rtic/xtask/src/argument_parsing.rs
2023-04-23 21:46:47 +02:00

434 lines
13 KiB
Rust

use crate::{cargo_command::CargoCommand, Target, ARMV6M, ARMV7M, ARMV8MBASE, ARMV8MMAIN};
use clap::{Args, Parser, Subcommand};
use core::fmt;
#[derive(clap::ValueEnum, Copy, Clone, Debug)]
pub enum Package {
Rtic,
RticCommon,
RticMacros,
RticMonotonics,
RticSync,
RticTime,
}
impl fmt::Display for Package {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{}", self.name())
}
}
impl Package {
pub fn name(&self) -> String {
let name = match self {
Package::Rtic => "rtic",
Package::RticCommon => "rtic-common",
Package::RticMacros => "rtic-macros",
Package::RticMonotonics => "rtic-monotonics",
Package::RticSync => "rtic-sync",
Package::RticTime => "rtic-time",
};
name.to_string()
}
pub fn all() -> Vec<Self> {
vec![
Self::Rtic,
Self::RticCommon,
Self::RticMacros,
Self::RticMonotonics,
Self::RticSync,
Self::RticTime,
]
}
/// Get the features needed given the selected package
///
/// Without package specified the features for RTIC are required
/// With only a single package which is not RTIC, no special
/// features are needed
pub fn features(
&self,
target: Target,
backend: Backends,
partial: bool,
) -> Vec<Option<String>> {
match self {
Package::Rtic => vec![Some(target.and_features(backend.to_rtic_feature()))],
Package::RticMacros => {
vec![Some(backend.to_rtic_macros_feature().to_string())]
}
Package::RticMonotonics => {
let features = if partial {
&["cortex-m-systick", "rp2040", "nrf52840"][..]
} else {
&[
"cortex-m-systick,embedded-hal-async",
"cortex-m-systick,systick-100hz,embedded-hal-async",
"cortex-m-systick,systick-10khz,embedded-hal-async",
"rp2040,embedded-hal-async",
"nrf52810,embedded-hal-async",
"nrf52811,embedded-hal-async",
"nrf52832,embedded-hal-async",
"nrf52833,embedded-hal-async",
"nrf52840,embedded-hal-async",
"nrf5340-app,embedded-hal-async",
"nrf5340-net,embedded-hal-async",
"nrf9160,embedded-hal-async",
][..]
};
features
.into_iter()
.map(ToString::to_string)
.map(Some)
.chain(std::iter::once(None))
.collect()
}
_ => vec![None],
}
}
}
pub struct TestMetadata {}
impl TestMetadata {
pub fn match_package(package: Package, backend: Backends) -> CargoCommand<'static> {
match package {
Package::Rtic => {
let features = format!(
"{},{}",
backend.to_rtic_feature(),
backend.to_rtic_uitest_feature()
);
let features = Some(backend.to_target().and_features(&features));
CargoCommand::Test {
package: Some(package.name()),
features,
test: Some("ui".to_owned()),
deny_warnings: true,
}
}
Package::RticMacros => CargoCommand::Test {
package: Some(package.name()),
features: Some(backend.to_rtic_macros_feature().to_owned()),
test: None,
deny_warnings: true,
},
Package::RticSync => CargoCommand::Test {
package: Some(package.name()),
features: Some("testing".to_owned()),
test: None,
deny_warnings: true,
},
Package::RticCommon => CargoCommand::Test {
package: Some(package.name()),
features: Some("testing".to_owned()),
test: None,
deny_warnings: true,
},
Package::RticMonotonics => CargoCommand::Test {
package: Some(package.name()),
features: None,
test: None,
deny_warnings: true,
},
Package::RticTime => CargoCommand::Test {
package: Some(package.name()),
features: Some("critical-section/std".into()),
test: None,
deny_warnings: true,
},
}
}
}
#[derive(clap::ValueEnum, Copy, Clone, Default, Debug)]
pub enum Backends {
Thumbv6,
#[default]
Thumbv7,
Thumbv8Base,
Thumbv8Main,
}
impl Backends {
#[allow(clippy::wrong_self_convention)]
pub fn to_target(&self) -> Target<'static> {
match self {
Backends::Thumbv6 => ARMV6M,
Backends::Thumbv7 => ARMV7M,
Backends::Thumbv8Base => ARMV8MBASE,
Backends::Thumbv8Main => ARMV8MMAIN,
}
}
#[allow(clippy::wrong_self_convention)]
pub fn to_rtic_feature(&self) -> &'static str {
match self {
Backends::Thumbv6 => "thumbv6-backend",
Backends::Thumbv7 => "thumbv7-backend",
Backends::Thumbv8Base => "thumbv8base-backend",
Backends::Thumbv8Main => "thumbv8main-backend",
}
}
#[allow(clippy::wrong_self_convention)]
pub fn to_rtic_macros_feature(&self) -> &'static str {
match self {
Backends::Thumbv6 | Backends::Thumbv8Base => "cortex-m-source-masking",
Backends::Thumbv7 | Backends::Thumbv8Main => "cortex-m-basepri",
}
}
#[allow(clippy::wrong_self_convention)]
pub fn to_rtic_uitest_feature(&self) -> &'static str {
match self {
Backends::Thumbv6 | Backends::Thumbv8Base => "rtic-uitestv6",
Backends::Thumbv7 | Backends::Thumbv8Main => "rtic-uitestv7",
}
}
}
#[derive(Copy, Clone, Default, Debug)]
pub enum BuildOrCheck {
#[default]
Check,
Build,
}
#[derive(Parser, Clone)]
pub struct Globals {
/// Error out on warnings
#[arg(short = 'D', long)]
pub deny_warnings: bool,
/// For which backend to build.
#[arg(value_enum, short, default_value = "thumbv7", long, global = true)]
pub backend: Option<Backends>,
/// List of comma separated examples to include, all others are excluded
///
/// If omitted all examples are included
///
/// Example: `cargo xtask --example complex,spawn,init`
/// would include complex, spawn and init
#[arg(short, long, group = "example_group", global = true)]
pub example: Option<String>,
/// List of comma separated examples to exclude, all others are included
///
/// If omitted all examples are included
///
/// Example: `cargo xtask --excludeexample complex,spawn,init`
/// would exclude complex, spawn and init
#[arg(long, group = "example_group", global = true)]
pub exampleexclude: Option<String>,
/// Enable more verbose output, repeat up to `-vvv` for even more
#[arg(short, long, action = clap::ArgAction::Count, global = true)]
pub verbose: u8,
/// Enable `stderr` inheritance on child processes.
///
/// If this flag is enabled, the output of `stderr` produced by child
/// processes is printed directly to `stderr`. This will cause a lot of
/// clutter, but can make debugging long-running processes a lot easier.
#[arg(short, long, global = true)]
pub stderr_inherited: bool,
/// Don't build/check/test all feature combinations that are available, only
/// a necessary subset.
#[arg(long, global = true)]
pub partial: bool,
}
#[derive(Parser)]
#[command(author, version, about, long_about = None)]
/// RTIC xtask powered testing toolbox
pub struct Cli {
#[clap(flatten)]
pub globals: Globals,
/// Subcommand selecting operation
#[command(subcommand)]
pub command: Commands,
}
#[derive(Debug, Clone, Subcommand)]
pub enum Commands {
/// Format code
#[clap(alias = "fmt")]
Format(FormatOpt),
/// Run clippy
Clippy(PackageOpt),
/// Check all packages
Check(PackageOpt),
/// Build all packages
Build(PackageOpt),
/// Check all examples
ExampleCheck,
/// Build all examples
ExampleBuild,
/// Run `cargo size` on selected or all examples
///
/// To pass options to `cargo size`, add `--` and then the following
/// arguments will be passed on
///
/// Example: `cargo xtask size -- -A`
Size(Arg),
/// Run examples in QEMU and compare against expected output
///
/// Example runtime output is matched against `rtic/ci/expected/`
///
/// Requires that an ARM target is selected
Qemu(QemuAndRun),
/// Run examples through embedded-ci and compare against expected output
///
/// unimplemented!() For now TODO, equal to Qemu
///
/// Example runtime output is matched against `rtic/ci/expected/`
///
/// Requires that an ARM target is selected
Run(QemuAndRun),
/// Build docs
///
/// To pass options to `cargo doc`, add `--` and then the following
/// arguments will be passed on
///
/// Example: `cargo xtask doc -- --open`
Doc(Arg),
/// Run tests
Test(PackageOpt),
/// Build books with mdbook
Book(Arg),
/// Check one or more usage examples.
///
/// Usage examples are located in ./examples
UsageExampleCheck(UsageExamplesOpt),
/// Build one or more usage examples.
///
/// Usage examples are located in ./examples
#[clap(alias = "./examples")]
UsageExampleBuild(UsageExamplesOpt),
}
#[derive(Args, Clone, Debug)]
pub struct UsageExamplesOpt {
/// The usage examples to build. All usage examples are selected if this argument is not provided.
///
/// Example: `rp2040_local_i2c_init,stm32f3_blinky`.
examples: Option<String>,
}
impl UsageExamplesOpt {
pub fn examples(&self) -> anyhow::Result<Vec<String>> {
let usage_examples: Vec<_> = std::fs::read_dir("./examples")?
.filter_map(Result::ok)
.filter(|p| p.metadata().ok().map(|p| p.is_dir()).unwrap_or(false))
.filter_map(|p| p.file_name().to_str().map(ToString::to_string))
.collect();
let selected_examples: Option<Vec<String>> = self
.examples
.clone()
.map(|s| s.split(",").map(ToString::to_string).collect());
if let Some(selected_examples) = selected_examples {
if let Some(unfound_example) = selected_examples
.iter()
.find(|e| !usage_examples.contains(e))
{
Err(anyhow::anyhow!(
"Usage example {unfound_example} does not exist"
))
} else {
Ok(selected_examples)
}
} else {
Ok(usage_examples)
}
}
}
#[derive(Args, Debug, Clone)]
pub struct FormatOpt {
#[clap(flatten)]
pub package: PackageOpt,
/// Check-only, do not apply formatting fixes.
#[clap(short, long)]
pub check: bool,
}
#[derive(Args, Debug, Clone)]
/// Restrict to package, or run on whole workspace
pub struct PackageOpt {
/// For which package/workspace member to operate
///
/// If omitted, work on all
package: Option<Package>,
}
impl PackageOpt {
#[cfg(not(feature = "rayon"))]
pub fn packages(&self) -> impl Iterator<Item = Package> {
self.package
.map(|p| vec![p])
.unwrap_or(Package::all())
.into_iter()
}
#[cfg(feature = "rayon")]
pub fn packages(&self) -> impl rayon::prelude::ParallelIterator<Item = Package> {
use rayon::prelude::*;
self.package
.map(|p| vec![p])
.unwrap_or(Package::all())
.into_par_iter()
}
}
#[derive(Args, Debug, Clone)]
pub struct QemuAndRun {
/// If expected output is missing or mismatching, recreate the file
///
/// This overwrites only missing or mismatching
#[arg(long)]
pub overwrite_expected: bool,
}
#[derive(Debug, Parser, Clone)]
pub struct Arg {
/// Options to pass to `cargo size`
#[command(subcommand)]
pub arguments: Option<ExtraArguments>,
}
#[derive(Clone, Debug, PartialEq, Parser)]
pub enum ExtraArguments {
/// All remaining flags and options
#[command(external_subcommand)]
Other(Vec<String>),
}
impl core::fmt::Display for ExtraArguments {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
ExtraArguments::Other(args) => {
write!(f, "{}", args.join(" "))
}
}
}
}