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Merge branch 'endrift/refactor' into 'master'

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Cleanup in preparation of steamos-workerd merge

See merge request holo/steamos-manager!9
This commit is contained in:
Vicki Pfau 2024-03-21 21:19:56 +00:00
commit c9acd7a397
4 changed files with 598 additions and 578 deletions
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12
Cargo.toml
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@ -1,14 +1,14 @@
[package] [package]
name = "steamos-manager" name = "steamos-manager"
version = "0.9.0" version = "24.3.0"
edition = "2021" edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[profile.release] [profile.release]
strip="symbols" strip="symbols"
[dependencies] [dependencies]
tokio = { version = "1.33.0", features = ["fs", "process", "io-std", "rt-multi-thread", "macros"] } anyhow = "1"
zbus = { version = "3.14.1", features = ["tokio"] } tokio = { version = "1", features = ["fs", "io-std", "macros", "process", "rt-multi-thread", "signal"] }
zbus_macros = "3.14.1" tracing = { version = "0.1", default-features = false }
tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }
zbus = { version = "4", features = ["tokio"] }

19
src/main.rs
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@ -1,5 +1,6 @@
/* /*
* Copyright © 2023 Collabora Ltd. * Copyright © 2023 Collabora Ltd.
* Copyright © 2024 Valve Software
* *
* SPDX-License-Identifier: MIT * SPDX-License-Identifier: MIT
* *
@ -23,16 +24,23 @@
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/ */
use zbus::{ConnectionBuilder, Result}; use anyhow::{Error, Result};
use tokio::signal::unix::{signal, SignalKind};
use tracing_subscriber;
use zbus::ConnectionBuilder;
pub mod manager; mod manager;
#[tokio::main] #[tokio::main]
async fn main() -> Result<()> { async fn main() -> Result<()> {
// This daemon is responsible for creating a dbus api that steam client can use to do various OS // This daemon is responsible for creating a dbus api that steam client can use to do various OS
// level things. It implements com.steampowered.SteamOSManager1 interface // level things. It implements com.steampowered.SteamOSManager1 interface
let manager = manager::SMManager::default(); tracing_subscriber::fmt::init();
let mut sigterm = signal(SignalKind::terminate())?;
let manager = manager::SMManager::new()?;
let _system_connection = ConnectionBuilder::system()? let _system_connection = ConnectionBuilder::system()?
.name("com.steampowered.SteamOSManager1")? .name("com.steampowered.SteamOSManager1")?
@ -40,7 +48,8 @@ async fn main() -> Result<()> {
.build() .build()
.await?; .await?;
loop { tokio::select! {
std::future::pending::<()>().await; e = sigterm.recv() => e.ok_or(Error::msg("SIGTERM pipe broke")),
e = tokio::signal::ctrl_c() => Ok(e?),
} }
} }

551
src/manager.rs
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@ -1,5 +1,6 @@
/* /*
* Copyright © 2023 Collabora Ltd. * Copyright © 2023 Collabora Ltd.
* Copyright © 2024 Valve Software
* *
* SPDX-License-Identifier: MIT * SPDX-License-Identifier: MIT
* *
@ -23,10 +24,11 @@
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/ */
use std::{ fs, ffi::OsStr, fmt, os::fd::{FromRawFd, IntoRawFd} }; use anyhow::{ensure, Result};
use std::{ffi::OsStr, fmt, fs};
use tokio::{fs::File, io::AsyncWriteExt, process::Command}; use tokio::{fs::File, io::AsyncWriteExt, process::Command};
use zbus::zvariant::OwnedFd; use tracing::{error, warn};
use zbus_macros::dbus_interface; use zbus::{interface, zvariant::Fd};
#[derive(PartialEq, Debug, Copy, Clone)] #[derive(PartialEq, Debug, Copy, Clone)]
#[repr(u32)] #[repr(u32)]
@ -37,16 +39,13 @@ enum WifiDebugMode {
impl TryFrom<u32> for WifiDebugMode { impl TryFrom<u32> for WifiDebugMode {
type Error = &'static str; type Error = &'static str;
fn try_from(v: u32) -> Result<Self, Self::Error> fn try_from(v: u32) -> Result<Self, Self::Error> {
{
match v { match v {
x if x == WifiDebugMode::Off as u32 => Ok(WifiDebugMode::Off), x if x == WifiDebugMode::Off as u32 => Ok(WifiDebugMode::Off),
x if x == WifiDebugMode::On as u32 => Ok(WifiDebugMode::On), x if x == WifiDebugMode::On as u32 => Ok(WifiDebugMode::On),
_ => { Err("No enum match for value {v}") }, _ => Err("No enum match for value {v}"),
} }
} }
} }
impl fmt::Display for WifiDebugMode { impl fmt::Display for WifiDebugMode {
@ -65,28 +64,16 @@ pub struct SMManager {
should_trace: bool, should_trace: bool,
} }
impl SMManager impl SMManager {
{ pub fn new() -> Result<Self> {
pub fn new() -> Self Ok(SMManager {
{
SMManager {
wifi_debug_mode: WifiDebugMode::Off, wifi_debug_mode: WifiDebugMode::Off,
should_trace: is_galileo().unwrap(), should_trace: is_galileo()?,
} })
} }
} }
impl Default for SMManager const OVERRIDE_CONTENTS: &str = "[Service]
{
fn default() -> Self
{
SMManager::new()
}
}
const OVERRIDE_CONTENTS: &str =
"[Service]
ExecStart= ExecStart=
ExecStart=/usr/lib/iwd/iwd -d ExecStart=/usr/lib/iwd/iwd -d
"; ";
@ -100,8 +87,15 @@ const MIN_BUFFER_SIZE: u32 = 100;
const BOARD_NAME_PATH: &str = "/sys/class/dmi/id/board_name"; const BOARD_NAME_PATH: &str = "/sys/class/dmi/id/board_name";
const GALILEO_NAME: &str = "Galileo"; const GALILEO_NAME: &str = "Galileo";
fn is_galileo() -> std::io::Result<bool> const ALS_INTEGRATION_PATH: &str = "/sys/devices/platform/AMDI0010:00/i2c-0/i2c-PRP0001:01/iio:device0/in_illuminance_integration_time";
{ const POWER1_CAP_PATH: &str = "/sys/class/hwmon/hwmon5/power1_cap";
const POWER2_CAP_PATH: &str = "/sys/class/hwmon/hwmon5/power2_cap";
const GPU_PERFORMANCE_LEVEL_PATH: &str =
"/sys/class/drm/card0/device/power_dpm_force_performance_level";
const GPU_CLOCKS_PATH: &str = "/sys/class/drm/card0/device/pp_od_clk_voltage";
fn is_galileo() -> Result<bool> {
let mut board_name = fs::read_to_string(BOARD_NAME_PATH)?; let mut board_name = fs::read_to_string(BOARD_NAME_PATH)?;
board_name = board_name.trim().to_string(); board_name = board_name.trim().to_string();
@ -109,48 +103,32 @@ fn is_galileo() -> std::io::Result<bool>
Ok(matches) Ok(matches)
} }
async fn script_exit_code( async fn script_exit_code(executable: &str, args: &[impl AsRef<OsStr>]) -> Result<bool> {
executable: &str,
args: &[impl AsRef<OsStr>],
) -> std::io::Result<bool> {
// Run given script and return true on success // Run given script and return true on success
let mut child = Command::new(executable) let mut child = Command::new(executable).args(args).spawn()?;
.args(args)
.spawn()?;
let status = child.wait().await?; let status = child.wait().await?;
Ok(status.success()) Ok(status.success())
} }
async fn run_script(name: &str, executable: &str, args: &[impl AsRef<OsStr>]) -> std::io::Result<bool> { async fn run_script(name: &str, executable: &str, args: &[impl AsRef<OsStr>]) -> Result<bool> {
// Run given script to get exit code and return true on success. // Run given script to get exit code and return true on success.
// Return false on failure, but also print an error if needed // Return false on failure, but also print an error if needed
match script_exit_code(executable, args).await { script_exit_code(executable, args)
Ok(value) => Ok(value), .await
Err(err) => { .inspect_err(|message| warn!("Error running {name} {message}"))
println!("Error running {} {}", name, err);
Err(err)
}
}
} }
async fn script_output( async fn script_output(executable: &str, args: &[impl AsRef<OsStr>]) -> Result<String> {
executable: &str,
args: &[impl AsRef<OsStr>],
) -> Result<String, Box<dyn std::error::Error>> {
// Run given command and return the output given // Run given command and return the output given
let output = Command::new(executable).args(args).output(); let output = Command::new(executable).args(args).output();
let output = output.await?; let output = output.await?;
let s = match std::str::from_utf8(&output.stdout) { let s = std::str::from_utf8(&output.stdout)?;
Ok(v) => v,
Err(e) => panic!("Invalid UTF-8 sequence: {}", e),
};
Ok(s.to_string()) Ok(s.to_string())
} }
async fn setup_iwd_config(want_override: bool) -> Result<(), std::io::Error> async fn setup_iwd_config(want_override: bool) -> std::io::Result<()> {
{
// Copy override.conf file into place or out of place depending // Copy override.conf file into place or out of place depending
// on install value // on install value
@ -166,10 +144,9 @@ async fn setup_iwd_config(want_override: bool) -> Result<(), std::io::Error>
} }
} }
async fn restart_iwd() -> std::io::Result<bool> async fn restart_iwd() -> Result<bool> {
{
// First reload systemd since we modified the config most likely // First reload systemd since we modified the config most likely
// othorwise we wouldn't be restarting iwd. // otherwise we wouldn't be restarting iwd.
match run_script("reload systemd", "systemctl", &["daemon-reload"]).await { match run_script("reload systemd", "systemctl", &["daemon-reload"]).await {
Ok(value) => { Ok(value) => {
if value { if value {
@ -177,19 +154,18 @@ async fn restart_iwd() -> std::io::Result<bool>
run_script("restart iwd", "systemctl", &["restart", "iwd"]).await run_script("restart iwd", "systemctl", &["restart", "iwd"]).await
} else { } else {
// reload failed // reload failed
println!("restart_iwd: reload systemd failed somehow"); error!("restart_iwd: reload systemd failed with non-zero exit code");
Ok(false) Ok(false)
} }
}, }
Err(message) => { Err(message) => {
println!("restart_iwd: reload systemd got an error {message}"); error!("restart_iwd: reload systemd got an error: {message}");
Err(message) Err(message)
} }
} }
} }
async fn stop_tracing(should_trace: bool) -> std::io::Result<bool> async fn stop_tracing(should_trace: bool) -> Result<bool> {
{
if !should_trace { if !should_trace {
return Ok(true); return Ok(true);
} }
@ -197,21 +173,105 @@ async fn stop_tracing(should_trace: bool) -> std::io::Result<bool>
// Stop tracing and extract ring buffer to disk for capture // Stop tracing and extract ring buffer to disk for capture
run_script("stop tracing", "trace-cmd", &["stop"]).await?; run_script("stop tracing", "trace-cmd", &["stop"]).await?;
// stop tracing worked // stop tracing worked
run_script("extract traces", "trace-cmd", &["extract", "-o", OUTPUT_FILE]).await run_script(
"extract traces",
"trace-cmd",
&["extract", "-o", OUTPUT_FILE],
)
.await
} }
async fn start_tracing(buffer_size:u32, should_trace: bool) -> std::io::Result<bool> async fn start_tracing(buffer_size: u32, should_trace: bool) -> Result<bool> {
{
if !should_trace { if !should_trace {
return Ok(true); return Ok(true);
} }
// Start tracing // Start tracing
let size_str = format!("{}", buffer_size); let size_str = format!("{}", buffer_size);
run_script("start tracing", "trace-cmd", &["start", "-e", "ath11k_wmi_diag", "-b", &size_str]).await run_script(
"start tracing",
"trace-cmd",
&["start", "-e", "ath11k_wmi_diag", "-b", &size_str],
)
.await
} }
#[dbus_interface(name = "com.steampowered.SteamOSManager1")] async fn set_gpu_performance_level(level: i32) -> Result<()> {
// Set given GPU performance level
// Levels are defined below
// return true if able to write, false otherwise or if level is out of range, etc.
let levels = ["auto", "low", "high", "manual", "peak_performance"];
ensure!(
level >= 0 && level < levels.len() as i32,
"Invalid performance level"
);
let mut myfile = File::create(GPU_PERFORMANCE_LEVEL_PATH)
.await
.inspect_err(|message| error!("Error opening sysfs file for writing: {message}"))?;
myfile
.write_all(levels[level as usize].as_bytes())
.await
.inspect_err(|message| error!("Error writing to sysfs file: {message}"))?;
Ok(())
}
async fn set_gpu_clocks(clocks: i32) -> Result<()> {
// Set GPU clocks to given value valid between 200 - 1600
// Only used when GPU Performance Level is manual, but write whenever called.
ensure!((200..=1600).contains(&clocks), "Invalid clocks");
let mut myfile = File::create(GPU_CLOCKS_PATH)
.await
.inspect_err(|message| error!("Error opening sysfs file for writing: {message}"))?;
let data = format!("s 0 {clocks}\n");
myfile
.write(data.as_bytes())
.await
.inspect_err(|message| error!("Error writing to sysfs file: {message}"))?;
let data = format!("s 1 {clocks}\n");
myfile
.write(data.as_bytes())
.await
.inspect_err(|message| error!("Error writing to sysfs file: {message}"))?;
myfile
.write("c\n".as_bytes())
.await
.inspect_err(|message| error!("Error writing to sysfs file: {message}"))?;
Ok(())
}
async fn set_tdp_limit(limit: i32) -> Result<()> {
// Set TDP limit given if within range (3-15)
// Returns false on error or out of range
ensure!((3..=15).contains(&limit), "Invalid limit");
let mut power1file = File::create(POWER1_CAP_PATH).await.inspect_err(|message| {
error!("Error opening sysfs power1_cap file for writing TDP limits {message}")
})?;
let mut power2file = File::create(POWER2_CAP_PATH).await.inspect_err(|message| {
error!("Error opening sysfs power2_cap file for wtriting TDP limits {message}")
})?;
// Now write the value * 1,000,000
let data = format!("{limit}000000");
power1file
.write(data.as_bytes())
.await
.inspect_err(|message| error!("Error writing to power1_cap file: {message}"))?;
power2file
.write(data.as_bytes())
.await
.inspect_err(|message| error!("Error writing to power2_cap file: {message}"))?;
Ok(())
}
#[interface(name = "com.steampowered.SteamOSManager1")]
impl SMManager { impl SMManager {
const API_VERSION: u32 = 1; const API_VERSION: u32 = 1;
@ -221,57 +281,49 @@ impl SMManager {
async fn factory_reset(&self) -> bool { async fn factory_reset(&self) -> bool {
// Run steamos factory reset script and return true on success // Run steamos factory reset script and return true on success
match run_script("factory reset", "steamos-factory-reset-config", &[""]).await { run_script("factory reset", "steamos-factory-reset-config", &[""])
Ok(value) => { value }, .await
Err(_) => { false } .unwrap_or(false)
}
} }
async fn disable_wifi_power_management(&self) -> bool { async fn disable_wifi_power_management(&self) -> bool {
// Run polkit helper script and return true on success // Run polkit helper script and return true on success
match run_script( run_script(
"disable wifi power management", "disable wifi power management",
"/usr/bin/steamos-polkit-helpers/steamos-disable-wireless-power-management", "/usr/bin/steamos-polkit-helpers/steamos-disable-wireless-power-management",
&[""], &[""],
) )
.await { .await
Ok(value) => { value }, .unwrap_or(false)
Err(_) => { false }
}
} }
async fn enable_fan_control(&self, enable: bool) -> bool { async fn enable_fan_control(&self, enable: bool) -> bool {
// Run what steamos-polkit-helpers/jupiter-fan-control does // Run what steamos-polkit-helpers/jupiter-fan-control does
if enable { if enable {
match run_script( run_script(
"enable fan control", "enable fan control",
"systemcltl", "systemcltl",
&["start", "jupiter-fan-control-service"], &["start", "jupiter-fan-control-service"],
) )
.await { .await
Ok(value) => { value }, .unwrap_or(false)
Err(_) => { false }
}
} else { } else {
match run_script( run_script(
"disable fan control", "disable fan control",
"systemctl", "systemctl",
&["stop", "jupiter-fan-control.service"], &["stop", "jupiter-fan-control.service"],
) )
.await { .await
Ok(value) => { value }, .unwrap_or(false)
Err(_) => { false }
}
} }
} }
async fn hardware_check_support(&self) -> bool { async fn hardware_check_support(&self) -> bool {
// Run jupiter-check-support note this script does exit 1 for "Support: No" case // Run jupiter-check-support note this script does exit 1 for "Support: No" case
// so no need to parse output, etc. // so no need to parse output, etc.
match run_script("check hardware support", "jupiter-check-support", &[""]).await { run_script("check hardware support", "jupiter-check-support", &[""])
Ok(value) => { value }, .await
Err(_) => { false } .unwrap_or(false)
}
} }
async fn read_als_calibration(&self) -> f32 { async fn read_als_calibration(&self) -> f32 {
@ -281,218 +333,82 @@ impl SMManager {
&[""], &[""],
) )
.await; .await;
let mut value: f32 = -1.0;
match result { match result {
Ok(as_string) => value = as_string.trim().parse().unwrap(), Ok(as_string) => as_string.trim().parse().unwrap_or(-1.0),
Err(message) => println!("Unable to run als calibration script : {}", message), Err(message) => {
error!("Unable to run als calibration script: {}", message);
-1.0
}
} }
value
} }
async fn update_bios(&self) -> bool { async fn update_bios(&self) -> bool {
// Update the bios as needed // Update the bios as needed
// Return true if the script was successful (though that might mean no update was needed), false otherwise // Return true if the script was successful (though that might mean no update was needed), false otherwise
match run_script( run_script(
"update bios", "update bios",
"/usr/bin/steamos-potlkit-helpers/jupiter-biosupdate", "/usr/bin/steamos-potlkit-helpers/jupiter-biosupdate",
&["--auto"], &["--auto"],
) )
.await { .await
Ok(value) => { value }, .unwrap_or(false)
Err(_) => { false }
}
} }
async fn update_dock(&self) -> bool { async fn update_dock(&self) -> bool {
// Update the dock firmware as needed // Update the dock firmware as needed
// Retur true if successful, false otherwise // Retur true if successful, false otherwise
match run_script( run_script(
"update dock firmware", "update dock firmware",
"/usr/bin/steamos-polkit-helpers/jupiter-dock-updater", "/usr/bin/steamos-polkit-helpers/jupiter-dock-updater",
&[""], &[""],
) )
.await { .await
Ok(value) => { value }, .unwrap_or(false)
Err(_) => { false }
}
} }
async fn trim_devices(&self) -> bool { async fn trim_devices(&self) -> bool {
// Run steamos-trim-devices script // Run steamos-trim-devices script
// return true on success, false otherwise // return true on success, false otherwise
match run_script( run_script(
"trim devices", "trim devices",
"/usr/bin/steamos-polkit-helpers/steamos-trim-devices", "/usr/bin/steamos-polkit-helpers/steamos-trim-devices",
&[""], &[""],
) )
.await { .await
Ok(value) => { value }, .unwrap_or(false)
Err(_) => { false }
}
} }
async fn format_sdcard(&self) -> bool { async fn format_sdcard(&self) -> bool {
// Run steamos-format-sdcard script // Run steamos-format-sdcard script
// return true on success, false otherwise // return true on success, false otherwise
match run_script( run_script(
"format sdcard", "format sdcard",
"/usr/bin/steamos-polkit-helpers/steamos-format-sdcard", "/usr/bin/steamos-polkit-helpers/steamos-format-sdcard",
&[""], &[""],
) )
.await { .await
Ok(value) => { value }, .unwrap_or(false)
Err(_) => { false }
}
} }
async fn set_gpu_performance_level(&self, level: i32) -> bool { async fn set_gpu_performance_level(&self, level: i32) -> bool {
// Set given level to sysfs path /sys/class/drm/card0/device/power_dpm_force_performance_level set_gpu_performance_level(level).await.is_ok()
// Levels are defined below
// return true if able to write, false otherwise or if level is out of range, etc.
let levels = ["auto", "low", "high", "manual", "peak_performance"];
if level < 0 || level >= levels.len() as i32 {
return false;
}
// Open sysfs file
let result =
File::create("/sys/class/drm/card0/device/power_dpm_force_performance_level").await;
let mut myfile;
match result {
Ok(f) => myfile = f,
Err(message) => {
println!("Error opening sysfs file for writing {message}");
return false;
}
};
// write value
let result = myfile.write_all(levels[level as usize].as_bytes()).await;
match result {
Ok(_worked) => true,
Err(message) => {
println!("Error writing to sysfs file {message}");
false
}
}
} }
async fn set_gpu_clocks(&self, clocks: i32) -> bool { async fn set_gpu_clocks(&self, clocks: i32) -> bool {
// Set gpu clocks to given value valid between 200 - 1600 set_gpu_clocks(clocks).await.is_ok()
// Only used when Gpu Performance Level is manual, but write whenever called.
// Writes value to /sys/class/drm/card0/device/pp_od_clk_voltage
if !(200..=1600).contains(&clocks) {
return false;
}
let result = File::create("/sys/class/drm/card0/device/pp_od_clk_voltage").await;
let mut myfile;
match result {
Ok(f) => myfile = f,
Err(message) => {
println!("Error opening sysfs file for writing {message}");
return false;
}
};
// write value
let data = format!("s 0 {clocks}\n");
let result = myfile.write(data.as_bytes()).await;
match result {
Ok(_worked) => {
let data = format!("s 1 {clocks}\n");
let result = myfile.write(data.as_bytes()).await;
match result {
Ok(_worked) => {
let result = myfile.write("c\n".as_bytes()).await;
match result {
Ok(_worked) => true,
Err(message) => {
println!("Error writing to sysfs file {message}");
false
}
}
}
Err(message) => {
println!("Error writing to sysfs file {message}");
false
}
}
}
Err(message) => {
println!("Error writing to sysfs file {message}");
false
}
}
} }
async fn set_tdp_limit(&self, limit: i32) -> bool { async fn set_tdp_limit(&self, limit: i32) -> bool {
// Set TDP limit given if within range (3-15) set_tdp_limit(limit).await.is_ok()
// Returns false on error or out of range
// Writes value to /sys/class/hwmon/hwmon5/power[12]_cap
if !(3..=15).contains(&limit) {
return false;
}
let result = File::create("/sys/class/hwmon/hwmon5/power1_cap").await;
let mut power1file;
match result {
Ok(f) => power1file = f,
Err(message) => {
println!("Error opening sysfs power1_cap file for writing TDP limits {message}");
return false;
}
};
let result = File::create("/sys/class/hwmon/hwmon5/power2_cap").await;
let mut power2file;
match result {
Ok(f) => power2file = f,
Err(message) => {
println!("Error opening sysfs power2_cap file for wtriting TDP limits {message}");
return false;
}
};
// Now write the value * 1,000,000
let data = format!("{limit}000000");
let result = power1file.write(data.as_bytes()).await;
match result {
Ok(_worked) => {
let result = power2file.write(data.as_bytes()).await;
match result {
Ok(_worked) => true,
Err(message) => {
println!("Error writing to power2_cap file: {message}");
false
}
}
}
Err(message) => {
println!("Error writing to power1_cap file: {message}");
false
}
}
} }
async fn get_als_integration_time_file_descriptor( async fn get_als_integration_time_file_descriptor(&self) -> Result<Fd, zbus::fdo::Error> {
&self,
) -> Result<zbus::zvariant::OwnedFd, zbus::fdo::Error> {
// Get the file descriptor for the als integration time sysfs path // Get the file descriptor for the als integration time sysfs path
// /sys/devices/platform/AMDI0010:00/i2c-0/i2c-PRP0001:01/iio:device0/in_illuminance_integration_time let result = File::create(ALS_INTEGRATION_PATH).await;
// Return -1 on error
let result = File::create("/sys/devices/platform/AMDI0010:00/i2c-0/i2c-PRP0001:01/iio:device0/in_illuminance_integration_time").await;
match result { match result {
Ok(f) => { Ok(f) => Ok(Fd::Owned(std::os::fd::OwnedFd::from(f.into_std().await))),
let raw = f.into_std().await.into_raw_fd();
unsafe {
let fd: OwnedFd = OwnedFd::from_raw_fd(raw);
Ok(fd)
}
}
Err(message) => { Err(message) => {
println!("Error opening sysfs file for giving file descriptor {message}"); error!("Error opening sysfs file for giving file descriptor: {message}");
Err(zbus::fdo::Error::IOError(message.to_string())) Err(zbus::fdo::Error::IOError(message.to_string()))
} }
} }
@ -513,105 +429,90 @@ impl SMManager {
Ok(WifiDebugMode::Off) => { Ok(WifiDebugMode::Off) => {
// If mode is 0 disable wifi debug mode // If mode is 0 disable wifi debug mode
// Stop any existing trace and flush to disk. // Stop any existing trace and flush to disk.
match stop_tracing(self.should_trace).await { let result = match stop_tracing(self.should_trace).await {
Ok(result) => { Ok(result) => result,
if result {
// Stop_tracing was successful
match setup_iwd_config(false).await {
Ok(_) => {
// setup_iwd_config false worked
match restart_iwd().await {
Ok(value) => {
if value {
// restart iwd worked
self.wifi_debug_mode = WifiDebugMode::Off;
} else {
// restart_iwd failed
println!("restart_iwd failed somehow, check log above");
return false;
}
},
Err(message) => {
println!("restart_iwd got an error {message}");
return false;
}
}
},
Err(message) => {
println!("setup_iwd_config false got an error somehow {message}");
return false;
}
}
} else {
println!("stop_tracing command failed somehow, bailing");
return false;
}
},
Err(message) => { Err(message) => {
println!("stop_tracing command had an error {message}"); error!("stop_tracing command got an error: {message}");
return false; return false;
} }
};
if !result {
error!("stop_tracing command returned non-zero");
return false;
} }
}, // Stop_tracing was successful
if let Err(message) = setup_iwd_config(false).await {
error!("setup_iwd_config false got an error: {message}");
return false;
}
// setup_iwd_config false worked
let value = match restart_iwd().await {
Ok(value) => value,
Err(message) => {
error!("restart_iwd got an error: {message}");
return false;
}
};
if value {
// restart iwd worked
self.wifi_debug_mode = WifiDebugMode::Off;
} else {
// restart_iwd failed
error!("restart_iwd failed, check log above");
return false;
}
}
Ok(WifiDebugMode::On) => { Ok(WifiDebugMode::On) => {
// If mode is 1 enable wifi debug mode // If mode is 1 enable wifi debug mode
if buffer_size < MIN_BUFFER_SIZE { if buffer_size < MIN_BUFFER_SIZE {
return false; return false;
} }
match setup_iwd_config(true).await { if let Err(message) = setup_iwd_config(true).await {
Ok(_) => { error!("setup_iwd_config true got an error: {message}");
// setup_iwd_config worked return false;
match restart_iwd().await { }
Ok(value) => { // setup_iwd_config worked
if value { let value = match restart_iwd().await {
// restart_iwd worked Ok(value) => value,
match start_tracing(buffer_size, self.should_trace).await {
Ok(value) => {
if value {
// start_tracing worked
self.wifi_debug_mode = WifiDebugMode::On;
} else {
// start_tracing failed
println!("start_tracing failed somehow");
return false;
}
},
Err(message) => {
println!("start_tracing got an error {message}");
return false;
}
}
} else {
println!("restart_iwd failed somehow");
return false;
}
},
Err(message) => {
println!("restart_iwd got an error {message}");
return false;
}
}
},
Err(message) => { Err(message) => {
println!("setup_iwd_config true got an error somehow {message}"); error!("restart_iwd got an error: {message}");
return false; return false;
} }
};
if !value {
error!("restart_iwd failed");
return false;
} }
}, // restart_iwd worked
let value = match start_tracing(buffer_size, self.should_trace).await {
Ok(value) => value,
Err(message) => {
error!("start_tracing got an error: {message}");
return false;
}
};
if value {
// start_tracing worked
self.wifi_debug_mode = WifiDebugMode::On;
} else {
// start_tracing failed
error!("start_tracing failed");
return false;
}
}
Err(_) => { Err(_) => {
// Invalid mode requested, more coming later, but add this catch-all for now // Invalid mode requested, more coming later, but add this catch-all for now
println!("Invalid wifi debug mode {mode} requested"); warn!("Invalid wifi debug mode {mode} requested");
return false; return false;
}, }
} }
true true
} }
/// A version property. /// A version property.
#[dbus_interface(property)] #[zbus(property)]
async fn version(&self) -> u32 { async fn version(&self) -> u32 {
SMManager::API_VERSION SMManager::API_VERSION
} }