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denoland-deno/cli/task_runner.rs

696 lines
19 KiB
Rust

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
use std::collections::HashMap;
use std::path::Path;
use std::path::PathBuf;
use std::rc::Rc;
use deno_ast::MediaType;
use deno_core::anyhow::Context;
use deno_core::error::AnyError;
use deno_core::futures;
use deno_core::futures::future::LocalBoxFuture;
use deno_runtime::deno_node::NodeResolver;
use deno_semver::package::PackageNv;
use deno_task_shell::ExecutableCommand;
use deno_task_shell::ExecuteResult;
use deno_task_shell::KillSignal;
use deno_task_shell::ShellCommand;
use deno_task_shell::ShellCommandContext;
use deno_task_shell::ShellPipeReader;
use deno_task_shell::ShellPipeWriter;
use lazy_regex::Lazy;
use regex::Regex;
use tokio::task::JoinHandle;
use tokio::task::LocalSet;
use tokio_util::sync::CancellationToken;
use crate::npm::CliNpmResolver;
use crate::npm::InnerCliNpmResolverRef;
use crate::npm::ManagedCliNpmResolver;
pub fn get_script_with_args(script: &str, argv: &[String]) -> String {
let additional_args = argv
.iter()
// surround all the additional arguments in double quotes
// and sanitize any command substitution
.map(|a| format!("\"{}\"", a.replace('"', "\\\"").replace('$', "\\$")))
.collect::<Vec<_>>()
.join(" ");
let script = format!("{script} {additional_args}");
script.trim().to_owned()
}
pub struct TaskStdio(Option<ShellPipeReader>, ShellPipeWriter);
impl TaskStdio {
pub fn stdout() -> Self {
Self(None, ShellPipeWriter::stdout())
}
pub fn stderr() -> Self {
Self(None, ShellPipeWriter::stderr())
}
pub fn piped() -> Self {
let (r, w) = deno_task_shell::pipe();
Self(Some(r), w)
}
}
pub struct TaskIo {
pub stdout: TaskStdio,
pub stderr: TaskStdio,
}
impl Default for TaskIo {
fn default() -> Self {
Self {
stdout: TaskStdio::stdout(),
stderr: TaskStdio::stderr(),
}
}
}
pub struct RunTaskOptions<'a> {
pub task_name: &'a str,
pub script: &'a str,
pub cwd: &'a Path,
pub init_cwd: &'a Path,
pub env_vars: HashMap<String, String>,
pub argv: &'a [String],
pub custom_commands: HashMap<String, Rc<dyn ShellCommand>>,
pub root_node_modules_dir: Option<&'a Path>,
pub stdio: Option<TaskIo>,
pub kill_signal: KillSignal,
}
pub type TaskCustomCommands = HashMap<String, Rc<dyn ShellCommand>>;
pub struct TaskResult {
pub exit_code: i32,
pub stdout: Option<Vec<u8>>,
pub stderr: Option<Vec<u8>>,
}
pub async fn run_task(
opts: RunTaskOptions<'_>,
) -> Result<TaskResult, AnyError> {
let script = get_script_with_args(opts.script, opts.argv);
let seq_list = deno_task_shell::parser::parse(&script)
.with_context(|| format!("Error parsing script '{}'.", opts.task_name))?;
let env_vars =
prepare_env_vars(opts.env_vars, opts.init_cwd, opts.root_node_modules_dir);
let state = deno_task_shell::ShellState::new(
env_vars,
opts.cwd,
opts.custom_commands,
opts.kill_signal,
);
let stdio = opts.stdio.unwrap_or_default();
let (
TaskStdio(stdout_read, stdout_write),
TaskStdio(stderr_read, stderr_write),
) = (stdio.stdout, stdio.stderr);
fn read(reader: ShellPipeReader) -> JoinHandle<Result<Vec<u8>, AnyError>> {
tokio::task::spawn_blocking(move || {
let mut buf = Vec::new();
reader.pipe_to(&mut buf)?;
Ok(buf)
})
}
let stdout = stdout_read.map(read);
let stderr = stderr_read.map(read);
let local = LocalSet::new();
let future = async move {
let exit_code = deno_task_shell::execute_with_pipes(
seq_list,
state,
ShellPipeReader::stdin(),
stdout_write,
stderr_write,
)
.await;
Ok::<_, AnyError>(TaskResult {
exit_code,
stdout: if let Some(stdout) = stdout {
Some(stdout.await??)
} else {
None
},
stderr: if let Some(stderr) = stderr {
Some(stderr.await??)
} else {
None
},
})
};
local.run_until(future).await
}
fn prepare_env_vars(
mut env_vars: HashMap<String, String>,
initial_cwd: &Path,
node_modules_dir: Option<&Path>,
) -> HashMap<String, String> {
const INIT_CWD_NAME: &str = "INIT_CWD";
if !env_vars.contains_key(INIT_CWD_NAME) {
// if not set, set an INIT_CWD env var that has the cwd
env_vars.insert(
INIT_CWD_NAME.to_string(),
initial_cwd.to_string_lossy().to_string(),
);
}
if !env_vars.contains_key(crate::npm::NPM_CONFIG_USER_AGENT_ENV_VAR) {
env_vars.insert(
crate::npm::NPM_CONFIG_USER_AGENT_ENV_VAR.into(),
crate::npm::get_npm_config_user_agent(),
);
}
if let Some(node_modules_dir) = node_modules_dir {
prepend_to_path(
&mut env_vars,
node_modules_dir.join(".bin").to_string_lossy().to_string(),
);
}
env_vars
}
fn prepend_to_path(env_vars: &mut HashMap<String, String>, value: String) {
match env_vars.get_mut("PATH") {
Some(path) => {
if path.is_empty() {
*path = value;
} else {
*path =
format!("{}{}{}", value, if cfg!(windows) { ";" } else { ":" }, path);
}
}
None => {
env_vars.insert("PATH".to_string(), value);
}
}
}
pub fn real_env_vars() -> HashMap<String, String> {
std::env::vars()
.map(|(k, v)| {
if cfg!(windows) {
(k.to_uppercase(), v)
} else {
(k, v)
}
})
.collect::<HashMap<String, String>>()
}
// WARNING: Do not depend on this env var in user code. It's not stable API.
pub(crate) const USE_PKG_JSON_HIDDEN_ENV_VAR_NAME: &str =
"DENO_INTERNAL_TASK_USE_PKG_JSON";
pub struct NpmCommand;
impl ShellCommand for NpmCommand {
fn execute(
&self,
mut context: ShellCommandContext,
) -> LocalBoxFuture<'static, ExecuteResult> {
if context.args.first().map(|s| s.as_str()) == Some("run")
&& context.args.len() >= 2
// for now, don't run any npm scripts that have a flag because
// we don't handle stuff like `--workspaces` properly
&& !context.args.iter().any(|s| s.starts_with('-'))
{
// run with deno task instead
let mut args = Vec::with_capacity(context.args.len());
args.push("task".to_string());
args.extend(context.args.iter().skip(1).cloned());
let mut state = context.state;
state.apply_env_var(USE_PKG_JSON_HIDDEN_ENV_VAR_NAME, "1");
return ExecutableCommand::new(
"deno".to_string(),
std::env::current_exe().unwrap(),
)
.execute(ShellCommandContext {
args,
state,
..context
});
}
// fallback to running the real npm command
let npm_path = match context.state.resolve_command_path("npm") {
Ok(path) => path,
Err(err) => {
let _ = context.stderr.write_line(&format!("{}", err));
return Box::pin(futures::future::ready(
ExecuteResult::from_exit_code(err.exit_code()),
));
}
};
ExecutableCommand::new("npm".to_string(), npm_path).execute(context)
}
}
pub struct NodeCommand;
impl ShellCommand for NodeCommand {
fn execute(
&self,
context: ShellCommandContext,
) -> LocalBoxFuture<'static, ExecuteResult> {
// run with deno if it's a simple invocation, fall back to node
// if there are extra flags
let mut args = Vec::with_capacity(context.args.len());
if context.args.len() > 1
&& (
context.args[0].starts_with('-') // has a flag
|| !matches!(
MediaType::from_str(&context.args[0]),
MediaType::Cjs | MediaType::Mjs | MediaType::JavaScript
)
// not a script file
)
{
return ExecutableCommand::new(
"node".to_string(),
"node".to_string().into(),
)
.execute(context);
}
args.extend(["run", "-A"].into_iter().map(|s| s.to_string()));
args.extend(context.args.iter().cloned());
let mut state = context.state;
state.apply_env_var(USE_PKG_JSON_HIDDEN_ENV_VAR_NAME, "1");
ExecutableCommand::new("deno".to_string(), std::env::current_exe().unwrap())
.execute(ShellCommandContext {
args,
state,
..context
})
}
}
pub struct NodeGypCommand;
impl ShellCommand for NodeGypCommand {
fn execute(
&self,
context: ShellCommandContext,
) -> LocalBoxFuture<'static, ExecuteResult> {
// at the moment this shell command is just to give a warning if node-gyp is not found
// in the future, we could try to run/install node-gyp for the user with deno
if context.state.resolve_command_path("node-gyp").is_err() {
log::warn!("{} node-gyp was used in a script, but was not listed as a dependency. Either add it as a dependency or install it globally (e.g. `npm install -g node-gyp`)", crate::colors::yellow("Warning"));
}
ExecutableCommand::new(
"node-gyp".to_string(),
"node-gyp".to_string().into(),
)
.execute(context)
}
}
pub struct NpxCommand;
impl ShellCommand for NpxCommand {
fn execute(
&self,
mut context: ShellCommandContext,
) -> LocalBoxFuture<'static, ExecuteResult> {
if let Some(first_arg) = context.args.first().cloned() {
if let Some(command) = context.state.resolve_custom_command(&first_arg) {
let context = ShellCommandContext {
args: context.args.iter().skip(1).cloned().collect::<Vec<_>>(),
..context
};
command.execute(context)
} else {
// can't find the command, so fallback to running the real npx command
let npx_path = match context.state.resolve_command_path("npx") {
Ok(npx) => npx,
Err(err) => {
let _ = context.stderr.write_line(&format!("{}", err));
return Box::pin(futures::future::ready(
ExecuteResult::from_exit_code(err.exit_code()),
));
}
};
ExecutableCommand::new("npx".to_string(), npx_path).execute(context)
}
} else {
let _ = context.stderr.write_line("npx: missing command");
Box::pin(futures::future::ready(ExecuteResult::from_exit_code(1)))
}
}
}
#[derive(Clone)]
struct NpmPackageBinCommand {
name: String,
npm_package: PackageNv,
}
impl ShellCommand for NpmPackageBinCommand {
fn execute(
&self,
context: ShellCommandContext,
) -> LocalBoxFuture<'static, ExecuteResult> {
let mut args = vec![
"run".to_string(),
"-A".to_string(),
if self.npm_package.name == self.name {
format!("npm:{}", self.npm_package)
} else {
format!("npm:{}/{}", self.npm_package, self.name)
},
];
args.extend(context.args);
let executable_command = deno_task_shell::ExecutableCommand::new(
"deno".to_string(),
std::env::current_exe().unwrap(),
);
executable_command.execute(ShellCommandContext { args, ..context })
}
}
/// Runs a module in the node_modules folder.
#[derive(Clone)]
pub struct NodeModulesFileRunCommand {
pub command_name: String,
pub path: PathBuf,
}
impl ShellCommand for NodeModulesFileRunCommand {
fn execute(
&self,
mut context: ShellCommandContext,
) -> LocalBoxFuture<'static, ExecuteResult> {
let mut args = vec![
"run".to_string(),
"--ext=js".to_string(),
"-A".to_string(),
self.path.to_string_lossy().to_string(),
];
args.extend(context.args);
let executable_command = deno_task_shell::ExecutableCommand::new(
"deno".to_string(),
std::env::current_exe().unwrap(),
);
// set this environment variable so that the launched process knows the npm command name
context
.state
.apply_env_var("DENO_INTERNAL_NPM_CMD_NAME", &self.command_name);
executable_command.execute(ShellCommandContext { args, ..context })
}
}
pub fn resolve_custom_commands(
npm_resolver: &dyn CliNpmResolver,
node_resolver: &NodeResolver,
) -> Result<HashMap<String, Rc<dyn ShellCommand>>, AnyError> {
let mut commands = match npm_resolver.as_inner() {
InnerCliNpmResolverRef::Byonm(npm_resolver) => {
let node_modules_dir = npm_resolver.root_node_modules_path().unwrap();
resolve_npm_commands_from_bin_dir(node_modules_dir)
}
InnerCliNpmResolverRef::Managed(npm_resolver) => {
resolve_managed_npm_commands(npm_resolver, node_resolver)?
}
};
commands.insert("npm".to_string(), Rc::new(NpmCommand));
Ok(commands)
}
pub fn resolve_npm_commands_from_bin_dir(
node_modules_dir: &Path,
) -> HashMap<String, Rc<dyn ShellCommand>> {
let mut result = HashMap::<String, Rc<dyn ShellCommand>>::new();
let bin_dir = node_modules_dir.join(".bin");
log::debug!("Resolving commands in '{}'.", bin_dir.display());
match std::fs::read_dir(&bin_dir) {
Ok(entries) => {
for entry in entries {
let Ok(entry) = entry else {
continue;
};
if let Some(command) = resolve_bin_dir_entry_command(entry) {
result.insert(command.command_name.clone(), Rc::new(command));
}
}
}
Err(err) => {
log::debug!("Failed read_dir for '{}': {:#}", bin_dir.display(), err);
}
}
result
}
fn resolve_bin_dir_entry_command(
entry: std::fs::DirEntry,
) -> Option<NodeModulesFileRunCommand> {
if entry.path().extension().is_some() {
return None; // only look at files without extensions (even on Windows)
}
let file_type = entry.file_type().ok()?;
let path = if file_type.is_file() {
entry.path()
} else if file_type.is_symlink() {
entry.path().canonicalize().ok()?
} else {
return None;
};
let text = std::fs::read_to_string(&path).ok()?;
let command_name = entry.file_name().to_string_lossy().to_string();
if let Some(path) = resolve_execution_path_from_npx_shim(path, &text) {
log::debug!(
"Resolved npx command '{}' to '{}'.",
command_name,
path.display()
);
Some(NodeModulesFileRunCommand { command_name, path })
} else {
log::debug!("Failed resolving npx command '{}'.", command_name);
None
}
}
/// This is not ideal, but it works ok because it allows us to bypass
/// the shebang and execute the script directly with Deno.
fn resolve_execution_path_from_npx_shim(
file_path: PathBuf,
text: &str,
) -> Option<PathBuf> {
static SCRIPT_PATH_RE: Lazy<Regex> =
lazy_regex::lazy_regex!(r#""\$basedir\/([^"]+)" "\$@""#);
let maybe_first_line = {
let index = text.find("\n")?;
Some(&text[0..index])
};
if let Some(first_line) = maybe_first_line {
// NOTE(bartlomieju): this is not perfect, but handle two most common scenarios
// where Node is run without any args. If there are args then we use `NodeCommand`
// struct.
if first_line == "#!/usr/bin/env node"
|| first_line == "#!/usr/bin/env -S node"
{
// launch this file itself because it's a JS file
return Some(file_path);
}
}
// Search for...
// > "$basedir/../next/dist/bin/next" "$@"
// ...which is what it will look like on Windows
SCRIPT_PATH_RE
.captures(text)
.and_then(|c| c.get(1))
.map(|relative_path| {
file_path.parent().unwrap().join(relative_path.as_str())
})
}
fn resolve_managed_npm_commands(
npm_resolver: &ManagedCliNpmResolver,
node_resolver: &NodeResolver,
) -> Result<HashMap<String, Rc<dyn ShellCommand>>, AnyError> {
let mut result = HashMap::new();
let snapshot = npm_resolver.snapshot();
for id in snapshot.top_level_packages() {
let package_folder = npm_resolver.resolve_pkg_folder_from_pkg_id(id)?;
let bin_commands =
node_resolver.resolve_binary_commands(&package_folder)?;
for bin_command in bin_commands {
result.insert(
bin_command.to_string(),
Rc::new(NpmPackageBinCommand {
name: bin_command,
npm_package: id.nv.clone(),
}) as Rc<dyn ShellCommand>,
);
}
}
if !result.contains_key("npx") {
result.insert("npx".to_string(), Rc::new(NpxCommand));
}
Ok(result)
}
/// Runs a deno task future forwarding any signals received
/// to the process.
///
/// Signal listeners and ctrl+c listening will be setup.
pub async fn run_future_forwarding_signals<TOutput>(
kill_signal: KillSignal,
future: impl std::future::Future<Output = TOutput>,
) -> TOutput {
fn spawn_future_with_cancellation(
future: impl std::future::Future<Output = ()> + 'static,
token: CancellationToken,
) {
deno_core::unsync::spawn(async move {
tokio::select! {
_ = future => {}
_ = token.cancelled() => {}
}
});
}
let token = CancellationToken::new();
let _token_drop_guard = token.clone().drop_guard();
let _drop_guard = kill_signal.clone().drop_guard();
spawn_future_with_cancellation(
listen_ctrl_c(kill_signal.clone()),
token.clone(),
);
#[cfg(unix)]
spawn_future_with_cancellation(
listen_and_forward_all_signals(kill_signal),
token,
);
future.await
}
async fn listen_ctrl_c(kill_signal: KillSignal) {
while let Ok(()) = tokio::signal::ctrl_c().await {
kill_signal.send(deno_task_shell::SignalKind::SIGINT)
}
}
#[cfg(unix)]
async fn listen_and_forward_all_signals(kill_signal: KillSignal) {
use deno_core::futures::FutureExt;
use deno_runtime::signal::SIGNAL_NUMS;
// listen and forward every signal we support
let mut futures = Vec::with_capacity(SIGNAL_NUMS.len());
for signo in SIGNAL_NUMS.iter().copied() {
if signo == libc::SIGKILL || signo == libc::SIGSTOP {
continue; // skip, can't listen to these
}
let kill_signal = kill_signal.clone();
futures.push(
async move {
let Ok(mut stream) = tokio::signal::unix::signal(
tokio::signal::unix::SignalKind::from_raw(signo),
) else {
return;
};
let signal_kind: deno_task_shell::SignalKind = signo.into();
while let Some(()) = stream.recv().await {
kill_signal.send(signal_kind);
}
}
.boxed_local(),
)
}
futures::future::join_all(futures).await;
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_prepend_to_path() {
let mut env_vars = HashMap::new();
prepend_to_path(&mut env_vars, "/example".to_string());
assert_eq!(
env_vars,
HashMap::from([("PATH".to_string(), "/example".to_string())])
);
prepend_to_path(&mut env_vars, "/example2".to_string());
let separator = if cfg!(windows) { ";" } else { ":" };
assert_eq!(
env_vars,
HashMap::from([(
"PATH".to_string(),
format!("/example2{}/example", separator)
)])
);
env_vars.get_mut("PATH").unwrap().clear();
prepend_to_path(&mut env_vars, "/example".to_string());
assert_eq!(
env_vars,
HashMap::from([("PATH".to_string(), "/example".to_string())])
);
}
#[test]
fn test_resolve_execution_path_from_npx_shim() {
// example shim on unix
let unix_shim = r#"#!/usr/bin/env node
"use strict";
console.log('Hi!');
"#;
let path = PathBuf::from("/node_modules/.bin/example");
assert_eq!(
resolve_execution_path_from_npx_shim(path.clone(), unix_shim).unwrap(),
path
);
// example shim on unix
let unix_shim = r#"#!/usr/bin/env -S node
"use strict";
console.log('Hi!');
"#;
let path = PathBuf::from("/node_modules/.bin/example");
assert_eq!(
resolve_execution_path_from_npx_shim(path.clone(), unix_shim).unwrap(),
path
);
// example shim on windows
let windows_shim = r#"#!/bin/sh
basedir=$(dirname "$(echo "$0" | sed -e 's,\\,/,g')")
case `uname` in
*CYGWIN*|*MINGW*|*MSYS*) basedir=`cygpath -w "$basedir"`;;
esac
if [ -x "$basedir/node" ]; then
exec "$basedir/node" "$basedir/../example/bin/example" "$@"
else
exec node "$basedir/../example/bin/example" "$@"
fi"#;
assert_eq!(
resolve_execution_path_from_npx_shim(path.clone(), windows_shim).unwrap(),
path.parent().unwrap().join("../example/bin/example")
);
}
}