compiler/rustc_metadata/src/fs.rs - toolchain/rustc - Git at Google

 use crate::errors::{
     BinaryOutputToTty, FailedCopyToStdout, FailedCreateEncodedMetadata, FailedCreateFile,
     FailedCreateTempdir, FailedWriteError,
 };
 use crate::{encode_metadata, EncodedMetadata};

 use rustc_data_structures::temp_dir::MaybeTempDir;
 use rustc_middle::ty::TyCtxt;
 use rustc_session::config::{OutFileName, OutputType};
 use rustc_session::output::filename_for_metadata;
 use rustc_session::{MetadataKind, Session};
 use tempfile::Builder as TempFileBuilder;

 use std::path::{Path, PathBuf};
 use std::{fs, io};

 // FIXME(eddyb) maybe include the crate name in this?
 pub const METADATA_FILENAME: &str = "lib.rmeta";

 /// We use a temp directory here to avoid races between concurrent rustc processes,
 /// such as builds in the same directory using the same filename for metadata while
 /// building an `.rlib` (stomping over one another), or writing an `.rmeta` into a
 /// directory being searched for `extern crate` (observing an incomplete file).
 /// The returned path is the temporary file containing the complete metadata.
 pub fn emit_wrapper_file(
     sess: &Session,
     data: &[u8],
     tmpdir: &MaybeTempDir,
     name: &str,
 ) -> PathBuf {
     let out_filename = tmpdir.as_ref().join(name);
     let result = fs::write(&out_filename, data);

     if let Err(err) = result {
         sess.emit_fatal(FailedWriteError { filename: out_filename, err });
     }

     out_filename
 }

 pub fn encode_and_write_metadata(tcx: TyCtxt<'_>) -> (EncodedMetadata, bool) {
     let out_filename = filename_for_metadata(tcx.sess, tcx.output_filenames(()));
     // To avoid races with another rustc process scanning the output directory,
     // we need to write the file somewhere else and atomically move it to its
     // final destination, with an `fs::rename` call. In order for the rename to
     // always succeed, the temporary file needs to be on the same filesystem,
     // which is why we create it inside the output directory specifically.
     let metadata_tmpdir = TempFileBuilder::new()
         .prefix("rmeta")
         .tempdir_in(out_filename.parent().unwrap_or_else(|| Path::new("")))
         .unwrap_or_else(|err| tcx.sess.emit_fatal(FailedCreateTempdir { err }));
     let metadata_tmpdir = MaybeTempDir::new(metadata_tmpdir, tcx.sess.opts.cg.save_temps);
     let metadata_filename = metadata_tmpdir.as_ref().join(METADATA_FILENAME);

     // Always create a file at `metadata_filename`, even if we have nothing to write to it.
     // This simplifies the creation of the output `out_filename` when requested.
     let metadata_kind = tcx.metadata_kind();
     match metadata_kind {
         MetadataKind::None => {
             std::fs::File::create(&metadata_filename).unwrap_or_else(|err| {
                 tcx.sess.emit_fatal(FailedCreateFile { filename: &metadata_filename, err });
             });
         }
         MetadataKind::Uncompressed | MetadataKind::Compressed => {
             encode_metadata(tcx, &metadata_filename);
         }
     };

     let _prof_timer = tcx.sess.prof.generic_activity("write_crate_metadata");

     // If the user requests metadata as output, rename `metadata_filename`
     // to the expected output `out_filename`. The match above should ensure
     // this file always exists.
     let need_metadata_file = tcx.sess.opts.output_types.contains_key(&OutputType::Metadata);
     let (metadata_filename, metadata_tmpdir) = if need_metadata_file {
         let filename = match out_filename {
             OutFileName::Real(ref path) => {
                 if let Err(err) = non_durable_rename(&metadata_filename, path) {
                     tcx.sess.emit_fatal(FailedWriteError { filename: path.to_path_buf(), err });
                 }
                 path.clone()
             }
             OutFileName::Stdout => {
                 if out_filename.is_tty() {
                     tcx.sess.emit_err(BinaryOutputToTty);
                 } else if let Err(err) = copy_to_stdout(&metadata_filename) {
                     tcx.sess
                         .emit_err(FailedCopyToStdout { filename: metadata_filename.clone(), err });
                 }
                 metadata_filename
             }
         };
         if tcx.sess.opts.json_artifact_notifications {
             tcx.sess
                 .parse_sess
                 .span_diagnostic
                 .emit_artifact_notification(&out_filename.as_path(), "metadata");
         }
         (filename, None)
     } else {
         (metadata_filename, Some(metadata_tmpdir))
     };

     // Load metadata back to memory: codegen may need to include it in object files.
     let metadata =
         EncodedMetadata::from_path(metadata_filename, metadata_tmpdir).unwrap_or_else(|err| {
             tcx.sess.emit_fatal(FailedCreateEncodedMetadata { err });
         });

     let need_metadata_module = metadata_kind == MetadataKind::Compressed;

     (metadata, need_metadata_module)
 }

 #[cfg(not(target_os = "linux"))]
 pub fn non_durable_rename(src: &Path, dst: &Path) -> std::io::Result<()> {
     std::fs::rename(src, dst)
 }

 /// This function attempts to bypass the auto_da_alloc heuristic implemented by some filesystems
 /// such as btrfs and ext4. When renaming over a file that already exists then they will "helpfully"
 /// write back the source file before committing the rename in case a developer forgot some of
 /// the fsyncs in the open/write/fsync(file)/rename/fsync(dir) dance for atomic file updates.
 ///
 /// To avoid triggering this heuristic we delete the destination first, if it exists.
 /// The cost of an extra syscall is much lower than getting descheduled for the sync IO.
 #[cfg(target_os = "linux")]
 pub fn non_durable_rename(src: &Path, dst: &Path) -> std::io::Result<()> {
     let _ = std::fs::remove_file(dst);
     std::fs::rename(src, dst)
 }

 pub fn copy_to_stdout(from: &Path) -> io::Result<()> {
     let file = fs::File::open(from)?;
     let mut reader = io::BufReader::new(file);
     let mut stdout = io::stdout();
     io::copy(&mut reader, &mut stdout)?;
     Ok(())
 }
	use crate::errors::{
	BinaryOutputToTty, FailedCopyToStdout, FailedCreateEncodedMetadata, FailedCreateFile,
	FailedCreateTempdir, FailedWriteError,
	};
	use crate::{encode_metadata, EncodedMetadata};

	use rustc_data_structures::temp_dir::MaybeTempDir;
	use rustc_middle::ty::TyCtxt;
	use rustc_session::config::{OutFileName, OutputType};
	use rustc_session::output::filename_for_metadata;
	use rustc_session::{MetadataKind, Session};
	use tempfile::Builder as TempFileBuilder;

	use std::path::{Path, PathBuf};
	use std::{fs, io};

	// FIXME(eddyb) maybe include the crate name in this?
	pub const METADATA_FILENAME: &str = "lib.rmeta";

	/// We use a temp directory here to avoid races between concurrent rustc processes,
	/// such as builds in the same directory using the same filename for metadata while
	/// building an `.rlib` (stomping over one another), or writing an `.rmeta` into a
	/// directory being searched for `extern crate` (observing an incomplete file).
	/// The returned path is the temporary file containing the complete metadata.
	pub fn emit_wrapper_file(
	sess: &Session,
	data: &[u8],
	tmpdir: &MaybeTempDir,
	name: &str,
	) -> PathBuf {
	let out_filename = tmpdir.as_ref().join(name);
	let result = fs::write(&out_filename, data);

	if let Err(err) = result {
	sess.emit_fatal(FailedWriteError { filename: out_filename, err });
	}

	out_filename
	}

	pub fn encode_and_write_metadata(tcx: TyCtxt<'_>) -> (EncodedMetadata, bool) {
	let out_filename = filename_for_metadata(tcx.sess, tcx.output_filenames(()));
	// To avoid races with another rustc process scanning the output directory,
	// we need to write the file somewhere else and atomically move it to its
	// final destination, with an `fs::rename` call. In order for the rename to
	// always succeed, the temporary file needs to be on the same filesystem,
	// which is why we create it inside the output directory specifically.
	let metadata_tmpdir = TempFileBuilder::new()
	.prefix("rmeta")
	.tempdir_in(out_filename.parent().unwrap_or_else(\|\| Path::new("")))
	.unwrap_or_else(\|err\| tcx.sess.emit_fatal(FailedCreateTempdir { err }));
	let metadata_tmpdir = MaybeTempDir::new(metadata_tmpdir, tcx.sess.opts.cg.save_temps);
	let metadata_filename = metadata_tmpdir.as_ref().join(METADATA_FILENAME);

	// Always create a file at `metadata_filename`, even if we have nothing to write to it.
	// This simplifies the creation of the output `out_filename` when requested.
	let metadata_kind = tcx.metadata_kind();
	match metadata_kind {
	MetadataKind::None => {
	std::fs::File::create(&metadata_filename).unwrap_or_else(\|err\| {
	tcx.sess.emit_fatal(FailedCreateFile { filename: &metadata_filename, err });
	});
	}
	MetadataKind::Uncompressed \| MetadataKind::Compressed => {
	encode_metadata(tcx, &metadata_filename);
	}
	};

	let _prof_timer = tcx.sess.prof.generic_activity("write_crate_metadata");

	// If the user requests metadata as output, rename `metadata_filename`
	// to the expected output `out_filename`. The match above should ensure
	// this file always exists.
	let need_metadata_file = tcx.sess.opts.output_types.contains_key(&OutputType::Metadata);
	let (metadata_filename, metadata_tmpdir) = if need_metadata_file {
	let filename = match out_filename {
	OutFileName::Real(ref path) => {
	if let Err(err) = non_durable_rename(&metadata_filename, path) {
	tcx.sess.emit_fatal(FailedWriteError { filename: path.to_path_buf(), err });
	}
	path.clone()
	}
	OutFileName::Stdout => {
	if out_filename.is_tty() {
	tcx.sess.emit_err(BinaryOutputToTty);
	} else if let Err(err) = copy_to_stdout(&metadata_filename) {
	tcx.sess
	.emit_err(FailedCopyToStdout { filename: metadata_filename.clone(), err });
	}
	metadata_filename
	}
	};
	if tcx.sess.opts.json_artifact_notifications {
	tcx.sess
	.parse_sess
	.span_diagnostic
	.emit_artifact_notification(&out_filename.as_path(), "metadata");
	}
	(filename, None)
	} else {
	(metadata_filename, Some(metadata_tmpdir))
	};

	// Load metadata back to memory: codegen may need to include it in object files.
	let metadata =
	EncodedMetadata::from_path(metadata_filename, metadata_tmpdir).unwrap_or_else(\|err\| {
	tcx.sess.emit_fatal(FailedCreateEncodedMetadata { err });
	});

	let need_metadata_module = metadata_kind == MetadataKind::Compressed;

	(metadata, need_metadata_module)
	}

	#[cfg(not(target_os = "linux"))]
	pub fn non_durable_rename(src: &Path, dst: &Path) -> std::io::Result<()> {
	std::fs::rename(src, dst)
	}

	/// This function attempts to bypass the auto_da_alloc heuristic implemented by some filesystems
	/// such as btrfs and ext4. When renaming over a file that already exists then they will "helpfully"
	/// write back the source file before committing the rename in case a developer forgot some of
	/// the fsyncs in the open/write/fsync(file)/rename/fsync(dir) dance for atomic file updates.
	///
	/// To avoid triggering this heuristic we delete the destination first, if it exists.
	/// The cost of an extra syscall is much lower than getting descheduled for the sync IO.
	#[cfg(target_os = "linux")]
	pub fn non_durable_rename(src: &Path, dst: &Path) -> std::io::Result<()> {
	let _ = std::fs::remove_file(dst);
	std::fs::rename(src, dst)
	}

	pub fn copy_to_stdout(from: &Path) -> io::Result<()> {
	let file = fs::File::open(from)?;
	let mut reader = io::BufReader::new(file);
	let mut stdout = io::stdout();
	io::copy(&mut reader, &mut stdout)?;
	Ok(())
	}