mod argument_parsing; mod build; mod cargo_commands; mod command; use anyhow::bail; use argument_parsing::{ExtraArguments, Package}; use clap::Parser; use core::fmt; use diffy::{create_patch, PatchFormatter}; use std::{ error::Error, ffi::OsString, fs::File, io::prelude::*, path::{Path, PathBuf}, process, process::ExitStatus, str, }; use env_logger::Env; use log::{debug, error, info, log_enabled, trace, Level}; use crate::{ argument_parsing::{Backends, BuildOrCheck, Cli, Commands, PackageOpt}, build::init_build_dir, cargo_commands::{ build_and_check_size, cargo, cargo_book, cargo_clippy, cargo_doc, cargo_example, cargo_format, cargo_test, run_test, }, command::{run_command, run_successful, CargoCommand}, }; // x86_64-unknown-linux-gnu const _X86_64: &str = "x86_64-unknown-linux-gnu"; const ARMV6M: &str = "thumbv6m-none-eabi"; const ARMV7M: &str = "thumbv7m-none-eabi"; const ARMV8MBASE: &str = "thumbv8m.base-none-eabi"; const ARMV8MMAIN: &str = "thumbv8m.main-none-eabi"; const DEFAULT_FEATURES: &str = "test-critical-section"; #[derive(Debug, Clone)] pub struct RunResult { exit_status: ExitStatus, stdout: String, stderr: String, } #[derive(Debug)] pub enum TestRunError { FileCmpError { expected: String, got: String }, FileError { file: String }, PathConversionError(OsString), CommandError(RunResult), IncompatibleCommand, } impl fmt::Display for TestRunError { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { TestRunError::FileCmpError { expected, got } => { let patch = create_patch(expected, got); writeln!(f, "Differing output in files.\n")?; let pf = PatchFormatter::new().with_color(); writeln!(f, "{}", pf.fmt_patch(&patch))?; write!( f, "See flag --overwrite-expected to create/update expected output." ) } TestRunError::FileError { file } => { write!(f, "File error on: {file}\nSee flag --overwrite-expected to create/update expected output.") } TestRunError::CommandError(e) => { write!( f, "Command failed with exit status {}: {}", e.exit_status, e.stdout ) } TestRunError::PathConversionError(p) => { write!(f, "Can't convert path from `OsString` to `String`: {p:?}") } TestRunError::IncompatibleCommand => { write!(f, "Can't run that command in this context") } } } } impl Error for TestRunError {} fn main() -> anyhow::Result<()> { // if there's an `xtask` folder, we're *probably* at the root of this repo (we can't just // check the name of `env::current_dir()` because people might clone it into a different name) let probably_running_from_repo_root = Path::new("./xtask").exists(); if !probably_running_from_repo_root { bail!("xtasks can only be executed from the root of the `rtic` repository"); } let examples: Vec<_> = std::fs::read_dir("./rtic/examples")? .filter_map(|p| p.ok()) .map(|p| p.path()) .filter(|p| p.display().to_string().ends_with(".rs")) .map(|path| path.file_stem().unwrap().to_str().unwrap().to_string()) .collect(); let cli = Cli::parse(); let env_logger_default_level = match cli.verbose { 0 => Env::default().default_filter_or("info"), 1 => Env::default().default_filter_or("debug"), _ => Env::default().default_filter_or("trace"), }; env_logger::Builder::from_env(env_logger_default_level) .format_module_path(false) .format_timestamp(None) .init(); trace!("default logging level: {0}", cli.verbose); let backend = if let Some(backend) = cli.backend { backend } else { Backends::default() }; let example = cli.example; let exampleexclude = cli.exampleexclude; let examples_to_run = { let mut examples_to_run = examples.clone(); if let Some(example) = example { examples_to_run = examples.clone(); let examples_to_exclude = example.split(',').collect::>(); // From the list of all examples, remove all not listed as included for ex in examples_to_exclude { examples_to_run.retain(|x| *x.as_str() == *ex); } }; if let Some(example) = exampleexclude { examples_to_run = examples.clone(); let examples_to_exclude = example.split(',').collect::>(); // From the list of all examples, remove all those listed as excluded for ex in examples_to_exclude { examples_to_run.retain(|x| *x.as_str() != *ex); } }; if log_enabled!(Level::Trace) { trace!("All examples:\n{examples:?} number: {}", examples.len()); trace!( "examples_to_run:\n{examples_to_run:?} number: {}", examples_to_run.len() ); } if examples_to_run.is_empty() { error!( "\nThe example(s) you specified is not available. Available examples are:\ \n{examples:#?}\n\ By default if example flag is emitted, all examples are tested.", ); process::exit(exitcode::USAGE); } else { } examples_to_run }; init_build_dir()?; #[allow(clippy::if_same_then_else)] let cargologlevel = if log_enabled!(Level::Trace) { Some("-v") } else if log_enabled!(Level::Debug) { None } else if log_enabled!(Level::Info) { None } else if log_enabled!(Level::Warn) || log_enabled!(Level::Error) { None } else { // Off case Some("--quiet") }; match cli.command { Commands::FormatCheck(args) => { info!("Running cargo fmt --check: {args:?}"); let check_only = true; cargo_format(&cargologlevel, &args, check_only)?; } Commands::Format(args) => { info!("Running cargo fmt: {args:?}"); let check_only = false; cargo_format(&cargologlevel, &args, check_only)?; } Commands::Clippy(args) => { info!("Running clippy on backend: {backend:?}"); cargo_clippy(&cargologlevel, &args, backend)?; } Commands::Check(args) => { info!("Checking on backend: {backend:?}"); cargo(BuildOrCheck::Check, &cargologlevel, &args, backend)?; } Commands::Build(args) => { info!("Building for backend: {backend:?}"); cargo(BuildOrCheck::Build, &cargologlevel, &args, backend)?; } Commands::ExampleCheck => { info!("Checking on backend: {backend:?}"); cargo_example( BuildOrCheck::Check, &cargologlevel, backend, &examples_to_run, )?; } Commands::ExampleBuild => { info!("Building for backend: {backend:?}"); cargo_example( BuildOrCheck::Build, &cargologlevel, backend, &examples_to_run, )?; } Commands::Size(args) => { // x86_64 target not valid info!("Measuring for backend: {backend:?}"); build_and_check_size(&cargologlevel, backend, &examples_to_run, &args.arguments)?; } Commands::Qemu(args) | Commands::Run(args) => { // x86_64 target not valid info!("Testing for backend: {backend:?}"); run_test( &cargologlevel, backend, &examples_to_run, args.overwrite_expected, )?; } Commands::Doc(args) => { info!("Running cargo doc on backend: {backend:?}"); cargo_doc(&cargologlevel, backend, &args.arguments)?; } Commands::Test(args) => { info!("Running cargo test on backend: {backend:?}"); cargo_test(&args, backend)?; } Commands::Book(args) => { info!("Running mdbook"); cargo_book(&args.arguments)?; } } Ok(()) } /// 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 fn package_feature_extractor(package: &PackageOpt, backend: Backends) -> Option { let default_features = Some(format!( "{},{}", DEFAULT_FEATURES, backend.to_rtic_feature() )); if let Some(package) = package.package { debug!("\nTesting package: {package}"); match package { Package::Rtic => default_features, Package::RticMacros => Some(backend.to_rtic_macros_feature().to_owned()), _ => None, } } else { default_features } } // run example binary `example` fn command_parser(command: &CargoCommand, overwrite: bool) -> anyhow::Result<()> { match *command { CargoCommand::Qemu { example, .. } | CargoCommand::Run { example, .. } => { let run_file = format!("{example}.run"); let expected_output_file = ["rtic", "ci", "expected", &run_file] .iter() .collect::() .into_os_string() .into_string() .map_err(TestRunError::PathConversionError)?; // cargo run <..> info!("Running example: {example}"); let cargo_run_result = run_command(command)?; info!("{}", cargo_run_result.stdout); // Create a file for the expected output if it does not exist or mismatches if overwrite { let result = run_successful(&cargo_run_result, &expected_output_file); if let Err(e) = result { // FileError means the file did not exist or was unreadable error!("Error: {e}"); let mut file_handle = File::create(&expected_output_file).map_err(|_| { TestRunError::FileError { file: expected_output_file.clone(), } })?; info!("Flag --overwrite-expected enabled"); info!("Creating/updating file: {expected_output_file}"); file_handle.write_all(cargo_run_result.stdout.as_bytes())?; }; } else { run_successful(&cargo_run_result, &expected_output_file)?; } Ok(()) } CargoCommand::Format { .. } | CargoCommand::ExampleCheck { .. } | CargoCommand::ExampleBuild { .. } | CargoCommand::Check { .. } | CargoCommand::Build { .. } | CargoCommand::Clippy { .. } | CargoCommand::Doc { .. } | CargoCommand::Test { .. } | CargoCommand::Book { .. } | CargoCommand::ExampleSize { .. } => { let cargo_result = run_command(command)?; if let Some(exit_code) = cargo_result.exit_status.code() { if exit_code != exitcode::OK { error!("Exit code from command: {exit_code}"); if !cargo_result.stdout.is_empty() { info!("{}", cargo_result.stdout); } if !cargo_result.stderr.is_empty() { error!("{}", cargo_result.stderr); } process::exit(exit_code); } else { if !cargo_result.stdout.is_empty() { info!("{}", cargo_result.stdout); } if !cargo_result.stderr.is_empty() { info!("{}", cargo_result.stderr); } } } Ok(()) } } }