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|
//! Workspace information we get from cargo consists of two pieces. The first is
//! the output of `cargo metadata`. The second is the output of running
//! `build.rs` files (`OUT_DIR` env var, extra cfg flags) and compiling proc
//! macro.
//!
//! This module implements this second part. We use "build script" terminology
//! here, but it covers procedural macros as well.
use std::{
cell::RefCell,
io, mem,
path::{self, PathBuf},
process::Command,
};
use cargo_metadata::{camino::Utf8Path, Message};
use la_arena::ArenaMap;
use paths::AbsPathBuf;
use rustc_hash::FxHashMap;
use semver::Version;
use serde::Deserialize;
use crate::{
cfg_flag::CfgFlag, CargoConfig, CargoFeatures, CargoWorkspace, InvocationLocation,
InvocationStrategy, Package,
};
#[derive(Debug, Default, Clone, PartialEq, Eq)]
pub struct WorkspaceBuildScripts {
outputs: ArenaMap<Package, BuildScriptOutput>,
error: Option<String>,
}
#[derive(Debug, Clone, Default, PartialEq, Eq)]
pub(crate) struct BuildScriptOutput {
/// List of config flags defined by this package's build script.
pub(crate) cfgs: Vec<CfgFlag>,
/// List of cargo-related environment variables with their value.
///
/// If the package has a build script which defines environment variables,
/// they can also be found here.
pub(crate) envs: Vec<(String, String)>,
/// Directory where a build script might place its output.
pub(crate) out_dir: Option<AbsPathBuf>,
/// Path to the proc-macro library file if this package exposes proc-macros.
pub(crate) proc_macro_dylib_path: Option<AbsPathBuf>,
}
impl BuildScriptOutput {
fn is_unchanged(&self) -> bool {
self.cfgs.is_empty()
&& self.envs.is_empty()
&& self.out_dir.is_none()
&& self.proc_macro_dylib_path.is_none()
}
}
impl WorkspaceBuildScripts {
fn build_command(config: &CargoConfig) -> io::Result<Command> {
let mut cmd = match config.run_build_script_command.as_deref() {
Some([program, args @ ..]) => {
let mut cmd = Command::new(program);
cmd.args(args);
cmd
}
_ => {
let mut cmd = Command::new(toolchain::cargo());
cmd.args(&["check", "--quiet", "--workspace", "--message-format=json"]);
// --all-targets includes tests, benches and examples in addition to the
// default lib and bins. This is an independent concept from the --targets
// flag below.
cmd.arg("--all-targets");
if let Some(target) = &config.target {
cmd.args(&["--target", target]);
}
match &config.features {
CargoFeatures::All => {
cmd.arg("--all-features");
}
CargoFeatures::Selected { features, no_default_features } => {
if *no_default_features {
cmd.arg("--no-default-features");
}
if !features.is_empty() {
cmd.arg("--features");
cmd.arg(features.join(" "));
}
}
}
cmd
}
};
cmd.envs(&config.extra_env);
if config.wrap_rustc_in_build_scripts {
// Setup RUSTC_WRAPPER to point to `rust-analyzer` binary itself. We use
// that to compile only proc macros and build scripts during the initial
// `cargo check`.
let myself = std::env::current_exe()?;
cmd.env("RUSTC_WRAPPER", myself);
cmd.env("RA_RUSTC_WRAPPER", "1");
}
Ok(cmd)
}
/// Runs the build scripts for the given workspace
pub(crate) fn run_for_workspace(
config: &CargoConfig,
workspace: &CargoWorkspace,
progress: &dyn Fn(String),
toolchain: &Option<Version>,
) -> io::Result<WorkspaceBuildScripts> {
const RUST_1_62: Version = Version::new(1, 62, 0);
let current_dir = match &config.invocation_location {
InvocationLocation::Root(root) if config.run_build_script_command.is_some() => {
root.as_path()
}
_ => &workspace.workspace_root(),
}
.as_ref();
match Self::run_per_ws(Self::build_command(config)?, workspace, current_dir, progress) {
Ok(WorkspaceBuildScripts { error: Some(error), .. })
if toolchain.as_ref().map_or(false, |it| *it >= RUST_1_62) =>
{
// building build scripts failed, attempt to build with --keep-going so
// that we potentially get more build data
let mut cmd = Self::build_command(config)?;
cmd.args(&["-Z", "unstable-options", "--keep-going"]).env("RUSTC_BOOTSTRAP", "1");
let mut res = Self::run_per_ws(cmd, workspace, current_dir, progress)?;
res.error = Some(error);
Ok(res)
}
res => res,
}
}
/// Runs the build scripts by invoking the configured command *once*.
/// This populates the outputs for all passed in workspaces.
pub(crate) fn run_once(
config: &CargoConfig,
workspaces: &[&CargoWorkspace],
progress: &dyn Fn(String),
) -> io::Result<Vec<WorkspaceBuildScripts>> {
assert_eq!(config.invocation_strategy, InvocationStrategy::Once);
let current_dir = match &config.invocation_location {
InvocationLocation::Root(root) => root,
InvocationLocation::Workspace => {
return Err(io::Error::new(
io::ErrorKind::Other,
"Cannot run build scripts from workspace with invocation strategy `once`",
))
}
};
let cmd = Self::build_command(config)?;
// NB: Cargo.toml could have been modified between `cargo metadata` and
// `cargo check`. We shouldn't assume that package ids we see here are
// exactly those from `config`.
let mut by_id = FxHashMap::default();
// some workspaces might depend on the same crates, so we need to duplicate the outputs
// to those collisions
let mut collisions = Vec::new();
let mut res: Vec<_> = workspaces
.iter()
.enumerate()
.map(|(idx, workspace)| {
let mut res = WorkspaceBuildScripts::default();
for package in workspace.packages() {
res.outputs.insert(package, BuildScriptOutput::default());
if by_id.contains_key(&workspace[package].id) {
collisions.push((&workspace[package].id, idx, package));
} else {
by_id.insert(workspace[package].id.clone(), (package, idx));
}
}
res
})
.collect();
let errors = Self::run_command(
cmd,
current_dir.as_path().as_ref(),
|package, cb| {
if let Some(&(package, workspace)) = by_id.get(package) {
cb(&workspaces[workspace][package].name, &mut res[workspace].outputs[package]);
}
},
progress,
)?;
res.iter_mut().for_each(|it| it.error = errors.clone());
collisions.into_iter().for_each(|(id, workspace, package)| {
if let Some(&(p, w)) = by_id.get(id) {
res[workspace].outputs[package] = res[w].outputs[p].clone();
}
});
if tracing::enabled!(tracing::Level::INFO) {
for (idx, workspace) in workspaces.iter().enumerate() {
for package in workspace.packages() {
let package_build_data = &mut res[idx].outputs[package];
if !package_build_data.is_unchanged() {
tracing::info!(
"{}: {:?}",
workspace[package].manifest.parent().display(),
package_build_data,
);
}
}
}
}
Ok(res)
}
fn run_per_ws(
cmd: Command,
workspace: &CargoWorkspace,
current_dir: &path::Path,
progress: &dyn Fn(String),
) -> io::Result<WorkspaceBuildScripts> {
let mut res = WorkspaceBuildScripts::default();
let outputs = &mut res.outputs;
// NB: Cargo.toml could have been modified between `cargo metadata` and
// `cargo check`. We shouldn't assume that package ids we see here are
// exactly those from `config`.
let mut by_id: FxHashMap<String, Package> = FxHashMap::default();
for package in workspace.packages() {
outputs.insert(package, BuildScriptOutput::default());
by_id.insert(workspace[package].id.clone(), package);
}
res.error = Self::run_command(
cmd,
current_dir,
|package, cb| {
if let Some(&package) = by_id.get(package) {
cb(&workspace[package].name, &mut outputs[package]);
}
},
progress,
)?;
if tracing::enabled!(tracing::Level::INFO) {
for package in workspace.packages() {
let package_build_data = &mut outputs[package];
if !package_build_data.is_unchanged() {
tracing::info!(
"{}: {:?}",
workspace[package].manifest.parent().display(),
package_build_data,
);
}
}
}
Ok(res)
}
fn run_command(
mut cmd: Command,
current_dir: &path::Path,
// ideally this would be something like:
// with_output_for: impl FnMut(&str, dyn FnOnce(&mut BuildScriptOutput)),
// but owned trait objects aren't a thing
mut with_output_for: impl FnMut(&str, &mut dyn FnMut(&str, &mut BuildScriptOutput)),
progress: &dyn Fn(String),
) -> io::Result<Option<String>> {
let errors = RefCell::new(String::new());
let push_err = |err: &str| {
let mut e = errors.borrow_mut();
e.push_str(err);
e.push('\n');
};
tracing::info!("Running build scripts in {}: {:?}", current_dir.display(), cmd);
cmd.current_dir(current_dir);
let output = stdx::process::spawn_with_streaming_output(
cmd,
&mut |line| {
// Copy-pasted from existing cargo_metadata. It seems like we
// should be using serde_stacker here?
let mut deserializer = serde_json::Deserializer::from_str(line);
deserializer.disable_recursion_limit();
let message = Message::deserialize(&mut deserializer)
.unwrap_or_else(|_| Message::TextLine(line.to_string()));
match message {
Message::BuildScriptExecuted(mut message) => {
with_output_for(&message.package_id.repr, &mut |name, data| {
progress(format!("running build-script: {}", name));
let cfgs = {
let mut acc = Vec::new();
for cfg in &message.cfgs {
match cfg.parse::<CfgFlag>() {
Ok(it) => acc.push(it),
Err(err) => {
push_err(&format!(
"invalid cfg from cargo-metadata: {}",
err
));
return;
}
};
}
acc
};
if !message.env.is_empty() {
data.envs = mem::take(&mut message.env);
}
// cargo_metadata crate returns default (empty) path for
// older cargos, which is not absolute, so work around that.
let out_dir = mem::take(&mut message.out_dir).into_os_string();
if !out_dir.is_empty() {
let out_dir = AbsPathBuf::assert(PathBuf::from(out_dir));
// inject_cargo_env(package, package_build_data);
// NOTE: cargo and rustc seem to hide non-UTF-8 strings from env! and option_env!()
if let Some(out_dir) =
out_dir.as_os_str().to_str().map(|s| s.to_owned())
{
data.envs.push(("OUT_DIR".to_string(), out_dir));
}
data.out_dir = Some(out_dir);
data.cfgs = cfgs;
}
});
}
Message::CompilerArtifact(message) => {
with_output_for(&message.package_id.repr, &mut |name, data| {
progress(format!("building proc-macros: {}", name));
if message.target.kind.iter().any(|k| k == "proc-macro") {
// Skip rmeta file
if let Some(filename) =
message.filenames.iter().find(|name| is_dylib(name))
{
let filename = AbsPathBuf::assert(PathBuf::from(&filename));
data.proc_macro_dylib_path = Some(filename);
}
}
});
}
Message::CompilerMessage(message) => {
progress(message.target.name);
if let Some(diag) = message.message.rendered.as_deref() {
push_err(diag);
}
}
Message::BuildFinished(_) => {}
Message::TextLine(_) => {}
_ => {}
}
},
&mut |line| {
push_err(line);
},
)?;
let errors = if !output.status.success() {
let errors = errors.into_inner();
Some(if errors.is_empty() { "cargo check failed".to_string() } else { errors })
} else {
None
};
Ok(errors)
}
pub fn error(&self) -> Option<&str> {
self.error.as_deref()
}
pub(crate) fn get_output(&self, idx: Package) -> Option<&BuildScriptOutput> {
self.outputs.get(idx)
}
}
// FIXME: Find a better way to know if it is a dylib.
fn is_dylib(path: &Utf8Path) -> bool {
match path.extension().map(|e| e.to_string().to_lowercase()) {
None => false,
Some(ext) => matches!(ext.as_str(), "dll" | "dylib" | "so"),
}
}
|
