harmony 鸿蒙Thermal Detection Customization

2023-06-24
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Thermal Detection Customization

Overview

Introduction

By default, OpenHarmony provides the thermal detection feature. A component, for example, the CPU or battery, generates heat while it is running. In this case, the component reports its temperature in real time through the corresponding temperature sensor. The thermal detection feature detects the temperature of components in real time and provides temperature input for the thermal management module. However, thermal detection on components varies according to product specifications. To address this issue, OpenHarmony provides the thermal detection customization function.

Constraints

The configuration path for battery level customization is subject to the configuration policy. In this development guide, /vendor is used as an example of the configuration path. During actual development, you need to modify the customization path based on the product configuration policy.

How to Develop

Setting Up the Environment

Hardware requirements:

Development board running the standard system, for example, the DAYU200 or Hi3516D V300 open source suite.

Environment requirements:

For details about the requirements on the Linux environment, see Quick Start.

Getting Started with Development

The following uses DAYU200 as an example to illustrate thermal detection customization.

Create the thermal folder in the product directory /vendor/hihope/rk3568.
Create a target folder by referring to the default thermal detection configuration folder, and install it in //vendor/hihope/rk3568/thermal. The content is as follows:
```
profile
├── BUILD.gn
├── thermal_hdi_config.xml
```
Write the custom thermal_hdi_config.xml file by referring to the thermal_hdi_config.xml file in the default thermal detection configuration folder. The following table describes the related configuration items.

Table 1 Configuration items for thermal detection

```shell
<base>
    <item tag="sim_tz" value="0"/>
</base>

<polling>
    <group name="actual" interval="30000">
        <thermal_zone type="soc-thermal" path="sys/class/thermal/thermal_zone0/temp"/>
        <thermal_zone type="gpu-thermal" path="sys/class/thermal/thermal_zone0/temp"/>
    </group>
    <group name="sim" interval="30000">
        <thermal_node type="soc" path="data/service/el0/thermal/sensor/soc/temp"/>
        <thermal_node type="cpu" path="data/service/el0/thermal/sensor/cpu/temp"/>
        <thermal_node type="ap" path="data/service/el0/thermal/sensor/ap/temp"/>
        <thermal_node type="pa" path="data/service/el0/thermal/sensor/pa/temp"/>
        <thermal_node type="ambient" path="data/service/el0/thermal/sensor/ambient/temp"/>
        <thermal_node type="charger" path="data/service/el0/thermal/sensor/charger/temp"/>
        <thermal_node type="battery" path="data/service/el0/thermal/sensor/battery/temp"/>
        <thermal_node type="shell" path="data/service/el0/thermal/sensor/shell/temp"/>
    </group>
</polling>
```
For details about the path for obtaining the actual node temperature, see the path for obtaining the thermal zone temperature in [Thermal Log](https://m.seaxiang.com/blog/113fb66b8e26471a9d9c8970e5ee9cc9). For details about the path for obtaining the simulated node temperature, see [Default Thermal Detection Configuration](https://gitee.com/openharmony/drivers_peripheral/blob/master/thermal/interfaces/hdi_service/profile/thermal_hdi_config.xml).

Write the BUILD.gn file by referring to the BUILD.gn file in the default thermal detection configuration folder to pack the thermal_hdi_config.xml file to the //vendor/etc/thermal_config/hdf directory. The configuration is as follows:

import("//build/ohos.gni")


ohos_prebuilt_etc("thermal_hdf_config") {
    source = "thermal_hdi_config.xml"
    relative_install_dir = "thermal_config/hdf"
    install_images = [ chipset_base_dir ]       # Required configuration for installing the thermal_hdi_config.xml file in the vendor directory.
    part_name = "product_rk3568"                # Set part_name to product_rk3568 for subsequent build. You can change it as required.
}

Add the build target to module_list in ohos.build in the /vendor/hihope/rk3568 directory. For example:

{
    "parts": {
        "product_rk3568": {
            "module_list": [
                "//vendor/hihope/rk3568/default_app_config:default_app_config",
                "//vendor/hihope/rk3568/image_conf:custom_image_conf",
                "//vendor/hihope/rk3568/preinstall-config:preinstall-config",
                "//vendor/hihope/rk3568/resourceschedule:resourceschedule",
                "//vendor/hihope/rk3568/etc:product_etc_conf",
                "//vendor/hihope/rk3568/thermal/profile:thermal_hdf_config", // Add the configuration for building of thermal_hdf_config.
            ]
        }
    },
    "subsystem": "product_hihope"
}

In the preceding code, //vendor/hihope/rk3568/thermal/ is the folder path, profile is the folder name, and thermal_hdf_config is the build target.

Build the customized version by referring to Quick Start.
```
./build.sh --product-name rk3568 --ccache
```
Burn the customized version to the DAYU200 development board.

Debugging and Verification

After startup, run the following command to launch the shell command line:
```
hdc shell
```

Obtain the thermal detection result of the thermal zone.

hidumper -s 3303 -a -t

The following is the reference thermal detection result of the thermal zone. The value of Temperature is in unit of 0.001°C by default.

-------------------------------[ability]-------------------------------


----------------------------------ThermalService---------------------------------
········· (Only the thermal detection result is displayed here. Other information is omitted.)
Type: gpu-thermal
Temperature: 35555
Type: soc-thermal
Temperature: 35000
······