b9d4fb717516c9001ddda9ae9621671f0dc5cd41 - openbmc/phosphor-power - Gitiles

commit	b9d4fb717516c9001ddda9ae9621671f0dc5cd41	[log] [tgz]
author	Andrew Geissler <geissonator@yahoo.com>	Mon Jul 29 12:07:43 2024 -0300
committer	Andrew Geissler <geissonator@yahoo.com>	Mon Jul 29 12:09:15 2024 -0300
tree	44ffdeef93515794e5f5d4f5de685243413f3d43
parent	768d22693b116f343a476d3f4f9a1dca86555d6e [diff]

gcc14: continue dangling-reference workaround

The latest yocto is moving to gcc14 and the workaround to ignore
dangling references is still needed with gcc14.

Tested:
- Confirmed phosphor-power builds with latest yocto rebase

Change-Id: I900cb11d66730a74bb5860769214dfa93f83a40d
Signed-off-by: Andrew Geissler <geissonator@yahoo.com>

2 files changed

tree: 44ffdeef93515794e5f5d4f5de685243413f3d43

README.md

Overview

This repository contains applications for configuring and monitoring devices that deliver power to the system.

Actively-maintained applications:

cold-redundancy: Application that makes power supplies work in Cold Redundancy mode and rotates them at intervals.
phosphor-power-sequencer: JSON-driven application that powers the chassis on/off and monitors the power sequencer device.
phosphor-power-supply: Next generation power supply monitoring application.
phosphor-regulators: JSON-driven application that configures and monitors voltage regulators.
tools/power-utils: Power supply utilities.

Legacy applications:

power-sequencer: Original power sequencer monitoring application.
power-supply: Original power supply monitoring application.

Build

To build all applications in this repository:

  meson setup build
  ninja -C build

To clean the repository and remove all build output:

  rm -rf build

You can specify meson options to customize the build process. For example, you can specify:

Which applications to build and install.
Application-specific configuration data, such as power sequencer type.
Whether to build tests.

Power Supply Monitor and Util JSON config

Several applications in this repository require a PSU JSON config to run. The JSON config file provides information for:

Where to access the pmbus attributes
Which attribute file in pmbus maps to which property and interface in D-Bus
Which kernel device directory is used on which PSU

There is an example psu.json to describe the necessary configurations.

inventoryPMBusAccessType defines the pmbus access type, which tells the service which sysfs type to use to read the attributes. The possible values are:
- Base: The base dir, e.g. /sys/bus/i2c/devices/3-0069/
- Hwmon: The hwmon dir, e.g. /sys/bus/i2c/devices/3-0069/hwmon/hwmonX/
- Debug: The pmbus debug dir, e.g. /sys/kernel/debug/pmbus/hwmonX/
- DeviceDebug: The device debug dir, e.g. '/sys/kernel/debug/./`
- HwmonDeviceDebug: The hwmon device debug dir, e.g. /sys/kernel/debug/pmbus/hwmonX/cffps1/
fruConfigs defines the mapping between the attribute file and the FRU inventory interface and property. The configuration example below indicates that the service will read part_number attribute file from a directory specified by the above pmbus access type, and assign to PartNumber property in xyz.openbmc_project.Inventory.Decorator.Asset interface.
```
  "fruConfigs": [
    {
      "propertyName": "PartNumber",
      "fileName": "part_number",
      "interface": "xyz.openbmc_project.Inventory.Decorator.Asset"
    }
  ]
```
psuDevices defines the kernel device dir for each PSU in inventory. The configuration example below indicates that powersupply0's device is located in /sys/bus/i2c/devices/3-0069.
```
  "psuDevices": {
    "/xyz/openbmc_project/inventory/system/chassis/motherboard/powersupply0" : "/sys/bus/i2c/devices/3-0069",
  }
```