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OVMS3-idf/components/bt/esp_ble_mesh/mesh_models/client/sensor_client.c
lly b19671e0d4 ble_mesh: Add ESP BLE Mesh implementation 
1. BLE Mesh Core

    * Provisioning: Node Role
        * PB-ADV and PB-GATT
        * Authentication OOB

    * Provisioning: Provisioner Role
        * PB-ADV and PB-GATT
        * Authentication OOB

    * Networking
        * Relay
        * Segmentation and Reassembly
        * Key Refresh
        * IV Update

    * Proxy Support

    * Multiple Client Models Run Simultaneously
        * Support multiple client models send packets to different nodes simultaneously
        * No blocking between client model and server

    * NVS Storage
        * Store BLE Mesh node related information in flash
        * Store BLE Mesh Provisioner related information in flash

2. BLE Mesh Models

    * Foundation Models
        * Configuration Server Model
        * Configuration Client Model
        * Health Server Model
        * Health Client Model

    * Generic
        * Generic OnOff Server
        * Generic OnOff Client
        * Generic Level Server
        * Generic Level Client
        * Generic Default Transition Time Server
        * Generic Default Transition Time Client
        * Generic Power OnOff Server
        * Generic Power OnOff Setup Server
        * Generic Power OnOff Client
        * Generic Power Level Server
        * Generic Power Level Setup Server
        * Generic Power Level Client
        * Generic Battery Server
        * Generic Battery Client
        * Generic Location Server
        * Generic Location Setup Server
        * Generic Location Client
        * Generic Admin Property Server
        * Generic Manufacturer Property Server
        * Generic User Property Server
        * Generic Client Property Server
        * Generic Property Client

    * Sensor Server Model
        * Sensor Server
        * Sensor Setup Server
        * Sensor Client

    * Time and Scenes
        * Time Server
        * Time Setup Server
        * Time Client
        * Scene Server
        * Scene Setup Server
        * Scene Client
        * Scheduler Server
        * Scheduler Setup Server
        * Scheduler Client

    * Lighting
        * Light Lightness Server
        * Light Lightness Setup Server
        * Light Lightness Client
        * Light CTL Server
        * Light CTL Setup Server
        * Light CTL Client
        * Light CTL Temperature Server
        * Light HSL Server
        * Light HSL Setup Server
        * Light HSL Client
        * Light HSL Hue Server
        * Light HSL Saturation Server
        * Light xyL Server
        * Light xyL Setup Server
        * Light xyL Client
        * Light LC Server
        * Light LC Setup Server
        * Light LC Client

3. BLE Mesh Applications

    * BLE Mesh Node
        * OnOff Client Example
        * OnOff Server Example

    * BLE Mesh Provisioner
        * Example

    * Fast Provisioning
        * Vendor Fast Prov Server Model
        * Vendor Fast Prov Client Model
        * Examples

    * Wi-Fi & BLE Mesh Coexistence
        * Example

    * BLE Mesh Console Commands
        * Examples
2020-02-03 12:03:36 +08:00

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// Copyright 2017-2019 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <string.h>
#include <errno.h>
#include "model_opcode.h"
#include "sensor_client.h"
#include "btc_ble_mesh_sensor_model.h"
/** The following are the macro definitions of sensor client
* model messages length, and a message is composed of three
* parts: Opcode + msg_value + MIC
*/
/* Sensor client messages length */
#define BLE_MESH_SENSOR_DESCRIPTOR_GET_MSG_LEN (2 + 2 + 4)
#define BLE_MESH_SENSOR_CADENCE_GET_MSG_LEN (2 + 2 + 4)
#define BLE_MESH_SENSOR_CADENCE_SET_MSG_LEN /* variable */
#define BLE_MESH_SENSOR_SETTINGS_GET_MSG_LEN (2 + 2 + 4)
#define BLE_MESH_SENSOR_SETTING_GET_MSG_LEN (2 + 4 + 4)
#define BLE_MESH_SENSOR_SETTING_SET_MSG_LEN /* variable */
#define BLE_MESH_SENSOR_GET_MSG_LEN (2 + 2 + 4)
#define BLE_MESH_SENSOR_COLUMN_GET_MSG_LEN /* variable */
#define BLE_MESH_SENSOR_SERIES_GET_MSG_LEN /* variable */
static const bt_mesh_client_op_pair_t sensor_op_pair[] = {
{ BLE_MESH_MODEL_OP_SENSOR_DESCRIPTOR_GET, BLE_MESH_MODEL_OP_SENSOR_DESCRIPTOR_STATUS },
{ BLE_MESH_MODEL_OP_SENSOR_CADENCE_GET, BLE_MESH_MODEL_OP_SENSOR_CADENCE_STATUS },
{ BLE_MESH_MODEL_OP_SENSOR_CADENCE_SET, BLE_MESH_MODEL_OP_SENSOR_CADENCE_STATUS },
{ BLE_MESH_MODEL_OP_SENSOR_SETTINGS_GET, BLE_MESH_MODEL_OP_SENSOR_SETTINGS_STATUS },
{ BLE_MESH_MODEL_OP_SENSOR_SETTING_GET, BLE_MESH_MODEL_OP_SENSOR_SETTING_STATUS },
{ BLE_MESH_MODEL_OP_SENSOR_SETTING_SET, BLE_MESH_MODEL_OP_SENSOR_SETTING_STATUS },
{ BLE_MESH_MODEL_OP_SENSOR_GET, BLE_MESH_MODEL_OP_SENSOR_STATUS },
{ BLE_MESH_MODEL_OP_SENSOR_COLUMN_GET, BLE_MESH_MODEL_OP_SENSOR_COLUMN_STATUS },
{ BLE_MESH_MODEL_OP_SENSOR_SERIES_GET, BLE_MESH_MODEL_OP_SENSOR_SERIES_STATUS },
};
static bt_mesh_mutex_t sensor_client_lock;
static void bt_mesh_sensor_client_mutex_new(void)
{
if (!sensor_client_lock.mutex) {
bt_mesh_mutex_create(&sensor_client_lock);
}
}
static void bt_mesh_sensor_client_mutex_free(void)
{
bt_mesh_mutex_free(&sensor_client_lock);
}
static void bt_mesh_sensor_client_lock(void)
{
bt_mesh_mutex_lock(&sensor_client_lock);
}
static void bt_mesh_sensor_client_unlock(void)
{
bt_mesh_mutex_unlock(&sensor_client_lock);
}
static void timeout_handler(struct k_work *work)
{
struct k_delayed_work *timer = NULL;
bt_mesh_client_node_t *node = NULL;
struct bt_mesh_msg_ctx ctx = {0};
u32_t opcode = 0U;
BT_WARN("Receive sensor status message timeout");
bt_mesh_sensor_client_lock();
timer = CONTAINER_OF(work, struct k_delayed_work, work);
if (timer && !k_delayed_work_free(timer)) {
node = CONTAINER_OF(work, bt_mesh_client_node_t, timer.work);
if (node) {
memcpy(&ctx, &node->ctx, sizeof(ctx));
opcode = node->opcode;
bt_mesh_client_free_node(node);
bt_mesh_sensor_client_cb_evt_to_btc(
opcode, BTC_BLE_MESH_EVT_SENSOR_CLIENT_TIMEOUT, ctx.model, &ctx, NULL, 0);
}
}
bt_mesh_sensor_client_unlock();
return;
}
static void sensor_status(struct bt_mesh_model *model,
struct bt_mesh_msg_ctx *ctx,
struct net_buf_simple *buf)
{
bt_mesh_client_node_t *node = NULL;
u8_t *val = NULL;
u8_t evt = 0xFF;
size_t len = 0U;
BT_DBG("%s, len %d, bytes %s", __func__, buf->len, bt_hex(buf->data, buf->len));
switch (ctx->recv_op) {
case BLE_MESH_MODEL_OP_SENSOR_DESCRIPTOR_STATUS: {
struct bt_mesh_sensor_descriptor_status *status = NULL;
status = bt_mesh_calloc(sizeof(struct bt_mesh_sensor_descriptor_status));
if (!status) {
BT_ERR("%s, Failed to allocate memory", __func__);
return;
}
status->descriptor = bt_mesh_alloc_buf(buf->len);
if (!status->descriptor) {
BT_ERR("%s, Failed to allocate memory", __func__);
bt_mesh_free(status);
return;
}
net_buf_simple_add_mem(status->descriptor, buf->data, buf->len);
val = (u8_t *)status;
len = sizeof(struct bt_mesh_sensor_descriptor_status);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_STATUS: {
struct bt_mesh_sensor_cadence_status *status = NULL;
status = bt_mesh_calloc(sizeof(struct bt_mesh_sensor_cadence_status));
if (!status) {
BT_ERR("%s, Failed to allocate memory", __func__);
return;
}
status->property_id = net_buf_simple_pull_le16(buf);
status->sensor_cadence_value = bt_mesh_alloc_buf(buf->len);
if (!status->sensor_cadence_value) {
BT_ERR("%s, Failed to allocate memory", __func__);
bt_mesh_free(status);
return;
}
net_buf_simple_add_mem(status->sensor_cadence_value, buf->data, buf->len);
val = (u8_t *)status;
len = sizeof(struct bt_mesh_sensor_cadence_status);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SETTINGS_STATUS: {
struct bt_mesh_sensor_settings_status *status = NULL;
status = bt_mesh_calloc(sizeof(struct bt_mesh_sensor_settings_status));
if (!status) {
BT_ERR("%s, Failed to allocate memory", __func__);
return;
}
status->sensor_property_id = net_buf_simple_pull_le16(buf);
status->sensor_setting_property_ids = bt_mesh_alloc_buf(buf->len);
if (!status->sensor_setting_property_ids) {
BT_ERR("%s, Failed to allocate memory", __func__);
bt_mesh_free(status);
return;
}
net_buf_simple_add_mem(status->sensor_setting_property_ids, buf->data, buf->len);
val = (u8_t *)status;
len = sizeof(struct bt_mesh_sensor_settings_status);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SETTING_STATUS: {
struct bt_mesh_sensor_setting_status *status = NULL;
status = bt_mesh_calloc(sizeof(struct bt_mesh_sensor_setting_status));
if (!status) {
BT_ERR("%s, Failed to allocate memory", __func__);
return;
}
status->sensor_property_id = net_buf_simple_pull_le16(buf);
status->sensor_setting_property_id = net_buf_simple_pull_le16(buf);
if (buf->len) {
status->op_en = true;
status->sensor_setting_access = net_buf_simple_pull_u8(buf);
status->sensor_setting_raw = bt_mesh_alloc_buf(buf->len);
if (!status->sensor_setting_raw) {
BT_ERR("%s, Failed to allocate memory", __func__);
bt_mesh_free(status);
return;
}
net_buf_simple_add_mem(status->sensor_setting_raw, buf->data, buf->len);
}
val = (u8_t *)status;
len = sizeof(struct bt_mesh_sensor_setting_status);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_STATUS: {
struct bt_mesh_sensor_status *status = NULL;
status = bt_mesh_calloc(sizeof(struct bt_mesh_sensor_status));
if (!status) {
BT_ERR("%s, Failed to allocate memory", __func__);
return;
}
status->marshalled_sensor_data = bt_mesh_alloc_buf(buf->len);
if (!status->marshalled_sensor_data) {
BT_ERR("%s, Failed to allocate memory", __func__);
bt_mesh_free(status);
return;
}
net_buf_simple_add_mem(status->marshalled_sensor_data, buf->data, buf->len);
val = (u8_t *)status;
len = sizeof(struct bt_mesh_sensor_status);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_COLUMN_STATUS: {
struct bt_mesh_sensor_column_status *status = NULL;
status = bt_mesh_calloc(sizeof(struct bt_mesh_sensor_column_status));
if (!status) {
BT_ERR("%s, Failed to allocate memory", __func__);
return;
}
status->property_id = net_buf_simple_pull_le16(buf);
status->sensor_column_value = bt_mesh_alloc_buf(buf->len);
if (!status->sensor_column_value) {
BT_ERR("%s, Failed to allocate memory", __func__);
bt_mesh_free(status);
return;
}
net_buf_simple_add_mem(status->sensor_column_value, buf->data, buf->len);
val = (u8_t *)status;
len = sizeof(struct bt_mesh_sensor_column_status);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SERIES_STATUS: {
struct bt_mesh_sensor_series_status *status = NULL;
status = bt_mesh_calloc(sizeof(struct bt_mesh_sensor_series_status));
if (!status) {
BT_ERR("%s, Failed to allocate memory", __func__);
return;
}
status->property_id = net_buf_simple_pull_le16(buf);
status->sensor_series_value = bt_mesh_alloc_buf(buf->len);
if (!status->sensor_series_value) {
BT_ERR("%s, Failed to allocate memory", __func__);
bt_mesh_free(status);
return;
}
net_buf_simple_add_mem(status->sensor_series_value, buf->data, buf->len);
val = (u8_t *)status;
len = sizeof(struct bt_mesh_sensor_series_status);
break;
}
default:
BT_ERR("%s, Not a Sensor Status message opcode", __func__);
return;
}
buf->data = val;
buf->len = len;
bt_mesh_sensor_client_lock();
node = bt_mesh_is_client_recv_publish_msg(model, ctx, buf, true);
if (!node) {
BT_DBG("Unexpected sensor status message 0x%x", ctx->recv_op);
} else {
switch (node->opcode) {
case BLE_MESH_MODEL_OP_SENSOR_DESCRIPTOR_GET:
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_GET:
case BLE_MESH_MODEL_OP_SENSOR_SETTINGS_GET:
case BLE_MESH_MODEL_OP_SENSOR_SETTING_GET:
case BLE_MESH_MODEL_OP_SENSOR_GET:
case BLE_MESH_MODEL_OP_SENSOR_COLUMN_GET:
case BLE_MESH_MODEL_OP_SENSOR_SERIES_GET:
evt = BTC_BLE_MESH_EVT_SENSOR_CLIENT_GET_STATE;
break;
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_SET:
case BLE_MESH_MODEL_OP_SENSOR_SETTING_SET:
evt = BTC_BLE_MESH_EVT_SENSOR_CLIENT_SET_STATE;
break;
default:
break;
}
if (!k_delayed_work_free(&node->timer)) {
u32_t opcode = node->opcode;
bt_mesh_client_free_node(node);
bt_mesh_sensor_client_cb_evt_to_btc(opcode, evt, model, ctx, val, len);
}
}
bt_mesh_sensor_client_unlock();
switch (ctx->recv_op) {
case BLE_MESH_MODEL_OP_SENSOR_DESCRIPTOR_STATUS: {
struct bt_mesh_sensor_descriptor_status *status;
status = (struct bt_mesh_sensor_descriptor_status *)val;
bt_mesh_free_buf(status->descriptor);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_STATUS: {
struct bt_mesh_sensor_cadence_status *status;
status = (struct bt_mesh_sensor_cadence_status *)val;
bt_mesh_free_buf(status->sensor_cadence_value);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SETTINGS_STATUS: {
struct bt_mesh_sensor_settings_status *status;
status = (struct bt_mesh_sensor_settings_status *)val;
bt_mesh_free_buf(status->sensor_setting_property_ids);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SETTING_STATUS: {
struct bt_mesh_sensor_setting_status *status;
status = (struct bt_mesh_sensor_setting_status *)val;
bt_mesh_free_buf(status->sensor_setting_raw);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_STATUS: {
struct bt_mesh_sensor_status *status;
status = (struct bt_mesh_sensor_status *)val;
bt_mesh_free_buf(status->marshalled_sensor_data);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_COLUMN_STATUS: {
struct bt_mesh_sensor_column_status *status;
status = (struct bt_mesh_sensor_column_status *)val;
bt_mesh_free_buf(status->sensor_column_value);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SERIES_STATUS: {
struct bt_mesh_sensor_series_status *status;
status = (struct bt_mesh_sensor_series_status *)val;
bt_mesh_free_buf(status->sensor_series_value);
break;
}
default:
break;
}
bt_mesh_free(val);
return;
}
const struct bt_mesh_model_op sensor_cli_op[] = {
{ BLE_MESH_MODEL_OP_SENSOR_DESCRIPTOR_STATUS, 0, sensor_status },
{ BLE_MESH_MODEL_OP_SENSOR_CADENCE_STATUS, 2, sensor_status },
{ BLE_MESH_MODEL_OP_SENSOR_SETTINGS_STATUS, 2, sensor_status },
{ BLE_MESH_MODEL_OP_SENSOR_SETTING_STATUS, 4, sensor_status },
{ BLE_MESH_MODEL_OP_SENSOR_STATUS, 0, sensor_status },
{ BLE_MESH_MODEL_OP_SENSOR_COLUMN_STATUS, 2, sensor_status },
{ BLE_MESH_MODEL_OP_SENSOR_SERIES_STATUS, 2, sensor_status },
BLE_MESH_MODEL_OP_END,
};
static int sensor_act_state(bt_mesh_client_common_param_t *common,
void *value, u16_t value_len, bool need_ack)
{
struct net_buf_simple *msg = NULL;
int err = 0;
msg = bt_mesh_alloc_buf(value_len);
if (!msg) {
BT_ERR("%s, Failed to allocate memory", __func__);
return -ENOMEM;
}
bt_mesh_model_msg_init(msg, common->opcode);
switch (common->opcode) {
case BLE_MESH_MODEL_OP_SENSOR_DESCRIPTOR_GET: {
struct bt_mesh_sensor_descriptor_get *act;
act = (struct bt_mesh_sensor_descriptor_get *)value;
if (act->op_en) {
net_buf_simple_add_le16(msg, act->property_id);
}
break;
}
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_GET: {
struct bt_mesh_sensor_cadence_get *act;
act = (struct bt_mesh_sensor_cadence_get *)value;
net_buf_simple_add_le16(msg, act->property_id);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_SET:
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_SET_UNACK: {
struct bt_mesh_sensor_cadence_set *act;
act = (struct bt_mesh_sensor_cadence_set *)value;
net_buf_simple_add_le16(msg, act->property_id);
net_buf_simple_add_u8(msg, act->status_trigger_type << 7 | act->fast_cadence_period_divisor);
net_buf_simple_add_mem(msg, act->status_trigger_delta_down->data, act->status_trigger_delta_down->len);
net_buf_simple_add_mem(msg, act->status_trigger_delta_up->data, act->status_trigger_delta_up->len);
net_buf_simple_add_u8(msg, act->status_min_interval);
net_buf_simple_add_mem(msg, act->fast_cadence_low->data, act->fast_cadence_low->len);
net_buf_simple_add_mem(msg, act->fast_cadence_high->data, act->fast_cadence_high->len);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SETTINGS_GET: {
struct bt_mesh_sensor_settings_get *act;
act = (struct bt_mesh_sensor_settings_get *)value;
net_buf_simple_add_le16(msg, act->sensor_property_id);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SETTING_GET: {
struct bt_mesh_sensor_setting_get *act;
act = (struct bt_mesh_sensor_setting_get *)value;
net_buf_simple_add_le16(msg, act->sensor_property_id);
net_buf_simple_add_le16(msg, act->sensor_setting_property_id);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SETTING_SET:
case BLE_MESH_MODEL_OP_SENSOR_SETTING_SET_UNACK: {
struct bt_mesh_sensor_setting_set *act;
act = (struct bt_mesh_sensor_setting_set *)value;
net_buf_simple_add_le16(msg, act->sensor_property_id);
net_buf_simple_add_le16(msg, act->sensor_setting_property_id);
net_buf_simple_add_mem(msg, act->sensor_setting_raw->data, act->sensor_setting_raw->len);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_GET: {
struct bt_mesh_sensor_get *act;
act = (struct bt_mesh_sensor_get *)value;
if (act->op_en) {
net_buf_simple_add_le16(msg, act->property_id);
}
break;
}
case BLE_MESH_MODEL_OP_SENSOR_COLUMN_GET: {
struct bt_mesh_sensor_column_get *act;
act = (struct bt_mesh_sensor_column_get *)value;
net_buf_simple_add_le16(msg, act->property_id);
net_buf_simple_add_mem(msg, act->raw_value_x->data, act->raw_value_x->len);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SERIES_GET: {
struct bt_mesh_sensor_series_get *act;
act = (struct bt_mesh_sensor_series_get *)value;
net_buf_simple_add_le16(msg, act->property_id);
if (act->op_en) {
net_buf_simple_add_mem(msg, act->raw_value_x1->data, act->raw_value_x1->len);
net_buf_simple_add_mem(msg, act->raw_value_x2->data, act->raw_value_x2->len);
}
break;
}
default:
BT_ERR("%s, Not a Sensor Client message opcode", __func__);
err = -EINVAL;
goto end;
}
err = bt_mesh_client_send_msg(common->model, common->opcode, &common->ctx, msg,
timeout_handler, common->msg_timeout, need_ack,
common->cb, common->cb_data);
if (err) {
BT_ERR("%s, Failed to send Sensor Client message (err %d)", __func__, err);
}
end:
bt_mesh_free_buf(msg);
return err;
}
int bt_mesh_sensor_client_get_state(bt_mesh_client_common_param_t *common, void *get, void *status)
{
bt_mesh_sensor_client_t *client = NULL;
u16_t length = 0U;
if (!common || !common->model || !get) {
BT_ERR("%s, Invalid parameter", __func__);
return -EINVAL;
}
client = (bt_mesh_sensor_client_t *)common->model->user_data;
if (!client || !client->internal_data) {
BT_ERR("%s, Sensor Client user data is NULL", __func__);
return -EINVAL;
}
switch (common->opcode) {
case BLE_MESH_MODEL_OP_SENSOR_DESCRIPTOR_GET:
length = BLE_MESH_SENSOR_DESCRIPTOR_GET_MSG_LEN;
break;
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_GET:
length = BLE_MESH_SENSOR_CADENCE_GET_MSG_LEN;
break;
case BLE_MESH_MODEL_OP_SENSOR_SETTINGS_GET:
length = BLE_MESH_SENSOR_SETTINGS_GET_MSG_LEN;
break;
case BLE_MESH_MODEL_OP_SENSOR_SETTING_GET:
length = BLE_MESH_SENSOR_SETTING_GET_MSG_LEN;
break;
case BLE_MESH_MODEL_OP_SENSOR_GET:
length = BLE_MESH_SENSOR_GET_MSG_LEN;
break;
case BLE_MESH_MODEL_OP_SENSOR_COLUMN_GET: {
struct bt_mesh_sensor_column_get *value;
value = (struct bt_mesh_sensor_column_get *)get;
if (!value->raw_value_x) {
BT_ERR("%s, Sensor column_get is NULL", __func__);
return -EINVAL;
}
length = (2 + 2 + value->raw_value_x->len + 4);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SERIES_GET: {
struct bt_mesh_sensor_series_get *value;
value = (struct bt_mesh_sensor_series_get *)get;
if (value->op_en) {
if (!value->raw_value_x1 || !value->raw_value_x2) {
BT_ERR("%s, Sensor series_get is NULL", __func__);
return -EINVAL;
}
}
if (value->op_en) {
length = value->raw_value_x1->len + value->raw_value_x2->len;
}
length += (2 + 2 + 4);
break;
}
default:
BT_ERR("%s, Not a Sensor Client Get message opcode", __func__);
return -EINVAL;
}
return sensor_act_state(common, get, length, true);
}
int bt_mesh_sensor_client_set_state(bt_mesh_client_common_param_t *common, void *set, void *status)
{
bt_mesh_sensor_client_t *client = NULL;
u16_t length = 0U;
bool need_ack = false;
if (!common || !common->model || !set) {
BT_ERR("%s, Invalid parameter", __func__);
return -EINVAL;
}
client = (bt_mesh_sensor_client_t *)common->model->user_data;
if (!client || !client->internal_data) {
BT_ERR("%s, Sensor Client user data is NULL", __func__);
return -EINVAL;
}
switch (common->opcode) {
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_SET:
need_ack = true;
case BLE_MESH_MODEL_OP_SENSOR_CADENCE_SET_UNACK: {
struct bt_mesh_sensor_cadence_set *value;
value = (struct bt_mesh_sensor_cadence_set *)set;
if (!value->status_trigger_delta_down || !value->status_trigger_delta_up ||
!value->fast_cadence_low || !value->fast_cadence_high) {
BT_ERR("%s, Sensor cadence_set is NULL", __func__);
return -EINVAL;
}
length = value->status_trigger_delta_down->len + \
value->status_trigger_delta_up->len + \
value->fast_cadence_low->len + \
value->fast_cadence_high->len;
length += (1 + 2 + 1 + 1 + 4);
break;
}
case BLE_MESH_MODEL_OP_SENSOR_SETTING_SET:
need_ack = true;
case BLE_MESH_MODEL_OP_SENSOR_SETTING_SET_UNACK: {
struct bt_mesh_sensor_setting_set *value;
value = (struct bt_mesh_sensor_setting_set *)set;
if (!value->sensor_setting_raw) {
BT_ERR("%s, Sensor setting_raw is NULL", __func__);
return -EINVAL;
}
length = (1 + 2 + 2 + value->sensor_setting_raw->len + 4);
break;
}
default:
BT_ERR("%s, Not a Sensor Client Set message opcode", __func__);
return -EINVAL;
}
return sensor_act_state(common, set, length, need_ack);
}
int bt_mesh_sensor_cli_init(struct bt_mesh_model *model, bool primary)
{
sensor_internal_data_t *internal = NULL;
bt_mesh_sensor_client_t *client = NULL;
BT_DBG("primary %u", primary);
if (!model) {
BT_ERR("%s, Invalid parameter", __func__);
return -EINVAL;
}
client = (bt_mesh_sensor_client_t *)model->user_data;
if (!client) {
BT_ERR("%s, Sensor Client user_data is NULL", __func__);
return -EINVAL;
}
if (!client->internal_data) {
internal = bt_mesh_calloc(sizeof(sensor_internal_data_t));
if (!internal) {
BT_ERR("%s, Failed to allocate memory", __func__);
return -ENOMEM;
}
sys_slist_init(&internal->queue);
client->model = model;
client->op_pair_size = ARRAY_SIZE(sensor_op_pair);
client->op_pair = sensor_op_pair;
client->internal_data = internal;
} else {
bt_mesh_client_clear_list(client->internal_data);
}
bt_mesh_sensor_client_mutex_new();
return 0;
}
int bt_mesh_sensor_cli_deinit(struct bt_mesh_model *model, bool primary)
{
bt_mesh_sensor_client_t *client = NULL;
if (!model) {
BT_ERR("%s, Invalid parameter", __func__);
return -EINVAL;
}
client = (bt_mesh_sensor_client_t *)model->user_data;
if (!client) {
BT_ERR("%s, Sensor Client user_data is NULL", __func__);
return -EINVAL;
}
if (client->internal_data) {
/* Remove items from the list */
bt_mesh_client_clear_list(client->internal_data);
/* Free the allocated internal data */
bt_mesh_free(client->internal_data);
client->internal_data = NULL;
}
bt_mesh_sensor_client_mutex_free();
return 0;
}
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