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base: gilles:6.1.0-rc3
Branches Tags
gilles:main gilles:devel gilles:argh gilles:remove_supergfxctl gilles:devel-dynamic-nv-attrs
gilles:6.3.2 gilles:6.3.1 gilles:6.3.0 gilles:6.2.0 gilles:6.1.22 gilles:6.1.21 gilles:6.1.20 gilles:6.1.18 gilles:6.1.17 gilles:6.1.16 gilles:6.1.15 gilles:6.1.14 gilles:6.1.13 gilles:6.1.12 gilles:6.1.11 gilles:6.1.10 gilles:6.1.9 gilles:6.1.8 gilles:6.1.7 gilles:6.1.6 gilles:6.1.5 gilles:6.1.4 gilles:6.1.3 gilles:6.1.2 gilles:6.1.1 gilles:6.1.0 gilles:6.1.0-rc7 gilles:6.1.0-rc6 gilles:6.1.0-rc5 gilles:6.1.0-rc4 gilles:6.1.0-rc3 gilles:6.1.0-rc2 gilles:6.1.0-rc1 gilles:6.0.12 gilles:6.0.11 gilles:6.0.10 gilles:6.0.9 gilles:6.0.8 gilles:6.0.7 gilles:6.0.6 gilles:6.0.5 gilles:6.0.4 gilles:6.0.3 gilles:6.0.2 gilles:6.0.1 gilles:6.0.0 gilles:5.0.10 gilles:5.0.9 gilles:5.0.8 gilles:5.0.8-RC4 gilles:5.0.7 gilles:5.0.6 gilles:5.0.5 gilles:5.0.4 gilles:5.0.3 gilles:5.0.2 gilles:5.0.1 gilles:5.0.0 gilles:4.7.2 gilles:4.7.1 gilles:4.7.0 gilles:4.7.0-RC2 gilles:4.7.0-RC1 gilles:4.6.2 gilles:4.6.1 gilles:4.6.0 gilles:4.6.0-rc1 gilles:4.5.8 gilles:4.5.7 gilles:4.5.6 gilles:4.5.5 gilles:4.5.4 gilles:4.5.3 gilles:4.5.2 gilles:4.5.1 gilles:4.5.1-RC2 gilles:4.5.1-RC1 gilles:4.5.0 gilles:4.5.0-rc3 gilles:4.4.0 gilles:4.3.4 gilles:4.3.3 gilles:4.3.2.rc2 gilles:4.3.1.rc1 gilles:4.3.0 gilles:4.2.1 gilles:4.2.0 gilles:4.1.1 gilles:4.1.0 gilles:4.0.7 gilles:4.0.6 gilles:4.0.5 gilles:4.0.4 gilles:4.0.3 gilles:4.0.2 gilles:4.0.1 gilles:4.0.0 gilles:3.7.2 gilles:3.7.1 gilles:3.7.0 gilles:3.6.2 gilles:3.6.1 gilles:3.6.0 gilles:3.5.2 gilles:3.5.1 gilles:3.5.0 gilles:3.4.1 gilles:3.4.0 gilles:3.3.0 gilles:3.2.4 gilles:3.2.3 gilles:3.2.2 gilles:3.2.1 gilles:3.2.0 gilles:3.1.7 gilles:3.1.6 gilles:3.1.5 gilles:3.1.4 gilles:3.1.3 gilles:3.1.2 gilles:3.1.1 gilles:3.1.0 gilles:3.0.1 gilles:3.0.0 gilles:2.2.1 gilles:2.2.0 gilles:2.1.2 gilles:2.1.1 gilles:2.1.0 gilles:2.0.5 gilles:2.0.4 gilles:2.0.3 gilles:2.0.2 gilles:2.0.1 gilles:2.0.0 gilles:1.1.2 gilles:1.1.1 gilles:1.1.0 gilles:1.0.4 gilles:1.0.3 gilles:1.0.2 gilles:v1.0.1 gilles:v1.0.0
..
compare: gilles:6.1.0-rc6
Branches Tags
gilles:devel gilles:main gilles:argh gilles:remove_supergfxctl gilles:devel-dynamic-nv-attrs
gilles:6.3.2 gilles:6.3.1 gilles:6.3.0 gilles:6.2.0 gilles:6.1.22 gilles:6.1.21 gilles:6.1.20 gilles:6.1.18 gilles:6.1.17 gilles:6.1.16 gilles:6.1.15 gilles:6.1.14 gilles:6.1.13 gilles:6.1.12 gilles:6.1.11 gilles:6.1.10 gilles:6.1.9 gilles:6.1.8 gilles:6.1.7 gilles:6.1.6 gilles:6.1.5 gilles:6.1.4 gilles:6.1.3 gilles:6.1.2 gilles:6.1.1 gilles:6.1.0 gilles:6.1.0-rc7 gilles:6.1.0-rc6 gilles:6.1.0-rc5 gilles:6.1.0-rc4 gilles:6.1.0-rc3 gilles:6.1.0-rc2 gilles:6.1.0-rc1 gilles:6.0.12 gilles:6.0.11 gilles:6.0.10 gilles:6.0.9 gilles:6.0.8 gilles:6.0.7 gilles:6.0.6 gilles:6.0.5 gilles:6.0.4 gilles:6.0.3 gilles:6.0.2 gilles:6.0.1 gilles:6.0.0 gilles:5.0.10 gilles:5.0.9 gilles:5.0.8 gilles:5.0.8-RC4 gilles:5.0.7 gilles:5.0.6 gilles:5.0.5 gilles:5.0.4 gilles:5.0.3 gilles:5.0.2 gilles:5.0.1 gilles:5.0.0 gilles:4.7.2 gilles:4.7.1 gilles:4.7.0 gilles:4.7.0-RC2 gilles:4.7.0-RC1 gilles:4.6.2 gilles:4.6.1 gilles:4.6.0 gilles:4.6.0-rc1 gilles:4.5.8 gilles:4.5.7 gilles:4.5.6 gilles:4.5.5 gilles:4.5.4 gilles:4.5.3 gilles:4.5.2 gilles:4.5.1 gilles:4.5.1-RC2 gilles:4.5.1-RC1 gilles:4.5.0 gilles:4.5.0-rc3 gilles:4.4.0 gilles:4.3.4 gilles:4.3.3 gilles:4.3.2.rc2 gilles:4.3.1.rc1 gilles:4.3.0 gilles:4.2.1 gilles:4.2.0 gilles:4.1.1 gilles:4.1.0 gilles:4.0.7 gilles:4.0.6 gilles:4.0.5 gilles:4.0.4 gilles:4.0.3 gilles:4.0.2 gilles:4.0.1 gilles:4.0.0 gilles:3.7.2 gilles:3.7.1 gilles:3.7.0 gilles:3.6.2 gilles:3.6.1 gilles:3.6.0 gilles:3.5.2 gilles:3.5.1 gilles:3.5.0 gilles:3.4.1 gilles:3.4.0 gilles:3.3.0 gilles:3.2.4 gilles:3.2.3 gilles:3.2.2 gilles:3.2.1 gilles:3.2.0 gilles:3.1.7 gilles:3.1.6 gilles:3.1.5 gilles:3.1.4 gilles:3.1.3 gilles:3.1.2 gilles:3.1.1 gilles:3.1.0 gilles:3.0.1 gilles:3.0.0 gilles:2.2.1 gilles:2.2.0 gilles:2.1.2 gilles:2.1.1 gilles:2.1.0 gilles:2.0.5 gilles:2.0.4 gilles:2.0.3 gilles:2.0.2 gilles:2.0.1 gilles:2.0.0 gilles:1.1.2 gilles:1.1.1 gilles:1.1.0 gilles:1.0.4 gilles:1.0.3 gilles:1.0.2 gilles:v1.0.1 gilles:v1.0.0

14 Commits
6.1.0-rc3 ... 6.1.0-rc6

Author SHA1 Message Date
Luke D. Jones
fb98827a1a Prep 6.1.0-rc6 2025-01-19 23:35:32 +13:00
Luke D. Jones
b9296862df Move entirely to using only platform-profile 
throttle_thermal_policy is not ideal anymore and may be
removed from kernel in the future.
 2025-01-19 21:52:32 +13:00
Luke D. Jones
450205f9a9 Bug fix: correctly set charge limit from UI 2025-01-19 17:29:36 +13:00
Luke D. Jones
82431ee25b Prep 6.1.0-rc5 2025-01-19 16:11:48 +13:00
Luke D. Jones
f11aea02a8 Add help and reset to UI for ppt values 2025-01-19 16:01:57 +13:00
Luke D. Jones
2d6d669c22 PPT restor defaults (WIP) 2025-01-19 12:02:22 +13:00
Luke D. Jones
f9cebf9221 Per-AC/DC per-profile tunings enabled 2025-01-19 11:33:48 +13:00
Luke D. Jones
a00808313e Prep 6.1.0-rc4 2025-01-18 23:11:46 +13:00
Luke D. Jones
3426591d32 Finalise per-profile PPT settings 2025-01-18 22:46:50 +13:00
Luke D. Jones
ef3b6636f5 Allow each performance profile to have different PPT values 2025-01-18 21:54:37 +13:00
Luke D. Jones
ee9e0a1e31 Fix: ROGCC: fix anime matrix settings 2025-01-18 21:27:57 +13:00
Luke D. Jones
9e84997cbf Fix: ROGCC: don't crash out if no tray area available 2025-01-18 20:54:25 +13:00
Luke D. Jones
2b22f82b72 Cleanup unsafe sysfs interfaces. Bugfixes for UI 2025-01-16 23:56:12 +13:00
Luke D. Jones
7a1b45071d Correct changelog rc3 tag 2025-01-15 22:25:24 +13:00
39 changed files with 1538 additions and 1162 deletions
Expand all files Collapse all files

26
CHANGELOG.md
View File

@@ -2,7 +2,31 @@
## [Unreleased]
## [v6.1.0-rc2]
## [v6.1.0-rc6]
### Changed
- Two small fixes, one for `low-power` profile name, and one for base gpu tdp
- Move to using platform_profile api only (no throttle_thermal_policy)
## [v6.1.0-rc5]
### Changed
- Per-AC/DC, per-profile tunings enabled (Battery vs AC power + platform profile)
- Add ability to restore PPT defaults
- Add PPT help dialogue to UI
- Bug fix: correctly set charge limit from UI
## [v6.1.0-rc4]
### Changed
- Bug fix: UI was setting incorrect value for FPPT
- Bug fix: Re-add callbacks for the throttle and epp settings in UI
- Bug fix: Fix UI settigns for AniMe Matrix display
- Bug fix: better handle missing tray (for example gnome)
- Strip out all outdated and unsafe tuning stuff
- Allow each performance profile to have different PPT settings
## [v6.1.0-rc3]
### Changed
- Bug fixes

30
Cargo.lock generated
View File

@@ -176,10 +176,12 @@ dependencies = [
[[package]]
name = "asusctl"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"dmi_id",
"env_logger",
"gumdrop",
"log",
"rog_anime",
"rog_aura",
"rog_dbus",
@@ -193,7 +195,7 @@ dependencies = [
[[package]]
name = "asusd"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"cargo-husky",
"concat-idents",
@@ -219,7 +221,7 @@ dependencies = [
[[package]]
name = "asusd-user"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"config-traits",
"dirs",
@@ -899,7 +901,7 @@ dependencies = [
[[package]]
name = "config-traits"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"log",
"ron",
@@ -1291,7 +1293,7 @@ dependencies = [
[[package]]
name = "dmi_id"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"log",
"udev 0.8.0",
@@ -4090,7 +4092,7 @@ dependencies = [
[[package]]
name = "rog-control-center"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"asusd",
"concat-idents",
@@ -4120,7 +4122,7 @@ dependencies = [
[[package]]
name = "rog_anime"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"dmi_id",
"gif 0.12.0",
@@ -4134,7 +4136,7 @@ dependencies = [
[[package]]
name = "rog_aura"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"dmi_id",
"log",
@@ -4145,7 +4147,7 @@ dependencies = [
[[package]]
name = "rog_dbus"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"asusd",
"rog_anime",
@@ -4159,7 +4161,7 @@ dependencies = [
[[package]]
name = "rog_platform"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"concat-idents",
"inotify",
@@ -4172,7 +4174,7 @@ dependencies = [
[[package]]
name = "rog_profiles"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"log",
"rog_platform",
@@ -4183,7 +4185,7 @@ dependencies = [
[[package]]
name = "rog_scsi"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"ron",
"serde",
@@ -4193,7 +4195,7 @@ dependencies = [
[[package]]
name = "rog_simulators"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"log",
"rog_anime",
@@ -4203,7 +4205,7 @@ dependencies = [
[[package]]
name = "rog_slash"
version = "6.1.0-rc2"
version = "6.1.0-rc6"
dependencies = [
"dmi_id",
"serde",

2
Cargo.toml
View File

@@ -1,5 +1,5 @@
[workspace.package]
version = "6.1.0-rc3"
version = "6.1.0-rc6"
rust-version = "1.82"
license = "MPL-2.0"
readme = "README.md"

4
asusctl/Cargo.toml
View File

@@ -18,10 +18,12 @@ rog_profiles = { path = "../rog-profiles" }
rog_platform = { path = "../rog-platform" }
dmi_id = { path = "../dmi-id" }
log.workspace = true
env_logger.workspace = true
ron.workspace = true
gumdrop.workspace = true
zbus.workspace = true
[dev-dependencies]
rog_dbus = { path = "../rog-dbus" }

44
asusctl/src/cli_opts.rs
View File

@@ -1,5 +1,5 @@
use gumdrop::Options;
use rog_platform::platform::ThrottlePolicy;
use rog_platform::platform::PlatformProfile;
use crate::anime_cli::AnimeCommand;
use crate::aura_cli::{LedBrightness, LedPowerCommand1, LedPowerCommand2, SetAuraBuiltin};
@@ -49,8 +49,6 @@ pub enum CliCommand {
Slash(SlashCommand),
#[options(name = "scsi", help = "Manage SCSI external drive")]
Scsi(ScsiCommand),
#[options(help = "Change bios settings")]
PlatformOld(PlatformCommand),
#[options(
help = "Change platform settings. This is a new interface exposed by the asus-armoury \
driver, some of the settings will be the same as the older platform interface"
@@ -73,7 +71,7 @@ pub struct ProfileCommand {
pub profile_get: bool,
#[options(meta = "", help = "set the active profile")]
pub profile_set: Option<ThrottlePolicy>
pub profile_set: Option<PlatformProfile>
}
#[derive(Options)]
@@ -94,43 +92,13 @@ pub struct GraphicsCommand {
pub help: bool
}
#[derive(Options, Debug)]
pub struct PlatformCommand {
#[options(help = "print help message")]
pub help: bool,
#[options(
meta = "",
short = "S",
no_long,
help = "set bios POST sound: asusctl -S <true/false>"
)]
pub post_sound_set: Option<bool>,
#[options(no_long, short = "s", help = "read bios POST sound")]
pub post_sound_get: bool,
#[options(
meta = "",
short = "D",
no_long,
help = "Switch GPU MUX mode: 0 = Discrete, 1 = Optimus, reboot required"
)]
pub gpu_mux_mode_set: Option<u8>,
#[options(no_long, short = "d", help = "get GPU mode")]
pub gpu_mux_mode_get: bool,
#[options(
meta = "",
short = "O",
no_long,
help = "Set device panel overdrive <true/false>"
)]
pub panel_overdrive_set: Option<bool>,
#[options(no_long, short = "o", help = "get panel overdrive")]
pub panel_overdrive_get: bool
}
#[derive(Options, Debug)]
pub struct ArmouryCommand {
#[options(help = "print help message")]
pub help: bool,
#[options(free)]
#[options(
free,
help = "append each value name followed by the value to set. `-1` sets to default"
)]
pub free: Vec<String>
}

4
asusctl/src/fan_curve_cli.rs
View File

@@ -1,5 +1,5 @@
use gumdrop::Options;
use rog_platform::platform::ThrottlePolicy;
use rog_platform::platform::PlatformProfile;
use rog_profiles::fan_curve_set::CurveData;
use rog_profiles::FanCurvePU;
@@ -18,7 +18,7 @@ pub struct FanCurveCommand {
meta = "",
help = "profile to modify fan-curve for. Shows data if no options provided"
)]
pub mod_profile: Option<ThrottlePolicy>,
pub mod_profile: Option<PlatformProfile>,
#[options(
meta = "",

106
asusctl/src/main.rs
View File

@@ -9,6 +9,7 @@ use aura_cli::{LedPowerCommand1, LedPowerCommand2};
use dmi_id::DMIID;
use fan_curve_cli::FanCurveCommand;
use gumdrop::{Opt, Options};
use log::{error, info};
use rog_anime::usb::get_anime_type;
use rog_anime::{AnimTime, AnimeDataBuffer, AnimeDiagonal, AnimeGif, AnimeImage, AnimeType, Vec2};
use rog_aura::keyboard::{AuraPowerState, LaptopAuraPower};
@@ -21,7 +22,7 @@ use rog_dbus::zbus_aura::AuraProxyBlocking;
use rog_dbus::zbus_fan_curves::FanCurvesProxyBlocking;
use rog_dbus::zbus_platform::PlatformProxyBlocking;
use rog_dbus::zbus_slash::SlashProxyBlocking;
use rog_platform::platform::{GpuMode, Properties, ThrottlePolicy};
use rog_platform::platform::{PlatformProfile, Properties};
use rog_profiles::error::ProfileError;
use rog_scsi::AuraMode;
use rog_slash::SlashMode;
@@ -42,6 +43,14 @@ mod scsi_cli;
mod slash_cli;
fn main() {
let mut logger = env_logger::Builder::new();
logger
.parse_default_env()
.target(env_logger::Target::Stdout)
.format_timestamp(None)
.filter_level(log::LevelFilter::Debug)
.init();
let self_version = env!("CARGO_PKG_VERSION");
println!("Starting version {self_version}");
let args: Vec<String> = args().skip(1).collect();
@@ -163,7 +172,7 @@ where
return Ok(ctrl);
}
Err("No Aura interface".into())
Err(format!("Did not find {iface_name}").into())
}
fn do_parsed(
@@ -186,9 +195,6 @@ fn do_parsed(
Some(CliCommand::Anime(cmd)) => handle_anime(cmd)?,
Some(CliCommand::Slash(cmd)) => handle_slash(cmd)?,
Some(CliCommand::Scsi(cmd)) => handle_scsi(cmd)?,
Some(CliCommand::PlatformOld(cmd)) => {
handle_platform_properties(&conn, supported_properties, cmd)?
}
Some(CliCommand::Armoury(cmd)) => handle_armoury_command(cmd)?,
None => {
if (!parsed.show_supported
@@ -370,7 +376,12 @@ fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> {
println!("\n{}", lst);
}
}
let animes = find_iface::<AnimeProxyBlocking>("xyz.ljones.Anime")?;
let animes = find_iface::<AnimeProxyBlocking>("xyz.ljones.Anime").map_err(|e| {
error!("Did not find any interface for xyz.ljones.Anime: {e:?}");
e
})?;
for proxy in animes {
if let Some(enable) = cmd.enable_display {
proxy.set_enable_display(enable)?;
@@ -907,16 +918,16 @@ fn handle_throttle_profile(
}
let proxy = PlatformProxyBlocking::new(conn)?;
let current = proxy.throttle_thermal_policy()?;
let current = proxy.platform_profile()?;
if cmd.next {
proxy.set_throttle_thermal_policy(current.next())?;
proxy.set_platform_profile(current.next())?;
} else if let Some(profile) = cmd.profile_set {
proxy.set_throttle_thermal_policy(profile)?;
proxy.set_platform_profile(profile)?;
}
if cmd.list {
let res = ThrottlePolicy::list();
let res = PlatformProfile::list();
for p in &res {
println!("{:?}", p);
}
@@ -963,7 +974,7 @@ fn handle_fan_curve(
let plat_proxy = PlatformProxyBlocking::new(conn)?;
if cmd.get_enabled {
let profile = plat_proxy.throttle_thermal_policy()?;
let profile = plat_proxy.platform_profile()?;
let curves = fan_proxy.fan_curve_data(profile)?;
for curve in curves.iter() {
println!("{}", String::from(curve));
@@ -971,7 +982,7 @@ fn handle_fan_curve(
}
if cmd.default {
let active = plat_proxy.throttle_thermal_policy()?;
let active = plat_proxy.platform_profile()?;
fan_proxy.set_curves_to_defaults(active)?;
}
@@ -1007,70 +1018,6 @@ fn handle_fan_curve(
Ok(())
}
fn handle_platform_properties(
conn: &Connection,
supported: &[Properties],
cmd: &PlatformCommand
) -> Result<(), Box<dyn std::error::Error>> {
{
if (cmd.gpu_mux_mode_set.is_none()
&& !cmd.gpu_mux_mode_get
&& cmd.post_sound_set.is_none()
&& !cmd.post_sound_get
&& cmd.panel_overdrive_set.is_none()
&& !cmd.panel_overdrive_get)
|| cmd.help
{
println!("Missing arg or command\n");
let usage: Vec<String> = PlatformCommand::usage()
.lines()
.map(|s| s.to_owned())
.collect();
for line in usage.iter().filter(|line| {
line.contains("sound") && supported.contains(&Properties::PostAnimationSound)
|| line.contains("GPU") && supported.contains(&Properties::GpuMuxMode)
|| line.contains("panel") && supported.contains(&Properties::PanelOd)
}) {
println!("{}", line);
}
}
let proxy = PlatformProxyBlocking::new(conn)?;
if let Some(opt) = cmd.post_sound_set {
proxy.set_boot_sound(opt)?;
}
if cmd.post_sound_get {
let res = proxy.boot_sound()?;
println!("Bios POST sound on: {}", res);
}
if let Some(opt) = cmd.gpu_mux_mode_set {
println!("Rebuilding initrd to include drivers");
proxy.set_gpu_mux_mode(GpuMode::from_mux(opt))?;
println!(
"The mode change is not active until you reboot, on boot the bios will make the \
required change"
);
}
if cmd.gpu_mux_mode_get {
let res = proxy.gpu_mux_mode()?;
println!("Bios GPU MUX: {:?}", res);
}
if let Some(opt) = cmd.panel_overdrive_set {
proxy.set_panel_od(opt)?;
}
if cmd.panel_overdrive_get {
let res = proxy.panel_od()?;
println!("Panel overdrive on: {}", res);
}
}
Ok(())
}
fn check_systemd_unit_active(name: &str) -> bool {
if let Ok(out) = Command::new("systemctl")
.arg("is-active")
@@ -1175,7 +1122,12 @@ fn handle_armoury_command(cmd: &ArmouryCommand) -> Result<(), Box<dyn std::error
for attr in attr.iter() {
let name = attr.name()?;
if <&str>::from(name) == cmd[0] {
attr.set_current_value(cmd[1].parse()?)?;
let mut value: i32 = cmd[1].parse()?;
if value == -1 {
info!("Setting to default");
value = attr.default_value()?;
}
attr.set_current_value(value)?;
print_firmware_attr(attr)?;
}
}

229
asusd/src/asus_armoury.rs
View File

@@ -1,20 +1,19 @@
use std::str::FromStr;
use std::sync::Arc;
use ::zbus::export::futures_util::lock::Mutex;
use config_traits::StdConfig;
use log::error;
use rog_platform::firmware_attributes::{
AttrValue, Attribute, FirmwareAttribute, FirmwareAttributes
};
use rog_platform::platform::{RogPlatform, ThrottlePolicy};
use log::{debug, error, info};
use rog_platform::asus_armoury::{AttrValue, Attribute, FirmwareAttribute, FirmwareAttributes};
use rog_platform::platform::{PlatformProfile, RogPlatform};
use rog_platform::power::AsusPower;
use serde::{Deserialize, Serialize};
use zbus::object_server::SignalEmitter;
use zbus::zvariant::{ObjectPath, OwnedObjectPath, OwnedValue, Type, Value};
use zbus::{fdo, interface, Connection};
use crate::config::Config;
use crate::error::RogError;
use crate::ASUS_ZBUS_PATH;
use crate::{Reloadable, ASUS_ZBUS_PATH};
const MOD_NAME: &str = "asus_armoury";
@@ -28,26 +27,31 @@ fn dbus_path_for_attr(attr_name: &str) -> OwnedObjectPath {
ObjectPath::from_str_unchecked(&format!("{ASUS_ZBUS_PATH}/{MOD_NAME}/{attr_name}")).into()
}
#[derive(Clone)]
pub struct AsusArmouryAttribute {
attr: Attribute,
config: Arc<Mutex<Config>>,
/// platform control required here for access to PPD or Throttle profile
platform: RogPlatform
platform: RogPlatform,
power: AsusPower
}
impl AsusArmouryAttribute {
pub fn new(attr: Attribute, platform: RogPlatform, config: Arc<Mutex<Config>>) -> Self {
pub fn new(
attr: Attribute,
platform: RogPlatform,
power: AsusPower,
config: Arc<Mutex<Config>>
) -> Self {
Self {
attr,
config,
platform
platform,
power
}
}
pub async fn start_tasks(self, connection: &Connection) -> Result<(), RogError> {
// self.reload()
// .await
// .unwrap_or_else(|err| warn!("Controller error: {}", err));
pub async fn move_to_zbus(self, connection: &Connection) -> Result<(), RogError> {
let path = dbus_path_for_attr(self.attr.name());
connection
.object_server()
@@ -57,6 +61,72 @@ impl AsusArmouryAttribute {
.ok();
Ok(())
}
async fn watch_and_notify(
&mut self,
signal_ctxt: SignalEmitter<'static>
) -> Result<(), RogError> {
use zbus::export::futures_util::StreamExt;
let ctrl = self.clone();
let name = self.name();
match self.attr.get_watcher() {
Ok(watch) => {
let name = <&str>::from(name);
tokio::spawn(async move {
let mut buffer = [0; 32];
watch
.into_event_stream(&mut buffer)
.unwrap()
.for_each(|_| async {
debug!("{} changed", name);
ctrl.current_value_changed(&signal_ctxt).await.ok();
})
.await;
});
}
Err(e) => info!(
"inotify watch failed: {}. You can ignore this if your device does not support \
the feature",
e
)
}
Ok(())
}
}
impl crate::Reloadable for AsusArmouryAttribute {
async fn reload(&mut self) -> Result<(), RogError> {
info!("Reloading {}", self.attr.name());
let profile: PlatformProfile = self.platform.get_platform_profile()?.into();
let power_plugged = self
.power
.get_online()
.map_err(|e| {
error!("Could not get power status: {e:?}");
e
})
.unwrap_or_default();
let config = if power_plugged == 1 {
&self.config.lock().await.ac_profile_tunings
} else {
&self.config.lock().await.dc_profile_tunings
};
if let Some(tunings) = config.get(&profile) {
if let Some(tune) = tunings.get(&self.name()) {
self.attr
.set_current_value(&AttrValue::Integer(*tune))
.map_err(|e| {
error!("Could not set value: {e:?}");
e
})?;
info!("Set {} to {:?}", self.attr.name(), tune);
}
}
Ok(())
}
}
/// If return is `-1` on a property then there is avilable value for that
@@ -107,6 +177,31 @@ impl AsusArmouryAttribute {
}
}
async fn restore_default(&self) -> fdo::Result<()> {
self.attr.restore_default()?;
if self.name().is_ppt() {
let profile: PlatformProfile = self.platform.get_platform_profile()?.into();
let power_plugged = self
.power
.get_online()
.map_err(|e| {
error!("Could not get power status: {e:?}");
e
})
.unwrap_or_default();
let mut config = self.config.lock().await;
let tunings = config.select_tunings(power_plugged == 1, profile);
if let Some(tune) = tunings.get_mut(&self.name()) {
if let AttrValue::Integer(i) = self.attr.default_value() {
*tune = *i;
}
}
config.write();
}
Ok(())
}
#[zbus(property)]
async fn min_value(&self) -> i32 {
match self.attr.min_value() {
@@ -152,16 +247,57 @@ impl AsusArmouryAttribute {
#[zbus(property)]
async fn set_current_value(&mut self, value: i32) -> fdo::Result<()> {
self.attr
.set_current_value(AttrValue::Integer(value))
.set_current_value(&AttrValue::Integer(value))
.map_err(|e| {
error!("Could not set value: {e:?}");
e
})?;
let profile: ThrottlePolicy =
ThrottlePolicy::from_str(self.platform.get_platform_profile()?.as_str())?;
if let Some(tunings) = self.config.lock().await.tunings.get_mut(&profile) {
if self.name().is_ppt() {
let profile: PlatformProfile = self.platform.get_platform_profile()?.into();
let power_plugged = self
.power
.get_online()
.map_err(|e| {
error!("Could not get power status: {e:?}");
e
})
.unwrap_or_default();
let mut config = self.config.lock().await;
let tunings = config.select_tunings(power_plugged == 1, profile);
if let Some(tune) = tunings.get_mut(&self.name()) {
*tune = value;
} else {
tunings.insert(self.name(), value);
debug!("Set tuning config for {} = {:?}", self.attr.name(), value);
}
} else {
let has_attr = self
.config
.lock()
.await
.armoury_settings
.contains_key(&self.name());
if has_attr {
if let Some(setting) = self
.config
.lock()
.await
.armoury_settings
.get_mut(&self.name())
{
*setting = value
}
} else {
debug!("Adding config for {}", self.attr.name());
self.config
.lock()
.await
.armoury_settings
.insert(self.name(), value);
debug!("Set config for {} = {:?}", self.attr.name(), value);
}
}
self.config.lock().await.write();
@@ -170,14 +306,63 @@ impl AsusArmouryAttribute {
}
pub async fn start_attributes_zbus(
server: &Connection,
conn: &Connection,
platform: RogPlatform,
power: AsusPower,
config: Arc<Mutex<Config>>
) -> Result<(), RogError> {
for attr in FirmwareAttributes::new().attributes() {
AsusArmouryAttribute::new(attr.clone(), platform.clone(), config.clone())
.start_tasks(server)
.await?;
let mut attr = AsusArmouryAttribute::new(
attr.clone(),
platform.clone(),
power.clone(),
config.clone()
);
attr.reload().await?;
let path = dbus_path_for_attr(attr.attr.name());
let sig = zbus::object_server::SignalEmitter::new(conn, path)?;
attr.watch_and_notify(sig).await?;
attr.move_to_zbus(conn).await?;
}
Ok(())
}
pub async fn set_config_or_default(
attrs: &FirmwareAttributes,
config: &mut Config,
power_plugged: bool,
profile: PlatformProfile
) {
for attr in attrs.attributes().iter() {
let name: FirmwareAttribute = attr.name().into();
if name.is_ppt() {
let tunings = config.select_tunings(power_plugged, profile);
if let Some(tune) = tunings.get(&name) {
attr.set_current_value(&AttrValue::Integer(*tune))
.map_err(|e| {
error!("Failed to set {}: {e}", <&str>::from(name));
})
.ok();
} else {
let default = attr.default_value();
attr.set_current_value(default)
.map_err(|e| {
error!("Failed to set {}: {e}", <&str>::from(name));
})
.ok();
if let AttrValue::Integer(i) = default {
tunings.insert(name, *i);
info!(
"Set default tuning config for {} = {:?}",
<&str>::from(name),
i
);
config.write();
}
}
}
}
}

35
asusd/src/aura_types.rs
View File

@@ -104,23 +104,28 @@ impl DeviceHandle {
/// Try AniMe Matrix HID. If one exists it is initialsed and returned.
pub async fn maybe_anime_hid(
device: Arc<Mutex<HidRaw>>,
prod_id: &str
_device: Arc<Mutex<HidRaw>>,
_prod_id: &str
) -> Result<Self, RogError> {
debug!("Testing for HIDRAW AniMe");
let anime_type = AnimeType::from_dmi();
dbg!(prod_id);
if matches!(anime_type, AnimeType::Unsupported) || prod_id != "193b" {
log::info!("Unknown or invalid AniMe: {prod_id:?}, skipping");
return Err(RogError::NotFound("No anime-matrix device".to_string()));
}
info!("Found AniMe Matrix HIDRAW {anime_type:?}: {prod_id}");
// TODO: can't use HIDRAW for anime at the moment
Err(RogError::NotFound(
"Can't use anime over hidraw yet. Skip.".to_string()
))
let mut config = AniMeConfig::new().load();
config.anime_type = anime_type;
let mut anime = AniMe::new(Some(device), None, Arc::new(Mutex::new(config)));
anime.do_initialization().await?;
Ok(Self::AniMe(anime))
// debug!("Testing for HIDRAW AniMe");
// let anime_type = AnimeType::from_dmi();
// dbg!(prod_id);
// if matches!(anime_type, AnimeType::Unsupported) || prod_id != "193b"
// { log::info!("Unknown or invalid AniMe: {prod_id:?},
// skipping"); return Err(RogError::NotFound("No
// anime-matrix device".to_string())); }
// info!("Found AniMe Matrix HIDRAW {anime_type:?}: {prod_id}");
// let mut config = AniMeConfig::new().load();
// config.anime_type = anime_type;
// let mut anime = AniMe::new(Some(device), None,
// Arc::new(Mutex::new(config))); anime.do_initialization().
// await?; Ok(Self::AniMe(anime))
}
pub async fn maybe_anime_usb() -> Result<Self, RogError> {

125
asusd/src/config.rs
View File

@@ -1,71 +1,85 @@
use std::collections::HashMap;
use config_traits::{StdConfig, StdConfigLoad1};
use rog_platform::asus_armoury::FirmwareAttribute;
use rog_platform::cpu::CPUEPP;
use rog_platform::firmware_attributes::FirmwareAttribute;
use rog_platform::platform::ThrottlePolicy;
use rog_platform::platform::PlatformProfile;
use serde::{Deserialize, Serialize};
const CONFIG_FILE: &str = "asusd.ron";
type Tunings = HashMap<PlatformProfile, HashMap<FirmwareAttribute, i32>>;
#[derive(Deserialize, Serialize)]
#[derive(Deserialize, Serialize, PartialEq)]
pub struct Config {
// The current charge limit applied
pub charge_control_end_threshold: u8,
/// Save charge limit for restoring
#[serde(skip)]
pub base_charge_control_end_threshold: u8,
pub panel_od: bool,
pub boot_sound: bool,
pub mini_led_mode: bool,
pub disable_nvidia_powerd_on_battery: bool,
/// An optional command/script to run when power is changed to AC
pub ac_command: String,
/// An optional command/script to run when power is changed to battery
pub bat_command: String,
/// Set true if energy_performance_preference should be set if the
/// throttle/platform profile is changed
pub throttle_policy_linked_epp: bool,
/// Which throttle/profile to use on battery power
pub throttle_policy_on_battery: ThrottlePolicy,
/// platform profile is changed
pub platform_profile_linked_epp: bool,
/// Which platform profile to use on battery power
pub platform_profile_on_battery: PlatformProfile,
/// Should the throttle policy be set on bat/ac change?
pub change_throttle_policy_on_battery: bool,
/// Which throttle/profile to use on AC power
pub throttle_policy_on_ac: ThrottlePolicy,
/// Should the throttle policy be set on bat/ac change?
pub change_throttle_policy_on_ac: bool,
/// The energy_performance_preference for this throttle/platform profile
pub throttle_quiet_epp: CPUEPP,
/// The energy_performance_preference for this throttle/platform profile
pub throttle_balanced_epp: CPUEPP,
/// The energy_performance_preference for this throttle/platform profile
pub throttle_performance_epp: CPUEPP,
pub tunings: HashMap<ThrottlePolicy, HashMap<FirmwareAttribute, i32>>,
pub change_platform_profile_on_battery: bool,
/// Which platform profile to use on AC power
pub platform_profile_on_ac: PlatformProfile,
/// Should the platform profile be set on bat/ac change?
pub change_platform_profile_on_ac: bool,
/// The energy_performance_preference for this platform profile
pub profile_quiet_epp: CPUEPP,
/// The energy_performance_preference for this platform profile
pub profile_balanced_epp: CPUEPP,
/// The energy_performance_preference for this platform profile
pub profile_performance_epp: CPUEPP,
pub ac_profile_tunings: Tunings,
pub dc_profile_tunings: Tunings,
pub armoury_settings: HashMap<FirmwareAttribute, i32>,
/// Temporary state for AC/Batt
#[serde(skip)]
pub last_power_plugged: u8
}
impl Config {
pub fn select_tunings(
&mut self,
power_plugged: bool,
profile: PlatformProfile
) -> &mut HashMap<FirmwareAttribute, i32> {
let config = if power_plugged {
&mut self.ac_profile_tunings
} else {
&mut self.dc_profile_tunings
};
config.entry(profile).or_insert_with(HashMap::new)
}
}
impl Default for Config {
fn default() -> Self {
Self {
charge_control_end_threshold: 100,
base_charge_control_end_threshold: 100,
panel_od: false,
boot_sound: false,
mini_led_mode: false,
disable_nvidia_powerd_on_battery: true,
ac_command: Default::default(),
bat_command: Default::default(),
throttle_policy_linked_epp: true,
throttle_policy_on_battery: ThrottlePolicy::Quiet,
change_throttle_policy_on_battery: true,
throttle_policy_on_ac: ThrottlePolicy::Performance,
change_throttle_policy_on_ac: true,
throttle_quiet_epp: CPUEPP::Power,
throttle_balanced_epp: CPUEPP::BalancePower,
throttle_performance_epp: CPUEPP::Performance,
tunings: HashMap::default(),
platform_profile_linked_epp: true,
platform_profile_on_battery: PlatformProfile::Quiet,
change_platform_profile_on_battery: true,
platform_profile_on_ac: PlatformProfile::Performance,
change_platform_profile_on_ac: true,
profile_quiet_epp: CPUEPP::Power,
profile_balanced_epp: CPUEPP::BalancePower,
profile_performance_epp: CPUEPP::Performance,
ac_profile_tunings: HashMap::default(),
dc_profile_tunings: HashMap::default(),
armoury_settings: HashMap::default(),
last_power_plugged: Default::default()
}
}
@@ -76,8 +90,8 @@ impl StdConfig for Config {
Config {
charge_control_end_threshold: 100,
disable_nvidia_powerd_on_battery: true,
throttle_policy_on_battery: ThrottlePolicy::Quiet,
throttle_policy_on_ac: ThrottlePolicy::Performance,
platform_profile_on_battery: PlatformProfile::Quiet,
platform_profile_on_ac: PlatformProfile::Performance,
ac_command: String::new(),
bat_command: String::new(),
..Default::default()
@@ -106,14 +120,14 @@ pub struct Config601 {
pub disable_nvidia_powerd_on_battery: bool,
pub ac_command: String,
pub bat_command: String,
pub throttle_policy_linked_epp: bool,
pub throttle_policy_on_battery: ThrottlePolicy,
pub change_throttle_policy_on_battery: bool,
pub throttle_policy_on_ac: ThrottlePolicy,
pub change_throttle_policy_on_ac: bool,
pub throttle_quiet_epp: CPUEPP,
pub throttle_balanced_epp: CPUEPP,
pub throttle_performance_epp: CPUEPP,
pub platform_profile_linked_epp: bool,
pub platform_profile_on_battery: PlatformProfile,
pub change_platform_profile_on_battery: bool,
pub platform_profile_on_ac: PlatformProfile,
pub change_platform_profile_on_ac: bool,
pub profile_quiet_epp: CPUEPP,
pub profile_balanced_epp: CPUEPP,
pub profile_performance_epp: CPUEPP,
#[serde(skip_serializing_if = "Option::is_none", default)]
pub ppt_pl1_spl: Option<u8>,
#[serde(skip_serializing_if = "Option::is_none", default)]
@@ -140,22 +154,21 @@ impl From<Config601> for Config {
// Restore the base charge limit
charge_control_end_threshold: c.charge_control_end_threshold,
base_charge_control_end_threshold: c.charge_control_end_threshold,
panel_od: c.panel_od,
boot_sound: c.boot_sound,
disable_nvidia_powerd_on_battery: c.disable_nvidia_powerd_on_battery,
ac_command: c.ac_command,
bat_command: c.bat_command,
mini_led_mode: c.mini_led_mode,
throttle_policy_linked_epp: c.throttle_policy_linked_epp,
throttle_policy_on_battery: c.throttle_policy_on_battery,
change_throttle_policy_on_battery: c.change_throttle_policy_on_battery,
throttle_policy_on_ac: c.throttle_policy_on_ac,
change_throttle_policy_on_ac: c.change_throttle_policy_on_ac,
throttle_quiet_epp: c.throttle_quiet_epp,
throttle_balanced_epp: c.throttle_balanced_epp,
throttle_performance_epp: c.throttle_performance_epp,
platform_profile_linked_epp: c.platform_profile_linked_epp,
platform_profile_on_battery: c.platform_profile_on_battery,
change_platform_profile_on_battery: c.change_platform_profile_on_battery,
platform_profile_on_ac: c.platform_profile_on_ac,
change_platform_profile_on_ac: c.change_platform_profile_on_ac,
profile_quiet_epp: c.profile_quiet_epp,
profile_balanced_epp: c.profile_balanced_epp,
profile_performance_epp: c.profile_performance_epp,
last_power_plugged: c.last_power_plugged,
tunings: HashMap::default()
ac_profile_tunings: HashMap::default(),
dc_profile_tunings: HashMap::default(),
armoury_settings: HashMap::default()
}
}
}

67
asusd/src/ctrl_fancurves.rs
View File

@@ -4,7 +4,7 @@ use std::sync::Arc;
use config_traits::{StdConfig, StdConfigLoad};
use futures_lite::StreamExt;
use log::{debug, error, info, warn};
use rog_platform::platform::{RogPlatform, ThrottlePolicy};
use rog_platform::platform::{PlatformProfile, RogPlatform};
use rog_profiles::error::ProfileError;
use rog_profiles::fan_curve_set::CurveData;
use rog_profiles::{find_fan_curve_node, FanCurvePU, FanCurveProfiles};
@@ -23,7 +23,7 @@ pub const FAN_CURVE_ZBUS_PATH: &str = "/xyz/ljones";
pub struct FanCurveConfig {
pub profiles: FanCurveProfiles,
#[serde(skip)]
pub current: u8
pub current: PlatformProfile
}
impl StdConfig for FanCurveConfig {
@@ -54,7 +54,7 @@ pub struct CtrlFanCurveZbus {
impl CtrlFanCurveZbus {
pub fn new() -> Result<Self, RogError> {
let platform = RogPlatform::new()?;
if platform.has_throttle_thermal_policy() {
if platform.has_platform_profile() {
info!("Device has profile control available");
find_fan_curve_node()?;
info!("Device has fan curves available");
@@ -65,16 +65,16 @@ impl CtrlFanCurveZbus {
if config.profiles.balanced.is_empty() || !config.file_path().exists() {
info!("Fetching default fan curves");
let current = platform.get_throttle_thermal_policy()?;
let current = platform.get_platform_profile()?;
for this in [
ThrottlePolicy::Balanced,
ThrottlePolicy::Performance,
ThrottlePolicy::Quiet
PlatformProfile::Balanced,
PlatformProfile::Performance,
PlatformProfile::Quiet
] {
// For each profile we need to switch to it before we
// can read the existing values from hardware. The ACPI method used
// for this is what limits us.
platform.set_throttle_thermal_policy(this.into())?;
platform.set_platform_profile(this.into())?;
let mut dev = find_fan_curve_node()?;
fan_curves.set_active_curve_to_defaults(this, &mut dev)?;
@@ -83,7 +83,7 @@ impl CtrlFanCurveZbus {
info!("{}", String::from(curve));
}
}
platform.set_throttle_thermal_policy(current)?;
platform.set_platform_profile(current.as_str())?;
config.profiles = fan_curves;
config.write();
} else {
@@ -107,7 +107,7 @@ impl CtrlFanCurveZbus {
/// fan curve if in the same profile mode
async fn set_fan_curves_enabled(
&mut self,
profile: ThrottlePolicy,
profile: PlatformProfile,
enabled: bool
) -> zbus::fdo::Result<()> {
self.config
@@ -128,7 +128,7 @@ impl CtrlFanCurveZbus {
/// activate a fan curve if in the same profile mode
async fn set_profile_fan_curve_enabled(
&mut self,
profile: ThrottlePolicy,
profile: PlatformProfile,
fan: FanCurvePU,
enabled: bool
) -> zbus::fdo::Result<()> {
@@ -149,7 +149,7 @@ impl CtrlFanCurveZbus {
/// Get the fan-curve data for the currently active ThrottlePolicy
async fn fan_curve_data(
&mut self,
profile: ThrottlePolicy
profile: PlatformProfile
) -> zbus::fdo::Result<Vec<CurveData>> {
let curve = self
.config
@@ -165,7 +165,7 @@ impl CtrlFanCurveZbus {
/// Will also activate the fan curve if the user is in the same mode.
async fn set_fan_curve(
&mut self,
profile: ThrottlePolicy,
profile: PlatformProfile,
curve: CurveData
) -> zbus::fdo::Result<()> {
self.config
@@ -173,7 +173,7 @@ impl CtrlFanCurveZbus {
.await
.profiles
.save_fan_curve(curve, profile)?;
let active: ThrottlePolicy = self.platform.get_throttle_thermal_policy()?.into();
let active: PlatformProfile = self.platform.get_platform_profile()?.into();
if active == profile {
self.config
.lock()
@@ -190,15 +190,15 @@ impl CtrlFanCurveZbus {
///
/// Each platform_profile has a different default and the default can be
/// read only for the currently active profile.
async fn set_curves_to_defaults(&mut self, profile: ThrottlePolicy) -> zbus::fdo::Result<()> {
let active = self.platform.get_throttle_thermal_policy()?;
self.platform.set_throttle_thermal_policy(profile.into())?;
async fn set_curves_to_defaults(&mut self, profile: PlatformProfile) -> zbus::fdo::Result<()> {
let active = self.platform.get_platform_profile()?;
self.platform.set_platform_profile(profile.into())?;
self.config
.lock()
.await
.profiles
.set_active_curve_to_defaults(profile, &mut find_fan_curve_node()?)?;
self.platform.set_throttle_thermal_policy(active)?;
self.platform.set_platform_profile(active.as_str())?;
self.config.lock().await.write();
Ok(())
}
@@ -208,16 +208,16 @@ impl CtrlFanCurveZbus {
///
/// Each platform_profile has a different default and the defualt can be
/// read only for the currently active profile.
async fn reset_profile_curves(&self, profile: ThrottlePolicy) -> zbus::fdo::Result<()> {
let active = self.platform.get_throttle_thermal_policy()?;
async fn reset_profile_curves(&self, profile: PlatformProfile) -> zbus::fdo::Result<()> {
let active = self.platform.get_platform_profile()?;
self.platform.set_throttle_thermal_policy(profile.into())?;
self.platform.set_platform_profile(profile.into())?;
self.config
.lock()
.await
.profiles
.set_active_curve_to_defaults(active.into(), &mut find_fan_curve_node()?)?;
self.platform.set_throttle_thermal_policy(active)?;
.set_active_curve_to_defaults((&active).into(), &mut find_fan_curve_node()?)?;
self.platform.set_platform_profile(active.as_str())?;
self.config.lock().await.write();
Ok(())
@@ -236,26 +236,31 @@ impl CtrlTask for CtrlFanCurveZbus {
}
async fn create_tasks(&self, _signal_ctxt: SignalEmitter<'static>) -> Result<(), RogError> {
let watch_throttle_thermal_policy = self.platform.monitor_throttle_thermal_policy()?;
let watch_platform_profile = self.platform.monitor_platform_profile()?;
let platform = self.platform.clone();
let config = self.config.clone();
let fan_curves = self.config.clone();
tokio::spawn(async move {
let mut buffer = [0; 32];
if let Ok(mut stream) = watch_throttle_thermal_policy.into_event_stream(&mut buffer) {
if let Ok(mut stream) = watch_platform_profile.into_event_stream(&mut buffer) {
while (stream.next().await).is_some() {
debug!("watch_throttle_thermal_policy changed");
if let Ok(profile) = platform.get_throttle_thermal_policy().map_err(|e| {
error!("get_throttle_thermal_policy error: {e}");
}) {
debug!("watch_platform_profile changed");
if let Ok(profile) =
platform
.get_platform_profile()
.map(|p| p.into())
.map_err(|e| {
error!("get_platform_profile error: {e}");
})
{
if profile != config.lock().await.current {
fan_curves
.lock()
.await
.profiles
.write_profile_curve_to_platform(
profile.into(),
profile,
&mut find_fan_curve_node().unwrap()
)
.map_err(|e| warn!("write_profile_curve_to_platform, {}", e))
@@ -274,7 +279,7 @@ impl CtrlTask for CtrlFanCurveZbus {
impl crate::Reloadable for CtrlFanCurveZbus {
/// Fetch the active profile and use that to set all related components up
async fn reload(&mut self) -> Result<(), RogError> {
let active = self.platform.get_throttle_thermal_policy()?.into();
let active = self.platform.get_platform_profile()?.into();
let mut config = self.config.lock().await;
if let Ok(mut device) = find_fan_curve_node() {
config

465
asusd/src/ctrl_platform.rs
View File

@@ -4,17 +4,19 @@ use std::sync::Arc;
use config_traits::StdConfig;
use log::{debug, error, info, warn};
use rog_platform::asus_armoury::FirmwareAttributes;
use rog_platform::cpu::{CPUControl, CPUGovernor, CPUEPP};
use rog_platform::platform::{GpuMode, Properties, RogPlatform, ThrottlePolicy};
use rog_platform::platform::{PlatformProfile, Properties, RogPlatform};
use rog_platform::power::AsusPower;
use zbus::export::futures_util::lock::Mutex;
use zbus::fdo::Error as FdoErr;
use zbus::object_server::SignalEmitter;
use zbus::{interface, Connection};
use crate::asus_armoury::set_config_or_default;
use crate::config::Config;
use crate::error::RogError;
use crate::{task_watch_item, task_watch_item_notify, CtrlTask, ReloadAndNotify};
use crate::{task_watch_item, CtrlTask, ReloadAndNotify};
const PLATFORM_ZBUS_PATH: &str = "/xyz/ljones";
@@ -37,28 +39,6 @@ macro_rules! platform_get_value {
}
}
macro_rules! platform_set_value {
($self:ident, $property:tt, $prop_name:literal, $new_value:expr) => {
concat_idents::concat_idents!(has = has_, $property {
if $self.platform.has() {
concat_idents::concat_idents!(set = set_, $property {
$self.platform.set($new_value).map_err(|err| {
error!("RogPlatform: {} {err}", $prop_name);
FdoErr::Failed(format!("RogPlatform: {} {err}", $prop_name))
})?;
});
let mut lock = $self.config.lock().await;
lock.$property = $new_value;
lock.write();
Ok(())
} else {
debug!("RogPlatform: {} not supported", $prop_name);
Err(FdoErr::NotSupported(format!("RogPlatform: {} not supported", $prop_name)))
}
})
}
}
#[derive(Clone)]
pub struct CtrlPlatform {
power: AsusPower,
@@ -75,12 +55,6 @@ impl CtrlPlatform {
) -> Result<Self, RogError> {
let platform = RogPlatform::new()?;
let power = AsusPower::new()?;
if !platform.has_gpu_mux_mode() {
info!("G-Sync Switchable Graphics or GPU MUX not detected");
info!("Standard graphics switching will still work.");
}
let config1 = config.clone();
let config_path = config_path.to_owned();
@@ -146,17 +120,6 @@ impl CtrlPlatform {
Ok(ret_self)
}
fn set_gfx_mode(&self, mode: GpuMode) -> Result<(), RogError> {
self.platform.set_gpu_mux_mode(mode.to_mux_attr())?;
// self.update_initramfs(enable)?;
if mode == GpuMode::Ultimate {
info!("Set system-level graphics mode: Dedicated Nvidia");
} else {
info!("Set system-level graphics mode: Optimus");
}
Ok(())
}
async fn restore_charge_limit(&self) {
let limit = self.config.lock().await.base_charge_control_end_threshold;
if limit > 0
@@ -240,40 +203,38 @@ impl CtrlPlatform {
}
}
async fn get_config_epp_for_throttle(&self, throttle: ThrottlePolicy) -> CPUEPP {
async fn get_config_epp_for_throttle(&self, throttle: PlatformProfile) -> CPUEPP {
match throttle {
ThrottlePolicy::Balanced => self.config.lock().await.throttle_balanced_epp,
ThrottlePolicy::Performance => self.config.lock().await.throttle_performance_epp,
ThrottlePolicy::Quiet => self.config.lock().await.throttle_quiet_epp
PlatformProfile::Balanced => self.config.lock().await.profile_balanced_epp,
PlatformProfile::Performance => self.config.lock().await.profile_performance_epp,
PlatformProfile::Quiet => self.config.lock().await.profile_quiet_epp
}
}
async fn update_policy_ac_or_bat(&self, power_plugged: bool, change_epp: bool) {
if power_plugged && !self.config.lock().await.change_throttle_policy_on_ac {
if power_plugged && !self.config.lock().await.change_platform_profile_on_ac {
debug!(
"Power status changed but set_throttle_policy_on_ac set false. Not setting the \
"Power status changed but set_platform_profile_on_ac set false. Not setting the \
thing"
);
return;
}
if !power_plugged && !self.config.lock().await.change_throttle_policy_on_battery {
if !power_plugged && !self.config.lock().await.change_platform_profile_on_battery {
debug!(
"Power status changed but set_throttle_policy_on_battery set false. Not setting \
"Power status changed but set_platform_profile_on_battery set false. Not setting \
the thing"
);
return;
}
let throttle = if power_plugged {
self.config.lock().await.throttle_policy_on_ac
self.config.lock().await.platform_profile_on_ac
} else {
self.config.lock().await.throttle_policy_on_battery
self.config.lock().await.platform_profile_on_battery
};
debug!("Setting {throttle:?} before EPP");
let epp = self.get_config_epp_for_throttle(throttle).await;
self.platform
.set_throttle_thermal_policy(throttle.into())
.ok();
self.platform.set_platform_profile(throttle.into()).ok();
self.check_and_set_epp(epp, change_epp);
}
}
@@ -315,13 +276,7 @@ impl CtrlPlatform {
Properties::ChargeControlEndThreshold
);
platform_name!(dgpu_disable, Properties::DgpuDisable);
platform_name!(gpu_mux_mode, Properties::GpuMuxMode);
platform_name!(boot_sound, Properties::PostAnimationSound);
platform_name!(panel_od, Properties::PanelOd);
platform_name!(mini_led_mode, Properties::MiniLedMode);
platform_name!(egpu_enable, Properties::EgpuEnable);
platform_name!(throttle_thermal_policy, Properties::ThrottlePolicy);
platform_name!(platform_profile, Properties::ThrottlePolicy);
supported
}
@@ -357,147 +312,121 @@ impl CtrlPlatform {
Ok(())
}
#[zbus(property)]
fn gpu_mux_mode(&self) -> Result<u8, FdoErr> {
self.platform.get_gpu_mux_mode().map_err(|err| {
warn!("get_gpu_mux_mode {err}");
FdoErr::NotSupported("RogPlatform: set_gpu_mux_mode not supported".to_owned())
})
}
#[zbus(property)]
async fn set_gpu_mux_mode(&mut self, mode: u8) -> Result<(), FdoErr> {
if self.platform.has_gpu_mux_mode() {
self.set_gfx_mode(mode.into()).map_err(|err| {
warn!("set_gpu_mux_mode {}", err);
FdoErr::Failed(format!("RogPlatform: set_gpu_mux_mode: {err}"))
})?;
self.config.lock().await.write();
} else {
return Err(FdoErr::NotSupported(
"RogPlatform: set_gpu_mux_mode not supported".to_owned()
));
}
Ok(())
}
/// Toggle to next platform_profile. Names provided by `Profiles`.
/// If fan-curves are supported will also activate a fan curve for profile.
async fn next_throttle_thermal_policy(
async fn next_platform_profile(
&mut self,
#[zbus(signal_context)] ctxt: SignalEmitter<'_>
) -> Result<(), FdoErr> {
let policy: ThrottlePolicy =
platform_get_value!(self, throttle_thermal_policy, "throttle_thermal_policy")
.map(|n| n.into())?;
let policy = ThrottlePolicy::next(policy);
let policy: PlatformProfile =
platform_get_value!(self, platform_profile, "platform_profile").map(|n| n.into())?;
let policy = PlatformProfile::next(policy);
if self.platform.has_throttle_thermal_policy() {
let change_epp = self.config.lock().await.throttle_policy_linked_epp;
if self.platform.has_platform_profile() {
let change_epp = self.config.lock().await.platform_profile_linked_epp;
let epp = self.get_config_epp_for_throttle(policy).await;
self.check_and_set_epp(epp, change_epp);
self.platform
.set_throttle_thermal_policy(policy.into())
.set_platform_profile(policy.into())
.map_err(|err| {
warn!("throttle_thermal_policy {}", err);
FdoErr::Failed(format!("RogPlatform: throttle_thermal_policy: {err}"))
warn!("platform_profile {}", err);
FdoErr::Failed(format!("RogPlatform: platform_profile: {err}"))
})?;
Ok(self.throttle_thermal_policy_changed(&ctxt).await?)
Ok(self.platform_profile_changed(&ctxt).await?)
} else {
Err(FdoErr::NotSupported(
"RogPlatform: throttle_thermal_policy not supported".to_owned()
"RogPlatform: platform_profile not supported".to_owned()
))
}
}
#[zbus(property)]
fn throttle_thermal_policy(&self) -> Result<ThrottlePolicy, FdoErr> {
platform_get_value!(self, throttle_thermal_policy, "throttle_thermal_policy")
.map(|n| n.into())
fn platform_profile(&self) -> Result<PlatformProfile, FdoErr> {
platform_get_value!(self, platform_profile, "platform_profile").map(|n| n.into())
}
#[zbus(property)]
async fn set_throttle_thermal_policy(&mut self, policy: ThrottlePolicy) -> Result<(), FdoErr> {
async fn set_platform_profile(&mut self, policy: PlatformProfile) -> Result<(), FdoErr> {
// TODO: watch for external changes
if self.platform.has_throttle_thermal_policy() {
let change_epp = self.config.lock().await.throttle_policy_linked_epp;
if self.platform.has_platform_profile() {
let change_epp = self.config.lock().await.platform_profile_linked_epp;
let epp = self.get_config_epp_for_throttle(policy).await;
self.check_and_set_epp(epp, change_epp);
self.config.lock().await.write();
self.platform
.set_throttle_thermal_policy(policy.into())
.set_platform_profile(policy.into())
.map_err(|err| {
warn!("throttle_thermal_policy {}", err);
FdoErr::Failed(format!("RogPlatform: throttle_thermal_policy: {err}"))
warn!("platform_profile {}", err);
FdoErr::Failed(format!("RogPlatform: platform_profile: {err}"))
})
} else {
Err(FdoErr::NotSupported(
"RogPlatform: throttle_thermal_policy not supported".to_owned()
"RogPlatform: platform_profile not supported".to_owned()
))
}
}
#[zbus(property)]
async fn throttle_policy_linked_epp(&self) -> Result<bool, FdoErr> {
Ok(self.config.lock().await.throttle_policy_linked_epp)
async fn platform_profile_linked_epp(&self) -> Result<bool, FdoErr> {
Ok(self.config.lock().await.platform_profile_linked_epp)
}
#[zbus(property)]
async fn set_throttle_policy_linked_epp(&self, linked: bool) -> Result<(), zbus::Error> {
self.config.lock().await.throttle_policy_linked_epp = linked;
async fn set_platform_profile_linked_epp(&self, linked: bool) -> Result<(), zbus::Error> {
self.config.lock().await.platform_profile_linked_epp = linked;
self.config.lock().await.write();
Ok(())
}
#[zbus(property)]
async fn throttle_policy_on_battery(&self) -> Result<ThrottlePolicy, FdoErr> {
Ok(self.config.lock().await.throttle_policy_on_battery)
async fn platform_profile_on_battery(&self) -> Result<PlatformProfile, FdoErr> {
Ok(self.config.lock().await.platform_profile_on_battery)
}
#[zbus(property)]
async fn set_throttle_policy_on_battery(
async fn set_platform_profile_on_battery(
&mut self,
policy: ThrottlePolicy
policy: PlatformProfile
) -> Result<(), FdoErr> {
self.config.lock().await.throttle_policy_on_battery = policy;
self.set_throttle_thermal_policy(policy).await?;
self.config.lock().await.platform_profile_on_battery = policy;
self.set_platform_profile(policy).await?;
self.config.lock().await.write();
Ok(())
}
#[zbus(property)]
async fn change_throttle_policy_on_battery(&self) -> Result<bool, FdoErr> {
Ok(self.config.lock().await.change_throttle_policy_on_battery)
async fn change_platform_profile_on_battery(&self) -> Result<bool, FdoErr> {
Ok(self.config.lock().await.change_platform_profile_on_battery)
}
#[zbus(property)]
async fn set_change_throttle_policy_on_battery(&mut self, change: bool) -> Result<(), FdoErr> {
self.config.lock().await.change_throttle_policy_on_battery = change;
async fn set_change_platform_profile_on_battery(&mut self, change: bool) -> Result<(), FdoErr> {
self.config.lock().await.change_platform_profile_on_battery = change;
self.config.lock().await.write();
Ok(())
}
#[zbus(property)]
async fn throttle_policy_on_ac(&self) -> Result<ThrottlePolicy, FdoErr> {
Ok(self.config.lock().await.throttle_policy_on_ac)
async fn platform_profile_on_ac(&self) -> Result<PlatformProfile, FdoErr> {
Ok(self.config.lock().await.platform_profile_on_ac)
}
#[zbus(property)]
async fn set_throttle_policy_on_ac(&mut self, policy: ThrottlePolicy) -> Result<(), FdoErr> {
self.config.lock().await.throttle_policy_on_ac = policy;
self.set_throttle_thermal_policy(policy).await?;
async fn set_platform_profile_on_ac(&mut self, policy: PlatformProfile) -> Result<(), FdoErr> {
self.config.lock().await.platform_profile_on_ac = policy;
self.set_platform_profile(policy).await?;
self.config.lock().await.write();
Ok(())
}
#[zbus(property)]
async fn change_throttle_policy_on_ac(&self) -> Result<bool, FdoErr> {
Ok(self.config.lock().await.change_throttle_policy_on_ac)
async fn change_platform_profile_on_ac(&self) -> Result<bool, FdoErr> {
Ok(self.config.lock().await.change_platform_profile_on_ac)
}
#[zbus(property)]
async fn set_change_throttle_policy_on_ac(&mut self, change: bool) -> Result<(), FdoErr> {
self.config.lock().await.change_throttle_policy_on_ac = change;
async fn set_change_platform_profile_on_ac(&mut self, change: bool) -> Result<(), FdoErr> {
self.config.lock().await.change_platform_profile_on_ac = change;
self.config.lock().await.write();
Ok(())
}
@@ -505,14 +434,14 @@ impl CtrlPlatform {
/// The energy_performance_preference for the quiet throttle/platform
/// profile
#[zbus(property)]
async fn throttle_quiet_epp(&self) -> Result<CPUEPP, FdoErr> {
Ok(self.config.lock().await.throttle_quiet_epp)
async fn profile_quiet_epp(&self) -> Result<CPUEPP, FdoErr> {
Ok(self.config.lock().await.profile_quiet_epp)
}
#[zbus(property)]
async fn set_throttle_quiet_epp(&mut self, epp: CPUEPP) -> Result<(), FdoErr> {
let change_pp = self.config.lock().await.throttle_policy_linked_epp;
self.config.lock().await.throttle_quiet_epp = epp;
async fn set_profile_quiet_epp(&mut self, epp: CPUEPP) -> Result<(), FdoErr> {
let change_pp = self.config.lock().await.platform_profile_linked_epp;
self.config.lock().await.profile_quiet_epp = epp;
self.check_and_set_epp(epp, change_pp);
self.config.lock().await.write();
Ok(())
@@ -521,14 +450,14 @@ impl CtrlPlatform {
/// The energy_performance_preference for the balanced throttle/platform
/// profile
#[zbus(property)]
async fn throttle_balanced_epp(&self) -> Result<CPUEPP, FdoErr> {
Ok(self.config.lock().await.throttle_balanced_epp)
async fn profile_balanced_epp(&self) -> Result<CPUEPP, FdoErr> {
Ok(self.config.lock().await.profile_balanced_epp)
}
#[zbus(property)]
async fn set_throttle_balanced_epp(&mut self, epp: CPUEPP) -> Result<(), FdoErr> {
let change_pp = self.config.lock().await.throttle_policy_linked_epp;
self.config.lock().await.throttle_balanced_epp = epp;
async fn set_profile_balanced_epp(&mut self, epp: CPUEPP) -> Result<(), FdoErr> {
let change_pp = self.config.lock().await.platform_profile_linked_epp;
self.config.lock().await.profile_balanced_epp = epp;
self.check_and_set_epp(epp, change_pp);
self.config.lock().await.write();
Ok(())
@@ -537,70 +466,18 @@ impl CtrlPlatform {
/// The energy_performance_preference for the performance throttle/platform
/// profile
#[zbus(property)]
async fn throttle_performance_epp(&self) -> Result<CPUEPP, FdoErr> {
Ok(self.config.lock().await.throttle_performance_epp)
async fn profile_performance_epp(&self) -> Result<CPUEPP, FdoErr> {
Ok(self.config.lock().await.profile_performance_epp)
}
#[zbus(property)]
async fn set_throttle_performance_epp(&mut self, epp: CPUEPP) -> Result<(), FdoErr> {
let change_pp = self.config.lock().await.throttle_policy_linked_epp;
self.config.lock().await.throttle_performance_epp = epp;
async fn set_profile_performance_epp(&mut self, epp: CPUEPP) -> Result<(), FdoErr> {
let change_pp = self.config.lock().await.platform_profile_linked_epp;
self.config.lock().await.profile_performance_epp = epp;
self.check_and_set_epp(epp, change_pp);
self.config.lock().await.write();
Ok(())
}
/// Get the `panel_od` value from platform. Updates the stored value in
/// internal config also.
#[zbus(property)]
fn panel_od(&self) -> Result<bool, FdoErr> {
platform_get_value!(self, panel_od, "panel_od")
}
#[zbus(property)]
async fn set_panel_od(&mut self, overdrive: bool) -> Result<(), FdoErr> {
platform_set_value!(self, panel_od, "panel_od", overdrive)?;
self.config.lock().await.write();
Ok(())
}
/// Get the `boot_sound` value from platform. Updates the stored value in
/// internal config also.
#[zbus(property)]
fn boot_sound(&self) -> Result<bool, FdoErr> {
platform_get_value!(self, boot_sound, "boot_sound")
}
#[zbus(property)]
async fn set_boot_sound(&mut self, on: bool) -> Result<(), FdoErr> {
platform_set_value!(self, boot_sound, "boot_sound", on)?;
self.config.lock().await.write();
Ok(())
}
/// Get the `panel_od` value from platform. Updates the stored value in
/// internal config also.
#[zbus(property)]
fn mini_led_mode(&self) -> Result<bool, FdoErr> {
platform_get_value!(self, mini_led_mode, "mini_led_mode")
}
#[zbus(property)]
async fn set_mini_led_mode(&mut self, on: bool) -> Result<(), FdoErr> {
platform_set_value!(self, mini_led_mode, "mini_led_mode", on)?;
self.config.lock().await.write();
Ok(())
}
#[zbus(property)]
fn dgpu_disable(&self) -> Result<bool, FdoErr> {
platform_get_value!(self, dgpu_disable, "dgpu_disable")
}
#[zbus(property)]
fn egpu_enable(&self) -> Result<bool, FdoErr> {
platform_get_value!(self, egpu_enable, "egpu_enable")
}
}
impl crate::ZbusRun for CtrlPlatform {
@@ -619,49 +496,43 @@ impl ReloadAndNotify for CtrlPlatform {
data: Self::Data
) -> Result<(), RogError> {
let mut config = self.config.lock().await;
info!("asusd.ron updated externally, reloading and updating internal copy");
if *config != data {
info!("asusd.ron updated externally, reloading and updating internal copy");
let mut base_charge_control_end_threshold = None;
let mut base_charge_control_end_threshold = None;
if self.power.has_charge_control_end_threshold() {
let limit = data.charge_control_end_threshold;
warn!("setting charge_control_end_threshold to {limit}");
self.power.set_charge_control_end_threshold(limit)?;
self.charge_control_end_threshold_changed(signal_context)
.await?;
base_charge_control_end_threshold = (config.base_charge_control_end_threshold > 0)
.then_some(config.base_charge_control_end_threshold)
.or(Some(limit));
}
if self.platform.has_throttle_thermal_policy()
&& config.throttle_policy_linked_epp != data.throttle_policy_linked_epp
{
// TODO: extra stuff
}
macro_rules! reload_and_notify {
($property:tt, $prop_name:literal) => {
concat_idents::concat_idents!(has = has_, $property {
if self.platform.has() && config.$property != data.$property {
concat_idents::concat_idents!(set = set_, $property {
self.platform
.set(data.$property)?;});
concat_idents::concat_idents!(changed = $property, _changed {
self.changed(signal_context).await?;});
}
})
}
if self.power.has_charge_control_end_threshold()
&& data.charge_control_end_threshold != config.charge_control_end_threshold
{
let limit = data.charge_control_end_threshold;
warn!("setting charge_control_end_threshold to {limit}");
self.power.set_charge_control_end_threshold(limit)?;
self.charge_control_end_threshold_changed(signal_context)
.await?;
base_charge_control_end_threshold = (config.base_charge_control_end_threshold > 0)
.then_some(config.base_charge_control_end_threshold)
.or(Some(limit));
}
reload_and_notify!(mini_led_mode, "mini_led_mode");
reload_and_notify!(panel_od, "panel_od");
reload_and_notify!(boot_sound, "boot_sound");
// reload_and_notify!(throttle_thermal_policy, "throttle_thermal_policy");
*config = data;
config.base_charge_control_end_threshold =
base_charge_control_end_threshold.unwrap_or_default();
if self.platform.has_platform_profile()
&& config.platform_profile_linked_epp != data.platform_profile_linked_epp
{
let profile: PlatformProfile = self.platform.get_platform_profile()?.into();
let epp = match profile {
PlatformProfile::Balanced => data.profile_balanced_epp,
PlatformProfile::Performance => data.profile_performance_epp,
PlatformProfile::Quiet => data.profile_quiet_epp
};
warn!("setting epp to {epp:?}");
self.check_and_set_epp(epp, true);
}
// reload_and_notify!(platform_profile, "platform_profile");
*config = data;
config.base_charge_control_end_threshold =
base_charge_control_end_threshold.unwrap_or_default();
}
Ok(())
}
}
@@ -678,26 +549,10 @@ impl crate::Reloadable for CtrlPlatform {
warn!("No charge_control_end_threshold found")
}
macro_rules! reload {
($property:tt, $prop_name:literal) => {
concat_idents::concat_idents!(has = has_, $property {
if self.platform.has() {
concat_idents::concat_idents!(set = set_, $property {
self.platform
.set(self.config.lock().await.$property)?;});
}
})
}
}
reload!(mini_led_mode, "mini_led_mode");
reload!(panel_od, "panel_od");
reload!(boot_sound, "boot_sound");
if let Ok(power_plugged) = self.power.get_online() {
self.config.lock().await.last_power_plugged = power_plugged;
if self.platform.has_throttle_thermal_policy() {
let change_epp = self.config.lock().await.throttle_policy_linked_epp;
if self.platform.has_platform_profile() {
let change_epp = self.config.lock().await.platform_profile_linked_epp;
self.update_policy_ac_or_bat(power_plugged > 0, change_epp)
.await;
}
@@ -709,20 +564,7 @@ impl crate::Reloadable for CtrlPlatform {
}
impl CtrlPlatform {
task_watch_item!(panel_od "panel_od" platform);
task_watch_item!(mini_led_mode "mini_led_mode" platform);
task_watch_item!(charge_control_end_threshold "charge_control_end_threshold" power);
task_watch_item_notify!(boot_sound platform);
task_watch_item_notify!(dgpu_disable platform);
task_watch_item_notify!(egpu_enable platform);
// NOTE: see note further below
task_watch_item_notify!(gpu_mux_mode platform);
}
impl CtrlTask for CtrlPlatform {
@@ -738,17 +580,6 @@ impl CtrlTask for CtrlPlatform {
move |sleeping| {
let platform1 = platform1.clone();
async move {
info!("RogPlatform reloading panel_od");
if !sleeping && platform1.platform.has_panel_od() {
platform1
.platform
.set_panel_od(platform1.config.lock().await.panel_od)
.map_err(|err| {
warn!("CtrlCharge: panel_od {}", err);
err
})
.ok();
}
// This block is commented out due to some kind of issue reported. Maybe the
// desktops used were storing a value whcih was then read here.
// Don't store it on suspend, assume that the current config setting is desired
@@ -768,9 +599,9 @@ impl CtrlTask for CtrlPlatform {
}
if let Ok(power_plugged) = platform1.power.get_online() {
if platform1.config.lock().await.last_power_plugged != power_plugged {
if !sleeping && platform1.platform.has_throttle_thermal_policy() {
if !sleeping && platform1.platform.has_platform_profile() {
let change_epp =
platform1.config.lock().await.throttle_policy_linked_epp;
platform1.config.lock().await.platform_profile_linked_epp;
platform1
.update_policy_ac_or_bat(power_plugged > 0, change_epp)
.await;
@@ -788,17 +619,6 @@ impl CtrlTask for CtrlPlatform {
async move {
info!("RogPlatform reloading panel_od");
let lock = platform2.config.lock().await;
if !shutting_down && platform2.platform.has_panel_od() {
platform2
.platform
.set_panel_od(lock.panel_od)
.map_err(|err| {
warn!("CtrlCharge: panel_od {}", err);
err
})
.ok();
}
if shutting_down
&& platform2.power.has_charge_control_end_threshold()
&& lock.base_charge_control_end_threshold > 0
@@ -825,8 +645,8 @@ impl CtrlTask for CtrlPlatform {
let platform3 = platform3.clone();
// power change
async move {
if platform3.platform.has_throttle_thermal_policy() {
let change_epp = platform3.config.lock().await.throttle_policy_linked_epp;
if platform3.platform.has_platform_profile() {
let change_epp = platform3.config.lock().await.platform_profile_linked_epp;
platform3
.update_policy_ac_or_bat(power_plugged, change_epp)
.await;
@@ -836,6 +656,24 @@ impl CtrlTask for CtrlPlatform {
if platform3.power.has_charge_control_end_threshold() && !power_plugged {
platform3.restore_charge_limit().await;
}
if let Ok(profile) = platform3
.platform
.get_platform_profile()
.map(|p| p.into())
.map_err(|e| {
error!("Platform: get_platform_profile error: {e}");
})
{
let attrs = FirmwareAttributes::new();
set_config_or_default(
&attrs,
&mut *platform3.config.lock().await,
power_plugged,
profile
)
.await;
}
}
}
)
@@ -843,40 +681,49 @@ impl CtrlTask for CtrlPlatform {
// This spawns a new task for every item.
// TODO: find a better way to manage this
self.watch_panel_od(signal_ctxt.clone()).await?;
self.watch_mini_led_mode(signal_ctxt.clone()).await?;
self.watch_charge_control_end_threshold(signal_ctxt.clone())
.await?;
self.watch_dgpu_disable(signal_ctxt.clone()).await?;
self.watch_egpu_enable(signal_ctxt.clone()).await?;
// NOTE: Can't have this as a watch because on a write to it, it reverts back to
// booted-with value as it does not actually change until reboot.
self.watch_gpu_mux_mode(signal_ctxt.clone()).await?;
self.watch_boot_sound(signal_ctxt.clone()).await?;
let watch_throttle_thermal_policy = self.platform.monitor_throttle_thermal_policy()?;
let watch_platform_profile = self.platform.monitor_platform_profile()?;
let ctrl = self.clone();
// Need a copy here, not ideal. But first use in asus_armoury.rs is
// moved to zbus
let attrs = FirmwareAttributes::new();
tokio::spawn(async move {
use futures_lite::StreamExt;
let mut buffer = [0; 32];
if let Ok(mut stream) = watch_throttle_thermal_policy.into_event_stream(&mut buffer) {
if let Ok(mut stream) = watch_platform_profile.into_event_stream(&mut buffer) {
while (stream.next().await).is_some() {
// this blocks
debug!("Platform: watch_throttle_thermal_policy changed");
debug!("Platform: watch_platform_profile changed");
if let Ok(profile) = ctrl
.platform
.get_throttle_thermal_policy()
.map(ThrottlePolicy::from)
.get_platform_profile()
.map(|p| p.into())
.map_err(|e| {
error!("Platform: get_throttle_thermal_policy error: {e}");
error!("Platform: get_platform_profile error: {e}");
})
{
let change_epp = ctrl.config.lock().await.throttle_policy_linked_epp;
let change_epp = ctrl.config.lock().await.platform_profile_linked_epp;
let epp = ctrl.get_config_epp_for_throttle(profile).await;
ctrl.check_and_set_epp(epp, change_epp);
ctrl.platform_profile_changed(&signal_ctxt).await.ok();
let power_plugged = ctrl
.power
.get_online()
.map_err(|e| {
error!("Could not get power status: {e:?}");
e
})
.unwrap_or_default();
set_config_or_default(
&attrs,
&mut *ctrl.config.lock().await,
power_plugged == 1,
profile
)
.await;
}
}
}

4
asusd/src/daemon.rs
View File

@@ -13,6 +13,7 @@ use asusd::{print_board_info, start_tasks, CtrlTask, DBUS_NAME};
use config_traits::{StdConfig, StdConfigLoad1};
use log::{error, info};
use rog_platform::platform::RogPlatform;
use rog_platform::power::AsusPower;
use zbus::fdo::ObjectManager;
#[tokio::main]
@@ -67,7 +68,8 @@ async fn start_daemon() -> Result<(), Box<dyn Error>> {
// supported.add_to_server(&mut connection).await;
let platform = RogPlatform::new()?; // TODO: maybe needs async mutex?
start_attributes_zbus(&server, platform, config.clone()).await?;
let power = AsusPower::new()?; // TODO: maybe needs async mutex?
start_attributes_zbus(&server, platform, power, config.clone()).await?;
match CtrlFanCurveZbus::new() {
Ok(ctrl) => {

2
rog-control-center/build.rs
View File

@@ -20,7 +20,7 @@ fn main() {
CompilerConfiguration::new()
// .embed_resources(EmbedResourcesKind::EmbedFiles)
.with_include_paths(vec![include])
.with_style("fluent-dark".into())
.with_style("fluent".into())
)
.unwrap();
}

65
rog-control-center/src/notify.rs
View File

@@ -11,7 +11,6 @@ use std::time::Duration;
use log::{debug, error, info, warn};
use notify_rust::{Hint, Notification, Timeout, Urgency};
use rog_dbus::zbus_platform::PlatformProxy;
use rog_platform::platform::GpuMode;
use rog_platform::power::AsusPower;
use serde::{Deserialize, Serialize};
@@ -154,39 +153,41 @@ pub fn start_notifications(
};
// GPU MUX Mode notif
let enabled_notifications_copy = config.clone();
tokio::spawn(async move {
let conn = zbus::Connection::system().await.map_err(|e| {
error!("zbus signal: receive_notify_gpu_mux_mode: {e}");
e
})?;
let proxy = PlatformProxy::new(&conn).await.map_err(|e| {
error!("zbus signal: receive_notify_gpu_mux_mode: {e}");
e
})?;
// TODO: need to get armoury attrs and iter to find
// let enabled_notifications_copy = config.clone();
// tokio::spawn(async move {
// let conn = zbus::Connection::system().await.map_err(|e| {
// error!("zbus signal: receive_notify_gpu_mux_mode: {e}");
// e
// })?;
// let proxy = PlatformProxy::new(&conn).await.map_err(|e| {
// error!("zbus signal: receive_notify_gpu_mux_mode: {e}");
// e
// })?;
let mut actual_mux_mode = GpuMode::Error;
if let Ok(mode) = proxy.gpu_mux_mode().await {
actual_mux_mode = GpuMode::from(mode);
}
// let mut actual_mux_mode = GpuMode::Error;
// if let Ok(mode) = proxy.gpu_mux_mode().await {
// actual_mux_mode = GpuMode::from(mode);
// }
info!("Started zbus signal thread: receive_notify_gpu_mux_mode");
while let Some(e) = proxy.receive_gpu_mux_mode_changed().await.next().await {
if let Ok(config) = enabled_notifications_copy.lock() {
if !config.notifications.enabled || !config.notifications.receive_notify_gfx {
continue;
}
}
if let Ok(out) = e.get().await {
let mode = GpuMode::from(out);
if mode == actual_mux_mode {
continue;
}
do_mux_notification("Reboot required. BIOS GPU MUX mode set to", &mode).ok();
}
}
Ok::<(), zbus::Error>(())
});
// info!("Started zbus signal thread: receive_notify_gpu_mux_mode");
// while let Some(e) =
// proxy.receive_gpu_mux_mode_changed().await.next().await { if let
// Ok(config) = enabled_notifications_copy.lock() { if
// !config.notifications.enabled || !config.notifications.receive_notify_gfx {
// continue;
// }
// }
// if let Ok(out) = e.get().await {
// let mode = GpuMode::from(out);
// if mode == actual_mux_mode {
// continue;
// }
// do_mux_notification("Reboot required. BIOS GPU MUX mode set to",
// &mode).ok(); }
// }
// Ok::<(), zbus::Error>(())
// });
let enabled_notifications_copy = config.clone();
// GPU Mode change/action notif

18
rog-control-center/src/tray.rs
View File

@@ -159,21 +159,23 @@ pub fn init_tray(_supported_properties: Vec<Properties>, config: Arc<Mutex<Confi
let rog_red = read_icon(&PathBuf::from("asus_notif_red.png"));
let tray = AsusTray {
let tray_init = AsusTray {
current_title: TRAY_LABEL.to_string(),
current_icon: rog_red.clone(),
proxy
};
let mut tray = tray
.spawn_without_dbus_name()
.await
.map_err(|e| {
// TODO: return an error to the UI
let mut tray;
match tray_init.spawn_without_dbus_name().await {
Ok(t) => tray = t,
Err(e) => {
log::error!(
"Tray unable to be initialised: {e:?}. Do you have a system tray enabled?"
)
})
.unwrap();
);
return;
}
}
info!("Tray started");
let rog_blue = read_icon(&PathBuf::from("asus_notif_blue.png"));

20
rog-control-center/src/types/fan_types.rs
View File

@@ -1,24 +1,24 @@
use rog_platform::platform::ThrottlePolicy;
use rog_platform::platform::PlatformProfile;
use rog_profiles::FanCurvePU;
use crate::{FanType, Profile};
impl From<Profile> for ThrottlePolicy {
impl From<Profile> for PlatformProfile {
fn from(value: Profile) -> Self {
match value {
Profile::Balanced => ThrottlePolicy::Balanced,
Profile::Performance => ThrottlePolicy::Performance,
Profile::Quiet => ThrottlePolicy::Quiet
Profile::Balanced => PlatformProfile::Balanced,
Profile::Performance => PlatformProfile::Performance,
Profile::Quiet => PlatformProfile::Quiet
}
}
}
impl From<ThrottlePolicy> for Profile {
fn from(value: ThrottlePolicy) -> Self {
impl From<PlatformProfile> for Profile {
fn from(value: PlatformProfile) -> Self {
match value {
ThrottlePolicy::Balanced => Profile::Balanced,
ThrottlePolicy::Performance => Profile::Performance,
ThrottlePolicy::Quiet => Profile::Quiet
PlatformProfile::Balanced => Profile::Balanced,
PlatformProfile::Performance => Profile::Performance,
PlatformProfile::Quiet => Profile::Quiet
}
}
}

2
rog-control-center/src/ui/mod.rs
View File

@@ -26,7 +26,7 @@ macro_rules! set_ui_callbacks {
let handle_copy = $handle.as_weak();
let proxy_copy = $proxy.clone();
let data = $handle.global::<$data>();
concat_idents::concat_idents!(on_set = on_set_, $proxy_fn {
concat_idents::concat_idents!(on_set = on_cb_, $proxy_fn {
data.on_set(move |value| {
let proxy_copy = proxy_copy.clone();
let handle_copy = handle_copy.clone();

222
rog-control-center/src/ui/setup_anime.rs
View File

@@ -1,7 +1,8 @@
use std::sync::{Arc, Mutex};
use log::{error, info, warn};
use log::{error, info};
use rog_anime::Animations;
use rog_dbus::find_iface_async;
use rog_dbus::zbus_anime::AnimeProxy;
use slint::ComponentHandle;
@@ -12,124 +13,123 @@ use crate::{set_ui_callbacks, set_ui_props_async, AnimePageData, MainWindow};
pub fn setup_anime_page(ui: &MainWindow, _states: Arc<Mutex<Config>>) {
let handle = ui.as_weak();
tokio::spawn(async move {
let Ok(conn) = zbus::Connection::system().await.map_err(|e| warn!("{e:}")) else {
return;
};
let Ok(anime) = AnimeProxy::new(&conn).await.map_err(|e| warn!("{e:}")) else {
info!("This device may not have an AniMe. If not then the error can be ignored");
let Ok(animes) = find_iface_async::<AnimeProxy>("xyz.ljones.Anime").await else {
info!("This device appears to have no aura interfaces");
return;
};
set_ui_props_async!(handle, anime, AnimePageData, brightness);
set_ui_props_async!(handle, anime, AnimePageData, builtins_enabled);
set_ui_props_async!(handle, anime, AnimePageData, enable_display);
set_ui_props_async!(handle, anime, AnimePageData, off_when_lid_closed);
set_ui_props_async!(handle, anime, AnimePageData, off_when_suspended);
set_ui_props_async!(handle, anime, AnimePageData, off_when_unplugged);
for anime in animes {
set_ui_props_async!(handle, anime, AnimePageData, brightness);
set_ui_props_async!(handle, anime, AnimePageData, builtins_enabled);
set_ui_props_async!(handle, anime, AnimePageData, enable_display);
set_ui_props_async!(handle, anime, AnimePageData, off_when_lid_closed);
set_ui_props_async!(handle, anime, AnimePageData, off_when_suspended);
set_ui_props_async!(handle, anime, AnimePageData, off_when_unplugged);
let builtins = anime.builtin_animations().await.unwrap_or_default();
handle
.upgrade_in_event_loop(move |handle| {
{
let global = handle.global::<AnimePageData>();
global.set_boot_anim(builtins.boot as i32);
global.set_awake_anim(builtins.awake as i32);
global.set_sleep_anim(builtins.sleep as i32);
global.set_shutdown_anim(builtins.shutdown as i32);
let builtins = anime.builtin_animations().await.unwrap_or_default();
handle
.upgrade_in_event_loop(move |handle| {
{
let global = handle.global::<AnimePageData>();
global.set_boot_anim(builtins.boot as i32);
global.set_awake_anim(builtins.awake as i32);
global.set_sleep_anim(builtins.sleep as i32);
global.set_shutdown_anim(builtins.shutdown as i32);
let handle_copy = handle.as_weak();
let anime_copy = anime.clone();
global.on_set_builtin_animations(move |boot, awake, sleep, shutdown| {
let handle_copy = handle_copy.clone();
let anime_copy = anime_copy.clone();
tokio::spawn(async move {
show_toast(
"Anime builtin animations changed".into(),
"Failed to set Anime builtin animations".into(),
handle_copy,
anime_copy
.set_builtin_animations(Animations {
boot: boot.into(),
awake: awake.into(),
sleep: sleep.into(),
shutdown: shutdown.into()
})
.await
);
let handle_copy = handle.as_weak();
let anime_copy = anime.clone();
global.on_cb_builtin_animations(move |boot, awake, sleep, shutdown| {
let handle_copy = handle_copy.clone();
let anime_copy = anime_copy.clone();
tokio::spawn(async move {
show_toast(
"Anime builtin animations changed".into(),
"Failed to set Anime builtin animations".into(),
handle_copy,
anime_copy
.set_builtin_animations(Animations {
boot: boot.into(),
awake: awake.into(),
sleep: sleep.into(),
shutdown: shutdown.into()
})
.await
);
});
});
});
let handle_copy = handle.as_weak();
let anime_copy = anime.clone();
tokio::spawn(async move {
let mut x = anime_copy.receive_builtin_animations_changed().await;
use zbus::export::futures_util::StreamExt;
while let Some(e) = x.next().await {
if let Ok(out) = e.get().await {
handle_copy
.upgrade_in_event_loop(move |handle| {
handle
.global::<AnimePageData>()
.set_boot_anim(out.boot.into());
handle
.global::<AnimePageData>()
.set_awake_anim(out.awake.into());
handle
.global::<AnimePageData>()
.set_sleep_anim(out.sleep.into());
handle
.global::<AnimePageData>()
.set_shutdown_anim(out.shutdown.into());
})
.ok();
let handle_copy = handle.as_weak();
let anime_copy = anime.clone();
tokio::spawn(async move {
let mut x = anime_copy.receive_builtin_animations_changed().await;
use zbus::export::futures_util::StreamExt;
while let Some(e) = x.next().await {
if let Ok(out) = e.get().await {
handle_copy
.upgrade_in_event_loop(move |handle| {
handle
.global::<AnimePageData>()
.set_boot_anim(out.boot.into());
handle
.global::<AnimePageData>()
.set_awake_anim(out.awake.into());
handle
.global::<AnimePageData>()
.set_sleep_anim(out.sleep.into());
handle
.global::<AnimePageData>()
.set_shutdown_anim(out.shutdown.into());
})
.ok();
}
}
}
});
}
});
}
set_ui_callbacks!(handle,
AnimePageData(.into()),
anime.brightness(.into()),
"Anime LED brightness successfully set to {}",
"Setting Anime LED brightness failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.builtins_enabled(),
"Keyboard LED mode successfully set to {}",
"Setting keyboard LEDmode failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.enable_display(),
"Anime display successfully set to {}",
"Setting Anime display failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.off_when_lid_closed(),
"Anime off_when_lid_closed successfully set to {}",
"Setting Anime off_when_lid_closed failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.off_when_suspended(),
"Anime off_when_suspended successfully set to {}",
"Setting Anime off_when_suspended failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.off_when_unplugged(),
"Anime off_when_unplugged successfully set to {}",
"Setting Anime off_when_unplugged failed"
);
})
.map_err(|e| error!("setup_anime_page: upgrade_in_event_loop: {e:?}"))
.ok();
set_ui_callbacks!(handle,
AnimePageData(.into()),
anime.brightness(.into()),
"Anime LED brightness successfully set to {}",
"Setting Anime LED brightness failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.builtins_enabled(),
"Keyboard LED mode successfully set to {}",
"Setting keyboard LEDmode failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.enable_display(),
"Anime display successfully set to {}",
"Setting Anime display failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.off_when_lid_closed(),
"Anime off_when_lid_closed successfully set to {}",
"Setting Anime off_when_lid_closed failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.off_when_suspended(),
"Anime off_when_suspended successfully set to {}",
"Setting Anime off_when_suspended failed"
);
set_ui_callbacks!(
handle,
AnimePageData(),
anime.off_when_unplugged(),
"Anime off_when_unplugged successfully set to {}",
"Setting Anime off_when_unplugged failed"
);
})
.map_err(|e| error!("setup_anime_page: upgrade_in_event_loop: {e:?}"))
.ok();
}
});
}

6
rog-control-center/src/ui/setup_aura.rs
View File

@@ -65,12 +65,12 @@ async fn find_aura_iface() -> Result<AuraProxy<'static>, Box<dyn std::error::Err
}
pub fn setup_aura_page(ui: &MainWindow, _states: Arc<Mutex<Config>>) {
ui.global::<AuraPageData>().on_set_hex_from_colour(|c| {
ui.global::<AuraPageData>().on_cb_hex_from_colour(|c| {
format!("#{:02X}{:02X}{:02X}", c.red(), c.green(), c.blue()).into()
});
ui.global::<AuraPageData>()
.on_set_hex_to_colour(|s| decode_hex(s.as_str()).into());
.on_cb_hex_to_colour(|s| decode_hex(s.as_str()).into());
let handle = ui.as_weak();
tokio::spawn(async move {
@@ -189,7 +189,7 @@ pub fn setup_aura_page(ui: &MainWindow, _states: Arc<Mutex<Config>>) {
.upgrade_in_event_loop(|handle| {
handle
.global::<AuraPageData>()
.on_set_led_power(move |power| {
.on_cb_led_power(move |power| {
let handle_copy = handle_copy.clone();
let proxy_copy = aura.clone();
let power: LaptopAuraPower = power.into();

14
rog-control-center/src/ui/setup_fans.rs
View File

@@ -2,7 +2,7 @@ use std::sync::{Arc, Mutex};
use log::{error, info};
use rog_dbus::zbus_fan_curves::FanCurvesProxy;
use rog_platform::platform::ThrottlePolicy;
use rog_platform::platform::PlatformProfile;
use rog_profiles::fan_curve_set::CurveData;
use slint::{ComponentHandle, Model, Weak};
@@ -109,21 +109,21 @@ pub fn setup_fan_curve_page(ui: &MainWindow, _config: Arc<Mutex<Config>>) {
let handle_copy = handle.clone();
// Do initial setup
let Ok(balanced) = fans
.fan_curve_data(ThrottlePolicy::Balanced)
.fan_curve_data(PlatformProfile::Balanced)
.await
.map_err(|e| error!("{e:}"))
else {
return;
};
let Ok(perf) = fans
.fan_curve_data(ThrottlePolicy::Performance)
.fan_curve_data(PlatformProfile::Performance)
.await
.map_err(|e| error!("{e:}"))
else {
return;
};
let Ok(quiet) = fans
.fan_curve_data(ThrottlePolicy::Quiet)
.fan_curve_data(PlatformProfile::Quiet)
.await
.map_err(|e| error!("{e:}"))
else {
@@ -144,21 +144,21 @@ pub fn setup_fan_curve_page(ui: &MainWindow, _config: Arc<Mutex<Config>>) {
return;
}
let Ok(balanced) = fans
.fan_curve_data(ThrottlePolicy::Balanced)
.fan_curve_data(PlatformProfile::Balanced)
.await
.map_err(|e| error!("{e:}"))
else {
return;
};
let Ok(perf) = fans
.fan_curve_data(ThrottlePolicy::Performance)
.fan_curve_data(PlatformProfile::Performance)
.await
.map_err(|e| error!("{e:}"))
else {
return;
};
let Ok(quiet) = fans
.fan_curve_data(ThrottlePolicy::Quiet)
.fan_curve_data(PlatformProfile::Quiet)
.await
.map_err(|e| error!("{e:}"))
else {

177
rog-control-center/src/ui/setup_system.rs
View File

@@ -1,17 +1,17 @@
use std::sync::{Arc, Mutex};
use concat_idents::concat_idents;
use log::error;
use log::{debug, error};
use rog_dbus::asus_armoury::AsusArmouryProxy;
use rog_dbus::zbus_platform::{PlatformProxy, PlatformProxyBlocking};
use rog_platform::firmware_attributes::FirmwareAttribute;
use rog_platform::asus_armoury::FirmwareAttribute;
use rog_platform::platform::Properties;
use slint::ComponentHandle;
use super::show_toast;
use crate::config::Config;
use crate::zbus_proxies::find_iface_async;
use crate::{set_ui_props_async, AttrMinMax, MainWindow, SystemPageData};
use crate::{set_ui_callbacks, set_ui_props_async, AttrMinMax, MainWindow, SystemPageData};
const MINMAX: AttrMinMax = AttrMinMax {
min: 0,
@@ -28,13 +28,13 @@ pub fn setup_system_page(ui: &MainWindow, _config: Arc<Mutex<Config>>) {
// Null everything before the setup step
ui.global::<SystemPageData>()
.set_charge_control_end_threshold(-1.0);
ui.global::<SystemPageData>()
.set_throttle_thermal_policy(-1);
ui.global::<SystemPageData>().set_platform_profile(-1);
ui.global::<SystemPageData>().set_panel_overdrive(-1);
ui.global::<SystemPageData>().set_boot_sound(-1);
ui.global::<SystemPageData>().set_mini_led_mode(-1);
ui.global::<SystemPageData>().set_ppt_pl1_spl(MINMAX);
ui.global::<SystemPageData>().set_ppt_pl2_sppt(MINMAX);
ui.global::<SystemPageData>().set_ppt_pl3_fppt(MINMAX);
ui.global::<SystemPageData>().set_ppt_fppt(MINMAX);
ui.global::<SystemPageData>().set_ppt_apu_sppt(MINMAX);
ui.global::<SystemPageData>().set_ppt_platform_sppt(MINMAX);
@@ -131,6 +131,23 @@ macro_rules! setup_callback {
};
}
// For handling callbacks from UI value changes
macro_rules! setup_callback_restore_default {
($property:ident, $handle:expr, $attr:expr) => {
let proxy_copy = $attr.clone();
concat_idents!(on_callback = on_cb_default_, $property {
$handle
.global::<SystemPageData>()
.on_callback(move || {
let proxy_copy = proxy_copy.clone();
tokio::spawn(async move {
proxy_copy.restore_default().await.ok();
});
});
});
};
}
macro_rules! setup_external {
($property:ident, $type:tt, $handle:expr, $attr:expr, $value:expr) => {{
// EXTERNAL CHANGES
@@ -142,7 +159,6 @@ macro_rules! setup_external {
use zbus::export::futures_util::StreamExt;
while let Some(e) = x.next().await {
if let Ok(out) = e.get().await {
dbg!(out);
handle_copy
.upgrade_in_event_loop(move |handle| {
handle
@@ -159,7 +175,7 @@ macro_rules! setup_external {
// For handling external value changes
macro_rules! setup_minmax_external {
($property:ident, $handle:expr, $attr:expr) => {
($property:ident, $handle:expr, $attr:expr, $platform:expr) => {
let handle_copy = $handle.as_weak();
let proxy_copy = $attr.clone();
tokio::spawn(async move {
@@ -182,6 +198,31 @@ macro_rules! setup_minmax_external {
}
}
});
let handle_copy = $handle.as_weak();
let proxy_copy = $attr.clone();
let platform_proxy_copy = $platform.clone();
tokio::spawn(async move {
let mut x = platform_proxy_copy.receive_platform_profile_changed().await;
use zbus::export::futures_util::StreamExt;
while let Some(e) = x.next().await {
if let Ok(_) = e.get().await {
debug!("receive_platform_profile_changed, getting new {}", stringify!(attr));
let min = proxy_copy.min_value().await.unwrap();
let max = proxy_copy.max_value().await.unwrap();
let val = proxy_copy.current_value().await.unwrap() as f32;
handle_copy
.upgrade_in_event_loop(move |handle| {
concat_idents!(setter = set_, $property {
handle
.global::<SystemPageData>()
.setter(AttrMinMax { min, max, val });
});
})
.ok();
}
}
});
};
}
@@ -216,26 +257,103 @@ pub fn setup_system_page_callbacks(ui: &MainWindow, _states: Arc<Mutex<Config>>)
SystemPageData,
charge_control_end_threshold
);
set_ui_props_async!(handle, platform, SystemPageData, throttle_thermal_policy);
set_ui_props_async!(handle, platform, SystemPageData, throttle_policy_linked_epp);
set_ui_props_async!(handle, platform, SystemPageData, throttle_balanced_epp);
set_ui_props_async!(handle, platform, SystemPageData, throttle_performance_epp);
set_ui_props_async!(handle, platform, SystemPageData, throttle_quiet_epp);
set_ui_props_async!(handle, platform, SystemPageData, throttle_policy_on_battery);
set_ui_props_async!(handle, platform, SystemPageData, platform_profile);
set_ui_props_async!(
handle,
platform,
SystemPageData,
change_throttle_policy_on_battery
platform_profile_linked_epp
);
set_ui_props_async!(handle, platform, SystemPageData, throttle_policy_on_ac);
set_ui_props_async!(handle, platform, SystemPageData, profile_balanced_epp);
set_ui_props_async!(handle, platform, SystemPageData, profile_performance_epp);
set_ui_props_async!(handle, platform, SystemPageData, profile_quiet_epp);
set_ui_props_async!(
handle,
platform,
SystemPageData,
change_throttle_policy_on_ac
platform_profile_on_battery
);
set_ui_props_async!(
handle,
platform,
SystemPageData,
change_platform_profile_on_battery
);
set_ui_props_async!(handle, platform, SystemPageData, platform_profile_on_ac);
set_ui_props_async!(
handle,
platform,
SystemPageData,
change_platform_profile_on_ac
);
let platform_copy = platform.clone();
handle
.upgrade_in_event_loop(move |handle| {
set_ui_callbacks!(handle,
SystemPageData(as f32),
platform_copy.charge_control_end_threshold(as u8),
"Charge limit successfully set to {}",
"Setting Charge limit failed"
);
set_ui_callbacks!(handle,
SystemPageData(as i32),
platform_copy.platform_profile(.into()),
"Throttle policy set to {}",
"Setting Throttle policy failed"
);
set_ui_callbacks!(handle,
SystemPageData(as i32),
platform_copy.profile_balanced_epp(.into()),
"Throttle policy EPP set to {}",
"Setting Throttle policy EPP failed"
);
set_ui_callbacks!(handle,
SystemPageData(as i32),
platform_copy.profile_performance_epp(.into()),
"Throttle policy EPP set to {}",
"Setting Throttle policy EPP failed"
);
set_ui_callbacks!(handle,
SystemPageData(as i32),
platform_copy.profile_quiet_epp(.into()),
"Throttle policy EPP set to {}",
"Setting Throttle policy EPP failed"
);
set_ui_callbacks!(
handle,
SystemPageData(),
platform_copy.platform_profile_linked_epp(),
"Throttle policy linked to EPP: {}",
"Setting Throttle policy linked to EPP failed"
);
set_ui_callbacks!(handle,
SystemPageData(as i32),
platform_copy.platform_profile_on_ac(.into()),
"Throttle policy on AC set to {}",
"Setting Throttle policy on AC failed"
);
set_ui_callbacks!(handle,
SystemPageData(as bool),
platform_copy.change_platform_profile_on_ac(.into()),
"Throttle policy on AC enabled: {}",
"Setting Throttle policy on AC failed"
);
set_ui_callbacks!(handle,
SystemPageData(as i32),
platform_copy.platform_profile_on_battery(.into()),
"Throttle policy on abttery set to {}",
"Setting Throttle policy on battery failed"
);
set_ui_callbacks!(handle,
SystemPageData(as bool),
platform_copy.change_platform_profile_on_battery(.into()),
"Throttle policy on battery enabled: {}",
"Setting Throttle policy on AC failed"
);
})
.ok();
let armoury_attrs;
if let Ok(attrs) = find_iface_async::<AsusArmouryProxy>("xyz.ljones.AsusArmoury").await {
@@ -257,6 +375,7 @@ pub fn setup_system_page_callbacks(ui: &MainWindow, _states: Arc<Mutex<Config>>)
for attr in armoury_attrs {
if let Ok(value) = attr.current_value().await {
let name = attr.name().await.unwrap();
let platform = platform.clone();
handle
.upgrade_in_event_loop(move |handle| match name {
FirmwareAttribute::ApuMem => {}
@@ -265,42 +384,50 @@ pub fn setup_system_page_callbacks(ui: &MainWindow, _states: Arc<Mutex<Config>>)
FirmwareAttribute::PptPl1Spl => {
init_minmax_property!(ppt_pl1_spl, handle, attr);
setup_callback!(ppt_pl1_spl, handle, attr, i32);
setup_minmax_external!(ppt_pl1_spl, handle, attr);
setup_callback_restore_default!(ppt_pl1_spl, handle, attr);
setup_minmax_external!(ppt_pl1_spl, handle, attr, platform);
}
FirmwareAttribute::PptPl2Sppt => {
init_minmax_property!(ppt_pl2_sppt, handle, attr);
setup_callback!(ppt_pl2_sppt, handle, attr, i32);
setup_minmax_external!(ppt_pl2_sppt, handle, attr);
setup_callback_restore_default!(ppt_pl2_sppt, handle, attr);
setup_minmax_external!(ppt_pl2_sppt, handle, attr, platform);
}
FirmwareAttribute::PptPl3Fppt => {
init_minmax_property!(ppt_pl3_fppt, handle, attr);
setup_callback!(ppt_pl3_fppt, handle, attr, i32);
setup_minmax_external!(ppt_pl3_fppt, handle, attr);
setup_callback_restore_default!(ppt_pl3_fppt, handle, attr);
setup_minmax_external!(ppt_pl3_fppt, handle, attr, platform);
}
FirmwareAttribute::PptFppt => {
init_minmax_property!(ppt_fppt, handle, attr);
setup_callback!(ppt_fppt, handle, attr, i32);
setup_minmax_external!(ppt_fppt, handle, attr);
setup_callback_restore_default!(ppt_fppt, handle, attr);
setup_minmax_external!(ppt_fppt, handle, attr, platform);
}
FirmwareAttribute::PptApuSppt => {
init_minmax_property!(ppt_apu_sppt, handle, attr);
setup_callback!(ppt_apu_sppt, handle, attr, i32);
setup_minmax_external!(ppt_apu_sppt, handle, attr);
setup_callback_restore_default!(ppt_apu_sppt, handle, attr);
setup_minmax_external!(ppt_apu_sppt, handle, attr, platform);
}
FirmwareAttribute::PptPlatformSppt => {
init_minmax_property!(ppt_platform_sppt, handle, attr);
setup_callback!(ppt_platform_sppt, handle, attr, i32);
setup_minmax_external!(ppt_platform_sppt, handle, attr);
setup_callback_restore_default!(ppt_platform_sppt, handle, attr);
setup_minmax_external!(ppt_platform_sppt, handle, attr, platform);
}
FirmwareAttribute::NvDynamicBoost => {
init_minmax_property!(nv_dynamic_boost, handle, attr);
setup_callback!(nv_dynamic_boost, handle, attr, i32);
setup_minmax_external!(nv_dynamic_boost, handle, attr);
setup_callback_restore_default!(nv_dynamic_boost, handle, attr);
setup_minmax_external!(nv_dynamic_boost, handle, attr, platform);
}
FirmwareAttribute::NvTempTarget => {
init_minmax_property!(nv_temp_target, handle, attr);
setup_callback!(nv_temp_target, handle, attr, i32);
setup_minmax_external!(nv_temp_target, handle, attr);
setup_callback_restore_default!(nv_temp_target, handle, attr);
setup_minmax_external!(nv_temp_target, handle, attr, platform);
}
FirmwareAttribute::DgpuBaseTgp => {}
FirmwareAttribute::DgpuTgp => {}
@@ -324,7 +451,7 @@ pub fn setup_system_page_callbacks(ui: &MainWindow, _states: Arc<Mutex<Config>>)
FirmwareAttribute::MiniLedMode => {
init_property!(mini_led_mode, handle, value, i32);
setup_callback!(mini_led_mode, handle, attr, i32);
setup_external!(mini_led_mode, i32, handle, attr, value)
setup_external!(mini_led_mode, i32, handle, attr, value);
}
FirmwareAttribute::PendingReboot => {}
FirmwareAttribute::None => {}

167
rog-control-center/translations/en/rog-control-center.po
View File

@@ -2,7 +2,7 @@
msgid ""
msgstr ""
"Project-Id-Version: PACKAGE VERSION\n"
"POT-Creation-Date: 2025-01-13 09:38+0000\n"
"POT-Creation-Date: 2025-01-19 10:35+0000\n"
"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"
"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"
"Language-Team: LANGUAGE <LL@li.org>\n"
@@ -47,132 +47,198 @@ msgctxt "SystemPageData"
msgid "Power"
msgstr ""
#: rog-control-center/ui/pages/system.slint:123
#: rog-control-center/ui/pages/system.slint:139
msgctxt "PageSystem"
msgid "Power settings"
msgstr ""
#: rog-control-center/ui/pages/system.slint:128
#: rog-control-center/ui/pages/system.slint:144
msgctxt "PageSystem"
msgid "Charge limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:140
#: rog-control-center/ui/pages/system.slint:158
msgctxt "PageSystem"
msgid "Throttle Policy"
msgstr ""
#: rog-control-center/ui/pages/system.slint:150
msgctxt "PageSystem"
msgid "Advanced"
msgid "Platform Profile"
msgstr ""
#: rog-control-center/ui/pages/system.slint:168
msgctxt "PageSystem"
msgid "Advanced"
msgstr ""
#: rog-control-center/ui/pages/system.slint:186
msgctxt "PageSystem"
msgid "Armoury settings"
msgstr ""
#: rog-control-center/ui/pages/system.slint:176
#: rog-control-center/ui/pages/system.slint:194
msgctxt "PageSystem"
msgid "Panel Overdrive"
msgstr ""
#: rog-control-center/ui/pages/system.slint:184
#: rog-control-center/ui/pages/system.slint:202
msgctxt "PageSystem"
msgid "MiniLED Mode"
msgstr ""
#: rog-control-center/ui/pages/system.slint:192
#: rog-control-center/ui/pages/system.slint:210
msgctxt "PageSystem"
msgid "POST boot sound"
msgstr ""
#: rog-control-center/ui/pages/system.slint:203
msgctxt "PageSystem"
#: rog-control-center/ui/pages/system.slint:224
msgctxt "no_asus_armoury_driver_2"
msgid "The asus-armoury driver is not loaded"
msgstr ""
#: rog-control-center/ui/pages/system.slint:208
msgctxt "PageSystem"
#: rog-control-center/ui/pages/system.slint:230
msgctxt "no_asus_armoury_driver_2"
msgid "For advanced features you will require a kernel with this driver added."
msgstr ""
#: rog-control-center/ui/pages/system.slint:216
#: rog-control-center/ui/pages/system.slint:241
msgctxt "ppt_warning"
msgid "The following settings may not be safe, please review the help."
msgstr ""
#: rog-control-center/ui/pages/system.slint:246 rog-control-center/ui/pages/system.slint:247
msgctxt "ppt_pl1_spl"
msgid "PL1, sustained power limit"
msgid "CPU Sustained Power Limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:227
#: rog-control-center/ui/pages/system.slint:248
msgctxt "ppt_pl1_spl_help"
msgid ""
"Long-term CPU power limit that affects sustained workload performance. "
"Higher values may increase heat and power consumption."
msgstr ""
#: rog-control-center/ui/pages/system.slint:263 rog-control-center/ui/pages/system.slint:264
msgctxt "ppt_pl2_sppt"
msgid "PL2, turbo power limit"
msgid "CPU Turbo Power Limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:238
msgctxt "ppt_fppt"
msgid "FPPT, Fast Power Limit"
#: rog-control-center/ui/pages/system.slint:265
msgctxt "ppt_pl2_sppt_help"
msgid ""
"Short-term CPU power limit for boost periods. Controls maximum power during "
"brief high-performance bursts."
msgstr ""
#: rog-control-center/ui/pages/system.slint:249
msgctxt "ppt_apu_sppt"
msgid "SPPT, APU slow power limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:260
msgctxt "ppt_platform_sppt"
msgid "Slow package power tracking limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:271
msgctxt "nv_dynamic_boost"
msgid "dGPU boost overclock"
#: rog-control-center/ui/pages/system.slint:280 rog-control-center/ui/pages/system.slint:281
msgctxt "ppt_pl3_fppt"
msgid "CPU Fast Burst Power Limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:282
msgctxt "nv_temp_target"
msgid "dGPU temperature max"
msgctxt "ppt_pl3_fppt_help"
msgid ""
"Ultra-short duration power limit for instantaneous CPU bursts. Affects "
"responsiveness during sudden workload spikes."
msgstr ""
#: rog-control-center/ui/pages/system.slint:329
#: rog-control-center/ui/pages/system.slint:296 rog-control-center/ui/pages/system.slint:297
msgctxt "ppt_fppt"
msgid "Fast Package Power Limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:298
msgctxt "ppt_fppt_help"
msgid ""
"Ultra-short duration power limit for system package. Controls maximum power "
"during millisecond-scale load spikes."
msgstr ""
#: rog-control-center/ui/pages/system.slint:313 rog-control-center/ui/pages/system.slint:314
msgctxt "ppt_apu_sppt"
msgid "APU Sustained Power Limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:315
msgctxt "ppt_apu_sppt_help"
msgid ""
"Long-term power limit for integrated graphics and CPU combined. Affects "
"sustained performance of APU-based workloads."
msgstr ""
#: rog-control-center/ui/pages/system.slint:330 rog-control-center/ui/pages/system.slint:331
msgctxt "ppt_platform_sppt"
msgid "Platform Sustained Power Limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:332
msgctxt "ppt_platform_sppt_help"
msgid ""
"Overall system power limit for sustained operations. Controls total platform "
"power consumption over extended periods."
msgstr ""
#: rog-control-center/ui/pages/system.slint:347 rog-control-center/ui/pages/system.slint:348
msgctxt "nv_dynamic_boost"
msgid "GPU Power Boost"
msgstr ""
#: rog-control-center/ui/pages/system.slint:349
msgctxt "nv_dynamic_boost_help"
msgid ""
"Additional power allocation for GPU dynamic boost. Higher values increase "
"GPU performance but generate more heat."
msgstr ""
#: rog-control-center/ui/pages/system.slint:364 rog-control-center/ui/pages/system.slint:365
msgctxt "nv_temp_target"
msgid "GPU Temperature Limit"
msgstr ""
#: rog-control-center/ui/pages/system.slint:366
msgctxt "nv_temp_target_help"
msgid ""
"Maximum GPU temperature threshold in Celsius. GPU will throttle to maintain "
"temperature below this limit."
msgstr ""
#: rog-control-center/ui/pages/system.slint:417
msgctxt "PageSystem"
msgid "Energy Performance Preference linked to Throttle Policy"
msgstr ""
#: rog-control-center/ui/pages/system.slint:333
#: rog-control-center/ui/pages/system.slint:421
msgctxt "PageSystem"
msgid "Change EPP based on Throttle Policy"
msgstr ""
#: rog-control-center/ui/pages/system.slint:341
#: rog-control-center/ui/pages/system.slint:429
msgctxt "PageSystem"
msgid "EPP for Balanced Policy"
msgstr ""
#: rog-control-center/ui/pages/system.slint:351
#: rog-control-center/ui/pages/system.slint:439
msgctxt "PageSystem"
msgid "EPP for Performance Policy"
msgstr ""
#: rog-control-center/ui/pages/system.slint:361
#: rog-control-center/ui/pages/system.slint:449
msgctxt "PageSystem"
msgid "EPP for Quiet Policy"
msgstr ""
#: rog-control-center/ui/pages/system.slint:379
#: rog-control-center/ui/pages/system.slint:467
msgctxt "PageSystem"
msgid "Throttle Policy for power state"
msgstr ""
#: rog-control-center/ui/pages/system.slint:385
#: rog-control-center/ui/pages/system.slint:473
msgctxt "PageSystem"
msgid "Throttle Policy on Battery"
msgstr ""
#: rog-control-center/ui/pages/system.slint:395 rog-control-center/ui/pages/system.slint:416
#: rog-control-center/ui/pages/system.slint:483 rog-control-center/ui/pages/system.slint:504
msgctxt "PageSystem"
msgid "Enabled"
msgstr ""
#: rog-control-center/ui/pages/system.slint:406
#: rog-control-center/ui/pages/system.slint:494
msgctxt "PageSystem"
msgid "Throttle Policy on AC"
msgstr ""
@@ -657,6 +723,11 @@ msgctxt "AuraPowerGroupOld"
msgid "Sleep"
msgstr ""
#: rog-control-center/ui/widgets/common.slint:133
msgctxt "confirm_reset"
msgid "Are you sure you want to reset this?"
msgstr ""
#: rog-control-center/ui/main_window.slint:51
msgctxt "MainWindow"
msgid "ROG"

24
rog-control-center/ui/main_window.slint
View File

@@ -21,8 +21,8 @@ export component MainWindow inherits Window {
title: "ROG Control";
default-font-family: "DejaVu Sans";
in property <[bool]> sidebar_items_avilable: [true, true, true, true, true, true];
private property <bool> show-notif;
private property <bool> fade-cover;
private property <bool> show_notif;
private property <bool> fade_cover;
private property <bool> toast: false;
private property <string> toast_text: "I show when something is waiting";
callback show_toast(string);
@@ -31,10 +31,10 @@ export component MainWindow inherits Window {
toast_text = text;
}
callback exit-app();
callback show-notification(bool);
show-notification(yes) => {
show-notif = yes;
fade-cover = yes;
callback show_notification(bool);
show_notification(yes) => {
show_notif = yes;
fade_cover = yes;
}
callback external_colour_change();
external_colour_change() => {
@@ -109,7 +109,7 @@ export component MainWindow inherits Window {
}
}
if fade-cover: Rectangle {
if fade_cover: Rectangle {
x: 0px;
y: 0px;
width: root.width;
@@ -121,10 +121,10 @@ export component MainWindow inherits Window {
width: 100%;
clicked => {
// toolbar-dropdown.close();
if (show-notif) {
show-notif = false;
if (show_notif) {
show_notif = false;
}
fade-cover = false;
fade_cover = false;
}
}
}
@@ -156,7 +156,7 @@ export component MainWindow inherits Window {
}
// // TODO: or use Dialogue
if show-notif: Rectangle {
if show_notif: Rectangle {
x: root.width / 8;
y: root.height / 8;
height: (root.height / 8) * 6;
@@ -165,7 +165,7 @@ export component MainWindow inherits Window {
height: 100%;
width: 100%;
clicked => {
show-notif = false;
show_notif = false;
exit-app();
}
}

24
rog-control-center/ui/pages/about.slint
View File

@@ -17,7 +17,7 @@ export component PageAbout inherits VerticalLayout {
Text {
wrap: TextWrap.word-wrap;
text: "You will require these patches: https://lore.kernel.org/platform-driver-x86/20240404001652.86207-1-luke@ljones.dev/, they have been merged upstream for kernel 6.10. The main thing is that the PPT settings will apply without them, but the read/back will fail";
text: "You will require a kernel built with my work from here: https://github.com/flukejones/linux";
}
Text {
@@ -28,19 +28,7 @@ export component PageAbout inherits VerticalLayout {
}
Text {
text: "- [x] Theme the widgets";
}
Text {
text: "- [x] Add a fullscreen mode (cli arg)";
}
Text {
text: "- [x] Disable aura items depending if mode supports or not";
}
Text {
text: "- [x] Add fan curve graph controls";
text: "- [ ] Theme the widgets";
}
Text {
@@ -48,11 +36,15 @@ export component PageAbout inherits VerticalLayout {
}
Text {
text: "- [ ] Supergfx control";
text: "- [ ] Include fan speeds, temps in a bottom bar";
}
Text {
text: "- [ ] Include fan speeds, temps in a bottom bar";
text: "- [ ] Slash control";
}
Text {
text: "- [ ] Supergfx control";
}
Text {

34
rog-control-center/ui/pages/anime.slint
View File

@@ -9,17 +9,17 @@ export global AnimePageData {
@tr("Anime Brightness" => "High"),
];
in-out property <int> brightness;
callback set_brightness(int);
callback cb_brightness(int);
in-out property <bool> builtins_enabled;
callback set_builtins_enabled(bool);
callback cb_builtins_enabled(bool);
in-out property <bool> enable_display;
callback set_enable_display(bool);
callback cb_enable_display(bool);
in-out property <bool> off_when_lid_closed;
callback set_off_when_lid_closed(bool);
callback cb_off_when_lid_closed(bool);
in-out property <bool> off_when_suspended;
callback set_off_when_suspended(bool);
callback cb_off_when_suspended(bool);
in-out property <bool> off_when_unplugged;
callback set_off_when_unplugged(bool);
callback cb_off_when_unplugged(bool);
in-out property <[string]> boot_anim_choices: [@tr("Glitch Construction"), @tr("Static Emergence")];
in property <int> boot_anim: 0;
in-out property <[string]> awake_anim_choices: [@tr("Binary Banner Scroll"), @tr("Rog Logo Glitch")];
@@ -28,7 +28,7 @@ export global AnimePageData {
in property <int> sleep_anim: 0;
in-out property <[string]> shutdown_anim_choices: [@tr("Glitch Out"), @tr("See Ya")];
in property <int> shutdown_anim: 0;
callback set_builtin_animations(int, int, int, int);
callback cb_builtin_animations(int, int, int, int);
}
export component PageAnime inherits Rectangle {
@@ -53,7 +53,7 @@ export component PageAnime inherits Rectangle {
model <=> AnimePageData.brightness_names;
selected => {
self.current_value = AnimePageData.brightness_names[AnimePageData.brightness];
AnimePageData.set_brightness(AnimePageData.brightness)
AnimePageData.cb_brightness(AnimePageData.brightness)
}
}
}
@@ -66,7 +66,7 @@ export component PageAnime inherits Rectangle {
text: @tr("Enable display");
checked <=> AnimePageData.enable_display;
toggled => {
AnimePageData.set_enable_display(AnimePageData.enable_display)
AnimePageData.cb_enable_display(AnimePageData.enable_display)
}
}
@@ -89,7 +89,7 @@ export component PageAnime inherits Rectangle {
text: @tr("Use built-in animations");
checked <=> AnimePageData.builtins_enabled;
toggled => {
AnimePageData.set_builtins_enabled(AnimePageData.builtins_enabled)
AnimePageData.cb_builtins_enabled(AnimePageData.builtins_enabled)
}
}
@@ -152,7 +152,7 @@ export component PageAnime inherits Rectangle {
current_value: AnimePageData.boot_anim_choices[AnimePageData.boot_anim];
model <=> AnimePageData.boot_anim_choices;
selected => {
AnimePageData.set_builtin_animations(AnimePageData.boot_anim, AnimePageData.awake_anim, AnimePageData.sleep_anim, AnimePageData.shutdown_anim)
AnimePageData.cb_builtin_animations(AnimePageData.boot_anim, AnimePageData.awake_anim, AnimePageData.sleep_anim, AnimePageData.shutdown_anim)
}
}
@@ -162,7 +162,7 @@ export component PageAnime inherits Rectangle {
current_value: AnimePageData.awake_anim_choices[AnimePageData.awake_anim];
model <=> AnimePageData.awake_anim_choices;
selected => {
AnimePageData.set_builtin_animations(AnimePageData.boot_anim, AnimePageData.awake_anim, AnimePageData.sleep_anim, AnimePageData.shutdown_anim)
AnimePageData.cb_builtin_animations(AnimePageData.boot_anim, AnimePageData.awake_anim, AnimePageData.sleep_anim, AnimePageData.shutdown_anim)
}
}
@@ -172,7 +172,7 @@ export component PageAnime inherits Rectangle {
current_value: AnimePageData.sleep_anim_choices[AnimePageData.sleep_anim];
model <=> AnimePageData.sleep_anim_choices;
selected => {
AnimePageData.set_builtin_animations(AnimePageData.boot_anim, AnimePageData.awake_anim, AnimePageData.sleep_anim, AnimePageData.shutdown_anim)
AnimePageData.cb_builtin_animations(AnimePageData.boot_anim, AnimePageData.awake_anim, AnimePageData.sleep_anim, AnimePageData.shutdown_anim)
}
}
@@ -182,7 +182,7 @@ export component PageAnime inherits Rectangle {
current_value: AnimePageData.shutdown_anim_choices[AnimePageData.shutdown_anim];
model <=> AnimePageData.shutdown_anim_choices;
selected => {
AnimePageData.set_builtin_animations(AnimePageData.boot_anim, AnimePageData.awake_anim, AnimePageData.sleep_anim, AnimePageData.shutdown_anim)
AnimePageData.cb_builtin_animations(AnimePageData.boot_anim, AnimePageData.awake_anim, AnimePageData.sleep_anim, AnimePageData.shutdown_anim)
}
}
}
@@ -225,7 +225,7 @@ export component PageAnime inherits Rectangle {
text: @tr("Off when lid closed");
checked <=> AnimePageData.off_when_lid_closed;
toggled => {
AnimePageData.set_off_when_lid_closed(AnimePageData.off_when_lid_closed)
AnimePageData.cb_off_when_lid_closed(AnimePageData.off_when_lid_closed)
}
}
@@ -234,7 +234,7 @@ export component PageAnime inherits Rectangle {
text: @tr("Off when suspended");
checked <=> AnimePageData.off_when_suspended;
toggled => {
AnimePageData.set_off_when_suspended(AnimePageData.off_when_suspended)
AnimePageData.cb_off_when_suspended(AnimePageData.off_when_suspended)
}
}
@@ -243,7 +243,7 @@ export component PageAnime inherits Rectangle {
text: @tr("Off when on battery");
checked <=> AnimePageData.off_when_unplugged;
toggled => {
AnimePageData.set_off_when_unplugged(AnimePageData.off_when_unplugged)
AnimePageData.cb_off_when_unplugged(AnimePageData.off_when_unplugged)
}
}
}

38
rog-control-center/ui/pages/aura.slint
View File

@@ -30,7 +30,7 @@ export component PageAura inherits Rectangle {
current_value: AuraPageData.brightness_names[self.current-index];
model <=> AuraPageData.brightness_names;
selected => {
AuraPageData.set_brightness(AuraPageData.brightness)
AuraPageData.cb_brightness(AuraPageData.brightness)
}
}
@@ -44,7 +44,7 @@ export component PageAura inherits Rectangle {
AuraPageData.led_mode_data.mode = AuraPageData.led_mode;
AuraPageData.led_mode_data.mode = AuraPageData.current_available_mode;
self.current_value = AuraPageData.available_mode_names[self.current-index];
AuraPageData.set_led_mode(AuraPageData.current_available_mode);
AuraPageData.cb_led_mode(AuraPageData.current_available_mode);
}
}
}
@@ -67,14 +67,14 @@ export component PageAura inherits Rectangle {
final_colour <=> AuraPageData.color1;
colourbox <=> AuraPageData.colorbox1;
set_hex_from_colour(c1) => {
return AuraPageData.set_hex_from_colour(c1);
return AuraPageData.cb_hex_from_colour(c1);
}
hex_to_colour(s) => {
return AuraPageData.set_hex_to_colour(s);
return AuraPageData.cb_hex_to_colour(s);
}
released => {
AuraPageData.led_mode_data.colour1 = AuraPageData.color1;
AuraPageData.set_led_mode_data(AuraPageData.led_mode_data);
AuraPageData.cb_led_mode_data(AuraPageData.led_mode_data);
}
}
}
@@ -93,14 +93,14 @@ export component PageAura inherits Rectangle {
final_colour <=> AuraPageData.color2;
colourbox <=> AuraPageData.colorbox2;
set_hex_from_colour(c1) => {
return AuraPageData.set_hex_from_colour(c1);
return AuraPageData.cb_hex_from_colour(c1);
}
hex_to_colour(s) => {
return AuraPageData.set_hex_to_colour(s);
return AuraPageData.cb_hex_to_colour(s);
}
released => {
AuraPageData.led_mode_data.colour2 = AuraPageData.color2;
AuraPageData.set_led_mode_data(AuraPageData.led_mode_data);
AuraPageData.cb_led_mode_data(AuraPageData.led_mode_data);
}
}
}
@@ -129,7 +129,7 @@ export component PageAura inherits Rectangle {
model <=> AuraPageData.zone_names;
selected => {
AuraPageData.led_mode_data.zone = self.current-index;
AuraPageData.set_led_mode_data(AuraPageData.led_mode_data);
AuraPageData.cb_led_mode_data(AuraPageData.led_mode_data);
}
}
}
@@ -151,7 +151,7 @@ export component PageAura inherits Rectangle {
model <=> AuraPageData.direction_names;
selected => {
AuraPageData.led_mode_data.direction = self.current-index;
AuraPageData.set_led_mode_data(AuraPageData.led_mode_data);
AuraPageData.cb_led_mode_data(AuraPageData.led_mode_data);
}
}
}
@@ -173,7 +173,7 @@ export component PageAura inherits Rectangle {
model <=> AuraPageData.speed_names;
selected => {
AuraPageData.led_mode_data.speed = self.current-index;
AuraPageData.set_led_mode_data(AuraPageData.led_mode_data);
AuraPageData.cb_led_mode_data(AuraPageData.led_mode_data);
}
}
}
@@ -218,22 +218,22 @@ export component PageAura inherits Rectangle {
boot_checked: state.boot;
boot_toggled => {
AuraPageData.led_power.states[idx].boot = zone.boot_checked;
AuraPageData.set_led_power(AuraPageData.led_power);
AuraPageData.cb_led_power(AuraPageData.led_power);
}
awake_checked: state.awake;
awake_toggled => {
AuraPageData.led_power.states[idx].awake = zone.awake_checked;
AuraPageData.set_led_power(AuraPageData.led_power);
AuraPageData.cb_led_power(AuraPageData.led_power);
}
sleep_checked: state.sleep;
sleep_toggled => {
AuraPageData.led_power.states[idx].sleep = zone.sleep_checked;
AuraPageData.set_led_power(AuraPageData.led_power);
AuraPageData.cb_led_power(AuraPageData.led_power);
}
shutdown_checked: state.shutdown;
shutdown_toggled => {
AuraPageData.led_power.states[idx].shutdown = zone.shutdown_checked;
AuraPageData.set_led_power(AuraPageData.led_power);
AuraPageData.cb_led_power(AuraPageData.led_power);
}
}
}
@@ -271,22 +271,22 @@ export component PageAura inherits Rectangle {
zone_strings <=> AuraPageData.power_zone_names_old;
selected_zone => {
AuraPageData.led_power.states[idx].zone = AuraPageData.supported_power_zones[old_zone.current_zone];
AuraPageData.set_led_power(AuraPageData.led_power);
AuraPageData.cb_led_power(AuraPageData.led_power);
}
boot_checked: state.boot;
boot_toggled => {
AuraPageData.led_power.states[idx].boot = old_zone.boot_checked;
AuraPageData.set_led_power(AuraPageData.led_power);
AuraPageData.cb_led_power(AuraPageData.led_power);
}
awake_checked: state.awake;
awake_toggled => {
AuraPageData.led_power.states[idx].awake = old_zone.awake_checked;
AuraPageData.set_led_power(AuraPageData.led_power);
AuraPageData.cb_led_power(AuraPageData.led_power);
}
sleep_checked: state.sleep;
sleep_toggled => {
AuraPageData.led_power.states[idx].sleep = old_zone.sleep_checked;
AuraPageData.set_led_power(AuraPageData.led_power);
AuraPageData.cb_led_power(AuraPageData.led_power);
}
}
}

207
rog-control-center/ui/pages/system.slint
View File

@@ -15,9 +15,9 @@ export struct AttrPossible {
export global SystemPageData {
in-out property <float> charge_control_end_threshold: 30;
callback cb_charge_control_end_threshold(/* charge limit */ int);
in-out property <int> throttle_thermal_policy: 0;
in-out property <[string]> throttle_policy_choices: [@tr("Balanced"), @tr("Performance"), @tr("Quiet")];
callback cb_throttle_thermal_policy(int);
in-out property <int> platform_profile: 0;
in-out property <[string]> platform_profile_choices: [@tr("Balanced"), @tr("Performance"), @tr("Quiet")];
callback cb_platform_profile(int);
in-out property <[string]> energy_performance_choices: [
@tr("Default"),
@tr("Performance"),
@@ -25,23 +25,23 @@ export global SystemPageData {
@tr("BalancePower"),
@tr("Power")
];
in-out property <int> throttle_balanced_epp: 0;
callback cb_throttle_balanced_epp(int);
in-out property <int> throttle_performance_epp: 0;
callback cb_throttle_performance_epp(int);
in-out property <int> throttle_quiet_epp: 0;
callback cb_throttle_quiet_epp(int);
in-out property <int> profile_balanced_epp: 0;
callback cb_profile_balanced_epp(int);
in-out property <int> profile_performance_epp: 0;
callback cb_profile_performance_epp(int);
in-out property <int> profile_quiet_epp: 0;
callback cb_profile_quiet_epp(int);
// if the EPP should change with throttle
in-out property <bool> throttle_policy_linked_epp: true;
callback cb_throttle_policy_linked_epp(bool);
in-out property <int> throttle_policy_on_ac: 0;
callback cb_throttle_policy_on_ac(int);
in-out property <bool> change_throttle_policy_on_ac: true;
callback cb_change_throttle_policy_on_ac(bool);
in-out property <int> throttle_policy_on_battery: 0;
callback cb_throttle_policy_on_battery(int);
in-out property <bool> change_throttle_policy_on_battery: true;
callback cb_change_throttle_policy_on_battery(bool);
in-out property <bool> platform_profile_linked_epp: true;
callback cb_platform_profile_linked_epp(bool);
in-out property <int> platform_profile_on_ac: 0;
callback cb_platform_profile_on_ac(int);
in-out property <bool> change_platform_profile_on_ac: true;
callback cb_change_platform_profile_on_ac(bool);
in-out property <int> platform_profile_on_battery: 0;
callback cb_platform_profile_on_battery(int);
in-out property <bool> change_platform_profile_on_battery: true;
callback cb_change_platform_profile_on_battery(bool);
//
in-out property <int> panel_overdrive;
callback cb_panel_overdrive(int);
@@ -57,6 +57,7 @@ export global SystemPageData {
val: 20,
};
callback cb_ppt_pl1_spl(int);
callback cb_default_ppt_pl1_spl();
in-out property <AttrMinMax> ppt_pl2_sppt: {
min: 0,
@@ -64,6 +65,7 @@ export global SystemPageData {
val: 20,
};
callback cb_ppt_pl2_sppt(int);
callback cb_default_ppt_pl2_sppt();
in-out property <AttrMinMax> ppt_pl3_fppt: {
min: 0,
@@ -71,6 +73,7 @@ export global SystemPageData {
val: 20,
};
callback cb_ppt_pl3_fppt(int);
callback cb_default_ppt_pl3_fppt();
in-out property <AttrMinMax> ppt_fppt: {
min: 0,
@@ -78,6 +81,7 @@ export global SystemPageData {
val: 20,
};
callback cb_ppt_fppt(int);
callback cb_default_ppt_fppt();
in-out property <AttrMinMax> ppt_apu_sppt: {
min: 0,
@@ -85,6 +89,7 @@ export global SystemPageData {
val: 20,
};
callback cb_ppt_apu_sppt(int);
callback cb_default_ppt_apu_sppt();
in-out property <AttrMinMax> ppt_platform_sppt: {
min: 0,
@@ -92,6 +97,7 @@ export global SystemPageData {
val: 20,
};
callback cb_ppt_platform_sppt(int);
callback cb_default_ppt_platform_sppt();
in-out property <AttrMinMax> nv_dynamic_boost: {
min: 0,
@@ -99,6 +105,7 @@ export global SystemPageData {
val: 5,
};
callback cb_nv_dynamic_boost(int);
callback cb_default_nv_dynamic_boost();
in-out property <AttrMinMax> nv_temp_target: {
min: 0,
@@ -106,6 +113,7 @@ export global SystemPageData {
val: 75,
};
callback cb_nv_temp_target(int);
callback cb_default_nv_temp_target();
}
export component PageSystem inherits Rectangle {
@@ -117,6 +125,7 @@ export component PageSystem inherits Rectangle {
VerticalLayout {
padding: 10px;
spacing: 10px;
alignment: LayoutAlignment.start;
Rectangle {
background: Palette.alternate-background;
border-color: Palette.accent-background;
@@ -135,21 +144,23 @@ export component PageSystem inherits Rectangle {
text: @tr("Charge limit");
minimum: 20;
maximum: 100;
value <=> SystemPageData.charge_control_end_threshold;
has_reset: false;
value: SystemPageData.charge_control_end_threshold;
released => {
SystemPageData.charge_control_end_threshold = self.value;
SystemPageData.cb_charge_control_end_threshold(Math.round(SystemPageData.charge_control_end_threshold))
}
}
if SystemPageData.throttle_thermal_policy != -1: HorizontalLayout {
if SystemPageData.platform_profile != -1: HorizontalLayout {
spacing: 10px;
SystemDropdown {
text: @tr("Throttle Policy");
current_index <=> SystemPageData.throttle_thermal_policy;
current_value: SystemPageData.throttle_policy_choices[SystemPageData.throttle_thermal_policy];
model <=> SystemPageData.throttle_policy_choices;
text: @tr("Platform Profile");
current_index <=> SystemPageData.platform_profile;
current_value: SystemPageData.platform_profile_choices[SystemPageData.platform_profile];
model <=> SystemPageData.platform_profile_choices;
selected => {
SystemPageData.cb_throttle_thermal_policy(SystemPageData.throttle_thermal_policy)
SystemPageData.cb_platform_profile(SystemPageData.platform_profile)
}
}
@@ -205,25 +216,43 @@ export component PageSystem inherits Rectangle {
}
if !SystemPageData.asus_armoury_loaded: Rectangle {
VerticalBox {
Text {
text: @tr("The asus-armoury driver is not loaded");
font-size: 16px;
horizontal-alignment: TextHorizontalAlignment.center;
border-width: 3px;
border-color: red;
max-height: 30px;
VerticalBox {
Text {
text: @tr("no_asus_armoury_driver_2" => "The asus-armoury driver is not loaded");
font-size: 16px;
horizontal-alignment: TextHorizontalAlignment.center;
}
Text {
text: @tr("no_asus_armoury_driver_2" => "For advanced features you will require a kernel with this driver added.");
font-size: 16px;
horizontal-alignment: TextHorizontalAlignment.center;
}
}
}
if SystemPageData.ppt_pl1_spl.val != -1: Rectangle {
height: 32px;
Text {
text: @tr("For advanced features you will require a kernel with this driver added.");
font-size: 16px;
horizontal-alignment: TextHorizontalAlignment.center;
font-size: 16px;
text: @tr("ppt_warning" => "The following settings may not be safe, please review the help.");
}
}
}
if SystemPageData.ppt_pl1_spl.val != -1: SystemSlider {
text: @tr("ppt_pl1_spl" => "PL1, sustained power limit");
text: @tr("ppt_pl1_spl" => "CPU Sustained Power Limit");
title: @tr("ppt_pl1_spl" => "CPU Sustained Power Limit");
help_text: @tr("ppt_pl1_spl_help" => "Long-term CPU power limit that affects sustained workload performance. Higher values may increase heat and power consumption.");
minimum: SystemPageData.ppt_pl1_spl.min;
maximum: SystemPageData.ppt_pl1_spl.max;
value: SystemPageData.ppt_pl1_spl.val;
has_reset: true;
cb_do_reset => {
SystemPageData.cb_default_ppt_pl1_spl();
}
released => {
SystemPageData.ppt_pl1_spl.val = self.value;
SystemPageData.cb_ppt_pl1_spl(Math.round(self.value))
@@ -231,10 +260,16 @@ export component PageSystem inherits Rectangle {
}
if SystemPageData.ppt_pl2_sppt.val != -1: SystemSlider {
text: @tr("ppt_pl2_sppt" => "PL2, turbo power limit");
text: @tr("ppt_pl2_sppt" => "CPU Turbo Power Limit");
title: @tr("ppt_pl2_sppt" => "CPU Turbo Power Limit");
help_text: @tr("ppt_pl2_sppt_help" => "Short-term CPU power limit for boost periods. Controls maximum power during brief high-performance bursts.");
minimum: SystemPageData.ppt_pl2_sppt.min;
maximum: SystemPageData.ppt_pl2_sppt.max;
value: SystemPageData.ppt_pl2_sppt.val;
has_reset: true;
cb_do_reset => {
SystemPageData.cb_default_ppt_pl2_sppt();
}
released => {
SystemPageData.ppt_pl2_sppt.val = self.value;
SystemPageData.cb_ppt_pl2_sppt(Math.round(self.value))
@@ -242,20 +277,32 @@ export component PageSystem inherits Rectangle {
}
if SystemPageData.ppt_pl3_fppt.val != -1: SystemSlider {
text: @tr("ppt_pl3_fppt" => "PL3, Fast Power Limit");
text: @tr("ppt_pl3_fppt" => "CPU Fast Burst Power Limit");
title: @tr("ppt_pl3_fppt" => "CPU Fast Burst Power Limit");
help_text: @tr("ppt_pl3_fppt_help" => "Ultra-short duration power limit for instantaneous CPU bursts. Affects responsiveness during sudden workload spikes.");
minimum: SystemPageData.ppt_pl3_fppt.min;
maximum: SystemPageData.ppt_pl3_fppt.max;
value: SystemPageData.ppt_pl3_fppt.val;
has_reset: true;
cb_do_reset => {
SystemPageData.cb_default_ppt_pl3_fppt();
}
released => {
SystemPageData.ppt_fppt.val = self.value;
SystemPageData.cb_ppt_fppt(Math.round(self.value))
SystemPageData.ppt_pl3_fppt.val = self.value;
SystemPageData.cb_ppt_pl3_fppt(Math.round(self.value))
}
}
if SystemPageData.ppt_fppt.val != -1: SystemSlider {
text: @tr("ppt_fppt" => "FPPT, Fast Power Limit");
text: @tr("ppt_fppt" => "Fast Package Power Limit");
title: @tr("ppt_fppt" => "Fast Package Power Limit");
help_text: @tr("ppt_fppt_help" => "Ultra-short duration power limit for system package. Controls maximum power during millisecond-scale load spikes.");
minimum: SystemPageData.ppt_fppt.min;
maximum: SystemPageData.ppt_fppt.max;
value: SystemPageData.ppt_fppt.val;
has_reset: true;
cb_do_reset => {
SystemPageData.cb_default_ppt_fppt();
}
released => {
SystemPageData.ppt_fppt.val = self.value;
SystemPageData.cb_ppt_fppt(Math.round(self.value))
@@ -263,10 +310,16 @@ export component PageSystem inherits Rectangle {
}
if SystemPageData.ppt_apu_sppt.val != -1: SystemSlider {
text: @tr("ppt_apu_sppt" => "SPPT, APU slow power limit");
text: @tr("ppt_apu_sppt" => "APU Sustained Power Limit");
title: @tr("ppt_apu_sppt" => "APU Sustained Power Limit");
help_text: @tr("ppt_apu_sppt_help" => "Long-term power limit for integrated graphics and CPU combined. Affects sustained performance of APU-based workloads.");
minimum: SystemPageData.ppt_apu_sppt.min;
maximum: SystemPageData.ppt_apu_sppt.max;
value: SystemPageData.ppt_apu_sppt.val;
has_reset: true;
cb_do_reset => {
SystemPageData.cb_default_ppt_apu_sppt();
}
released => {
SystemPageData.ppt_apu_sppt.val = self.value;
SystemPageData.cb_ppt_apu_sppt(Math.round(self.value))
@@ -274,10 +327,16 @@ export component PageSystem inherits Rectangle {
}
if SystemPageData.ppt_platform_sppt.val != -1: SystemSlider {
text: @tr("ppt_platform_sppt" => "Slow package power tracking limit");
text: @tr("ppt_platform_sppt" => "Platform Sustained Power Limit");
title: @tr("ppt_platform_sppt" => "Platform Sustained Power Limit");
help_text: @tr("ppt_platform_sppt_help" => "Overall system power limit for sustained operations. Controls total platform power consumption over extended periods.");
minimum: SystemPageData.ppt_platform_sppt.min;
maximum: SystemPageData.ppt_platform_sppt.max;
value: SystemPageData.ppt_platform_sppt.val;
has_reset: true;
cb_do_reset => {
SystemPageData.cb_default_ppt_platform_sppt();
}
released => {
SystemPageData.ppt_platform_sppt.val = self.value;
SystemPageData.cb_ppt_platform_sppt(Math.round(self.value))
@@ -285,10 +344,16 @@ export component PageSystem inherits Rectangle {
}
if SystemPageData.nv_dynamic_boost.val != -1: SystemSlider {
text: @tr("nv_dynamic_boost" => "dGPU boost overclock");
text: @tr("nv_dynamic_boost" => "GPU Power Boost");
title: @tr("nv_dynamic_boost" => "GPU Power Boost");
help_text: @tr("nv_dynamic_boost_help" => "Additional power allocation for GPU dynamic boost. Higher values increase GPU performance but generate more heat.");
minimum: SystemPageData.nv_dynamic_boost.min;
maximum: SystemPageData.nv_dynamic_boost.max;
value: SystemPageData.nv_dynamic_boost.val;
has_reset: true;
cb_do_reset => {
SystemPageData.cb_default_nv_dynamic_boost();
}
released => {
SystemPageData.nv_dynamic_boost.val = self.value;
SystemPageData.cb_nv_dynamic_boost(Math.round(self.value))
@@ -296,10 +361,16 @@ export component PageSystem inherits Rectangle {
}
if SystemPageData.nv_temp_target.val != -1: SystemSlider {
text: @tr("nv_temp_target" => "dGPU temperature max");
text: @tr("nv_temp_target" => "GPU Temperature Limit");
title: @tr("nv_temp_target" => "GPU Temperature Limit");
help_text: @tr("nv_temp_target_help" => "Maximum GPU temperature threshold in Celsius. GPU will throttle to maintain temperature below this limit.");
minimum: SystemPageData.nv_temp_target.min;
maximum: SystemPageData.nv_temp_target.max;
value: SystemPageData.nv_temp_target.val;
has_reset: true;
cb_do_reset => {
SystemPageData.cb_default_nv_temp_target();
}
released => {
SystemPageData.nv_temp_target.val = self.value;
SystemPageData.cb_nv_temp_target(Math.round(self.value))
@@ -348,39 +419,39 @@ export component PageSystem inherits Rectangle {
SystemToggle {
text: @tr("Change EPP based on Throttle Policy");
checked <=> SystemPageData.throttle_policy_linked_epp;
checked <=> SystemPageData.platform_profile_linked_epp;
toggled => {
SystemPageData.cb_throttle_policy_linked_epp(SystemPageData.throttle_policy_linked_epp)
SystemPageData.cb_platform_profile_linked_epp(SystemPageData.platform_profile_linked_epp)
}
}
SystemDropdown {
text: @tr("EPP for Balanced Policy");
current_index <=> SystemPageData.throttle_balanced_epp;
current_value: SystemPageData.energy_performance_choices[SystemPageData.throttle_balanced_epp];
current_index <=> SystemPageData.profile_balanced_epp;
current_value: SystemPageData.energy_performance_choices[SystemPageData.profile_balanced_epp];
model <=> SystemPageData.energy_performance_choices;
selected => {
SystemPageData.cb_throttle_balanced_epp(SystemPageData.throttle_balanced_epp)
SystemPageData.cb_profile_balanced_epp(SystemPageData.profile_balanced_epp)
}
}
SystemDropdown {
text: @tr("EPP for Performance Policy");
current_index <=> SystemPageData.throttle_performance_epp;
current_value: SystemPageData.energy_performance_choices[SystemPageData.throttle_performance_epp];
current_index <=> SystemPageData.profile_performance_epp;
current_value: SystemPageData.energy_performance_choices[SystemPageData.profile_performance_epp];
model <=> SystemPageData.energy_performance_choices;
selected => {
SystemPageData.cb_throttle_performance_epp(SystemPageData.throttle_performance_epp)
SystemPageData.cb_profile_performance_epp(SystemPageData.profile_performance_epp)
}
}
SystemDropdown {
text: @tr("EPP for Quiet Policy");
current_index <=> SystemPageData.throttle_quiet_epp;
current_value: SystemPageData.energy_performance_choices[SystemPageData.throttle_quiet_epp];
current_index <=> SystemPageData.profile_quiet_epp;
current_value: SystemPageData.energy_performance_choices[SystemPageData.profile_quiet_epp];
model <=> SystemPageData.energy_performance_choices;
selected => {
SystemPageData.cb_throttle_quiet_epp(SystemPageData.throttle_quiet_epp)
SystemPageData.cb_profile_quiet_epp(SystemPageData.profile_quiet_epp)
}
}
}
@@ -400,19 +471,19 @@ export component PageSystem inherits Rectangle {
spacing: 10px;
SystemDropdown {
text: @tr("Throttle Policy on Battery");
current_index <=> SystemPageData.throttle_policy_on_battery;
current_value: SystemPageData.throttle_policy_choices[SystemPageData.throttle_policy_on_battery];
model <=> SystemPageData.throttle_policy_choices;
current_index <=> SystemPageData.platform_profile_on_battery;
current_value: SystemPageData.platform_profile_choices[SystemPageData.platform_profile_on_battery];
model <=> SystemPageData.platform_profile_choices;
selected => {
SystemPageData.cb_throttle_policy_on_battery(SystemPageData.throttle_policy_on_battery)
SystemPageData.cb_platform_profile_on_battery(SystemPageData.platform_profile_on_battery)
}
}
SystemToggle {
text: @tr("Enabled");
checked <=> SystemPageData.change_throttle_policy_on_battery;
checked <=> SystemPageData.change_platform_profile_on_battery;
toggled => {
SystemPageData.cb_change_throttle_policy_on_battery(SystemPageData.change_throttle_policy_on_battery);
SystemPageData.cb_change_platform_profile_on_battery(SystemPageData.change_platform_profile_on_battery);
}
}
}
@@ -421,19 +492,19 @@ export component PageSystem inherits Rectangle {
spacing: 10px;
SystemDropdown {
text: @tr("Throttle Policy on AC");
current_index <=> SystemPageData.throttle_policy_on_ac;
current_value: SystemPageData.throttle_policy_choices[SystemPageData.throttle_policy_on_ac];
model <=> SystemPageData.throttle_policy_choices;
current_index <=> SystemPageData.platform_profile_on_ac;
current_value: SystemPageData.platform_profile_choices[SystemPageData.platform_profile_on_ac];
model <=> SystemPageData.platform_profile_choices;
selected => {
SystemPageData.cb_throttle_policy_on_ac(SystemPageData.throttle_policy_on_ac)
SystemPageData.cb_platform_profile_on_ac(SystemPageData.platform_profile_on_ac)
}
}
SystemToggle {
text: @tr("Enabled");
checked <=> SystemPageData.change_throttle_policy_on_ac;
checked <=> SystemPageData.change_platform_profile_on_ac;
toggled => {
SystemPageData.cb_change_throttle_policy_on_ac(SystemPageData.change_throttle_policy_on_ac);
SystemPageData.cb_change_platform_profile_on_ac(SystemPageData.change_platform_profile_on_ac);
}
}
}

12
rog-control-center/ui/types/aura_types.slint
View File

@@ -71,7 +71,7 @@ export global AuraPageData {
@tr("Aura brightness" => "High"),
];
in-out property <int> brightness;
callback set_brightness(int);
callback cb_brightness(int);
in-out property <[string]> mode_names: [
@tr("Basic aura mode" => "Static"),
@tr("Basic aura mode" => "Breathe"),
@@ -95,7 +95,7 @@ export global AuraPageData {
in-out property <int> current_available_mode: 0;
in-out property <[int]> supported_basic_modes: [0, 1, 2, 3, 4, 5, 6, 7, 8, 10, 11, 12];
in-out property <int> led_mode;
callback set_led_mode(int);
callback cb_led_mode(int);
in-out property <[string]> zone_names: [
@tr("Aura zone" => "None"),
@tr("Aura zone" => "Key1"),
@@ -130,7 +130,7 @@ export global AuraPageData {
speed: 0,
direction: 0,
};
callback set_led_mode_data(AuraEffect);
callback cb_led_mode_data(AuraEffect);
in-out property <color> color1;
in-out property <brush> colorbox1;
in-out property <color> color2;
@@ -147,8 +147,8 @@ export global AuraPageData {
colorbox1 = data.colour1;
colorbox2 = data.colour2;
}
callback set_hex_from_colour(color) -> string;
callback set_hex_to_colour(string) -> color;
callback cb_hex_from_colour(color) -> string;
callback cb_hex_to_colour(string) -> color;
in-out property <AuraDevType> device_type: AuraDevType.Old;
// List of indexes to power_zone_names. Must correspond to rog-aura crate
in-out property <[PowerZones]> supported_power_zones: [
@@ -165,5 +165,5 @@ export global AuraPageData {
shutdown: true,
}]
};
callback set_led_power(LaptopAuraPower);
callback cb_led_power(LaptopAuraPower);
}

140
rog-control-center/ui/widgets/common.slint
View File

@@ -10,40 +10,46 @@ export component RogItem inherits Rectangle {
}
export component SystemSlider inherits RogItem {
in property <string> title;
in property <string> text;
in-out property <float> value;
in-out property <float> minimum;
in-out property <float> maximum;
callback released(int);
in-out property <string> help_text;
in-out property <bool> has_reset: false;
callback cb_do_reset();
HorizontalLayout {
HorizontalLayout {
width: 50%;
width: 40%;
alignment: LayoutAlignment.stretch;
padding-left: 10px;
TouchArea {
clicked => {
slider.value += 1;
if slider.value > slider.maximum {
slider.value = slider.minimum;
clicked => {
slider.value += 1;
if slider.value > slider.maximum {
slider.value = slider.minimum;
}
}
}
HorizontalLayout {
spacing: 6px;
Text {
font-size: 16px;
vertical-alignment: TextVerticalAlignment.center;
color: Palette.control-foreground;
text <=> root.text;
HorizontalLayout {
spacing: 6px;
Text {
font-size: 16px;
vertical-alignment: TextVerticalAlignment.center;
color: Palette.control-foreground;
text <=> root.text;
}
Text {
font-size: 16px;
horizontal-alignment: TextHorizontalAlignment.right;
vertical-alignment: TextVerticalAlignment.center;
color: Palette.control-foreground;
text: "\{Math.round(root.value)}";
}
}
Text {
font-size: 16px;
horizontal-alignment: TextHorizontalAlignment.right;
vertical-alignment: TextVerticalAlignment.center;
color: Palette.control-foreground;
text: "\{Math.round(root.value)}";
}
}
}
}
@@ -59,6 +65,96 @@ export component SystemSlider inherits RogItem {
}
}
}
help_popup := PopupWindow {
x: help.x - self.width + help.width - 10px;
y: help.y - self.height + help.height - 10px;
Rectangle {
drop-shadow-blur: 10px;
drop-shadow-color: black;
border-radius: 10px;
border-color: Palette.accent-background;
background: Palette.background;
Dialog {
title <=> root.title;
VerticalBox {
Text {
max-width: 420px;
font-size: 18px;
wrap: TextWrap.word-wrap;
horizontal-alignment: TextHorizontalAlignment.center;
text <=> root.title;
}
Rectangle {
height: 1px;
border-color: black;
border-width: 1px;
}
Text {
max-width: 420px;
font-size: 16px;
wrap: TextWrap.word-wrap;
text <=> root.help_text;
}
}
StandardButton {
kind: ok;
}
}
}
}
help := HorizontalBox {
if (help_text != ""): StandardButton {
kind: StandardButtonKind.help;
clicked => {
help_popup.show();
}
}
}
reset_popup := PopupWindow {
x: reset.x - self.width + reset.width;
y: reset.y - self.height + reset.height;
Rectangle {
drop-shadow-blur: 10px;
drop-shadow-color: black;
border-radius: 10px;
border-color: Palette.accent-background;
background: Palette.background;
Dialog {
Text {
max-width: 420px;
font-size: 16px;
wrap: TextWrap.word-wrap;
text: @tr("confirm_reset" => "Are you sure you want to reset this?");
}
StandardButton {
kind: ok;
clicked => {
root.cb_do_reset();
}
}
StandardButton {
kind: cancel;
}
}
}
}
reset := HorizontalBox {
if (has_reset): StandardButton {
kind: StandardButtonKind.reset;
clicked => {
reset_popup.show();
}
}
}
}
}
@@ -114,7 +210,7 @@ export component SystemToggleInt inherits RogItem {
alignment: LayoutAlignment.end;
padding-right: 20px;
Switch {
checked: root.checked_int != 0;
checked: root.checked_int != 0;
toggled => {
root.checked_int = self.checked ? 1 : 0;
root.toggled(root.checked_int);

4
rog-dbus/src/asus_armoury.rs
View File

@@ -2,7 +2,7 @@
//!
//! `zbus-xmlgen system xyz.ljones.Asusd
//! /xyz/ljones/asus_armoury/nv_temp_target`
use rog_platform::firmware_attributes::FirmwareAttribute;
use rog_platform::asus_armoury::FirmwareAttribute;
use zbus::proxy;
#[proxy(
interface = "xyz.ljones.AsusArmoury",
@@ -48,4 +48,6 @@ pub trait AsusArmoury {
/// take. Returns `-1` if not used or set.
#[zbus(property)]
fn scalar_increment(&self) -> zbus::Result<i32>;
async fn restore_default(&self) -> zbus::Result<()>;
}

40
rog-dbus/src/lib.rs
View File

@@ -1,4 +1,5 @@
pub use asusd::{DBUS_IFACE, DBUS_NAME, DBUS_PATH};
use zbus::proxy::ProxyImpl;
pub mod asus_armoury;
pub mod scsi_aura;
@@ -50,3 +51,42 @@ pub async fn has_iface(iface: &str) -> Result<bool, Box<dyn std::error::Error>>
}
Ok(false)
}
pub async fn find_iface_async<T>(iface_name: &str) -> Result<Vec<T>, Box<dyn std::error::Error>>
where
T: ProxyImpl<'static> + From<zbus::Proxy<'static>>
{
let conn = zbus::Connection::system().await?;
let f = zbus::fdo::ObjectManagerProxy::new(&conn, "xyz.ljones.Asusd", "/").await?;
let interfaces = f.get_managed_objects().await?;
let mut paths = Vec::new();
for v in interfaces.iter() {
// let o: Vec<zbus::names::OwnedInterfaceName> = v.1.keys().map(|e|
// e.to_owned()).collect(); println!("{}, {:?}", v.0, o);
for k in v.1.keys() {
if k.as_str() == iface_name {
// println!("Found {iface_name} device at {}, {}", v.0, k);
paths.push(v.0.clone());
}
}
}
if paths.len() > 1 {
println!("Multiple asusd interfaces devices found");
}
if !paths.is_empty() {
let mut ctrl = Vec::new();
paths.sort_by(|a, b| a.cmp(b));
for path in paths {
ctrl.push(
T::builder(&conn)
.path(path.clone())?
.destination("xyz.ljones.Asusd")?
.build()
.await?
);
}
return Ok(ctrl);
}
Err(format!("Did not find {iface_name}").into())
}

14
rog-dbus/src/zbus_fan_curves.rs
View File

@@ -20,7 +20,7 @@
//!
//! …consequently `zbus-xmlgen` did not generate code for the above interfaces.
use rog_platform::platform::ThrottlePolicy;
use rog_platform::platform::PlatformProfile;
use rog_profiles::fan_curve_set::CurveData;
use rog_profiles::FanCurvePU;
use zbus::proxy;
@@ -32,30 +32,30 @@ use zbus::proxy;
)]
pub trait FanCurves {
/// Get the fan-curve data for the currently active PlatformProfile
fn fan_curve_data(&self, profile: ThrottlePolicy) -> zbus::Result<Vec<CurveData>>;
fn fan_curve_data(&self, profile: PlatformProfile) -> zbus::Result<Vec<CurveData>>;
/// Reset the stored (self) and device curve to the defaults of the
/// platform.
///
/// Each platform_profile has a different default and the defualt can be
/// read only for the currently active profile.
fn reset_profile_curves(&self, profile: ThrottlePolicy) -> zbus::Result<()>;
fn reset_profile_curves(&self, profile: PlatformProfile) -> zbus::Result<()>;
/// SetActiveCurveToDefaults method
fn set_curves_to_defaults(&self, profile: ThrottlePolicy) -> zbus::Result<()>;
fn set_curves_to_defaults(&self, profile: PlatformProfile) -> zbus::Result<()>;
/// Set the fan curve for the specified profile, or the profile the user is
/// currently in if profile == None. Will also activate the fan curve.
fn set_fan_curve(&self, profile: ThrottlePolicy, curve: CurveData) -> zbus::Result<()>;
fn set_fan_curve(&self, profile: PlatformProfile, curve: CurveData) -> zbus::Result<()>;
/// Set a profile fan curve enabled status. Will also activate a fan curve.
fn set_fan_curves_enabled(&self, profile: ThrottlePolicy, enabled: bool) -> zbus::Result<()>;
fn set_fan_curves_enabled(&self, profile: PlatformProfile, enabled: bool) -> zbus::Result<()>;
/// Set a single fan curve for a profile to enabled status. Will also
/// activate a fan curve.
async fn set_profile_fan_curve_enabled(
&self,
profile: ThrottlePolicy,
profile: PlatformProfile,
fan: FanCurvePU,
enabled: bool
) -> zbus::Result<()>;

117
rog-dbus/src/zbus_platform.rs
View File

@@ -21,7 +21,7 @@
//! …consequently `zbus-xmlgen` did not generate code for the above interfaces.
use rog_platform::cpu::CPUEPP;
use rog_platform::platform::{GpuMode, Properties, ThrottlePolicy};
use rog_platform::platform::{PlatformProfile, Properties};
use zbus::proxy;
#[proxy(
@@ -34,7 +34,7 @@ pub trait Platform {
fn version(&self) -> zbus::Result<String>;
/// NextThrottleThermalPolicy method
fn next_throttle_thermal_policy(&self) -> zbus::Result<()>;
fn next_platform_profile(&self) -> zbus::Result<()>;
/// SupportedProperties method
fn supported_properties(&self) -> zbus::Result<Vec<Properties>>;
@@ -48,131 +48,60 @@ pub trait Platform {
// Toggle one-shot charge to 100%
fn one_shot_full_charge(&self) -> zbus::Result<()>;
/// DgpuDisable property
#[zbus(property)]
fn dgpu_disable(&self) -> zbus::Result<bool>;
/// EgpuEnable property
#[zbus(property)]
fn egpu_enable(&self) -> zbus::Result<bool>;
/// GpuMuxMode property
#[zbus(property)]
fn gpu_mux_mode(&self) -> zbus::Result<u8>;
#[zbus(property)]
fn set_gpu_mux_mode(&self, value: GpuMode) -> zbus::Result<()>;
/// MiniLedMode property
#[zbus(property)]
fn mini_led_mode(&self) -> zbus::Result<bool>;
#[zbus(property)]
fn set_mini_led_mode(&self, value: bool) -> zbus::Result<()>;
/// NvDynamicBoost property
#[zbus(property)]
fn nv_dynamic_boost(&self) -> zbus::Result<u8>;
#[zbus(property)]
fn set_nv_dynamic_boost(&self, value: u8) -> zbus::Result<()>;
/// NvTempTarget property
#[zbus(property)]
fn nv_temp_target(&self) -> zbus::Result<u8>;
#[zbus(property)]
fn set_nv_temp_target(&self, value: u8) -> zbus::Result<()>;
/// PanelOd property
#[zbus(property)]
fn panel_od(&self) -> zbus::Result<bool>;
#[zbus(property)]
fn set_panel_od(&self, value: bool) -> zbus::Result<()>;
/// PostAnimationSound property
#[zbus(property)]
fn boot_sound(&self) -> zbus::Result<bool>;
#[zbus(property)]
fn set_boot_sound(&self, value: bool) -> zbus::Result<()>;
/// PptApuSppt property
#[zbus(property)]
fn ppt_apu_sppt(&self) -> zbus::Result<u8>;
#[zbus(property)]
fn set_ppt_apu_sppt(&self, value: u8) -> zbus::Result<()>;
/// PptFppt property
#[zbus(property)]
fn ppt_fppt(&self) -> zbus::Result<u8>;
#[zbus(property)]
fn set_ppt_fppt(&self, value: u8) -> zbus::Result<()>;
/// PptPl1Spl property
#[zbus(property)]
fn ppt_pl1_spl(&self) -> zbus::Result<u8>;
#[zbus(property)]
fn set_ppt_pl1_spl(&self, value: u8) -> zbus::Result<()>;
/// PptPl2Sppt property
#[zbus(property)]
fn ppt_pl2_sppt(&self) -> zbus::Result<u8>;
#[zbus(property)]
fn set_ppt_pl2_sppt(&self, value: u8) -> zbus::Result<()>;
/// PptPlatformSppt property
#[zbus(property)]
fn ppt_platform_sppt(&self) -> zbus::Result<u8>;
#[zbus(property)]
fn set_ppt_platform_sppt(&self, value: u8) -> zbus::Result<()>;
/// ThrottleBalancedEpp property
#[zbus(property)]
fn throttle_balanced_epp(&self) -> zbus::Result<CPUEPP>;
fn profile_balanced_epp(&self) -> zbus::Result<CPUEPP>;
#[zbus(property)]
fn set_throttle_balanced_epp(&self, epp: CPUEPP) -> zbus::Result<()>;
fn set_profile_balanced_epp(&self, epp: CPUEPP) -> zbus::Result<()>;
/// ThrottlePerformanceEpp property
#[zbus(property)]
fn throttle_performance_epp(&self) -> zbus::Result<CPUEPP>;
fn profile_performance_epp(&self) -> zbus::Result<CPUEPP>;
#[zbus(property)]
fn set_throttle_performance_epp(&self, epp: CPUEPP) -> zbus::Result<()>;
fn set_profile_performance_epp(&self, epp: CPUEPP) -> zbus::Result<()>;
/// ThrottlePolicyLinkedEpp property
#[zbus(property)]
fn throttle_policy_linked_epp(&self) -> zbus::Result<bool>;
fn platform_profile_linked_epp(&self) -> zbus::Result<bool>;
#[zbus(property)]
fn set_throttle_policy_linked_epp(&self, value: bool) -> zbus::Result<()>;
fn set_platform_profile_linked_epp(&self, value: bool) -> zbus::Result<()>;
/// ThrottlePolicyOnAc property
#[zbus(property)]
fn throttle_policy_on_ac(&self) -> zbus::Result<ThrottlePolicy>;
fn platform_profile_on_ac(&self) -> zbus::Result<PlatformProfile>;
#[zbus(property)]
fn set_throttle_policy_on_ac(&self, throttle_policy: ThrottlePolicy) -> zbus::Result<()>;
fn set_platform_profile_on_ac(&self, platform_profile: PlatformProfile) -> zbus::Result<()>;
/// ChangeThrottlePolicyOnAc property
#[zbus(property)]
fn change_throttle_policy_on_ac(&self) -> zbus::Result<bool>;
fn change_platform_profile_on_ac(&self) -> zbus::Result<bool>;
#[zbus(property)]
fn set_change_throttle_policy_on_ac(&self, change: bool) -> zbus::Result<()>;
fn set_change_platform_profile_on_ac(&self, change: bool) -> zbus::Result<()>;
/// ThrottlePolicyOnBattery property
#[zbus(property)]
fn throttle_policy_on_battery(&self) -> zbus::Result<ThrottlePolicy>;
fn platform_profile_on_battery(&self) -> zbus::Result<PlatformProfile>;
#[zbus(property)]
fn set_throttle_policy_on_battery(&self, throttle_policy: ThrottlePolicy) -> zbus::Result<()>;
fn set_platform_profile_on_battery(
&self,
platform_profile: PlatformProfile
) -> zbus::Result<()>;
/// ChangeThrottlePolicyOnAc property
#[zbus(property)]
fn change_throttle_policy_on_battery(&self) -> zbus::Result<bool>;
fn change_platform_profile_on_battery(&self) -> zbus::Result<bool>;
#[zbus(property)]
fn set_change_throttle_policy_on_battery(&self, change: bool) -> zbus::Result<()>;
fn set_change_platform_profile_on_battery(&self, change: bool) -> zbus::Result<()>;
/// ThrottleQuietEpp property
#[zbus(property)]
fn throttle_quiet_epp(&self) -> zbus::Result<CPUEPP>;
fn profile_quiet_epp(&self) -> zbus::Result<CPUEPP>;
#[zbus(property)]
fn set_throttle_quiet_epp(&self, epp: CPUEPP) -> zbus::Result<()>;
fn set_profile_quiet_epp(&self, epp: CPUEPP) -> zbus::Result<()>;
/// ThrottlePolicy property
#[zbus(property)]
fn throttle_thermal_policy(&self) -> zbus::Result<ThrottlePolicy>;
fn platform_profile(&self) -> zbus::Result<PlatformProfile>;
#[zbus(property)]
fn set_throttle_thermal_policy(&self, throttle_policy: ThrottlePolicy) -> zbus::Result<()>;
fn set_platform_profile(&self, platform_profile: PlatformProfile) -> zbus::Result<()>;
}

47
rog-platform/src/firmware_attributes.rs → rog-platform/src/asus_armoury.rs
View File

@@ -76,11 +76,11 @@ impl Attribute {
}
/// Write the `current_value` directly to the attribute path
pub fn set_current_value(&self, new_value: AttrValue) -> Result<(), PlatformError> {
pub fn set_current_value(&self, new_value: &AttrValue) -> Result<(), PlatformError> {
let path = self.base_path.join("current_value");
let value_str = match new_value {
AttrValue::Integer(val) => val.to_string(),
AttrValue::Integer(val) => &val.to_string(),
AttrValue::String(val) => val,
_ => return Err(PlatformError::InvalidValue)
};
@@ -94,6 +94,10 @@ impl Attribute {
&self.default_value
}
pub fn restore_default(&self) -> Result<(), PlatformError> {
self.set_current_value(&self.default_value)
}
pub fn possible_values(&self) -> &AttrValue {
&self.possible_values
}
@@ -157,8 +161,28 @@ impl Attribute {
default_value, possible_values, min_value, max_value, scalar_increment
)
}
pub fn get_watcher(&self) -> Result<inotify::Inotify, PlatformError> {
let path = self.base_path.join("current_value");
if let Some(path) = path.to_str() {
let inotify = inotify::Inotify::init()?;
inotify
.watches()
.add(path, inotify::WatchMask::MODIFY)
.map_err(|e| {
if e.kind() == std::io::ErrorKind::NotFound {
PlatformError::AttrNotFound(self.name().to_string())
} else {
PlatformError::IoPath(path.to_string(), e)
}
})?;
return Ok(inotify);
}
Err(PlatformError::AttrNotFound(self.name().to_string()))
}
}
#[derive(Clone)]
pub struct FirmwareAttributes {
attrs: Vec<Attribute>
}
@@ -273,6 +297,23 @@ pub enum FirmwareAttribute {
None = 24
}
impl FirmwareAttribute {
pub fn is_ppt(&self) -> bool {
matches!(
self,
FirmwareAttribute::PptPl1Spl
| FirmwareAttribute::PptPl2Sppt
| FirmwareAttribute::PptPl3Fppt
| FirmwareAttribute::PptFppt
| FirmwareAttribute::PptApuSppt
| FirmwareAttribute::PptPlatformSppt
| FirmwareAttribute::NvDynamicBoost
| FirmwareAttribute::NvTempTarget
| FirmwareAttribute::DgpuTgp
)
}
}
impl From<&str> for FirmwareAttribute {
fn from(s: &str) -> Self {
match s {
@@ -415,6 +456,6 @@ mod tests {
if let AttrValue::Integer(val) = &mut val {
*val = 0;
}
attr.set_current_value(val).unwrap();
attr.set_current_value(&val).unwrap();
}
}

12
rog-platform/src/cpu.rs
View File

@@ -5,7 +5,7 @@ use serde::{Deserialize, Serialize};
use zbus::zvariant::{OwnedValue, Type, Value};
use crate::error::{PlatformError, Result};
use crate::platform::ThrottlePolicy;
use crate::platform::PlatformProfile;
use crate::{read_attr_string, to_device};
const ATTR_AVAILABLE_GOVERNORS: &str = "cpufreq/scaling_available_governors";
@@ -201,12 +201,12 @@ pub enum CPUEPP {
Power = 4
}
impl From<ThrottlePolicy> for CPUEPP {
fn from(value: ThrottlePolicy) -> Self {
impl From<PlatformProfile> for CPUEPP {
fn from(value: PlatformProfile) -> Self {
match value {
ThrottlePolicy::Balanced => CPUEPP::BalancePerformance,
ThrottlePolicy::Performance => CPUEPP::Performance,
ThrottlePolicy::Quiet => CPUEPP::Power
PlatformProfile::Balanced => CPUEPP::BalancePerformance,
PlatformProfile::Performance => CPUEPP::Performance,
PlatformProfile::Quiet => CPUEPP::Power
}
}
}

2
rog-platform/src/lib.rs
View File

@@ -1,9 +1,9 @@
//! This crate functions as a wrapper of all the relevant ASUS functionality
//! on ROG, Strix, and TUF laptops.
pub mod asus_armoury;
pub mod cpu;
pub mod error;
pub mod firmware_attributes;
pub mod hid_raw;
pub mod keyboard_led;
pub(crate) mod macros;

91
rog-platform/src/platform.rs
View File

@@ -7,7 +7,7 @@ use serde::{Deserialize, Serialize};
use zbus::zvariant::{OwnedValue, Type, Value};
use crate::error::{PlatformError, Result};
use crate::{attr_bool, attr_string, attr_u8, to_device};
use crate::{attr_string, to_device};
/// The "platform" device provides access to things like:
/// - `dgpu_disable`
@@ -24,35 +24,12 @@ pub struct RogPlatform {
}
impl RogPlatform {
attr_bool!("dgpu_disable", path);
attr_bool!("egpu_enable", path);
attr_u8!("gpu_mux_mode", path);
attr_bool!("panel_od", path);
attr_bool!("mini_led_mode", path);
attr_u8!(
/// This is technically the same as `platform_profile` since both are
/// tied in-kernel
"throttle_thermal_policy",
path
);
attr_string!(
/// The acpi platform_profile support
"platform_profile",
pp_path
);
attr_bool!(
/// Control the POST animation "FWOOoosh" sound
"boot_sound",
path
);
pub fn new() -> Result<Self> {
let mut enumerator = udev::Enumerator::new().map_err(|err| {
warn!("{}", err);
@@ -209,15 +186,15 @@ impl Display for GpuMode {
Copy,
)]
#[zvariant(signature = "u")]
/// `throttle_thermal_policy` in asus_wmi
pub enum ThrottlePolicy {
/// `platform_profile` in asus_wmi
pub enum PlatformProfile {
#[default]
Balanced = 0,
Performance = 1,
Quiet = 2
}
impl ThrottlePolicy {
impl PlatformProfile {
pub const fn next(self) -> Self {
match self {
Self::Balanced => Self::Performance,
@@ -235,7 +212,7 @@ impl ThrottlePolicy {
}
}
impl From<u8> for ThrottlePolicy {
impl From<u8> for PlatformProfile {
fn from(num: u8) -> Self {
match num {
0 => Self::Balanced,
@@ -249,52 +226,74 @@ impl From<u8> for ThrottlePolicy {
}
}
impl From<i32> for ThrottlePolicy {
impl From<i32> for PlatformProfile {
fn from(num: i32) -> Self {
(num as u8).into()
}
}
impl From<ThrottlePolicy> for u8 {
fn from(p: ThrottlePolicy) -> Self {
impl From<PlatformProfile> for u8 {
fn from(p: PlatformProfile) -> Self {
match p {
ThrottlePolicy::Balanced => 0,
ThrottlePolicy::Performance => 1,
ThrottlePolicy::Quiet => 2
PlatformProfile::Balanced => 0,
PlatformProfile::Performance => 1,
PlatformProfile::Quiet => 2
}
}
}
impl From<ThrottlePolicy> for i32 {
fn from(p: ThrottlePolicy) -> Self {
impl From<PlatformProfile> for i32 {
fn from(p: PlatformProfile) -> Self {
<u8>::from(p) as i32
}
}
impl From<ThrottlePolicy> for &str {
fn from(profile: ThrottlePolicy) -> &'static str {
impl From<PlatformProfile> for &str {
fn from(profile: PlatformProfile) -> &'static str {
match profile {
ThrottlePolicy::Balanced => "balanced",
ThrottlePolicy::Performance => "performance",
ThrottlePolicy::Quiet => "quiet"
PlatformProfile::Balanced => "balanced",
PlatformProfile::Performance => "performance",
PlatformProfile::Quiet => "quiet"
}
}
}
impl std::str::FromStr for ThrottlePolicy {
impl From<String> for PlatformProfile {
fn from(profile: String) -> Self {
Self::from(&profile)
}
}
impl From<&String> for PlatformProfile {
fn from(profile: &String) -> Self {
match profile.to_ascii_lowercase().trim() {
"balanced" => PlatformProfile::Balanced,
"performance" => PlatformProfile::Performance,
"quiet" => PlatformProfile::Quiet,
"low-power" => PlatformProfile::Quiet,
_ => {
warn!("{profile} is unknown, using ThrottlePolicy::Balanced");
PlatformProfile::Balanced
}
}
}
}
impl std::str::FromStr for PlatformProfile {
type Err = PlatformError;
fn from_str(profile: &str) -> Result<Self> {
match profile.to_ascii_lowercase().trim() {
"balanced" => Ok(ThrottlePolicy::Balanced),
"performance" => Ok(ThrottlePolicy::Performance),
"quiet" => Ok(ThrottlePolicy::Quiet),
"balanced" => Ok(PlatformProfile::Balanced),
"performance" => Ok(PlatformProfile::Performance),
"quiet" => Ok(PlatformProfile::Quiet),
"low-power" => Ok(PlatformProfile::Quiet),
_ => Err(PlatformError::NotSupported)
}
}
}
impl Display for ThrottlePolicy {
impl Display for PlatformProfile {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{:?}", self)
}

60
rog-profiles/src/lib.rs
View File

@@ -4,7 +4,7 @@ pub mod fan_curve_set;
use error::ProfileError;
use fan_curve_set::CurveData;
use log::debug;
use rog_platform::platform::ThrottlePolicy;
use rog_platform::platform::PlatformProfile;
use serde::{Deserialize, Serialize};
pub use udev::Device;
#[cfg(feature = "dbus")]
@@ -125,7 +125,7 @@ impl FanCurveProfiles {
pub fn read_from_dev_profile(
&mut self,
profile: ThrottlePolicy,
profile: PlatformProfile,
device: &Device
) -> Result<(), ProfileError> {
let fans = Self::supported_fans()?;
@@ -143,9 +143,9 @@ impl FanCurveProfiles {
}
match profile {
ThrottlePolicy::Balanced => self.balanced = curves,
ThrottlePolicy::Performance => self.performance = curves,
ThrottlePolicy::Quiet => self.quiet = curves
PlatformProfile::Balanced => self.balanced = curves,
PlatformProfile::Performance => self.performance = curves,
PlatformProfile::Quiet => self.quiet = curves
}
Ok(())
}
@@ -157,7 +157,7 @@ impl FanCurveProfiles {
/// read only for the currently active profile.
pub fn set_active_curve_to_defaults(
&mut self,
profile: ThrottlePolicy,
profile: PlatformProfile,
device: &mut Device
) -> Result<(), ProfileError> {
let fans = Self::supported_fans()?;
@@ -175,13 +175,13 @@ impl FanCurveProfiles {
/// in the enabled list it will become active.
pub fn write_profile_curve_to_platform(
&mut self,
profile: ThrottlePolicy,
profile: PlatformProfile,
device: &mut Device
) -> Result<(), ProfileError> {
let fans = match profile {
ThrottlePolicy::Balanced => &mut self.balanced,
ThrottlePolicy::Performance => &mut self.performance,
ThrottlePolicy::Quiet => &mut self.quiet
PlatformProfile::Balanced => &mut self.balanced,
PlatformProfile::Performance => &mut self.performance,
PlatformProfile::Quiet => &mut self.quiet
};
for fan in fans.iter().filter(|f| !f.enabled) {
debug!("write_profile_curve_to_platform: writing profile:{profile}, {fan:?}");
@@ -196,19 +196,19 @@ impl FanCurveProfiles {
Ok(())
}
pub fn set_profile_curves_enabled(&mut self, profile: ThrottlePolicy, enabled: bool) {
pub fn set_profile_curves_enabled(&mut self, profile: PlatformProfile, enabled: bool) {
match profile {
ThrottlePolicy::Balanced => {
PlatformProfile::Balanced => {
for curve in self.balanced.iter_mut() {
curve.enabled = enabled;
}
}
ThrottlePolicy::Performance => {
PlatformProfile::Performance => {
for curve in self.performance.iter_mut() {
curve.enabled = enabled;
}
}
ThrottlePolicy::Quiet => {
PlatformProfile::Quiet => {
for curve in self.quiet.iter_mut() {
curve.enabled = enabled;
}
@@ -218,12 +218,12 @@ impl FanCurveProfiles {
pub fn set_profile_fan_curve_enabled(
&mut self,
profile: ThrottlePolicy,
profile: PlatformProfile,
fan: FanCurvePU,
enabled: bool
) {
match profile {
ThrottlePolicy::Balanced => {
PlatformProfile::Balanced => {
for curve in self.balanced.iter_mut() {
if curve.fan == fan {
curve.enabled = enabled;
@@ -231,7 +231,7 @@ impl FanCurveProfiles {
}
}
}
ThrottlePolicy::Performance => {
PlatformProfile::Performance => {
for curve in self.performance.iter_mut() {
if curve.fan == fan {
curve.enabled = enabled;
@@ -239,7 +239,7 @@ impl FanCurveProfiles {
}
}
}
ThrottlePolicy::Quiet => {
PlatformProfile::Quiet => {
for curve in self.quiet.iter_mut() {
if curve.fan == fan {
curve.enabled = enabled;
@@ -250,31 +250,31 @@ impl FanCurveProfiles {
}
}
pub fn get_fan_curves_for(&self, name: ThrottlePolicy) -> &[CurveData] {
pub fn get_fan_curves_for(&self, name: PlatformProfile) -> &[CurveData] {
match name {
ThrottlePolicy::Balanced => &self.balanced,
ThrottlePolicy::Performance => &self.performance,
ThrottlePolicy::Quiet => &self.quiet
PlatformProfile::Balanced => &self.balanced,
PlatformProfile::Performance => &self.performance,
PlatformProfile::Quiet => &self.quiet
}
}
pub fn get_fan_curve_for(&self, name: &ThrottlePolicy, pu: FanCurvePU) -> Option<&CurveData> {
pub fn get_fan_curve_for(&self, name: &PlatformProfile, pu: FanCurvePU) -> Option<&CurveData> {
match name {
ThrottlePolicy::Balanced => {
PlatformProfile::Balanced => {
for this_curve in self.balanced.iter() {
if this_curve.fan == pu {
return Some(this_curve);
}
}
}
ThrottlePolicy::Performance => {
PlatformProfile::Performance => {
for this_curve in self.performance.iter() {
if this_curve.fan == pu {
return Some(this_curve);
}
}
}
ThrottlePolicy::Quiet => {
PlatformProfile::Quiet => {
for this_curve in self.quiet.iter() {
if this_curve.fan == pu {
return Some(this_curve);
@@ -288,10 +288,10 @@ impl FanCurveProfiles {
pub fn save_fan_curve(
&mut self,
curve: CurveData,
profile: ThrottlePolicy
profile: PlatformProfile
) -> Result<(), ProfileError> {
match profile {
ThrottlePolicy::Balanced => {
PlatformProfile::Balanced => {
for this_curve in self.balanced.iter_mut() {
if this_curve.fan == curve.fan {
*this_curve = curve;
@@ -299,7 +299,7 @@ impl FanCurveProfiles {
}
}
}
ThrottlePolicy::Performance => {
PlatformProfile::Performance => {
for this_curve in self.performance.iter_mut() {
if this_curve.fan == curve.fan {
*this_curve = curve;
@@ -307,7 +307,7 @@ impl FanCurveProfiles {
}
}
}
ThrottlePolicy::Quiet => {
PlatformProfile::Quiet => {
for this_curve in self.quiet.iter_mut() {
if this_curve.fan == curve.fan {
*this_curve = curve;