import * as cp from 'child_process'; import * as os from 'os'; import * as path from 'path'; import * as readline from 'readline'; import * as vscode from 'vscode'; import { execute, log, memoize } from './util'; interface CompilationArtifact { fileName: string; name: string; kind: string; isTest: boolean; } export interface ArtifactSpec { cargoArgs: string[]; filter?: (artifacts: CompilationArtifact[]) => CompilationArtifact[]; } export class Cargo { constructor(readonly rootFolder: string, readonly output: vscode.OutputChannel) { } // Made public for testing purposes static artifactSpec(args: readonly string[]): ArtifactSpec { const cargoArgs = [...args, "--message-format=json"]; // arguments for a runnable from the quick pick should be updated. // see crates\rust-analyzer\src\main_loop\handlers.rs, handle_code_lens switch (cargoArgs[0]) { case "run": cargoArgs[0] = "build"; break; case "test": { if (!cargoArgs.includes("--no-run")) { cargoArgs.push("--no-run"); } break; } } const result: ArtifactSpec = { cargoArgs: cargoArgs }; if (cargoArgs[0] === "test") { // for instance, `crates\rust-analyzer\tests\heavy_tests\main.rs` tests // produce 2 artifacts: {"kind": "bin"} and {"kind": "test"} result.filter = (artifacts) => artifacts.filter(it => it.isTest); } return result; } private async getArtifacts(spec: ArtifactSpec): Promise { const artifacts: CompilationArtifact[] = []; try { await this.runCargo(spec.cargoArgs, message => { if (message.reason === 'compiler-artifact' && message.executable) { const isBinary = message.target.crate_types.includes('bin'); const isBuildScript = message.target.kind.includes('custom-build'); if ((isBinary && !isBuildScript) || message.profile.test) { artifacts.push({ fileName: message.executable, name: message.target.name, kind: message.target.kind[0], isTest: message.profile.test }); } } else if (message.reason === 'compiler-message') { this.output.append(message.message.rendered); } }, stderr => this.output.append(stderr), ); } catch (err) { this.output.show(true); throw new Error(`Cargo invocation has failed: ${err}`); } return spec.filter?.(artifacts) ?? artifacts; } async executableFromArgs(args: readonly string[]): Promise { const artifacts = await this.getArtifacts(Cargo.artifactSpec(args)); if (artifacts.length === 0) { throw new Error('No compilation artifacts'); } else if (artifacts.length > 1) { throw new Error('Multiple compilation artifacts are not supported.'); } return artifacts[0].fileName; } private runCargo( cargoArgs: string[], onStdoutJson: (obj: any) => void, onStderrString: (data: string) => void ): Promise { return new Promise((resolve, reject) => { const cargo = cp.spawn(cargoPath(), cargoArgs, { stdio: ['ignore', 'pipe', 'pipe'], cwd: this.rootFolder }); cargo.on('error', err => reject(new Error(`could not launch cargo: ${err}`))); cargo.stderr.on('data', chunk => onStderrString(chunk.toString())); const rl = readline.createInterface({ input: cargo.stdout }); rl.on('line', line => { const message = JSON.parse(line); onStdoutJson(message); }); cargo.on('exit', (exitCode, _) => { if (exitCode === 0) resolve(exitCode); else reject(new Error(`exit code: ${exitCode}.`)); }); }); } } /** Mirrors `project_model::sysroot::discover_sysroot_dir()` implementation*/ export function getSysroot(dir: string): Promise { const rustcPath = getPathForExecutable("rustc"); // do not memoize the result because the toolchain may change between runs return execute(`${rustcPath} --print sysroot`, { cwd: dir }); } export async function getRustcId(dir: string): Promise { const rustcPath = getPathForExecutable("rustc"); // do not memoize the result because the toolchain may change between runs const data = await execute(`${rustcPath} -V -v`, { cwd: dir }); const rx = /commit-hash:\s(.*)$/m.compile(); return rx.exec(data)![1]; } /** Mirrors `toolchain::cargo()` implementation */ export function cargoPath(): string { return getPathForExecutable("cargo"); } /** Mirrors `toolchain::get_path_for_executable()` implementation */ export const getPathForExecutable = memoize( // We apply caching to decrease file-system interactions (executableName: "cargo" | "rustc" | "rustup"): string => { { const envVar = process.env[executableName.toUpperCase()]; if (envVar) return envVar; } if (lookupInPath(executableName)) return executableName; try { // hmm, `os.homedir()` seems to be infallible // it is not mentioned in docs and cannot be infered by the type signature... const standardPath = vscode.Uri.joinPath(vscode.Uri.file(os.homedir()), ".cargo", "bin", executableName); if (isFileAtUri(standardPath)) return standardPath.fsPath; } catch (err) { log.error("Failed to read the fs info", err); } return executableName; } ); function lookupInPath(exec: string): boolean { const paths = process.env.PATH ?? "";; const candidates = paths.split(path.delimiter).flatMap(dirInPath => { const candidate = path.join(dirInPath, exec); return os.type() === "Windows_NT" ? [candidate, `${candidate}.exe`] : [candidate]; }); return candidates.some(isFileAtPath); } async function isFileAtPath(path: string): Promise { return isFileAtUri(vscode.Uri.file(path)); } async function isFileAtUri(uri: vscode.Uri): Promise { try { return ((await vscode.workspace.fs.stat(uri)).type & vscode.FileType.File) !== 0; } catch { return false; } }