/** @file * @brief Bluetooth VCP client shell. * * Copyright (c) 2020 Bose Corporation * Copyright (c) 2020-2022 Nordic Semiconductor ASA * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "host/shell/bt.h" static struct bt_vcp_vol_ctlr *vcp_vol_ctlr; static struct bt_vcp_included vcp_included; static void vcs_discover_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err, uint8_t vocs_count, uint8_t aics_count) { if (err != 0) { shell_error(ctx_shell, "VCP discover failed (%d)", err); } else { shell_print(ctx_shell, "VCP discover done with %u VOCS and %u AICS", vocs_count, aics_count); if (bt_vcp_vol_ctlr_included_get(vol_ctlr, &vcp_included)) { shell_error(ctx_shell, "Could not get VCP context"); } } } static void vcs_vol_down_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err) { if (err != 0) { shell_error(ctx_shell, "VCP vol_down failed (%d)", err); } else { shell_print(ctx_shell, "VCP vol_down done"); } } static void vcs_vol_up_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err) { if (err != 0) { shell_error(ctx_shell, "VCP vol_up failed (%d)", err); } else { shell_print(ctx_shell, "VCP vol_up done"); } } static void vcs_mute_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err) { if (err != 0) { shell_error(ctx_shell, "VCP mute failed (%d)", err); } else { shell_print(ctx_shell, "VCP mute done"); } } static void vcs_unmute_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err) { if (err != 0) { shell_error(ctx_shell, "VCP unmute failed (%d)", err); } else { shell_print(ctx_shell, "VCP unmute done"); } } static void vcs_vol_down_unmute_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err) { if (err != 0) { shell_error(ctx_shell, "VCP vol_down_unmute failed (%d)", err); } else { shell_print(ctx_shell, "VCP vol_down_unmute done"); } } static void vcs_vol_up_unmute_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err) { if (err != 0) { shell_error(ctx_shell, "VCP vol_up_unmute failed (%d)", err); } else { shell_print(ctx_shell, "VCP vol_up_unmute done"); } } static void vcs_vol_set_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err) { if (err != 0) { shell_error(ctx_shell, "VCP vol_set failed (%d)", err); } else { shell_print(ctx_shell, "VCP vol_set done"); } } static void vcs_state_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err, uint8_t volume, uint8_t mute) { if (err != 0) { shell_error(ctx_shell, "VCP state get failed (%d)", err); } else { shell_print(ctx_shell, "VCP volume %u, mute %u", volume, mute); } } static void vcs_flags_cb(struct bt_vcp_vol_ctlr *vol_ctlr, int err, uint8_t flags) { if (err != 0) { shell_error(ctx_shell, "VCP flags get failed (%d)", err); } else { shell_print(ctx_shell, "VCP flags 0x%02X", flags); } } #if CONFIG_BT_VCP_VOL_CTLR_MAX_AICS_INST > 0 static void vcs_aics_set_gain_cb(struct bt_aics *inst, int err) { if (err != 0) { shell_error(ctx_shell, "Set gain failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "Gain set for inst %p", inst); } } static void vcs_aics_unmute_cb(struct bt_aics *inst, int err) { if (err != 0) { shell_error(ctx_shell, "Unmute failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "Unmuted inst %p", inst); } } static void vcs_aics_mute_cb(struct bt_aics *inst, int err) { if (err != 0) { shell_error(ctx_shell, "Mute failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "Muted inst %p", inst); } } static void vcs_aics_set_manual_mode_cb(struct bt_aics *inst, int err) { if (err != 0) { shell_error(ctx_shell, "Set manual mode failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "Manual mode set for inst %p", inst); } } static void vcs_aics_automatic_mode_cb(struct bt_aics *inst, int err) { if (err != 0) { shell_error(ctx_shell, "Set automatic mode failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "Automatic mode set for inst %p", inst); } } static void vcs_aics_state_cb(struct bt_aics *inst, int err, int8_t gain, uint8_t mute, uint8_t mode) { if (err != 0) { shell_error(ctx_shell, "AICS state get failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "AICS inst %p state gain %d, mute %u, mode %u", inst, gain, mute, mode); } } static void vcs_aics_gain_setting_cb(struct bt_aics *inst, int err, uint8_t units, int8_t minimum, int8_t maximum) { if (err != 0) { shell_error(ctx_shell, "AICS gain settings get failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "AICS inst %p gain settings units %u, min %d, max %d", inst, units, minimum, maximum); } } static void vcs_aics_input_type_cb(struct bt_aics *inst, int err, uint8_t input_type) { if (err != 0) { shell_error(ctx_shell, "AICS input type get failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "AICS inst %p input type %u", inst, input_type); } } static void vcs_aics_status_cb(struct bt_aics *inst, int err, bool active) { if (err != 0) { shell_error(ctx_shell, "AICS status get failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "AICS inst %p status %s", inst, active ? "active" : "inactive"); } } static void vcs_aics_description_cb(struct bt_aics *inst, int err, char *description) { if (err != 0) { shell_error(ctx_shell, "AICS description get failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "AICS inst %p description %s", inst, description); } } #endif /* CONFIG_BT_VCP_VOL_CTLR_MAX_AICS_INST > 0 */ #if CONFIG_BT_VCP_VOL_CTLR_MAX_VOCS_INST > 0 static void vcs_vocs_set_offset_cb(struct bt_vocs *inst, int err) { if (err != 0) { shell_error(ctx_shell, "Set offset failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "Offset set for inst %p", inst); } } static void vcs_vocs_state_cb(struct bt_vocs *inst, int err, int16_t offset) { if (err != 0) { shell_error(ctx_shell, "VOCS state get failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "VOCS inst %p offset %d", inst, offset); } } static void vcs_vocs_location_cb(struct bt_vocs *inst, int err, uint32_t location) { if (err != 0) { shell_error(ctx_shell, "VOCS location get failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "VOCS inst %p location %u", inst, location); } } static void vcs_vocs_description_cb(struct bt_vocs *inst, int err, char *description) { if (err != 0) { shell_error(ctx_shell, "VOCS description get failed (%d) for inst %p", err, inst); } else { shell_print(ctx_shell, "VOCS inst %p description %s", inst, description); } } #endif /* CONFIG_BT_VCP_VOL_CTLR_MAX_VOCS_INST > 0 */ static struct bt_vcp_vol_ctlr_cb vcp_cbs = { .discover = vcs_discover_cb, .vol_down = vcs_vol_down_cb, .vol_up = vcs_vol_up_cb, .mute = vcs_mute_cb, .unmute = vcs_unmute_cb, .vol_down_unmute = vcs_vol_down_unmute_cb, .vol_up_unmute = vcs_vol_up_unmute_cb, .vol_set = vcs_vol_set_cb, .state = vcs_state_cb, .flags = vcs_flags_cb, /* Audio Input Control Service */ #if CONFIG_BT_VCP_VOL_CTLR_MAX_AICS_INST > 0 .aics_cb = { .state = vcs_aics_state_cb, .gain_setting = vcs_aics_gain_setting_cb, .type = vcs_aics_input_type_cb, .status = vcs_aics_status_cb, .description = vcs_aics_description_cb, .set_gain = vcs_aics_set_gain_cb, .unmute = vcs_aics_unmute_cb, .mute = vcs_aics_mute_cb, .set_manual_mode = vcs_aics_set_manual_mode_cb, .set_auto_mode = vcs_aics_automatic_mode_cb, }, #endif /* CONFIG_BT_VCP_VOL_CTLR_MAX_AICS_INST > 0 */ #if CONFIG_BT_VCP_VOL_CTLR_MAX_VOCS_INST > 0 .vocs_cb = { .state = vcs_vocs_state_cb, .location = vcs_vocs_location_cb, .description = vcs_vocs_description_cb, .set_offset = vcs_vocs_set_offset_cb, } #endif /* CONFIG_BT_VCP_VOL_CTLR_MAX_VOCS_INST > 0 */ }; static int cmd_vcp_vol_ctlr_discover(const struct shell *sh, size_t argc, char **argv) { static bool cb_registered; int result; if (!ctx_shell) { ctx_shell = sh; } if (!cb_registered) { result = bt_vcp_vol_ctlr_cb_register(&vcp_cbs); if (result != 0) { shell_print(sh, "CB register failed: %d", result); return result; } cb_registered = true; } if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_discover(default_conn, &vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_state_get(const struct shell *sh, size_t argc, char **argv) { int result; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_read_state(vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_flags_get(const struct shell *sh, size_t argc, char **argv) { int result; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_read_flags(vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_volume_down(const struct shell *sh, size_t argc, char **argv) { int result; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_vol_down(vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_volume_up(const struct shell *sh, size_t argc, char **argv) { int result; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_vol_up(vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_unmute_volume_down(const struct shell *sh, size_t argc, char **argv) { int result; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_unmute_vol_down(vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_unmute_volume_up(const struct shell *sh, size_t argc, char **argv) { int result; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_unmute_vol_up(vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_volume_set(const struct shell *sh, size_t argc, char **argv) { unsigned long volume; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } volume = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse volume: %d", result); return -ENOEXEC; } if (volume > UINT8_MAX) { shell_error(sh, "Volume shall be 0-255, was %lu", volume); return -ENOEXEC; } result = bt_vcp_vol_ctlr_set_vol(vcp_vol_ctlr, volume); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_unmute(const struct shell *sh, size_t argc, char **argv) { int result; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_unmute(vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_mute(const struct shell *sh, size_t argc, char **argv) { int result; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } result = bt_vcp_vol_ctlr_mute(vcp_vol_ctlr); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_vocs_state_get(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.vocs_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_vocs_state_get(vcp_included.vocs[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_vocs_location_get(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.vocs_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_vocs_location_get(vcp_included.vocs[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_vocs_location_set(const struct shell *sh, size_t argc, char **argv) { unsigned long location; unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.vocs_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } location = shell_strtoul(argv[2], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse location: %d", result); return -ENOEXEC; } if (location > UINT32_MAX) { shell_error(sh, "Invalid location %lu", location); return -ENOEXEC; } result = bt_vocs_location_set(vcp_included.vocs[index], location); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_vocs_offset_set(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; long offset; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.vocs_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } offset = shell_strtol(argv[2], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse offset: %d", result); return -ENOEXEC; } if (!IN_RANGE(offset, BT_VOCS_MIN_OFFSET, BT_VOCS_MAX_OFFSET)) { shell_error(sh, "Offset shall be %d-%d, was %ld", BT_VOCS_MIN_OFFSET, BT_VOCS_MAX_OFFSET, offset); return -ENOEXEC; } result = bt_vocs_state_set(vcp_included.vocs[index], offset); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_vocs_output_description_get(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.vocs_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_vocs_description_get(vcp_included.vocs[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_vocs_output_description_set(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.vocs_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_vocs_description_set(vcp_included.vocs[index], argv[2]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_input_state_get(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_state_get(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_gain_setting_get(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_gain_setting_get(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_input_type_get(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_type_get(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_input_status_get(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_status_get(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_input_unmute(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_unmute(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_input_mute(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_mute(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_manual_input_gain_set(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_manual_gain_set(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_auto_input_gain_set(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_automatic_gain_set(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_gain_set(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; long gain; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Could not parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.aics_cnt, index); return -ENOEXEC; } gain = shell_strtol(argv[2], 0, &result); if (result != 0) { shell_error(sh, "Could not parse gain: %d", result); return -ENOEXEC; } if (!IN_RANGE(gain, INT8_MIN, INT8_MAX)) { shell_error(sh, "Gain shall be %d-%d, was %ld", INT8_MIN, INT8_MAX, gain); return -ENOEXEC; } result = bt_aics_gain_set(vcp_included.aics[index], gain); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_input_description_get(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_description_get(vcp_included.aics[index]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr_aics_input_description_set(const struct shell *sh, size_t argc, char **argv) { unsigned long index; int result = 0; if (default_conn == NULL) { shell_error(sh, "Not connected"); return -ENOEXEC; } index = shell_strtoul(argv[1], 0, &result); if (result != 0) { shell_error(sh, "Failed to parse index: %d", result); return -ENOEXEC; } if (index >= vcp_included.aics_cnt) { shell_error(sh, "Index shall be less than %u, was %lu", vcp_included.vocs_cnt, index); return -ENOEXEC; } result = bt_aics_description_set(vcp_included.aics[index], argv[2]); if (result != 0) { shell_print(sh, "Fail: %d", result); } return result; } static int cmd_vcp_vol_ctlr(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(vcp_vol_ctlr_cmds, SHELL_CMD_ARG(discover, NULL, "Discover VCP and included services for current " "connection", cmd_vcp_vol_ctlr_discover, 1, 0), SHELL_CMD_ARG(state_get, NULL, "Get volume state of the VCP server. Should be done " "before sending any control messages", cmd_vcp_vol_ctlr_state_get, 1, 0), SHELL_CMD_ARG(flags_get, NULL, "Read volume flags", cmd_vcp_vol_ctlr_flags_get, 1, 0), SHELL_CMD_ARG(volume_down, NULL, "Turn the volume down", cmd_vcp_vol_ctlr_volume_down, 1, 0), SHELL_CMD_ARG(volume_up, NULL, "Turn the volume up", cmd_vcp_vol_ctlr_volume_up, 1, 0), SHELL_CMD_ARG(unmute_volume_down, NULL, "Turn the volume down, and unmute", cmd_vcp_vol_ctlr_unmute_volume_down, 1, 0), SHELL_CMD_ARG(unmute_volume_up, NULL, "Turn the volume up, and unmute", cmd_vcp_vol_ctlr_unmute_volume_up, 1, 0), SHELL_CMD_ARG(volume_set, NULL, "Set an absolute volume ", cmd_vcp_vol_ctlr_volume_set, 2, 0), SHELL_CMD_ARG(unmute, NULL, "Unmute", cmd_vcp_vol_ctlr_unmute, 1, 0), SHELL_CMD_ARG(mute, NULL, "Mute", cmd_vcp_vol_ctlr_mute, 1, 0), SHELL_CMD_ARG(vocs_state_get, NULL, "Get the offset state of a VOCS instance ", cmd_vcp_vol_ctlr_vocs_state_get, 2, 0), SHELL_CMD_ARG(vocs_location_get, NULL, "Get the location of a VOCS instance ", cmd_vcp_vol_ctlr_vocs_location_get, 2, 0), SHELL_CMD_ARG(vocs_location_set, NULL, "Set the location of a VOCS instance " "", cmd_vcp_vol_ctlr_vocs_location_set, 3, 0), SHELL_CMD_ARG(vocs_offset_set, NULL, "Set the offset for a VOCS instance " "", cmd_vcp_vol_ctlr_vocs_offset_set, 3, 0), SHELL_CMD_ARG(vocs_output_description_get, NULL, "Get the output description of a VOCS instance " "", cmd_vcp_vol_ctlr_vocs_output_description_get, 2, 0), SHELL_CMD_ARG(vocs_output_description_set, NULL, "Set the output description of a VOCS instance " " ", cmd_vcp_vol_ctlr_vocs_output_description_set, 3, 0), SHELL_CMD_ARG(aics_input_state_get, NULL, "Get the input state of a AICS instance ", cmd_vcp_vol_ctlr_aics_input_state_get, 2, 0), SHELL_CMD_ARG(aics_gain_setting_get, NULL, "Get the gain settings of a AICS instance ", cmd_vcp_vol_ctlr_aics_gain_setting_get, 2, 0), SHELL_CMD_ARG(aics_input_type_get, NULL, "Get the input type of a AICS instance ", cmd_vcp_vol_ctlr_aics_input_type_get, 2, 0), SHELL_CMD_ARG(aics_input_status_get, NULL, "Get the input status of a AICS instance ", cmd_vcp_vol_ctlr_aics_input_status_get, 2, 0), SHELL_CMD_ARG(aics_input_unmute, NULL, "Unmute the input of a AICS instance ", cmd_vcp_vol_ctlr_aics_input_unmute, 2, 0), SHELL_CMD_ARG(aics_input_mute, NULL, "Mute the input of a AICS instance ", cmd_vcp_vol_ctlr_aics_input_mute, 2, 0), SHELL_CMD_ARG(aics_manual_input_gain_set, NULL, "Set the gain mode of a AICS instance to manual " "", cmd_vcp_vol_ctlr_aics_manual_input_gain_set, 2, 0), SHELL_CMD_ARG(aics_automatic_input_gain_set, NULL, "Set the gain mode of a AICS instance to automatic " "", cmd_vcp_vol_ctlr_aics_auto_input_gain_set, 2, 0), SHELL_CMD_ARG(aics_gain_set, NULL, "Set the gain of a AICS instance ", cmd_vcp_vol_ctlr_aics_gain_set, 3, 0), SHELL_CMD_ARG(aics_input_description_get, NULL, "Read the input description of a AICS instance " "", cmd_vcp_vol_ctlr_aics_input_description_get, 2, 0), SHELL_CMD_ARG(aics_input_description_set, NULL, "Set the input description of a AICS instance " " ", cmd_vcp_vol_ctlr_aics_input_description_set, 3, 0), SHELL_SUBCMD_SET_END ); SHELL_CMD_ARG_REGISTER(vcp_vol_ctlr, &vcp_vol_ctlr_cmds, "Bluetooth VCP client shell commands", cmd_vcp_vol_ctlr, 1, 1);