use crate::common::*; use std::process::{ExitStatus, Stdio}; /// Return a `RuntimeError::Signal` if the process was terminated by a signal, /// otherwise return an `RuntimeError::UnknownFailure` fn error_from_signal( recipe: &str, line_number: Option, exit_status: ExitStatus, ) -> RuntimeError { match Platform::signal_from_exit_status(exit_status) { Some(signal) => RuntimeError::Signal { recipe, line_number, signal, }, None => RuntimeError::Unknown { recipe, line_number, }, } } /// A recipe, e.g. `foo: bar baz` #[derive(PartialEq, Debug)] pub(crate) struct Recipe<'src, D = Dependency<'src>> { pub(crate) dependencies: Vec, pub(crate) doc: Option<&'src str>, pub(crate) body: Vec>, pub(crate) name: Name<'src>, pub(crate) parameters: Vec>, pub(crate) private: bool, pub(crate) quiet: bool, pub(crate) shebang: bool, } impl<'src, D> Recipe<'src, D> { pub(crate) fn argument_range(&self) -> RangeInclusive { self.min_arguments()..=self.max_arguments() } pub(crate) fn min_arguments(&self) -> usize { self .parameters .iter() .filter(|p| p.default.is_none()) .count() } pub(crate) fn max_arguments(&self) -> usize { if self.parameters.iter().any(|p| p.variadic) { usize::max_value() - 1 } else { self.parameters.len() } } pub(crate) fn name(&self) -> &'src str { self.name.lexeme() } pub(crate) fn line_number(&self) -> usize { self.name.line } pub(crate) fn run<'run>( &self, context: &RecipeContext<'src, 'run>, dotenv: &BTreeMap, scope: Scope<'src, 'run>, search: &'run Search, ) -> RunResult<'src, ()> { let config = &context.config; if config.verbosity.loquacious() { let color = config.color.stderr().banner(); eprintln!( "{}===> Running recipe `{}`...{}", color.prefix(), self.name, color.suffix() ); } let mut evaluator = Evaluator::recipe_evaluator(context.config, dotenv, &scope, context.settings, search); if self.shebang { let mut evaluated_lines = vec![]; for line in &self.body { evaluated_lines.push(evaluator.evaluate_line(line)?); } if config.dry_run || self.quiet { for line in &evaluated_lines { eprintln!("{}", line); } } if config.dry_run { return Ok(()); } let tmp = tempfile::Builder::new() .prefix("just") .tempdir() .map_err(|error| RuntimeError::TmpdirIoError { recipe: self.name(), io_error: error, })?; let mut path = tmp.path().to_path_buf(); path.push(self.name()); { let mut f = fs::File::create(&path).map_err(|error| RuntimeError::TmpdirIoError { recipe: self.name(), io_error: error, })?; let mut text = String::new(); // add the shebang text += &evaluated_lines[0]; text += "\n"; // add blank lines so that lines in the generated script have the same line // number as the corresponding lines in the justfile for _ in 1..(self.line_number() + 2) { text += "\n" } for line in &evaluated_lines[1..] { text += line; text += "\n"; } if config.verbosity.grandiloquent() { eprintln!("{}", config.color.doc().stderr().paint(&text)); } f.write_all(text.as_bytes()) .map_err(|error| RuntimeError::TmpdirIoError { recipe: self.name(), io_error: error, })?; } // make the script executable Platform::set_execute_permission(&path).map_err(|error| RuntimeError::TmpdirIoError { recipe: self.name(), io_error: error, })?; let shebang_line = evaluated_lines .first() .ok_or_else(|| RuntimeError::Internal { message: "evaluated_lines was empty".to_string(), })?; let Shebang { interpreter, argument, } = Shebang::new(shebang_line).ok_or_else(|| RuntimeError::Internal { message: format!("bad shebang line: {}", shebang_line), })?; // create a command to run the script let mut command = Platform::make_shebang_command( &path, &context.search.working_directory, interpreter, argument, ) .map_err(|output_error| RuntimeError::Cygpath { recipe: self.name(), output_error, })?; command.export(dotenv, &scope); // run it! match InterruptHandler::guard(|| command.status()) { Ok(exit_status) => if let Some(code) = exit_status.code() { if code != 0 { return Err(RuntimeError::Code { recipe: self.name(), line_number: None, code, }); } } else { return Err(error_from_signal(self.name(), None, exit_status)); }, Err(io_error) => { return Err(RuntimeError::Shebang { recipe: self.name(), command: interpreter.to_string(), argument: argument.map(String::from), io_error, }); }, }; } else { let mut lines = self.body.iter().peekable(); let mut line_number = self.line_number() + 1; loop { if lines.peek().is_none() { break; } let mut evaluated = String::new(); loop { if lines.peek().is_none() { break; } let line = lines.next().unwrap(); line_number += 1; evaluated += &evaluator.evaluate_line(line)?; if line.is_continuation() { evaluated.pop(); } else { break; } } let mut command = evaluated.as_str(); let quiet_command = command.starts_with('@'); if quiet_command { command = &command[1..]; } if command == "" { continue; } if config.dry_run || config.verbosity.loquacious() || !((quiet_command ^ self.quiet) || config.quiet) { let color = if config.highlight { config.color.command() } else { config.color }; eprintln!("{}", color.stderr().paint(command)); } if config.dry_run { continue; } let mut cmd = context.settings.shell_command(config); cmd.current_dir(&context.search.working_directory); cmd.arg(command); if config.quiet { cmd.stderr(Stdio::null()); cmd.stdout(Stdio::null()); } cmd.export(dotenv, &scope); match InterruptHandler::guard(|| cmd.status()) { Ok(exit_status) => if let Some(code) = exit_status.code() { if code != 0 { return Err(RuntimeError::Code { recipe: self.name(), line_number: Some(line_number), code, }); } } else { return Err(error_from_signal( self.name(), Some(line_number), exit_status, )); }, Err(io_error) => { return Err(RuntimeError::IoError { recipe: self.name(), io_error, }); }, }; } } Ok(()) } } impl<'src, D> Keyed<'src> for Recipe<'src, D> { fn key(&self) -> &'src str { self.name.lexeme() } } impl<'src> Display for Recipe<'src> { fn fmt(&self, f: &mut Formatter) -> Result<(), fmt::Error> { if let Some(doc) = self.doc { writeln!(f, "# {}", doc)?; } if self.quiet { write!(f, "@{}", self.name)?; } else { write!(f, "{}", self.name)?; } for parameter in &self.parameters { write!(f, " {}", parameter)?; } write!(f, ":")?; for dependency in &self.dependencies { write!(f, " {}", dependency)?; } for (i, line) in self.body.iter().enumerate() { if i == 0 { writeln!(f)?; } for (j, fragment) in line.fragments.iter().enumerate() { if j == 0 { write!(f, " ")?; } match fragment { Fragment::Text { token } => write!(f, "{}", token.lexeme())?, Fragment::Interpolation { expression, .. } => write!(f, "{{{{{}}}}}", expression)?, } } if i + 1 < self.body.len() { writeln!(f)?; } } Ok(()) } }