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1 Commits
argh ... remove_sup

Author SHA1 Message Date
Denis Benato
e9c5315bda Feat: Remove supergfxctl notification daemon 2026-01-13 22:05:34 +01:00
12 changed files with 766 additions and 1108 deletions
Expand all files Collapse all files

2
CHANGELOG.md
View File

@@ -6,7 +6,7 @@
- Added support for TUF keyboard powerstate control - Added support for TUF keyboard powerstate control
- Improved AniMe Matrix support thanks to @Seom1177 ! - Improved AniMe Matrix support thanks to @Seom1177 !
- Fixed a bug with one-shot battery change, thanks @bitr8 ! - Fixed a bug with one-shot battery change, thanks @bitr8 !
- Changed the CLI interface of asusctl to be less confusing
## [6.2.0] ## [6.2.0]

39
Cargo.lock generated
View File

@@ -151,38 +151,6 @@ dependencies = [
"syn 2.0.114", "syn 2.0.114",
] ]
[[package]]
name = "argh"
version = "0.1.13"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "34ff18325c8a36b82f992e533ece1ec9f9a9db446bd1c14d4f936bac88fcd240"
dependencies = [
"argh_derive",
"argh_shared",
"rust-fuzzy-search",
]
[[package]]
name = "argh_derive"
version = "0.1.13"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "adb7b2b83a50d329d5d8ccc620f5c7064028828538bdf5646acd60dc1f767803"
dependencies = [
"argh_shared",
"proc-macro2",
"quote",
"syn 2.0.114",
]
[[package]]
name = "argh_shared"
version = "0.1.13"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "a464143cc82dedcdc3928737445362466b7674b5db4e2eb8e869846d6d84f4f6"
dependencies = [
"serde",
]
[[package]] [[package]]
name = "arrayref" name = "arrayref"
version = "0.3.9" version = "0.3.9"
@@ -214,7 +182,6 @@ dependencies = [
name = "asusctl" name = "asusctl"
version = "6.2.0" version = "6.2.0"
dependencies = [ dependencies = [
"argh",
"dmi_id", "dmi_id",
"env_logger", "env_logger",
"gumdrop", "gumdrop",
@@ -4654,12 +4621,6 @@ dependencies = [
"libusb1-sys", "libusb1-sys",
] ]
[[package]]
name = "rust-fuzzy-search"
version = "0.1.1"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "a157657054ffe556d8858504af8a672a054a6e0bd9e8ee531059100c0fa11bb2"
[[package]] [[package]]
name = "rustc-hash" name = "rustc-hash"
version = "1.1.0" version = "1.1.0"

1
asusctl/Cargo.toml
View File

@@ -24,7 +24,6 @@ env_logger.workspace = true
ron.workspace = true ron.workspace = true
gumdrop.workspace = true gumdrop.workspace = true
zbus.workspace = true zbus.workspace = true
argh = "0.1"
[dev-dependencies] [dev-dependencies]
rog_dbus = { path = "../rog-dbus" } rog_dbus = { path = "../rog-dbus" }

167
asusctl/src/anime_cli.rs
View File

@@ -1,151 +1,154 @@
use argh::FromArgs; use gumdrop::Options;
use rog_anime::usb::{AnimAwake, AnimBooting, AnimShutdown, AnimSleeping}; use rog_anime::usb::{AnimAwake, AnimBooting, AnimShutdown, AnimSleeping, Brightness};
use rog_anime::AnimeType; use rog_anime::AnimeType;
#[derive(FromArgs, Debug)] #[derive(Options)]
#[argh(subcommand, name = "anime", description = "anime commands")]
pub struct AnimeCommand { pub struct AnimeCommand {
#[argh(option, description = "override the display type")] #[options(help = "print help message")]
pub help: bool,
#[options(meta = "", help = "override the display type")]
pub override_type: Option<AnimeType>, pub override_type: Option<AnimeType>,
#[argh(option, description = "enable/disable the display")] #[options(meta = "", help = "enable/disable the display")]
pub enable_display: Option<bool>, pub enable_display: Option<bool>,
#[argh( #[options(meta = "", help = "enable/disable the builtin run/powersave animation")]
option,
description = "enable/disable the builtin run/powersave animation"
)]
pub enable_powersave_anim: Option<bool>, pub enable_powersave_anim: Option<bool>,
#[argh( #[options(
option, meta = "",
description = "set global base brightness value <off, low, med, high>" help = "set global base brightness value <Off, Low, Med, High>"
)] )]
pub brightness: Option<rog_anime::usb::Brightness>, pub brightness: Option<Brightness>,
#[argh(switch, description = "clear the display")] #[options(help = "clear the display")]
pub clear: bool, pub clear: bool,
#[argh( #[options(
option, no_short,
description = "turn the anime off when external power is unplugged" meta = "",
help = "turn the anime off when external power is unplugged"
)] )]
pub off_when_unplugged: Option<bool>, pub off_when_unplugged: Option<bool>,
#[argh(option, description = "turn the anime off when the laptop suspends")] #[options(
no_short,
meta = "",
help = "turn the anime off when the laptop suspends"
)]
pub off_when_suspended: Option<bool>, pub off_when_suspended: Option<bool>,
#[argh(option, description = "turn the anime off when the lid is closed")] #[options(
no_short,
meta = "",
help = "turn the anime off when the lid is closed"
)]
pub off_when_lid_closed: Option<bool>, pub off_when_lid_closed: Option<bool>,
#[argh(option, description = "off with his head!!!")] #[options(no_short, meta = "", help = "Off with his head!!!")]
pub off_with_his_head: Option<bool>, pub off_with_his_head: Option<bool>,
#[argh(subcommand)] #[options(command)]
pub command: Option<AnimeActions>, pub command: Option<AnimeActions>,
} }
/// Anime subcommands (image, gif, builtins, etc.) #[derive(Options)]
#[derive(FromArgs, Debug)]
#[argh(subcommand)]
pub enum AnimeActions { pub enum AnimeActions {
#[options(help = "display a PNG image")]
Image(AnimeImage), Image(AnimeImage),
#[options(help = "display a diagonal/pixel-perfect PNG")]
PixelImage(AnimeImageDiagonal), PixelImage(AnimeImageDiagonal),
#[options(help = "display an animated GIF")]
Gif(AnimeGif), Gif(AnimeGif),
#[options(help = "display an animated diagonal/pixel-perfect GIF")]
PixelGif(AnimeGifDiagonal), PixelGif(AnimeGifDiagonal),
#[options(help = "change which builtin animations are shown")]
SetBuiltins(Builtins), SetBuiltins(Builtins),
} }
#[derive(FromArgs, Debug)] #[derive(Options)]
#[argh(
subcommand,
name = "set-builtins",
description = "change which builtin animations are shown"
)]
pub struct Builtins { pub struct Builtins {
#[argh( #[options(help = "print help message")]
option, pub help: bool,
description = "default is used if unspecified, <default:GlitchConstruction, StaticEmergence>" #[options(
meta = "",
help = "Default is used if unspecified, <default:GlitchConstruction, StaticEmergence>"
)] )]
pub boot: AnimBooting, pub boot: AnimBooting,
#[argh( #[options(
option, meta = "",
description = "default is used if unspecified, <default:BinaryBannerScroll, RogLogoGlitch>" help = "Default is used if unspecified, <default:BinaryBannerScroll, RogLogoGlitch>"
)] )]
pub awake: AnimAwake, pub awake: AnimAwake,
#[argh( #[options(
option, meta = "",
description = "default is used if unspecified, <default:BannerSwipe, Starfield>" help = "Default is used if unspecified, <default:BannerSwipe, Starfield>"
)] )]
pub sleep: AnimSleeping, pub sleep: AnimSleeping,
#[argh( #[options(
option, meta = "",
description = "default is used if unspecified, <default:GlitchOut, SeeYa>" help = "Default is used if unspecified, <default:GlitchOut, SeeYa>"
)] )]
pub shutdown: AnimShutdown, pub shutdown: AnimShutdown,
#[argh(option, description = "set/apply the animations <true/false>")] #[options(meta = "", help = "set/apply the animations <true/false>")]
pub set: Option<bool>, pub set: Option<bool>,
} }
#[derive(FromArgs, Debug)] #[derive(Options)]
#[argh(subcommand, name = "image", description = "display a PNG image")]
pub struct AnimeImage { pub struct AnimeImage {
#[argh(option, description = "full path to the png to display")] #[options(help = "print help message")]
pub help: bool,
#[options(meta = "", help = "full path to the png to display")]
pub path: String, pub path: String,
#[argh(option, default = "1.0", description = "scale 1.0 == normal")] #[options(meta = "", default = "1.0", help = "scale 1.0 == normal")]
pub scale: f32, pub scale: f32,
#[argh(option, default = "0.0", description = "x position (float)")] #[options(meta = "", default = "0.0", help = "x position (float)")]
pub x_pos: f32, pub x_pos: f32,
#[argh(option, default = "0.0", description = "y position (float)")] #[options(meta = "", default = "0.0", help = "y position (float)")]
pub y_pos: f32, pub y_pos: f32,
#[argh(option, default = "0.0", description = "the angle in radians")] #[options(meta = "", default = "0.0", help = "the angle in radians")]
pub angle: f32, pub angle: f32,
#[argh(option, default = "1.0", description = "brightness 0.0-1.0")] #[options(meta = "", default = "1.0", help = "brightness 0.0-1.0")]
pub bright: f32, pub bright: f32,
} }
#[derive(FromArgs, Debug)] #[derive(Options)]
#[argh(
subcommand,
name = "pixel-image",
description = "display a diagonal/pixel-perfect PNG"
)]
pub struct AnimeImageDiagonal { pub struct AnimeImageDiagonal {
#[argh(option, description = "full path to the png to display")] #[options(help = "print help message")]
pub help: bool,
#[options(meta = "", help = "full path to the png to display")]
pub path: String, pub path: String,
#[argh(option, default = "1.0", description = "brightness 0.0-1.0")] #[options(meta = "", default = "1.0", help = "brightness 0.0-1.0")]
pub bright: f32, pub bright: f32,
} }
#[derive(FromArgs, Debug)] #[derive(Options)]
#[argh(subcommand, name = "gif", description = "display an animated GIF")]
pub struct AnimeGif { pub struct AnimeGif {
#[argh(option, description = "full path to the gif to display")] #[options(help = "print help message")]
pub help: bool,
#[options(meta = "", help = "full path to the png to display")]
pub path: String, pub path: String,
#[argh(option, default = "1.0", description = "scale 1.0 == normal")] #[options(meta = "", default = "1.0", help = "scale 1.0 == normal")]
pub scale: f32, pub scale: f32,
#[argh(option, default = "0.0", description = "x position (float)")] #[options(meta = "", default = "0.0", help = "x position (float)")]
pub x_pos: f32, pub x_pos: f32,
#[argh(option, default = "0.0", description = "y position (float)")] #[options(meta = "", default = "0.0", help = "y position (float)")]
pub y_pos: f32, pub y_pos: f32,
#[argh(option, default = "0.0", description = "the angle in radians")] #[options(meta = "", default = "0.0", help = "the angle in radians")]
pub angle: f32, pub angle: f32,
#[argh(option, default = "1.0", description = "brightness 0.0-1.0")] #[options(meta = "", default = "1.0", help = "brightness 0.0-1.0")]
pub bright: f32, pub bright: f32,
#[argh( #[options(
option, meta = "",
default = "1", default = "1",
description = "how many loops to play - 0 is infinite" help = "how many loops to play - 0 is infinite"
)] )]
pub loops: u32, pub loops: u32,
} }
#[derive(FromArgs, Debug)] #[derive(Options)]
#[argh(
subcommand,
name = "pixel-gif",
description = "display an animated diagonal/pixel-perfect GIF"
)]
pub struct AnimeGifDiagonal { pub struct AnimeGifDiagonal {
#[argh(option, description = "full path to the gif to display")] #[options(help = "print help message")]
pub help: bool,
#[options(meta = "", help = "full path to the png to display")]
pub path: String, pub path: String,
#[argh(option, default = "1.0", description = "brightness 0.0-1.0")] #[options(meta = "", default = "1.0", help = "brightness 0.0-1.0")]
pub bright: f32, pub bright: f32,
#[argh( #[options(
option, meta = "",
default = "1", default = "1",
description = "how many loops to play - 0 is infinite" help = "how many loops to play - 0 is infinite"
)] )]
pub loops: u32, pub loops: u32,
} }

413
asusctl/src/aura_cli.rs
View File

@@ -1,67 +1,68 @@
use std::fmt;
use std::str::FromStr; use std::str::FromStr;
use argh::FromArgs; use gumdrop::Options;
use rog_aura::error::Error; use rog_aura::error::Error;
use rog_aura::{AuraEffect, AuraModeNum, AuraZone, Colour, Direction, Speed}; use rog_aura::{AuraEffect, AuraModeNum, AuraZone, Colour, Direction, Speed};
#[derive(FromArgs, Debug, Clone)] #[derive(Options, Debug)]
#[argh(
subcommand,
name = "aura-power-old",
description = "aura power (old ROGs and TUF laptops)"
)]
pub struct LedPowerCommand1 { pub struct LedPowerCommand1 {
#[argh( #[options(help = "print help message")]
option, pub help: bool,
description = "control if LEDs enabled while awake <true/false>" #[options(meta = "", help = "Control if LEDs enabled while awake <true/false>")]
)]
pub awake: Option<bool>, pub awake: Option<bool>,
#[options(help = "Use with awake option, if excluded defaults to false")]
#[argh(
switch,
description = "use with awake option; if excluded defaults to false"
)]
pub keyboard: bool, pub keyboard: bool,
#[options(help = "Use with awake option, if excluded defaults to false")]
#[argh(
switch,
description = "use with awake option; if excluded defaults to false"
)]
pub lightbar: bool, pub lightbar: bool,
#[options(meta = "", help = "Control boot animations <true/false>")]
#[argh(option, description = "control boot animations <true/false>")]
pub boot: Option<bool>, pub boot: Option<bool>,
#[options(meta = "", help = "Control suspend animations <true/false>")]
#[argh(option, description = "control suspend animations <true/false>")]
pub sleep: Option<bool>, pub sleep: Option<bool>,
} }
#[derive(FromArgs, Debug, Clone)] #[derive(Options, Debug)]
#[argh(subcommand, name = "aura-power", description = "aura power")]
pub struct LedPowerCommand2 { pub struct LedPowerCommand2 {
#[argh(subcommand)] #[options(help = "print help message")]
pub help: bool,
#[options(command)]
pub command: Option<SetAuraZoneEnabled>, pub command: Option<SetAuraZoneEnabled>,
} }
/// Subcommands to enable/disable specific aura zones #[derive(Options, Debug)]
#[derive(FromArgs, Debug, Clone)]
#[argh(subcommand)]
pub enum SetAuraZoneEnabled { pub enum SetAuraZoneEnabled {
Keyboard(KeyboardPower), /// Applies to both old and new models
Logo(LogoPower), #[options(help = "")]
Lightbar(LightbarPower), Keyboard(AuraPowerStates),
Lid(LidPower), #[options(help = "")]
RearGlow(RearGlowPower), Logo(AuraPowerStates),
Ally(AllyPower), #[options(help = "")]
Lightbar(AuraPowerStates),
#[options(help = "")]
Lid(AuraPowerStates),
#[options(help = "")]
RearGlow(AuraPowerStates),
#[options(help = "")]
Ally(AuraPowerStates),
} }
/// Keyboard brightness argument helper #[derive(Debug, Clone, Options)]
#[derive(Debug, Clone)] pub struct AuraPowerStates {
#[options(help = "print help message")]
pub help: bool,
#[options(help = "defaults to false if option unused")]
pub boot: bool,
#[options(help = "defaults to false if option unused")]
pub awake: bool,
#[options(help = "defaults to false if option unused")]
pub sleep: bool,
#[options(help = "defaults to false if option unused")]
pub shutdown: bool,
}
#[derive(Options)]
pub struct LedBrightness { pub struct LedBrightness {
level: Option<u8>, level: Option<u8>,
} }
impl LedBrightness { impl LedBrightness {
pub fn new(level: Option<u8>) -> Self { pub fn new(level: Option<u8>) -> Self {
LedBrightness { level } LedBrightness { level }
@@ -71,302 +72,176 @@ impl LedBrightness {
self.level self.level
} }
} }
impl FromStr for LedBrightness { impl FromStr for LedBrightness {
type Err = Error; type Err = Error;
fn from_str(s: &str) -> Result<Self, Self::Err> { fn from_str(s: &str) -> Result<Self, Self::Err> {
let s = s.to_lowercase(); let s = s.to_lowercase();
match s.as_str() { match s.as_str() {
"off" => Ok(Self::new(Some(0x00))), "off" => Ok(LedBrightness { level: Some(0x00) }),
"low" => Ok(Self::new(Some(0x01))), "low" => Ok(LedBrightness { level: Some(0x01) }),
"med" => Ok(Self::new(Some(0x02))), "med" => Ok(LedBrightness { level: Some(0x02) }),
"high" => Ok(Self::new(Some(0x03))), "high" => Ok(LedBrightness { level: Some(0x03) }),
_ => Err(Error::ParseBrightness), _ => {
print!("Invalid argument, must be one of: off, low, med, high");
Err(Error::ParseBrightness)
}
} }
} }
} }
#[allow(clippy::to_string_trait_impl)]
impl fmt::Display for LedBrightness { impl ToString for LedBrightness {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { fn to_string(&self) -> String {
let s = match self.level { let s = match self.level {
Some(0x00) => "off", Some(0x00) => "low",
Some(0x01) => "low", Some(0x01) => "med",
Some(0x02) => "med", Some(0x02) => "high",
Some(0x03) => "high",
_ => "unknown", _ => "unknown",
}; };
write!(f, "{}", s) s.to_owned()
} }
} }
#[derive(FromArgs, Debug, Clone, Default)] #[derive(Debug, Clone, Options, Default)]
#[argh(
subcommand,
name = "keyboard",
description = "set power states for keyboard zone"
)]
pub struct KeyboardPower {
#[argh(switch, description = "defaults to false if option unused")]
pub boot: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub awake: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub sleep: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub shutdown: bool,
}
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "logo",
description = "set power states for logo zone"
)]
pub struct LogoPower {
#[argh(switch, description = "defaults to false if option unused")]
pub boot: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub awake: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub sleep: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub shutdown: bool,
}
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "lightbar",
description = "set power states for lightbar zone"
)]
pub struct LightbarPower {
#[argh(switch, description = "enable power while device is booting")]
pub boot: bool,
#[argh(switch, description = "enable power while device is awake")]
pub awake: bool,
#[argh(switch, description = "enable power while device is sleeping")]
pub sleep: bool,
#[argh(
switch,
description = "enable power while device is shutting down or hibernating"
)]
pub shutdown: bool,
}
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "lid",
description = "set power states for lid zone"
)]
pub struct LidPower {
#[argh(switch, description = "defaults to false if option unused")]
pub boot: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub awake: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub sleep: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub shutdown: bool,
}
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "rear-glow",
description = "set power states for rear glow zone"
)]
pub struct RearGlowPower {
#[argh(switch, description = "defaults to false if option unused")]
pub boot: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub awake: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub sleep: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub shutdown: bool,
}
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "ally",
description = "set power states for ally zone"
)]
pub struct AllyPower {
#[argh(switch, description = "defaults to false if option unused")]
pub boot: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub awake: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub sleep: bool,
#[argh(switch, description = "defaults to false if option unused")]
pub shutdown: bool,
}
/// Single speed-based effect
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "rainbow-cycle",
description = "single speed-based effect"
)]
pub struct SingleSpeed { pub struct SingleSpeed {
#[argh(option, description = "set the speed: low, med, high")] #[options(help = "print help message")]
help: bool,
#[options(no_long, meta = "WORD", help = "set the speed: low, med, high")]
pub speed: Speed, pub speed: Speed,
#[options(
#[argh( no_long,
option, meta = "",
default = "AuraZone::None", help = "set the zone for this effect e.g, 0, 1, one, logo, lightbar-left"
description = "set the zone for this effect e.g. 0, 1, one, logo, lightbar-left"
)] )]
pub zone: AuraZone, pub zone: AuraZone,
} }
/// Single speed effect with direction #[derive(Debug, Clone, Options, Default)]
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "rainbow-wave",
description = "single speed effect with direction"
)]
pub struct SingleSpeedDirection { pub struct SingleSpeedDirection {
#[argh(option, description = "set the direction: up, down, left, right")] #[options(help = "print help message")]
help: bool,
#[options(no_long, meta = "", help = "set the direction: up, down, left, right")]
pub direction: Direction, pub direction: Direction,
#[options(no_long, meta = "", help = "set the speed: low, med, high")]
#[argh(option, description = "set the speed: low, med, high")]
pub speed: Speed, pub speed: Speed,
#[options(
#[argh( no_long,
option, meta = "",
default = "AuraZone::None", help = "set the zone for this effect e.g, 0, 1, one, logo, lightbar-left"
description = "set the zone for this effect e.g. 0, 1, one, logo, lightbar-left"
)] )]
pub zone: AuraZone, pub zone: AuraZone,
} }
/// Static single-colour effect #[derive(Debug, Clone, Default, Options)]
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "static",
description = "static single-colour effect"
)]
pub struct SingleColour { pub struct SingleColour {
#[argh(option, short = 'c', description = "set the RGB value e.g. ff00ff")] #[options(help = "print help message")]
help: bool,
#[options(no_long, meta = "", help = "set the RGB value e.g, ff00ff")]
pub colour: Colour, pub colour: Colour,
#[options(
#[argh( no_long,
option, meta = "",
default = "AuraZone::None", help = "set the zone for this effect e.g, 0, 1, one, logo, lightbar-left"
description = "set the zone for this effect e.g. 0, 1, one, logo, lightbar-left"
)] )]
pub zone: AuraZone, pub zone: AuraZone,
} }
/// Single-colour effect with speed #[derive(Debug, Clone, Default, Options)]
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "highlight",
description = "single-colour effect with speed"
)]
pub struct SingleColourSpeed { pub struct SingleColourSpeed {
#[argh(option, short = 'c', description = "set the RGB value e.g. ff00ff")] #[options(help = "print help message")]
help: bool,
#[options(no_long, meta = "", help = "set the RGB value e.g, ff00ff")]
pub colour: Colour, pub colour: Colour,
#[options(no_long, meta = "", help = "set the speed: low, med, high")]
#[argh(option, description = "set the speed: low, med, high")]
pub speed: Speed, pub speed: Speed,
#[options(
#[argh( no_long,
option, meta = "",
default = "AuraZone::None", help = "set the zone for this effect e.g, 0, 1, one, logo, lightbar-left"
description = "set the zone for this effect e.g. 0, 1, one, logo, lightbar-left"
)] )]
pub zone: AuraZone, pub zone: AuraZone,
} }
/// Two-colour breathing effect #[derive(Debug, Clone, Options, Default)]
#[derive(FromArgs, Debug, Clone, Default)]
#[argh(
subcommand,
name = "breathe",
description = "two-colour breathing effect"
)]
pub struct TwoColourSpeed { pub struct TwoColourSpeed {
#[argh(option, description = "set the first RGB value e.g. ff00ff")] #[options(help = "print help message")]
help: bool,
#[options(no_long, meta = "", help = "set the first RGB value e.g, ff00ff")]
pub colour: Colour, pub colour: Colour,
#[options(no_long, meta = "", help = "set the second RGB value e.g, ff00ff")]
#[argh(option, description = "set the second RGB value e.g. ff00ff")]
pub colour2: Colour, pub colour2: Colour,
#[options(no_long, meta = "", help = "set the speed: low, med, high")]
#[argh(option, description = "set the speed: low, med, high")]
pub speed: Speed, pub speed: Speed,
#[options(
#[argh( no_long,
option, meta = "",
default = "AuraZone::None", help = "set the zone for this effect e.g, 0, 1, one, logo, lightbar-left"
description = "set the zone for this effect e.g. 0, 1, one, logo, lightbar-left"
)] )]
pub zone: AuraZone, pub zone: AuraZone,
} }
/// Multi-zone colour settings #[derive(Debug, Clone, Default, Options)]
#[derive(FromArgs, Debug, Clone, Default)]
#[allow(dead_code)] #[allow(dead_code)]
#[argh(description = "multi-zone colour settings")]
pub struct MultiZone { pub struct MultiZone {
#[argh(option, short = 'a', description = "set the RGB value e.g. ff00ff")] #[options(help = "print help message")]
help: bool,
#[options(short = "a", meta = "", help = "set the RGB value e.g, ff00ff")]
pub colour1: Colour, pub colour1: Colour,
#[options(short = "b", meta = "", help = "set the RGB value e.g, ff00ff")]
#[argh(option, short = 'b', description = "set the RGB value e.g. ff00ff")]
pub colour2: Colour, pub colour2: Colour,
#[options(short = "c", meta = "", help = "set the RGB value e.g, ff00ff")]
#[argh(option, short = 'c', description = "set the RGB value e.g. ff00ff")]
pub colour3: Colour, pub colour3: Colour,
#[options(short = "d", meta = "", help = "set the RGB value e.g, ff00ff")]
#[argh(option, short = 'd', description = "set the RGB value e.g. ff00ff")]
pub colour4: Colour, pub colour4: Colour,
} }
/// Multi-colour with speed #[derive(Debug, Clone, Default, Options)]
#[derive(FromArgs, Debug, Clone, Default)]
#[allow(dead_code)] #[allow(dead_code)]
#[argh(description = "multi-colour with speed")]
pub struct MultiColourSpeed { pub struct MultiColourSpeed {
#[argh(option, short = 'a', description = "set the RGB value e.g. ff00ff")] #[options(help = "print help message")]
help: bool,
#[options(short = "a", meta = "", help = "set the RGB value e.g, ff00ff")]
pub colour1: Colour, pub colour1: Colour,
#[options(short = "b", meta = "", help = "set the RGB value e.g, ff00ff")]
#[argh(option, short = 'b', description = "set the RGB value e.g. ff00ff")]
pub colour2: Colour, pub colour2: Colour,
#[options(short = "c", meta = "", help = "set the RGB value e.g, ff00ff")]
#[argh(option, short = 'c', description = "set the RGB value e.g. ff00ff")]
pub colour3: Colour, pub colour3: Colour,
#[options(short = "d", meta = "", help = "set the RGB value e.g, ff00ff")]
#[argh(option, short = 'd', description = "set the RGB value e.g. ff00ff")]
pub colour4: Colour, pub colour4: Colour,
#[options(no_long, meta = "", help = "set the speed: low, med, high")]
#[argh(option, description = "set the speed: low, med, high")]
pub speed: Speed, pub speed: Speed,
} }
/// Builtin aura effects /// Byte value for setting the built-in mode.
#[derive(FromArgs, Debug)] ///
#[argh(subcommand)] /// Enum corresponds to the required integer value
// NOTE: The option names here must match those in rog-aura crate
#[derive(Options)]
pub enum SetAuraBuiltin { pub enum SetAuraBuiltin {
Static(SingleColour), // 0 #[options(help = "set a single static colour")]
Breathe(TwoColourSpeed), // 1 Static(SingleColour), // 0
RainbowCycle(SingleSpeed), // 2 #[options(help = "pulse between one or two colours")]
Breathe(TwoColourSpeed), // 1
#[options(help = "strobe through all colours")]
RainbowCycle(SingleSpeed), // 2
#[options(help = "rainbow cycling in one of four directions")]
RainbowWave(SingleSpeedDirection), // 3 RainbowWave(SingleSpeedDirection), // 3
Stars(TwoColourSpeed), // 4 #[options(help = "rain pattern mimicking raindrops")]
Rain(SingleSpeed), // 5 Stars(TwoColourSpeed), // 4
Highlight(SingleColourSpeed), // 6 #[options(help = "rain pattern of three preset colours")]
Laser(SingleColourSpeed), // 7 Rain(SingleSpeed), // 5
Ripple(SingleColourSpeed), // 8 #[options(help = "pressed keys are highlighted to fade")]
Pulse(SingleColour), // 10 Highlight(SingleColourSpeed), // 6
Comet(SingleColour), // 11 #[options(help = "pressed keys generate horizontal laser")]
Flash(SingleColour), // 12 Laser(SingleColourSpeed), // 7
#[options(help = "pressed keys ripple outwards like a splash")]
Ripple(SingleColourSpeed), // 8
#[options(help = "set a rapid pulse")]
Pulse(SingleColour), // 10
#[options(help = "set a vertical line zooming from left")]
Comet(SingleColour), // 11
#[options(help = "set a wide vertical line zooming from left")]
Flash(SingleColour), // 12
} }
impl Default for SetAuraBuiltin { impl Default for SetAuraBuiltin {

346
asusctl/src/cli_opts.rs
View File

@@ -1,4 +1,4 @@
use argh::FromArgs; use gumdrop::Options;
use rog_platform::platform::PlatformProfile; use rog_platform::platform::PlatformProfile;
use crate::anime_cli::AnimeCommand; use crate::anime_cli::AnimeCommand;
@@ -7,308 +7,128 @@ use crate::fan_curve_cli::FanCurveCommand;
use crate::scsi_cli::ScsiCommand; use crate::scsi_cli::ScsiCommand;
use crate::slash_cli::SlashCommand; use crate::slash_cli::SlashCommand;
#[derive(FromArgs, Default, Debug)] #[derive(Default, Options)]
/// asusctl command-line options
pub struct CliStart { pub struct CliStart {
#[argh(subcommand)] #[options(help_flag, help = "print help message")]
pub command: CliCommand, pub help: bool,
#[options(help = "show program version number")]
pub version: bool,
#[options(help = "show supported functions of this laptop")]
pub show_supported: bool,
#[options(meta = "", help = "<off, low, med, high>")]
pub kbd_bright: Option<LedBrightness>,
#[options(help = "Toggle to next keyboard brightness")]
pub next_kbd_bright: bool,
#[options(help = "Toggle to previous keyboard brightness")]
pub prev_kbd_bright: bool,
#[options(meta = "", help = "Set your battery charge limit <20-100>")]
pub chg_limit: Option<u8>,
#[options(help = "Toggle one-shot battery charge to 100%")]
pub one_shot_chg: bool,
#[options(command)]
pub command: Option<CliCommand>,
} }
/// Top-level subcommands for asusctl #[derive(Options)]
#[derive(FromArgs, Debug)]
#[argh(subcommand)]
pub enum CliCommand { pub enum CliCommand {
#[options(help = "Set the keyboard lighting from built-in modes")]
Aura(LedModeCommand), Aura(LedModeCommand),
#[options(help = "Set the LED power states")]
AuraPowerOld(LedPowerCommand1), AuraPowerOld(LedPowerCommand1),
#[options(help = "Set the LED power states")]
AuraPower(LedPowerCommand2), AuraPower(LedPowerCommand2),
Brightness(BrightnessCommand), #[options(help = "Set or select platform_profile")]
Profile(ProfileCommand), Profile(ProfileCommand),
#[options(help = "Set, select, or modify fan curves if supported")]
FanCurve(FanCurveCommand), FanCurve(FanCurveCommand),
#[options(help = "Set the graphics mode (obsoleted by supergfxctl)")]
Graphics(GraphicsCommand),
#[options(name = "anime", help = "Manage AniMe Matrix")]
Anime(AnimeCommand), Anime(AnimeCommand),
#[options(name = "slash", help = "Manage Slash Ledbar")]
Slash(SlashCommand), Slash(SlashCommand),
#[options(name = "scsi", help = "Manage SCSI external drive")]
Scsi(ScsiCommand), Scsi(ScsiCommand),
#[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"
)]
Armoury(ArmouryCommand), Armoury(ArmouryCommand),
#[options(name = "backlight", help = "Set screen backlight levels")]
Backlight(BacklightCommand), Backlight(BacklightCommand),
Battery(BatteryCommand),
Info(InfoCommand),
} }
impl Default for CliCommand { #[derive(Debug, Clone, Options)]
fn default() -> Self {
CliCommand::Info(InfoCommand::default())
}
}
#[derive(FromArgs, Debug)]
#[argh(subcommand, name = "profile", description = "profile management")]
pub struct ProfileCommand { pub struct ProfileCommand {
#[argh(subcommand)] #[options(help = "print help message")]
pub command: ProfileSubCommand, pub help: bool,
}
#[derive(FromArgs, Debug)] #[options(help = "toggle to next profile in list")]
#[argh(subcommand)] pub next: bool,
pub enum ProfileSubCommand {
Next(ProfileNextCommand),
List(ProfileListCommand),
Get(ProfileGetCommand),
Set(ProfileSetCommand),
}
impl Default for ProfileSubCommand { #[options(help = "list available profiles")]
fn default() -> Self { pub list: bool,
ProfileSubCommand::List(ProfileListCommand::default())
}
}
#[derive(FromArgs, Debug, Default)] #[options(help = "get profile")]
#[argh( pub profile_get: bool,
subcommand,
name = "next",
description = "toggle to next profile in list"
)]
pub struct ProfileNextCommand {}
#[derive(FromArgs, Debug, Default)] #[options(meta = "", help = "set the active profile")]
#[argh(subcommand, name = "list", description = "list available profiles")] pub profile_set: Option<PlatformProfile>,
pub struct ProfileListCommand {}
#[derive(FromArgs, Debug, Default)] #[options(short = "a", meta = "", help = "set the profile to use on AC power")]
#[argh(subcommand, name = "get", description = "get profile")] pub profile_set_ac: Option<PlatformProfile>,
pub struct ProfileGetCommand {}
#[derive(FromArgs, Debug, Default)] #[options(
#[argh(subcommand, name = "set", description = "set profile")] short = "b",
pub struct ProfileSetCommand { meta = "",
#[argh(positional, description = "profile to set")] help = "set the profile to use on battery power"
pub profile: PlatformProfile,
#[argh(
switch,
short = 'a',
description = "set the profile to use on AC power"
)] )]
pub ac: bool, pub profile_set_bat: Option<PlatformProfile>,
#[argh(
switch,
short = 'b',
description = "set the profile to use on battery power"
)]
pub battery: bool,
} }
#[derive(FromArgs, Debug, Default)] #[derive(Options)]
#[argh(subcommand, name = "aura", description = "led mode commands")]
pub struct LedModeCommand { pub struct LedModeCommand {
#[argh(switch, description = "switch to next aura mode")] #[options(help = "print help message")]
pub help: bool,
#[options(help = "switch to next aura mode")]
pub next_mode: bool, pub next_mode: bool,
#[options(help = "switch to previous aura mode")]
#[argh(switch, description = "switch to previous aura mode")]
pub prev_mode: bool, pub prev_mode: bool,
#[options(command)]
#[argh(subcommand)]
pub command: Option<SetAuraBuiltin>, pub command: Option<SetAuraBuiltin>,
} }
#[derive(FromArgs, Debug, Default)] #[derive(Options)]
#[argh( pub struct GraphicsCommand {
subcommand, #[options(help = "print help message")]
name = "armoury", pub help: bool,
description = "armoury / firmware attributes" }
)]
#[derive(Options, Debug)]
pub struct ArmouryCommand { pub struct ArmouryCommand {
#[argh(subcommand)] #[options(help = "print help message")]
pub command: ArmourySubCommand, pub help: bool,
} #[options(
free,
#[derive(FromArgs, Debug)] help = "append each value name followed by the value to set. `-1` sets to default"
#[argh(subcommand)]
pub enum ArmourySubCommand {
Set(ArmouryPropertySetCommand),
Get(ArmouryPropertyGetCommand),
List(ArmouryPropertyListCommand),
}
impl Default for ArmourySubCommand {
fn default() -> Self {
ArmourySubCommand::List(ArmouryPropertyListCommand::default())
}
}
#[derive(FromArgs, Debug, Default)]
#[argh(
subcommand,
name = "set",
description = "set an asus-armoury firmware-attribute"
)]
pub struct ArmouryPropertySetCommand {
#[argh(
positional,
description = "name of the attribute to set (see asus-armoury list for available properties)"
)] )]
pub property: String, pub free: Vec<String>,
#[argh(positional, description = "value to set for the given attribute")]
pub value: i32,
} }
#[derive(FromArgs, Debug, Default)] #[derive(Options)]
#[argh(
subcommand,
name = "list",
description = "list all firmware-attributes supported by asus-armoury"
)]
pub struct ArmouryPropertyListCommand {}
#[derive(FromArgs, Debug, Default)]
#[argh(
subcommand,
name = "get",
description = "get a firmware-attribute from asus-armoury"
)]
pub struct ArmouryPropertyGetCommand {
#[argh(
positional,
description = "name of the property to get (see asus-armoury list for available properties)"
)]
pub property: String,
}
#[derive(FromArgs, Debug, Default)]
#[argh(subcommand, name = "backlight", description = "backlight options")]
pub struct BacklightCommand { pub struct BacklightCommand {
#[argh(option, description = "set screen brightness <0-100>")] #[options(help = "print help message")]
pub help: bool,
#[options(meta = "", help = "Set screen brightness <0-100>")]
pub screenpad_brightness: Option<i32>, pub screenpad_brightness: Option<i32>,
#[options(
#[argh( meta = "",
option, help = "Set screenpad gamma brightness 0.5 - 2.2, 1.0 == linear"
description = "set screenpad gamma brightness 0.5 - 2.2, 1.0 == linear"
)] )]
pub screenpad_gamma: Option<f32>, pub screenpad_gamma: Option<f32>,
#[options(
#[argh( meta = "",
option, help = "Set screenpad brightness to sync with primary display"
description = "set screenpad brightness to sync with primary display"
)] )]
pub sync_screenpad_brightness: Option<bool>, pub sync_screenpad_brightness: Option<bool>,
} }
#[derive(FromArgs, Debug)]
#[argh(subcommand, name = "battery", description = "battery options")]
pub struct BatteryCommand {
#[argh(subcommand)]
pub command: BatterySubCommand,
}
#[derive(FromArgs, Debug)]
#[argh(subcommand)]
pub enum BatterySubCommand {
Limit(BatteryLimitCommand),
OneShot(BatteryOneShotCommand),
Info(BatteryInfoCommand),
}
impl Default for BatterySubCommand {
fn default() -> Self {
BatterySubCommand::OneShot(BatteryOneShotCommand::default())
}
}
#[derive(FromArgs, Debug)]
#[argh(
subcommand,
name = "limit",
description = "set battery charge limit <20-100>"
)]
pub struct BatteryLimitCommand {
#[argh(positional, description = "charge limit percentage 20-100")]
pub limit: u8,
}
#[derive(FromArgs, Debug, Default)]
#[argh(
subcommand,
name = "oneshot",
description = "one-shot full charge (optional percent)"
)]
pub struct BatteryOneShotCommand {
#[argh(positional, description = "optional target percent (defaults to 100)")]
pub percent: Option<u8>,
}
#[derive(FromArgs, Debug, Default)]
#[argh(
subcommand,
name = "info",
description = "show current battery charge limit"
)]
pub struct BatteryInfoCommand {}
#[derive(FromArgs, Debug, Default)]
#[argh(
subcommand,
name = "info",
description = "show program version and system info"
)]
pub struct InfoCommand {
#[argh(switch, description = "show supported functions of this laptop")]
pub show_supported: bool,
}
#[derive(FromArgs, Debug)]
#[argh(subcommand, name = "leds", description = "keyboard brightness control")]
pub struct BrightnessCommand {
#[argh(subcommand)]
pub command: BrightnessSubCommand,
}
#[derive(FromArgs, Debug)]
#[argh(subcommand)]
pub enum BrightnessSubCommand {
Set(BrightnessSetCommand),
Get(BrightnessGetCommand),
Next(BrightnessNextCommand),
Prev(BrightnessPrevCommand),
}
impl Default for BrightnessSubCommand {
fn default() -> Self {
BrightnessSubCommand::Get(BrightnessGetCommand::default())
}
}
#[derive(FromArgs, Debug)]
#[argh(
subcommand,
name = "set",
description = "set keyboard brightness <off, low, med, high>"
)]
pub struct BrightnessSetCommand {
#[argh(positional, description = "brightness level: off, low, med, high")]
pub level: LedBrightness,
}
#[derive(FromArgs, Debug, Default)]
#[argh(
subcommand,
name = "get",
description = "get current keyboard brightness"
)]
pub struct BrightnessGetCommand {}
#[derive(FromArgs, Debug, Default)]
#[argh(
subcommand,
name = "next",
description = "toggle to next keyboard brightness"
)]
pub struct BrightnessNextCommand {}
#[derive(FromArgs, Debug, Default)]
#[argh(
subcommand,
name = "prev",
description = "toggle to previous keyboard brightness"
)]
pub struct BrightnessPrevCommand {}

45
asusctl/src/fan_curve_cli.rs
View File

@@ -1,44 +1,49 @@
use argh::FromArgs; use gumdrop::Options;
use rog_platform::platform::PlatformProfile; use rog_platform::platform::PlatformProfile;
use rog_profiles::fan_curve_set::CurveData; use rog_profiles::fan_curve_set::CurveData;
use rog_profiles::FanCurvePU; use rog_profiles::FanCurvePU;
#[derive(FromArgs, Debug, Clone)] #[derive(Debug, Clone, Options)]
#[argh(subcommand, name = "fan-curve", description = "fan curve commands")]
pub struct FanCurveCommand { pub struct FanCurveCommand {
#[argh(switch, description = "get enabled fan profiles")] #[options(help = "print help message")]
pub help: bool,
#[options(help = "get enabled fan profiles")]
pub get_enabled: bool, pub get_enabled: bool,
#[argh(switch, description = "set the active profile's fan curve to default")] #[options(help = "set the active profile's fan curve to default")]
pub default: bool, pub default: bool,
#[argh( #[options(
option, meta = "",
description = "profile to modify fan-curve for. shows data if no options provided" help = "profile to modify fan-curve for. Shows data if no options provided"
)] )]
pub mod_profile: Option<PlatformProfile>, pub mod_profile: Option<PlatformProfile>,
#[argh( #[options(
option, meta = "",
description = "enable or disable <true/false> fan all curves for a profile; --mod_profile required" help = "enable or disable <true/false> fan all curves for a profile. `--mod_profile` \
required"
)] )]
pub enable_fan_curves: Option<bool>, pub enable_fan_curves: Option<bool>,
#[argh( #[options(
option, meta = "",
description = "enable or disable <true/false> a single fan curve for a profile; --mod_profile and --fan required" help = "enable or disable <true/false> a single fan curve for a profile. `--mod_profile` \
and `--fan` required"
)] )]
pub enable_fan_curve: Option<bool>, pub enable_fan_curve: Option<bool>,
#[argh( #[options(
option, meta = "",
description = "select fan <cpu/gpu/mid> to modify; --mod_profile required" help = "select fan <cpu/gpu/mid> to modify. `--mod_profile` required"
)] )]
pub fan: Option<FanCurvePU>, pub fan: Option<FanCurvePU>,
#[argh( #[options(
option, meta = "",
description = "data format = 30c:1%,49c:2%,...; --mod-profile required. If '%' is omitted the fan range is 0-255" help = "data format = 30c:1%,49c:2%,59c:3%,69c:4%,79c:31%,89c:49%,99c:56%,109c:58%. \
`--mod-profile` required. If '%' is omitted the fan range is 0-255"
)] )]
pub data: Option<CurveData>, pub data: Option<CurveData>,
} }

591
asusctl/src/main.rs
View File

@@ -1,4 +1,5 @@
use std::convert::TryFrom; use std::convert::TryFrom;
use std::env::args;
use std::path::Path; use std::path::Path;
use std::process::Command; use std::process::Command;
use std::thread::sleep; use std::thread::sleep;
@@ -7,11 +8,12 @@ use anime_cli::{AnimeActions, AnimeCommand};
use aura_cli::{LedPowerCommand1, LedPowerCommand2}; use aura_cli::{LedPowerCommand1, LedPowerCommand2};
use dmi_id::DMIID; use dmi_id::DMIID;
use fan_curve_cli::FanCurveCommand; use fan_curve_cli::FanCurveCommand;
use gumdrop::{Opt, Options};
use log::{error, info, LevelFilter}; use log::{error, info, LevelFilter};
use rog_anime::usb::get_anime_type; use rog_anime::usb::get_anime_type;
use rog_anime::{AnimTime, AnimeDataBuffer, AnimeDiagonal, AnimeGif, AnimeImage, AnimeType, Vec2}; use rog_anime::{AnimTime, AnimeDataBuffer, AnimeDiagonal, AnimeGif, AnimeImage, AnimeType, Vec2};
use rog_aura::keyboard::{AuraPowerState, LaptopAuraPower}; use rog_aura::keyboard::{AuraPowerState, LaptopAuraPower};
use rog_aura::{self, AuraEffect, PowerZones}; use rog_aura::{self, AuraDeviceType, AuraEffect, PowerZones};
use rog_dbus::asus_armoury::AsusArmouryProxyBlocking; use rog_dbus::asus_armoury::AsusArmouryProxyBlocking;
use rog_dbus::list_iface_blocking; use rog_dbus::list_iface_blocking;
use rog_dbus::scsi_aura::ScsiAuraProxyBlocking; use rog_dbus::scsi_aura::ScsiAuraProxyBlocking;
@@ -30,6 +32,7 @@ use scsi_cli::ScsiCommand;
use zbus::blocking::proxy::ProxyImpl; use zbus::blocking::proxy::ProxyImpl;
use zbus::blocking::Connection; use zbus::blocking::Connection;
use crate::aura_cli::{AuraPowerStates, LedBrightness};
use crate::cli_opts::*; use crate::cli_opts::*;
use crate::slash_cli::SlashCommand; use crate::slash_cli::SlashCommand;
@@ -53,7 +56,22 @@ fn main() {
.format_timestamp(None) .format_timestamp(None)
.init(); .init();
let parsed: CliStart = argh::from_env(); let self_version = env!("CARGO_PKG_VERSION");
println!("Starting version {self_version}");
let args: Vec<String> = args().skip(1).collect();
let missing_argument_k = gumdrop::Error::missing_argument(Opt::Short('k'));
let parsed = match CliStart::parse_args_default(&args) {
Ok(p) => p,
Err(err) if err.to_string() == missing_argument_k.to_string() => CliStart {
kbd_bright: Some(LedBrightness::new(None)),
..Default::default()
},
Err(err) => {
println!("Error: {}", err);
return;
}
};
let conn = Connection::system().unwrap(); let conn = Connection::system().unwrap();
if let Ok(platform_proxy) = PlatformProxyBlocking::new(&conn).map_err(|e| { if let Ok(platform_proxy) = PlatformProxyBlocking::new(&conn).map_err(|e| {
@@ -72,7 +90,6 @@ fn main() {
} }
}; };
let self_version = env!("CARGO_PKG_VERSION");
if asusd_version != self_version { if asusd_version != self_version {
println!("Version mismatch: asusctl = {self_version}, asusd = {asusd_version}"); println!("Version mismatch: asusctl = {self_version}, asusd = {asusd_version}");
return; return;
@@ -93,6 +110,12 @@ fn main() {
} }
}; };
if parsed.version {
println!("asusctl v{}", env!("CARGO_PKG_VERSION"));
println!();
print_info();
}
if let Err(err) = do_parsed(&parsed, &supported_interfaces, &supported_properties, conn) { if let Err(err) = do_parsed(&parsed, &supported_interfaces, &supported_properties, conn) {
print_error_help(&*err, &supported_interfaces, &supported_properties); print_error_help(&*err, &supported_interfaces, &supported_properties);
} }
@@ -119,9 +142,9 @@ fn print_info() {
let dmi = DMIID::new().unwrap_or_default(); let dmi = DMIID::new().unwrap_or_default();
let board_name = dmi.board_name; let board_name = dmi.board_name;
let prod_family = dmi.product_family; let prod_family = dmi.product_family;
println!("Software version: {}", env!("CARGO_PKG_VERSION")); println!("asusctl version: {}", env!("CARGO_PKG_VERSION"));
println!(" Product family: {}", prod_family.trim()); println!(" Product family: {}", prod_family.trim());
println!(" Board name: {}", board_name.trim()); println!(" Board name: {}", board_name.trim());
} }
fn check_service(name: &str) -> bool { fn check_service(name: &str) -> bool {
@@ -186,63 +209,149 @@ fn do_parsed(
conn: Connection, conn: Connection,
) -> Result<(), Box<dyn std::error::Error>> { ) -> Result<(), Box<dyn std::error::Error>> {
match &parsed.command { match &parsed.command {
CliCommand::Aura(mode) => handle_led_mode(mode)?, Some(CliCommand::Aura(mode)) => handle_led_mode(mode)?,
CliCommand::AuraPowerOld(pow) => handle_led_power1(pow)?, Some(CliCommand::AuraPowerOld(pow)) => handle_led_power1(pow)?,
CliCommand::AuraPower(pow) => handle_led_power2(pow)?, Some(CliCommand::AuraPower(pow)) => handle_led_power2(pow)?,
CliCommand::Brightness(cmd) => handle_brightness(cmd)?, Some(CliCommand::Profile(cmd)) => {
CliCommand::Profile(cmd) => handle_throttle_profile(&conn, supported_properties, cmd)?, handle_throttle_profile(&conn, supported_properties, cmd)?
CliCommand::FanCurve(cmd) => handle_fan_curve(&conn, cmd)?,
CliCommand::Anime(cmd) => handle_anime(cmd)?,
CliCommand::Slash(cmd) => handle_slash(cmd)?,
CliCommand::Scsi(cmd) => handle_scsi(cmd)?,
CliCommand::Armoury(cmd) => handle_armoury_command(cmd)?,
CliCommand::Backlight(cmd) => handle_backlight(cmd)?,
CliCommand::Battery(cmd) => handle_battery(cmd, &conn)?,
CliCommand::Info(info_opt) => {
handle_info(info_opt, supported_interfaces, supported_properties)?
} }
} Some(CliCommand::FanCurve(cmd)) => {
handle_fan_curve(&conn, cmd)?;
Ok(())
}
fn handle_battery(
cmd: &BatteryCommand,
conn: &Connection,
) -> Result<(), Box<dyn std::error::Error>> {
match &cmd.command {
BatterySubCommand::Limit(l) => {
let proxy = PlatformProxyBlocking::new(conn)?;
proxy.set_charge_control_end_threshold(l.limit)?;
} }
BatterySubCommand::OneShot(o) => { Some(CliCommand::Graphics(_)) => do_gfx(),
let proxy = PlatformProxyBlocking::new(conn)?; Some(CliCommand::Anime(cmd)) => handle_anime(cmd)?,
if let Some(p) = o.percent { Some(CliCommand::Slash(cmd)) => handle_slash(cmd)?,
proxy.set_charge_control_end_threshold(p)?; Some(CliCommand::Scsi(cmd)) => handle_scsi(cmd)?,
Some(CliCommand::Armoury(cmd)) => handle_armoury_command(cmd)?,
Some(CliCommand::Backlight(cmd)) => handle_backlight(cmd)?,
None => {
if (!parsed.show_supported
&& parsed.kbd_bright.is_none()
&& parsed.chg_limit.is_none()
&& !parsed.next_kbd_bright
&& !parsed.prev_kbd_bright
&& !parsed.one_shot_chg)
|| parsed.help
{
println!("{}", CliStart::usage());
println!();
if let Some(cmdlist) = CliStart::command_list() {
let dev_type =
if let Ok(proxy) = find_iface::<AuraProxyBlocking>("xyz.ljones.Aura") {
// TODO: commands on all?
proxy
.first()
.unwrap()
.device_type()
.unwrap_or(AuraDeviceType::Unknown)
} else {
AuraDeviceType::Unknown
};
let commands: Vec<String> = cmdlist.lines().map(|s| s.to_owned()).collect();
for command in commands.iter().filter(|command| {
if command.trim().starts_with("fan-curve")
&& !supported_interfaces.contains(&"xyz.ljones.FanCurves".to_string())
{
return false;
}
if command.trim().starts_with("aura")
&& !supported_interfaces.contains(&"xyz.ljones.Aura".to_string())
{
return false;
}
if command.trim().starts_with("anime")
&& !supported_interfaces.contains(&"xyz.ljones.Anime".to_string())
{
return false;
}
if command.trim().starts_with("slash")
&& !supported_interfaces.contains(&"xyz.ljones.Slash".to_string())
{
return false;
}
if command.trim().starts_with("platform")
&& !supported_interfaces.contains(&"xyz.ljones.Platform".to_string())
{
return false;
}
if command.trim().starts_with("armoury")
&& !supported_interfaces.contains(&"xyz.ljones.AsusArmoury".to_string())
{
return false;
}
if command.trim().starts_with("backlight")
&& !supported_interfaces.contains(&"xyz.ljones.Backlight".to_string())
{
return false;
}
if !dev_type.is_old_laptop()
&& !dev_type.is_tuf_laptop()
&& command.trim().starts_with("aura-power-old")
{
return false;
}
if !dev_type.is_new_laptop() && command.trim().starts_with("aura-power") {
return false;
}
true
}) {
println!("{}", command);
}
}
println!("\nExtra help can be requested on any command or subcommand:");
println!(" asusctl aura --help");
println!(" asusctl aura static --help");
} }
proxy.one_shot_full_charge()?;
}
BatterySubCommand::Info(_) => {
let proxy = PlatformProxyBlocking::new(conn)?;
let limit = proxy.charge_control_end_threshold()?;
println!("Current battery charge limit: {}%", limit);
} }
} }
Ok(()) if let Some(brightness) = &parsed.kbd_bright {
} if let Ok(aura) = find_iface::<AuraProxyBlocking>("xyz.ljones.Aura") {
for aura in aura.iter() {
match brightness.level() {
None => {
let level = aura.brightness()?;
println!("Current keyboard led brightness: {level:?}");
}
Some(level) => aura.set_brightness(rog_aura::LedBrightness::from(level))?,
}
}
} else {
println!("No aura interface found");
}
}
fn handle_info( if parsed.next_kbd_bright {
info_opt: &InfoCommand, if let Ok(aura) = find_iface::<AuraProxyBlocking>("xyz.ljones.Aura") {
supported_interfaces: &[String], for aura in aura.iter() {
supported_properties: &[Properties], let brightness = aura.brightness()?;
) -> Result<(), Box<dyn std::error::Error>> { aura.set_brightness(brightness.next())?;
println!("asusctl v{}", env!("CARGO_PKG_VERSION")); }
println!(); } else {
print_info(); println!("No aura interface found");
println!(); }
}
if info_opt.show_supported { if parsed.prev_kbd_bright {
if let Ok(aura) = find_iface::<AuraProxyBlocking>("xyz.ljones.Aura") {
for aura in aura.iter() {
let brightness = aura.brightness()?;
aura.set_brightness(brightness.prev())?;
}
} else {
println!("No aura interface found");
}
}
if parsed.show_supported {
println!("Supported Core Functions:\n{:#?}", supported_interfaces); println!("Supported Core Functions:\n{:#?}", supported_interfaces);
println!( println!(
"Supported Platform Properties:\n{:#?}", "Supported Platform Properties:\n{:#?}",
@@ -263,14 +372,35 @@ fn handle_info(
} }
} }
if let Some(chg_limit) = parsed.chg_limit {
let proxy = PlatformProxyBlocking::new(&conn)?;
proxy.set_charge_control_end_threshold(chg_limit)?;
}
if parsed.one_shot_chg {
let proxy = PlatformProxyBlocking::new(&conn)?;
proxy.one_shot_full_charge()?;
}
Ok(()) Ok(())
} }
fn do_gfx() {
println!(
"Please use supergfxctl for graphics switching. supergfxctl is the result of making \
asusctl graphics switching generic so all laptops can use it"
);
println!("This command will be removed in future");
}
fn handle_backlight(cmd: &BacklightCommand) -> Result<(), Box<dyn std::error::Error>> { fn handle_backlight(cmd: &BacklightCommand) -> Result<(), Box<dyn std::error::Error>> {
if cmd.screenpad_brightness.is_none() if (cmd.screenpad_brightness.is_none()
&& cmd.screenpad_gamma.is_none() && cmd.screenpad_gamma.is_none()
&& cmd.sync_screenpad_brightness.is_none() && cmd.sync_screenpad_brightness.is_none())
|| cmd.help
{ {
println!("Missing arg or command\n\n{}", cmd.self_usage());
let backlights = find_iface::<BacklightProxyBlocking>("xyz.ljones.Backlight")?; let backlights = find_iface::<BacklightProxyBlocking>("xyz.ljones.Backlight")?;
for backlight in backlights { for backlight in backlights {
println!("Current screenpad settings:"); println!("Current screenpad settings:");
@@ -303,50 +433,8 @@ fn handle_backlight(cmd: &BacklightCommand) -> Result<(), Box<dyn std::error::Er
Ok(()) Ok(())
} }
fn handle_brightness(cmd: &BrightnessCommand) -> Result<(), Box<dyn std::error::Error>> {
let Ok(aura_proxies) = find_iface::<AuraProxyBlocking>("xyz.ljones.Aura") else {
println!("No aura interface found");
return Ok(());
};
match &cmd.command {
BrightnessSubCommand::Set(s) => {
for aura in aura_proxies.iter() {
if let Some(level) = s.level.level() {
aura.set_brightness(rog_aura::LedBrightness::from(level))?;
} else {
let current = aura.brightness()?;
println!("Current keyboard led brightness: {current:?}");
}
}
}
BrightnessSubCommand::Get(_) => {
for aura in aura_proxies.iter() {
let level = aura.brightness()?;
println!("Current keyboard led brightness: {level:?}");
}
return Ok(());
}
BrightnessSubCommand::Next(_) => {
for aura in aura_proxies.iter() {
let brightness = aura.brightness()?;
aura.set_brightness(brightness.next())?;
}
}
BrightnessSubCommand::Prev(_) => {
for aura in aura_proxies.iter() {
let brightness = aura.brightness()?;
aura.set_brightness(brightness.prev())?;
}
}
}
Ok(())
}
fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> { fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> {
if cmd.command.is_none() if (cmd.command.is_none()
&& cmd.enable_display.is_none() && cmd.enable_display.is_none()
&& cmd.enable_powersave_anim.is_none() && cmd.enable_powersave_anim.is_none()
&& cmd.brightness.is_none() && cmd.brightness.is_none()
@@ -354,9 +442,13 @@ fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> {
&& cmd.off_when_suspended.is_none() && cmd.off_when_suspended.is_none()
&& cmd.off_when_unplugged.is_none() && cmd.off_when_unplugged.is_none()
&& cmd.off_with_his_head.is_none() && cmd.off_with_his_head.is_none()
&& !cmd.clear && !cmd.clear)
|| cmd.help
{ {
println!("Missing arg or command; run 'asusctl anime --help' for usage"); println!("Missing arg or command\n\n{}", cmd.self_usage());
if let Some(lst) = cmd.self_command_list() {
println!("\n{}", lst);
}
} }
let animes = find_iface::<AnimeProxyBlocking>("xyz.ljones.Anime").map_err(|e| { let animes = find_iface::<AnimeProxyBlocking>("xyz.ljones.Anime").map_err(|e| {
@@ -403,10 +495,11 @@ fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> {
if let Some(action) = cmd.command.as_ref() { if let Some(action) = cmd.command.as_ref() {
match action { match action {
AnimeActions::Image(image) => { AnimeActions::Image(image) => {
if image.path.is_empty() { if image.help_requested() || image.path.is_empty() {
println!( println!("Missing arg or command\n\n{}", image.self_usage());
"Missing arg or command; run 'asusctl anime image --help' for usage" if let Some(lst) = image.self_command_list() {
); println!("\n{}", lst);
}
return Ok(()); return Ok(());
} }
verify_brightness(image.bright); verify_brightness(image.bright);
@@ -423,8 +516,11 @@ fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> {
proxy.write(<AnimeDataBuffer>::try_from(&matrix)?)?; proxy.write(<AnimeDataBuffer>::try_from(&matrix)?)?;
} }
AnimeActions::PixelImage(image) => { AnimeActions::PixelImage(image) => {
if image.path.is_empty() { if image.help_requested() || image.path.is_empty() {
println!("Missing arg or command; run 'asusctl anime pixel-image --help' for usage"); println!("Missing arg or command\n\n{}", image.self_usage());
if let Some(lst) = image.self_command_list() {
println!("\n{}", lst);
}
return Ok(()); return Ok(());
} }
verify_brightness(image.bright); verify_brightness(image.bright);
@@ -439,10 +535,11 @@ fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> {
proxy.write(matrix.into_data_buffer(anime_type)?)?; proxy.write(matrix.into_data_buffer(anime_type)?)?;
} }
AnimeActions::Gif(gif) => { AnimeActions::Gif(gif) => {
if gif.path.is_empty() { if gif.help_requested() || gif.path.is_empty() {
println!( println!("Missing arg or command\n\n{}", gif.self_usage());
"Missing arg or command; run 'asusctl anime gif --help' for usage" if let Some(lst) = gif.self_command_list() {
); println!("\n{}", lst);
}
return Ok(()); return Ok(());
} }
verify_brightness(gif.bright); verify_brightness(gif.bright);
@@ -472,8 +569,11 @@ fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> {
} }
} }
AnimeActions::PixelGif(gif) => { AnimeActions::PixelGif(gif) => {
if gif.path.is_empty() { if gif.help_requested() || gif.path.is_empty() {
println!("Missing arg or command; run 'asusctl anime pixel-gif --help' for usage"); println!("Missing arg or command\n\n{}", gif.self_usage());
if let Some(lst) = gif.self_command_list() {
println!("\n{}", lst);
}
return Ok(()); return Ok(());
} }
verify_brightness(gif.bright); verify_brightness(gif.bright);
@@ -500,8 +600,14 @@ fn handle_anime(cmd: &AnimeCommand) -> Result<(), Box<dyn std::error::Error>> {
} }
} }
AnimeActions::SetBuiltins(builtins) => { AnimeActions::SetBuiltins(builtins) => {
if builtins.set.is_none() { if builtins.help_requested() || builtins.set.is_none() {
println!("Missing arg; run 'asusctl anime set-builtins --help' for usage"); println!(
"\nAny unspecified args will be set to default (first shown var)\n"
);
println!("\n{}", builtins.self_usage());
if let Some(lst) = builtins.self_command_list() {
println!("\n{}", lst);
}
return Ok(()); return Ok(());
} }
@@ -528,19 +634,24 @@ fn verify_brightness(brightness: f32) {
} }
fn handle_slash(cmd: &SlashCommand) -> Result<(), Box<dyn std::error::Error>> { fn handle_slash(cmd: &SlashCommand) -> Result<(), Box<dyn std::error::Error>> {
if cmd.brightness.is_none() if (cmd.brightness.is_none()
&& cmd.interval.is_none() && cmd.interval.is_none()
&& cmd.show_on_boot.is_none() && cmd.show_on_boot.is_none()
&& cmd.show_on_shutdown.is_none() && cmd.show_on_shutdown.is_none()
&& cmd.show_on_sleep.is_none() && cmd.show_on_sleep.is_none()
&& cmd.show_on_battery.is_none() && cmd.show_on_battery.is_none()
&& cmd.show_battery_warning.is_none() && cmd.show_battery_warning.is_none()
// && cmd.show_on_lid_closed.is_none()
&& cmd.mode.is_none() && cmd.mode.is_none()
&& !cmd.list && !cmd.list
&& !cmd.enable && !cmd.enable
&& !cmd.disable && !cmd.disable)
|| cmd.help
{ {
println!("Missing arg or command; run 'asusctl slash --help' for usage"); println!("Missing arg or command\n\n{}", cmd.self_usage());
if let Some(lst) = cmd.self_command_list() {
println!("\n{}", lst);
}
} }
let slashes = find_iface::<SlashProxyBlocking>("xyz.ljones.Slash")?; let slashes = find_iface::<SlashProxyBlocking>("xyz.ljones.Slash")?;
@@ -591,8 +702,13 @@ fn handle_slash(cmd: &SlashCommand) -> Result<(), Box<dyn std::error::Error>> {
} }
fn handle_scsi(cmd: &ScsiCommand) -> Result<(), Box<dyn std::error::Error>> { fn handle_scsi(cmd: &ScsiCommand) -> Result<(), Box<dyn std::error::Error>> {
if !cmd.list && cmd.enable.is_none() && cmd.mode.is_none() && cmd.colours.is_empty() { if (!cmd.list && cmd.enable.is_none() && cmd.mode.is_none() && cmd.colours.is_empty())
println!("Missing arg or command; run 'asusctl scsi --help' for usage"); || cmd.help
{
println!("Missing arg or command\n\n{}", cmd.self_usage());
if let Some(lst) = cmd.self_command_list() {
println!("\n{}", lst);
}
} }
let scsis = find_iface::<ScsiAuraProxyBlocking>("xyz.ljones.ScsiAura")?; let scsis = find_iface::<ScsiAuraProxyBlocking>("xyz.ljones.ScsiAura")?;
@@ -658,15 +774,38 @@ fn handle_scsi(cmd: &ScsiCommand) -> Result<(), Box<dyn std::error::Error>> {
fn handle_led_mode(mode: &LedModeCommand) -> Result<(), Box<dyn std::error::Error>> { fn handle_led_mode(mode: &LedModeCommand) -> Result<(), Box<dyn std::error::Error>> {
if mode.command.is_none() && !mode.prev_mode && !mode.next_mode { if mode.command.is_none() && !mode.prev_mode && !mode.next_mode {
println!("Missing arg or command; run 'asusctl aura --help' for usage"); if !mode.help {
// print available modes when possible println!("Missing arg or command\n");
if let Ok(aura) = find_iface::<AuraProxyBlocking>("xyz.ljones.Aura") { }
println!("{}\n", mode.self_usage());
println!("Commands available");
if let Some(cmdlist) = LedModeCommand::command_list() {
let commands: Vec<String> = cmdlist.lines().map(|s| s.to_owned()).collect();
// TODO: multiple rgb check
let aura = find_iface::<AuraProxyBlocking>("xyz.ljones.Aura")?;
let modes = aura.first().unwrap().supported_basic_modes()?; let modes = aura.first().unwrap().supported_basic_modes()?;
println!("Available modes:"); for command in commands.iter().filter(|command| {
for m in modes { for mode in &modes {
println!(" {:?}", m); let mut mode = <&str>::from(mode).to_string();
if let Some(pos) = mode.chars().skip(1).position(|c| c.is_uppercase()) {
mode.insert(pos + 1, '-');
}
if command.trim().starts_with(&mode.to_lowercase()) {
return true;
}
}
// TODO
// if !supported.basic_zones.is_empty() && command.trim().starts_with("multi") {
// return true;
// }
false
}) {
println!("{}", command);
} }
} }
println!("\nHelp can also be requested on modes, e.g: static --help");
return Ok(()); return Ok(());
} }
@@ -698,6 +837,10 @@ fn handle_led_mode(mode: &LedModeCommand) -> Result<(), Box<dyn std::error::Erro
aura.set_led_mode(modes[pos])?; aura.set_led_mode(modes[pos])?;
} }
} else if let Some(mode) = mode.command.as_ref() { } else if let Some(mode) = mode.command.as_ref() {
if mode.help_requested() {
println!("{}", mode.self_usage());
return Ok(());
}
for aura in aura { for aura in aura {
aura.set_led_mode_data(<AuraEffect>::from(mode))?; aura.set_led_mode_data(<AuraEffect>::from(mode))?;
} }
@@ -720,7 +863,10 @@ fn handle_led_power1(power: &LedPowerCommand1) -> Result<(), Box<dyn std::error:
&& !power.keyboard && !power.keyboard
&& !power.lightbar && !power.lightbar
{ {
println!("Missing arg or command; run 'asusctl aura-power-old --help' for usage"); if !power.help {
println!("Missing arg or command\n");
}
println!("{}\n", power.self_usage());
return Ok(()); return Ok(());
} }
@@ -772,47 +918,51 @@ fn handle_led_power2(power: &LedPowerCommand2) -> Result<(), Box<dyn std::error:
continue; continue;
} }
if power.command.is_none() { if power.command().is_none() {
println!("Missing arg or command; run 'asusctl aura-power --help' for usage"); if !power.help {
println!("Missing arg or command\n");
}
println!("{}\n", power.self_usage());
println!("Commands available"); println!("Commands available");
if let Some(cmdlist) = LedPowerCommand2::command_list() {
let commands: Vec<String> = cmdlist.lines().map(|s| s.to_owned()).collect();
for command in &commands {
println!("{}", command);
}
}
println!("\nHelp can also be requested on commands, e.g: boot --help");
return Ok(()); return Ok(());
} }
if let Some(_pow) = power.command.as_ref() { if let Some(pow) = power.command.as_ref() {
if pow.help_requested() {
println!("{}", pow.self_usage());
return Ok(());
}
let mut states = aura.led_power()?; let mut states = aura.led_power()?;
let mut set = let mut set = |zone: PowerZones, set_to: &AuraPowerStates| {
|zone: PowerZones, boot_v: bool, awake_v: bool, sleep_v: bool, shutdown_v: bool| { for state in states.states.iter_mut() {
for state in states.states.iter_mut() { if state.zone == zone {
if state.zone == zone { state.boot = set_to.boot;
state.boot = boot_v; state.awake = set_to.awake;
state.awake = awake_v; state.sleep = set_to.sleep;
state.sleep = sleep_v; state.shutdown = set_to.shutdown;
state.shutdown = shutdown_v; break;
break;
}
} }
}; }
};
if let Some(cmd) = &power.command { if let Some(cmd) = &power.command {
match cmd { match cmd {
aura_cli::SetAuraZoneEnabled::Keyboard(k) => { aura_cli::SetAuraZoneEnabled::Keyboard(k) => set(PowerZones::Keyboard, k),
set(PowerZones::Keyboard, k.boot, k.awake, k.sleep, k.shutdown) aura_cli::SetAuraZoneEnabled::Logo(l) => set(PowerZones::Logo, l),
} aura_cli::SetAuraZoneEnabled::Lightbar(l) => set(PowerZones::Lightbar, l),
aura_cli::SetAuraZoneEnabled::Logo(l) => { aura_cli::SetAuraZoneEnabled::Lid(l) => set(PowerZones::Lid, l),
set(PowerZones::Logo, l.boot, l.awake, l.sleep, l.shutdown) aura_cli::SetAuraZoneEnabled::RearGlow(r) => set(PowerZones::RearGlow, r),
} aura_cli::SetAuraZoneEnabled::Ally(r) => set(PowerZones::Ally, r),
aura_cli::SetAuraZoneEnabled::Lightbar(l) => {
set(PowerZones::Lightbar, l.boot, l.awake, l.sleep, l.shutdown)
}
aura_cli::SetAuraZoneEnabled::Lid(l) => {
set(PowerZones::Lid, l.boot, l.awake, l.sleep, l.shutdown)
}
aura_cli::SetAuraZoneEnabled::RearGlow(r) => {
set(PowerZones::RearGlow, r.boot, r.awake, r.sleep, r.shutdown)
}
aura_cli::SetAuraZoneEnabled::Ally(r) => {
set(PowerZones::Ally, r.boot, r.awake, r.sleep, r.shutdown)
}
} }
} }
@@ -833,39 +983,53 @@ fn handle_throttle_profile(
return Err(ProfileError::NotSupported.into()); return Err(ProfileError::NotSupported.into());
} }
if !cmd.next
&& !cmd.list
&& cmd.profile_set.is_none()
&& !cmd.profile_get
&& cmd.profile_set_ac.is_none()
&& cmd.profile_set_bat.is_none()
{
if !cmd.help {
println!("Missing arg or command\n");
}
println!("{}", ProfileCommand::usage());
if let Some(lst) = cmd.self_command_list() {
println!("\n{}", lst);
}
return Ok(());
}
let proxy = PlatformProxyBlocking::new(conn)?; let proxy = PlatformProxyBlocking::new(conn)?;
let current = proxy.platform_profile()?; let current = proxy.platform_profile()?;
let choices = proxy.platform_profile_choices()?; let choices = proxy.platform_profile_choices()?;
match &cmd.command { if cmd.next {
crate::cli_opts::ProfileSubCommand::Next(_) => { proxy.set_platform_profile(PlatformProfile::next(current, &choices))?;
proxy.set_platform_profile(PlatformProfile::next(current, &choices))?; } else if let Some(profile) = cmd.profile_set {
} proxy.set_platform_profile(profile)?;
crate::cli_opts::ProfileSubCommand::Set(s) => { } else if let Some(profile) = cmd.profile_set_ac {
if !s.ac && !s.battery { proxy.set_platform_profile_on_ac(profile)?;
proxy.set_platform_profile(s.profile)?; } else if let Some(profile) = cmd.profile_set_bat {
} else { proxy.set_platform_profile_on_battery(profile)?;
if s.ac { }
proxy.set_platform_profile_on_ac(s.profile)?;
} if cmd.list {
if s.battery { for p in &choices {
proxy.set_platform_profile_on_battery(s.profile)?; println!("{:?}", p);
}
}
}
crate::cli_opts::ProfileSubCommand::List(_) => {
for p in &choices {
println!("{:?}", p);
}
}
crate::cli_opts::ProfileSubCommand::Get(_) => {
println!("Active profile: {current:?}");
println!();
println!("AC profile {:?}", proxy.platform_profile_on_ac()?);
println!("Battery profile {:?}", proxy.platform_profile_on_battery()?);
} }
} }
if cmd.profile_get {
println!("Active profile is {current:?}");
println!("Profile on AC is {:?}", proxy.platform_profile_on_ac()?);
println!(
"Profile on Battery is {:?}",
proxy.platform_profile_on_battery()?
);
}
Ok(()) Ok(())
} }
@@ -880,7 +1044,14 @@ fn handle_fan_curve(
}; };
if !cmd.get_enabled && !cmd.default && cmd.mod_profile.is_none() { if !cmd.get_enabled && !cmd.default && cmd.mod_profile.is_none() {
println!("Missing arg or command; run 'asusctl fan-curve --help' for usage"); if !cmd.help {
println!("Missing arg or command\n");
}
println!("{}", FanCurveCommand::usage());
if let Some(lst) = cmd.self_command_list() {
println!("\n{}", lst);
}
return Ok(()); return Ok(());
} }
@@ -1019,33 +1190,33 @@ fn print_firmware_attr(attr: &AsusArmouryProxyBlocking) -> Result<(), Box<dyn st
#[allow(clippy::manual_is_multiple_of, clippy::nonminimal_bool)] #[allow(clippy::manual_is_multiple_of, clippy::nonminimal_bool)]
fn handle_armoury_command(cmd: &ArmouryCommand) -> Result<(), Box<dyn std::error::Error>> { fn handle_armoury_command(cmd: &ArmouryCommand) -> Result<(), Box<dyn std::error::Error>> {
// If nested subcommand provided, handle set/get/list. {
match &cmd.command { if cmd.free.is_empty() || (cmd.free.len() % 2 != 0) || cmd.help {
ArmourySubCommand::List(_) => { const USAGE: &str = "Usage: asusctl armoury panel_overdrive 1 nv_dynamic_boost 5";
if let Ok(attrs) = find_iface::<AsusArmouryProxyBlocking>("xyz.ljones.AsusArmoury") { if cmd.free.len() % 2 != 0 {
for attr in attrs.iter() { println!(
"Incorrect number of args, each attribute label must be paired with a setting:"
);
println!("{USAGE}");
return Ok(());
}
if let Ok(attr) = find_iface::<AsusArmouryProxyBlocking>("xyz.ljones.AsusArmoury") {
println!("\n{USAGE}\n");
println!("Available firmware attributes: ");
for attr in attr.iter() {
print_firmware_attr(attr)?; print_firmware_attr(attr)?;
} }
} }
Ok(()) return Ok(());
} }
ArmourySubCommand::Get(g) => {
if let Ok(attrs) = find_iface::<AsusArmouryProxyBlocking>("xyz.ljones.AsusArmoury") { if let Ok(attr) = find_iface::<AsusArmouryProxyBlocking>("xyz.ljones.AsusArmoury") {
for attr in attrs.iter() { for cmd in cmd.free.chunks(2) {
for attr in attr.iter() {
let name = attr.name()?; let name = attr.name()?;
if <&str>::from(name) == g.property { if <&str>::from(name) == cmd[0] {
print_firmware_attr(attr)?; let mut value: i32 = cmd[1].parse()?;
}
}
}
Ok(())
}
ArmourySubCommand::Set(s) => {
if let Ok(attrs) = find_iface::<AsusArmouryProxyBlocking>("xyz.ljones.AsusArmoury") {
for attr in attrs.iter() {
let name = attr.name()?;
if <&str>::from(name) == s.property {
let mut value: i32 = s.value;
if value == -1 { if value == -1 {
info!("Setting to default"); info!("Setting to default");
value = attr.default_value()?; value = attr.default_value()?;
@@ -1055,7 +1226,7 @@ fn handle_armoury_command(cmd: &ArmouryCommand) -> Result<(), Box<dyn std::error
} }
} }
} }
Ok(())
} }
} }
Ok(())
} }

31
asusctl/src/scsi_cli.rs
View File

@@ -1,30 +1,35 @@
use argh::FromArgs; use gumdrop::Options;
use rog_scsi::{AuraMode, Colour, Direction, Speed}; use rog_scsi::{AuraMode, Colour, Direction, Speed};
#[derive(FromArgs, Debug)] #[derive(Options)]
#[argh(subcommand, name = "scsi", description = "scsi LED commands")]
pub struct ScsiCommand { pub struct ScsiCommand {
#[argh(option, description = "enable the SCSI drive LEDs")] #[options(help = "print help message")]
pub help: bool,
#[options(help = "Enable the SCSI drive LEDs")]
pub enable: Option<bool>, pub enable: Option<bool>,
#[argh(option, description = "set LED mode (use 'list' for all options)")] #[options(meta = "", help = "Set LED mode (so 'list' for all options)")]
pub mode: Option<AuraMode>, pub mode: Option<AuraMode>,
#[argh( #[options(
option, meta = "",
description = "set LED mode speed <slowest, slow, med, fast, fastest>" help = "Set LED mode speed <slowest, slow, med, fast, fastest> (does not apply to all)"
)] )]
pub speed: Option<Speed>, pub speed: Option<Speed>,
#[argh(option, description = "set LED mode direction <forward, reverse>")] #[options(
meta = "",
help = "Set LED mode direction <forward, reverse> (does not apply to all)"
)]
pub direction: Option<Direction>, pub direction: Option<Direction>,
#[argh( #[options(
option, meta = "",
description = "set LED colours <hex>, specify up to 4 with repeated arg" help = "Set LED colours <hex>, specify up to 4 with repeated arg"
)] )]
pub colours: Vec<Colour>, pub colours: Vec<Colour>,
#[argh(switch, description = "list available animations")] #[options(help = "list available animations")]
pub list: bool, pub list: bool,
} }

37
asusctl/src/slash_cli.rs
View File

@@ -1,34 +1,37 @@
use argh::FromArgs; use gumdrop::Options;
use rog_slash::SlashMode; use rog_slash::SlashMode;
#[derive(FromArgs, Debug)] #[derive(Options)]
#[argh(subcommand, name = "slash", description = "slash ledbar commands")]
pub struct SlashCommand { pub struct SlashCommand {
#[argh(switch, description = "enable the Slash Ledbar")] #[options(help = "print help message")]
pub help: bool,
#[options(help = "Enable the Slash Ledbar")]
pub enable: bool, pub enable: bool,
#[argh(switch, description = "disable the Slash Ledbar")] #[options(help = "Disable the Slash Ledbar")]
pub disable: bool, pub disable: bool,
#[argh(option, short = 'l', description = "set brightness value <0-255>")] #[options(short = "l", meta = "", help = "Set brightness value <0-255>")]
pub brightness: Option<u8>, pub brightness: Option<u8>,
#[argh(option, description = "set interval value <0-5>")] #[options(meta = "", help = "Set interval value <0-5>")]
pub interval: Option<u8>, pub interval: Option<u8>,
#[argh(option, description = "set SlashMode (use 'list' for options)")] #[options(meta = "", help = "Set SlashMode (so 'list' for all options)")]
pub mode: Option<SlashMode>, pub mode: Option<SlashMode>,
#[argh(switch, description = "list available animations")] #[options(help = "list available animations")]
pub list: bool, pub list: bool,
#[argh(option, short = 'B', description = "show the animation on boot")] #[options(short = "B", meta = "", help = "Show the animation on boot")]
pub show_on_boot: Option<bool>, pub show_on_boot: Option<bool>,
#[argh(option, short = 'S', description = "show the animation on shutdown")] #[options(short = "S", meta = "", help = "Show the animation on shutdown")]
pub show_on_shutdown: Option<bool>, pub show_on_shutdown: Option<bool>,
#[argh(option, short = 's', description = "show the animation on sleep")] #[options(short = "s", meta = "", help = "Show the animation on sleep")]
pub show_on_sleep: Option<bool>, pub show_on_sleep: Option<bool>,
#[argh(option, short = 'b', description = "show the animation on battery")] #[options(short = "b", meta = "", help = "Show the animation on battery")]
pub show_on_battery: Option<bool>, pub show_on_battery: Option<bool>,
#[argh( // #[options(short = "L", meta = "", help = "Show the animation on lid closed")]
option, // pub show_on_lid_closed: Option<bool>,
short = 'w', #[options(
description = "show the low-battery warning animation" short = "w",
meta = "",
help = "Show the low-battery warning animation"
)] )]
pub show_battery_warning: Option<bool>, pub show_battery_warning: Option<bool>,
} }

196
rog-control-center/src/notify.rs
View File

@@ -9,15 +9,11 @@ use std::process::Command;
use std::sync::{Arc, Mutex}; use std::sync::{Arc, Mutex};
use std::time::Duration; use std::time::Duration;
use futures_util::StreamExt;
use log::{debug, error, info, warn}; use log::{debug, error, info, warn};
use notify_rust::{Hint, Notification, Timeout, Urgency}; use notify_rust::{Hint, Notification, Timeout};
use rog_platform::platform::GpuMode;
use rog_platform::power::AsusPower; use rog_platform::power::AsusPower;
use serde::{Deserialize, Serialize}; use serde::{Deserialize, Serialize};
use supergfxctl::actions::UserActionRequired as GfxUserAction; use supergfxctl::pci_device::GfxPower;
use supergfxctl::pci_device::{GfxMode, GfxPower};
use supergfxctl::zbus_proxy::DaemonProxy as SuperProxy;
use tokio::runtime::Runtime; use tokio::runtime::Runtime;
use tokio::task::JoinHandle; use tokio::task::JoinHandle;
@@ -145,12 +141,8 @@ pub fn start_notifications(
} }
}); });
let enabled_notifications_copy = config.clone(); info!("Attempting to start plain dgpu status monitor");
let no_supergfx = move |e: &zbus::Error| { start_dpu_status_mon(config.clone());
error!("zbus signal: receive_notify_gfx_status: {e}");
warn!("Attempting to start plain dgpu status monitor");
start_dpu_status_mon(enabled_notifications_copy.clone());
};
// GPU MUX Mode notif // GPU MUX Mode notif
// TODO: need to get armoury attrs and iter to find // TODO: need to get armoury attrs and iter to find
@@ -189,95 +181,9 @@ pub fn start_notifications(
// Ok::<(), zbus::Error>(()) // Ok::<(), zbus::Error>(())
// }); // });
let enabled_notifications_copy = config.clone();
// GPU Mode change/action notif
tokio::spawn(async move {
let conn = zbus::Connection::system().await.inspect_err(|e| {
no_supergfx(e);
})?;
let proxy = SuperProxy::builder(&conn).build().await.inspect_err(|e| {
no_supergfx(e);
})?;
let _ = proxy.mode().await.inspect_err(|e| {
no_supergfx(e);
})?;
let proxy_copy = proxy.clone();
let enabled_notifications_copy_action = enabled_notifications_copy.clone();
let mut p = proxy.receive_notify_action().await?;
tokio::spawn(async move {
info!("Started zbus signal thread: receive_notify_action");
while let Some(e) = p.next().await {
if let Ok(out) = e.args() {
// Respect user notification settings for gpu actions
if let Ok(cfg) = enabled_notifications_copy_action.lock() {
if !cfg.notifications.enabled || !cfg.notifications.receive_notify_gfx {
continue;
}
}
let action = out.action();
let mode = convert_gfx_mode(proxy.mode().await.unwrap_or_default());
match action {
supergfxctl::actions::UserActionRequired::Reboot => {
do_mux_notification("Graphics mode change requires reboot", &mode)
}
_ => do_gfx_action_notif(<&str>::from(action), *action, mode),
}
.map_err(|e| {
error!("zbus signal: do_gfx_action_notif: {e}");
e
})
.ok();
}
}
});
let mut p = proxy_copy.receive_notify_gfx_status().await?;
tokio::spawn(async move {
info!("Started zbus signal thread: receive_notify_gfx_status");
let mut last_status = GfxPower::Unknown;
while let Some(e) = p.next().await {
if let Ok(out) = e.args() {
let status = out.status;
if status != GfxPower::Unknown && status != last_status {
if let Ok(config) = enabled_notifications_copy.lock() {
if !config.notifications.receive_notify_gfx_status
|| !config.notifications.enabled
{
continue;
}
}
// Required check because status cycles through
// active/unknown/suspended
do_gpu_status_notif("dGPU status changed:", &status)
.show_async()
.await
.unwrap()
.on_close(|_| ());
}
last_status = status;
}
}
});
Ok::<(), zbus::Error>(())
});
Ok(vec![blocking]) Ok(vec![blocking])
} }
fn convert_gfx_mode(gfx: GfxMode) -> GpuMode {
match gfx {
GfxMode::Hybrid => GpuMode::Optimus,
GfxMode::Integrated => GpuMode::Integrated,
GfxMode::NvidiaNoModeset => GpuMode::Optimus,
GfxMode::Vfio => GpuMode::Vfio,
GfxMode::AsusEgpu => GpuMode::Egpu,
GfxMode::AsusMuxDgpu => GpuMode::Ultimate,
GfxMode::None => GpuMode::Error,
}
}
fn base_notification<T>(message: &str, data: &T) -> Notification fn base_notification<T>(message: &str, data: &T) -> Notification
where where
T: Display, T: Display,
@@ -303,97 +209,3 @@ fn do_gpu_status_notif(message: &str, data: &GfxPower) -> Notification {
notif.icon(icon); notif.icon(icon);
notif notif
} }
fn do_gfx_action_notif(message: &str, action: GfxUserAction, mode: GpuMode) -> Result<()> {
if matches!(action, GfxUserAction::Reboot) {
do_mux_notification("Graphics mode change requires reboot", &mode).ok();
return Ok(());
}
let mut notif = Notification::new();
notif
.appname(NOTIF_HEADER)
.summary(&format!("Changing to {mode}. {message}"))
//.hint(Hint::Resident(true))
.hint(Hint::Category("device".into()))
.urgency(Urgency::Critical)
// For user-action notifications keep them visible if they require interaction
// but for non-interactive actions we prefer they auto-hide like other notifs.
.timeout(Timeout::Milliseconds(6000))
.icon("dialog-warning")
.hint(Hint::Transient(true));
if matches!(action, GfxUserAction::Logout) {
notif.action("gfx-mode-session-action", "Logout");
let handle = notif.show()?;
if let Ok(desktop) = std::env::var("XDG_CURRENT_DESKTOP") {
if desktop.to_lowercase() == "gnome" {
handle.wait_for_action(|id| {
if id == "gfx-mode-session-action" {
let mut cmd = Command::new("gnome-session-quit");
cmd.spawn().ok();
} else if id == "__closed" {
// TODO: cancel the switching
}
});
} else if desktop.to_lowercase() == "kde" {
handle.wait_for_action(|id| {
if id == "gfx-mode-session-action" {
let mut cmd = Command::new("qdbus");
cmd.args([
"org.kde.ksmserver", "/KSMServer", "logout", "1", "0", "0",
]);
cmd.spawn().ok();
} else if id == "__closed" {
// TODO: cancel the switching
}
});
} else {
// todo: handle alternatives
}
}
} else {
notif.show()?;
}
Ok(())
}
/// Actual `GpuMode` unused as data is never correct until switched by reboot
fn do_mux_notification(message: &str, m: &GpuMode) -> Result<()> {
let mut notif = base_notification(message, &m.to_string());
notif
.action("gfx-mode-session-action", "Reboot")
.urgency(Urgency::Critical)
.icon("system-reboot-symbolic")
.hint(Hint::Transient(true));
let handle = notif.show()?;
std::thread::spawn(|| {
if let Ok(desktop) = std::env::var("XDG_CURRENT_DESKTOP") {
if desktop.to_lowercase() == "gnome" {
handle.wait_for_action(|id| {
if id == "gfx-mode-session-action" {
let mut cmd = Command::new("gnome-session-quit");
cmd.arg("--reboot");
cmd.spawn().ok();
} else if id == "__closed" {
// TODO: cancel the switching
}
});
} else if desktop.to_lowercase() == "kde" {
handle.wait_for_action(|id| {
if id == "gfx-mode-session-action" {
let mut cmd = Command::new("qdbus");
cmd.args([
"org.kde.ksmserver", "/KSMServer", "logout", "1", "1", "0",
]);
cmd.spawn().ok();
} else if id == "__closed" {
// TODO: cancel the switching
}
});
}
}
});
Ok(())
}

6
rog-control-center/ui/pages/about.slint
View File

@@ -17,7 +17,7 @@ export component PageAbout inherits VerticalLayout {
Text { Text {
wrap: TextWrap.word-wrap; wrap: TextWrap.word-wrap;
text: "You need to use kernel version 6.19 to use this software"; text: "You will require a kernel built with my work from here: https://github.com/flukejones/linux";
} }
Text { Text {
@@ -43,6 +43,10 @@ export component PageAbout inherits VerticalLayout {
text: "- [ ] Slash control"; text: "- [ ] Slash control";
} }
Text {
text: "- [ ] Supergfx control";
}
Text { Text {
text: "- [ ] Screenpad controls"; text: "- [ ] Screenpad controls";
} }