_params = stream_param;
for (size_t i = 0; i < conn_cnt; i++) {
struct bt_conn *conn = connected_conns[i];
size_t conn_src_cnt = 0U;
size_t conn_snk_cnt = 0U;
if (conn == NULL) {
break;
}
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 0
conn_snk_cnt = sink_cnt;
for (size_t j = 0U; j < sink_cnt; j++) {
struct bt_cap_stream *stream =
&unicast_streams[start_param.count].stream;
struct shell_stream *uni_stream =
CONTAINER_OF(stream, struct shell_stream, stream);
struct bt_bap_ep *snk_ep = snks[bt_conn_index(conn)][j];
if (snk_ep == NULL) {
shell_info(sh, "Could only setup %zu/%zu sink endpoints",
j, sink_cnt);
conn_snk_cnt = j;
break;
}
stream_param[start_param.count].member.member = conn;
stream_param[start_param.count].stream = stream;
stream_param[start_param.count].ep = snk_ep;
copy_unicast_stream_preset(uni_stream, &default_sink_preset);
stream_param[start_param.count].codec_cfg = &uni_stream->codec_cfg;
group_stream_params[start_param.count].stream =
&stream_param[start_param.count].stream->bap_stream;
pair_params[pair_cnt + j].tx_param =
&group_stream_params[start_param.count];
start_param.count++;
}
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 0 */
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 0
conn_src_cnt = source_cnt;
for (size_t j = 0U; j < source_cnt; j++) {
struct bt_cap_stream *stream =
&unicast_streams[start_param.count].stream;
struct shell_stream *uni_stream =
CONTAINER_OF(stream, struct shell_stream, stream);
struct bt_bap_ep *src_ep = srcs[bt_conn_index(conn)][j];
if (src_ep == NULL) {
shell_info(sh, "Could only setup %zu/%zu source endpoints",
j, source_cnt);
conn_src_cnt = j;
break;
}
stream_param[start_param.count].member.member = conn;
stream_param[start_param.count].stream = stream;
stream_param[start_param.count].ep = src_ep;
copy_unicast_stream_preset(uni_stream, &default_source_preset);
stream_param[start_param.count].codec_cfg = &uni_stream->codec_cfg;
group_stream_params[start_param.count].stream =
&stream_param[start_param.count].stream->bap_stream;
pair_params[pair_cnt + j].rx_param =
&group_stream_params[start_param.count];
start_param.count++;
}
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 0 */
/* Increment pair count with the max of sink and source for this connection, as
* we cannot have pairs across connections
*/
pair_cnt += MAX(conn_snk_cnt, conn_src_cnt);
}
if (pair_cnt == 0U) {
shell_error(sh, "No streams to setup");
return -ENOEXEC;
}
group_param.packing = BT_ISO_PACKING_SEQUENTIAL;
group_param.params_count = pair_cnt;
group_param.params = pair_params;
if (default_unicast_group == NULL) {
err = bt_bap_unicast_group_create(&group_param, &default_unicast_group);
if (err != 0) {
shell_print(sh, "Failed to create group: %d", err);
return -ENOEXEC;
}
}
shell_print(sh, "Starting %zu streams", start_param.count);
err = bt_cap_initiator_unicast_audio_start(&start_param);
if (err != 0) {
shell_print(sh, "Failed to start unicast audio: %d", err);
return -ENOEXEC;
}
return 0;
}
static int cmd_cap_initiator_unicast_list(const struct shell *sh, size_t argc,
char *argv[])
{
for (size_t i = 0U; i < ARRAY_SIZE(unicast_streams); i++) {
if (unicast_streams[i].stream.bap_stream.conn == NULL) {
break;
}
shell_print(sh, "Stream #%zu: %p", i, &unicast_streams[i].stream);
}
return 0;
}
static int cmd_cap_initiator_unicast_update(const struct shell *sh, size_t argc,
char *argv[])
{
struct bt_cap_unicast_audio_update_stream_param
stream_params[CAP_UNICAST_CLIENT_STREAM_COUNT] = {0};
struct bt_cap_unicast_audio_update_param param = {0};
int err = 0;
if (default_conn == NULL) {
shell_error(sh, "Not connected");
return -ENOEXEC;
}
if (argc == 2 && strcmp(argv[1], "all") == 0) {
for (size_t i = 0U; i < ARRAY_SIZE(unicast_streams); i++) {
struct bt_cap_stream *stream = &unicast_streams[i].stream;
struct shell_stream *uni_stream =
CONTAINER_OF(stream, struct shell_stream, stream);
struct bt_bap_ep_info ep_info;
if (stream->bap_stream.conn == NULL) {
break;
}
err = bt_bap_ep_get_info(stream->bap_stream.ep, &ep_info);
if (err != 0) {
shell_error(sh, "Failed to get endpoint info: %d", err);
return -ENOEXEC;
}
stream_params[param.count].stream = stream;
if (ep_info.dir == BT_AUDIO_DIR_SINK) {
copy_unicast_stream_preset(uni_stream, &default_sink_preset);
} else {
copy_unicast_stream_preset(uni_stream, &default_source_preset);
}
stream_params[param.count].meta = uni_stream->codec_cfg.meta;
stream_params[param.count].meta_len = uni_stream->codec_cfg.meta_len;
param.count++;
}
} else {
for (size_t i = 1U; i < argc; i++) {
struct bt_cap_stream *stream = (void *)shell_strtoul(argv[i], 16, &err);
struct shell_stream *uni_stream =
CONTAINER_OF(stream, struct shell_stream, stream);
struct bt_bap_ep_info ep_info;
if (err != 0) {
shell_error(sh, "Failed to parse stream argument %s: %d",
argv[i], err);
return err;
}
if (!PART_OF_ARRAY(unicast_streams, stream)) {
shell_error(sh, "Pointer %p is not a CAP stream pointer",
stream);
return -ENOEXEC;
}
err = bt_bap_ep_get_info(stream->bap_stream.ep, &ep_info);
if (err != 0) {
shell_error(sh, "Failed to get endpoint info: %d", err);
return -ENOEXEC;
}
stream_params[param.count].stream = stream;
if (ep_info.dir == BT_AUDIO_DIR_SINK) {
copy_unicast_stream_preset(uni_stream, &default_sink_preset);
} else {
copy_unicast_stream_preset(uni_stream, &default_source_preset);
}
stream_params[param.count].meta = uni_stream->codec_cfg.meta;
stream_params[param.count].meta_len = uni_stream->codec_cfg.meta_len;
param.count++;
}
}
if (param.count == 0) {
shell_error(sh, "No streams to update");
return -ENOEXEC;
}
param.stream_params = stream_params;
param.type = BT_CAP_SET_TYPE_AD_HOC;
shell_print(sh, "Updating %zu streams", param.count);
err = bt_cap_initiator_unicast_audio_update(&param);
if (err != 0) {
shell_print(sh, "Failed to update unicast audio: %d", err);
}
return err;
}
static int cmd_cap_initiator_unicast_stop(const struct shell *sh, size_t argc,
char *argv[])
{
struct bt_cap_stream *streams[CAP_UNICAST_CLIENT_STREAM_COUNT];
struct bt_cap_unicast_audio_stop_param param = {0};
int err = 0;
if (default_conn == NULL) {
shell_error(sh, "Not connected");
return -ENOEXEC;
}
if (argc == 2 && strcmp(argv[1], "all") == 0) {
for (size_t i = 0U; i < ARRAY_SIZE(unicast_streams); i++) {
struct bt_cap_stream *stream = &unicast_streams[i].stream;
struct bt_bap_ep_info ep_info;
if (stream->bap_stream.conn == NULL) {
break;
}
err = bt_bap_ep_get_info(stream->bap_stream.ep, &ep_info);
if (err != 0) {
shell_error(sh, "Failed to get endpoint info: %d", err);
return -ENOEXEC;
}
streams[param.count] = stream;
param.count++;
}
} else {
for (size_t i = 1U; i < argc; i++) {
struct bt_cap_stream *stream = (void *)shell_strtoul(argv[i], 16, &err);
struct bt_bap_ep_info ep_info;
if (err != 0) {
shell_error(sh, "Failed to parse stream argument %s: %d", argv[i],
err);
return err;
}
if (!PART_OF_ARRAY(unicast_streams, stream)) {
shell_error(sh, "Pointer %p is not a CAP stream pointer", stream);
return -ENOEXEC;
}
err = bt_bap_ep_get_info(stream->bap_stream.ep, &ep_info);
if (err != 0) {
shell_error(sh, "Failed to get endpoint info: %d", err);
return -ENOEXEC;
}
streams[param.count] = stream;
param.count++;
}
}
if (param.count == 0) {
shell_error(sh, "No streams to update");
return -ENOEXEC;
}
param.streams = streams;
param.type = BT_CAP_SET_TYPE_AD_HOC;
err = bt_cap_initiator_unicast_audio_stop(&param);
if (err != 0) {
shell_print(sh, "Failed to update unicast audio: %d", err);
}
return err;
}
static int cmd_cap_initiator_unicast_cancel(const struct shell *sh, size_t argc, char *argv[])
{
int err = 0;
err = bt_cap_initiator_unicast_audio_cancel();
if (err != 0) {
shell_print(sh, "Failed to cancel unicast audio procedure: %d", err);
return -ENOEXEC;
}
return 0;
}
static int cap_ac_unicast_start(const struct bap_unicast_ac_param *param,
struct bt_conn *connected_conns[],
struct shell_stream *snk_uni_streams[], size_t snk_cnt,
struct shell_stream *src_uni_streams[], size_t src_cnt)
{
struct bt_cap_unicast_audio_start_stream_param stream_params[BAP_UNICAST_AC_MAX_STREAM] = {
0};
struct bt_audio_codec_cfg *snk_codec_cfgs[BAP_UNICAST_AC_MAX_SNK] = {0};
struct bt_audio_codec_cfg *src_codec_cfgs[BAP_UNICAST_AC_MAX_SRC] = {0};
struct bt_cap_stream *snk_cap_streams[BAP_UNICAST_AC_MAX_SNK] = {0};
struct bt_cap_stream *src_cap_streams[BAP_UNICAST_AC_MAX_SRC] = {0};
struct bt_cap_unicast_audio_start_param start_param = {0};
struct bt_bap_ep *snk_eps[BAP_UNICAST_AC_MAX_SNK] = {0};
struct bt_bap_ep *src_eps[BAP_UNICAST_AC_MAX_SRC] = {0};
size_t snk_stream_cnt = 0U;
size_t src_stream_cnt = 0U;
size_t stream_cnt = 0U;
size_t snk_ep_cnt = 0U;
size_t src_ep_cnt = 0U;
for (size_t i = 0U; i < param->conn_cnt; i++) {
#if UNICAST_SINK_SUPPORTED
for (size_t j = 0U; j < param->snk_cnt[i]; j++) {
snk_eps[snk_ep_cnt] = snks[bt_conn_index(connected_conns[i])][j];
if (snk_eps[snk_ep_cnt] == NULL) {
shell_error(ctx_shell, "No sink[%zu][%zu] endpoint available", i,
j);
return -ENOEXEC;
}
snk_ep_cnt++;
}
#endif /* UNICAST_SINK_SUPPORTED */
#if UNICAST_SRC_SUPPORTED
for (size_t j = 0U; j < param->src_cnt[i]; j++) {
src_eps[src_ep_cnt] = srcs[bt_conn_index(connected_conns[i])][j];
if (src_eps[src_ep_cnt] == NULL) {
shell_error(ctx_shell, "No source[%zu][%zu] endpoint available", i,
j);
return -ENOEXEC;
}
src_ep_cnt++;
}
#endif /* UNICAST_SRC_SUPPORTED */
}
if (snk_ep_cnt != snk_cnt) {
shell_error(ctx_shell, "Sink endpoint and stream count mismatch: %zu != %zu",
snk_ep_cnt, snk_cnt);
return -ENOEXEC;
}
if (src_ep_cnt != src_cnt) {
shell_error(ctx_shell, "Source endpoint and stream count mismatch: %zu != %zu",
src_ep_cnt, src_cnt);
return -ENOEXEC;
}
/* Setup arrays of parameters based on the preset for easier access. This also copies the
* preset so that we can modify them (e.g. update the metadata)
*/
for (size_t i = 0U; i < snk_cnt; i++) {
snk_cap_streams[i] = &snk_uni_streams[i]->stream;
snk_codec_cfgs[i] = &snk_uni_streams[i]->codec_cfg;
}
for (size_t i = 0U; i < src_cnt; i++) {
src_cap_streams[i] = &src_uni_streams[i]->stream;
src_codec_cfgs[i] = &src_uni_streams[i]->codec_cfg;
}
/* CAP Start */
for (size_t i = 0U; i < param->conn_cnt; i++) {
for (size_t j = 0U; j < param->snk_cnt[i]; j++) {
struct bt_cap_unicast_audio_start_stream_param *stream_param =
&stream_params[stream_cnt];
stream_param->member.member = connected_conns[i];
stream_param->codec_cfg = snk_codec_cfgs[snk_stream_cnt];
stream_param->ep = snk_eps[snk_stream_cnt];
stream_param->stream = snk_cap_streams[snk_stream_cnt];
snk_stream_cnt++;
stream_cnt++;
/* If we have more than 1 connection or stream in one direction, we set the
* location bit accordingly
*/
if (param->conn_cnt > 1U || param->snk_cnt[i] > 1U) {
const int err = bt_audio_codec_cfg_set_chan_allocation(
stream_param->codec_cfg, (enum bt_audio_location)BIT(i));
if (err < 0) {
shell_error(ctx_shell,
"Failed to set channel allocation for "
"snk[%zu][%zu]: %d",
i, j, err);
return err;
}
}
}
for (size_t j = 0U; j < param->src_cnt[i]; j++) {
struct bt_cap_unicast_audio_start_stream_param *stream_param =
&stream_params[stream_cnt];
stream_param->member.member = connected_conns[i];
stream_param->codec_cfg = src_codec_cfgs[src_stream_cnt];
stream_param->ep = src_eps[src_stream_cnt];
stream_param->stream = src_cap_streams[src_stream_cnt];
src_stream_cnt++;
stream_cnt++;
/* If we have more than 1 connection or stream in one direction, we set the
* location bit accordingly
*/
if (param->conn_cnt > 1U || param->src_cnt[i] > 1U) {
const int err = bt_audio_codec_cfg_set_chan_allocation(
stream_param->codec_cfg, (enum bt_audio_location)BIT(i));
if (err < 0) {
shell_error(ctx_shell,
"Failed to set channel allocation for "
"src[%zu][%zu]: %d",
i, j, err);
return err;
}
}
}
}
start_param.stream_params = stream_params;
start_param.count = stream_cnt;
start_param.type = BT_CAP_SET_TYPE_AD_HOC;
return bt_cap_initiator_unicast_audio_start(&start_param);
}
int cap_ac_unicast(const struct shell *sh, size_t argc, char **argv,
const struct bap_unicast_ac_param *param)
{
/* Allocate params large enough for any params, but only use what is required */
struct bt_conn *connected_conns[BAP_UNICAST_AC_MAX_CONN] = {0};
struct shell_stream *snk_uni_streams[BAP_UNICAST_AC_MAX_SNK];
struct shell_stream *src_uni_streams[BAP_UNICAST_AC_MAX_SRC];
const struct named_lc3_preset *snk_named_preset = NULL;
const struct named_lc3_preset *src_named_preset = NULL;
size_t conn_avail_cnt;
size_t snk_cnt = 0;
size_t src_cnt = 0;
int err;
if (default_unicast_group != NULL) {
shell_error(sh, "Unicast Group already exist, please delete first");
return -ENOEXEC;
}
if (param->conn_cnt > BAP_UNICAST_AC_MAX_CONN) {
shell_error(sh, "Invalid conn_cnt: %zu", param->conn_cnt);
return -ENOEXEC;
}
for (size_t i = 0; i < param->conn_cnt; i++) {
/* Verify conn values */
if (param->snk_cnt[i] > BAP_UNICAST_AC_MAX_SNK) {
shell_error(sh, "Invalid conn_snk_cnt[%zu]: %zu", i, param->snk_cnt[i]);
return -ENOEXEC;
}
if (param->src_cnt[i] > BAP_UNICAST_AC_MAX_SRC) {
shell_error(sh, "Invalid conn_src_cnt[%zu]: %zu", i, param->src_cnt[i]);
return -ENOEXEC;
}
}
/* Populate the array of connected connections */
bt_conn_foreach(BT_CONN_TYPE_LE, populate_connected_conns, (void *)connected_conns);
for (conn_avail_cnt = 0; conn_avail_cnt < ARRAY_SIZE(connected_conns); conn_avail_cnt++) {
if (connected_conns[conn_avail_cnt] == NULL) {
break;
}
}
if (conn_avail_cnt < param->conn_cnt) {
shell_error(sh,
"Only %zu/%u connected devices, please connect additional devices for "
"this audio configuration",
conn_avail_cnt, param->conn_cnt);
return -ENOEXEC;
}
/* Set all endpoints from multiple connections in a single array, and verify that the known
* endpoints matches the audio configuration
*/
for (size_t i = 0U; i < param->conn_cnt; i++) {
for (size_t j = 0U; j < param->snk_cnt[i]; j++) {
snk_cnt++;
}
for (size_t j = 0U; j < param->src_cnt[i]; j++) {
src_cnt++;
}
}
if (snk_cnt > 0U) {
snk_named_preset = bap_get_named_preset(true, BT_AUDIO_DIR_SINK, argv[1]);
if (snk_named_preset == NULL) {
shell_error(sh, "Unable to parse snk_named_preset %s", argv[1]);
return -ENOEXEC;
}
}
if (src_cnt > 0U) {
const char *preset_arg = argc > 2 ? argv[2] : argv[1];
src_named_preset = bap_get_named_preset(true, BT_AUDIO_DIR_SOURCE, preset_arg);
if (src_named_preset == NULL) {
shell_error(sh, "Unable to parse src_named_preset %s", argv[1]);
return -ENOEXEC;
}
}
if (!ctx_shell) {
ctx_shell = sh;
}
/* Setup arrays of parameters based on the preset for easier access. This also copies the
* preset so that we can modify them (e.g. update the metadata)
*/
for (size_t i = 0U; i < snk_cnt; i++) {
struct shell_stream *snk_uni_stream = snk_uni_streams[i] = &unicast_streams[i];
if (snk_uni_stream->stream.bap_stream.conn != NULL) {
shell_error(sh, "unicast_streams[%zu] already in use", i);
return -ENOEXEC;
}
copy_unicast_stream_preset(snk_uni_stream, snk_named_preset);
/* Some audio configuration requires multiple sink channels,
* so multiply the SDU based on the channel count
*/
snk_uni_stream->qos.sdu *= param->snk_chan_cnt;
}
for (size_t i = 0U; i < src_cnt; i++) {
struct shell_stream *src_uni_stream = src_uni_streams[i] =
&unicast_streams[i + snk_cnt];
if (src_uni_stream->stream.bap_stream.conn != NULL) {
shell_error(sh, "unicast_streams[%zu] already in use", i + snk_cnt);
return -ENOEXEC;
}
copy_unicast_stream_preset(src_uni_stream, src_named_preset);
}
err = bap_ac_create_unicast_group(param, snk_uni_streams, snk_cnt, src_uni_streams,
src_cnt);
if (err != 0) {
shell_error(sh, "Failed to create group: %d", err);
return -ENOEXEC;
}
shell_print(sh, "Starting %zu streams for %s", snk_cnt + src_cnt, param->name);
err = cap_ac_unicast_start(param, connected_conns, snk_uni_streams, snk_cnt,
src_uni_streams, src_cnt);
if (err != 0) {
shell_error(sh, "Failed to start unicast audio: %d", err);
err = bt_bap_unicast_group_delete(default_unicast_group);
if (err != 0) {
shell_error(sh, "Failed to delete group: %d", err);
} else {
default_unicast_group = NULL;
}
return -ENOEXEC;
}
return 0;
}
#if UNICAST_SINK_SUPPORTED
static int cmd_cap_ac_1(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_1",
.conn_cnt = 1U,
.snk_cnt = {1U},
.src_cnt = {0U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 0U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* UNICAST_SINK_SUPPORTED */
#if UNICAST_SRC_SUPPORTED
static int cmd_cap_ac_2(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_2",
.conn_cnt = 1U,
.snk_cnt = {0U},
.src_cnt = {1U},
.snk_chan_cnt = 0U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* UNICAST_SRC_SUPPORTED */
#if UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED
static int cmd_cap_ac_3(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_3",
.conn_cnt = 1U,
.snk_cnt = {1U},
.src_cnt = {1U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED */
#if UNICAST_SINK_SUPPORTED
static int cmd_cap_ac_4(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_4",
.conn_cnt = 1,
.snk_cnt = {1U},
.src_cnt = {0U},
.snk_chan_cnt = 2U,
.src_chan_cnt = 0U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* UNICAST_SINK_SUPPORTED */
#if UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED
static int cmd_cap_ac_5(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_5",
.conn_cnt = 1U,
.snk_cnt = {1U},
.src_cnt = {1U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED */
#if UNICAST_SINK_SUPPORTED
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1
static int cmd_cap_ac_6_i(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_6_I",
.conn_cnt = 1U,
.snk_cnt = {2U},
.src_cnt = {0U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 0U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1 */
#if CONFIG_BT_MAX_CONN >= 2
static int cmd_cap_ac_6_ii(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_6_II",
.conn_cnt = 2U,
.snk_cnt = {1U, 1U},
.src_cnt = {0U, 0U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 0U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_MAX_CONN >= 2 */
#endif /* UNICAST_SINK_SUPPORTED */
#if UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED
static int cmd_cap_ac_7_i(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_7_I",
.conn_cnt = 1U,
.snk_cnt = {1U}, /* TODO: These should be separate CIS */
.src_cnt = {1U}, /* TODO: These should be separate CIS */
.snk_chan_cnt = 1U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#if CONFIG_BT_MAX_CONN >= 2
static int cmd_cap_ac_7_ii(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_7_II",
.conn_cnt = 2U,
.snk_cnt = {1U, 0U},
.src_cnt = {0U, 1U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_MAX_CONN >= 2 */
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1
static int cmd_cap_ac_8_i(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_8_I",
.conn_cnt = 1U,
.snk_cnt = {2U},
.src_cnt = {1U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1 */
#if CONFIG_BT_MAX_CONN >= 2
static int cmd_cap_ac_8_ii(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_8_II",
.conn_cnt = 2U,
.snk_cnt = {1U, 1U},
.src_cnt = {1U, 0U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_MAX_CONN >= 2 */
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1
static int cmd_cap_ac_9_i(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_9_I",
.conn_cnt = 1U,
.snk_cnt = {0U},
.src_cnt = {2U},
.snk_chan_cnt = 0U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1 */
#if CONFIG_BT_MAX_CONN >= 2 && CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1
static int cmd_cap_ac_9_ii(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_9_II",
.conn_cnt = 2U,
.snk_cnt = {0U, 0U},
.src_cnt = {1U, 1U},
.snk_chan_cnt = 0U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_MAX_CONN >= 2 && CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1 */
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1
static int cmd_cap_ac_10(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_10",
.conn_cnt = 1U,
.snk_cnt = {0U},
.src_cnt = {1U},
.snk_chan_cnt = 0U,
.src_chan_cnt = 2U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1 */
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1 && CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1
static int cmd_cap_ac_11_i(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_11_I",
.conn_cnt = 1U,
.snk_cnt = {2U},
.src_cnt = {2U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1 && \
* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1 \
*/
#if CONFIG_BT_MAX_CONN >= 2
static int cmd_cap_ac_11_ii(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_unicast_ac_param param = {
.name = "AC_11_II",
.conn_cnt = 2U,
.snk_cnt = {1U, 1U},
.src_cnt = {1U, 1U},
.snk_chan_cnt = 1U,
.src_chan_cnt = 1U,
};
return cap_ac_unicast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_MAX_CONN >= 2 */
#endif /* UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED */
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT */
#if defined(CONFIG_BT_BAP_BROADCAST_SOURCE)
static int cmd_broadcast_start(const struct shell *sh, size_t argc, char *argv[])
{
struct bt_le_ext_adv *adv = adv_sets[selected_adv];
int err;
if (adv == NULL) {
shell_info(sh, "Extended advertising set is NULL");
return -ENOEXEC;
}
if (default_source.cap_source == NULL || !default_source.is_cap) {
shell_info(sh, "CAP Broadcast source not created");
return -ENOEXEC;
}
err = bt_cap_initiator_broadcast_audio_start(default_source.cap_source,
adv_sets[selected_adv]);
if (err != 0) {
shell_error(sh, "Unable to start broadcast source: %d", err);
return -ENOEXEC;
}
return 0;
}
static int cmd_broadcast_update(const struct shell *sh, size_t argc, char *argv[])
{
uint8_t meta[CONFIG_BT_AUDIO_CODEC_CFG_MAX_METADATA_SIZE];
size_t len;
int err;
if (default_source.cap_source == NULL || !default_source.is_cap) {
shell_info(sh, "CAP Broadcast source not created");
return -ENOEXEC;
}
len = hex2bin(argv[1], strlen(argv[1]), meta, sizeof(meta));
if (len == 0) {
shell_print(sh, "Unable to parse metadata (len was %zu, max len is %d)",
strlen(argv[1]) / 2U + strlen(argv[1]) % 2U,
CONFIG_BT_AUDIO_CODEC_CFG_MAX_METADATA_SIZE);
return -ENOEXEC;
}
err = bt_cap_initiator_broadcast_audio_update(default_source.cap_source, meta, len);
if (err != 0) {
shell_error(sh, "Unable to update broadcast source: %d", err);
return -ENOEXEC;
}
shell_print(sh, "CAP Broadcast source updated with new metadata. Update the advertised "
"base via `bt per-adv-data`");
return 0;
}
static int cmd_broadcast_stop(const struct shell *sh, size_t argc, char *argv[])
{
int err;
if (default_source.cap_source == NULL || !default_source.is_cap) {
shell_info(sh, "CAP Broadcast source not created");
return -ENOEXEC;
}
err = bt_cap_initiator_broadcast_audio_stop(default_source.cap_source);
if (err != 0) {
shell_error(sh, "Unable to stop broadcast source: %d", err);
return -ENOEXEC;
}
return 0;
}
static int cmd_broadcast_delete(const struct shell *sh, size_t argc, char *argv[])
{
int err;
if (default_source.cap_source == NULL || !default_source.is_cap) {
shell_info(sh, "CAP Broadcast source not created");
return -ENOEXEC;
}
err = bt_cap_initiator_broadcast_audio_delete(default_source.cap_source);
if (err != 0) {
shell_error(sh, "Unable to stop broadcast source: %d", err);
return -ENOEXEC;
}
default_source.cap_source = NULL;
default_source.is_cap = false;
return 0;
}
int cap_ac_broadcast(const struct shell *sh, size_t argc, char **argv,
const struct bap_broadcast_ac_param *param)
{
/* TODO: Use CAP API when the CAP shell has broadcast support */
struct bt_cap_initiator_broadcast_stream_param stream_params[BAP_UNICAST_AC_MAX_SRC] = {0};
uint8_t stereo_data[] = {
BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CFG_CHAN_ALLOC,
BT_AUDIO_LOCATION_FRONT_RIGHT | BT_AUDIO_LOCATION_FRONT_LEFT)};
uint8_t right_data[] = {BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CFG_CHAN_ALLOC,
BT_AUDIO_LOCATION_FRONT_RIGHT)};
uint8_t left_data[] = {BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CFG_CHAN_ALLOC,
BT_AUDIO_LOCATION_FRONT_LEFT)};
struct bt_cap_initiator_broadcast_subgroup_param subgroup_param = {0};
struct bt_cap_initiator_broadcast_create_param create_param = {0};
const struct named_lc3_preset *named_preset;
struct bt_le_ext_adv *adv;
int err;
if (default_source.cap_source != NULL) {
shell_error(sh, "Broadcast Source already created, please delete first");
return -ENOEXEC;
}
adv = adv_sets[selected_adv];
if (adv == NULL) {
shell_error(sh, "Extended advertising set is NULL");
return -ENOEXEC;
}
named_preset = bap_get_named_preset(false, BT_AUDIO_DIR_SOURCE, argv[1]);
if (named_preset == NULL) {
shell_error(sh, "Unable to parse named_preset %s", argv[1]);
return -ENOEXEC;
}
copy_broadcast_source_preset(&default_source, named_preset);
default_source.qos.sdu *= param->chan_cnt;
for (size_t i = 0U; i < param->stream_cnt; i++) {
stream_params[i].stream = &broadcast_source_streams[i].stream;
if (param->stream_cnt == 1U) {
stream_params[i].data_len = ARRAY_SIZE(stereo_data);
stream_params[i].data = stereo_data;
} else if (i == 0U) {
stream_params[i].data_len = ARRAY_SIZE(left_data);
stream_params[i].data = left_data;
} else if (i == 1U) {
stream_params[i].data_len = ARRAY_SIZE(right_data);
stream_params[i].data = right_data;
}
}
subgroup_param.stream_count = param->stream_cnt;
subgroup_param.stream_params = stream_params;
subgroup_param.codec_cfg = &default_source.codec_cfg;
create_param.subgroup_count = 1U;
create_param.subgroup_params = &subgroup_param;
create_param.qos = &default_source.qos;
err = bt_cap_initiator_broadcast_audio_create(&create_param, &default_source.cap_source);
if (err != 0) {
shell_error(sh, "Failed to create broadcast source: %d", err);
return -ENOEXEC;
}
/* We don't start the broadcast source here, because in order to populate the BASE in the
* periodic advertising data, the broadcast source needs to be created but not started.
*/
shell_print(sh,
"CAP Broadcast source for %s created. "
"Start via `cap_initiator broadcast_start`, "
"and update / set the base via `bt per-adv data`",
param->name);
default_source.is_cap = true;
return 0;
}
static int cmd_cap_ac_12(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_broadcast_ac_param param = {
.name = "AC_12",
.stream_cnt = 1U,
.chan_cnt = 1U,
};
return cap_ac_broadcast(sh, argc, argv, &param);
}
#if CONFIG_BT_BAP_BROADCAST_SRC_STREAM_COUNT > 1
static int cmd_cap_ac_13(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_broadcast_ac_param param = {
.name = "AC_13",
.stream_cnt = 2U,
.chan_cnt = 1U,
};
return cap_ac_broadcast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_BAP_BROADCAST_SRC_STREAM_COUNT > 1 */
static int cmd_cap_ac_14(const struct shell *sh, size_t argc, char **argv)
{
const struct bap_broadcast_ac_param param = {
.name = "AC_14",
.stream_cnt = 2U,
.chan_cnt = 2U,
};
return cap_ac_broadcast(sh, argc, argv, &param);
}
#endif /* CONFIG_BT_BAP_BROADCAST_SOURCE */
static int cmd_cap_initiator(const struct shell *sh, size_t argc, char **argv)
{
if (argc > 1) {
shell_error(sh, "%s unknown parameter: %s",
argv[0], argv[1]);
} else {
shell_error(sh, "%s Missing subcommand", argv[0]);
}
return -ENOEXEC;
}
SHELL_STATIC_SUBCMD_SET_CREATE(
cap_initiator_cmds,
#if defined(CONFIG_BT_BAP_UNICAST_CLIENT)
SHELL_CMD_ARG(discover, NULL, "Discover CAS", cmd_cap_initiator_discover, 1, 0),
SHELL_CMD_ARG(unicast_start, NULL,
"Unicast Start [csip] [sinks <cnt> (default 1)] "
"[sources <cnt> (default 1)] "
"[conns (<cnt> | all) (default 1)]",
cmd_cap_initiator_unicast_start, 1, 7),
SHELL_CMD_ARG(unicast_list, NULL, "Unicast list streams", cmd_cap_initiator_unicast_list, 1,
0),
SHELL_CMD_ARG(unicast_update, NULL, "Unicast Update <all | stream [stream [stream...]]>",
cmd_cap_initiator_unicast_update, 2, CAP_UNICAST_CLIENT_STREAM_COUNT),
SHELL_CMD_ARG(unicast_stop, NULL,
"Unicast stop streams <all | stream [stream [stream...]]>",
cmd_cap_initiator_unicast_stop, 2, CAP_UNICAST_CLIENT_STREAM_COUNT),
SHELL_CMD_ARG(unicast_cancel, NULL, "Unicast cancel current procedure",
cmd_cap_initiator_unicast_cancel, 1, 0),
#if UNICAST_SINK_SUPPORTED
SHELL_CMD_ARG(ac_1, NULL, "<sink preset>", cmd_cap_ac_1, 2, 0),
#endif /* UNICAST_SINK_SUPPORTED */
#if UNICAST_SRC_SUPPORTED
SHELL_CMD_ARG(ac_2, NULL, "<source preset>", cmd_cap_ac_2, 2, 0),
#endif /* UNICAST_SRC_SUPPORTED */
#if UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED
SHELL_CMD_ARG(ac_3, NULL, "<sink preset> <source preset>", cmd_cap_ac_3, 3, 0),
#endif /* UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED */
#if UNICAST_SINK_SUPPORTED
SHELL_CMD_ARG(ac_4, NULL, "<sink preset>", cmd_cap_ac_4, 2, 0),
#endif /* UNICAST_SINK_SUPPORTED */
#if UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED
SHELL_CMD_ARG(ac_5, NULL, "<sink preset> <source preset>", cmd_cap_ac_5, 3, 0),
#endif /* UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED */
#if UNICAST_SINK_SUPPORTED
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1
SHELL_CMD_ARG(ac_6_i, NULL, "<sink preset>", cmd_cap_ac_6_i, 2, 0),
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1 */
#if CONFIG_BT_MAX_CONN >= 2
SHELL_CMD_ARG(ac_6_ii, NULL, "<sink preset>", cmd_cap_ac_6_ii, 2, 0),
#endif /* CONFIG_BT_MAX_CONN >= 2 */
#endif /* UNICAST_SINK_SUPPORTED */
#if UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED
SHELL_CMD_ARG(ac_7_i, NULL, "<sink preset> <source preset>", cmd_cap_ac_7_i, 3, 0),
#if CONFIG_BT_MAX_CONN >= 2
SHELL_CMD_ARG(ac_7_ii, NULL, "<sink preset> <source preset>", cmd_cap_ac_7_ii, 3, 0),
#endif /* CONFIG_BT_MAX_CONN >= 2 */
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1
SHELL_CMD_ARG(ac_8_i, NULL, "<sink preset> <source preset>", cmd_cap_ac_8_i, 3, 0),
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1 */
#if CONFIG_BT_MAX_CONN >= 2
SHELL_CMD_ARG(ac_8_ii, NULL, "<sink preset> <source preset>", cmd_cap_ac_8_ii, 3, 0),
#endif /* CONFIG_BT_MAX_CONN >= 2 */
#if UNICAST_SRC_SUPPORTED
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1
SHELL_CMD_ARG(ac_9_i, NULL, "<source preset>", cmd_cap_ac_9_i, 2, 0),
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1 */
#if CONFIG_BT_MAX_CONN >= 2
SHELL_CMD_ARG(ac_9_ii, NULL, "<source preset>", cmd_cap_ac_9_ii, 2, 0),
#endif /* CONFIG_BT_MAX_CONN >= 2 */
SHELL_CMD_ARG(ac_10, NULL, "<source preset>", cmd_cap_ac_10, 2, 0),
#endif /* UNICAST_SRC_SUPPORTED */
#if CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1 && CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1
SHELL_CMD_ARG(ac_11_i, NULL, "<sink preset> <source preset>", cmd_cap_ac_11_i, 3, 0),
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SNK_COUNT > 1 && \
* CONFIG_BT_BAP_UNICAST_CLIENT_ASE_SRC_COUNT > 1 \
*/
#if CONFIG_BT_MAX_CONN >= 2
SHELL_CMD_ARG(ac_11_ii, NULL, "<sink preset> <source preset>", cmd_cap_ac_11_ii, 3, 0),
#endif /* CONFIG_BT_MAX_CONN >= 2 */
#endif /* UNICAST_SINK_SUPPORTED && UNICAST_SRC_SUPPORTED */
#endif /* CONFIG_BT_BAP_UNICAST_CLIENT */
#if defined(CONFIG_BT_BAP_BROADCAST_SOURCE)
SHELL_CMD_ARG(broadcast_start, NULL, "", cmd_broadcast_start, 1, 0),
SHELL_CMD_ARG(broadcast_update, NULL, "<meta>", cmd_broadcast_update, 2, 0),
SHELL_CMD_ARG(broadcast_stop, NULL, "", cmd_broadcast_stop, 1, 0),
SHELL_CMD_ARG(broadcast_delete, NULL, "", cmd_broadcast_delete, 1, 0),
SHELL_CMD_ARG(ac_12, NULL, "<preset>", cmd_cap_ac_12, 2, 0),
#if CONFIG_BT_BAP_BROADCAST_SRC_STREAM_COUNT > 1
SHELL_CMD_ARG(ac_13, NULL, "<preset>", cmd_cap_ac_13, 2, 0),
#endif /* CONFIG_BT_BAP_BROADCAST_SRC_STREAM_COUNT > 1 */
SHELL_CMD_ARG(ac_14, NULL, "<preset>", cmd_cap_ac_14, 2, 0),
#endif /* CONFIG_BT_BAP_BROADCAST_SOURCE */
SHELL_SUBCMD_SET_END);
SHELL_CMD_ARG_REGISTER(cap_initiator, &cap_initiator_cmds,
"Bluetooth CAP initiator shell commands",
cmd_cap_initiator, 1, 1);
static ssize_t nonconnectable_ad_data_add(struct bt_data *data_array, const size_t data_array_size)
{
#if defined(CONFIG_BT_BAP_BROADCAST_SOURCE)
if (default_source.cap_source != NULL && default_source.is_cap) {
static uint8_t ad_cap_broadcast_announcement[5] = {
BT_UUID_16_ENCODE(BT_UUID_BROADCAST_AUDIO_VAL),
};
uint32_t broadcast_id;
int err;
err = bt_cap_initiator_broadcast_get_id(default_source.cap_source, &broadcast_id);
if (err != 0) {
printk("Unable to get broadcast ID: %d\n", err);
return -1;
}
sys_put_le24(broadcast_id, &ad_cap_broadcast_announcement[2]);
data_array[0].type = BT_DATA_SVC_DATA16;
data_array[0].data_len = ARRAY_SIZE(ad_cap_broadcast_announcement);
data_array[0].data = ad_cap_broadcast_announcement;
return 1;
}
#endif /* CONFIG_BT_BAP_BROADCAST_SOURCE */
return 0;
}
ssize_t cap_initiator_ad_data_add(struct bt_data *data_array, const size_t data_array_size,
const bool discoverable, const bool connectable)
{
if (!discoverable) {
return 0;
}
if (!connectable) {
return nonconnectable_ad_data_add(data_array, data_array_size);
}
return 0;
}
ssize_t cap_initiator_pa_data_add(struct bt_data *data_array, const size_t data_array_size)
{
#if defined(CONFIG_BT_BAP_BROADCAST_SOURCE)
if (default_source.cap_source != NULL && default_source.is_cap) {
/* Required size of the buffer depends on what has been
* configured. We just use the maximum size possible.
*/
NET_BUF_SIMPLE_DEFINE_STATIC(base_buf, UINT8_MAX);
int err;
err = bt_cap_initiator_broadcast_get_base(default_source.cap_source, &base_buf);
if (err != 0) {
printk("Unable to get BASE: %d\n", err);
return -1;
}
data_array[0].type = BT_DATA_SVC_DATA16;
data_array[0].data_len = base_buf.len;
data_array[0].data = base_buf.data;
return 1;
}
#endif /* CONFIG_BT_BAP_BROADCAST_SOURCE */
return 0;
}