rtic/xtask/src/run/mod.rs

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use std::{
fs::File,
io::Read,
path::PathBuf,
process::{Command, Stdio},
};
mod iter;
use iter::{into_iter, CoalescingRunner};
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use crate::{
argument_parsing::{Backends, BuildOrCheck, ExtraArguments, Globals, PackageOpt, TestMetadata},
cargo_command::{BuildMode, CargoCommand},
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command_parser, RunResult, TestRunError,
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};
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use log::{error, info, Level};
#[cfg(feature = "rayon")]
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use rayon::prelude::*;
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#[derive(Debug, Clone, Copy, PartialEq)]
pub enum OutputMode {
PipedAndCollected,
Inherited,
}
impl From<OutputMode> for Stdio {
fn from(value: OutputMode) -> Self {
match value {
OutputMode::PipedAndCollected => Stdio::piped(),
OutputMode::Inherited => Stdio::inherit(),
}
}
}
#[derive(Debug)]
pub enum FinalRunResult<'c> {
Success(CargoCommand<'c>, RunResult),
Failed(CargoCommand<'c>, RunResult),
CommandError(CargoCommand<'c>, anyhow::Error),
}
fn run_and_convert<'a>(
(global, command, overwrite): (&Globals, CargoCommand<'a>, bool),
) -> FinalRunResult<'a> {
// Run the command
let result = command_parser(global, &command, overwrite);
let output = match result {
// If running the command succeeded without looking at any of the results,
// log the data and see if the actual execution was succesfull too.
Ok(result) => {
if result.exit_status.success() {
FinalRunResult::Success(command, result)
} else {
FinalRunResult::Failed(command, result)
}
}
// If it didn't and some IO error occured, just panic
Err(e) => FinalRunResult::CommandError(command, e),
};
log::trace!("Final result: {output:?}");
output
}
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/// Cargo command to either build or check
pub fn cargo<'c>(
globals: &Globals,
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operation: BuildOrCheck,
cargoarg: &'c Option<&'c str>,
package: &'c PackageOpt,
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backend: Backends,
) -> Vec<FinalRunResult<'c>> {
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let runner = package
.packages()
.flat_map(|package| {
let target = backend.to_target();
let features = package.features(target, backend, globals.partial);
into_iter(features).map(move |f| (package, target, f))
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})
.map(move |(package, target, features)| {
let target = target.into();
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let command = match operation {
BuildOrCheck::Check => CargoCommand::Check {
cargoarg,
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package: Some(package.name()),
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target,
features,
mode: BuildMode::Release,
dir: None,
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},
BuildOrCheck::Build => CargoCommand::Build {
cargoarg,
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package: Some(package.name()),
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target,
features,
mode: BuildMode::Release,
dir: None,
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},
};
(globals, command, false)
});
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runner.run_and_coalesce()
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}
/// Cargo command to build a usage example.
///
/// The usage examples are in examples/
pub fn cargo_usage_example(
globals: &Globals,
operation: BuildOrCheck,
usage_examples: Vec<String>,
) -> Vec<FinalRunResult<'_>> {
into_iter(&usage_examples)
.map(|example| {
let path = format!("examples/{example}");
let command = match operation {
BuildOrCheck::Check => CargoCommand::Check {
cargoarg: &None,
mode: BuildMode::Release,
dir: Some(path.into()),
package: None,
target: None,
features: None,
},
BuildOrCheck::Build => CargoCommand::Build {
cargoarg: &None,
package: None,
target: None,
features: None,
mode: BuildMode::Release,
dir: Some(path.into()),
},
};
(globals, command, false)
})
.run_and_coalesce()
}
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/// Cargo command to either build or check all examples
///
/// The examples are in rtic/examples
pub fn cargo_example<'c>(
globals: &Globals,
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operation: BuildOrCheck,
cargoarg: &'c Option<&'c str>,
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backend: Backends,
examples: &'c [String],
) -> Vec<FinalRunResult<'c>> {
let runner = into_iter(examples).map(|example| {
let features = Some(backend.to_target().and_features(backend.to_rtic_feature()));
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let command = match operation {
BuildOrCheck::Check => CargoCommand::ExampleCheck {
cargoarg,
example,
target: Some(backend.to_target()),
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features,
mode: BuildMode::Release,
},
BuildOrCheck::Build => CargoCommand::ExampleBuild {
cargoarg,
example,
target: Some(backend.to_target()),
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features,
mode: BuildMode::Release,
dir: Some(PathBuf::from("./rtic")),
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},
};
(globals, command, false)
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});
runner.run_and_coalesce()
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}
/// Run cargo clippy on selected package
pub fn cargo_clippy<'c>(
globals: &Globals,
cargoarg: &'c Option<&'c str>,
package: &'c PackageOpt,
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backend: Backends,
) -> Vec<FinalRunResult<'c>> {
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let runner = package
.packages()
.flat_map(|package| {
let target = backend.to_target();
let features = package.features(target, backend, globals.partial);
into_iter(features).map(move |f| (package, target, f))
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})
.map(move |(package, target, features)| {
let command = CargoCommand::Clippy {
cargoarg,
package: Some(package.name()),
target: target.into(),
features,
};
(globals, command, false)
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});
runner.run_and_coalesce()
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}
/// Run cargo fmt on selected package
pub fn cargo_format<'c>(
globals: &Globals,
cargoarg: &'c Option<&'c str>,
package: &'c PackageOpt,
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check_only: bool,
) -> Vec<FinalRunResult<'c>> {
let runner = package.packages().map(|p| {
(
globals,
CargoCommand::Format {
cargoarg,
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package: Some(p.name()),
check_only,
},
false,
)
});
runner.run_and_coalesce()
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}
/// Run cargo doc
pub fn cargo_doc<'c>(
globals: &Globals,
cargoarg: &'c Option<&'c str>,
backend: Backends,
arguments: &'c Option<ExtraArguments>,
) -> Vec<FinalRunResult<'c>> {
let features = Some(backend.to_target().and_features(backend.to_rtic_feature()));
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let command = CargoCommand::Doc {
cargoarg,
features,
arguments: arguments.clone(),
};
vec![run_and_convert((globals, command, false))]
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}
/// Run cargo test on the selected package or all packages
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///
/// If no package is specified, loop through all packages
pub fn cargo_test<'c>(
globals: &Globals,
package: &'c PackageOpt,
backend: Backends,
) -> Vec<FinalRunResult<'c>> {
package
.packages()
.map(|p| (globals, TestMetadata::match_package(p, backend), false))
.run_and_coalesce()
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}
/// Use mdbook to build the book
pub fn cargo_book<'c>(
globals: &Globals,
arguments: &'c Option<ExtraArguments>,
) -> Vec<FinalRunResult<'c>> {
vec![run_and_convert((
globals,
CargoCommand::Book {
arguments: arguments.clone(),
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},
false,
))]
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}
/// Run examples
///
/// Supports updating the expected output via the overwrite argument
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pub fn qemu_run_examples<'c>(
globals: &Globals,
cargoarg: &'c Option<&'c str>,
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backend: Backends,
examples: &'c [String],
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overwrite: bool,
) -> Vec<FinalRunResult<'c>> {
let target = backend.to_target();
let features = Some(target.and_features(backend.to_rtic_feature()));
into_iter(examples)
.flat_map(|example| {
let target = target.into();
let cmd_build = CargoCommand::ExampleBuild {
cargoarg: &None,
example,
target,
features: features.clone(),
mode: BuildMode::Release,
dir: Some(PathBuf::from("./rtic")),
};
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let cmd_qemu = CargoCommand::Qemu {
cargoarg,
example,
target,
features: features.clone(),
mode: BuildMode::Release,
dir: Some(PathBuf::from("./rtic")),
};
into_iter([cmd_build, cmd_qemu])
})
.map(|cmd| (globals, cmd, overwrite))
.run_and_coalesce()
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}
/// Check the binary sizes of examples
pub fn build_and_check_size<'c>(
globals: &Globals,
cargoarg: &'c Option<&'c str>,
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backend: Backends,
examples: &'c [String],
arguments: &'c Option<ExtraArguments>,
) -> Vec<FinalRunResult<'c>> {
let target = backend.to_target();
let features = Some(target.and_features(backend.to_rtic_feature()));
let runner = into_iter(examples).map(|example| {
let target = target.into();
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// Make sure the requested example(s) are built
let cmd = CargoCommand::ExampleBuild {
cargoarg: &Some("--quiet"),
example,
target,
features: features.clone(),
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mode: BuildMode::Release,
dir: Some(PathBuf::from("./rtic")),
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};
if let Err(err) = command_parser(globals, &cmd, false) {
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error!("{err}");
}
let cmd = CargoCommand::ExampleSize {
cargoarg,
example,
target,
features: features.clone(),
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mode: BuildMode::Release,
arguments: arguments.clone(),
dir: Some(PathBuf::from("./rtic")),
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};
(globals, cmd, false)
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});
runner.run_and_coalesce()
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}
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pub fn run_command(command: &CargoCommand, stderr_mode: OutputMode) -> anyhow::Result<RunResult> {
log::info!("👟 {command}");
let mut process = Command::new(command.executable());
process
.args(command.args())
.stdout(Stdio::piped())
.stderr(stderr_mode);
if let Some(dir) = command.chdir() {
process.current_dir(dir.canonicalize()?);
}
let result = process.output()?;
let exit_status = result.status;
let stderr = String::from_utf8(result.stderr).unwrap_or("Not displayable".into());
let stdout = String::from_utf8(result.stdout).unwrap_or("Not displayable".into());
if command.print_stdout_intermediate() && exit_status.success() {
log::info!("\n{}", stdout);
}
if exit_status.success() {
log::info!("✅ Success.")
} else {
log::error!("❌ Command failed. Run to completion for the summary.");
}
Ok(RunResult {
exit_status,
stdout,
stderr,
})
}
/// Check if `run` was successful.
/// returns Ok in case the run went as expected,
/// Err otherwise
pub fn run_successful(run: &RunResult, expected_output_file: &str) -> Result<(), TestRunError> {
let mut file_handle =
File::open(expected_output_file).map_err(|_| TestRunError::FileError {
file: expected_output_file.to_owned(),
})?;
let mut expected_output = String::new();
file_handle
.read_to_string(&mut expected_output)
.map_err(|_| TestRunError::FileError {
file: expected_output_file.to_owned(),
})?;
if expected_output != run.stdout {
Err(TestRunError::FileCmpError {
expected: expected_output.clone(),
got: run.stdout.clone(),
})
} else if !run.exit_status.success() {
Err(TestRunError::CommandError(run.clone()))
} else {
Ok(())
}
}
pub fn handle_results(globals: &Globals, results: Vec<FinalRunResult>) -> Result<(), ()> {
let errors = results.iter().filter_map(|r| {
if let FinalRunResult::Failed(c, r) = r {
Some((c, &r.stdout, &r.stderr))
} else {
None
}
});
let successes = results.iter().filter_map(|r| {
if let FinalRunResult::Success(c, r) = r {
Some((c, &r.stdout, &r.stderr))
} else {
None
}
});
let command_errors = results.iter().filter_map(|r| {
if let FinalRunResult::CommandError(c, e) = r {
Some((c, e))
} else {
None
}
});
let log_stdout_stderr = |level: Level| {
move |(cmd, stdout, stderr): (&CargoCommand, &String, &String)| {
let cmd = cmd.as_cmd_string();
if !stdout.is_empty() && !stderr.is_empty() {
log::log!(level, "\n{cmd}\nStdout:\n{stdout}\nStderr:\n{stderr}");
} else if !stdout.is_empty() {
log::log!(level, "\n{cmd}\nStdout:\n{}", stdout.trim_end());
} else if !stderr.is_empty() {
log::log!(level, "\n{cmd}\nStderr:\n{}", stderr.trim_end());
}
}
};
successes.for_each(|(cmd, stdout, stderr)| {
if globals.verbose > 0 {
info!("✅ Success: {cmd}\n {}", cmd.as_cmd_string());
} else {
info!("✅ Success: {cmd}");
}
log_stdout_stderr(Level::Debug)((cmd, stdout, stderr));
});
errors.clone().for_each(|(cmd, stdout, stderr)| {
error!("❌ Failed: {cmd}\n {}", cmd.as_cmd_string());
log_stdout_stderr(Level::Error)((cmd, stdout, stderr));
});
command_errors
.clone()
.for_each(|(cmd, error)| error!("❌ Failed: {cmd}\n {}\n{error}", cmd.as_cmd_string()));
let ecount = errors.count() + command_errors.count();
if ecount != 0 {
log::error!("{ecount} commands failed.");
Err(())
} else {
info!("🚀🚀🚀 All tasks succeeded 🚀🚀🚀");
Ok(())
}
}