/* Bluetooth VCS Client - Volume Offset Control Client */ /* * Copyright (c) 2020 Bose Corporation * Copyright (c) 2020-2021 Nordic Semiconductor ASA * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include #include "vcs_internal.h" #include "aics_internal.h" #define BT_DBG_ENABLED IS_ENABLED(CONFIG_BT_DEBUG_VCS_CLIENT) #define LOG_MODULE_NAME bt_vcs_client #include "common/log.h" struct vcs_instance { struct vcs_state state; uint8_t flags; uint16_t start_handle; uint16_t end_handle; uint16_t state_handle; uint16_t control_handle; uint16_t flag_handle; struct bt_gatt_subscribe_params state_sub_params; struct bt_gatt_subscribe_params flag_sub_params; bool cp_retried; bool busy; struct vcs_control_vol cp_val; struct bt_gatt_write_params write_params; struct bt_gatt_read_params read_params; struct bt_gatt_discover_params discover_params; struct bt_uuid_16 uuid; uint8_t vocs_inst_cnt; struct bt_vocs *vocs[CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST]; uint8_t aics_inst_cnt; struct bt_aics *aics[CONFIG_BT_VCS_CLIENT_MAX_AICS_INST]; }; /* Callback functions */ static struct bt_vcs_cb *vcs_client_cb; static struct vcs_instance vcs_insts[CONFIG_BT_MAX_CONN]; static int vcs_client_common_vcs_cp(struct bt_conn *conn, uint8_t opcode); bool bt_vcs_client_valid_vocs_inst(struct bt_conn *conn, struct bt_vocs *vocs) { uint8_t conn_index; if (conn == NULL) { return false; } conn_index = bt_conn_index(conn); if (vocs == NULL) { return false; } for (int i = 0; i < ARRAY_SIZE(vcs_insts[conn_index].vocs); i++) { if (vcs_insts[conn_index].vocs[i] == vocs) { return true; } } return false; } bool bt_vcs_client_valid_aics_inst(struct bt_conn *conn, struct bt_aics *aics) { uint8_t conn_index; if (conn == NULL) { return false; } conn_index = bt_conn_index(conn); if (aics == NULL) { return false; } for (int i = 0; i < ARRAY_SIZE(vcs_insts[conn_index].aics); i++) { if (vcs_insts[conn_index].aics[i] == aics) { return true; } } return false; } static uint8_t vcs_client_notify_handler(struct bt_conn *conn, struct bt_gatt_subscribe_params *params, const void *data, uint16_t length) { uint16_t handle = params->value_handle; struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (data == NULL) { return BT_GATT_ITER_CONTINUE; } if (handle == vcs_inst->state_handle && length == sizeof(vcs_inst->state)) { memcpy(&vcs_inst->state, data, length); BT_DBG("Volume %u, mute %u, counter %u", vcs_inst->state.volume, vcs_inst->state.mute, vcs_inst->state.change_counter); if (vcs_client_cb && vcs_client_cb->state) { vcs_client_cb->state(conn, 0, vcs_inst->state.volume, vcs_inst->state.mute); } } else if (handle == vcs_inst->flag_handle && length == sizeof(vcs_inst->flags)) { memcpy(&vcs_inst->flags, data, length); BT_DBG("Flags %u", vcs_inst->flags); if (vcs_client_cb && vcs_client_cb->flags) { vcs_client_cb->flags(conn, 0, vcs_inst->flags); } } return BT_GATT_ITER_CONTINUE; } static uint8_t vcs_client_read_vol_state_cb(struct bt_conn *conn, uint8_t err, struct bt_gatt_read_params *params, const void *data, uint16_t length) { int cb_err = err; struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; vcs_inst->busy = false; if (cb_err) { BT_DBG("err: %d", cb_err); } else if (data != NULL) { if (length == sizeof(vcs_inst->state)) { memcpy(&vcs_inst->state, data, length); BT_DBG("Volume %u, mute %u, counter %u", vcs_inst->state.volume, vcs_inst->state.mute, vcs_inst->state.change_counter); } else { BT_DBG("Invalid length %u (expected %zu)", length, sizeof(vcs_inst->state)); cb_err = BT_ATT_ERR_INVALID_ATTRIBUTE_LEN; } } if (vcs_client_cb && vcs_client_cb->state) { if (cb_err) { vcs_client_cb->state(conn, cb_err, 0, 0); } else { vcs_client_cb->state(conn, cb_err, vcs_inst->state.volume, vcs_inst->state.mute); } } return BT_GATT_ITER_STOP; } static uint8_t vcs_client_read_flag_cb(struct bt_conn *conn, uint8_t err, struct bt_gatt_read_params *params, const void *data, uint16_t length) { int cb_err = err; struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; vcs_inst->busy = false; if (cb_err) { BT_DBG("err: %d", cb_err); } else if (data != NULL) { if (length == sizeof(vcs_inst->flags)) { memcpy(&vcs_inst->flags, data, length); BT_DBG("Flags %u", vcs_inst->flags); } else { BT_DBG("Invalid length %u (expected %zu)", length, sizeof(vcs_inst->flags)); cb_err = BT_ATT_ERR_INVALID_ATTRIBUTE_LEN; } } if (vcs_client_cb && vcs_client_cb->flags) { if (cb_err) { vcs_client_cb->flags(conn, cb_err, 0); } else { vcs_client_cb->flags(conn, cb_err, vcs_inst->flags); } } return BT_GATT_ITER_STOP; } static void vcs_cp_notify_app(struct bt_conn *conn, uint8_t opcode, int err) { if (vcs_client_cb == NULL) { return; } switch (opcode) { case BT_VCS_OPCODE_REL_VOL_DOWN: if (vcs_client_cb->vol_down) { vcs_client_cb->vol_down(conn, err); } break; case BT_VCS_OPCODE_REL_VOL_UP: if (vcs_client_cb->vol_up) { vcs_client_cb->vol_up(conn, err); } break; case BT_VCS_OPCODE_UNMUTE_REL_VOL_DOWN: if (vcs_client_cb->vol_down_unmute) { vcs_client_cb->vol_down_unmute(conn, err); } break; case BT_VCS_OPCODE_UNMUTE_REL_VOL_UP: if (vcs_client_cb->vol_up_unmute) { vcs_client_cb->vol_up_unmute(conn, err); } break; case BT_VCS_OPCODE_SET_ABS_VOL: if (vcs_client_cb->vol_set) { vcs_client_cb->vol_set(conn, err); } break; case BT_VCS_OPCODE_UNMUTE: if (vcs_client_cb->unmute) { vcs_client_cb->unmute(conn, err); } break; case BT_VCS_OPCODE_MUTE: if (vcs_client_cb->mute) { vcs_client_cb->mute(conn, err); } break; default: BT_DBG("Unknown opcode 0x%02x", opcode); break; } } static uint8_t internal_read_vol_state_cb(struct bt_conn *conn, uint8_t err, struct bt_gatt_read_params *params, const void *data, uint16_t length) { int cb_err = 0; struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; uint8_t opcode = vcs_inst->cp_val.cp.opcode; memset(params, 0, sizeof(*params)); if (err > 0) { BT_WARN("Volume state read failed: %d", err); cb_err = BT_ATT_ERR_UNLIKELY; } else if (data != NULL) { if (length == sizeof(vcs_inst->state)) { int write_err; memcpy(&vcs_inst->state, data, length); BT_DBG("Volume %u, mute %u, counter %u", vcs_inst->state.volume, vcs_inst->state.mute, vcs_inst->state.change_counter); /* clear busy flag to reuse function */ vcs_inst->busy = false; if (opcode == BT_VCS_OPCODE_SET_ABS_VOL) { write_err = bt_vcs_client_set_volume(conn, vcs_inst->cp_val.volume); } else { write_err = vcs_client_common_vcs_cp(conn, opcode); } if (write_err) { cb_err = BT_ATT_ERR_UNLIKELY; } } else { BT_DBG("Invalid length %u (expected %zu)", length, sizeof(vcs_inst->state)); cb_err = BT_ATT_ERR_UNLIKELY; } } if (cb_err) { vcs_inst->busy = false; vcs_cp_notify_app(conn, opcode, cb_err); } return BT_GATT_ITER_STOP; } static void vcs_client_write_vcs_cp_cb(struct bt_conn *conn, uint8_t err, struct bt_gatt_write_params *params) { struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; uint8_t opcode = vcs_inst->cp_val.cp.opcode; int cb_err = err; BT_DBG("err: 0x%02X", err); memset(params, 0, sizeof(*params)); /* If the change counter is out of data when a write was attempted from * the application, we automatically initiate a read to get the newest * state and try again. Once the change counter has been read, we * restart the applications write request. If it fails * the second time, we return an error to the application. */ if (cb_err == BT_VCS_ERR_INVALID_COUNTER && vcs_inst->cp_retried) { cb_err = BT_ATT_ERR_UNLIKELY; } else if (err == BT_VCS_ERR_INVALID_COUNTER && vcs_inst->state_handle) { vcs_inst->read_params.func = internal_read_vol_state_cb; vcs_inst->read_params.handle_count = 1; vcs_inst->read_params.single.handle = vcs_inst->state_handle; vcs_inst->read_params.single.offset = 0U; cb_err = bt_gatt_read(conn, &vcs_inst->read_params); if (cb_err) { BT_WARN("Could not read Volume state: %d", cb_err); } else { vcs_inst->cp_retried = true; /* Wait for read callback */ return; } } vcs_inst->busy = false; vcs_inst->cp_retried = false; vcs_cp_notify_app(conn, opcode, err); } #if (CONFIG_BT_VCS_CLIENT_MAX_AICS_INST > 0 || CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST > 0) static uint8_t vcs_discover_include_func(struct bt_conn *conn, const struct bt_gatt_attr *attr, struct bt_gatt_discover_params *params) { struct bt_gatt_include *include; uint8_t inst_idx; int err; struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (attr == NULL) { BT_DBG("Discover include complete for VCS: %u AICS and %u VOCS", vcs_inst->aics_inst_cnt, vcs_inst->vocs_inst_cnt); (void)memset(params, 0, sizeof(*params)); if (vcs_client_cb && vcs_client_cb->discover) { /* * TODO: Validate that all mandatory handles were found */ vcs_client_cb->discover(conn, 0, vcs_inst->vocs_inst_cnt, vcs_inst->aics_inst_cnt); } return BT_GATT_ITER_STOP; } BT_DBG("[ATTRIBUTE] handle 0x%04X", attr->handle); if (params->type == BT_GATT_DISCOVER_INCLUDE) { uint8_t conn_index = bt_conn_index(conn); include = (struct bt_gatt_include *)attr->user_data; BT_DBG("Include UUID %s", bt_uuid_str(include->uuid)); #if CONFIG_BT_VCS_CLIENT_MAX_AICS_INST > 0 if (bt_uuid_cmp(include->uuid, BT_UUID_AICS) == 0 && vcs_inst->aics_inst_cnt < CONFIG_BT_VCS_CLIENT_MAX_AICS_INST) { struct bt_aics_discover_param param = { .start_handle = include->start_handle, .end_handle = include->end_handle, }; /* Update discover params so we can continue where we * left off after bt_aics_discover */ vcs_inst->discover_params.start_handle = attr->handle + 1; inst_idx = vcs_inst->aics_inst_cnt++; err = bt_aics_discover(conn, vcs_insts[conn_index].aics[inst_idx], ¶m); if (err != 0) { BT_DBG("AICS Discover failed (err %d)", err); if (vcs_client_cb && vcs_client_cb->discover) { vcs_client_cb->discover(conn, err, 0, 0); } } return BT_GATT_ITER_STOP; } #endif /* CONFIG_BT_VCS_CLIENT_MAX_AICS_INST */ #if CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST > 0 if (bt_uuid_cmp(include->uuid, BT_UUID_VOCS) == 0 && vcs_inst->vocs_inst_cnt < CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST) { struct bt_vocs_discover_param param = { .start_handle = include->start_handle, .end_handle = include->end_handle, }; /* Update discover params so we can continue where we * left off after bt_vocs_discover */ vcs_inst->discover_params.start_handle = attr->handle + 1; inst_idx = vcs_inst->vocs_inst_cnt++; err = bt_vocs_discover(conn, vcs_insts[conn_index].vocs[inst_idx], ¶m); if (err != 0) { BT_DBG("VOCS Discover failed (err %d)", err); if (vcs_client_cb && vcs_client_cb->discover) { vcs_client_cb->discover(conn, err, 0, 0); } } return BT_GATT_ITER_STOP; } #endif /* CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST */ } return BT_GATT_ITER_CONTINUE; } #endif /* (CONFIG_BT_VCS_CLIENT_MAX_AICS_INST > 0 || CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST > 0) */ /** * @brief This will discover all characteristics on the server, retrieving the * handles of the writeable characteristics and subscribing to all notify and * indicate characteristics. */ static uint8_t vcs_discover_func(struct bt_conn *conn, const struct bt_gatt_attr *attr, struct bt_gatt_discover_params *params) { int err = 0; struct bt_gatt_chrc *chrc; struct bt_gatt_subscribe_params *sub_params = NULL; struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (attr == NULL) { BT_DBG("Setup complete for VCS"); (void)memset(params, 0, sizeof(*params)); #if (CONFIG_BT_VCS_CLIENT_MAX_AICS_INST > 0 || CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST > 0) /* Discover included services */ vcs_inst->discover_params.start_handle = vcs_inst->start_handle; vcs_inst->discover_params.end_handle = vcs_inst->end_handle; vcs_inst->discover_params.type = BT_GATT_DISCOVER_INCLUDE; vcs_inst->discover_params.func = vcs_discover_include_func; err = bt_gatt_discover(conn, &vcs_inst->discover_params); if (err != 0) { BT_DBG("Discover failed (err %d)", err); if (vcs_client_cb && vcs_client_cb->discover) { vcs_client_cb->discover(conn, err, 0, 0); } } #else if (vcs_client_cb && vcs_client_cb->discover) { vcs_client_cb->discover(conn, err, 0, 0); } #endif /* (CONFIG_BT_VCS_CLIENT_MAX_AICS_INST > 0 || CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST > 0) */ return BT_GATT_ITER_STOP; } BT_DBG("[ATTRIBUTE] handle 0x%04X", attr->handle); if (params->type == BT_GATT_DISCOVER_CHARACTERISTIC) { chrc = (struct bt_gatt_chrc *)attr->user_data; if (bt_uuid_cmp(chrc->uuid, BT_UUID_VCS_STATE) == 0) { BT_DBG("Volume state"); vcs_inst->state_handle = chrc->value_handle; sub_params = &vcs_inst->state_sub_params; } else if (bt_uuid_cmp(chrc->uuid, BT_UUID_VCS_CONTROL) == 0) { BT_DBG("Control Point"); vcs_inst->control_handle = chrc->value_handle; } else if (bt_uuid_cmp(chrc->uuid, BT_UUID_VCS_FLAGS) == 0) { BT_DBG("Flags"); vcs_inst->flag_handle = chrc->value_handle; sub_params = &vcs_inst->flag_sub_params; } if (sub_params != NULL) { int err; sub_params->value = BT_GATT_CCC_NOTIFY; sub_params->value_handle = chrc->value_handle; /* * TODO: Don't assume that CCC is at handle + 2; * do proper discovery; */ sub_params->ccc_handle = attr->handle + 2; sub_params->notify = vcs_client_notify_handler; err = bt_gatt_subscribe(conn, sub_params); if (err == 0) { BT_DBG("Subscribed to handle 0x%04X", attr->handle); } else { BT_DBG("Could not subscribe to handle 0x%04X", attr->handle); } } } return BT_GATT_ITER_CONTINUE; } /** * @brief This will discover all characteristics on the server, retrieving the * handles of the writeable characteristics and subscribing to all notify and * indicate characteristics. */ static uint8_t primary_discover_func(struct bt_conn *conn, const struct bt_gatt_attr *attr, struct bt_gatt_discover_params *params) { struct bt_gatt_service_val *prim_service; struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (attr == NULL) { BT_DBG("Could not find a VCS instance on the server"); if (vcs_client_cb && vcs_client_cb->discover) { vcs_client_cb->discover(conn, -ENODATA, 0, 0); } return BT_GATT_ITER_STOP; } BT_DBG("[ATTRIBUTE] handle 0x%04X", attr->handle); if (params->type == BT_GATT_DISCOVER_PRIMARY) { int err; BT_DBG("Primary discover complete"); prim_service = (struct bt_gatt_service_val *)attr->user_data; vcs_inst->start_handle = attr->handle + 1; vcs_inst->end_handle = prim_service->end_handle; /* Discover characteristics */ vcs_inst->discover_params.uuid = NULL; vcs_inst->discover_params.start_handle = vcs_inst->start_handle; vcs_inst->discover_params.end_handle = vcs_inst->end_handle; vcs_inst->discover_params.type = BT_GATT_DISCOVER_CHARACTERISTIC; vcs_inst->discover_params.func = vcs_discover_func; err = bt_gatt_discover(conn, &vcs_inst->discover_params); if (err != 0) { BT_DBG("Discover failed (err %d)", err); if (vcs_client_cb && vcs_client_cb->discover) { vcs_client_cb->discover(conn, err, 0, 0); } } return BT_GATT_ITER_STOP; } return BT_GATT_ITER_CONTINUE; } static int vcs_client_common_vcs_cp(struct bt_conn *conn, uint8_t opcode) { int err; struct vcs_instance *vcs_inst; CHECKIF(conn == NULL) { BT_DBG("NULL conn"); return -EINVAL; } vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (vcs_inst->control_handle == 0) { BT_DBG("Handle not set"); return -EINVAL; } else if (vcs_inst->busy) { return -EBUSY; } vcs_inst->busy = true; vcs_inst->cp_val.cp.opcode = opcode; vcs_inst->cp_val.cp.counter = vcs_inst->state.change_counter; vcs_inst->write_params.offset = 0; vcs_inst->write_params.data = &vcs_inst->cp_val.cp; vcs_inst->write_params.length = sizeof(vcs_inst->cp_val.cp); vcs_inst->write_params.handle = vcs_inst->control_handle; vcs_inst->write_params.func = vcs_client_write_vcs_cp_cb; err = bt_gatt_write(conn, &vcs_inst->write_params); if (err == 0) { vcs_inst->busy = true; } return err; } static void aics_discover_cb(struct bt_conn *conn, struct bt_aics *inst, int err) { struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (err == 0) { /* Continue discovery of included services */ err = bt_gatt_discover(conn, &vcs_inst->discover_params); } if (err != 0) { BT_DBG("Discover failed (err %d)", err); if (vcs_client_cb && vcs_client_cb->discover) { vcs_client_cb->discover(conn, err, 0, 0); } } } static void vocs_discover_cb(struct bt_conn *conn, struct bt_vocs *inst, int err) { struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (err == 0) { /* Continue discovery of included services */ err = bt_gatt_discover(conn, &vcs_inst->discover_params); } if (err != 0) { BT_DBG("Discover failed (err %d)", err); if (vcs_client_cb && vcs_client_cb->discover) { vcs_client_cb->discover(conn, err, 0, 0); } } } static void vcs_client_reset(struct bt_conn *conn) { struct vcs_instance *vcs_inst = &vcs_insts[bt_conn_index(conn)]; memset(&vcs_inst->state, 0, sizeof(vcs_inst->state)); vcs_inst->flags = 0; vcs_inst->start_handle = 0; vcs_inst->end_handle = 0; vcs_inst->state_handle = 0; vcs_inst->control_handle = 0; vcs_inst->flag_handle = 0; vcs_inst->vocs_inst_cnt = 0; vcs_inst->aics_inst_cnt = 0; memset(&vcs_inst->discover_params, 0, sizeof(vcs_inst->discover_params)); /* It's okay if these fail */ (void)bt_gatt_unsubscribe(conn, &vcs_inst->state_sub_params); (void)bt_gatt_unsubscribe(conn, &vcs_inst->flag_sub_params); } static void bt_vcs_client_init(void) { int i, j; if (IS_ENABLED(CONFIG_BT_VOCS_CLIENT) && CONFIG_BT_VCS_CLIENT_MAX_VOCS_INST > 0) { for (i = 0; i < ARRAY_SIZE(vcs_insts); i++) { for (j = 0; j < ARRAY_SIZE(vcs_insts[i].vocs); j++) { vcs_insts[i].vocs[j] = bt_vocs_client_free_instance_get(); __ASSERT(vcs_insts[i].vocs[j], "Could not allocate VOCS client instance"); bt_vocs_client_cb_register(vcs_insts[i].vocs[j], &vcs_client_cb->vocs_cb); } } } if (IS_ENABLED(CONFIG_BT_AICS_CLIENT) && CONFIG_BT_VCS_CLIENT_MAX_AICS_INST > 0) { for (i = 0; i < ARRAY_SIZE(vcs_insts); i++) { for (j = 0; j < ARRAY_SIZE(vcs_insts[i].aics); j++) { vcs_insts[i].aics[j] = bt_aics_client_free_instance_get(); __ASSERT(vcs_insts[i].aics[j], "Could not allocate AICS client instance"); bt_aics_client_cb_register(vcs_insts[i].aics[j], &vcs_client_cb->aics_cb); } } } } int bt_vcs_discover(struct bt_conn *conn) { static bool initialized; struct vcs_instance *vcs_inst; /* * This will initiate a discover procedure. The procedure will do the * following sequence: * 1) Primary discover for the VCS * 2) Characteristic discover of the VCS * 3) Discover services included in VCS (VOCS and AICS) * 4) For each included service found; discovery of the characteristics * 5) When everything above have been discovered, the callback is called */ CHECKIF(conn == NULL) { BT_DBG("NULL conn"); return -EINVAL; } vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (vcs_inst->busy) { return -EBUSY; } if (!initialized) { bt_vcs_client_init(); initialized = true; } vcs_client_reset(conn); memcpy(&vcs_inst->uuid, BT_UUID_VCS, sizeof(vcs_inst->uuid)); vcs_inst->discover_params.func = primary_discover_func; vcs_inst->discover_params.uuid = &vcs_inst->uuid.uuid; vcs_inst->discover_params.type = BT_GATT_DISCOVER_PRIMARY; vcs_inst->discover_params.start_handle = BT_ATT_FIRST_ATTTRIBUTE_HANDLE; vcs_inst->discover_params.end_handle = BT_ATT_LAST_ATTTRIBUTE_HANDLE; return bt_gatt_discover(conn, &vcs_inst->discover_params); } int bt_vcs_client_cb_register(struct bt_vcs_cb *cb) { int i, j; if (IS_ENABLED(CONFIG_BT_VOCS_CLIENT)) { struct bt_vocs_cb *vocs_cb = NULL; if (cb != NULL) { CHECKIF(cb->vocs_cb.discover) { BT_ERR("VOCS discover callback shall not be set"); return -EINVAL; } cb->vocs_cb.discover = vocs_discover_cb; vocs_cb = &cb->vocs_cb; } for (i = 0; i < ARRAY_SIZE(vcs_insts); i++) { for (j = 0; j < ARRAY_SIZE(vcs_insts[i].vocs); j++) { if (vcs_insts[i].vocs[j]) { bt_vocs_client_cb_register(vcs_insts[i].vocs[j], vocs_cb); } } } } if (IS_ENABLED(CONFIG_BT_AICS_CLIENT)) { struct bt_aics_cb *aics_cb = NULL; if (cb != NULL) { CHECKIF(cb->aics_cb.discover) { BT_ERR("AICS discover callback shall not be set"); return -EINVAL; } cb->aics_cb.discover = aics_discover_cb; aics_cb = &cb->aics_cb; } for (i = 0; i < ARRAY_SIZE(vcs_insts); i++) { for (j = 0; j < ARRAY_SIZE(vcs_insts[i].aics); j++) { if (vcs_insts[i].aics[j]) { bt_aics_client_cb_register(vcs_insts[i].aics[j], aics_cb); } } } } vcs_client_cb = cb; return 0; } int bt_vcs_client_get(struct bt_conn *conn, struct bt_vcs *client) { uint8_t conn_index; struct vcs_instance *vcs_inst; CHECKIF(!client || !conn) { return -EINVAL; } vcs_inst = &vcs_insts[bt_conn_index(conn)]; conn_index = bt_conn_index(conn); client->vocs_cnt = vcs_inst->vocs_inst_cnt; client->vocs = vcs_insts[conn_index].vocs; client->aics_cnt = vcs_inst->aics_inst_cnt; client->aics = vcs_insts[conn_index].aics; return 0; } int bt_vcs_client_read_vol_state(struct bt_conn *conn) { int err; struct vcs_instance *vcs_inst; CHECKIF(conn == NULL) { BT_DBG("NULL conn"); return -EINVAL; } vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (vcs_inst->state_handle == 0) { BT_DBG("Handle not set"); return -EINVAL; } else if (vcs_inst->busy) { return -EBUSY; } vcs_inst->read_params.func = vcs_client_read_vol_state_cb; vcs_inst->read_params.handle_count = 1; vcs_inst->read_params.single.handle = vcs_inst->state_handle; vcs_inst->read_params.single.offset = 0U; err = bt_gatt_read(conn, &vcs_inst->read_params); if (err == 0) { vcs_inst->busy = true; } return err; } int bt_vcs_client_read_flags(struct bt_conn *conn) { int err; struct vcs_instance *vcs_inst; CHECKIF(conn == NULL) { BT_DBG("NULL conn"); return -EINVAL; } vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (vcs_inst->flag_handle == 0) { BT_DBG("Handle not set"); return -EINVAL; } else if (vcs_inst->busy) { return -EBUSY; } vcs_inst->read_params.func = vcs_client_read_flag_cb; vcs_inst->read_params.handle_count = 1; vcs_inst->read_params.single.handle = vcs_inst->flag_handle; vcs_inst->read_params.single.offset = 0U; err = bt_gatt_read(conn, &vcs_inst->read_params); if (err == 0) { vcs_inst->busy = true; } return err; } int bt_vcs_client_vol_down(struct bt_conn *conn) { return vcs_client_common_vcs_cp(conn, BT_VCS_OPCODE_REL_VOL_DOWN); } int bt_vcs_client_vol_up(struct bt_conn *conn) { return vcs_client_common_vcs_cp(conn, BT_VCS_OPCODE_REL_VOL_UP); } int bt_vcs_client_unmute_vol_down(struct bt_conn *conn) { return vcs_client_common_vcs_cp(conn, BT_VCS_OPCODE_UNMUTE_REL_VOL_DOWN); } int bt_vcs_client_unmute_vol_up(struct bt_conn *conn) { return vcs_client_common_vcs_cp(conn, BT_VCS_OPCODE_UNMUTE_REL_VOL_UP); } int bt_vcs_client_set_volume(struct bt_conn *conn, uint8_t volume) { int err; struct vcs_instance *vcs_inst; CHECKIF(conn == NULL) { BT_DBG("NULL conn"); return -EINVAL; } vcs_inst = &vcs_insts[bt_conn_index(conn)]; if (vcs_inst->control_handle == 0) { BT_DBG("Handle not set"); return -EINVAL; } else if (vcs_inst->busy) { return -EBUSY; } vcs_inst->cp_val.cp.opcode = BT_VCS_OPCODE_SET_ABS_VOL; vcs_inst->cp_val.cp.counter = vcs_inst->state.change_counter; vcs_inst->cp_val.volume = volume; vcs_inst->busy = true; vcs_inst->write_params.offset = 0; vcs_inst->write_params.data = &vcs_inst->cp_val; vcs_inst->write_params.length = sizeof(vcs_inst->cp_val); vcs_inst->write_params.handle = vcs_inst->control_handle; vcs_inst->write_params.func = vcs_client_write_vcs_cp_cb; err = bt_gatt_write(conn, &vcs_inst->write_params); if (err == 0) { vcs_inst->busy = true; } return err; } int bt_vcs_client_unmute(struct bt_conn *conn) { return vcs_client_common_vcs_cp(conn, BT_VCS_OPCODE_UNMUTE); } int bt_vcs_client_mute(struct bt_conn *conn) { return vcs_client_common_vcs_cp(conn, BT_VCS_OPCODE_MUTE); }