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---
name: Bug report or feature request
about: Report an issue or request a feature request
title: ''
labels: ''
assignees: ''
---
### Fill out information requested in this template, without doing so issue will be ignored & closed!
#### Before submitting an issue, it is strongly recommended to use the **[auto-cpufreq-genAI-chatbot](https://foolcontrol.org/?p=4903)** to get an immediate answer to your question.
### Have you tried?
- [Searching through existing/closed issues](https://github.com/AdnanHodzic/auto-cpufreq/issues) to see if your bug has already been already submitted?
- If installation failed with [auto-cpufreq-installer](https://github.com/AdnanHodzic/auto-cpufreq/#auto-cpufreq-installer),have you tried installing auto-cpufreq using [Snap package](https://github.com/AdnanHodzic/auto-cpufreq/#snap-store)?
- Have you tried [configuring auto-cpufreq](https://github.com/AdnanHodzic/auto-cpufreq/#configuring-auto-cpufreq)?
- Have you tried suggestions in [troubleshooting section](https://github.com/AdnanHodzic/auto-cpufreq#troubleshooting)?
### Error output:
```text
Add/paste error output in case of failed installation or other failing component
```
---
### System information:
Add/paste output of:
```
auto-cpufreq --debug
```
Also please be descriptive about the issue you're reporting, i.e: what you tried & what's the expected behaviour.
---

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blank_issues_enabled: false

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### Error output:
```text
Add/paste error output
```
---
### System information:
Add/paste output of:
```
auto-cpufreq --debug
```
#### Without providing requested information your issue might be ignored!
---
If installation failed with [auto-cpufreq-installer ](https://github.com/AdnanHodzic/auto-cpufreq/#auto-cpufreq-installer)have you tried installing auto-cpufreq using [Snap package](https://github.com/AdnanHodzic/auto-cpufreq/#snap-store)?

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name: Linux Build
on:
push:
paths-ignore:
- "README.md"
- ".gitignore"
- "LICENSE"
pull_request:
jobs:
build_linux:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4.1.1
- name: Install poetry
run: pipx install poetry
- name: "Setup Python"
uses: actions/setup-python@v5.0.0
with:
python-version: 3.12
cache: "poetry"
- name: "Install auto-cpufreq"
run: sudo ./auto-cpufreq-installer --install

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name: Nix Flake
on:
push:
paths-ignore:
- "README.md"
- ".gitignore"
- "LICENSE"
pull_request:
jobs:
build-nix:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: "Install Nix ❄️"
uses: cachix/install-nix-action@v25
- name: "Nix Cache"
uses: DeterminateSystems/magic-nix-cache-action@v3
- name: "Build Nix Flake ❄️"
run: nix build

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ENV/
env.bak/
venv.bak/
.direnv
# Spyder project settings
.spyderproject
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# pycharm
.idea/
# nix build
/result
# vs code
.vscode/

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# auto-cpufreq
[![Linux Build](https://github.com/AdnanHodzic/auto-cpufreq/actions/workflows/build-linux.yml/badge.svg?event=push)](https://github.com/AdnanHodzic/auto-cpufreq/actions/workflows/build-linux.yml)
[![Nix Flake](https://github.com/AdnanHodzic/auto-cpufreq/actions/workflows/build-nix.yaml/badge.svg?event=push)](https://github.com/AdnanHodzic/auto-cpufreq/actions/workflows/build-nix.yaml)
Automatic CPU speed & power optimizer for Linux. Actively monitors laptop battery state, CPU usage, CPU temperature, and system load, ultimately allowing you to improve battery life without making any compromises.
Automatic CPU speed & power optimizer for Linux based on active monitoring of laptop's battery state, CPU usage, CPU temperature and system load. Ultimately allowing you to improve battery life without making any compromises.
For tl;dr folks:
For tl;dr folks there's a: [Youtube: auto-cpufreq - tool demo](https://www.youtube.com/watch?v=QkYRpVEEIlg)
[Youtube: auto-cpufreq v2.0 release & demo of all available features and options](https://www.youtube.com/watch?v=SPGpkZ0AZVU)
[![](https://img.youtube.com/vi/SPGpkZ0AZVU/0.jpg)](https://www.youtube.com/watch?v=QkYRpVEEIlg)
[Youtube: auto-cpufreq - tool demo](https://www.youtube.com/watch?v=QkYRpVEEIlg)
[![](https://img.youtube.com/vi/QkYRpVEEIlg/0.jpg)](https://www.youtube.com/watch?v=QkYRpVEEIlg)
If you're having a problem with auto-cpufreq, before ([submitting an issue](https://github.com/AdnanHodzic/auto-cpufreq/issues)), it is strongly recommended to use the **[auto-cpufreq-genAI-chatbot](https://foolcontrol.org/?p=4903)** to get an immediate answer to your question.
[![](https://img.youtube.com/vi/a-UcwAAXOoc/0.jpg)](https://www.youtube.com/watch?v=a-UcwAAXOoc)
Example of auto-cpufreq GUI (available >= v2.0)
<img src="https://github.com/user-attachments/assets/9c7715c4-16b7-4a5c-86be-4c390276d9e8" width="480" alt="Example of auto-cpufreq desktop entry (icon)" />
Example of `auto-cpufreq --stats` CLI output
<img src="https://github.com/user-attachments/assets/9c7715c4-16b7-4a5c-86be-4c390276d9e8" width="480" alt="Example of auto-cpufreq desktop entry (icon)"/>
[![](http://img.youtube.com/vi/QkYRpVEEIlg/0.jpg)](http://www.youtube.com/watch?v=QkYRpVEEIlg)
## Looking for developers and co-maintainers
- If you would like to discuss anything regarding auto-cpufreq or its development, please join the [auto-cpufreq Discord server!](https://discord.gg/Sjauxtj6kH)
- auto-cpufreq is looking for [co-maintainers & open source developers to help shape the future of the project!](https://github.com/AdnanHodzic/auto-cpufreq/discussions/312)
## Index
- [Why do I need auto-cpufreq?](#why-do-i-need-auto-cpufreq)
- [Supported architectures and devices](#supported-architectures-and-devices)
- [Features](#features)
- [Installing auto-cpufreq](#installing-auto-cpufreq)
- [auto-cpufreq-installer](#auto-cpufreq-installer)
- [Snap Store](#snap-store)
- [AUR package (Arch based distributions)](#aur-package-arch-based-distributions)
- [NixOS](#nixos)
- [For developers](#installation-development-mode-only)
- [Post-installation](#post-installation)
- [Configuring auto-cpufreq](#configuring-auto-cpufreq)
- [1: power_helper.py script (Snap package install only)](#1-power_helperpy-script-snap-package-install-only)
- [2: `--force` governor override](#2---force-governor-override)
- [3: auto-cpufreq config file](#3-auto-cpufreq-config-file)
- [Example config file contents](#example-config-file-contents)
- [How to run auto-cpufreq](#how-to-run-auto-cpufreq)
- [auto-cpufreq modes and options](#auto-cpufreq-modes-and-options)
- [monitor](#monitor)
- [live](#live)
- [overriding governor](#overriding-governor)
- [Install - auto-cpufreq daemon](#install---auto-cpufreq-daemon)
- [Update - auto-cpufreq update](#update---auto-cpufreq-update)
- [Remove - auto-cpufreq daemon](#remove---auto-cpufreq-daemon)
- [stats](#stats)
- [Battery charging thresholds](#battery-charging-thresholds)
- [Supported Devices](#supported-devices)
- [Battery config](#battery-config)
- [Ignoring power supplies](#Ignoring-power-supplies)
- [Troubleshooting](#troubleshooting)
- [AUR](#aur)
- [Discussion](#discussion)
- [Donate](#donate)
- [Financial donation](#financial-donation)
- [Paypal](#paypal)
- [BitCoin](#bitcoin)
- [Code contribution](#code-contribution)
auto-cpufreq is looking for [co-maintainers & open source developers to help shape future of the project!](https://github.com/AdnanHodzic/auto-cpufreq/discussions/312)
## Why do I need auto-cpufreq?
One of the problems with Linux today on laptops is that the CPU will run in an unoptimized manner which will negatively impact battery life. For example, the CPU may run using the "performance" governor with turbo boost enabled regardless of whether it's plugged into a power outlet or not.
One of the problems with Linux today on laptops is that CPU will run in unoptimized manner which will negatively reflect on battery life. For example, CPU will run using "performance" governor with turbo boost enabled regardless if it's plugged in to power or not.
These issues can be mitigated by using tools like [indicator-cpufreq](https://itsfoss.com/cpufreq-ubuntu/) or [cpufreq](https://github.com/konkor/cpufreq), but those still require manual action from your side which can be daunting and cumbersome.
Issue can be mitigated by using tools like [indicator-cpufreq](https://itsfoss.com/cpufreq-ubuntu/) or [cpufreq](https://github.com/konkor/cpufreq), but these still require manual action from your side which can be daunting and cumbersome.
Tools like [TLP](https://github.com/linrunner/TLP) (which I used for numerous years) can help extend battery life, but may also create their own set of problems, such as losing turbo boost.
Using tools like [TLP](https://github.com/linrunner/TLP) can help in this situation with extending battery life (which is something I used to do for numerous years), but it also might come with its own set of problems, like losing turbo boost.
Given all of the above, I needed a simple tool that would automatically make CPU frequency-related changes and save battery life, but let the Linux kernel do most of the heavy lifting. That's how auto-cpufreq was born.
With that said, I needed a simple tool which would automatically make "cpufreq" related changes, save battery like TLP, but let Linux kernel do most of the heavy lifting. That's how auto-cpufreq was born.
Please note: auto-cpufreq aims to replace TLP in terms of functionality, so after you install auto-cpufreq _it's recommended to remove TLP_. Using both for the same functionality (i.e., to set CPU frequencies) will lead to unwanted results like overheating. Hence, only use [both tools in tandem](https://github.com/AdnanHodzic/auto-cpufreq/discussions/176) if you know what you're doing.
Please note: auto-cpufreq aims to replace TLP in terms of functionality and after you install auto-cpufreq _it's recommended to remove TLP_. If both are used for same functionality, i.e: to set CPU frequencies it'll lead to unwanted results like overheating. Hence, only use [both tools in tandem](https://github.com/AdnanHodzic/auto-cpufreq/discussions/176) if you know what you're doing.
One tool/daemon that does not conflict with auto-cpufreq in any way, and is even recommended to have running alongside, is [thermald](https://wiki.debian.org/thermald).
Tool/daemon that does not conflict with auto-cpufreq in any way and is even recommended to have running alongside is [thermald](https://wiki.debian.org/thermald).
#### Supported architectures and devices
Only devices with an Intel, AMD, or ARM CPU are supported. This tool was developed to improve performance and battery life on laptops, but running it on desktops/servers (to lower power consumption) should also be possible.
Supported devices must have an Intel, AMD or ARM CPUs. This tool was developed to improve performance and battery life on laptops, but running it on desktop/servers (to lower power consumption) should also be possible.
## Features
- Monitoring
- Basic system information
- CPU frequency (system total & per core)
- CPU usage (system total & per core)
- CPU temperature (total average & per core)
- Battery state
- System load
- CPU frequency scaling, governor, and [turbo boost](https://en.wikipedia.org/wiki/Intel_Turbo_Boost) management based on
- Battery state
- CPU usage (total & per core)
- CPU temperature in combination with CPU utilization/load (to prevent overheating)
- System load
- Automatic CPU & power optimization (temporary and persistent)
- Settings battery charging thresholds (limited support)
* Monitoring
* Basic system information
* CPU frequency (system total & per core)
* CPU usage (system total & per core)
* CPU temperature (total average & per core)
* Battery state
* System load
* CPU frequency scaling, governor and [turbo boost](https://en.wikipedia.org/wiki/Intel_Turbo_Boost) management based on
* Battery state
* CPU usage (total & per core)
* CPU temperature in combination with CPU utilization/load (prevent overheating)
* System load
* Automatic CPU & power optimization (temporary and persistent)
## Installing auto-cpufreq
### Snap store
auto-cpufreq is available on [snap store](https://snapcraft.io/auto-cpufreq), or can be installed using CLI:
```
sudo snap install auto-cpufreq
```
**Please note:**
* Make sure [snapd](https://snapcraft.io/docs/installing-snapd) is installed and `snap version` version is >= 2.44 for `auto-cpufreq` to fully work due to [recent snapd changes](https://github.com/snapcore/snapd/pull/8127).
* Fedora users will [encounter following error](https://twitter.com/killyourfm/status/1291697985236144130). Due to `cgroups v2` [being in development](https://github.com/snapcore/snapd/pull/7825). This problem can be resolved by either running `sudo snap run auto-cpufreq` after snap installation. Or using [auto-cpufreq-installer](https://github.com/AdnanHodzic/auto-cpufreq/#auto-cpufreq-installer) which doesn't have this issue.
### auto-cpufreq-installer
> As auto-cpufreq relies on git based versioning, users are advised to install `auto-cpufreq` using `git clone` method only. Downloading source code as a zip/from release will emit build error like [these](https://github.com/AdnanHodzic/auto-cpufreq/issues/623).
Get source code, run installer, and follow on-screen instructions:
Get source code, run installer and follow on screen instructions:
```
git clone https://github.com/AdnanHodzic/auto-cpufreq.git
cd auto-cpufreq && sudo ./auto-cpufreq-installer
```
### Snap Store
In case you encounter any problems with `auto-cpufreq-installer`, please [submit a bug report](https://github.com/AdnanHodzic/auto-cpufreq/issues/new).
*Please note: while all [auto-cpufreq >= v2.0 CLI functionality](https://www.youtube.com/watch?v=SPGpkZ0AZVU&t=295s) will work as intended, [the GUI won't be available on Snap package installs](http://foolcontrol.org/wp-content/uploads/2023/10/auto-cpufreq-v2-snap-deprecation-notice.png) due to [Snap package confinement limitations](https://forum.snapcraft.io/t/pkexec-not-found-python-gtk-gnome-app/36579). Hence, please consider installing auto-cpufreq using [auto-cpufreq-installer](#auto-cpufreq-installer)*.
### AUR package (Arch/Manjaro Linux)
auto-cpufreq is available on the [Snap Store](https://snapcraft.io/auto-cpufreq) or via CLI:
[AUR package is available](https://aur.archlinux.org/packages/auto-cpufreq-git/) for install. After which `auto-cpufreq` will be available as a binary and you can refer to [auto-cpufreq modes and options](https://github.com/AdnanHodzic/auto-cpufreq#auto-cpufreq-modes-and-options).
```
sudo snap install auto-cpufreq
```
**Please note:** If you want to install auto-cpufreq daemon, do not run `auto-cpufreq --install` otherwise you'll run into an issue: [#91](https://github.com/AdnanHodzic/auto-cpufreq/issues/91), [#96](https://github.com/AdnanHodzic/auto-cpufreq/issues/96).
**Please note:**
- Make sure [snapd](https://snapcraft.io/docs/installing-snapd) is installed and `snap version` is >= 2.44 for `auto-cpufreq` to fully work due to [recent snapd changes](https://github.com/snapcore/snapd/pull/8127).
- Fedora users will [encounter the following error](https://twitter.com/killyourfm/status/1291697985236144130) due to `cgroups v2` [being in development](https://github.com/snapcore/snapd/pull/7825). This problem can be resolved by either running `sudo snap run auto-cpufreq` after the snap installation or by using the [auto-cpufreq-installer](#auto-cpufreq-installer) which doesn't have this issue.
### AUR package (Arch based distributions)
[![AUR package](https://repology.org/badge/version-for-repo/aur/auto-cpufreq.svg)](https://aur.archlinux.org/packages/auto-cpufreq)
The AUR [Release Package](https://aur.archlinux.org/packages/auto-cpufreq) is currently being maintained by [MusicalArtist12](https://github.com/MusicalArtist12), [liljaylj](https://github.com/liljaylj), and [parmjotsinghrobot](https://github.com/parmjotsinghrobot).
**Notices**
- The [Git Package](https://aur.archlinux.org/packages/auto-cpufreq-git) is seperately maintained and was last updated on version 1.9.6.
- The build process links to `/usr/share/` instead of `/usr/local/share/`
- The daemon installer provided does not work, instead start the daemon with
```
# systemctl enable --now auto-cpufreq
```
- The GNOME Power Profiles daemon is [automatically disabled by auto-cpufreq-installer](https://github.com/AdnanHodzic/auto-cpufreq#1-power_helperpy-script-snap-package-install-only) due to it's conflict with auto-cpufreq.service. However, this doesn't happen with AUR installs, which can lead to problems (e.g., [#463](https://github.com/AdnanHodzic/auto-cpufreq/issues/463)) if not masked manually.
- Open a terminal and run `sudo systemctl mask power-profiles-daemon.service` (then `enable` and `start` the auto-cpufreq.service if you haven't already).
- The TuneD daemon(enabled by default with Fedora 41) is [automatically disabled by auto-cpufreq-installer](https://github.com/AdnanHodzic/auto-cpufreq#1-power_helperpy-script-snap-package-install-only) due to it's conflict with auto-cpufreq.service.
### Gentoo Linux (GURU Repository)
New versions of auto-cpufreq were recently added to GURU, Gentoo's official community-maintained ebuild repository. The [ebuild](https://github.com/gentoo-mirror/guru/tree/master/sys-power/auto-cpufreq) is maintaned by [S41G0N](https://github.com/S41G0N) and other [GURU contributors](https://bugs.gentoo.org), who can respond in case of issues.
In order to build auto-cpufreq, it is necessary to add & sync GURU repository first. Adding ~amd64 keyword is also needed to unmask the package.
```
# echo "sys-power/auto-cpufreq ~amd64" >> /etc/portage/package.accept_keywords
# eselect repository enable guru
# emaint sync -r guru
# emerge --ask auto-cpufreq
```
**Notices**
- The build process links to `/usr/share/` instead of `/usr/local/share/`
- The build works on both systemd/OpenRC systems (both systemd and OpenRC will have a service called auto-cpufreq which can be started automatically)
- The daemon installer provided does work, but it is RECOMMENDED to install the daemon with:
```
# systemctl enable --now auto-cpufreq
# rc-update add auto-cpufreq default && rc-service auto-cpufreq start
```
### NixOS
<details>
<summary>Flakes</summary>
<br>
This repo contains a flake that exposes a NixOS Module that manages and offers options for auto-cpufreq. To use it, add the flake as an input to your `flake.nix` file and enable the module:
```nix
# flake.nix
{
inputs = {
# ---Snip---
auto-cpufreq = {
url = "github:AdnanHodzic/auto-cpufreq";
inputs.nixpkgs.follows = "nixpkgs";
};
# ---Snip---
}
outputs = {nixpkgs, auto-cpufreq, ...} @ inputs: {
nixosConfigurations.HOSTNAME = nixpkgs.lib.nixosSystem {
specialArgs = { inherit inputs; };
modules = [
./configuration.nix
auto-cpufreq.nixosModules.default
];
};
}
}
```
Then you can enable the program in your `configuration.nix` file:
```nix
# configuration.nix
{inputs, pkgs, ...}: {
# ---Snip---
programs.auto-cpufreq.enable = true;
# optionally, you can configure your auto-cpufreq settings, if you have any
programs.auto-cpufreq.settings = {
charger = {
governor = "performance";
turbo = "auto";
};
battery = {
governor = "powersave";
turbo = "auto";
};
};
# ---Snip---
}
```
</details>
<details>
<summary>Nixpkgs</summary>
<br>
There is a nixpkg available, but it is more prone to being outdated, whereas the flake pulls from the latest commit. You can install it in your `configuration.nix` and enable the system service:
```nix
# configuration.nix
# ---Snip---
environment.systemPackages = with pkgs; [
auto-cpufreq
];
services.auto-cpufreq.enable = true;
# ---Snip---
```
</details>
### Installation (development mode only)
- If you have `poetry` installed:
```bash
git clone https://github.com/AdnanHodzic/auto-cpufreq.git
cd auto-cpufreq
poetry install
poetry run auto-cpufreq --help
```
- Alternatively, we can use an editable pip install for development purposes:
```bash
git clone https://github.com/AdnanHodzic/auto-cpufreq.git
cd auto-cpufreq
# set up virtual environment (details removed for brevity)
pip3 install -e .
auto-cpufreq
```
- Regularly run `poetry update` if you get any inconsistent lock file issues.
## Post-installation
After installation, `auto-cpufreq` is available as a binary. Refer to [auto-cpufreq modes and options](https://github.com/AdnanHodzic/auto-cpufreq#auto-cpufreq-modes-and-options) for detailed information on how to run and configure `auto-cpufreq`.
Instead run `systemctl start auto-cpufreq` to start the service. Run `systemctl status auto-cpufreq` to see the status of service, and `systemctl enable auto-cpufreq` for service to persist running accross reboots.
## Configuring auto-cpufreq
auto-cpufreq makes all decisions automatically based on various factors such as CPU usage, temperature, and system load. However, it's possible to perform additional configurations:
While auto-cpufreq makes all decisions automatically based on various factors like cpu usage, temperature or system load. It's possible to perform addition configurations in 2 ways:
### 1: power_helper.py script (Snap package install **only**)
### 1: power_helper.py script
When installing auto-cpufreq via [auto-cpufreq-installer](#auto-cpufreq-installer), if it detects the [GNOME Power Profiles service](https://twitter.com/fooctrl/status/1467469508373884933) is running, it will automatically disable it. Otherwise, that daemon will cause conflicts and various other performance issues.
If detected as running auto-cpufreq will disable GNOME Power profiles service, which would otherwise cause conflicts and cause problems. By default auto-cpufreq uses `balanced` mode which also works the best on various systems. However, if you're not reaching maximum frequencies your CPU is capable of with auto-cpufreq, you can switch to `performance` mode. Which will result in higher frequencies by default, but also higher use of energy (battery consumption).
However, when auto-cpufreq is installed as a Snap package it's running as part of a container with limited permissions, hence it's *highly recommended* to disable the GNOME Power Profiles daemon using the `power_helper.py` script.
This can be done by running: `sudo python3 power_helper.py --gnome_power_disable performance`
**Please Note:**<br>
The [`power_helper.py`](https://github.com/AdnanHodzic/auto-cpufreq/blob/master/auto_cpufreq/power_helper.py) script is located within the auto-cpufreq repo at `auto_cpufreq/power_helper.py`. In order to access it, first clone
the repository:
After auto-cpufreq git repo has been cloned (`git clone https://github.com/AdnanHodzic/auto-cpufreq.git`), navagiate to directory where `power_helper.py` script resides by running: `cd auto-cpufreq/auto_cpufreq`
`git clone https://github.com/AdnanHodzic/auto-cpufreq`
After this step, all necessary changes will still be made automatically. However, if you wish to perform additonal "manual" settings this can be done by following instructions explained in next step.
Navigate to the directory where `power_helper.py` resides:
### 2: auto-cpufreq config file
`cd auto-cpufreq/auto_cpufreq`
You can configure profiles for battery and power supply. These profiles will let you pick which governor to use and how and when turbo boost is enabled. The possible values for turbo boost behavior are `always`, `auto` and `never`. The default behavior is `auto`, which only kicks in during high load.
Make sure to have `psutil` Python library installed before next step:
`sudo python3 -m pip install psutil`
Then disable the GNOME Power Profiles daemon:
`sudo python3 power_helper.py --gnome_power_disable`
### 2: `--force` governor override
By default, auto-cpufreq uses `balanced` mode which works best for many systems and situations.
However, you can override this behaviour by switching to `performance` or `powersave` mode manually. The `performance` mode results in higher default frequencies, but also higher energy use (battery consumption) and should only be used if maximum performance is needed. The `powersave` mode does the opposite and extends battery life to its maximum.
See [`--force` flag](#overriding-governor) for more info.
### 3: auto-cpufreq config file
You can configure separate profiles for the battery and power supply. These profiles will let you pick which governor to use, as well as how and when turbo boost is enabled. The possible values for turbo boost behavior are `always`, `auto`, and `never`. The default behavior is `auto`, which only activates turbo during high load.
By default, auto-cpufreq does not use a config file. If you wish to configure auto-cpufreq statically, we look for a configuration file in the following order:
1. Commandline argument: `--config <FILE>` if passed as commandline argument to `auto-cpufreq`
2. User-specific configuration: `$XDG_CONFIG_HOME/auto-cpufreq/auto-cpufreq.conf`
3. System-wide configuration: `/etc/auto-cpufreq.conf`
By default, auto-cpufreq does not use the config file! If you wish to use it, location where config needs to be placed for it to be read automatically is: `/etc/auto-cpufreq.conf`
#### Example config file contents
```python
```
# settings for when connected to a power source
[charger]
# see available governors by running: cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_governors
# preferred governor
# preferred governor.
governor = performance
# EPP: see available preferences by running: cat /sys/devices/system/cpu/cpu0/cpufreq/energy_performance_available_preferences
energy_performance_preference = performance
# EPB (Energy Performance Bias) for the intel_pstate driver
# see conversion info: https://www.kernel.org/doc/html/latest/admin-guide/pm/intel_epb.html
# available EPB options include a numeric value between 0-15
# (where 0 = maximum performance and 15 = maximum power saving),
# or one of the following strings:
# performance (0), balance_performance (4), default (6), balance_power (8), or power (15)
# if the parameter is missing in the config and the hardware supports this setting, the default value will be used
# the default value is `balance_performance` (for charger)
# energy_perf_bias = balance_performance
# Platform Profiles
# https://www.kernel.org/doc/html/latest/userspace-api/sysfs-platform_profile.html
# See available options by running:
# cat /sys/firmware/acpi/platform_profile_choices
# platform_profile = performance
# minimum cpu frequency (in kHz)
# example: for 800 MHz = 800000 kHz --> scaling_min_freq = 800000
# see conversion info: https://www.rapidtables.com/convert/frequency/mhz-to-hz.html
@ -369,25 +127,6 @@ turbo = auto
# preferred governor
governor = powersave
# EPP: see available preferences by running: cat /sys/devices/system/cpu/cpu0/cpufreq/energy_performance_available_preferences
energy_performance_preference = power
# EPB (Energy Performance Bias) for the intel_pstate driver
# see conversion info: https://www.kernel.org/doc/html/latest/admin-guide/pm/intel_epb.html
# available EPB options include a numeric value between 0-15
# (where 0 = maximum performance and 15 = maximum power saving),
# or one of the following strings:
# performance (0), balance_performance (4), default (6), balance_power (8), or power (15)
# if the parameter is missing in the config and the hardware supports this setting, the default value will be used
# the default value is `balance_power` (for battery)
# energy_perf_bias = balance_power
# Platform Profiles
# https://www.kernel.org/doc/html/latest/userspace-api/sysfs-platform_profile.html
# See available options by running:
# cat /sys/firmware/acpi/platform_profile_choices
# platform_profile = low-power
# minimum cpu frequency (in kHz)
# example: for 800 MHz = 800000 kHz --> scaling_min_freq = 800000
# see conversion info: https://www.rapidtables.com/convert/frequency/mhz-to-hz.html
@ -400,62 +139,15 @@ energy_performance_preference = power
# to use this feature, uncomment the following line and set the value accordingly
# scaling_max_freq = 1000000
# turbo boost setting (always, auto, or never)
# turbo boost setting. possible values: always, auto, never
turbo = auto
# battery charging threshold
# reference: https://github.com/AdnanHodzic/auto-cpufreq/#battery-charging-thresholds
#enable_thresholds = true
#start_threshold = 20
#stop_threshold = 80
```
## How to run auto-cpufreq
auto-cpufreq should be run with with one of the following options:
- [monitor](#monitor)
- Monitor and see suggestions for CPU optimizations
auto-cpufreq can be run by simply running the `auto-cpufreq` and following on screen instructions, i.e:
- [live](#live)
- Monitor and automatically make (temporary) CPU optimizations
- [install](#install---auto-cpufreq-daemon) / [remove](#remove---auto-cpufreq-daemon)
- Install/remove daemon for (permanent) automatic CPU optimizations
- [install (GUI)](#install---auto-cpufreq-daemon)
- Install daemon via GUI for (permanent) automatic CPU optimizations
- [update](#update---auto-cpufreq-update)
- Update auto-cpufreq to the latest release
- [install_performance](#1-power_helperpy-script)
- Install daemon in "performance" mode
- [stats](#stats)
- View live stats of CPU optimizations made by daemon
- [force=TEXT](#overriding-governor)
- Force use of either the "powersave" or "performance" governor, or set to "reset" to go back to normal mode
- config=TEXT
- Use config file at designated path
- debug
- Show debug info (include when submitting bugs)
- version
- Show currently installed version
- [donate](#financial-donation)
- To support the project
- help
- Shows all of the above options
- completions=TEXT
- To support shell completions (current options are "bash", "zsh", or "fish")
Running `auto-cpufreq --help` will print the same list of options as above. Read [auto-cpufreq modes and options](#auto-cpufreq-modes-and-options) for more details.
`sudo auto-cpufreq`
## auto-cpufreq modes and options
@ -463,227 +155,74 @@ Running `auto-cpufreq --help` will print the same list of options as above. Read
`sudo auto-cpufreq --monitor`
No changes are made to the system. This is solely to demonstrate what auto-cpufreq could do for your system.
No changes are made to the system, and is solely made for demonstration purposes what auto-cpufreq could do differently for your system.
### Live
`sudo auto-cpufreq --live`
Necessary changes are temporarily made to the system over time, but this process and its changes are lost at system reboot. This mode is provided to evaluate how the system would behave with auto-cpufreq permanently running on the system.
### Overriding governor
`sudo auto-cpufreq --force=governor`
Force use of either the "powersave" or "performance" governor, or set to "reset" to go back to normal mode.
Please note that any set override will persist even after reboot.
Necessary changes are temporarily made to the system which are lost with system reboot. This mode is made to evaluate what the system would behave with auto-cpufreq permanently running on the system.
### Install - auto-cpufreq daemon
Necessary changes are made to the system over time and this process will continue across reboots. The daemon is deployed and started as a systemd service. Changes are made automatically and live stats are generated for monitoring purposes.
**Install the daemon using CLI ([after installing auto-cpufreq](#installing-auto-cpufreq)):**
Installing the auto-cpufreq daemon using CLI is as simple as running the following command:
Necessary changes are made to the system for auto-cpufreq CPU optimizaton to persist across reboots. Daemon is deployed and then started as a systemd service. Changes are made automatically and live stats are generated for monitoring purposes.
`sudo auto-cpufreq --install`
After the daemon is installed, `auto-cpufreq` is available as a binary and runs in the background. Its stats can be viewed by running: `auto-cpufreq --stats`
After daemon is installed, `auto-cpufreq` is available as a binary and is running in the background. Its stats can be viewed by running: `auto-cpufreq --stats`
*Please note:* if the daemon is installed within a desktop environment, then its stats and options can be accessed via CLI or GUI. See "Install the daemon using GUI" below for more details.
**Install the daemon using GUI**
Starting with >= v2.0 [after installing auto-cpufreq](#installing-auto-cpufreq), an auto-cpufreq desktop entry (icon) is available, i.e.:
<img src="https://github.com/user-attachments/assets/f426d62b-00b0-4fa5-a72e-b352016ed448" width="640" alt="Example of auto-cpufreq desktop entry (icon)"/>
After selecting it to open the GUI, the auto-cpufreq daemon can be installed by clicking the "Install" button:
<img src="https://github.com/user-attachments/assets/5af47e5e-8b9e-4ff6-9ffc-e78acb623ce4" width="480" alt="The auto-cpufreq GUI's 'Install' button"/>
After that, the full auto-cpufreq GUI is available:
<img src="https://github.com/user-attachments/assets/9c7715c4-16b7-4a5c-86be-4c390276d9e8" width="640" alt="The full auto-cpufreq GUI"/>
*Please note:* after the daemon is installed (by any method), its stats and options are accessible via both CLI and GUI.
**auto-cpufreq daemon service**
Installing the auto-cpufreq daemon also enables the associated service (equivalent to `systemctl enable auto-cpufreq`), causing it to start on boot, and immediately starts it (equivalent to `systemctl start auto-cpufreq`).
Since the daemon is running as a systemd service, its status can be seen by running:
Since daemon is running as a systemd service, its status can be seen by running:
`systemctl status auto-cpufreq`
If installed via Snap package, daemon status can be viewed as follows:
If install has been performed as part of snap package, daemon status can be verified by running:
`systemctl status snap.auto-cpufreq.service.service`
### Update - auto-cpufreq update
Update functionality works by cloning the auto-cpufreq repo, installing it via [auto-cpufreq-installer](#auto-cpufreq-installer), and performing a fresh [auto-cpufreq daemon install](#install---auto-cpufreq-daemon) to provide the [latest version's](https://github.com/AdnanHodzic/auto-cpufreq/releases) changes.
Update auto-cpufreq by running: `sudo auto-cpufreq --update`. By default, the latest revision is cloned to `/opt/auto-cpufreq/source`, thus maintaining existing directory structure.
Update and clone to a custom directory by running: `sudo auto-cpufreq --update=/path/to/directory`
### Remove - auto-cpufreq daemon
The auto-cpufreq daemon, its systemd service, and all its persistent changes can be removed by running:
auto-cpufreq daemon and its systemd service, along with all its persistent changes can be removed by running:
`sudo auto-cpufreq --remove`
This does, in part, the equivalent of `systemctl stop auto-cpufreq && systemctl disable auto-cpufreq`, but the above command should be used instead of using `systemctl`.
*Please note:* after the daemon is removed, the auto-cpufreq GUI and desktop entry (icon) are also removed.
### Stats
If the daemon has been installed, live stats of CPU/system load monitoring and optimization can be seen by running:
If daemon has been installed, live stats of CPU/system load monitoring and optimization can be seen by running:
`auto-cpufreq --stats`
## Battery charging thresholds
***Please note:** [Original implementor](https://github.com/AdnanHodzic/auto-cpufreq/pull/637) is looking for user input & testing to further improve this functionality. If you would like to help in this process, please refer to [Looking for developers and co-maintainers](https://github.com/AdnanHodzic/auto-cpufreq/#looking-for-developers-and-co-maintainers)*.
As of [v2.2.0](https://github.com/AdnanHodzic/auto-cpufreq/releases/tag/v2.2.0), battery charging thresholds can be set in the config file. This enforces your battery to start and stop charging at defined values.
### Supported devices
- **Lenovo ThinkPad** (thinkpad_acpi)*
- **Lenovo IdeaPad** (ideapad_acpi)*
***Please note, your laptop must have an installed ACPI kernel driver specific to the manufacturer.** To check if you have the correct module installed and loaded run `lsmod [module]`
**To request that your device be supported, please open an [issue](https://github.com/AdnanHodzic/auto-cpufreq/issues/new). In your issue, make us aware of the driver that works with your laptop**
### Battery config
Edit the config at `/etc/auto-cpufreq.conf`
Example config for battery ([already part of example config file](https://github.com/AdnanHodzic/auto-cpufreq/#example-config-file-contents))
```
[battery]
enable_thresholds = true
start_threshold = 20
stop_threshold = 80
```
### Lenovo_laptop conservation mode
this works only with `lenovo_laptop` kernel module compatable laptops.
add `ideapad_laptop_conservation_mode = true` to your `auto-cpufreq.conf` file
### Ignoring power supplies
you may have a controler or headphones and when ever they may be on battery they might cause auto-cpufreq
to limit preformence to ignore them add to you config file the name of the power supply, under `[power_supply_ignore_list]`
the name of the power supply can be found with `ls /sys/class/power_supply/`
```
[power_supply_ignore_list]
name1 = this
name2 = is
name3 = an
name4 = example
# like this
xboxctrl = {the xbox controler power supply name}
```
## Troubleshooting
**Q:** If after installing auto-cpufreq you're (still) experiencing:
- high CPU temperatures
- CPU not scaling to minimum/maximum frequencies
- suboptimal CPU performance
- turbo mode not available
* high CPU temperatures
* CPU is not scaling to minimum/maximum frequencies
* suboptimal CPU peformance
**A:** If you're using the `intel_pstate/amd-pstate` CPU management driver, consider changing it to `acpi-cpufreq`.
**A:** If you're using `intel_pstate` CPU management driver consider changing it to: `acpi-cpufreq`.
This can be done by editing the `GRUB_CMDLINE_LINUX_DEFAULT` params in `/etc/default/grub`. For instance:
This can be done by editting `/etc/default/grub` file and appending `intel_pstate=disable` to `GRUB_CMDLINE_LINUX_DEFAULT` line, followed by `sudo update-grub`
```
sudo nano /etc/default/grub
# make sure you have nano installed, or you can use your favorite text editor
```
For Intel users:
Example line change:
```
GRUB_CMDLINE_LINUX_DEFAULT="quiet splash intel_pstate=disable"
```
For AMD users:
```
GRUB_CMDLINE_LINUX_DEFAULT="quiet splash initcall_blacklist=amd_pstate_init amd_pstate.enable=0"
```
Once you have made the necessary changes to the GRUB configuration file, you can update GRUB by running `sudo update-grub` on Debian/Ubuntu, `sudo grub-mkconfig -o /boot/grub/grub.cfg` on Arch Linux, or one of the following on Fedora:
```
sudo grub2-mkconfig -o /etc/grub2.cfg
```
```
sudo grub2-mkconfig -o /etc/grub2-efi.cfg
```
```
sudo grub2-mkconfig -o /boot/grub2/grub.cfg
# legacy boot method
```
For systemd-boot users:
```
sudo nano /etc/kernel/cmdline
# make sure you have nano installed, or you can use your favorite text editor
```
For Intel users:
```
quiet splash intel_pstate=disable
```
For AMD users:
```
quiet splash initcall_blacklist=amd_pstate_init amd_pstate.enable=0
```
Once you have made the necessary changes to the `cmdline` file, you can update it by running `sudo reinstall-kernels`.
### AUR
- If the AUR installer does not work for your system, fallback to `auto-cpufreq-installer` and open an issue.
## Discussion:
- Blogpost: [auto-cpufreq - Automatic CPU speed & power optimizer for Linux](http://foolcontrol.org/?p=3124)
* Blogpost: [auto-cpufreq - Automatic CPU speed & power optimizer for Linux](http://foolcontrol.org/?p=3124)
## Donate
Showing your support and appreciation for the auto-cpufreq project can be done in two ways:
Showing your support and appreciation for auto-cpufreq project can be done in two ways:
- Financial donation
- Code contribution
* Financial donation
* Code contribution
### Financial donation
If auto-cpufreq helped you out and you find it useful, show your appreciation by donating (any amount) to the project!
##### Become Github Sponsor
[Become a sponsor to Adnan Hodzic on Github](https://github.com/sponsors/AdnanHodzic) to acknowledge my efforts and help project's further open source development.
##### PayPal
[![paypal](https://www.paypalobjects.com/en_US/NL/i/btn/btn_donateCC_LG.gif)](https://www.paypal.com/cgi-bin/webscr?cmd=_donations&business=7AHCP5PU95S4Y&item_name=Contribution+for+work+on+auto-cpufreq&currency_code=EUR&source=url)
@ -694,6 +233,6 @@ If auto-cpufreq helped you out and you find it useful, show your appreciation by
### Code contribution
Other ways of supporting the project consist of making a code or documentation contribution. If you have an idea for a new feature or you want to implement some of the existing feature requests or fix some of the [bugs & issues](https://github.com/AdnanHodzic/auto-cpufreq/issues), please make your changes and submit a [pull request](https://github.com/AdnanHodzic/auto-cpufreq/pulls). I'll be glad to review it and, if your changes are accepted, you'll be credited on the [releases page](https://github.com/AdnanHodzic/auto-cpufreq/releases).
Other ways of supporting the project consists of making a code or documentation contribution. If you have an idea for a new features or want to implement some of the existing feature requests or fix some of the [bugs & issues](https://github.com/AdnanHodzic/auto-cpufreq/issues). Please make your changes and submit a [pull request](https://github.com/AdnanHodzic/auto-cpufreq/pulls) which I'll be glad to review. If your changes are accepted you'll be credited as part of [releases page](https://github.com/AdnanHodzic/auto-cpufreq/releases).
**Please note: auto-cpufreq is looking for co-maintainers & open source developers to [help shape the future of the project!](https://github.com/AdnanHodzic/auto-cpufreq/discussions/312)**
**Please note: auto-cpufreq is looking for co-maintainers & open source developers to [help shape future of the project!](https://github.com/AdnanHodzic/auto-cpufreq/discussions/312)**

415
auto-cpufreq-installer
View File

@ -1,245 +1,252 @@
#!/usr/bin/env bash
#!/bin/bash
# auto-cpufreq-installer:
# auto-cpufreq source code based installer
cd "$(dirname "$(readlink -f "$0")")" || exit 1
SCRIPT_PATH=$(readlink -f "$0")
SCRIPT_DIR=$(dirname "${SCRIPT_PATH}")
cd "${SCRIPT_DIR}"
COLOUMNS="`tput cols`"
MID="$((COLOUMNS / 2))"
# check if lsb_release exists on the system before using it
if command -v lsb_release > /dev/null
then
distro="$(lsb_release -is)"
release="$(lsb_release -rs)"
codename="$(lsb_release -cs)"
fi
APPLICATIONS_PATH="/usr/share/applications"
VENV_PATH="/opt/auto-cpufreq"
sep="\n-------------------------------------------------------------------------------"
SHARE_DIR="/usr/local/share/auto-cpufreq/"
# functions
AUTO_CPUFREQ_FILE="/usr/local/bin/auto-cpufreq"
AUTO_CPUFREQ_GTK_FILE=$AUTO_CPUFREQ_FILE-gtk
AUTO_CPUFREQ_GTK_DESKTOP_FILE="$(basename $AUTO_CPUFREQ_GTK_FILE).desktop"
IMG_FILE="/usr/share/pixmaps/auto-cpufreq.png"
ORG_FILE="/usr/share/polkit-1/actions/org.auto-cpufreq.pkexec.policy"
function header {
echo
printf "%0.s─" $(seq $((MID-(${#1}/2)-2)))
printf " $1 "
printf "%0.s─" $(seq $((MID-(${#1}/2)-2)))
echo; echo
#separator
function separator {
echo -e $sep
}
# root check
function root_check {
if ((EUID != 0)); then
separator
echo -e "\nMust be run as root (i.e: 'sudo $0')."
separator
exit 1
fi
}
function ask_operation {
header "auto-cpufreq installer"
echo "Welcome to auto-cpufreq tool installer."; echo
read -p "Select a key [I]nstall/[R]emove or press ctrl+c to quit: " answer
# python packages install
function setup_venv {
venv_dir=/opt/auto-cpufreq/venv
mkdir -p "${venv_dir}"
python3 -m venv "${venv_dir}"
source "${venv_dir}/bin/activate"
python3 -m pip install --upgrade pip
python3 -m pip install -r requirements.txt
}
# tool install
function install {
python3 setup.py install --record files.txt
mkdir -p /usr/local/share/auto-cpufreq/
cp -r scripts/ /usr/local/share/auto-cpufreq/
# this is necessary since we need this script before we can run auto-cpufreq itself
cp scripts/auto-cpufreq-venv-wrapper /usr/local/bin/auto-cpufreq
chmod a+x /usr/local/bin/auto-cpufreq
}
# First argument is the distro
function detected_distro() {
echo -e "\nDetected $1 distribution"
separator
echo -e "\nSetting up Python environment\n"
}
# merged functions pip - install - complete_msg, since it repeats
function completed () {
echo -e "\nInstalling necessary Python packages\n"
setup_venv
separator
echo -e "\ninstalling auto-cpufreq tool\n"
install
}
function complete_msg() {
separator
echo -e "\nauto-cpufreq tool successfully installed.\n"
echo -e "For list of options, run:\nauto-cpufreq"
separator
}
function manual_install {
if command -v lsb_release > /dev/null; then
distro="$(lsb_release -is)"
release="$(lsb_release -rs)"
codename="$(lsb_release -cs)"
fi
echo "Didn't detect Debian or RedHat or Arch based distro."; echo
echo "To complete installation, you need to:"
echo "Install: python3, pip3, python3-setuptools, gobject-introspection, cairo (or cairo-devel), gcc, and gtk3"; echo
echo "Install necessary Python packages:"
echo "pip3 install psutil click distro power requests PyGObject"
echo "Run following sequence of lines:"; echo
echo "-----"; echo
echo "pip3 install ."
echo "mkdir -p $SHARE_DIR"
echo "cp -r scripts/ $SHARE_DIR"; echo
echo "-----"; echo
echo "After which tool is installed, for full list of options run:";echo
echo "auto-cpufreq --help"
echo; printf "%0.s─" $(seq $COLOUMNS); echo
echo "Consider creating a feature request to add support for your distro:"
echo "https://github.com/AdnanHodzic/auto-cpufreq/issues/new"; echo
echo "Make sure to include following information:"; echo
echo "Distribution: $distro"
echo "Release: $release"
echo "Codename: $codename"
echo
exit 1
echo -e "\nDidn't detect Debian or RedHat based distro.\n"
echo -e "To complete installation, you need to:"
echo -e "Install: python3, pip3, python3-setuptools\n"
echo -e "Install necessary Python packages:"
echo -e "pip3 install psutil click distro power"
echo -e "\nRun following sequence of lines:"
echo -e "\n-----"
echo -e "\npython3 setup.py install --record files.txt"
echo -e "mkdir -p /usr/local/share/auto-cpufreq/"
echo -e "cp -r scripts/ /usr/local/share/auto-cpufreq/"
echo -e "\n-----"
echo -e "\nAfter which tool is installed, for full list of options run:"
echo -e "auto-cpufreq"
separator
echo -e "\nConsider creating a feature request to add support for your distro:"
echo -e "https://github.com/AdnanHodzic/auto-cpufreq/issues/new"
echo -e "\nMake sure to include following information:\n"
echo -e "Distribution: $distro"
echo -e "Release: $release"
echo -e "Codename: $codename"
separator
}
function tool_install {
echo
# First argument is the distro
function detected_distro {
header "Detected $1 distribution"
header "Setting up Python environment"
}
if [ -f /etc/debian_version ]; then
VERSION=$(cat /etc/debian_version)
# VERSION="CSCS"
if [[ "$VERSION" =~ ^12(\.[0-9]+)?$ || ("$VERSION" =~ ^[0-9]+$ && "$VERSION" -lt 12) ]]; then
LIB_GI_REPO="libgirepository1.0-dev"
else
LIB_GI_REPO="libgirepository-2.0-dev"
fi
echo $LIB_GI_REPO needs to be installed for version $VERSION
echo '---- '
apt install -y python3-dev python3-pip python3-venv python3-setuptools dmidecode \
"$LIB_GI_REPO" libcairo2-dev libgtk-3-dev gcc
elif [ -f /etc/redhat-release ]; then
detected_distro "RedHat based"
if [ -f /etc/centos-release ]; then yum install platform-python-devel
else yum install python-devel
fi
yum install dmidecode gcc cairo-devel gobject-introspection-devel cairo-gobject-devel gtk3-devel
elif [ -f /etc/solus-release ]; then
detected_distro "Solus"
eopkg install pip python3 python3-devel dmidecode gobject-introspection-devel libcairo-devel gcc libgtk-3
eopkg install -c system.devel
elif [ -f /etc/arch-release ]; then
detected_distro "Arch Linux based"
pacman -S --noconfirm --needed python python-pip python-setuptools base-devel dmidecode gobject-introspection gtk3 gcc
separator
if [ -f /etc/debian_version ]; then
detected_distro "Debian based"
apt install python3-dev python3-pip python3-venv python3-setuptools dmidecode -y
completed
complete_msg
elif [ -f /etc/redhat-release ]; then
detected_distro "RedHat based"
if [ -f /etc/centos-release ]; then
yum install platform-python-devel dmidecode
else
yum install python-devel dmidecode
fi
completed
complete_msg
elif [ -f /etc/solus-release ]; then
detected_distro "Solus"
eopkg install pip python3 python3-devel dmidecode
eopkg install -c system.devel
completed
complete_msg
elif [ -f /etc/os-release ];then
. /etc/os-release
case $ID in
opensuse-leap)
detected_distro "OpenSUSE"
zypper install -y python3 python3-pip python311-setuptools python3-devel gcc dmidecode gobject-introspection-devel python3-cairo-devel gtk3 gtk3-devel
;;
opensuse-tumbleweed)
detected_distro "OpenSUSE"
zypper install -y python3 python3-pip python311-setuptools python3-devel gcc dmidecode gobject-introspection-devel python3-cairo-devel gtk3 gtk3-devel
;;
void)
detected_distro "Void Linux"
xbps-install -Sy python3 python3-pip python3-devel python3-setuptools base-devel dmidecode cairo-devel gobject-introspection gcc gtk+3
;;
nixos)
echo "NixOS detected"
echo "This installer is not supported on NixOS."
echo "Please refer to the install instructions for NixOS at https://github.com/AdnanHodzic/auto-cpufreq#nixos"
exit 1
;;
*) manual_install;;
esac
else # In case /etc/os-release doesn't exist
manual_install
fi
header "Installing necessary Python packages"
venv_dir=$VENV_PATH/venv
mkdir -p "$venv_dir"
python3 -m venv "$venv_dir"
source "$venv_dir/bin/activate"
python3 -m pip install --upgrade pip wheel
# debian specific PyGObject Installation
if [ -f /etc/debian_version ]; then
VERSION=$(cat /etc/debian_version | cut -d'.' -f1)
if [[ "$VERSION" =~ ^12(\.[0-9]+)?$ ]]; then
python3 -m pip install PyGObject==3.50.0
fi
fi
python3 -m pip install PyGObject
header "Installing auto-cpufreq tool"
git config --global --add safe.directory $(pwd)
python -m pip install .
mkdir -p $SHARE_DIR
cp -r scripts/ $SHARE_DIR
cp -r images/ $SHARE_DIR
cp images/icon.png $IMG_FILE
cp scripts/$(basename $ORG_FILE) $(dirname $ORG_FILE)
# this is necessary since we need this script before we can run auto-cpufreq itself
cp scripts/auto-cpufreq-venv-wrapper $AUTO_CPUFREQ_FILE
chmod a+x $AUTO_CPUFREQ_FILE
cp scripts/start_app $AUTO_CPUFREQ_GTK_FILE
chmod a+x $AUTO_CPUFREQ_GTK_FILE
desktop-file-install --dir=$APPLICATIONS_PATH scripts/$AUTO_CPUFREQ_GTK_DESKTOP_FILE
update-desktop-database $APPLICATIONS_PATH
header "auto-cpufreq tool successfully installed"
echo "For list of options, run:"
echo "auto-cpufreq --help"; echo
eval "$(cat /etc/os-release)"
separator
case $ID in
opensuse-leap)
detected_distro "OpenSUSE"
zypper install -y python3 python3-pip python3-setuptools python3-devel gcc dmidecode
completed
;;
opensuse)
detected_distro "OpenSUSE"
echo -e "\nDetected an OpenSUSE ditribution\n\nSetting up Python environment\n"
zypper install -y python38 python3-pip python3-setuptools python3-devel gcc dmidecode
completed
;;
arch|manjaro|endeavouros|garuda|artix)
detected_distro "Arch Linux based"
pacman -S --noconfirm --needed python python-pip python-setuptools base-devel dmidecode
completed
;;
void)
detected_distro "Void Linux"
xbps-install -Sy python3 python3-pip python3-devel python3-setuptools base-devel dmidecode
completed
;;
*) #Any other distro
manual_install
completed
;;
esac
complete_msg
else # In case /etc/os-release doesn't exist
manual_install
fi
}
function tool_remove {
files="files.txt"
share_dir="/usr/local/share/auto-cpufreq/"
srv_install="/usr/bin/auto-cpufreq-install"
srv_remove="/usr/bin/auto-cpufreq-remove"
stats_file="/var/run/auto-cpufreq.stats"
tool_proc_rm="/usr/local/bin/auto-cpufreq --remove"
wrapper_script="/usr/local/bin/auto-cpufreq"
unit_file="/etc/systemd/system/auto-cpufreq.service"
venv_path="/opt/auto-cpufreq"
cpufreqctl="/usr/bin/cpufreqctl.auto-cpufreq"
# stop any running auto-cpufreq argument (daemon/live/monitor)
tool_arg_pids=($(pgrep -f "auto-cpufreq --"))
for pid in "${tool_arg_pids[@]}"; do [ $pid != $$ ] && kill "$pid"; done
function remove_directory {
[ -d $1 ] && rm -rf $1
}
function remove_file {
[ -f $1 ] && rm $1
}
srv_remove="$AUTO_CPUFREQ_FILE-remove"
for pid in "${tool_arg_pids[@]}"; do
if [[ $tool_arg_pids != $$ ]]; then
kill "$tool_arg_pids"
fi
done
# run uninstall in case of installed daemon
if [ -f $srv_remove -o -f $AUTO_CPUFREQ_FILE ]; then
eval "$AUTO_CPUFREQ_FILE --remove"
else
echo; echo "Couldn't remove the auto-cpufreq daemon, $srv_remove do not exist."
if [ -f $srv_remove ]; then
eval $tool_proc_rm
fi
# remove auto-cpufreq and all its supporting files
remove_directory $SHARE_DIR
[ -f $files ] && cat $files | xargs sudo rm -rf && rm -f $files
[ -d $share_dir ] && rm -rf $share_dir
remove_file "$AUTO_CPUFREQ_FILE-install"
remove_file $srv_remove
remove_file $AUTO_CPUFREQ_FILE
remove_file $AUTO_CPUFREQ_GTK_FILE
remove_file $IMG_FILE
remove_file $ORG_FILE
remove_file "/usr/local/bin/cpufreqctl.auto-cpufreq"
remove_file "/var/run/auto-cpufreq.stats"
remove_file "$APPLICATIONS_PATH/$AUTO_CPUFREQ_GTK_DESKTOP_FILE"
update-desktop-database $APPLICATIONS_PATH
# files cleanup
[ -f $srv_install ] && rm $srv_install
[ -f $srv_remove ] && rm $srv_remove
[ -f $stats_file ] && rm $stats_file
[ -f $unit_file ] && rm $unit_file
[ -f $wrapper_script ] && rm $wrapper_script
[ -f $cpufreqctl ] && rm $cpufreqctl
# remove python virtual environment
remove_directory $venv_path
rm -rf "${venv_path}"
echo; echo "auto-cpufreq tool and all its supporting files successfully removed"; echo
separator
echo -e "\nauto-cpufreq tool and all its supporting files successfully removed."
separator
}
# root check
if ((EUID != 0)); then
echo; echo "Must be run as root (i.e: 'sudo $0')."; echo
exit 1
fi
function ask_operation {
echo -e "\n-------------------------- auto-cpufreq installer -----------------------------"
echo -e "\nWelcome to auto-cpufreq tool installer."
echo -e "\nOptions:\n"
read -p \
"[I]nstall
[R]emove
[Q]uit
if [[ -z "$1" ]]; then ask_operation
Select a key: [i/r/q]: " answer
}
# End of functions
root_check
if [[ -z "${1}" ]]; then
ask_operation
else
case "$1" in
--install) answer="i";;
--remove) answer="r";;
*) ask_operation;;
case "${1}" in
"--install")
answer="i"
;;
"--remove")
answer="r"
;;
*)
answer="n"
;;
esac
fi
case $answer in
I|i) tool_install;;
R|r) tool_remove;;
I|i)
tool_install ;;
R|r)
tool_remove ;;
Q|q)
separator
echo ""
exit 0 ;;
*)
echo "Unknown key, aborting ..."; echo
exit 1
;;
separator
echo -e "\nUnknown key, aborting ...\n"
exit 1 ;;
esac

63
auto-cpufreq.conf-example
View File

@ -4,25 +4,6 @@
# preferred governor.
governor = performance
# EPP: see available preferences by running: cat /sys/devices/system/cpu/cpu0/cpufreq/energy_performance_available_preferences
energy_performance_preference = performance
# EPB (Energy Performance Bias) for the intel_pstate driver
# see conversion info: https://www.kernel.org/doc/html/latest/admin-guide/pm/intel_epb.html
# available EPB options include a numeric value between 0-15
# (where 0 = maximum performance and 15 = maximum power saving),
# or one of the following strings:
# performance (0), balance_performance (4), default (6), balance_power (8), or power (15)
# if the parameter is missing in the config and the hardware supports this setting, the default value will be used
# the default value is `balance_performance` (for charger)
# energy_perf_bias = balance_performance
# Platform Profiles
# https://www.kernel.org/doc/html/latest/userspace-api/sysfs-platform_profile.html
# See available options by running:
# cat /sys/firmware/acpi/platform_profile_choices
# platform_profile = performance
# minimum cpu frequency (in kHz)
# example: for 800 MHz = 800000 kHz --> scaling_min_freq = 800000
# see conversion info: https://www.rapidtables.com/convert/frequency/mhz-to-hz.html
@ -38,42 +19,12 @@ energy_performance_preference = performance
# turbo boost setting. possible values: always, auto, never
turbo = auto
# this is for ignoring controllers and other connected devices battery from affecting
# laptop preformence
# [power_supply_ignore_list]
# name1 = this
# name2 = is
# name3 = an
# name4 = example
# settings for when using battery power
[battery]
# see available governors by running: cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_governors
# preferred governor
governor = powersave
# EPP: see available preferences by running: cat /sys/devices/system/cpu/cpu0/cpufreq/energy_performance_available_preferences
energy_performance_preference = power
# EPB (Energy Performance Bias) for the intel_pstate driver
# see conversion info: https://www.kernel.org/doc/html/latest/admin-guide/pm/intel_epb.html
# available EPB options include a numeric value between 0-15
# (where 0 = maximum performance and 15 = maximum power saving),
# or one of the following strings:
# performance (0), balance_performance (4), default (6), balance_power (8), or power (15)
# if the parameter is missing in the config and the hardware supports this setting, the default value will be used
# the default value is `balance_power` (for battery)
# energy_perf_bias = balance_power
# Platform Profiles
# https://www.kernel.org/doc/html/latest/userspace-api/sysfs-platform_profile.html
# See available options by running:
# cat /sys/firmware/acpi/platform_profile_choices
# platform_profile = low-power
# minimum cpu frequency (in kHz)
# example: for 800 MHz = 800000 kHz --> scaling_min_freq = 800000
# see conversion info: https://www.rapidtables.com/convert/frequency/mhz-to-hz.html
@ -88,17 +39,3 @@ energy_performance_preference = power
# turbo boost setting. possible values: always, auto, never
turbo = auto
# experimental
# Add battery charging threshold (currently only available to Lenovo)
# checkout README.md for more info
# enable thresholds true or false
#enable_thresholds = true
#
# start threshold (0 is off ) can be 0-99
#start_threshold = 0
#
# stop threshold (100 is off) can be 1-100
#stop_threshold = 100

0
auto_cpufreq/__init__.py Normal file
View File

20
auto_cpufreq/battery_scripts/battery.py
View File

@ -1,20 +0,0 @@
#!/usr/bin/env python3
from subprocess import PIPE, run
from auto_cpufreq.battery_scripts.ideapad_acpi import ideapad_acpi_print_thresholds, ideapad_acpi_setup
from auto_cpufreq.battery_scripts.ideapad_laptop import ideapad_laptop_print_thresholds, ideapad_laptop_setup
from auto_cpufreq.battery_scripts.thinkpad import thinkpad_print_thresholds, thinkpad_setup
def lsmod(module): return module in run(['lsmod'], stdout=PIPE, stderr=PIPE, text=True, shell=True).stdout
def battery_get_thresholds():
if lsmod("ideapad_acpi"): ideapad_acpi_print_thresholds()
elif lsmod("ideapad_laptop"): ideapad_laptop_print_thresholds()
elif lsmod("thinkpad_acpi"): thinkpad_print_thresholds()
else: return
def battery_setup():
if lsmod("ideapad_acpi"): ideapad_acpi_setup()
elif lsmod("ideapad_laptop"): ideapad_laptop_setup()
elif lsmod("thinkpad_acpi"): thinkpad_setup()
else: return

38
auto_cpufreq/battery_scripts/ideapad_acpi.py
View File

@ -1,38 +0,0 @@
#!/usr/bin/env python3
import os
from subprocess import check_output
from auto_cpufreq.config.config import config
from auto_cpufreq.globals import POWER_SUPPLY_DIR
def set_battery(value, mode, bat):
path = f"{POWER_SUPPLY_DIR}{bat}/charge_{mode}_threshold"
if os.path.isfile(path): check_output(f"echo {value} | tee {path}", shell=True, text=True)
else: print(f"WARNING: {path} does NOT exist")
def get_threshold_value(mode):
conf = config.get_config()
return conf["battery"][f"{mode}_threshold"] if conf.has_option("battery", f"{mode}_threshold") else (0 if mode == "start" else 100)
def ideapad_acpi_setup():
conf = config.get_config()
if not (conf.has_option("battery", "enable_thresholds") and conf["battery"]["enable_thresholds"] == "true"): return
if os.path.exists(POWER_SUPPLY_DIR):
batteries = [name for name in os.listdir(POWER_SUPPLY_DIR) if name.startswith('BAT')]
for bat in batteries:
set_battery(get_threshold_value("start"), "start", bat)
set_battery(get_threshold_value("stop"), "stop", bat)
else: print("WARNING: could NOT access", POWER_SUPPLY_DIR)
def ideapad_acpi_print_thresholds():
batteries = [name for name in os.listdir(POWER_SUPPLY_DIR) if name.startswith('BAT')]
print("\n-------------------------------- Battery Info ---------------------------------\n")
print(f"battery count = {len(batteries)}")
for bat in batteries:
try:
print(bat, "start threshold =", check_output(["cat", POWER_SUPPLY_DIR+bat+"/charge_start_threshold"]))
print(bat, "stop threshold =", check_output(["cat", POWER_SUPPLY_DIR+bat+"/charge_stop_threshold"]))
except Exception as e: print(f"ERROR: failed to read battery {bat} thresholds:", repr(e))

69
auto_cpufreq/battery_scripts/ideapad_laptop.py
View File

@ -1,69 +0,0 @@
#!/usr/bin/env python3
import os
from subprocess import check_output
from auto_cpufreq.config.config import config
from auto_cpufreq.globals import CONSERVATION_MODE_FILE, POWER_SUPPLY_DIR
def set_battery(value, mode, bat):
path = f"{POWER_SUPPLY_DIR}{bat}/charge_{mode}_threshold"
if os.path.exists(path):
check_output(f"echo {value} | tee {POWER_SUPPLY_DIR}{bat}/charge_{mode}_threshold", shell=True, text=True)
else: print(f"WARNING: {path} does NOT exist")
def get_threshold_value(mode):
conf = config.get_config()
return conf["battery"][f"{mode}_threshold"] if conf.has_option("battery", f"{mode}_threshold") else (0 if mode == "start" else 100)
def conservation_mode(value):
try:
check_output(f"echo {value} | tee {CONSERVATION_MODE_FILE}", shell=True, text=True)
print(f"conservation_mode is {value}")
except: print("unable to set conservation mode")
return
def check_conservation_mode():
try:
value = check_output(["cat", CONSERVATION_MODE_FILE], text=True).rstrip()
if value == "1": return True
elif value == "0": return False
else:
print("could not get value from conservation mode")
return None
except:
print("could not get the value from conservation mode")
return False
def ideapad_laptop_setup():
conf = config.get_config()
if not (conf.has_option("battery", "enable_thresholds") and conf["battery"]["enable_thresholds"] == "true"): return
batteries = [name for name in os.listdir(POWER_SUPPLY_DIR) if name.startswith("BAT")]
if conf.has_option("battery", "ideapad_laptop_conservation_mode"):
if conf["battery"]["ideapad_laptop_conservation_mode"] == "true":
conservation_mode(1)
return
if conf["battery"]["ideapad_laptop_conservation_mode"] == "false": conservation_mode(0)
if not check_conservation_mode():
for bat in batteries:
set_battery(get_threshold_value("start"), "start", bat)
set_battery(get_threshold_value("stop"), "stop", bat)
else: print("conservation mode is enabled unable to set thresholds")
def ideapad_laptop_print_thresholds():
if check_conservation_mode():
print("conservation mode is on")
return
batteries = [name for name in os.listdir(POWER_SUPPLY_DIR) if name.startswith("BAT")]
print("\n-------------------------------- Battery Info ---------------------------------\n")
print(f"battery count = {len(batteries)}")
for bat in batteries:
try:
print(bat, "start threshold =", check_output(["cat", POWER_SUPPLY_DIR+bat+"/charge_start_threshold"]))
print(bat, "stop threshold =", check_output(["cat", POWER_SUPPLY_DIR+bat+"/charge_stop_threshold"]))
except Exception as e: print(f"ERROR: failed to read battery {bat} thresholds:", repr(e))

39
auto_cpufreq/battery_scripts/thinkpad.py
View File

@ -1,39 +0,0 @@
#!/usr/bin/env python3
import os
from subprocess import check_output
from auto_cpufreq.config.config import config
from auto_cpufreq.globals import POWER_SUPPLY_DIR
def set_battery(value, mode, bat):
path = f"{POWER_SUPPLY_DIR}{bat}/charge_{mode}_threshold"
if os.path.isfile(path): check_output(f"echo {value} | tee {path}", shell=True, text=True)
else: print(f"WARNING: {path} does NOT exist")
def get_threshold_value(mode):
conf = config.get_config()
return conf["battery"][f"{mode}_threshold"] if conf.has_option("battery", f"{mode}_threshold") else (0 if mode == "start" else 100)
def thinkpad_setup():
conf = config.get_config()
if not (conf.has_option("battery", "enable_thresholds") and conf["battery"]["enable_thresholds"] == "true"): return
if os.path.exists(POWER_SUPPLY_DIR):
batteries = [name for name in os.listdir(POWER_SUPPLY_DIR) if name.startswith('BAT')]
for bat in batteries:
set_battery(get_threshold_value("start"), "start", bat)
set_battery(get_threshold_value("stop"), "stop", bat)
else: print(f"WARNING {POWER_SUPPLY_DIR} does NOT esixt")
def thinkpad_print_thresholds():
batteries = [name for name in os.listdir(POWER_SUPPLY_DIR) if name.startswith('BAT')]
print("\n-------------------------------- Battery Info ---------------------------------\n")
print(f"battery count = {len(batteries)}")
for bat in batteries:
try:
print(bat, "start threshold =", check_output(["cat", POWER_SUPPLY_DIR+bat+"/charge_start_threshold"]))
print(bat, "stop threshold =", check_output(["cat", POWER_SUPPLY_DIR+bat+"/charge_stop_threshold"]))
except Exception as e: print(f"ERROR: failed to read battery {bat} thresholds:", repr(e))

285
auto_cpufreq/bin/auto_cpufreq.py
View File

@ -1,285 +0,0 @@
#!/usr/bin/env python3
#
# auto-cpufreq - Automatic CPU speed & power optimizer for Linux
#
# Blog post: https://foolcontrol.org/?p=3124
# core import
import sys, time
from subprocess import run
from shutil import rmtree
from auto_cpufreq.battery_scripts.battery import *
from auto_cpufreq.config.config import config as conf, find_config_file
from auto_cpufreq.core import *
from auto_cpufreq.globals import GITHUB, IS_INSTALLED_WITH_AUR, IS_INSTALLED_WITH_SNAP
from auto_cpufreq.modules.system_monitor import ViewType, SystemMonitor
from auto_cpufreq.power_helper import *
from threading import Thread
@click.command()
@click.option("--monitor", is_flag=True, help="Monitor and see suggestions for CPU optimizations")
@click.option("--live", is_flag=True, help="Monitor and make (temp.) suggested CPU optimizations")
@click.option("--daemon", is_flag=True, hidden=True)
@click.option("--install", is_flag=True, help="Install daemon for (permanent) automatic CPU optimizations")
@click.option("--update", is_flag=False, help="Update daemon and package for (permanent) automatic CPU optimizations", flag_value="--update")
@click.option("--remove", is_flag=True, help="Remove daemon for (permanent) automatic CPU optimizations")
@click.option("--force", is_flag=False, help="Force use of either \"powersave\" or \"performance\" governors. Setting to \"reset\" will go back to normal mode")
@click.option("--config", is_flag=False, required=False, help="Use config file at defined path",)
@click.option("--stats", is_flag=True, help="View live stats of CPU optimizations made by daemon")
@click.option("--get-state", is_flag=True, hidden=True)
@click.option("--completions", is_flag=False, help="Enables shell completions for bash, zsh and fish.\n Possible values bash|zsh|fish")
@click.option("--debug", is_flag=True, help="Show debug info (include when submitting bugs)")
@click.option("--version", is_flag=True, help="Show currently installed version")
@click.option("--donate", is_flag=True, help="Support the project")
def main(monitor, live, daemon, install, update, remove, force, config, stats, get_state, completions, debug, version, donate):
# display info if config file is used
config_path = find_config_file(config)
conf.set_path(config_path)
def config_info_dialog():
if conf.has_config():
print("\nUsing settings defined in " + config_path + " file")
if len(sys.argv) == 1:
print("\n" + "-" * 32 + " auto-cpufreq " + "-" * 33 + "\n")
print("Automatic CPU speed & power optimizer for Linux")
print("\nExample usage:\nauto-cpufreq --monitor")
print("\n-----\n")
run(["auto-cpufreq", "--help"])
footer()
else:
# set governor override unless None or invalid
if force is not None:
not_running_daemon_check()
root_check() # Calling root_check before set_override as it will require sudo access
set_override(force) # Calling set override, only if force has some values
if monitor:
root_check()
battery_setup()
conf.notifier.start()
if IS_INSTALLED_WITH_SNAP:
gnome_power_detect_snap()
tlp_service_detect_snap()
else:
gnome_power_detect()
tlp_service_detect()
if IS_INSTALLED_WITH_SNAP or tlp_stat_exists or (systemctl_exists and not bool(gnome_power_status)):
try:
input("press Enter to continue or Ctrl + c to exit...")
except KeyboardInterrupt:
conf.notifier.stop()
sys.exit(0)
monitor = SystemMonitor(suggestion=True, type=ViewType.MONITOR)
monitor.run(on_quit=conf.notifier.stop)
elif live:
root_check()
battery_setup()
conf.notifier.start()
if IS_INSTALLED_WITH_SNAP:
gnome_power_detect_snap()
tlp_service_detect_snap()
else:
gnome_power_detect_install()
gnome_power_stop_live()
tuned_stop_live()
tlp_service_detect()
if IS_INSTALLED_WITH_SNAP or tlp_stat_exists or (systemctl_exists and not bool(gnome_power_status)):
try:
input("press Enter to continue or Ctrl + c to exit...")
except KeyboardInterrupt:
conf.notifier.stop()
sys.exit(0)
cpufreqctl()
def live_daemon():
# Redirect stdout to suppress prints
class NullWriter:
def write(self, _): pass
def flush(self): pass
try:
sys.stdout = NullWriter()
while True:
time.sleep(1)
set_autofreq()
except:
pass
def live_daemon_off():
gnome_power_start_live()
tuned_start_live()
cpufreqctl_restore()
conf.notifier.stop()
thread = Thread(target=live_daemon, daemon=True)
thread.start()
monitor = SystemMonitor(type=ViewType.LIVE)
monitor.run(on_quit=live_daemon_off)
elif daemon:
config_info_dialog()
root_check()
file_stats()
if IS_INSTALLED_WITH_SNAP and SNAP_DAEMON_CHECK == "enabled":
gnome_power_detect_snap()
tlp_service_detect_snap()
elif not IS_INSTALLED_WITH_SNAP:
gnome_power_detect()
tlp_service_detect()
battery_setup()
conf.notifier.start()
while True:
try:
footer()
gov_check()
cpufreqctl()
distro_info()
sysinfo()
set_autofreq()
countdown(2)
except KeyboardInterrupt: break
conf.notifier.stop()
elif install:
root_check()
if IS_INSTALLED_WITH_SNAP:
running_daemon_check()
gnome_power_detect_snap()
tlp_service_detect_snap()
bluetooth_notif_snap()
gov_check()
run("snapctl set daemon=enabled", shell=True)
run("snapctl start --enable auto-cpufreq", shell=True)
else:
running_daemon_check()
gov_check()
deploy_daemon()
deploy_complete_msg()
elif update:
root_check()
custom_dir = "/opt/auto-cpufreq/source"
for arg in sys.argv:
if arg.startswith("--update="):
custom_dir = arg.split("=")[1]
sys.argv.remove(arg)
if "--update" in sys.argv:
update = True
sys.argv.remove("--update")
if len(sys.argv) == 2: custom_dir = sys.argv[1]
if IS_INSTALLED_WITH_SNAP:
print("Detected auto-cpufreq was installed using snap")
# refresh snap directly using this command
# path wont work in this case
print("Please update using snap package manager, i.e: `sudo snap refresh auto-cpufreq`.")
#check for AUR
elif IS_INSTALLED_WITH_AUR: print("Arch-based distribution with AUR support detected. Please refresh auto-cpufreq using your AUR helper.")
else:
is_new_update = check_for_update()
if not is_new_update: return
ans = input("Do you want to update auto-cpufreq to the latest release? [Y/n]: ").strip().lower()
if not os.path.exists(custom_dir): os.makedirs(custom_dir)
if os.path.exists(os.path.join(custom_dir, "auto-cpufreq")): rmtree(os.path.join(custom_dir, "auto-cpufreq"))
if ans in ['', 'y', 'yes']:
remove_daemon()
remove_complete_msg()
new_update(custom_dir)
print("enabling daemon")
run(["auto-cpufreq", "--install"])
print("auto-cpufreq is installed with the latest version")
run(["auto-cpufreq", "--version"])
else: print("Aborted")
elif remove:
root_check()
if IS_INSTALLED_WITH_SNAP:
run("snapctl set daemon=disabled", shell=True)
run("snapctl stop --disable auto-cpufreq", shell=True)
if auto_cpufreq_stats_path.exists():
if auto_cpufreq_stats_file is not None:
auto_cpufreq_stats_file.close()
auto_cpufreq_stats_path.unlink()
# ToDo:
# {the following snippet also used in --update, update it there too(if required)}
# * undo bluetooth boot disable
gnome_power_rm_reminder_snap()
else: remove_daemon()
remove_complete_msg()
elif stats:
not_running_daemon_check()
config_info_dialog()
if IS_INSTALLED_WITH_SNAP:
gnome_power_detect_snap()
tlp_service_detect_snap()
else:
gnome_power_detect()
tlp_service_detect()
if IS_INSTALLED_WITH_SNAP or tlp_stat_exists or (systemctl_exists and not bool(gnome_power_status)):
try:
input("press Enter to continue or Ctrl + c to exit...")
except KeyboardInterrupt:
conf.notifier.stop()
sys.exit(0)
monitor = SystemMonitor(type=ViewType.STATS)
monitor.run()
elif get_state:
not_running_daemon_check()
override = get_override()
print(override)
elif completions:
if completions == "bash":
print("Run the below command in your current shell!\n")
print("echo 'eval \"$(_AUTO_CPUFREQ_COMPLETE=bash_source auto-cpufreq)\"' >> ~/.bashrc")
print("source ~/.bashrc")
elif completions == "zsh":
print("Run the below command in your current shell!\n")
print("echo 'eval \"$(_AUTO_CPUFREQ_COMPLETE=zsh_source auto-cpufreq)\"' >> ~/.zshrc")
print("source ~/.zshrc")
elif completions == "fish":
print("Run the below command in your current shell!\n")
print("echo '_AUTO_CPUFREQ_COMPLETE=fish_source auto-cpufreq | source' > ~/.config/fish/completions/auto-cpufreq.fish")
else: print("Invalid Option, try bash|zsh|fish as argument to --completions")
elif debug:
# ToDo: add status of GNOME Power Profile service status
config_info_dialog()
root_check()
battery_get_thresholds()
cpufreqctl()
footer()
distro_info()
sysinfo()
print()
app_version()
print()
python_info()
print()
device_info()
print(f"Battery is: {'' if charging() else 'dis'}charging")
print()
app_res_use()
get_load()
get_current_gov()
get_turbo()
footer()
elif version:
footer()
distro_info()
app_version()
footer()
elif donate:
footer()
print("If auto-cpufreq helped you out and you find it useful ...\n")
print("Show your appreciation by donating!")
print(GITHUB+"#donate")
footer()
if __name__ == "__main__": main()

16
auto_cpufreq/bin/auto_cpufreq_gtk.py
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#!/usr/bin/env python3
import gi
gi.require_version("Gtk", "3.0")
from gi.repository import Gtk, GLib
from auto_cpufreq.gui.app import ToolWindow
def main():
GLib.set_prgname("auto-cpufreq")
win = ToolWindow()
win.connect("destroy", Gtk.main_quit)
win.show_all()
win.handle_update()
Gtk.main()
if __name__ == "__main__": main()

68
auto_cpufreq/config/config.py
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import os, pyinotify, sys
from configparser import ConfigParser, ParsingError
from subprocess import run, PIPE
from auto_cpufreq.config.config_event_handler import ConfigEventHandler
def find_config_file(args_config_file) -> str:
"""
Find the config file to use.
Look for a config file in the following priorization order:
1. Command line argument
2. User config file
3. System config file
:param args_config_file: Path to the config file provided as a command line argument
:return: The path to the config file to use
"""
# Prepare paths
# use $SUDO_USER or $USER to get home dir since sudo can't access
# user env vars
home = run(["getent passwd ${SUDO_USER:-$USER} | cut -d: -f6"],
shell=True,
stdout=PIPE,
universal_newlines=True
).stdout.rstrip()
user_config_dir = os.getenv("XDG_CONFIG_HOME", default=os.path.join(home, ".config"))
user_config_file = os.path.join(user_config_dir, "auto-cpufreq/auto-cpufreq.conf")
system_config_file = "/etc/auto-cpufreq.conf"
if args_config_file is not None: # (1) Command line argument was specified
# Check if the config file path points to a valid file
if os.path.isfile(args_config_file): return args_config_file
else:
# Not a valid file
print(f"Config file specified with '--config {args_config_file}' not found.")
sys.exit(1)
elif os.path.isfile(user_config_file): return user_config_file # (2) User config file
else: return system_config_file # (3) System config file (default if nothing else is found)
class _Config:
def __init__(self) -> None:
self.path: str = ""
self._config: ConfigParser = ConfigParser()
self.watch_manager: pyinotify.WatchManager = pyinotify.WatchManager()
self.config_handler = ConfigEventHandler(self)
# check for file changes using threading
self.notifier: pyinotify.ThreadedNotifier = pyinotify.ThreadedNotifier(self.watch_manager, self.config_handler)
def set_path(self, path: str) -> None:
self.path = path
mask = pyinotify.IN_CREATE | pyinotify.IN_DELETE | pyinotify.IN_MODIFY | pyinotify.IN_MOVED_FROM | pyinotify.IN_MOVED_TO
self.watch_manager.add_watch(os.path.dirname(path), mask=mask)
if os.path.isfile(path): self.update_config()
def has_config(self) -> bool: return os.path.isfile(self.path)
def get_config(self) -> ConfigParser: return self._config
def update_config(self) -> None:
# create new ConfigParser to prevent old data from remaining
self._config = ConfigParser()
try: self._config.read(self.path)
except ParsingError as e: print(f"The following error occured while parsing the config file: \n{repr(e)}")
config = _Config()

23
auto_cpufreq/config/config_event_handler.py
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@ -1,23 +0,0 @@
from pyinotify import Event, ProcessEvent
class ConfigEventHandler(ProcessEvent):
def __init__(self, config) -> None:
self.config = config
def _process_update(self, event: Event):
if event.pathname.rstrip("~") == self.config.path: self.config.update_config()
# activates when auto-cpufreq config file is modified
def process_IN_MODIFY(self, event: Event) -> None: self._process_update(event)
# activates when auto-cpufreq config file is deleted
def process_IN_DELETE(self, event: Event) -> None: self._process_update(event)
# activates when auto-cpufreq config file is created
def process_IN_CREATE(self, event: Event) -> None: self._process_update(event)
# activates when auto-cpufreq config file is moved from watched directory
def process_IN_MOVED_FROM(self, event: Event) -> None: self._process_update(event)
# activates when auto-cpufreq config file is moved into the watched directory
def process_IN_MOVED_TO(self, event: Event) -> None: self._process_update(event)

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15
auto_cpufreq/globals.py
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from os import getenv, path
from subprocess import getoutput
ALL_GOVERNORS = ('performance', 'ondemand', 'conservative', 'schedutil', 'userspace', 'powersave') # from the highest performance to the lowest
AVAILABLE_GOVERNORS = getoutput('cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_governors').strip().split(' ')
AVAILABLE_GOVERNORS_SORTED = tuple(filter(lambda gov: gov in AVAILABLE_GOVERNORS, ALL_GOVERNORS))
CONSERVATION_MODE_FILE = "/sys/bus/platform/drivers/ideapad_acpi/VPC2004:00/conservation_mode"
GITHUB = "https://github.com/AdnanHodzic/auto-cpufreq"
IS_INSTALLED_WITH_AUR = path.isfile("/etc/arch-release") and bool(getoutput("pacman -Qs auto-cpufreq"))
IS_INSTALLED_WITH_SNAP = getenv("PKG_MARKER") == "SNAP"
POWER_SUPPLY_DIR = "/sys/class/power_supply/"
SNAP_DAEMON_CHECK = getoutput("snapctl get daemon")
CPU_TEMP_SENSOR_PRIORITY = ("coretemp", "acpitz", "k10temp", "zenpower")

119
auto_cpufreq/gui/app.py
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import gi
gi.require_version("Gtk", "3.0")
from gi.repository import Gdk, GdkPixbuf, Gio, GLib, Gtk
from contextlib import redirect_stdout
from io import StringIO
from subprocess import PIPE, run
from threading import Thread
from auto_cpufreq.core import check_for_update, is_running
from auto_cpufreq.globals import GITHUB, IS_INSTALLED_WITH_SNAP
from auto_cpufreq.gui.objects import CPUFreqStatsLabel, CurrentGovernorBox, DaemonNotRunningView, DropDownMenu, RadioButtonView, SystemStatsLabel, UpdateDialog
if IS_INSTALLED_WITH_SNAP:
CSS_FILE = "/snap/auto-cpufreq/current/style.css"
ICON_FILE = "/snap/auto-cpufreq/current/icon.png"
else:
CSS_FILE = "/usr/local/share/auto-cpufreq/scripts/style.css"
ICON_FILE = "/usr/local/share/auto-cpufreq/images/icon.png"
HBOX_PADDING = 20
PKEXEC_ERROR = "Error executing command as another user: Not authorized\n\nThis incident has been reported.\n"
class ToolWindow(Gtk.Window):
def __init__(self):
super().__init__(title="auto-cpufreq")
self.set_default_size(600, 480)
self.set_border_width(10)
self.set_resizable(False)
self.load_css()
pixbuf = GdkPixbuf.Pixbuf.new_from_file_at_scale(filename=ICON_FILE, width=500, height=500, preserve_aspect_ratio=True)
self.set_icon(pixbuf)
self.build()
def main(self):
# Main HBOX
self.hbox = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL, spacing=HBOX_PADDING)
self.systemstats = SystemStatsLabel()
self.hbox.pack_start(self.systemstats, False, False, 0)
self.add(self.hbox)
self.vbox_right = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, spacing=52)
self.menu = DropDownMenu(self)
self.hbox.pack_end(self.menu, False, False, 0)
self.currentgovernor = CurrentGovernorBox()
self.vbox_right.pack_start(self.currentgovernor, False, False, 0)
self.vbox_right.pack_start(RadioButtonView(), False, False, 0)
self.cpufreqstats = CPUFreqStatsLabel()
self.vbox_right.pack_start(self.cpufreqstats, False, False, 0)
self.hbox.pack_start(self.vbox_right, False, False, 0)
GLib.timeout_add_seconds(5, self.refresh_in_thread)
def snap(self):
box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, halign=Gtk.Align.CENTER, valign=Gtk.Align.CENTER)
# reference: https://forum.snapcraft.io/t/pkexec-not-found-python-gtk-gnome-app/36579
label = Gtk.Label(label="GUI not available due to Snap package confinement limitations.\nPlease install auto-cpufreq using auto-cpufreq-installer\nVisit the GitHub repo for more info")
label.set_justify(Gtk.Justification.CENTER)
button = Gtk.LinkButton.new_with_label(
uri=GITHUB,
label="GitHub Repo"
)
box.pack_start(label, False, False, 0)
box.pack_start(button, False, False, 0)
self.add(box)
def handle_update(self):
new_stdout = StringIO()
with redirect_stdout(new_stdout):
if not check_for_update(): return
captured_output = new_stdout.getvalue().splitlines()
dialog = UpdateDialog(self, captured_output[1], captured_output[2])
response = dialog.run()
dialog.destroy()
if response != Gtk.ResponseType.YES: return
updater = run(["pkexec", "auto-cpufreq", "--update"], input="y\n", encoding="utf-8", stderr=PIPE)
if updater.stderr == PKEXEC_ERROR:
error = Gtk.MessageDialog(self, 0, Gtk.MessageType.ERROR, Gtk.ButtonsType.OK, "Error updating")
error.format_secondary_text("Authorization Failed")
error.run()
error.destroy()
return
success = Gtk.MessageDialog(self, 0, Gtk.MessageType.INFO, Gtk.ButtonsType.OK, "Update successful")
success.format_secondary_text("The app will now close. Please reopen to apply changes")
success.run()
success.destroy()
exit(0)
def daemon_not_running(self):
self.box = DaemonNotRunningView(self)
self.add(self.box)
def build(self):
if IS_INSTALLED_WITH_SNAP: self.snap()
elif is_running("auto-cpufreq", "--daemon"): self.main()
else: self.daemon_not_running()
def load_css(self):
screen = Gdk.Screen.get_default()
self.gtk_provider = Gtk.CssProvider()
self.gtk_context = Gtk.StyleContext()
self.gtk_context.add_provider_for_screen(screen, self.gtk_provider, Gtk.STYLE_PROVIDER_PRIORITY_APPLICATION)
self.gtk_provider.load_from_file(Gio.File.new_for_path(CSS_FILE))
def refresh_in_thread(self):
Thread(target=self._refresh).start()
return True
def _refresh(self):
self.systemstats.refresh()
self.currentgovernor.refresh()
self.cpufreqstats.refresh()

288
auto_cpufreq/gui/objects.py
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@ -1,288 +0,0 @@
import gi
gi.require_version("Gtk", "3.0")
from gi.repository import GdkPixbuf, Gtk
import sys
from concurrent.futures import ThreadPoolExecutor
from io import StringIO
from os.path import isfile
from platform import python_version
from subprocess import getoutput, PIPE, run
from auto_cpufreq.core import distro_info, get_formatted_version, get_override, sysinfo
from auto_cpufreq.globals import GITHUB, IS_INSTALLED_WITH_AUR, IS_INSTALLED_WITH_SNAP
PKEXEC_ERROR = "Error executing command as another user: Not authorized\n\nThis incident has been reported.\n"
auto_cpufreq_stats_path = ("/var/snap/auto-cpufreq/current" if IS_INSTALLED_WITH_SNAP else "/var/run") + "/auto-cpufreq.stats"
def get_stats():
if isfile(auto_cpufreq_stats_path):
with open(auto_cpufreq_stats_path, "r") as file: stats = [line for line in (file.readlines() [-50:])]
return "".join(stats)
def get_version():
# snap package
if IS_INSTALLED_WITH_SNAP: return getoutput(r"echo \(Snap\) $SNAP_VERSION")
# aur package
elif IS_INSTALLED_WITH_AUR: return getoutput("pacman -Qi auto-cpufreq | grep Version")
else:
# source code (auto-cpufreq-installer)
try: return get_formatted_version()
except Exception as e:
print(repr(e))
pass
class RadioButtonView(Gtk.Box):
def __init__(self):
super().__init__(orientation=Gtk.Orientation.HORIZONTAL)
self.set_hexpand(True)
self.hbox = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
self.label = Gtk.Label("Governor Override", name="bold")
self.default = Gtk.RadioButton.new_with_label_from_widget(None, "Default")
self.default.connect("toggled", self.on_button_toggled, "reset")
self.default.set_halign(Gtk.Align.END)
self.powersave = Gtk.RadioButton.new_with_label_from_widget(self.default, "Powersave")
self.powersave.connect("toggled", self.on_button_toggled, "powersave")
self.powersave.set_halign(Gtk.Align.END)
self.performance = Gtk.RadioButton.new_with_label_from_widget(self.default, "Performance")
self.performance.connect("toggled", self.on_button_toggled, "performance")
self.performance.set_halign(Gtk.Align.END)
# this keeps track of whether or not the button was toggled by the app or the user to prompt for authorization
self.set_by_app = True
self.set_selected()
self.pack_start(self.label, False, False, 0)
self.pack_start(self.default, True, True, 0)
self.pack_start(self.powersave, True, True, 0)
self.pack_start(self.performance, True, True, 0)
def on_button_toggled(self, button, override):
if button.get_active():
if not self.set_by_app:
result = run(f"pkexec auto-cpufreq --force={override}", shell=True, stdout=PIPE, stderr=PIPE)
if result.stderr.decode() == PKEXEC_ERROR: self.set_selected()
else: self.set_by_app = False
def set_selected(self):
override = get_override()
match override:
case "powersave": self.powersave.set_active(True)
case "performance": self.performance.set_active(True)
case "default":
# because this is the default button, it does not trigger the callback when set by the app
if self.set_by_app: self.set_by_app = False
self.default.set_active(True)
class CurrentGovernorBox(Gtk.Box):
def __init__(self):
super().__init__(spacing=25)
self.static = Gtk.Label(label="Current Governor", name="bold")
self.governor = Gtk.Label(label=getoutput("cpufreqctl.auto-cpufreq --governor").strip().split(" ")[0], halign=Gtk.Align.END)
self.pack_start(self.static, False, False, 0)
self.pack_start(self.governor, False, False, 0)
def refresh(self):
self.governor.set_label(getoutput("cpufreqctl.auto-cpufreq --governor").strip().split(" ")[0])
class SystemStatsLabel(Gtk.Label):
def __init__(self):
super().__init__()
self.refresh()
def refresh(self):
# change stdout and store label text to file-like object
old_stdout = sys.stdout
text = StringIO()
sys.stdout = text
distro_info()
sysinfo()
self.set_label(text.getvalue())
sys.stdout = old_stdout
class CPUFreqStatsLabel(Gtk.Label):
def __init__(self):
super().__init__()
self.refresh()
def refresh(self):
stats = get_stats().split("\n")
start = None
for i, line in enumerate(stats):
if line == ("-" * 28 + " CPU frequency scaling " + "-" * 28):
start = i
break
if start is not None:
del stats[:i]
del stats[-4:]
self.set_label("\n".join(stats))
class DropDownMenu(Gtk.MenuButton):
def __init__(self, parent):
super().__init__()
self.set_halign(Gtk.Align.END)
self.set_valign(Gtk.Align.START)
self.image = Gtk.Image.new_from_icon_name("open-menu-symbolic", Gtk.IconSize.LARGE_TOOLBAR)
self.add(self.image)
self.menu = self.build_menu(parent)
self.set_popup(self.menu)
def build_menu(self, parent):
menu = Gtk.Menu()
daemon = Gtk.MenuItem(label="Remove Daemon")
daemon.connect("activate", self._remove_daemon, parent)
menu.append(daemon)
about = Gtk.MenuItem(label="About")
about.connect("activate", self.about_dialog, parent)
menu.append(about)
menu.show_all()
return menu
def about_dialog(self, MenuItem, parent):
dialog = AboutDialog(parent)
response = dialog.run()
dialog.destroy()
def _remove_daemon(self, MenuItem, parent):
confirm = ConfirmDialog(parent, message="Are you sure you want to remove the daemon?")
response = confirm.run()
confirm.destroy()
if response == Gtk.ResponseType.YES:
try:
# run in thread to prevent GUI from hanging
with ThreadPoolExecutor() as executor:
kwargs = {"shell": True, "stdout": PIPE, "stderr": PIPE}
future = executor.submit(run, "pkexec auto-cpufreq --remove", **kwargs)
result = future.result()
assert result.stderr.decode() != PKEXEC_ERROR, Exception("Authorization was cancelled")
dialog = Gtk.MessageDialog(
transient_for=parent,
message_type=Gtk.MessageType.INFO,
buttons=Gtk.ButtonsType.OK,
text="Daemon successfully removed"
)
dialog.format_secondary_text("The app will now close. Please reopen to apply changes")
dialog.run()
dialog.destroy()
parent.destroy()
except Exception as e:
dialog = Gtk.MessageDialog(
transient_for=parent,
message_type=Gtk.MessageType.ERROR,
buttons=Gtk.ButtonsType.OK,
text="Daemon removal failed"
)
dialog.format_secondary_text(f"The following error occured:\n{e}")
dialog.run()
dialog.destroy()
class AboutDialog(Gtk.Dialog):
def __init__(self, parent):
super().__init__(title="About", transient_for=parent)
app_version = get_version()
self.box = self.get_content_area()
self.box.set_spacing(10)
self.add_button("Close", Gtk.ResponseType.CLOSE)
self.set_default_size(400, 350)
img_buffer = GdkPixbuf.Pixbuf.new_from_file_at_scale(
filename="/usr/local/share/auto-cpufreq/images/icon.png",
width=150,
height=150,
preserve_aspect_ratio=True
)
self.image = Gtk.Image.new_from_pixbuf(img_buffer)
self.title = Gtk.Label(label="auto-cpufreq", name="bold")
self.version = Gtk.Label(label=app_version)
self.python = Gtk.Label(label=f"Python {python_version()}")
self.github = Gtk.Label(label=GITHUB)
self.license = Gtk.Label(label="Licensed under LGPL3", name="small")
self.love = Gtk.Label(label="Made with <3", name="small")
self.box.pack_start(self.image, False, False, 0)
self.box.pack_start(self.title, False, False, 0)
self.box.pack_start(self.version, False, False, 0)
self.box.pack_start(self.python, False, False, 0)
self.box.pack_start(self.github, False, False, 0)
self.box.pack_start(self.license, False, False, 0)
self.box.pack_start(self.love, False, False, 0)
self.show_all()
class UpdateDialog(Gtk.Dialog):
def __init__(self, parent, current_version: str, latest_version: str):
super().__init__(title="Update Available", transient_for=parent)
self.box = self.get_content_area()
self.set_default_size(400, 100)
self.add_buttons("Update", Gtk.ResponseType.YES, "Cancel", Gtk.ResponseType.NO)
self.label = Gtk.Label(label="An update is available\n")
self.current_version = Gtk.Label(label=current_version + "\n")
self.latest_version = Gtk.Label(label=latest_version + "\n")
self.box.pack_start(self.label, True, False, 0)
self.box.pack_start(self.current_version, True, False, 0)
self.box.pack_start(self.latest_version, True, False, 0)
self.show_all()
class ConfirmDialog(Gtk.Dialog):
def __init__(self, parent, message: str):
super().__init__(title="Confirmation", transient_for=parent)
self.box = self.get_content_area()
self.set_default_size(400, 100)
self.add_buttons("Yes", Gtk.ResponseType.YES, "No", Gtk.ResponseType.NO)
self.label = Gtk.Label(label=message)
self.box.pack_start(self.label, True, False, 0)
self.show_all()
class DaemonNotRunningView(Gtk.Box):
def __init__(self, parent):
super().__init__(orientation=Gtk.Orientation.VERTICAL, spacing=10, halign=Gtk.Align.CENTER, valign=Gtk.Align.CENTER)
self.label = Gtk.Label(label="auto-cpufreq daemon is not running. Please click the install button")
self.install_button = Gtk.Button.new_with_label("Install")
self.install_button.connect("clicked", self.install_daemon, parent)
self.pack_start(self.label, False, False, 0)
self.pack_start(self.install_button, False, False, 0)
def install_daemon(self, button, parent):
try:
# run in thread to prevent GUI from hanging
with ThreadPoolExecutor() as executor:
kwargs = {"shell": True, "stdout": PIPE, "stderr": PIPE}
future = executor.submit(run, "pkexec auto-cpufreq --install", **kwargs)
result = future.result()
assert result.stderr.decode() != PKEXEC_ERROR, Exception("Authorization was cancelled")
# enable for debug. causes issues if kept
# elif result.stderr is not None:
# raise Exception(result.stderr.decode())
dialog = Gtk.MessageDialog(
transient_for=parent,
message_type=Gtk.MessageType.INFO,
buttons=Gtk.ButtonsType.OK,
text="Daemon successfully installed"
)
dialog.format_secondary_text("The app will now close. Please reopen to apply changes")
dialog.run()
dialog.destroy()
parent.destroy()
except Exception as e:
dialog = Gtk.MessageDialog(
transient_for=parent,
message_type=Gtk.MessageType.ERROR,
buttons=Gtk.ButtonsType.OK,
text="Daemon install failed"
)
dialog.format_secondary_text(f"The following error occured:\n{e}")
dialog.run()
dialog.destroy()

28
auto_cpufreq/gui/tray.py
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@ -1,28 +0,0 @@
import gi
gi.require_version("Gtk", "3.0")
from gi.repository import Gtk, AppIndicator3 as appindicator
from subprocess import run
def main():
indicator = appindicator.Indicator.new("auto-cpufreq-tray", "network-idle-symbolic", appindicator.IndicatorCategory.APPLICATION_STATUS)
indicator.set_status(appindicator.IndicatorStatus.ACTIVE)
indicator.set_menu(build_menu())
Gtk.main()
def build_menu():
menu = Gtk.Menu()
program = Gtk.MenuItem("auto-cpufreq")
program.connect("activate", open_app)
menu.append(program)
_quit = Gtk.MenuItem("Quit")
_quit.connect("activate", Gtk.main_quit)
menu.append(_quit)
menu.show_all()
return menu
def open_app(MenuItem): run("sudo -E python app.py", shell=True)
if __name__ == "__main__": main()

337
auto_cpufreq/modules/system_info.py
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@ -1,337 +0,0 @@
from dataclasses import dataclass
import os
from pathlib import Path
import platform
from subprocess import getoutput
from typing import Tuple, List
import psutil
import distro
from pathlib import Path
from auto_cpufreq.config.config import config
from auto_cpufreq.core import get_power_supply_ignore_list
from auto_cpufreq.globals import (
AVAILABLE_GOVERNORS_SORTED,
CPU_TEMP_SENSOR_PRIORITY,
IS_INSTALLED_WITH_SNAP,
POWER_SUPPLY_DIR,
)
@dataclass
class CoreInfo:
id: int
usage: float
temperature: float
frequency: float
@dataclass
class BatteryInfo:
is_charging: bool | None
is_ac_plugged: bool | None
charging_start_threshold: int | None
charging_stop_threshold: int | None
battery_level: int | None
power_consumption: float | None
def __repr__(self) -> str:
if self.is_charging:
return "charging"
elif not self.is_ac_plugged:
return f"discharging {('(' + '{:.2f}'.format(self.power_consumption) + ' W)') if self.power_consumption != None else ''}"
return "Not Charging"
@dataclass
class SystemReport:
distro_name: str
distro_ver: str
arch: str
processor_model: str
total_core: int | None
kernel_version: str
current_gov: str | None
current_epp: str | None
current_epb: str | None
cpu_driver: str
cpu_fan_speed: int | None
cpu_usage: float
cpu_max_freq: float | None
cpu_min_freq: float | None
load: float
avg_load: Tuple[float, float, float] | None
cores_info: list[CoreInfo]
battery_info: BatteryInfo
is_turbo_on: Tuple[bool | None, bool | None]
class SystemInfo:
"""
Provides system information related to CPU, distribution, and performance metrics.
"""
def __init__(self):
self.distro_name: str = (
distro.name(pretty=True) if not IS_INSTALLED_WITH_SNAP else "UNKNOWN"
)
self.distro_version: str = (
distro.version() if not IS_INSTALLED_WITH_SNAP else "UNKNOWN"
)
self.architecture: str = platform.machine()
self.processor_model: str = (
getoutput("grep -E 'model name' /proc/cpuinfo -m 1").split(":")[-1].strip()
)
self.total_cores: int | None = psutil.cpu_count(logical=True)
self.cpu_driver: str = getoutput(
"cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_driver"
).strip()
self.kernel_version: str = platform.release()
@staticmethod
def cpu_min_freq() -> float | None:
freqs = psutil.cpu_freq(percpu=True)
return min((freq.min for freq in freqs), default=None)
@staticmethod
def cpu_max_freq() -> float | None:
freqs = psutil.cpu_freq(percpu=True)
return max((freq.max for freq in freqs), default=None)
@staticmethod
def get_cpu_info() -> List[CoreInfo]:
"""Returns detailed CPU information for each core."""
cpu_usage = psutil.cpu_percent(percpu=True)
cpu_freqs = psutil.cpu_freq(percpu=True)
try:
temps = psutil.sensors_temperatures()
temp_sensor = []
for sensor in CPU_TEMP_SENSOR_PRIORITY:
temp_sensor = temps.get(sensor, [])
if temp_sensor != []:
break
core_temps = [temp.current for temp in temp_sensor]
except AttributeError:
core_temps = []
avg_temp = sum(core_temps) / len(core_temps) if core_temps else 0.0
return [
CoreInfo(
id=i,
usage=cpu_usage[i],
temperature=core_temps[i] if i < len(core_temps) else avg_temp,
frequency=cpu_freqs[i].current,
)
for i in range(len(cpu_usage))
]
@staticmethod
def cpu_fan_speed() -> int | None:
fans = psutil.sensors_fans()
return next((fan[0].current for fan in fans.values() if fan), None)
@staticmethod
def current_gov() -> str | None:
try:
with open(
"/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor", "r"
) as f:
return f.read().strip()
except:
return None
@staticmethod
def current_epp() -> str | None:
epp_path = "/sys/devices/system/cpu/cpu0/cpufreq/energy_performance_preference"
if not Path(epp_path).exists():
return None
return config.get_config().get(
"battery", "energy_performance_preference", fallback="balance_power"
)
@staticmethod
def current_epb() -> str | None:
epb_path = "/sys/devices/system/cpu/intel_pstate"
if not Path(epb_path).exists():
return None
return config.get_config().get(
"battery", "energy_perf_bias", fallback="balance_power"
)
@staticmethod
def cpu_usage() -> float:
return psutil.cpu_percent(
interval=0.5
) # Reduced interval for better responsiveness
@staticmethod
def system_load() -> float:
return os.getloadavg()[0]
@staticmethod
def avg_load() -> Tuple[float, float, float]:
return os.getloadavg()
@staticmethod
def avg_temp() -> int:
temps: List[float] = [i.temperature for i in SystemInfo.get_cpu_info()]
return int(sum(temps) / len(temps))
@staticmethod
def turbo_on() -> Tuple[bool | None, bool | None]:
"""Get CPU turbo mode status.
Returns: Tuple[bool | None, bool | None]:
The first value indicates whether turbo mode is enabled, None if unknown
The second value indicates whether auto mode is enabled (amd_pstate only), None if unknown
"""
intel_pstate = Path("/sys/devices/system/cpu/intel_pstate/no_turbo")
cpu_freq = Path("/sys/devices/system/cpu/cpufreq/boost")
amd_pstate = Path("/sys/devices/system/cpu/amd_pstate/status")
if intel_pstate.exists():
control_file: Path = intel_pstate
inverse_logic = True
elif cpu_freq.exists():
control_file = cpu_freq
inverse_logic = False
elif amd_pstate.exists():
amd_status: str = amd_pstate.read_text().strip()
if amd_status == "active":
return None, True
return None, False
else:
return None, None
try:
current_value = int(control_file.read_text().strip())
return bool(current_value) ^ inverse_logic, False
except Exception as e:
return None, None
@staticmethod
def battery_info() -> BatteryInfo:
def read_file(path: str) -> str | None:
try:
with open(path, "r") as f:
return f.read().strip()
except FileNotFoundError:
return None
power_supplies: List[str] = sorted(os.listdir(POWER_SUPPLY_DIR))
if not power_supplies:
return BatteryInfo(
is_charging=None,
is_ac_plugged=True,
charging_start_threshold=None,
charging_stop_threshold=None,
battery_level=None,
power_consumption=None,
)
is_ac_plugged = None
is_charging = None
battery_level = None
power_consumption = None
charging_start_threshold = None
charging_stop_threshold = None
for supply in power_supplies:
if any(item in supply for item in get_power_supply_ignore_list()):
continue
supply_type: str | None = read_file(f"{POWER_SUPPLY_DIR}{supply}/type")
if supply_type == "Mains":
power_supply_online: str | None = read_file(
f"{POWER_SUPPLY_DIR}{supply}/online"
)
is_ac_plugged = power_supply_online == "1"
elif supply_type == "Battery":
battery_status: str | None = read_file(
f"{POWER_SUPPLY_DIR}{supply}/status"
)
battery_percentage: str | None = read_file(
f"{POWER_SUPPLY_DIR}{supply}/capacity"
)
energy_rate: str | None = read_file(
f"{POWER_SUPPLY_DIR}{supply}/power_now"
)
charge_start_threshold: str | None = read_file(
f"{POWER_SUPPLY_DIR}{supply}/charge_start_threshold"
)
charge_stop_threshold: str | None = read_file(
f"{POWER_SUPPLY_DIR}{supply}/charge_stop_threshold"
)
is_charging: bool | None = (
battery_status.lower() == "charging" if battery_status else None
)
battery_level: int | None = (
int(battery_percentage) if battery_percentage else None
)
power_consumption: float | None = (
float(energy_rate) / 1_000_000 if energy_rate else None
)
charging_start_threshold: int | None = (
int(charge_start_threshold) if charge_start_threshold else None
)
charging_stop_threshold: int | None = (
int(charge_stop_threshold) if charge_stop_threshold else None
)
return BatteryInfo(
is_charging=is_charging,
is_ac_plugged=is_ac_plugged,
charging_start_threshold=charging_start_threshold,
charging_stop_threshold=charging_stop_threshold,
battery_level=battery_level,
power_consumption=power_consumption,
)
@staticmethod
def turbo_on_suggestion() -> bool:
usage = SystemInfo.cpu_usage()
if usage >= 20.0:
return True
elif usage <= 25 and SystemInfo.avg_temp() >= 70:
return False
return False
@staticmethod
def governor_suggestion() -> str:
if SystemInfo.battery_info().is_ac_plugged:
return AVAILABLE_GOVERNORS_SORTED[0]
return AVAILABLE_GOVERNORS_SORTED[-1]
def generate_system_report(self) -> SystemReport:
return SystemReport(
distro_name=self.distro_name,
distro_ver=self.distro_version,
arch=self.architecture,
processor_model=self.processor_model,
total_core=self.total_cores,
cpu_driver=self.cpu_driver,
kernel_version=self.kernel_version,
current_gov=self.current_gov(),
current_epp=self.current_epp(),
current_epb=self.current_epb(),
cpu_fan_speed=self.cpu_fan_speed(),
cpu_usage=self.cpu_usage(),
cpu_max_freq=self.cpu_max_freq(),
cpu_min_freq=self.cpu_min_freq(),
load=self.system_load(),
avg_load=self.avg_load(),
cores_info=self.get_cpu_info(),
is_turbo_on=self.turbo_on(),
battery_info=self.battery_info(),
)
system_info = SystemInfo()

301
auto_cpufreq/modules/system_monitor.py
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@ -1,301 +0,0 @@
import sys
from typing import Callable
import urwid
import time
from .system_info import SystemReport, system_info
from auto_cpufreq.config.config import config
from enum import Enum
class ViewType(str, Enum):
STATS = "Stats"
MONITOR = "Monitor"
LIVE = "Live"
def __str__(self) -> str:
return self.value
class SystemMonitor:
def __init__(self, type: ViewType, suggestion: bool = False):
self.type: ViewType = type
self.title_header = urwid.Text(f"{type} Mode", align="center")
self.header = urwid.Columns(
[
self.title_header,
]
)
# Create separate content walkers for left and right columns
self.left_content = urwid.SimpleListWalker([])
self.right_content = urwid.SimpleListWalker([])
# Create listboxes for both columns
self.left_listbox = urwid.ListBox(self.left_content)
self.right_listbox = urwid.ListBox(self.right_content)
# Create a columns widget with a vertical line (using box drawing character)
self.columns = urwid.Columns(
[
("weight", 1, self.left_listbox),
(
"fixed",
1,
urwid.AttrMap(urwid.SolidFill(""), "divider"),
), # Vertical line # type: ignore
("weight", 1, self.right_listbox),
],
dividechars=0,
)
self.footer = urwid.AttrMap(
urwid.Text(
"Press Q or Ctrl+C to quit | Use ↑↓ or PageUp/PageDown to scroll",
align="center",
),
"footer",
)
self.frame = urwid.Frame(
body=self.columns,
header=urwid.AttrMap(self.header, "header"),
footer=self.footer,
)
palette = [
("header", "white", "dark blue"),
("footer", "white", "dark green"),
("body", "white", "default"),
("divider", "light gray", "default"), # Style for the vertical line
]
if suggestion:
palette.append(("suggestion", "yellow", "default"))
self.loop = urwid.MainLoop(
self.frame, palette=palette, unhandled_input=self.handle_input
)
self.last_focus_left = 0
self.last_focus_right = 0
self.on_quit: Callable[[], None] | None = None
self.suggestion = suggestion
def update(self, loop: urwid.MainLoop, user_data: dict) -> None:
# Store current focus positions
if len(self.left_content) > 0:
_, self.last_focus_left = self.left_listbox.get_focus()
if self.last_focus_left is None:
self.last_focus_left = 0
if len(self.right_content) > 0:
_, self.last_focus_right = self.right_listbox.get_focus()
if self.last_focus_right is None:
self.last_focus_right = 0
current_time = time.strftime("%H:%M:%S")
self.title_header.set_text(f"{self.type} Mode - {current_time}")
report: SystemReport = system_info.generate_system_report()
self.format_system_info(report)
# Restore focus positions
if len(self.left_content) > 0:
self.left_listbox.set_focus(min(self.last_focus_left, len(self.left_content) - 1)) # type: ignore
if len(self.right_content) > 0:
self.right_listbox.set_focus(min(self.last_focus_right, len(self.right_content) - 1)) # type: ignore
self.loop.set_alarm_in(2, self.update) # type: ignore
def handle_input(self, key):
if key in ("q", "Q"):
if self.on_quit:
self.on_quit()
raise urwid.ExitMainLoop()
def format_system_info(self, report: SystemReport):
self.left_content.clear()
self.right_content.clear()
# Helper function to create centered text
def aligned_text(text: str) -> urwid.Text:
return urwid.Text(text, align="left")
# Left Column - System Info and CPU Stats
self.left_content.extend(
[
urwid.AttrMap(aligned_text("System Information"), "header"),
aligned_text(""),
aligned_text(f"Linux distro: {report.distro_name} {report.distro_ver}"),
aligned_text(f"Linux kernel: {report.kernel_version}"),
aligned_text(f"Processor: {report.processor_model}"),
aligned_text(f"Cores: {report.total_core}"),
aligned_text(f"Architecture: {report.arch}"),
aligned_text(f"Driver: {report.cpu_driver}"),
aligned_text(""),
]
)
if config.has_config():
self.left_content.append(
aligned_text(f"Using settings defined in {config.path} file")
)
self.left_content.append(aligned_text(""))
# CPU Stats
self.left_content.extend(
[
urwid.AttrMap(aligned_text("Current CPU Stats"), "header"),
aligned_text(""),
aligned_text(f"CPU max frequency: {report.cpu_max_freq} MHz"),
aligned_text(f"CPU min frequency: {report.cpu_min_freq} MHz"),
aligned_text(""),
aligned_text("Core Usage Temperature Frequency"),
]
)
for core in report.cores_info:
self.left_content.append(
aligned_text(
f"CPU{core.id:<2} {core.usage:>4.1f}% {core.temperature:>6.0f} °C {core.frequency:>6.0f} MHz"
)
)
if report.cpu_fan_speed:
self.left_content.append(aligned_text(""))
self.left_content.append(
aligned_text(f"CPU fan speed: {report.cpu_fan_speed} RPM")
)
# Right Column - Battery, Frequency Scaling, and System Stats
if report.battery_info != None:
self.right_content.extend(
[
urwid.AttrMap(aligned_text("Battery Stats"), "header"),
aligned_text(""),
aligned_text(f"Battery status: {str(report.battery_info)}"),
aligned_text(
f"Battery precentage: {(str(report.battery_info.battery_level) + '%') if report.battery_info.battery_level != None else 'Unknown'}"
),
aligned_text(
f'AC plugged: {("Yes" if report.battery_info.is_ac_plugged else "No") if report.battery_info.is_ac_plugged != None else "Unknown"}'
),
aligned_text(
f'Charging start threshold: {report.battery_info.charging_start_threshold if report.battery_info.is_ac_plugged != None else "Unknown"}'
),
aligned_text(
f'Charging stop threshold: {report.battery_info.charging_stop_threshold if report.battery_info.is_ac_plugged != None else "Unknown"}'
),
aligned_text(""),
]
)
# CPU Frequency Scaling
self.right_content.extend(
[
urwid.AttrMap(aligned_text("CPU Frequency Scaling"), "header"),
aligned_text(""),
aligned_text(
f'Setting to use: "{report.current_gov if report.current_gov != None else "Unknown"}" governor'
),
]
)
if (
self.suggestion
and report.current_gov != None
and system_info.governor_suggestion() != report.current_gov
):
self.right_content.append(
urwid.AttrMap(
aligned_text(
f'Suggesting use of: "{system_info.governor_suggestion()}" governor'
),
"suggestion",
)
)
if report.current_epp:
self.right_content.append(
aligned_text(f"EPP setting: {report.current_epp}")
)
else:
self.right_content.append(
aligned_text("Not setting EPP (not supported by system)")
)
if report.current_epb:
self.right_content.append(
aligned_text(f'Setting to use: "{report.current_epb}" EPB')
)
self.right_content.append(aligned_text(""))
# System Statistics
self.right_content.extend(
[
urwid.AttrMap(aligned_text("System Statistics"), "header"),
aligned_text(""),
aligned_text(f"Total CPU usage: {report.cpu_usage:.1f} %"),
aligned_text(f"Total system load: {report.load:.2f}"),
]
)
if report.cores_info:
avg_temp = sum(core.temperature for core in report.cores_info) / len(
report.cores_info
)
self.right_content.append(
aligned_text(f"Average temp. of all cores: {avg_temp:.2f} °C")
)
if report.avg_load:
load_status = "Load optimal" if report.load < 1.0 else "Load high"
self.right_content.append(
aligned_text(
f"{load_status} (load average: {report.avg_load[0]:.2f}, {report.avg_load[1]:.2f}, {report.avg_load[2]:.2f})"
)
)
if report.cores_info:
usage_status = "Optimal" if report.cpu_usage < 70 else "High"
temp_status = "high" if avg_temp > 75 else "normal" # type: ignore
self.right_content.append(
aligned_text(
f"{usage_status} total CPU usage: {report.cpu_usage:.1f}%, {temp_status} average core temp: {avg_temp:.1f}°C" # type: ignore
)
)
turbo_status: str
if report.is_turbo_on[0] != None:
turbo_status = "On" if report.is_turbo_on[0] else "Off"
elif report.is_turbo_on[1] != None:
turbo_status = (
f"Auto mode {'enabled' if report.is_turbo_on[1] else 'disabled'}"
)
else:
turbo_status = "Unknown"
self.right_content.append(aligned_text(f"Setting turbo boost: {turbo_status}"))
if (
self.suggestion
and report.is_turbo_on[0] != None
and system_info.turbo_on_suggestion() != report.is_turbo_on[0]
):
self.right_content.append(
urwid.AttrMap(
aligned_text(
f'Suggesting to set turbo boost: {"on" if system_info.turbo_on_suggestion() else "off"}'
),
"suggestion",
)
)
def run(self, on_quit: Callable[[], None] | None = None):
try:
if on_quit:
self.on_quit = on_quit
self.loop.set_alarm_in(0, self.update) # type: ignore
self.loop.run()
except KeyboardInterrupt:
if on_quit:
on_quit()
sys.exit(0)

380
auto_cpufreq/power_helper.py
View File

@ -1,40 +1,50 @@
# * add status as one of the available options
# * alert user on snap if detected and how to remove first time live/stats message starts
# * if daemon is disabled and auto-cpufreq is removed (snap) remind user to enable it back
import click
from shutil import which
from subprocess import call, DEVNULL, getoutput, STDOUT
from sys import argv
from logging import root
import os, sys, click, subprocess
from subprocess import getoutput, call, run, check_output, DEVNULL
sys.path.append("../")
from auto_cpufreq.core import *
from auto_cpufreq.globals import GITHUB, IS_INSTALLED_WITH_SNAP
from auto_cpufreq.tlp_stat_parser import TLPStatusParser
# app_name var
app_name = "python3 power_helper.py" if argv[0] == "power_helper.py" else "auto-cpufreq"
if sys.argv[0] == "power_helper.py":
app_name = "python3 power_helper.py"
else:
app_name = "auto-cpufreq"
def header(): print("\n------------------------- auto-cpufreq: Power helper -------------------------\n")
def warning(): print("\n----------------------------------- Warning -----------------------------------\n")
def helper_opts(): print("\nFor full list of options run: python3 power_helper.py --help")
def header():
print("\n------------------------- auto-cpufreq: Power helper -------------------------\n")
def helper_opts():
print("\nFor full list of options run: python3 power_helper.py --help")
# used to check if binary exists on the system
def does_command_exists(cmd): return which(cmd) is not None
def does_command_exists(cmd):
return which(cmd) is not None
bluetoothctl_exists = does_command_exists("bluetoothctl")
powerprofilesctl_exists = does_command_exists("powerprofilesctl")
systemctl_exists = does_command_exists("systemctl")
bluetoothctl_exists = does_command_exists("bluetoothctl")
tlp_stat_exists = does_command_exists("tlp-stat")
tuned_stat_exists = does_command_exists("tuned")
powerprofilesctl_exists = does_command_exists("powerprofilesctl")
# detect if gnome power profile service is running
if not IS_INSTALLED_WITH_SNAP:
if os.getenv("PKG_MARKER") != "SNAP":
if systemctl_exists:
try: gnome_power_status = call(["systemctl", "is-active", "--quiet", "power-profiles-daemon"])
try:
gnome_power_status = call(
["systemctl", "is-active", "--quiet", "power-profiles-daemon"]
)
except:
print("\nUnable to determine init system")
print("If this causes any problems, please submit an issue:")
print(GITHUB+"/issues")
print("https://github.com/AdnanHodzic/auto-cpufreq/issues")
# alert in case TLP service is running
def tlp_service_detect():
@ -42,99 +52,91 @@ def tlp_service_detect():
status_output = getoutput("tlp-stat -s")
tlp_status = TLPStatusParser(status_output)
if tlp_status.is_enabled():
warning()
print(
"\n----------------------------------- Warning -----------------------------------\n"
)
print("Detected you are running a TLP service!")
print("This daemon might interfere with auto-cpufreq which can lead to unexpected results.")
print("We strongly encourage you to remove TLP unless you really know what you are doing.")
print(
"This daemon might interfere with auto-cpufreq which can lead to unexpected results."
)
print(
"We strongly encourage you to remove TLP unless you really know what you are doing."
)
# alert about TLP when using snap
def tlp_service_detect_snap():
warning()
print("\n----------------------------------- Warning -----------------------------------\n")
print("Unable to detect if you are using a TLP service!")
print("This daemon might interfere with auto-cpufreq which can lead to unexpected results.")
print("We strongly encourage you not to use TLP unless you really know what you are doing.")
# alert in case gnome power profile service is running
def gnome_power_detect():
if systemctl_exists and not bool(gnome_power_status):
warning()
print("Detected running GNOME Power Profiles daemon service!")
print("\nThis daemon might interfere with auto-cpufreq and will be automatically")
print("disabled when auto-cpufreq daemon is installed and")
print("it will be re-enabled after auto-cpufreq is removed.")
print("\nOnly necessary to be manually done on Snap package installs!")
print("Steps to perform this action using auto-cpufreq: power_helper script:")
print(f"git clone {GITHUB}.git")
print("cd auto-cpufreq/auto_cpufreq")
print("python3 power_helper.py --gnome_power_disable")
print(f"\nReference: {GITHUB}#configuring-auto-cpufreq")
if systemctl_exists:
if gnome_power_status == 0:
print(
"\n----------------------------------- Warning -----------------------------------\n"
)
print("Detected running GNOME Power Profiles daemon service!")
print("This daemon might interfere with auto-cpufreq and should be disabled.")
print("\nSteps to perform this action using auto-cpufreq: power_helper script:")
print("git clone https://github.com/AdnanHodzic/auto-cpufreq.git")
print("cd auto-cpufreq/auto_cpufreq")
print("python3 power_helper.py --gnome_power_disable")
# automatically disable gnome power profile service in case it's running during install
def gnome_power_detect_install():
if systemctl_exists and not bool(gnome_power_status):
warning()
print("Detected running GNOME Power Profiles daemon service!")
print("\nThis daemon might interfere with auto-cpufreq and has been disabled.\n")
print('This daemon is not automatically disabled in "monitor" mode and')
print("will be enabled after auto-cpufreq daemon is removed.")
if systemctl_exists:
if gnome_power_status == 0:
print(
"\n----------------------------------- Warning -----------------------------------\n"
)
print("Detected running GNOME Power Profiles daemon service!")
print("This daemon might interfere with auto-cpufreq and has been disabled.\n")
print('This daemon is not automatically disabled in "monitor" mode and')
print("will be enabled after auto-cpufreq is removed.\n")
# notification on snap
def gnome_power_detect_snap():
warning()
print("Due to Snap package confinement limitations please consider installing auto-cpufreq using")
print(f"auto-cpufreq-installer: {GITHUB}#auto-cpufreq-installer")
print()
print("\n----------------------------------- Warning -----------------------------------\n")
print("Unable to detect state of GNOME Power Profiles daemon service!")
print("This daemon might interfere with auto-cpufreq and should be disabled!")
print("This daemon might interfere with auto-cpufreq and should be disabled.")
print("\nSteps to perform this action using auto-cpufreq: power_helper script:")
print(f"git clone {GITHUB}.git")
print("git clone https://github.com/AdnanHodzic/auto-cpufreq.git")
print("cd auto-cpufreq/auto_cpufreq")
print("python3 power_helper.py --gnome_power_disable")
print(f"\nReference: {GITHUB}#configuring-auto-cpufreq")
# stops gnome >= 40 power profiles (live)
def gnome_power_stop_live():
if systemctl_exists and not bool(gnome_power_status) and powerprofilesctl_exists:
call(["powerprofilesctl", "set", "balanced"])
call(["systemctl", "stop", "power-profiles-daemon"])
# stops tuned (live)
def tuned_stop_live():
if systemctl_exists and tuned_stat_exists:
call(["systemctl", "stop", "tuned"])
if systemctl_exists:
if gnome_power_status == 0 and powerprofilesctl_exists:
call(["powerprofilesctl", "set", "balanced"])
call(["systemctl", "stop", "power-profiles-daemon"])
# starts gnome >= 40 power profiles (live)
def gnome_power_start_live():
if systemctl_exists: call(["systemctl", "start", "power-profiles-daemon"])
def tuned_start_live():
if systemctl_exists and tuned_stat_exists:
call(["systemctl", "start", "tuned"])
if systemctl_exists:
call(["systemctl", "start", "power-profiles-daemon"])
# enable gnome >= 40 power profiles (uninstall)
def gnome_power_svc_enable():
if systemctl_exists:
try:
print("* Enabling GNOME power profiles\n")
print("\n* Enabling GNOME power profiles")
call(["systemctl", "unmask", "power-profiles-daemon"])
call(["systemctl", "enable", "--now", "power-profiles-daemon"])
call(["systemctl", "start", "power-profiles-daemon"])
call(["systemctl", "enable", "power-profiles-daemon"])
call(["systemctl", "daemon-reload"])
except:
print("\nUnable to enable GNOME power profiles")
print("If this causes any problems, please submit an issue:")
print(GITHUB+"/issues")
print("https://github.com/AdnanHodzic/auto-cpufreq/issues")
def tuned_svc_enable():
if systemctl_exists and tuned_stat_exists:
try:
print("* Enabling TuneD\n")
call(["systemctl", "unmask", "tuned"])
call(["systemctl", "enable", "--now", "tuned"])
except:
print("\nUnable to enable TuneD daemon")
print("If this causes any problems, please submit an issue:")
print(GITHUB+"/issues")
# gnome power profiles current status
def gnome_power_svc_status():
@ -145,13 +147,15 @@ def gnome_power_svc_status():
except:
print("\nUnable to see GNOME power profiles status")
print("If this causes any problems, please submit an issue:")
print(GITHUB+"/issues")
print("https://github.com/AdnanHodzic/auto-cpufreq/issues")
# disable bluetooth on boot
def bluetooth_disable():
if IS_INSTALLED_WITH_SNAP: bluetooth_notif_snap()
if os.getenv("PKG_MARKER") == "SNAP":
bluetooth_notif_snap()
elif bluetoothctl_exists:
print("* Turn off bluetooth on boot (can be turned on any time later on!)")
print("* Turn off bluetooth on boot")
btconf = Path("/etc/bluetooth/main.conf")
try:
orig_set = "AutoEnable=true"
@ -161,12 +165,18 @@ def bluetooth_disable():
f.seek(0)
f.truncate()
f.write(content.replace(orig_set, change_set))
except Exception as e: print(f"\nERROR:\nWas unable to turn off bluetooth on boot\n{repr(e)}")
else: print("* Turn off bluetooth on boot [skipping] (package providing bluetooth access is not present)")
except Exception as e:
print(f"\nERROR:\nWas unable to turn off bluetooth on boot\n{repr(e)}")
else:
print(
"* Turn off bluetooth on boot [skipping] (package providing bluetooth access is not present)"
)
# enable bluetooth on boot
def bluetooth_enable():
if IS_INSTALLED_WITH_SNAP: bluetooth_on_notif_snap()
if os.getenv("PKG_MARKER") == "SNAP":
bluetooth_on_notif_snap()
if bluetoothctl_exists:
print("* Turn on bluetooth on boot")
btconf = "/etc/bluetooth/main.conf"
@ -178,8 +188,13 @@ def bluetooth_enable():
f.seek(0)
f.truncate()
f.write(content.replace(change_set, orig_set))
except Exception as e: print(f"\nERROR:\nWas unable to turn on bluetooth on boot\n{repr(e)}")
else: print("* Turn on bluetooth on boot [skipping] (package providing bluetooth access is not present)")
except Exception as e:
print(f"\nERROR:\nWas unable to turn on bluetooth on boot\n{repr(e)}")
else:
print(
"* Turn on bluetooth on boot [skipping] (package providing bluetooth access is not present)"
)
# turn off bluetooth on snap message
def bluetooth_notif_snap():
@ -187,126 +202,199 @@ def bluetooth_notif_snap():
print("\nSteps to perform this action using auto-cpufreq: power_helper script:")
print("python3 power_helper.py --bluetooth_boot_off")
# turn off bluetooth on snap message
def bluetooth_on_notif_snap():
print("\n* Unable to turn on bluetooth on boot due to Snap package restrictions!")
print("\nSteps to perform this action using auto-cpufreq: power_helper script:")
print("python3 power_helper.py --bluetooth_boot_on")
# gnome power removal reminder
def gnome_power_rm_reminder():
if systemctl_exists and bool(gnome_power_status):
warning()
print("Detected GNOME Power Profiles daemon service is stopped!")
print("This service will now be enabled and started again.\n")
if systemctl_exists:
if gnome_power_status != 0:
print(
"\n----------------------------------- Warning -----------------------------------\n"
)
print("Detected GNOME Power Profiles daemon service is stopped!")
print("This service will now be enabled and started again.")
def gnome_power_rm_reminder_snap():
warning()
print("\n----------------------------------- Warning -----------------------------------\n")
print("Unable to detect state of GNOME Power Profiles daemon service!")
print("Now it's recommended to enable this service.")
print("\nSteps to perform this action using auto-cpufreq: power_helper script:")
print(f"git clone {GITHUB}.git")
print("git clone https://github.com/AdnanHodzic/auto-cpufreq.git")
print("cd auto-cpufreq/auto_cpufreq")
print("python3 power_helper.py --gnome_power_enable")
print(f"\nReference: {GITHUB}#configuring-auto-cpufreq")
def valid_options():
print("--gnome_power_enable\t\tEnable GNOME Power Profiles daemon")
print("--gnome_power_disable\t\tDisable GNOME Power Profiles daemon\n")
def disable_power_profiles_daemon():
# always disable power-profiles-daemon
try:
print("\n* Disabling GNOME power profiles")
call(["systemctl", "disable", "--now", "power-profiles-daemon"])
call(["systemctl", "stop", "power-profiles-daemon"])
call(["systemctl", "disable", "power-profiles-daemon"])
call(["systemctl", "mask", "power-profiles-daemon"])
call(["systemctl", "daemon-reload"])
except:
print("\nUnable to disable GNOME power profiles")
print("If this causes any problems, please submit an issue:")
print(GITHUB+"/issues")
print("https://github.com/AdnanHodzic/auto-cpufreq/issues")
def disable_tuned_daemon():
# always disable TuneD daemon
try:
print("\n* Disabling TuneD daemon")
call(["systemctl", "disable", "--now", "tuned"])
call(["systemctl", "mask", "tuned"])
except:
print("\nUnable to disable TuneD daemon")
print("If this causes any problems, please submit an issue:")
print(GITHUB+"/issues")
# default gnome_power_svc_disable func (balanced)
def gnome_power_svc_disable():
snap_pkg_check = 0
if systemctl_exists:
if bool(gnome_power_status):
try:
# check if snap package installed
snap_pkg_check = call(['snap', 'list', '|', 'grep', 'auto-cpufreq'],
stdout=DEVNULL,
stderr=STDOUT)
# check if snapd is present and if snap package is installed | 0 is success
if not bool(snap_pkg_check):
print("GNOME Power Profiles Daemon is already disabled, it can be re-enabled by running:\n"
"sudo python3 power_helper.py --gnome_power_enable\n"
)
elif snap_pkg_check == 1:
print("auto-cpufreq snap package not installed\nGNOME Power Profiles Daemon should be enabled. run:\n\n"
"sudo python3 power_helper.py --gnome_power_enable"
)
except:
# snapd not found on the system
print("There was a problem, couldn't determine GNOME Power Profiles Daemon")
snap_pkg_check = 0
# set balanced profile if its running before disabling it
if gnome_power_status == 0 and powerprofilesctl_exists:
print("Using profile: ", "balanced")
call(["powerprofilesctl", "set", "balanced"])
if not bool(gnome_power_status) and powerprofilesctl_exists:
if snap_pkg_check == 1:
print("auto-cpufreq snap package not installed.\nGNOME Power Profiles Daemon should be enabled, run:\n\n"
"sudo python3 power_helper.py --gnome_power_enable"
)
else:
print("auto-cpufreq snap package installed, GNOME Power Profiles Daemon should be disabled.\n")
print("Using profile: ", "balanced")
call(["powerprofilesctl", "set", "balanced"])
disable_power_profiles_daemon()
disable_power_profiles_daemon()
# default gnome_power_svc_disable func (performance)
def gnome_power_svc_disable_performance():
if systemctl_exists:
# set performance profile if its running before disabling it
if gnome_power_status == 0 and powerprofilesctl_exists:
print("Using profile: ", "performance")
call(["powerprofilesctl", "set", "performance"])
disable_power_profiles_daemon()
def tuned_svc_disable():
if systemctl_exists and tuned_stat_exists:
disable_tuned_daemon()
# cli
@click.pass_context
# external gnome power srevice disable function
def gnome_power_svc_disable_ext(ctx, power_selection):
raw_power_disable = ctx.params["gnome_power_disable"]
gnome_power_disable = str(raw_power_disable).replace('[','').replace(']','').replace(",", "").replace("(","").replace(")","").replace("'","")
if systemctl_exists:
# 0 is active
if gnome_power_status != 0:
try:
snap_pkg_check = call(['snap', 'list', '|', 'grep', 'auto-cpufreq'],
stdout=subprocess.DEVNULL,
stderr=subprocess.STDOUT)
# check if snapd is present and if snap package is installed | 0 is success
if snap_pkg_check == 0:
print("Power Profiles Daemon is already disabled, re-enable by running:\n"
"sudo python3 power_helper.py --gnome_power_enable\n"
"\nfollowed by running:\n"
"sudo python3 power_helper.py --gnome_power_disable"
)
else:
# snapd present, snap package not installed
print("Power Profiles Daemon is already disabled, first remove auto-cpufreq:\n"
"sudo auto-cpufreq --remove\n"
"\nfollowed by installing auto-cpufreq in performance mode:\n"
"sudo auto-cpufreq --install_performance"
)
except FileNotFoundError:
# snapd not found on the system
print("Power Profiles Daemon is already disabled, first remove auto-cpufreq:\n"
"sudo auto-cpufreq --remove\n"
"\nfollowed by installing auto-cpufreq in performance mode:\n"
"sudo auto-cpufreq --install_performance"
)
# set balanced profile if its running before disabling it
if gnome_power_status == 0 and powerprofilesctl_exists:
# 0 is success (snap package is installed)
try:
snap_pkg_check = call(['snap', 'list', '|', 'grep', 'auto-cpufreq'],
stdout=subprocess.DEVNULL,
stderr=subprocess.STDOUT)
if snap_pkg_check == 0:
#if snap_exist == 0 and snap_pkg_install == 0:
print("Using profile: ", gnome_power_disable)
call(["powerprofilesctl", "set", gnome_power_disable])
disable_power_profiles_daemon()
else:
print("Install auto-cpufreq in performance mode by running:\n"
"sudo auto-cpufreq --install_performance\n"
)
except FileNotFoundError:
print("Install auto-cpufreq in performance mode by running:\n"
"sudo auto-cpufreq --install_performance\n"
)
@click.command()
#@click.option("--gnome_power_disable", help="Disable GNOME Power profiles service (default: balanced), reference:\n https://bit.ly/3bjVZW1", type=click.Choice(['balanced', 'performance'], case_sensitive=False))
@click.option("--gnome_power_disable", is_flag=True, help="Disable GNOME Power profiles service")
@click.option("--gnome_power_disable", help="Disable GNOME Power profiles service (default: balanced)", type=click.Choice(['balanced', 'performance'], case_sensitive=False))
# ToDo:
# * update readme/docs
@click.option("--power_selection", hidden=True)
@click.option("--gnome_power_enable", is_flag=True, help="Enable GNOME Power profiles service")
@click.option("--gnome_power_status", is_flag=True, help="Get status of GNOME Power profiles service")
@click.option("--gnome_power_status", is_flag=True, help="Get status of GNOME Power profiles service"
)
@click.option("--bluetooth_boot_on", is_flag=True, help="Turn on Bluetooth on boot")
@click.option("--bluetooth_boot_off", is_flag=True, help="Turn off Bluetooth on boot")
def main(
power_selection,
gnome_power_enable,
gnome_power_disable,
gnome_power_status,
bluetooth_boot_off,
bluetooth_boot_on,
):
root_check()
header()
if len(argv) == 1: print('Unrecognized option!\n\nRun: "' + app_name + ' --help" for list of available options.')
if len(sys.argv) == 1:
header()
print(
'Unrecognized option!\n\nRun: "' + app_name + ' --help" for list of available options.'
)
footer()
else:
if gnome_power_enable: gnome_power_svc_enable()
elif gnome_power_disable: gnome_power_svc_disable()
elif gnome_power_status: gnome_power_svc_status()
elif bluetooth_boot_off: bluetooth_disable()
elif bluetooth_boot_on: bluetooth_enable()
helper_opts()
if gnome_power_enable:
header()
root_check()
gnome_power_svc_enable()
helper_opts()
footer()
elif gnome_power_disable:
header()
root_check()
gnome_power_svc_disable_ext(power_selection)
helper_opts()
footer()
elif gnome_power_status:
header()
root_check()
gnome_power_svc_status()
helper_opts()
footer()
elif bluetooth_boot_off:
header()
root_check()
bluetooth_disable()
helper_opts()
footer()
elif bluetooth_boot_on:
header()
root_check()
bluetooth_enable()
helper_opts()
footer()
footer()
if __name__ == "__main__": main()
if __name__ == "__main__":
main()

12
auto_cpufreq/tlp_stat_parser.py
View File

@ -6,8 +6,14 @@ class TLPStatusParser:
def _parse(self, data):
for line in data.split("\n"):
key_val = line.split("=", 1)
if len(key_val) > 1: self.data[key_val[0].strip().lower()] = key_val[1].strip()
if len(key_val) > 1:
self.data[key_val[0].strip().lower()] = key_val[1].strip()
def _get_key(self, key): return self.data[key] if key in self.data else ""
def _get_key(self, key):
if key in self.data:
return self.data[key]
else:
return ""
def is_enabled(self): return self._get_key("state") == "enabled"
def is_enabled(self):
return self._get_key("state") == "enabled"

225
bin/auto-cpufreq Executable file
View File

@ -0,0 +1,225 @@
#!/usr/bin/env python3
#
# auto-cpufreq - Automatic CPU speed & power optimizer for Linux
#
# Blog post: https://foolcontrol.org/?p=3124
# core import
import sys
import time
import click
from subprocess import call, run
sys.path.append("../")
from auto_cpufreq.core import *
from auto_cpufreq.power_helper import *
# cli
@click.command()
@click.option("--monitor", is_flag=True, help="Monitor and see suggestions for CPU optimizations")
@click.option("--live", is_flag=True, help="Monitor and make (temp.) suggested CPU optimizations")
@click.option(
"--install/--remove",
default=True,
help="Install/remove daemon for (permanent) automatic CPU optimizations",
)
@click.option("--install_performance", is_flag=True, hidden=True)
@click.option("--stats", is_flag=True, help="View live stats of CPU optimizations made by daemon")
@click.option(
"--config",
is_flag=False,
default="/etc/auto-cpufreq.conf",
help="Use config file at defined path",
)
@click.option("--debug", is_flag=True, help="Show debug info (include when submitting bugs)")
@click.option("--version", is_flag=True, help="Show currently installed version")
@click.option("--donate", is_flag=True, help="Support the project")
@click.option("--log", is_flag=True, hidden=True)
@click.option("--daemon", is_flag=True, hidden=True)
def main(config, daemon, debug, install, install_performance, live, log, monitor, stats, version, donate):
# display info if config file is used
def config_info_dialog():
if get_config(config) and hasattr(get_config, "using_cfg_file"):
print("\nUsing settings defined in " + config + " file")
if len(sys.argv) == 1:
print("\n" + "-" * 32 + " auto-cpufreq " + "-" * 33 + "\n")
print("Automatic CPU speed & power optimizer for Linux")
print("\nExample usage:\nauto-cpufreq --monitor")
print("\n-----\n")
run(["auto-cpufreq", "--help"])
footer()
else:
if daemon:
config_info_dialog()
root_check()
file_stats()
if os.getenv("PKG_MARKER") == "SNAP" and dcheck == "enabled":
gnome_power_detect_snap()
tlp_service_detect_snap()
while True:
footer()
gov_check()
cpufreqctl()
distro_info()
sysinfo()
set_autofreq()
countdown(2)
elif os.getenv("PKG_MARKER") != "SNAP":
gnome_power_detect()
tlp_service_detect()
while True:
footer()
gov_check()
cpufreqctl()
distro_info()
sysinfo()
set_autofreq()
countdown(2)
else:
daemon_not_found()
elif monitor:
config_info_dialog()
root_check()
print('\nNote: You can quit monitor mode by pressing "ctrl+c"')
if os.getenv("PKG_MARKER") == "SNAP":
gnome_power_detect_snap()
tlp_service_detect_snap()
else:
gnome_power_detect()
tlp_service_detect()
while True:
time.sleep(1)
running_daemon()
footer()
gov_check()
cpufreqctl()
distro_info()
sysinfo()
mon_autofreq()
countdown(2)
elif live:
root_check()
config_info_dialog()
print('\nNote: You can quit live mode by pressing "ctrl+c"')
time.sleep(1)
if os.getenv("PKG_MARKER") == "SNAP":
gnome_power_detect_snap()
tlp_service_detect_snap()
else:
gnome_power_detect_install()
gnome_power_stop_live()
tlp_service_detect()
while True:
try:
running_daemon()
footer()
gov_check()
cpufreqctl()
distro_info()
sysinfo()
set_autofreq()
countdown(2)
except KeyboardInterrupt:
gnome_power_start_live()
print("")
sys.exit()
elif stats:
config_info_dialog()
print('\nNote: You can quit stats mode by pressing "ctrl+c"')
if os.getenv("PKG_MARKER") == "SNAP":
gnome_power_detect_snap()
tlp_service_detect_snap()
else:
gnome_power_detect()
tlp_service_detect()
read_stats()
elif log:
deprecated_log_msg()
elif debug:
# ToDo: add status of GNOME Power Profile servie status
config_info_dialog()
root_check()
cpufreqctl()
footer()
distro_info()
sysinfo()
print("")
app_version()
print("")
python_info()
print("")
device_info()
if charging():
print("Battery is: charging")
else:
print("Battery is: discharging")
print("")
app_res_use()
display_load()
get_current_gov()
get_turbo()
footer()
elif version:
footer()
distro_info()
app_version()
footer()
elif donate:
footer()
print("If auto-cpufreq helped you out and you find it useful ...\n")
print("Show your appreciation by donating!")
print("https://github.com/AdnanHodzic/auto-cpufreq/#donate")
footer()
elif install_performance:
if os.getenv("PKG_MARKER") == "SNAP":
root_check()
print("This option is only available on non Snap installs\n"
"Please refer to auto-cpufreq power_helper.py script for more info\n")
else:
root_check()
running_daemon()
gov_check()
deploy_daemon_performance()
deploy_complete_msg()
elif install:
if os.getenv("PKG_MARKER") == "SNAP":
root_check()
running_daemon()
gnome_power_detect_snap()
tlp_service_detect_snap()
bluetooth_notif_snap()
gov_check()
run("snapctl set daemon=enabled", shell=True)
run("snapctl start --enable auto-cpufreq", shell=True)
deploy_complete_msg()
else:
root_check()
running_daemon()
gov_check()
deploy_daemon()
deploy_complete_msg()
elif remove:
if os.getenv("PKG_MARKER") == "SNAP":
root_check()
run("snapctl set daemon=disabled", shell=True)
run("snapctl stop --disable auto-cpufreq", shell=True)
if auto_cpufreq_stats_path.exists():
if auto_cpufreq_stats_file is not None:
auto_cpufreq_stats_file.close()
auto_cpufreq_stats_path.unlink()
# ToDo:
# * undo bluetooth boot disable
gnome_power_rm_reminder_snap()
remove_complete_msg()
else:
root_check()
remove()
remove_complete_msg()
if __name__ == "__main__":
main()

27
flake.lock generated
View File

@ -1,27 +0,0 @@
{
"nodes": {
"nixpkgs": {
"locked": {
"lastModified": 1740547748,
"narHash": "sha256-Ly2fBL1LscV+KyCqPRufUBuiw+zmWrlJzpWOWbahplg=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "3a05eebede89661660945da1f151959900903b6a",
"type": "github"
},
"original": {
"owner": "NixOS",
"ref": "nixpkgs-unstable",
"repo": "nixpkgs",
"type": "github"
}
},
"root": {
"inputs": {
"nixpkgs": "nixpkgs"
}
}
},
"root": "root",
"version": 7
}

24
flake.nix
View File

@ -1,24 +0,0 @@
{
inputs = {
nixpkgs.url = "github:NixOS/nixpkgs/nixpkgs-unstable";
};
outputs = {nixpkgs, ...} @ inputs: let
forAllSystems = nixpkgs.lib.genAttrs ["x86_64-linux" "i686-linux" "aarch64-linux"];
pkgsForEach = nixpkgs.legacyPackages;
in {
packages = forAllSystems (system: {
default = pkgsForEach.${system}.callPackage ./nix/default.nix {};
});
devShells = forAllSystems (system: {
default = pkgsForEach.${system}.callPackage ./nix/shell.nix {};
});
overlays.default = final: _: {
auto-cpufreq = final.callPackage ./nix/default.nix {};
};
nixosModules.default = import ./nix/module.nix inputs;
};
}

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82
nix/default.nix
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@ -1,82 +0,0 @@
{
lib,
python3Packages,
pkgs,
fetchFromGitHub,
fetchPypi,
}:
let
pyinotify = python3Packages.pyinotify.overrideAttrs (oldAttrs: {
src = fetchFromGitHub {
owner = "shadeyg56";
repo = "pyinotify-3.12";
rev = "923cebec3a2a84c7e38c9e68171eb93f5d07ce5d";
hash = "sha256-714CximEK4YhIqDmvqJYOUGs39gvDkWGrkNrXwxT8iM=";
};
patches = [];
});
in
python3Packages.buildPythonPackage {
# use pyproject.toml instead of setup.py
format = "pyproject";
pname = "auto-cpufreq";
version = "2.5.0";
src = ../.;
nativeBuildInputs = with pkgs; [wrapGAppsHook gobject-introspection];
buildInputs = with pkgs; [gtk3 python3Packages.poetry-core];
propagatedBuildInputs = with python3Packages; [requests pygobject3 click distro psutil setuptools poetry-dynamic-versioning pyinotify urwid pyasyncore pkgs.getent];
doCheck = false;
pythonImportsCheck = ["auto_cpufreq"];
patches = [
# patch to prevent script copying and to disable install
./patches/prevent-install-and-copy.patch
];
postPatch = ''
substituteInPlace auto_cpufreq/core.py --replace-fail '/opt/auto-cpufreq/override.pickle' /var/run/override.pickle
substituteInPlace scripts/org.auto-cpufreq.pkexec.policy --replace-fail "/opt/auto-cpufreq/venv/bin/auto-cpufreq" $out/bin/auto-cpufreq
substituteInPlace auto_cpufreq/gui/app.py auto_cpufreq/gui/objects.py --replace-fail "/usr/local/share/auto-cpufreq/images/icon.png" $out/share/pixmaps/auto-cpufreq.png
substituteInPlace auto_cpufreq/gui/app.py --replace-fail "/usr/local/share/auto-cpufreq/scripts/style.css" $out/share/auto-cpufreq/scripts/style.css
'';
postInstall = ''
# copy script manually
cp scripts/cpufreqctl.sh $out/bin/cpufreqctl.auto-cpufreq
# move the css to the right place
mkdir -p $out/share/auto-cpufreq/scripts
cp scripts/style.css $out/share/auto-cpufreq/scripts/style.css
# systemd service
mkdir -p $out/lib/systemd/system
cp scripts/auto-cpufreq.service $out/lib/systemd/system
# desktop icon
mkdir -p $out/share/applications
mkdir $out/share/pixmaps
cp scripts/auto-cpufreq-gtk.desktop $out/share/applications
cp images/icon.png $out/share/pixmaps/auto-cpufreq.png
# polkit policy
mkdir -p $out/share/polkit-1/actions
cp scripts/org.auto-cpufreq.pkexec.policy $out/share/polkit-1/actions
'';
meta = {
homepage = "https://github.com/AdnanHodzic/auto-cpufreq";
description = "Automatic CPU speed & power optimizer for Linux";
license = lib.licenses.lgpl3Plus;
platforms = lib.platforms.linux;
maintainers = with lib.maintainers; [Technical27];
mainProgram = "auto-cpufreq";
};
}

64
nix/module.nix
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@ -1,64 +0,0 @@
inputs: {
config,
lib,
pkgs,
...
}:
let
cfg = config.programs.auto-cpufreq;
inherit (pkgs.stdenv.hostPlatform) system;
defaultPackage = inputs.self.packages.${system}.default;
cfgFilename = "auto-cpufreq.conf";
cfgFile = format.generate cfgFilename cfg.settings;
inherit (lib) types;
inherit (lib.modules) mkIf mkForce;
inherit (lib.options) mkOption mkEnableOption;
format = pkgs.formats.ini {};
in {
options.programs.auto-cpufreq = {
enable = mkEnableOption "Automatic CPU speed & power optimizer for Linux";
settings = mkOption {
description = ''
Configuration for `auto-cpufreq`.
See its [example configuration file] for supported settings.
[example configuration file]: https://github.com/AdnanHodzic/auto-cpufreq/blob/master/auto-cpufreq.conf-example
'';
default = {};
type = types.submodule {freeformType = format.type;};
};
};
config = mkIf cfg.enable {
environment.systemPackages = [ defaultPackage ];
systemd = {
packages = [ defaultPackage ];
services.auto-cpufreq = {
wantedBy = [ "multi-user.target" ];
path = with pkgs; [ bash coreutils ];
overrideStrategy = "asDropin";
serviceConfig.WorkingDirectory = "";
serviceConfig.ExecStart = mkForce [
""
"${defaultPackage}/bin/auto-cpufreq --daemon --config ${cfgFile}"
];
};
};
assertions = [
{
assertion = !config.services.power-profiles-daemon.enable;
message = ''
You have set services.power-profiles-daemon.enable = true;
which conflicts with auto-cpufreq
'';
}
];
};
}

101
nix/patches/prevent-install-and-copy.patch
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@ -1,101 +0,0 @@
diff --git a/auto_cpufreq/core.py b/auto_cpufreq/core.py
index f03e7de..2dff5fb 100755
--- a/auto_cpufreq/core.py
+++ b/auto_cpufreq/core.py
@@ -277,19 +277,12 @@ def get_current_gov():
)
def cpufreqctl():
- """
- deploy cpufreqctl.auto-cpufreq script
- """
- if not (IS_INSTALLED_WITH_SNAP or os.path.isfile("/usr/local/bin/cpufreqctl.auto-cpufreq")):
- copy(SCRIPTS_DIR / "cpufreqctl.sh", "/usr/local/bin/cpufreqctl.auto-cpufreq")
- call(["chmod", "a+x", "/usr/local/bin/cpufreqctl.auto-cpufreq"])
+ # scripts are already in the correct place
+ pass
def cpufreqctl_restore():
- """
- remove cpufreqctl.auto-cpufreq script
- """
- if not IS_INSTALLED_WITH_SNAP and os.path.isfile("/usr/local/bin/cpufreqctl.auto-cpufreq"):
- os.remove("/usr/local/bin/cpufreqctl.auto-cpufreq")
+ #no need to restore
+ pass
def footer(l=79): print("\n" + "-" * l + "\n")
@@ -307,31 +300,8 @@ def remove_complete_msg():
footer()
def deploy_daemon():
- print("\n" + "-" * 21 + " Deploying auto-cpufreq as a daemon " + "-" * 22 + "\n")
-
- cpufreqctl() # deploy cpufreqctl script func call
-
- bluetooth_disable() # turn off bluetooth on boot
-
- auto_cpufreq_stats_path.touch(exist_ok=True)
-
- print("\n* Deploy auto-cpufreq install script")
- copy(SCRIPTS_DIR / "auto-cpufreq-install.sh", "/usr/local/bin/auto-cpufreq-install")
- call(["chmod", "a+x", "/usr/local/bin/auto-cpufreq-install"])
-
- print("\n* Deploy auto-cpufreq remove script")
- copy(SCRIPTS_DIR / "auto-cpufreq-remove.sh", "/usr/local/bin/auto-cpufreq-remove")
- call(["chmod", "a+x", "/usr/local/bin/auto-cpufreq-remove"])
-
- # output warning if gnome power profile is running
- gnome_power_detect_install()
- gnome_power_svc_disable()
-
- tuned_svc_disable()
-
- tlp_service_detect() # output warning if TLP service is detected
-
- call("/usr/local/bin/auto-cpufreq-install", shell=True)
+ # prevent needless copying and system changes
+ pass
def deploy_daemon_performance():
print("\n" + "-" * 21 + " Deploying auto-cpufreq as a daemon (performance) " + "-" * 22 + "\n")
@@ -363,37 +333,7 @@ def deploy_daemon_performance():
call("/usr/local/bin/auto-cpufreq-install", shell=True)
-def remove_daemon():
- # check if auto-cpufreq is installed
- if not os.path.exists("/usr/local/bin/auto-cpufreq-remove"):
- print("\nauto-cpufreq daemon is not installed.\n")
- sys.exit(1)
-
- print("\n" + "-" * 21 + " Removing auto-cpufreq daemon " + "-" * 22 + "\n")
-
- bluetooth_enable() # turn on bluetooth on boot
-
- # output warning if gnome power profile is stopped
- gnome_power_rm_reminder()
- gnome_power_svc_enable()
-
- tuned_svc_enable()
-
- # run auto-cpufreq daemon remove script
- call("/usr/local/bin/auto-cpufreq-remove", shell=True)
-
- # remove auto-cpufreq-remove
- os.remove("/usr/local/bin/auto-cpufreq-remove")
-
- # delete override pickle if it exists
- if os.path.exists(governor_override_state): os.remove(governor_override_state)
-
- # delete stats file
- if auto_cpufreq_stats_path.exists():
- if auto_cpufreq_stats_file is not None: auto_cpufreq_stats_file.close()
- auto_cpufreq_stats_path.unlink()
-
- cpufreqctl_restore() # restore original cpufrectl script
+def remove_daemon(): pass
def gov_check():
for gov in AVAILABLE_GOVERNORS:

15
nix/shell.nix
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@ -1,15 +0,0 @@
{
python3Packages,
pkgs,
...
}: let
mainPkg = python3Packages.callPackage ./default.nix {};
in
mainPkg.overrideAttrs (oa: {
nativeBuildInputs =
[
python3Packages.pip
pkgs.poetry
]
++ (oa.nativeBuildInputs or []);
})

1332
poetry.lock generated
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52
pyproject.toml
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@ -1,52 +0,0 @@
[tool.poetry]
name = "auto-cpufreq"
version = "2.5.0"
description = "Automatic CPU speed & power optimizer for Linux"
authors = ["Adnan Hodzic <adnan@hodzic.org>"]
license = "GPL-3.0-or-later"
readme = "README.md"
classifiers=[
"Development Status :: 5 - Production/Stable",
"Intended Audience :: Developers",
"Operating System :: POSIX :: Linux",
"Environment :: Console",
"Natural Language :: English"
]
keywords=["linux", "cpu", "speed", "power", "frequency", "turbo", "optimzier", "auto", "cpufreq"]
repository = "https://github.com/AdnanHodzic/auto-cpufreq"
documentation = "https://github.com/AdnanHodzic/auto-cpufreq#readme"
packages = [
{ include = "./auto_cpufreq" },
{ include = "./auto_cpufreq/gui" },
]
[tool.poetry.dependencies]
python = ">=3.9, <4.0"
psutil = ">=6.0.0,<8.0.0"
click = "^8.1.0"
distro = "^1.8.0"
requests = "^2.32.3"
PyGObject = {version="3.50.0", optional=true}
urwid = "^2.6.16"
pyinotify = {git = "https://github.com/shadeyg56/pyinotify-3.12"}
pyasyncore = "^1.0.4"
[tool.poetry.group.dev.dependencies]
poetry = "^1.6.1"
[build-system]
requires = ["poetry-core>=1.0.0", "poetry-dynamic-versioning>=1.0.0,<2.0.0"]
build-backend = "poetry_dynamic_versioning.backend"
[tool.poetry.scripts]
auto-cpufreq = "auto_cpufreq.bin.auto_cpufreq:main"
auto-cpufreq-gtk = "auto_cpufreq.bin.auto_cpufreq_gtk:main"
# https://github.com/mtkennerly/poetry-dynamic-versioning
[tool.poetry-dynamic-versioning]
enable = true
vcs = "git"
format = "v{base}+{commit}"
# SideNote
# Regarding zip_safe = https://setuptools.pypa.io/en/latest/deprecated/zip_safe.html

4
requirements.txt Normal file
View File

@ -0,0 +1,4 @@
setuptools
psutil
click
distro

3
scripts/auto-cpufreq-dinit
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@ -1,3 +0,0 @@
type = scripted
command = /usr/local/bin/auto-cpufreq --daemon
run-as = root

8
scripts/auto-cpufreq-gtk.desktop
View File

@ -1,8 +0,0 @@
[Desktop Entry]
Name=auto-cpufreq
Exec=auto-cpufreq-gtk
Type=Application
Terminal=false
Icon=auto-cpufreq
StartupWMClass=app.py
Categories=System;

145
scripts/auto-cpufreq-install.sh
View File

@ -1,96 +1,85 @@
#!/usr/bin/env bash
#!/bin/bash
#
# auto-cpufreq daemon install script
# reference: https://github.com/AdnanHodzic/auto-cpufreq
# Thanks to https://github.com/errornonamer for openrc fix
echo -e "\n------------------ Running auto-cpufreq daemon install script ------------------"
MID="$((`tput cols` / 2))"
echo
printf "%0.s─" $(seq $(( (MID-(${#1}/2)-2) / 2 )))
printf " Running auto-cpufreq daemon install script "
printf "%0.s─" $(seq $(( (MID-(${#1}/2)-2) / 2 )))
echo; echo
# root check
if ((EUID != 0)); then
echo; echo "Must be run as root (i.e: 'sudo $0')."; echo
exit 1
if [[ $EUID != 0 ]];
then
echo -e "\nERROR\nMust be run as root (i.e: 'sudo $0')\n"
exit 1
fi
# First argument is the init name, second argument is the start command, third argument is the enable command
function auto_cpufreq_install {
echo -e "\n* Starting auto-cpufreq daemon ($1) service"
$2
echo -e "\n* Enabling auto-cpufreq daemon ($1) at boot"
$3
# First argument is the "sv" path, second argument is the "service" path this
# only exist because the path between distros may vary
runit_ln() {
echo -e "\n* Deploy auto-cpufreq runit unit file"
mkdir "$1"/sv/auto-cpufreq
cp /usr/local/share/auto-cpufreq/scripts/auto-cpufreq-runit "$1"/sv/auto-cpufreq/run
chmod +x "$1"/sv/auto-cpufreq/run
echo -e "\n* Creating symbolic link ($2/service/auto-cpufreq -> $1/sv/auto-cpufreq)"
ln -s "$1"/sv/auto-cpufreq "$2"/service
}
case "$(ps h -o comm 1)" in
dinit)
echo -e "\n* Deploying auto-cpufreq (dinit) unit file"
cp /usr/local/share/auto-cpufreq/scripts/auto-cpufreq-dinit /etc/dinit.d/auto-cpufreq
# sv commands
sv_cmd() {
echo -e "\n* Stopping auto-cpufreq daemon (runit) service"
sv stop auto-cpufreq
echo -e "\n* Starting auto-cpufreq daemon (runit) service"
sv start auto-cpufreq
sv up auto-cpufreq
}
auto_cpufreq_install "dinit" "dinitctl start auto-cpufreq" "dinitctl enable auto-cpufreq"
;;
init)
echo -e "\n* Deploying auto-cpufreq openrc unit file"
cp /usr/local/share/auto-cpufreq/scripts/auto-cpufreq-openrc /etc/init.d/auto-cpufreq
chmod +x /etc/init.d/auto-cpufreq
auto_cpufreq_install "openrc" "rc-service auto-cpufreq start" "rc-update add auto-cpufreq"
;;
runit)
# First argument is the "sv" path, second argument is the "service" path
runit_ln() {
echo -e "\n* Deploying auto-cpufreq (runit) unit file"
mkdir "$1"/sv/auto-cpufreq
cp /usr/local/share/auto-cpufreq/scripts/auto-cpufreq-runit "$1"/sv/auto-cpufreq/run
chmod +x "$1"/sv/auto-cpufreq/run
echo -e "\n* Creating symbolic link ($2/service/auto-cpufreq -> $1/sv/auto-cpufreq)"
ln -s "$1"/sv/auto-cpufreq "$2"/service
auto_cpufreq_install "runit"
sv start auto-cpufreq
sv up auto-cpufreq
}
if [ -f /etc/os-release ];then
eval "$(cat /etc/os-release)"
case $ID in
void) runit_ln /etc /var;;
artix) runit_ln /etc/runit /run/runit;;
*)
echo -e "\n* Runit init detected but your distro is not supported\n"
echo -e "\n* Please open an issue on https://github.com/AdnanHodzic/auto-cpufreq\n"
esac
fi
;;
systemd)
echo -e "Deploying auto-cpufreq systemd unit file"
# Installation for runit, we still look for the distro because of the path may
# vary.
if [ "$(ps h -o comm 1)" = "runit" ];then
if [ -f /etc/os-release ];then
eval "$(cat /etc/os-release)"
case $ID in
void)
runit_ln /etc /var
sv_cmd
;;
artix)
# Note: Artix supports other inits than runnit
runit_ln /etc/runit /run/runit
sv_cmd
;;
*)
echo -e "\n* Runit init detected but your distro is not supported\n"
echo -e "\n* Please open an issue on https://github.com/AdnanHodzic/auto-cpufreq\n"
esac
fi
# Install script for systemd
elif [ "$(ps h -o comm 1)" = "systemd" ];then
echo -e "\n* Deploy auto-cpufreq systemd unit file"
cp /usr/local/share/auto-cpufreq/scripts/auto-cpufreq.service /etc/systemd/system/auto-cpufreq.service
echo -e "\n* Reloading systemd manager configuration"
systemctl daemon-reload
auto_cpufreq_install "systemd" "systemctl start auto-cpufreq" "systemctl enable auto-cpufreq"
;;
s6-svscan)
echo -e "\n* Deploying auto-cpufreq (s6) unit file"
cp -r /usr/local/share/auto-cpufreq/scripts/auto-cpufreq-s6 /etc/s6/sv/auto-cpufreq
echo -e "\n* Stopping auto-cpufreq daemon (systemd) service"
systemctl stop auto-cpufreq
echo -e "\n* Add auto-cpufreq service (s6) to default bundle"
s6-service add default auto-cpufreq
echo -e "\n* Starting auto-cpufreq daemon (systemd) service"
systemctl start auto-cpufreq
auto_cpufreq_install "s6" "s6-rc -u change auto-cpufreq default"
echo -e "\n* Enabling auto-cpufreq daemon (systemd) service at boot"
systemctl enable auto-cpufreq
# Install script for openrc
elif [ "$(ps h -o comm 1)" = "init" ];then
echo -e "\n* Deploying auto-cpufreq openrc unit file"
cp /usr/local/share/auto-cpufreq/scripts/auto-cpufreq-openrc /etc/init.d/auto-cpufreq
chmod +x /etc/init.d/auto-cpufreq
echo -e "\n* Update daemon service bundle (s6)"
s6-db-reload
;;
*)
echo -e "\n* Unsupported init system detected, could not install the daemon\n"
echo -e "\n* Please open an issue on https://github.com/AdnanHodzic/auto-cpufreq\n"
;;
esac
echo -e "Starting auto-cpufreq daemon (openrc) service"
rc-service auto-cpufreq start
echo -e "\n* Enabling auto-cpufreq daemon (openrc) service at boot"
rc-update add auto-cpufreq
else
echo -e "\n* Unsupported init system detected, could not install the daemon\n"
echo -e "\n* Please open an issue on https://github.com/AdnanHodzic/auto-cpufreq\n"
fi

104
scripts/auto-cpufreq-remove.sh
View File

@ -4,68 +4,64 @@
# reference: https://github.com/AdnanHodzic/auto-cpufreq
# Thanks to https://github.com/errornonamer for openrc fix
MID="$((`tput cols` / 2))"
echo -e "\n------------------ Running auto-cpufreq daemon removal script ------------------"
echo
printf "%0.s─" $(seq $(( (MID-(${#1}/2)-2) / 2 )))
printf " Running auto-cpufreq daemon removal script "
printf "%0.s─" $(seq $(( (MID-(${#1}/2)-2) / 2 )))
echo; echo
# root check
if ((EUID != 0)); then
echo; echo "Must be run as root (i.e: 'sudo $0')."; echo
exit 1
if [[ $EUID != 0 ]]; then
echo -e "\nERROR\nMust be run as root (i.e: 'sudo $0')\n"
exit 1
fi
# First argument is the init name, second argument is the stop command, third argument is the disable command and the fourth is the "service" path
function auto_cpufreq_remove {
echo -e "\n* Stopping auto-cpufreq daemon ($1) service"
$2
echo -e "\n* Disabling auto-cpufreq daemon ($1) at boot"
$3
echo -e "\n* Removing auto-cpufreq daemon ($1) unit file"
rm $4
# First argument is the "sv" path, second argument is the "service" path
rm_sv() {
echo -e "\n* Stopping auto-cpufreq daemon (runit) service"
sv stop auto-cpufreq
echo -e "\n* Removing auto-cpufreq daemon (runit) unit files"
rm -rf "$1"/sv/auto-cpufreq
rm -rf "$2"/service/auto-cpufreq
}
case "$(ps h -o comm 1)" in
dinit) auto_cpufreq_remove "dinit" "dinitctl stop auto-cpufreq" "dinitctl disable auto-cpufreq" "/etc/dinit.d/auto-cpufreq";;
init) auto_cpufreq_remove "openrc" "rc-service auto-cpufreq stop" "rc-update del auto-cpufreq" "/etc/init.d/auto-cpufreq";;
runit)
# First argument is the "sv" path, second argument is the "service" path
rm_sv() {
auto_cpufreq_remove "runit" "sv stop auto-cpufreq" "" "-rf $1/sv/auto-cpufreq $2/service/auto-cpufreq"
}
# Remove service for runit
if [ "$(ps h -o comm 1)" = "runit" ];then
if [ -f /etc/os-release ];then
eval "$(cat /etc/os-release)"
case $ID in
void)
rm_sv /etc /var ;;
artix)
rm_sv /etc/runit /run/runit ;;
*)
echo -e "\n* Runit init detected but your distro is not supported\n"
echo -e "\n* Please open an issue on https://github.com/AdnanHodzic/auto-cpufreq\n"
if [ -f /etc/os-release ]; then
. /etc/os-release
case $ID in
void) rm_sv /etc /var;;
artix) rm_sv /etc/runit /run/runit;;
*)
echo -e "\n* Runit init detected but your distro is not supported\n"
echo -e "\n* Please open an issue on https://github.com/AdnanHodzic/auto-cpufreq\n"
;;
esac
fi
;;
systemd)
auto_cpufreq_remove "systemd" "systemctl stop auto-cpufreq" "systemctl disable auto-cpufreq" "/etc/systemd/system/auto-cpufreq.service"
esac
fi
# Remove service for systemd
elif [ "$(ps h -o comm 1)" = "systemd" ];then
echo -e "\n* Stopping auto-cpufreq daemon (systemd) service"
systemctl stop auto-cpufreq
echo -e "\n* Disabling auto-cpufreq daemon (systemd) at boot"
systemctl disable auto-cpufreq
echo -e "\n* Removing auto-cpufreq daemon (systemd) unit file"
rm /etc/systemd/system/auto-cpufreq.service
echo -e "\n* Reloading systemd manager configuration"
systemctl daemon-reload
echo "reset failed"
echo -e "reset failed"
systemctl reset-failed
;;
s6-svscan)
auto_cpufreq_remove "s6" "" "s6-service delete default auto-cpufreq" "-rf /etc/s6/sv/auto-cpufreq"
echo -e "\n* Update daemon service bundle (s6)"
s6-db-reload
;;
*)
echo -e "\n* Unsupported init system detected, could not remove the daemon"
echo -e "\n* Please open an issue on https://github.com/AdnanHodzic/auto-cpufreq\n"
;;
esac
elif [ "$(ps h -o comm 1)" = "init" ];then
echo -e "\n* Stopping auto-cpufreq daemon (openrc) service"
rc-service auto-cpufreq stop
echo -e "\n* Disabling auto-cpufreq daemon (openrc) at boot"
rc-update del auto-cpufreq
echo -e "\n* Removing auto-cpufreq daemon (openrc) unit file"
rm /etc/init.d/auto-cpufreq
else
echo -e "\n* Unsupported init system detected, could not remove the daemon\n"
echo -e "\n* Please open an issue on https://github.com/AdnanHodzic/auto-cpufreq\n"
fi

3
scripts/auto-cpufreq-runit
View File

@ -1,3 +1,2 @@
#!/bin/bash
export PATH="$PATH:/usr/local/bin"
#!/bin/sh
exec /usr/local/bin/auto-cpufreq --daemon

4
scripts/auto-cpufreq-s6/run
View File

@ -1,4 +0,0 @@
#!/bin/sh
exec /usr/local/bin/auto-cpufreq --daemon

1
scripts/auto-cpufreq-s6/type
View File

@ -1 +0,0 @@
longrun

35
scripts/auto-cpufreq-venv-wrapper
View File

@ -1,17 +1,34 @@
#!/bin/bash
#!/bin/sh
# Wrapper script around auto-cpufreq using the python virtual environment
set -eu
# get script name
PROGNAME=$(basename "${0}")
# bailout function
err_exit() {
echo "$(basename $0): ${1:-wrong invocation. try --help for help.}" 1>&2
exit 1
err_exit()
{
echo "${PROGNAME}: ${1:-wrong invocation. try --help for help.}" 1>&2
exit 1
}
# load python virtual environment
opt_path=/opt/auto-cpufreq
venv_bin_dir=$opt_path/venv/bin
. "$venv_bin_dir/activate"
# invocation handling
#
param=""
if [ "${#}" -ne 1 ];
then
err_exit
else
param="${1}"
fi
PYTHONPATH=$opt_path $venv_bin_dir/python $venv_bin_dir/auto-cpufreq "$@"
# load python virtual environment
venv_dir=/opt/auto-cpufreq/venv
. "${venv_dir}/bin/activate"
# run python code with venv loaded
PYTHONPATH=/opt/auto-cpufreq \
/opt/auto-cpufreq/venv/bin/python \
/opt/auto-cpufreq/venv/bin/auto-cpufreq \
"${param}"

1
scripts/auto-cpufreq.service
View File

@ -1,5 +1,6 @@
[Unit]
Description=auto-cpufreq - Automatic CPU speed & power optimizer for Linux
After=network.target network-online.target
[Service]
Type=simple

666
scripts/cpufreqctl.sh
View File

@ -1,104 +1,105 @@
#!/usr/bin/env bash
VERSION='20'
cpucount=`cat /proc/cpuinfo | grep processor | wc -l`
cpucount=`cat /proc/cpuinfo|grep processor|wc -l`
FLROOT=/sys/devices/system/cpu
FWROOT=/sys/firmware
DRIVER=auto
VERBOSE=0
## parse special options
for i in "$@"; do
case $i in
-v|--verbose)
VERBOSE=1
shift
;;
-s=*|--set=*)
VALUE="${i#*=}"
shift
;;
-c=*|--core=*)
CORE="${i#*=}"
shift
;;
-a|--available)
AVAILABLE=1
shift
;;
-*)
OPTION=$i
shift
;;
*) exit 1;;
esac
for i in "$@"
do
case $i in
-v|--verbose)
VERBOSE=1
shift
;;
--set=*)
VALUE="${i#*=}"
shift
;;
-c=*|--core=*)
CORE="${i#*=}"
shift
;;
--available)
AVAILABLE=1
shift
;;
-*)
OPTION=$i
shift
;;
*) # unknown
;;
esac
done
function help () {
echo "Package version: "$VERSION
echo "Usage: cpufreqctl [OPTION[=VALUE]...]"
echo
echo " -h, --help Show help options"
echo " --version Package version"
echo " -v, --verbose Verbose output"
echo
echo " -s, --set =VALUE Set VALUE for selected option"
echo " -c, --core =NUMBER Apply selected option just for the core NUMBER (0 ~ N - 1)"
echo " -a, --available Get available values instand of default: current"
echo
echo " -d, --driver Current processor driver"
echo " -g, --governor Scaling governor's options"
echo " -e, --epp Governor's energy_performance_preference options"
echo " -f, --frequency Frequency options"
echo " --on Turn on --core=NUMBER"
echo " --off Turn off --core=NUMBER"
echo " --frequency-min Minimal frequency options"
echo " --frequency-max Maximum frequency options"
echo " --frequency-min-limit Get minimal frequency limit"
echo " --frequency-max-limit Get maximum frequency limit"
echo " -b, --boost Current cpu boost value"
echo
echo "Usage:"
echo " cpufreqctl [OPTION[=VALUE]...]"
echo ""
echo " --help Show help options"
echo " --version Package version"
echo " --verbose, -v Verbose output"
echo ""
echo " --set=VALUE Set VALUE for selected option"
echo " --core=NUMBER Apply selected option just for the core NUMBER (0 ~ N - 1)"
echo " --available Get available values instand of default: current"
echo ""
echo " --driver Current processor driver"
echo " --governor Scaling governor's options"
echo " --epp Governor's energy_performance_preference options"
echo " --frequency Frequency options"
echo " --on Turn on --core=NUMBER"
echo " --off Turn off --core=NUMBER"
echo " --frequency-min Minimal frequency options"
echo " --frequency-max Maximum frequency options"
echo " --frequency-min-limit Get minimal frequency limit"
echo " --frequency-max-limit Get maximum frequency limit"
echo " --boost Current cpu boost value"
echo ""
echo "intel_pstate options"
echo " --no-turbo Current no_turbo value"
echo " --min-perf Current min_perf_pct options"
echo " --max-perf Current max_perf_pct options"
echo
echo " --no-turbo Current no_turbo value"
echo " --min-perf Current min_perf_pct options"
echo " --max-perf Current max_perf_pct options"
echo ""
echo "Events options"
echo " --throttle Get thermal throttle counter"
echo " --throttle-event Get kernel thermal throttle events counter"
echo " --irqbalance Get irqbalance presence"
echo " --throttle Get thermal throttle counter"
echo " --throttle-event Get kernel thermal throttle events counter"
echo " --irqbalance Get irqbalance presence"
}
function info () {
echo "CPU driver: "`driver`
echo "Governors: "`cat $FLROOT/cpu0/cpufreq/scaling_available_governors`
echo "Frequencies: "`cat $FLROOT/cpu0/cpufreq/scaling_available_frequencies`
echo
echo "Governors: "`cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_governors`
echo "Frequencies: "`cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies`
echo ""
echo "Usage:"
echo "## list scaling governors:"
echo "cpufreqctl --governor"
echo
echo ""
echo "## Set all active cpu cores to the 'performance' scaling governor:"
echo "cpufreqctl --governor --set=performance"
echo
echo ""
echo "## Set 'performance' scaling governor for the selected core:"
echo "cpufreqctl --governor --set=performance --core=0"
echo
echo ""
echo "Use --help argument to see available options"
}
verbose () {
if [ $VERBOSE = 1 ]; then echo $1; fi
if [ $VERBOSE = 1 ]
then
echo $1
fi
}
function driver () {
cat $FLROOT/cpu0/cpufreq/scaling_driver
}
function write_value () {
if [ -w $FLNM ]; then echo $VALUE > $FLNM; fi
}
function set_driver () {
DRIVER=`driver`
case $DRIVER in
@ -112,339 +113,376 @@ function get_governor () {
then
i=0
ag=''
while [ $i -ne $cpucount ]; do
if [ $i = 0 ]; then ag=`cat $FLROOT/cpu0/cpufreq/scaling_governor`
else ag=$ag' '`cat $FLROOT/cpu$i/cpufreq/scaling_governor`
while [ $i -ne $cpucount ]
do
if [ $i = 0 ]
then
ag=`cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor`
else
ag=$ag' '`cat /sys/devices/system/cpu/cpu$i/cpufreq/scaling_governor`
fi
i=`expr $i + 1`
done
echo $ag
else cat $FLROOT/cpu$CORE/cpufreq/scaling_governor
else
cat /sys/devices/system/cpu/cpu$CORE/cpufreq/scaling_governor
fi
}
function set_governor () {
if [ -z $CORE ]; then
if [ -z $CORE ]
then
i=0
while [ $i -ne $cpucount ]; do
while [ $i -ne $cpucount ]
do
FLNM="$FLROOT/cpu"$i"/cpufreq/scaling_governor"
write_value
echo $VALUE > $FLNM
i=`expr $i + 1`
done
else echo $VALUE > $FLROOT/cpu$CORE/cpufreq/scaling_governor
else
echo $VALUE > /sys/devices/system/cpu/cpu$CORE/cpufreq/scaling_governor
fi
}
function get_frequency () {
if [ -z $CORE ]; then
if [ -z $CORE ]
then
i=0
V=0
M=$(cat "$FLROOT/cpu0/cpufreq/scaling_cur_freq")
while [ $i -ne $cpucount ]; do
V=$(cat "$FLROOT/cpu"$i"/cpufreq/scaling_cur_freq")
if [[ $V > $M ]]; then M=$V; fi
M=$(cat "/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq")
while [ $i -ne $cpucount ]
do
V=$(cat "/sys/devices/system/cpu/cpu"$i"/cpufreq/scaling_cur_freq")
if [[ $V > $M ]]
then
M=$V
fi
i=`expr $i + 1`
done
echo "$M"
else cat $FLROOT/cpu$CORE/cpufreq/scaling_cur_freq
else
cat /sys/devices/system/cpu/cpu$CORE/cpufreq/scaling_cur_freq
fi
}
function set_frequency () {
set_driver
if [ $DRIVER = 'pstate' ]; then
echo "Unavailable function for intel_pstate"
if [ $DRIVER = 'pstate']
then
echo "Unavaible function for intel_pstate"
return
fi
if [ -z $CORE ]; then
if [ -z $CORE ]
then
i=0
while [ $i -ne $cpucount ]; do
while [ $i -ne $cpucount ]
do
FLNM="$FLROOT/cpu"$i"/cpufreq/scaling_setspeed"
write_value
echo $VALUE > $FLNM
i=`expr $i + 1`
done
else echo $VALUE > $FLROOT/cpu$CORE/cpufreq/scaling_setspeed
else
echo $VALUE > /sys/devices/system/cpu/cpu$CORE/cpufreq/scaling_setspeed
fi
}
function get_frequency_min () {
if [ -z $CORE ]; then CORE=0; fi
cat $FLROOT/cpu$CORE/cpufreq/scaling_min_freq
if [ -z $CORE ]
then
CORE=0
fi
cat /sys/devices/system/cpu/cpu$CORE/cpufreq/scaling_min_freq
}
function set_frequency_min () {
if [ -z $CORE ]; then
if [ -z $CORE ]
then
i=0
while [ $i -ne $cpucount ]; do
while [ $i -ne $cpucount ]
do
FLNM="$FLROOT/cpu"$i"/cpufreq/scaling_min_freq"
write_value
echo $VALUE > $FLNM
i=`expr $i + 1`
done
else echo $VALUE > $FLROOT/cpu$CORE/cpufreq/scaling_min_freq
else
echo $VALUE > /sys/devices/system/cpu/cpu$CORE/cpufreq/scaling_min_freq
fi
}
function get_frequency_max () {
if [ -z $CORE ]; then CORE=0; fi
cat $FLROOT/cpu$CORE/cpufreq/scaling_max_freq
if [ -z $CORE ]
then
CORE=0
fi
cat /sys/devices/system/cpu/cpu$CORE/cpufreq/scaling_max_freq
}
function set_frequency_max () {
if [ -z $CORE ]; then
if [ -z $CORE ]
then
i=0
while [ $i -ne $cpucount ]; do
while [ $i -ne $cpucount ]
do
FLNM="$FLROOT/cpu"$i"/cpufreq/scaling_max_freq"
write_value
echo $VALUE > $FLNM
i=`expr $i + 1`
done
else echo $VALUE > $FLROOT/cpu$CORE/cpufreq/scaling_max_freq
else
echo $VALUE > /sys/devices/system/cpu/cpu$CORE/cpufreq/scaling_max_freq
fi
}
function get_frequency_min_limit () {
if [ -z $CORE ]; then CORE=0; fi
cat $FLROOT/cpu$CORE/cpufreq/cpuinfo_min_freq
if [ -z $CORE ]
then
CORE=0
fi
cat /sys/devices/system/cpu/cpu$CORE/cpufreq/cpuinfo_min_freq
}
function get_frequency_max_limit () {
if [ -z $CORE ]; then CORE=0; fi
cat $FLROOT/cpu$CORE/cpufreq/cpuinfo_max_freq
if [ -z $CORE ]
then
CORE=0
fi
cat /sys/devices/system/cpu/cpu$CORE/cpufreq/cpuinfo_max_freq
}
function get_energy_performance_preference () {
if [ -z $CORE ]; then
if [ -z $CORE ]
then
i=0
ag=''
while [ $i -ne $cpucount ]; do
if [ $i = 0 ]; then
ag=`cat $FLROOT/cpu0/cpufreq/energy_performance_preference`
while [ $i -ne $cpucount ]
do
if [ $i = 0 ]
then
ag=`cat /sys/devices/system/cpu/cpu0/cpufreq/energy_performance_preference`
else
ag=$ag' '`cat $FLROOT/cpu$i/cpufreq/energy_performance_preference`
ag=$ag' '`cat /sys/devices/system/cpu/cpu$i/cpufreq/energy_performance_preference`
fi
i=`expr $i + 1`
done
echo $ag
else cat $FLROOT/cpu$CORE/cpufreq/energy_performance_preference
else
cat /sys/devices/system/cpu/cpu$CORE/cpufreq/energy_performance_preference
fi
}
function set_energy_performance_preference () {
if [ -z $CORE ]; then
if [ -z $CORE ]
then
i=0
while [ $i -ne $cpucount ]; do
while [ $i -ne $cpucount ]
do
FLNM="$FLROOT/cpu"$i"/cpufreq/energy_performance_preference"
write_value
echo $VALUE > $FLNM
i=`expr $i + 1`
done
else echo $VALUE > $FLROOT/cpu$CORE/cpufreq/energy_performance_preference
fi
}
function get_energy_performance_bias () {
if [ -z $CORE ]; then
i=0
ag=''
while [ $i -ne $cpucount ]; do
if [ $i = 0 ]; then
ag=`cat $FLROOT/cpu0/power/energy_perf_bias`
else
ag=$ag' '`cat $FLROOT/cpu$i/power/energy_perf_bias`
fi
i=`expr $i + 1`
done
echo $ag
else cat $FLROOT/cpu$CORE/power/energy_perf_bias
fi
}
function set_energy_performance_bias () {
if [ `driver` != 'intel_pstate' ]; then
verbose "EPB is not supported by a driver other than intel_pstate"
return
fi
local EPB_VALUE=6 # default value
if [[ "$VALUE" =~ ^[0-9]+$ && $VALUE -ge 0 && $VALUE -le 15 ]]; then
EPB_VALUE=$VALUE
else
case $VALUE in
performance) EPB_VALUE=0;;
balance_performance) EPB_VALUE=4;;
default) EPB_VALUE=6;;
balance_power) EPB_VALUE=8;;
power) EPB_VALUE=15;;
*)
verbose "Invalid value provided for EPB"
verbose "Acceptable values: performance|balance-power|default|balance-power|power or a number in the range [0-15]"
return
;;
esac
fi
if [ -z $CORE ]; then
i=0
while [ $i -ne $cpucount ]; do
FLNM="$FLROOT/cpu"$i"/power/energy_perf_bias"
if [ -w $FLNM ]; then echo $EPB_VALUE > $FLNM; fi
i=`expr $i + 1`
done
else echo $EPB_VALUE > $FLROOT/cpu$CORE/power/energy_perf_bias
echo $VALUE > /sys/devices/system/cpu/cpu$CORE/cpufreq/energy_performance_preference
fi
}
case $OPTION in
-h|--help) help;;
--version) echo $VERSION;;
-d|--driver) driver;;
-g|--governor)
if [ ! -z $AVAILABLE ]; then cat $FLROOT/cpu0/cpufreq/scaling_available_governors
elif [ -z $VALUE ]; then
verbose "Getting CPU"$CORE" governors"
get_governor
else
verbose "Setting CPU"$CORE" governors to "$VALUE
set_governor
fi
;;
-e|--epp)
if [ ! -z $AVAILABLE ]; then cat $FLROOT/cpu0/cpufreq/energy_performance_available_preferences
elif [ -z $VALUE ]; then
verbose "Getting CPU"$CORE" EPPs"
get_energy_performance_preference
else
verbose "Setting CPU"$CORE" EPPs to "$VALUE
set_energy_performance_preference
fi
;;
--epb)
if [ ! -z $AVAILABLE ]; then cat $FLROOT/cpu0/power/energy_perf_bias
elif [ -z $VALUE ]; then
verbose "Getting CPU"$CORE" EPBs"
get_energy_performance_bias
else
verbose "Setting CPU"$CORE" EPBs to "$VALUE
set_energy_performance_bias
fi
;;
-p|--pp)
if [ ! -z $AVAILABLE ]; then cat $FWROOT/acpi/platform_profile_choices
elif [ -z $VALUE ]; then
verbose "Getting Platform Profile"
cat $FWROOT/acpi/platform_profile
else
verbose "Getting Platform Profile to "$VALUE
echo $VALUE > $FWROOT/acpi/platform_profile
fi
;;
-f|--frequency)
if [ ! -z $AVAILABLE ]; then cat $FLROOT/cpu0/cpufreq/scaling_available_frequencies
elif [ -z $VALUE ]; then
verbose "Getting CPU"$CORE" frequency"
get_frequency
else
verbose "Setting CPU"$CORE" frequency to "$VALUE
set_frequency
fi
;;
--no-turbo)
if [ -z $VALUE ]; then
verbose "Getting no_turbo value"
cat $FLROOT/intel_pstate/no_turbo
else
verbose "Setting no_turbo value "$VALUE
echo $VALUE > $FLROOT/intel_pstate/no_turbo
fi
;;
-b|--boost)
if [ -z $VALUE ]; then
verbose "Getting boost value"
cat $FLROOT/cpufreq/boost
else
verbose "Setting boost value "$VALUE
echo $VALUE > $FLROOT/cpufreq/boost
fi
;;
--frequency-min)
if [ -z $VALUE ]; then
verbose "Getting CPU"$CORE" minimal frequency"
get_frequency_min
else
verbose "Setting CPU"$CORE" minimal frequency to "$VALUE
set_frequency_min
fi
;;
--frequency-max)
if [ -z $VALUE ]; then
verbose "Getting CPU"$CORE" maximal frequency"
get_frequency_max
else
verbose "Setting CPU"$CORE" maximal frequency to "$VALUE
set_frequency_max
fi
;;
--frequency-min-limit)
if [ -z $OPTION ] # No options
then
info
exit
fi
if [ $OPTION = "--help" ]
then
help
exit
fi
if [ $OPTION = "--version" ]
then
echo $VERSION
exit
fi
if [ $OPTION = "--driver" ]
then
driver
exit
fi
if [ $OPTION = "--governor" ]
then
if [ ! -z $AVAILABLE ]
then
cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_governors
exit
fi
if [ -z $VALUE ]
then
verbose "Getting CPU"$CORE" governors"
get_governor
else
verbose "Setting CPU"$CORE" governors to "$VALUE
set_governor
fi
exit
fi
if [ $OPTION = "--epp" ]
then
if [ ! -z $AVAILABLE ]
then
cat /sys/devices/system/cpu/cpu0/cpufreq/energy_performance_available_preferences
exit
fi
if [ -z $VALUE ]
then
verbose "Getting CPU"$CORE" EPPs"
get_energy_performance_preference
else
verbose "Setting CPU"$CORE" EPPs to "$VALUE
set_energy_performance_preference
fi
exit
fi
if [ $OPTION = "--frequency" ]
then
if [ ! -z $AVAILABLE ]
then
cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies
exit
fi
if [ -z $VALUE ]
then
verbose "Getting CPU"$CORE" frequency"
get_frequency
else
verbose "Setting CPU"$CORE" frequency to "$VALUE
set_frequency
fi
exit
fi
if [ $OPTION = "--no-turbo" ]
then
if [ -z $VALUE ]
then
verbose "Getting no_turbo value"
cat /sys/devices/system/cpu/intel_pstate/no_turbo
else
verbose "Setting no_turbo value "$VALUE
echo $VALUE > /sys/devices/system/cpu/intel_pstate/no_turbo
fi
exit
fi
if [ $OPTION = "--boost" ]
then
if [ -z $VALUE ]
then
verbose "Getting boost value"
cat /sys/devices/system/cpu/cpufreq/boost
else
verbose "Setting boost value "$VALUE
echo $VALUE > /sys/devices/system/cpu/cpufreq/boost
fi
exit
fi
if [ $OPTION = "--frequency-min" ]
then
if [ -z $VALUE ]
then
verbose "Getting CPU"$CORE" minimal frequency"
get_frequency_min
else
verbose "Setting CPU"$CORE" minimal frequency to "$VALUE
set_frequency_min
fi
exit
fi
if [ $OPTION = "--frequency-max" ]
then
if [ -z $VALUE ]
then
verbose "Getting CPU"$CORE" maximal frequency"
get_frequency_max
else
verbose "Setting CPU"$CORE" maximal frequency to "$VALUE
set_frequency_max
fi
exit
fi
if [ $OPTION = "--frequency-min-limit" ]
then
verbose "Getting CPU"$CORE" minimal frequency limit"
get_frequency_min_limit
;;
--frequency-max-limit)
fi
if [ $OPTION = "--frequency-max-limit" ]
then
verbose "Getting CPU"$CORE" maximum frequency limit"
get_frequency_max_limit
;;
--min-perf)
if [ -z $VALUE ]; then
verbose "Getting min_perf_pct value"
cat $FLROOT/intel_pstate/min_perf_pct
else
verbose "Setting min_perf_pct value "$VALUE
echo $VALUE > $FLROOT/intel_pstate/min_perf_pct
fi
;;
--max-perf)
if [ -z $VALUE ]; then
verbose "Getting max_perf_pct value"
cat $FLROOT/intel_pstate/max_perf_pct
else
verbose "Setting max_perf_pct value "$VALUE
echo $VALUE > $FLROOT/intel_pstate/max_perf_pct
fi
;;
--on)
if [ -z $CORE ]; then verbose "Should be specify --core=NUMBER"
else
verbose "Power on CPU Core"$CORE
echo "1" > $FLROOT/cpu"$CORE"/online
fi
;;
--off)
if [ -z $CORE ]; then verbose "Should be specify --core=NUMBER"
else
verbose "Power off CPU Core$CORE"
echo "0" > $FLROOT/cpu"$CORE"/online
fi
;;
--throttle)
i=1
V=0
M=$(cat "$FLROOT/cpu0/thermal_throttle/core_throttle_count")
while [ $i -ne $cpucount ]; do
V=$(cat "$FLROOT/cpu$i/thermal_throttle/core_throttle_count")
M=`expr $M + $V`
i=`expr $i + 1`
done
echo "$M"
;;
--throttle-events)
M=$(journalctl --dmesg --boot --since=yesterday | grep "cpu clock throttled" | wc -l)
echo "$M"
;;
--irqbalance)
M=$(ps -A | grep irqbalance)
echo "$M"
;;
*)
info
exit 1
;;
esac
fi
if [ $OPTION = "--min-perf" ]
then
if [ -z $VALUE ]
then
verbose "Getting min_perf_pct value"
cat /sys/devices/system/cpu/intel_pstate/min_perf_pct
else
verbose "Setting min_perf_pct value "$VALUE
echo $VALUE > /sys/devices/system/cpu/intel_pstate/min_perf_pct
fi
exit
fi
if [ $OPTION = "--max-perf" ]
then
if [ -z $VALUE ]
then
verbose "Getting max_perf_pct value"
cat /sys/devices/system/cpu/intel_pstate/max_perf_pct
else
verbose "Setting max_perf_pct value "$VALUE
echo $VALUE > /sys/devices/system/cpu/intel_pstate/max_perf_pct
fi
exit
fi
if [ $OPTION = "--on" ]
then
if [ -z $CORE ]
then
verbose "Should be specify --core=NUMBER"
else
verbose "Power on CPU Core"$CORE
echo "1" > $FLROOT/cpu"$CORE"/online
fi
exit
fi
if [ $OPTION = "--off" ]
then
if [ -z $CORE ]
then
verbose "Should be specify --core=NUMBER"
else
verbose "Power off CPU Core"$CORE
echo "0" > $FLROOT/cpu"$CORE"/online
fi
exit
fi
exit 0
if [ $OPTION = "--throttle" ]
then
i=1
V=0
M=$(cat "/sys/devices/system/cpu/cpu0/thermal_throttle/core_throttle_count")
while [ $i -ne $cpucount ]
do
V=$(cat "/sys/devices/system/cpu/cpu"$i"/thermal_throttle/core_throttle_count")
M=`expr $M + $V`
i=`expr $i + 1`
done
echo "$M"
exit
fi
if [ $OPTION = "--throttle-events" ]
then
M=$(journalctl --dmesg --boot --since=yesterday | grep "cpu clock throttled" | wc -l)
echo "$M"
exit
fi
if [ $OPTION = "--irqbalance" ]
then
M=$(ps -A |grep irqbalance)
echo "$M"
exit
fi

19
scripts/org.auto-cpufreq.pkexec.policy
View File

@ -1,19 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE policyconfig PUBLIC
"-//freedesktop//DTD PolicyKit Policy Configuration 1.0//EN"
"http://www.freedesktop.org/standards/PolicyKit/1/policyconfig.dtd">
<policyconfig>
<action id="org.auto-cpufreq.pkexec">
<description>Run auto-cpufreq command</description>
<message>Authentication is required to run auto-cpufreq</message>
<icon_name>auto-cpufreq</icon_name>
<defaults>
<allow_any>auth_admin</allow_any>
<allow_inactive>auth_admin</allow_inactive>
<allow_active>auth_admin</allow_active>
</defaults>
<annotate key="org.freedesktop.policykit.exec.path">/opt/auto-cpufreq/venv/bin/auto-cpufreq</annotate>
<!-- <annotate key="org.freedesktop.policykit.exec.argv1">/opt/auto-cpufreq/venv/bin/auto-cpufreq</annotate> -->
<!-- <annotate key="org.freedesktop.policykit.exec.allow_gui">true</annotate> -->
</action>
</policyconfig>

2
scripts/snapdaemon.sh
View File

@ -1,4 +1,4 @@
#!/usr/bin/env bash
#!/bin/bash
#
# workaround for running Daemon without polluting syslog (#53, #82)
$SNAP/bin/auto-cpufreq --daemon 2>&1 >> $SNAP_DATA/auto-cpufreq.stats

18
scripts/start_app
View File

@ -1,18 +0,0 @@
#!/usr/bin/sh
# load python virtual environment
venv_dir=/opt/auto-cpufreq/venv
. "$venv_dir/bin/activate"
python_command="$venv_dir/bin/auto-cpufreq-gtk"
# if [ "$XDG_SESSION_TYPE" = "wayland" ] ; then
# # necessary for running on wayland
# xhost +SI:localuser:root
# pkexec $python_command
# xhost -SI:localuser:root
# xhost
# else
# pkexec $python_command
# fi
$python_command

8
scripts/style.css
View File

@ -1,8 +0,0 @@
label {
/*font-family: Noto Sans;*/
font-size: 15px;
}
#bold { font-weight: bold; }
#small { font-size: 12px; }

44
setup.py Normal file
View File

@ -0,0 +1,44 @@
import os
from setuptools import setup
with open("README.md") as readme_file:
readme = readme_file.read()
this = os.path.dirname(os.path.realpath(__file__))
def read(name):
with open(os.path.join(this, name)) as f:
return f.read()
# Used for the tar.gz/snap releases
VERSION = "1.9.4"
setup(
name="auto-cpufreq",
setuptools_git_versioning={
"starting_version": VERSION,
"template": "{tag}+{sha}",
"dev_template": "{tag}+{sha}",
"dirty_template": "{tag}+{sha}.post{ccount}.dirty"
},
setup_requires=["setuptools-git-versioning"],
description="Automatic CPU speed & power optimizer for Linux",
long_description=readme,
author="Adnan Hodzic",
author_email="adnan@hodzic.org",
url="https://github.com/AdnanHodzic/auto-cpufreq",
packages=["auto_cpufreq"],
install_requires=read("requirements.txt"),
include_package_data=True,
zip_safe=True,
license="GPLv3",
keywords="linux cpu speed power frequency turbo optimzier auto cpufreq",
classifiers=[
"Development Status :: 5 - Production/Stable",
"Intended Audience :: Developers",
"Operating System :: POSIX :: Linux" "Environment :: Console" "Natural Language :: English",
],
scripts=["bin/auto-cpufreq"],
)

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10
snap/gui/auto-cpufreq_auto-cpufreq.desktop
View File

@ -1,10 +0,0 @@
[Desktop Entry]
Type=Application
Encoding=UTF-8
Name=auto-cpufreq
Comment=Automatic CPU speed & power optimizer for Linux
Exec=auto-cpufreq.auto-cpufreq-gtk
StartupWMClass=app.py
Terminal=false
Icon=${SNAP}/meta/gui/auto-cpufreq.png
Categories=System;

33
snap/snapcraft.yaml
View File

@ -1,5 +1,5 @@
name: auto-cpufreq
base: core22
base: core20
summary: Automatic CPU speed & power optimizer for Linux
description: |
Automatic CPU speed & power optimizer for Linux based on active
@ -14,30 +14,22 @@ adopt-info: auto-cpufreq
compression: lzo
architectures:
- build-on: [amd64]
build-for: [amd64]
- build-on: [amd64]
build-for: [arm64]
parts:
auto-cpufreq:
plugin: python
python-packages:
- setuptools
- wheel
- requests
build-packages:
- gcc
- python3-dev
stage-packages:
- coreutils
- dmidecode
- pkexec
source: .
override-pull: |
snapcraftctl pull
snapcraftctl set-version `grep ^version $SNAPCRAFT_PART_SRC/pyproject.toml | sed 's/.*"\(.*\)"/\1/'`
snapcraftctl set-version `grep ^VERSION $SNAPCRAFT_PART_SRC/setup.py | sed 's/.*"\(.*\)"/\1/'`
deploy-scripts:
plugin: dump
@ -46,10 +38,6 @@ parts:
cpufreqctl.sh: usr/bin/cpufreqctl.auto-cpufreq
snapdaemon.sh: usr/bin/snapdaemon
copy-image:
plugin: dump
source: images
plugs:
etc-auto-cpufreq-conf:
interface: system-files
@ -70,28 +58,13 @@ apps:
- hardware-observe
- etc-auto-cpufreq-conf
auto-cpufreq-gtk:
command: bin/auto-cpufreq-gtk
extensions: [gnome]
environment:
PYTHONPATH: $SNAP/usr/lib/python3/site-packages:$SNAP/usr/lib/python3/dist-packages:$PYTHONPATH
LC_ALL: C.UTF-8
LANG: C.UTF-8
PKG_MARKER: SNAP
plugs:
- cpu-control
- system-observe
- hardware-observe
- desktop
- desktop-legacy
- wayland
- x11
service:
command: usr/bin/snapdaemon
plugs:
- cpu-control
- system-observe
- hardware-observe
- etc-auto-cpufreq-conf
environment:
LC_ALL: C.UTF-8
LANG: C.UTF-8