//! FIXME: write short doc here mod cargo_workspace; mod project_json; mod sysroot; mod cfg_flag; use std::{ fs::{self, read_dir, ReadDir}, io, process::Command, }; use anyhow::{bail, Context, Result}; use paths::{AbsPath, AbsPathBuf}; use cfg::CfgOptions; use ra_db::{CrateGraph, CrateId, CrateName, Edition, Env, FileId}; use rustc_hash::{FxHashMap, FxHashSet}; use crate::cfg_flag::CfgFlag; pub use crate::{ cargo_workspace::{CargoConfig, CargoWorkspace, Package, Target, TargetKind}, project_json::{ProjectJson, ProjectJsonData}, sysroot::Sysroot, }; pub use ra_proc_macro::ProcMacroClient; #[derive(Debug, Clone, Eq, PartialEq)] pub enum ProjectWorkspace { /// Project workspace was discovered by running `cargo metadata` and `rustc --print sysroot`. Cargo { cargo: CargoWorkspace, sysroot: Sysroot }, /// Project workspace was manually specified using a `rust-project.json` file. Json { project: ProjectJson }, } /// `PackageRoot` describes a package root folder. /// Which may be an external dependency, or a member of /// the current workspace. #[derive(Debug, Clone, Eq, PartialEq, Hash)] pub struct PackageRoot { /// Is a member of the current workspace pub is_member: bool, pub include: Vec, pub exclude: Vec, } #[derive(Debug, Clone, PartialEq, Eq, Hash, Ord, PartialOrd)] pub enum ProjectManifest { ProjectJson(AbsPathBuf), CargoToml(AbsPathBuf), } impl ProjectManifest { pub fn from_manifest_file(path: AbsPathBuf) -> Result { if path.ends_with("rust-project.json") { return Ok(ProjectManifest::ProjectJson(path)); } if path.ends_with("Cargo.toml") { return Ok(ProjectManifest::CargoToml(path)); } bail!("project root must point to Cargo.toml or rust-project.json: {}", path.display()) } pub fn discover_single(path: &AbsPath) -> Result { let mut candidates = ProjectManifest::discover(path)?; let res = match candidates.pop() { None => bail!("no projects"), Some(it) => it, }; if !candidates.is_empty() { bail!("more than one project") } Ok(res) } pub fn discover(path: &AbsPath) -> io::Result> { if let Some(project_json) = find_in_parent_dirs(path, "rust-project.json") { return Ok(vec![ProjectManifest::ProjectJson(project_json)]); } return find_cargo_toml(path) .map(|paths| paths.into_iter().map(ProjectManifest::CargoToml).collect()); fn find_cargo_toml(path: &AbsPath) -> io::Result> { match find_in_parent_dirs(path, "Cargo.toml") { Some(it) => Ok(vec![it]), None => Ok(find_cargo_toml_in_child_dir(read_dir(path)?)), } } fn find_in_parent_dirs(path: &AbsPath, target_file_name: &str) -> Option { if path.ends_with(target_file_name) { return Some(path.to_path_buf()); } let mut curr = Some(path); while let Some(path) = curr { let candidate = path.join(target_file_name); if candidate.exists() { return Some(candidate); } curr = path.parent(); } None } fn find_cargo_toml_in_child_dir(entities: ReadDir) -> Vec { // Only one level down to avoid cycles the easy way and stop a runaway scan with large projects entities .filter_map(Result::ok) .map(|it| it.path().join("Cargo.toml")) .filter(|it| it.exists()) .map(AbsPathBuf::assert) .collect() } } pub fn discover_all(paths: &[impl AsRef]) -> Vec { let mut res = paths .iter() .filter_map(|it| ProjectManifest::discover(it.as_ref()).ok()) .flatten() .collect::>() .into_iter() .collect::>(); res.sort(); res } } impl ProjectWorkspace { pub fn load( manifest: ProjectManifest, cargo_config: &CargoConfig, with_sysroot: bool, ) -> Result { let res = match manifest { ProjectManifest::ProjectJson(project_json) => { let file = fs::read_to_string(&project_json).with_context(|| { format!("Failed to read json file {}", project_json.display()) })?; let data = serde_json::from_str(&file).with_context(|| { format!("Failed to deserialize json file {}", project_json.display()) })?; let project_location = project_json.parent().unwrap().to_path_buf(); let project = ProjectJson::new(&project_location, data); ProjectWorkspace::Json { project } } ProjectManifest::CargoToml(cargo_toml) => { let cargo = CargoWorkspace::from_cargo_metadata(&cargo_toml, cargo_config) .with_context(|| { format!( "Failed to read Cargo metadata from Cargo.toml file {}", cargo_toml.display() ) })?; let sysroot = if with_sysroot { Sysroot::discover(&cargo_toml).with_context(|| { format!( "Failed to find sysroot for Cargo.toml file {}. Is rust-src installed?", cargo_toml.display() ) })? } else { Sysroot::default() }; ProjectWorkspace::Cargo { cargo, sysroot } } }; Ok(res) } /// Returns the roots for the current `ProjectWorkspace` /// The return type contains the path and whether or not /// the root is a member of the current workspace pub fn to_roots(&self) -> Vec { match self { ProjectWorkspace::Json { project } => project .crates .iter() .map(|krate| PackageRoot { is_member: krate.is_workspace_member, include: krate.include.clone(), exclude: krate.exclude.clone(), }) .collect::>() .into_iter() .collect::>(), ProjectWorkspace::Cargo { cargo, sysroot } => cargo .packages() .map(|pkg| { let is_member = cargo[pkg].is_member; let pkg_root = cargo[pkg].root().to_path_buf(); let mut include = vec![pkg_root.clone()]; include.extend(cargo[pkg].out_dir.clone()); let mut exclude = vec![pkg_root.join(".git")]; if is_member { exclude.push(pkg_root.join("target")); } else { exclude.push(pkg_root.join("tests")); exclude.push(pkg_root.join("examples")); exclude.push(pkg_root.join("benches")); } PackageRoot { is_member, include, exclude } }) .chain(sysroot.crates().map(|krate| PackageRoot { is_member: false, include: vec![sysroot[krate].root_dir().to_path_buf()], exclude: Vec::new(), })) .collect(), } } pub fn proc_macro_dylib_paths(&self) -> Vec { match self { ProjectWorkspace::Json { project } => project .crates .iter() .filter_map(|krate| krate.proc_macro_dylib_path.as_ref()) .cloned() .collect(), ProjectWorkspace::Cargo { cargo, sysroot: _sysroot } => cargo .packages() .filter_map(|pkg| cargo[pkg].proc_macro_dylib_path.as_ref()) .cloned() .collect(), } } pub fn n_packages(&self) -> usize { match self { ProjectWorkspace::Json { project, .. } => project.crates.len(), ProjectWorkspace::Cargo { cargo, sysroot } => { cargo.packages().len() + sysroot.crates().len() } } } pub fn to_crate_graph( &self, target: Option<&str>, proc_macro_client: &ProcMacroClient, load: &mut dyn FnMut(&AbsPath) -> Option, ) -> CrateGraph { let mut crate_graph = CrateGraph::default(); match self { ProjectWorkspace::Json { project } => { let mut cfg_cache: FxHashMap, Vec> = FxHashMap::default(); let crates: FxHashMap<_, _> = project .crates .iter() .enumerate() .filter_map(|(seq_index, krate)| { let file_path = &krate.root_module; let file_id = load(&file_path)?; let env = krate.env.clone().into_iter().collect(); let proc_macro = krate .proc_macro_dylib_path .clone() .map(|it| proc_macro_client.by_dylib_path(&it)); let target = krate.target.as_deref().or(target); let target_cfgs = cfg_cache .entry(target) .or_insert_with(|| get_rustc_cfg_options(target)); let mut cfg_options = CfgOptions::default(); cfg_options.extend(target_cfgs.iter().chain(krate.cfg.iter()).cloned()); // FIXME: No crate name in json definition such that we cannot add OUT_DIR to env Some(( CrateId(seq_index as u32), crate_graph.add_crate_root( file_id, krate.edition, // FIXME json definitions can store the crate name None, cfg_options, env, proc_macro.unwrap_or_default(), ), )) }) .collect(); for (id, krate) in project.crates.iter().enumerate() { for dep in &krate.deps { let from_crate_id = CrateId(id as u32); let to_crate_id = dep.crate_id; if let (Some(&from), Some(&to)) = (crates.get(&from_crate_id), crates.get(&to_crate_id)) { if crate_graph.add_dep(from, dep.name.clone(), to).is_err() { log::error!( "cyclic dependency {:?} -> {:?}", from_crate_id, to_crate_id ); } } } } } ProjectWorkspace::Cargo { cargo, sysroot } => { let mut cfg_options = CfgOptions::default(); cfg_options.extend(get_rustc_cfg_options(target)); let sysroot_crates: FxHashMap<_, _> = sysroot .crates() .filter_map(|krate| { let file_id = load(&sysroot[krate].root)?; let env = Env::default(); let proc_macro = vec![]; let name = sysroot[krate].name.clone(); let crate_id = crate_graph.add_crate_root( file_id, Edition::Edition2018, Some(name), cfg_options.clone(), env, proc_macro, ); Some((krate, crate_id)) }) .collect(); for from in sysroot.crates() { for &to in sysroot[from].deps.iter() { let name = &sysroot[to].name; if let (Some(&from), Some(&to)) = (sysroot_crates.get(&from), sysroot_crates.get(&to)) { if crate_graph.add_dep(from, CrateName::new(name).unwrap(), to).is_err() { log::error!("cyclic dependency between sysroot crates") } } } } let libcore = sysroot.core().and_then(|it| sysroot_crates.get(&it).copied()); let liballoc = sysroot.alloc().and_then(|it| sysroot_crates.get(&it).copied()); let libstd = sysroot.std().and_then(|it| sysroot_crates.get(&it).copied()); let libproc_macro = sysroot.proc_macro().and_then(|it| sysroot_crates.get(&it).copied()); let mut pkg_to_lib_crate = FxHashMap::default(); let mut pkg_crates = FxHashMap::default(); // Add test cfg for non-sysroot crates cfg_options.insert_atom("test".into()); cfg_options.insert_atom("debug_assertions".into()); // Next, create crates for each package, target pair for pkg in cargo.packages() { let mut lib_tgt = None; for &tgt in cargo[pkg].targets.iter() { let root = cargo[tgt].root.as_path(); if let Some(file_id) = load(root) { let edition = cargo[pkg].edition; let cfg_options = { let mut opts = cfg_options.clone(); for feature in cargo[pkg].features.iter() { opts.insert_key_value("feature".into(), feature.into()); } opts.extend(cargo[pkg].cfgs.iter().cloned()); opts }; let mut env = Env::default(); if let Some(out_dir) = &cargo[pkg].out_dir { // NOTE: cargo and rustc seem to hide non-UTF-8 strings from env! and option_env!() if let Some(out_dir) = out_dir.to_str().map(|s| s.to_owned()) { env.set("OUT_DIR", out_dir); } } let proc_macro = cargo[pkg] .proc_macro_dylib_path .as_ref() .map(|it| proc_macro_client.by_dylib_path(&it)) .unwrap_or_default(); let crate_id = crate_graph.add_crate_root( file_id, edition, Some(cargo[pkg].name.clone()), cfg_options, env, proc_macro.clone(), ); if cargo[tgt].kind == TargetKind::Lib { lib_tgt = Some((crate_id, cargo[tgt].name.clone())); pkg_to_lib_crate.insert(pkg, crate_id); } if cargo[tgt].is_proc_macro { if let Some(proc_macro) = libproc_macro { if crate_graph .add_dep( crate_id, CrateName::new("proc_macro").unwrap(), proc_macro, ) .is_err() { log::error!( "cyclic dependency on proc_macro for {}", &cargo[pkg].name ) } } } pkg_crates.entry(pkg).or_insert_with(Vec::new).push(crate_id); } } // Set deps to the core, std and to the lib target of the current package for &from in pkg_crates.get(&pkg).into_iter().flatten() { if let Some((to, name)) = lib_tgt.clone() { if to != from && crate_graph .add_dep( from, // For root projects with dashes in their name, // cargo metadata does not do any normalization, // so we do it ourselves currently CrateName::normalize_dashes(&name), to, ) .is_err() { { log::error!( "cyclic dependency between targets of {}", &cargo[pkg].name ) } } } // core is added as a dependency before std in order to // mimic rustcs dependency order if let Some(core) = libcore { if crate_graph .add_dep(from, CrateName::new("core").unwrap(), core) .is_err() { log::error!("cyclic dependency on core for {}", &cargo[pkg].name) } } if let Some(alloc) = liballoc { if crate_graph .add_dep(from, CrateName::new("alloc").unwrap(), alloc) .is_err() { log::error!("cyclic dependency on alloc for {}", &cargo[pkg].name) } } if let Some(std) = libstd { if crate_graph .add_dep(from, CrateName::new("std").unwrap(), std) .is_err() { log::error!("cyclic dependency on std for {}", &cargo[pkg].name) } } } } // Now add a dep edge from all targets of upstream to the lib // target of downstream. for pkg in cargo.packages() { for dep in cargo[pkg].dependencies.iter() { if let Some(&to) = pkg_to_lib_crate.get(&dep.pkg) { for &from in pkg_crates.get(&pkg).into_iter().flatten() { if crate_graph .add_dep(from, CrateName::new(&dep.name).unwrap(), to) .is_err() { log::error!( "cyclic dependency {} -> {}", &cargo[pkg].name, &cargo[dep.pkg].name ) } } } } } } } crate_graph } } fn get_rustc_cfg_options(target: Option<&str>) -> Vec { let mut res = Vec::new(); // Some nightly-only cfgs, which are required for stdlib res.push(CfgFlag::Atom("target_thread_local".into())); for &ty in ["8", "16", "32", "64", "cas", "ptr"].iter() { for &key in ["target_has_atomic", "target_has_atomic_load_store"].iter() { res.push(CfgFlag::KeyValue { key: key.to_string(), value: ty.into() }); } } let rustc_cfgs = { let mut cmd = Command::new(toolchain::rustc()); cmd.args(&["--print", "cfg", "-O"]); if let Some(target) = target { cmd.args(&["--target", target]); } utf8_stdout(cmd) }; match rustc_cfgs { Ok(rustc_cfgs) => res.extend(rustc_cfgs.lines().map(|it| it.parse().unwrap())), Err(e) => log::error!("failed to get rustc cfgs: {:#}", e), } res } fn utf8_stdout(mut cmd: Command) -> Result { let output = cmd.output().with_context(|| format!("{:?} failed", cmd))?; if !output.status.success() { match String::from_utf8(output.stderr) { Ok(stderr) if !stderr.is_empty() => { bail!("{:?} failed, {}\nstderr:\n{}", cmd, output.status, stderr) } _ => bail!("{:?} failed, {}", cmd, output.status), } } let stdout = String::from_utf8(output.stdout)?; Ok(stdout) }