v8 0.106.0

Rust bindings to V8
Documentation
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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
use fslock::LockFile;
use miniz_oxide::inflate::stream::inflate;
use miniz_oxide::inflate::stream::InflateState;
use miniz_oxide::MZFlush;
use miniz_oxide::MZResult;
use miniz_oxide::MZStatus;
use miniz_oxide::StreamResult;
use std::collections::HashSet;
use std::env;
use std::fs;
use std::io;
use std::io::Read;
use std::io::Seek;
use std::io::Write;
use std::path::Path;
use std::path::PathBuf;
use std::process::Command;
use std::process::Stdio;
use which::which;

fn main() {
  println!("cargo:rerun-if-changed=.gn");
  println!("cargo:rerun-if-changed=BUILD.gn");
  println!("cargo:rerun-if-changed=src/binding.cc");

  // These are all the environment variables that we check. This is
  // probably more than what is needed, but missing an important
  // variable can lead to broken links when switching rusty_v8
  // versions.
  let envs = vec![
    "CCACHE",
    "CLANG_BASE_PATH",
    "CXXSTDLIB",
    "DENO_TRYBUILD",
    "DOCS_RS",
    "GN",
    "GN_ARGS",
    "HOST",
    "NINJA",
    "OUT_DIR",
    "RUSTY_V8_ARCHIVE",
    "RUSTY_V8_MIRROR",
    "RUSTY_V8_SRC_BINDING_PATH",
    "SCCACHE",
    "V8_FORCE_DEBUG",
    "V8_FROM_SOURCE",
    "PYTHON",
    "DISABLE_CLANG",
    "EXTRA_GN_ARGS",
    "PRINT_GN_ARGS",
    "CARGO_ENCODED_RUSTFLAGS",
  ];
  for env in envs {
    println!("cargo:rerun-if-env-changed={}", env);
  }

  // Detect if trybuild tests are being compiled.
  let is_trybuild = env::var_os("DENO_TRYBUILD").is_some();

  // Don't build V8 if "cargo doc" is being run. This is to support docs.rs.
  let is_cargo_doc = env::var_os("DOCS_RS").is_some();

  // Don't build V8 if the rust language server (RLS) is running.
  let is_rls = env::var_os("CARGO")
    .map(PathBuf::from)
    .as_ref()
    .and_then(|p| p.file_stem())
    .and_then(|f| f.to_str())
    .map(|s| s.starts_with("rls"))
    .unwrap_or(false);

  // Early exit
  if is_cargo_doc || is_rls {
    print_prebuilt_src_binding_path();
    return;
  }

  print_link_flags();

  // Don't attempt rebuild but link
  if is_trybuild {
    println!(
      "cargo:rustc-env=RUSTY_V8_SRC_BINDING_PATH={}",
      env::var("RUSTY_V8_SRC_BINDING_PATH").unwrap()
    );
    return;
  }

  let is_asan = if let Some(rustflags) = env::var_os("CARGO_ENCODED_RUSTFLAGS")
  {
    let rustflags = rustflags.to_string_lossy();
    rustflags.find("-Z sanitizer=address").is_some()
      || rustflags.find("-Zsanitizer=address").is_some()
  } else {
    false
  };

  // Cargo likes to run multiple build scripts at once sometimes.
  // Nothing that follows is safe to run multiple times at once,
  // because we store everything in a parent directory of OUT_DIR.
  let _lockfile = acquire_lock();

  // Build from source
  if env_bool("V8_FROM_SOURCE") {
    if is_asan && std::env::var_os("OPT_LEVEL").unwrap_or_default() == "0" {
      panic!("v8 crate cannot be compiled with OPT_LEVEL=0 and ASAN.\nTry `[profile.dev.package.v8] opt-level = 1`.\nAborting before miscompilations cause issues.");
    }

    // cargo publish doesn't like pyc files.
    env::set_var("PYTHONDONTWRITEBYTECODE", "1");

    build_v8(is_asan);
    build_binding();

    return;
  }

  print_prebuilt_src_binding_path();

  download_static_lib_binaries();
}

fn acquire_lock() -> LockFile {
  let root = env::current_dir().unwrap();
  let out_dir = env::var_os("OUT_DIR").unwrap();
  let lockfilepath = root
    .join(out_dir)
    .parent()
    .unwrap()
    .parent()
    .unwrap()
    .join("v8.fslock");
  let mut lockfile = LockFile::open(&lockfilepath)
    .expect("Couldn't open lib download lockfile.");
  lockfile.lock_with_pid().expect("Couldn't get lock");
  println!("lockfile: {:?}", &lockfilepath);
  lockfile
}

fn build_binding() {
  let output = Command::new(python())
    .arg("./tools/get_bindgen_args.py")
    .arg("--gn-out")
    .arg(build_dir().join("gn_out"))
    .output()
    .unwrap();
  let args = String::from_utf8(output.stdout).unwrap();
  let args = args.split('\0').collect::<Vec<_>>();

  let bindings = bindgen::Builder::default()
    .header("src/binding.hpp")
    .parse_callbacks(Box::new(bindgen::CargoCallbacks::new()))
    .clang_args(["-x", "c++", "-std=c++20", "-Iv8/include", "-I."])
    .clang_args(args)
    .generate_cstr(true)
    .rustified_enum(".*UseCounterFeature")
    .allowlist_item("v8__.*")
    .allowlist_item("cppgc__.*")
    .allowlist_item("RustObj")
    .generate()
    .expect("Unable to generate bindings");

  let out_path = build_dir().join("gn_out").join("src_binding.rs");
  println!(
    "cargo:rustc-env=RUSTY_V8_SRC_BINDING_PATH={}",
    out_path.display()
  );
  bindings
    .write_to_file(out_path)
    .expect("Couldn't write bindings!");
}

fn build_v8(is_asan: bool) {
  env::set_var("DEPOT_TOOLS_WIN_TOOLCHAIN", "0");

  if need_gn_ninja_download() {
    download_ninja_gn_binaries();
  }
  // `#[cfg(...)]` attributes don't work as expected from build.rs -- they refer to the configuration
  // of the host system which the build.rs script will be running on. In short, `cfg!(target_<os/arch>)`
  // is actually the host os/arch instead of target os/arch while cross compiling. Instead, Environment variables
  // are the officially approach to get the target os/arch in build.rs.
  let target_os = env::var("CARGO_CFG_TARGET_OS").unwrap();
  let target_arch = env::var("CARGO_CFG_TARGET_ARCH").unwrap();
  // On windows, rustc cannot link with a V8 debug build.
  let mut gn_args = if is_debug() && target_os != "windows" {
    // Note: When building for Android aarch64-qemu, use release instead of debug.
    vec!["is_debug=true".to_string()]
  } else {
    vec!["is_debug=false".to_string()]
  };
  if is_asan {
    gn_args.push("is_asan=true".to_string());
  }
  if env::var("CARGO_FEATURE_USE_CUSTOM_LIBCXX").is_err() {
    gn_args.push("use_custom_libcxx=false".to_string());
  }

  // Fix GN's host_cpu detection when using x86_64 bins on Apple Silicon
  if cfg!(target_os = "macos") && cfg!(target_arch = "aarch64") {
    gn_args.push("host_cpu=\"arm64\"".to_string())
  }

  if env::var_os("DISABLE_CLANG").is_some() {
    gn_args.push("is_clang=false".into());
    // -gline-tables-only is Clang-only
    gn_args.push("line_tables_only=false".into());
  } else if let Some(clang_base_path) = find_compatible_system_clang() {
    println!("clang_base_path (system): {}", clang_base_path.display());
    gn_args.push(format!("clang_base_path={:?}", clang_base_path));
    gn_args.push("treat_warnings_as_errors=false".to_string());
  } else {
    println!("using Chromium's clang");
    let clang_base_path = clang_download();
    gn_args.push(format!("clang_base_path={:?}", clang_base_path));

    if target_os == "android" && target_arch == "aarch64" {
      gn_args.push("treat_warnings_as_errors=false".to_string());
    }
  }

  if let Some(p) = env::var_os("SCCACHE") {
    cc_wrapper(&mut gn_args, Path::new(&p));
  } else if let Ok(p) = which("sccache") {
    cc_wrapper(&mut gn_args, &p);
  } else if let Some(p) = env::var_os("CCACHE") {
    cc_wrapper(&mut gn_args, Path::new(&p));
  } else if let Ok(p) = which("ccache") {
    cc_wrapper(&mut gn_args, &p);
  } else {
    println!("cargo:warning=Not using sccache or ccache");
  }

  if let Ok(args) = env::var("GN_ARGS") {
    for arg in args.split_whitespace() {
      gn_args.push(arg.to_string());
    }
  }
  // cross-compilation setup
  if target_arch == "aarch64" {
    gn_args.push(r#"target_cpu="arm64""#.to_string());
    gn_args.push("use_sysroot=true".to_string());
    maybe_install_sysroot("arm64");
    maybe_install_sysroot("amd64");
  }
  if target_arch == "arm" {
    gn_args.push(r#"target_cpu="arm""#.to_string());
    gn_args.push(r#"v8_target_cpu="arm""#.to_string());
    gn_args.push("use_sysroot=true".to_string());
    maybe_install_sysroot("i386");
    maybe_install_sysroot("arm");
  }

  let target_triple = env::var("TARGET").unwrap();
  // check if the target triple describes a non-native environment
  if target_triple != env::var("HOST").unwrap() && target_os == "android" {
    let arch = if target_arch == "x86_64" {
      "x64"
    } else if target_arch == "aarch64" {
      "arm64"
    } else {
      "unknown"
    };
    if target_arch == "x86_64" {
      maybe_install_sysroot("amd64");
    }
    gn_args.push(format!(r#"v8_target_cpu="{}""#, arch).to_string());
    gn_args.push(format!(r#"target_cpu="{}""#, arch).to_string());
    gn_args.push(r#"target_os="android""#.to_string());
    gn_args.push("treat_warnings_as_errors=false".to_string());
    gn_args.push("use_sysroot=true".to_string());

    // NDK 23 and above removes libgcc entirely.
    // https://github.com/rust-lang/rust/pull/85806
    if !Path::new("./third_party/android_ndk/toolchains/llvm/prebuilt/linux-x86_64/bin/aarch64-linux-android24-clang++").exists() {
        assert!(Command::new("curl")
        .arg("-L")
        .arg("-o").arg("./third_party/android-ndk-r26c-linux.zip")
        .arg("https://dl.google.com/android/repository/android-ndk-r26c-linux.zip")
        .status()
        .unwrap()
        .success());

        assert!(Command::new("unzip")
        .arg("-d").arg("./third_party/")
        .arg("-o")
        .arg("-q")
        .arg("./third_party/android-ndk-r26c-linux.zip")
        .status()
        .unwrap()
        .success());

        fs::rename("./third_party/android-ndk-r26c", "./third_party/android_ndk").unwrap();
        fs::remove_file("./third_party/android-ndk-r26c-linux.zip").unwrap();
      }
    static CHROMIUM_URI: &str = "https://chromium.googlesource.com";
    maybe_clone_repo(
      "./third_party/android_platform",
      &format!(
        "{}/chromium/src/third_party/android_platform.git",
        CHROMIUM_URI
      ),
    );
    maybe_clone_repo(
      "./third_party/catapult",
      &format!("{}/catapult.git", CHROMIUM_URI),
    );
  }

  if target_triple.starts_with("i686-") {
    gn_args.push(r#"target_cpu="x86""#.to_string());
  }

  let gn_out = maybe_gen(gn_args);
  assert!(gn_out.exists());
  assert!(gn_out.join("args.gn").exists());
  if env_bool("PRINT_GN_ARGS") {
    print_gn_args(&gn_out);
  }
  build("rusty_v8", None);
}

fn print_gn_args(gn_out_dir: &Path) {
  assert!(Command::new(gn())
    .arg(format!("--script-executable={}", python()))
    .arg("args")
    .arg(gn_out_dir)
    .arg("--list")
    .status()
    .unwrap()
    .success());
}

fn maybe_clone_repo(dest: &str, repo: &str) {
  if !Path::new(&dest).exists() {
    assert!(Command::new("git")
      .arg("clone")
      .arg("--depth=1")
      .arg(repo)
      .arg(dest)
      .status()
      .unwrap()
      .success());
  }
}

fn maybe_install_sysroot(arch: &str) {
  let sysroot_path = format!("build/linux/debian_sid_{}-sysroot", arch);
  if !PathBuf::from(sysroot_path).is_dir() {
    assert!(Command::new(python())
      .arg("./build/linux/sysroot_scripts/install-sysroot.py")
      .arg(format!("--arch={}", arch))
      .status()
      .unwrap()
      .success());
  }
}

fn download_ninja_gn_binaries() {
  let target_dir = build_dir().join("ninja_gn_binaries");

  let gn = target_dir.join("gn").join("gn");
  let ninja = target_dir.join("ninja").join("ninja");
  #[cfg(windows)]
  let gn = gn.with_extension("exe");
  #[cfg(windows)]
  let ninja = ninja.with_extension("exe");

  if !gn.exists() || !ninja.exists() {
    assert!(Command::new(python())
      .arg("./tools/ninja_gn_binaries.py")
      .arg("--dir")
      .arg(&target_dir)
      .status()
      .unwrap()
      .success());
  }
  assert!(gn.exists());
  assert!(ninja.exists());
  env::set_var("GN", gn);
  if env::var("NINJA").is_err() {
    env::set_var("NINJA", ninja);
  }
}

fn prebuilt_profile() -> &'static str {
  let target_os = env::var("CARGO_CFG_TARGET_OS").unwrap();
  // Note: we always use the release build on windows.
  if target_os == "windows" {
    return "release";
  }
  // Use v8 in release mode unless $V8_FORCE_DEBUG=true
  match env_bool("V8_FORCE_DEBUG") {
    true => "debug",
    _ => "release",
  }
}

fn static_lib_name(suffix: &str) -> String {
  let target_os = env::var("CARGO_CFG_TARGET_OS").unwrap();
  if target_os == "windows" {
    format!("rusty_v8{suffix}.lib")
  } else {
    format!("librusty_v8{suffix}.a")
  }
}

fn static_lib_url() -> String {
  if let Ok(custom_archive) = env::var("RUSTY_V8_ARCHIVE") {
    return custom_archive;
  }
  let default_base = "https://github.com/denoland/rusty_v8/releases/download";
  let base =
    env::var("RUSTY_V8_MIRROR").unwrap_or_else(|_| default_base.into());
  let version = env::var("CARGO_PKG_VERSION").unwrap();
  let target = env::var("TARGET").unwrap();
  let profile = prebuilt_profile();
  format!(
    "{}/v{}/{}.gz",
    base,
    version,
    static_lib_name(&format!("_{}_{}", profile, target)),
  )
}

fn static_lib_path() -> PathBuf {
  static_lib_dir().join(static_lib_name(""))
}

fn static_checksum_path() -> PathBuf {
  let mut t = static_lib_path();
  t.set_extension("sum");
  t
}

fn static_lib_dir() -> PathBuf {
  build_dir().join("gn_out").join("obj")
}

fn build_dir() -> PathBuf {
  let cwd = env::current_dir().unwrap();

  // target/debug//build/rusty_v8-d9e5a424d4f96994/out/
  let out_dir = env::var_os("OUT_DIR").expect(
    "The 'OUT_DIR' environment is not set (it should be something like \
     'target/debug/rusty_v8-{hash}').",
  );
  let out_dir_abs = cwd.join(out_dir);

  // This would be target/debug or target/release
  out_dir_abs
    .parent()
    .unwrap()
    .parent()
    .unwrap()
    .parent()
    .unwrap()
    .to_path_buf()
}

fn replace_non_alphanumeric(url: &str) -> String {
  url
    .chars()
    .map(|c| if c.is_ascii_alphanumeric() { c } else { '_' })
    .collect()
}

fn download_file(url: String, filename: PathBuf) {
  if !url.starts_with("http:") && !url.starts_with("https:") {
    copy_archive(&url, &filename);
    return;
  }

  // If there is a `.cargo/.rusty_v8/<escaped URL>` file, use that instead
  // of downloading.
  if let Ok(mut path) = home::cargo_home() {
    path = path.join(".rusty_v8").join(replace_non_alphanumeric(&url));
    println!("Looking for download in '{path:?}'");
    if path.exists() {
      copy_archive(&path.to_string_lossy(), &filename);
      return;
    }
  }

  // tmp file to download to so we don't clobber the existing one
  let tmpfile = {
    let mut t = filename.clone();
    t.set_extension("tmp");
    t
  };
  if tmpfile.exists() {
    println!("Deleting old tmpfile {}", tmpfile.display());
    std::fs::remove_file(&tmpfile).unwrap();
  }

  // Try downloading with python first. Python is a V8 build dependency,
  // so this saves us from adding a Rust HTTP client dependency.
  println!("Downloading (using Python) {}", url);
  let status = Command::new(python())
    .arg("./tools/download_file.py")
    .arg("--url")
    .arg(&url)
    .arg("--filename")
    .arg(&tmpfile)
    .status();

  // Python is only a required dependency for `V8_FROM_SOURCE` builds.
  // If python is not available, try falling back to curl.
  let status = match status {
    Ok(status) if status.success() => status,
    _ => {
      println!("Python downloader failed, trying with curl.");
      Command::new("curl")
        .arg("-L")
        .arg("-f")
        .arg("-s")
        .arg("-o")
        .arg(&tmpfile)
        .arg(&url)
        .status()
        .unwrap()
    }
  };

  // Assert DL was successful
  assert!(status.success());
  assert!(tmpfile.exists());

  // Write checksum (i.e url) & move file
  std::fs::write(static_checksum_path(), url).unwrap();
  copy_archive(&tmpfile.to_string_lossy(), &filename);
  std::fs::remove_file(&tmpfile).unwrap();

  assert!(filename.exists());
  assert!(static_checksum_path().exists());
  assert!(!tmpfile.exists());
}

fn download_static_lib_binaries() {
  let url = static_lib_url();
  println!("static lib URL: {}", url);

  let dir = static_lib_dir();
  std::fs::create_dir_all(&dir).unwrap();
  println!("cargo:rustc-link-search={}", dir.display());

  // Checksum (i.e: url) to avoid redownloads
  match std::fs::read_to_string(static_checksum_path()) {
    Ok(c) if c == static_lib_url() => return,
    _ => {}
  };
  download_file(url, static_lib_path());
}

fn decompress_to_writer<R, W>(input: &mut R, output: &mut W) -> io::Result<()>
where
  R: Read,
  W: Write,
{
  let mut inflate_state = InflateState::default();
  let mut input_buffer = [0; 16 * 1024];
  let mut output_buffer = [0; 16 * 1024];
  let mut input_offset = 0;

  // Skip the gzip header
  gzip_header::read_gz_header(input).unwrap();

  loop {
    let bytes_read = input.read(&mut input_buffer[input_offset..])?;
    let bytes_avail = input_offset + bytes_read;

    let StreamResult {
      bytes_consumed,
      bytes_written,
      status,
    } = inflate(
      &mut inflate_state,
      &input_buffer[..bytes_avail],
      &mut output_buffer,
      MZFlush::None,
    );

    if status != MZResult::Ok(MZStatus::Ok)
      && status != MZResult::Ok(MZStatus::StreamEnd)
    {
      return Err(io::Error::new(
        io::ErrorKind::Other,
        format!("Decompression error {status:?}"),
      ));
    }

    output.write_all(&output_buffer[..bytes_written])?;

    // Move remaining bytes to the beginning of the buffer
    input_buffer.copy_within(bytes_consumed..bytes_avail, 0);
    input_offset = bytes_avail - bytes_consumed;

    if status == MZResult::Ok(MZStatus::StreamEnd) {
      break; // End of decompression
    }
  }

  Ok(())
}

/// Copy the V8 archive at `url` to `filename`.
///
/// This function doesn't use `std::fs::copy` because that would
/// preveserve the file attributes such as ownership and mode flags.
/// Instead, it copies the file contents to a new file.
/// This is necessary because the V8 archive could live inside a read-only
/// filesystem, and subsequent builds would fail to overwrite it.
fn copy_archive(url: &str, filename: &Path) {
  println!("Copying {url} to {filename:?}");
  let mut src = fs::File::open(url).unwrap();
  let mut dst = fs::File::create(filename).unwrap();

  // Allow both GZIP and non-GZIP downloads
  let mut header = [0; 2];
  src.read_exact(&mut header).unwrap();
  src.seek(io::SeekFrom::Start(0)).unwrap();
  if header == [0x1f, 0x8b] {
    println!("Detected GZIP archive");
    decompress_to_writer(&mut src, &mut dst).unwrap();
  } else {
    println!("Not a GZIP archive");
    io::copy(&mut src, &mut dst).unwrap();
  }
}

fn print_link_flags() {
  println!("cargo:rustc-link-lib=static=rusty_v8");
  let should_dyn_link_libcxx = env::var("CARGO_FEATURE_USE_CUSTOM_LIBCXX")
    .is_err()
    || env::var("GN_ARGS").map_or(false, |gn_args| {
      gn_args
        .split_whitespace()
        .any(|ba| ba == "use_custom_libcxx=false")
    });

  if should_dyn_link_libcxx {
    // Based on https://github.com/alexcrichton/cc-rs/blob/fba7feded71ee4f63cfe885673ead6d7b4f2f454/src/lib.rs#L2462
    if let Ok(stdlib) = env::var("CXXSTDLIB") {
      if !stdlib.is_empty() {
        println!("cargo:rustc-link-lib=dylib={}", stdlib);
      }
    } else {
      let target = env::var("TARGET").unwrap();
      if target.contains("msvc") {
        // nothing to link to
      } else if target.contains("apple")
        || target.contains("freebsd")
        || target.contains("openbsd")
      {
        println!("cargo:rustc-link-lib=dylib=c++");
      } else if target.contains("android") {
        println!("cargo:rustc-link-lib=dylib=c++_shared");
      } else {
        println!("cargo:rustc-link-lib=dylib=stdc++");
      }
    }
  }
  let target_os = env::var("CARGO_CFG_TARGET_OS").unwrap();
  let target_env = env::var("CARGO_CFG_TARGET_ENV").unwrap();

  if target_os == "windows" {
    println!("cargo:rustc-link-lib=dylib=winmm");
    println!("cargo:rustc-link-lib=dylib=dbghelp");
  }

  if target_env == "msvc" {
    // On Windows, including libcpmt[d]/msvcprt[d] explicitly links the C++
    // standard library, which libc++ needs for exception_ptr internals.
    if env::var("CARGO_FEATURE_CRT_STATIC").is_ok() {
      println!("cargo:rustc-link-lib=libcpmt");
    } else {
      println!("cargo:rustc-link-lib=dylib=msvcprt");
    }
  }
}

fn print_prebuilt_src_binding_path() {
  if let Ok(binding) = env::var("RUSTY_V8_SRC_BINDING_PATH") {
    println!("cargo:rustc-env=RUSTY_V8_SRC_BINDING_PATH={}", binding);
    return;
  }
  let target = env::var("TARGET").unwrap();
  let profile = prebuilt_profile();
  let src_binding_path = get_dirs()
    .root
    .join("gen")
    .join(format!("src_binding_{}_{}.rs", profile, target));
  println!(
    "cargo:rustc-env=RUSTY_V8_SRC_BINDING_PATH={}",
    src_binding_path.display()
  );
}

// Chromium depot_tools contains helpers
// which delegate to the "relevant" `buildtools`
// directory when invoked, so they don't count.
fn not_in_depot_tools(p: PathBuf) -> bool {
  !p.as_path().to_str().unwrap().contains("depot_tools")
}

fn need_gn_ninja_download() -> bool {
  let has_ninja = which("ninja").map_or(false, not_in_depot_tools)
    || env::var_os("NINJA").is_some();
  let has_gn = which("gn").map_or(false, not_in_depot_tools)
    || env::var_os("GN").is_some();

  !has_ninja || !has_gn
}

// Chromiums gn arg clang_base_path is currently compatible with:
// * Apples clang and clang from homebrew's llvm@x packages
// * the official binaries from releases.llvm.org
// * unversioned (Linux) packages of clang (if recent enough)
// but unfortunately it doesn't work with version-suffixed packages commonly
// found in Linux packet managers
fn is_compatible_clang_version(clang_path: &Path) -> bool {
  if let Ok(o) = Command::new(clang_path).arg("--version").output() {
    let _output = String::from_utf8(o.stdout).unwrap();
    // TODO check version output to make sure it's supported.
    const _MIN_APPLE_CLANG_VER: f32 = 11.0;
    const _MIN_LLVM_CLANG_VER: f32 = 8.0;
    return true;
  }
  false
}

fn find_compatible_system_clang() -> Option<PathBuf> {
  if let Ok(p) = env::var("CLANG_BASE_PATH") {
    let base_path = Path::new(&p);
    let clang_path = base_path.join("bin").join("clang");
    if is_compatible_clang_version(&clang_path) {
      return Some(base_path.to_path_buf());
    }
  }

  None
}

// Download chromium's clang into OUT_DIR because Cargo will not allow us to
// modify the source directory.
fn clang_download() -> PathBuf {
  let clang_base_path = build_dir().join("clang");
  println!("clang_base_path (downloaded) {}", clang_base_path.display());
  assert!(Command::new(python())
    .arg("./tools/clang/scripts/update.py")
    .arg("--output-dir")
    .arg(&clang_base_path)
    .status()
    .unwrap()
    .success());
  assert!(clang_base_path.exists());
  clang_base_path
}

fn cc_wrapper(gn_args: &mut Vec<String>, sccache_path: &Path) {
  gn_args.push(format!("cc_wrapper={:?}", sccache_path));
}

struct Dirs {
  pub out: PathBuf,
  pub root: PathBuf,
}

fn get_dirs() -> Dirs {
  // The OUT_DIR is going to be a crate-specific directory like
  // "target/debug/build/cargo_gn_example-eee5160084460b2c"
  // But we want to share the GN build amongst all crates
  // and return the path "target/debug". So to find it, we walk up three
  // directories.
  // TODO(ry) This is quite brittle - if Cargo changes the directory structure
  // this could break.
  let out = env::var("OUT_DIR").map(PathBuf::from).unwrap();
  let out = out
    .parent()
    .unwrap()
    .parent()
    .unwrap()
    .parent()
    .unwrap()
    .to_owned();

  let root = env::var("CARGO_MANIFEST_DIR").map(PathBuf::from).unwrap();
  let mut dirs = Dirs { out, root };
  maybe_symlink_root_dir(&mut dirs);
  dirs
}

#[cfg(not(target_os = "windows"))]
fn maybe_symlink_root_dir(_: &mut Dirs) {}

#[cfg(target_os = "windows")]
fn maybe_symlink_root_dir(dirs: &mut Dirs) {
  // GN produces invalid paths if the source (a.k.a. root) directory is on a
  // different drive than the output. If this is the case we'll create a
  // symlink called 'gn_root' in the out directory, next to 'gn_out', so it
  // appears as if they're both on the same drive.
  use std::fs::remove_dir_all;
  use std::fs::remove_file;
  use std::os::windows::fs::symlink_dir;

  let get_prefix = |p: &Path| {
    p.components()
      .find_map(|c| match c {
        std::path::Component::Prefix(p) => Some(p),
        _ => None,
      })
      .map(|p| p.as_os_str().to_owned())
  };

  let Dirs { out, root } = dirs;
  if get_prefix(out) != get_prefix(root) {
    let symlink = &*out.join("gn_root");
    let target = &*root.canonicalize().unwrap();

    println!("Creating symlink {:?} to {:?}", &symlink, &root);

    let mut retries = 0;
    loop {
      match symlink.canonicalize() {
        Ok(existing) if existing == target => break,
        Ok(_) => remove_dir_all(symlink).expect("remove_dir_all failed"),
        Err(err) => {
          println!("symlink.canonicalize failed: {:?}", err);
          // we're having very strange issues on GHA when the cache
          // is restored, so trying this out temporarily
          if let Err(err) = remove_dir_all(symlink) {
            eprintln!("remove_dir_all failed: {:?}", err);
            if let Err(err) = remove_file(symlink) {
              eprintln!("remove_file failed: {:?}", err);
            }
          }
          match symlink_dir(target, symlink) {
            Ok(_) => break,
            Err(err) => {
              println!("symlink_dir failed: {:?}", err);
              retries += 1;
              std::thread::sleep(std::time::Duration::from_millis(
                50 * retries,
              ));
              if retries > 4 {
                panic!("Failed to create symlink");
              }
            }
          }
        }
      }
    }

    dirs.root = symlink.to_path_buf();
  }
}

pub fn is_debug() -> bool {
  // Cargo sets PROFILE to either "debug" or "release", which conveniently
  // matches the build modes we support.
  let m = env::var("PROFILE").unwrap();
  if m == "release" {
    false
  } else if m == "debug" {
    true
  } else {
    panic!("unhandled PROFILE value {}", m)
  }
}

fn gn() -> String {
  env::var("GN").unwrap_or_else(|_| "gn".to_owned())
}

/*
 * Get the system's python binary - specified via the PYTHON environment
 * variable or defaulting to `python3`.
 */
fn python() -> String {
  env::var("PYTHON").unwrap_or_else(|_| "python3".to_owned())
}

type NinjaEnv = Vec<(String, String)>;

fn ninja(gn_out_dir: &Path, maybe_env: Option<NinjaEnv>) -> Command {
  let cmd_string = env::var("NINJA").unwrap_or_else(|_| "ninja".to_owned());
  let mut cmd = Command::new(&cmd_string);
  cmd.arg("-C");
  cmd.arg(gn_out_dir);
  if !cmd_string.ends_with("autoninja") {
    if let Ok(jobs) = env::var("NUM_JOBS") {
      cmd.arg("-j");
      cmd.arg(jobs);
    }
  }
  if let Some(env) = maybe_env {
    for item in env {
      cmd.env(item.0, item.1);
    }
  }
  cmd
}

pub type GnArgs = Vec<String>;

pub fn maybe_gen(gn_args: GnArgs) -> PathBuf {
  let dirs = get_dirs();
  let gn_out_dir = dirs.out.join("gn_out");

  if !gn_out_dir.exists() || !gn_out_dir.join("build.ninja").exists() {
    let args = if let Ok(extra_args) = env::var("EXTRA_GN_ARGS") {
      format!("{} {}", gn_args.join(" "), extra_args)
    } else {
      gn_args.join(" ")
    };

    let path = env::current_dir().unwrap();
    println!("The current directory is {}", path.display());
    println!(
      "gn gen --root={} {}",
      dirs.root.display(),
      gn_out_dir.display()
    );
    assert!(Command::new(gn())
      .arg(format!("--root={}", dirs.root.display()))
      .arg(format!("--script-executable={}", python()))
      .arg("gen")
      .arg(&gn_out_dir)
      .arg("--ide=json")
      .arg("--args=".to_owned() + &args)
      .stdout(Stdio::inherit())
      .stderr(Stdio::inherit())
      .envs(env::vars())
      .status()
      .expect("Could not run `gn`")
      .success());
  }
  gn_out_dir
}

pub fn build(target: &str, maybe_env: Option<NinjaEnv>) {
  let gn_out_dir = get_dirs().out.join("gn_out");

  rerun_if_changed(&gn_out_dir, maybe_env.clone(), target);

  // This helps Rust source files locate the snapshot, source map etc.
  println!("cargo:rustc-env=GN_OUT_DIR={}", gn_out_dir.display());

  assert!(ninja(&gn_out_dir, maybe_env)
    .arg(target)
    .status()
    .unwrap()
    .success());

  // TODO This is not sufficent. We need to use "gn desc" to query the target
  // and figure out what else we need to add to the link.
  println!(
    "cargo:rustc-link-search=native={}/obj/",
    gn_out_dir.display()
  );
}

/// build.rs does not get re-run unless we tell cargo about what files we
/// depend on. This outputs a bunch of rerun-if-changed lines to stdout.
fn rerun_if_changed(out_dir: &Path, maybe_env: Option<NinjaEnv>, target: &str) {
  let deps = ninja_get_deps(out_dir, maybe_env, target);
  for d in deps {
    if let Ok(p) = out_dir.join(d).canonicalize() {
      println!("cargo:rerun-if-changed={}", p.display());
    }
  }
}

fn ninja_get_deps(
  out_dir: &Path,
  maybe_env: Option<NinjaEnv>,
  target: &str,
) -> HashSet<String> {
  let mut cmd = ninja(out_dir, maybe_env.clone());
  cmd.arg("-t");
  cmd.arg("graph");
  cmd.arg(target);
  let output = cmd.output().expect("ninja -t graph failed");
  let stdout = String::from_utf8(output.stdout).unwrap();
  let graph_files = parse_ninja_graph(&stdout);

  let mut cmd = ninja(out_dir, maybe_env);
  cmd.arg(target);
  cmd.arg("-t");
  cmd.arg("deps");
  let output = cmd.output().expect("ninja -t deps failed");
  let stdout = String::from_utf8(output.stdout).unwrap();
  let deps_files = parse_ninja_deps(&stdout);

  graph_files.union(&deps_files).map(String::from).collect()
}

pub fn parse_ninja_deps(s: &str) -> HashSet<String> {
  let mut out = HashSet::new();
  for line in s.lines() {
    if line.starts_with("  ") {
      let filename = line.trim().to_string();
      out.insert(filename);
    }
  }
  out
}

/// A parser for the output of "ninja -t graph". It returns all of the input
/// files.
pub fn parse_ninja_graph(s: &str) -> HashSet<String> {
  let mut out = HashSet::new();
  // This is extremely hacky and likely to break.
  for line in s.lines() {
    if line.starts_with('\"')
      && line.contains("label=")
      && !line.contains("shape=")
      && !line.contains(" -> ")
    {
      let filename = line.split('\"').nth(3).unwrap();
      if !filename.starts_with("..") {
        continue;
      }
      out.insert(filename.to_string());
    }
  }
  out
}

fn env_bool(key: &str) -> bool {
  matches!(
    env::var(key).unwrap_or_default().as_str(),
    "true" | "1" | "yes"
  )
}

#[cfg(test)]
mod test {
  use super::*;

  const MOCK_GRAPH: &str = r#"
digraph ninja {
rankdir="LR"
node [fontsize=10, shape=box, height=0.25]
edge [fontsize=10]
"0x7fc3c040c210" [label="default"]
"0x7fc3c040a7f0" -> "0x7fc3c040c210" [label=" phony"]
"0x7fc3c040a7f0" [label="obj/default.stamp"]
"0x7fc3c040a790" [label="stamp", shape=ellipse]
"0x7fc3c040a790" -> "0x7fc3c040a7f0"
"0x7fc3c040a6c0" -> "0x7fc3c040a790" [arrowhead=none]
"0x7fc3c040a8a0" -> "0x7fc3c040a790" [arrowhead=none]
"0x7fc3c040a920" -> "0x7fc3c040a790" [arrowhead=none]
"0x7fc3c040a6c0" [label="obj/count_bytes.stamp"]
"0x7fc3c040a4d0" -> "0x7fc3c040a6c0" [label=" stamp"]
"0x7fc3c040a4d0" [label="gen/output.txt"]
"0x7fc3c040a400" [label="___count_bytes___build_toolchain_mac_clang_x64__rule", shape=ellipse]
"0x7fc3c040a400" -> "0x7fc3c040a4d0"
"0x7fc3c040a580" -> "0x7fc3c040a400" [arrowhead=none]
"0x7fc3c040a620" -> "0x7fc3c040a400" [arrowhead=none]
"0x7fc3c040a580" [label="../../../example/src/count_bytes.py"]
"0x7fc3c040a620" [label="../../../example/src/input.txt"]
"0x7fc3c040a8a0" [label="foo"]
"0x7fc3c040b5e0" [label="link", shape=ellipse]
"0x7fc3c040b5e0" -> "0x7fc3c040a8a0"
"0x7fc3c040b5e0" -> "0x7fc3c040b6d0"
"0x7fc3c040b5e0" -> "0x7fc3c040b780"
"0x7fc3c040b5e0" -> "0x7fc3c040b820"
"0x7fc3c040b020" -> "0x7fc3c040b5e0" [arrowhead=none]
"0x7fc3c040a920" -> "0x7fc3c040b5e0" [arrowhead=none]
"0x7fc3c040b020" [label="obj/foo/foo.o"]
"0x7fc3c040b0d0" -> "0x7fc3c040b020" [label=" cxx"]
"0x7fc3c040b0d0" [label="../../../example/src/foo.cc"]
"0x7fc3c040a920" [label="obj/libhello.a"]
"0x7fc3c040be00" -> "0x7fc3c040a920" [label=" alink"]
"0x7fc3c040be00" [label="obj/hello/hello.o"]
"0x7fc3c040beb0" -> "0x7fc3c040be00" [label=" cxx"]
"0x7fc3c040beb0" [label="../../../example/src/hello.cc"]
}
  "#;

  #[test]
  fn test_parse_ninja_graph() {
    let files = parse_ninja_graph(MOCK_GRAPH);
    assert!(files.contains("../../../example/src/input.txt"));
    assert!(files.contains("../../../example/src/count_bytes.py"));
    assert!(!files.contains("obj/hello/hello.o"));
  }
}