compiler/rustc_incremental/src/persist/file_format.rs - toolchain/rustc - Git at Google

 //! This module defines a generic file format that allows to check if a given
 //! file generated by incremental compilation was generated by a compatible
 //! compiler version. This file format is used for the on-disk version of the
 //! dependency graph and the exported metadata hashes.
 //!
 //! In practice "compatible compiler version" means "exactly the same compiler
 //! version", since the header encodes the git commit hash of the compiler.
 //! Since we can always just ignore the incremental compilation cache and
 //! compiler versions don't change frequently for the typical user, being
 //! conservative here practically has no downside.

 use crate::errors;
 use rustc_data_structures::memmap::Mmap;
 use rustc_serialize::opaque::{FileEncodeResult, FileEncoder};
 use rustc_serialize::Encoder;
 use rustc_session::Session;
 use std::borrow::Cow;
 use std::env;
 use std::fs;
 use std::io::{self, Read};
 use std::path::{Path, PathBuf};

 /// The first few bytes of files generated by incremental compilation.
 const FILE_MAGIC: &[u8] = b"RSIC";

 /// Change this if the header format changes.
 const HEADER_FORMAT_VERSION: u16 = 0;

 pub(crate) fn write_file_header(stream: &mut FileEncoder, sess: &Session) {
     stream.emit_raw_bytes(FILE_MAGIC);
     stream
         .emit_raw_bytes(&[(HEADER_FORMAT_VERSION >> 0) as u8, (HEADER_FORMAT_VERSION >> 8) as u8]);

     let rustc_version = rustc_version(sess.is_nightly_build(), sess.cfg_version);
     assert_eq!(rustc_version.len(), (rustc_version.len() as u8) as usize);
     stream.emit_raw_bytes(&[rustc_version.len() as u8]);
     stream.emit_raw_bytes(rustc_version.as_bytes());
 }

 pub(crate) fn save_in<F>(sess: &Session, path_buf: PathBuf, name: &str, encode: F)
 where
     F: FnOnce(FileEncoder) -> FileEncodeResult,
 {
     debug!("save: storing data in {}", path_buf.display());

     // Delete the old file, if any.
     // Note: It's important that we actually delete the old file and not just
     // truncate and overwrite it, since it might be a shared hard-link, the
     // underlying data of which we don't want to modify.
     //
     // We have to ensure we have dropped the memory maps to this file
     // before performing this removal.
     match fs::remove_file(&path_buf) {
         Ok(()) => {
             debug!("save: remove old file");
         }
         Err(err) if err.kind() == io::ErrorKind::NotFound => (),
         Err(err) => sess.dcx().emit_fatal(errors::DeleteOld { name, path: path_buf, err }),
     }

     let mut encoder = match FileEncoder::new(&path_buf) {
         Ok(encoder) => encoder,
         Err(err) => sess.dcx().emit_fatal(errors::CreateNew { name, path: path_buf, err }),
     };

     write_file_header(&mut encoder, sess);

     match encode(encoder) {
         Ok(position) => {
             sess.prof.artifact_size(
                 &name.replace(' ', "_"),
                 path_buf.file_name().unwrap().to_string_lossy(),
                 position as u64,
             );
             debug!("save: data written to disk successfully");
         }
         Err((path, err)) => sess.dcx().emit_fatal(errors::WriteNew { name, path, err }),
     }
 }

 /// Reads the contents of a file with a file header as defined in this module.
 ///
 /// - Returns `Ok(Some(data, pos))` if the file existed and was generated by a
 ///   compatible compiler version. `data` is the entire contents of the file
 ///   and `pos` points to the first byte after the header.
 /// - Returns `Ok(None)` if the file did not exist or was generated by an
 ///   incompatible version of the compiler.
 /// - Returns `Err(..)` if some kind of IO error occurred while reading the
 ///   file.
 pub fn read_file(
     path: &Path,
     report_incremental_info: bool,
     is_nightly_build: bool,
     cfg_version: &'static str,
 ) -> io::Result<Option<(Mmap, usize)>> {
     let file = match fs::File::open(path) {
         Ok(file) => file,
         Err(err) if err.kind() == io::ErrorKind::NotFound => return Ok(None),
         Err(err) => return Err(err),
     };
     // SAFETY: This process must not modify nor remove the backing file while the memory map lives.
     // For the dep-graph and the work product index, it is as soon as the decoding is done.
     // For the query result cache, the memory map is dropped in save_dep_graph before calling
     // save_in and trying to remove the backing file.
     //
     // There is no way to prevent another process from modifying this file.
     let mmap = unsafe { Mmap::map(file) }?;

     let mut file = io::Cursor::new(&*mmap);

     // Check FILE_MAGIC
     {
         debug_assert!(FILE_MAGIC.len() == 4);
         let mut file_magic = [0u8; 4];
         file.read_exact(&mut file_magic)?;
         if file_magic != FILE_MAGIC {
             report_format_mismatch(report_incremental_info, path, "Wrong FILE_MAGIC");
             return Ok(None);
         }
     }

     // Check HEADER_FORMAT_VERSION
     {
         debug_assert!(::std::mem::size_of_val(&HEADER_FORMAT_VERSION) == 2);
         let mut header_format_version = [0u8; 2];
         file.read_exact(&mut header_format_version)?;
         let header_format_version =
             (header_format_version[0] as u16) | ((header_format_version[1] as u16) << 8);

         if header_format_version != HEADER_FORMAT_VERSION {
             report_format_mismatch(report_incremental_info, path, "Wrong HEADER_FORMAT_VERSION");
             return Ok(None);
         }
     }

     // Check RUSTC_VERSION
     {
         let mut rustc_version_str_len = [0u8; 1];
         file.read_exact(&mut rustc_version_str_len)?;
         let rustc_version_str_len = rustc_version_str_len[0] as usize;
         let mut buffer = vec![0; rustc_version_str_len];
         file.read_exact(&mut buffer)?;

         if buffer != rustc_version(is_nightly_build, cfg_version).as_bytes() {
             report_format_mismatch(report_incremental_info, path, "Different compiler version");
             return Ok(None);
         }
     }

     let post_header_start_pos = file.position() as usize;
     Ok(Some((mmap, post_header_start_pos)))
 }

 fn report_format_mismatch(report_incremental_info: bool, file: &Path, message: &str) {
     debug!("read_file: {}", message);

     if report_incremental_info {
         eprintln!(
             "[incremental] ignoring cache artifact `{}`: {}",
             file.file_name().unwrap().to_string_lossy(),
             message
         );
     }
 }

 /// A version string that hopefully is always different for compiler versions
 /// with different encodings of incremental compilation artifacts. Contains
 /// the Git commit hash.
 fn rustc_version(nightly_build: bool, cfg_version: &'static str) -> Cow<'static, str> {
     if nightly_build {
         if let Ok(val) = env::var("RUSTC_FORCE_RUSTC_VERSION") {
             return val.into();
         }
     }

     cfg_version.into()
 }
	//! This module defines a generic file format that allows to check if a given
	//! file generated by incremental compilation was generated by a compatible
	//! compiler version. This file format is used for the on-disk version of the
	//! dependency graph and the exported metadata hashes.
	//!
	//! In practice "compatible compiler version" means "exactly the same compiler
	//! version", since the header encodes the git commit hash of the compiler.
	//! Since we can always just ignore the incremental compilation cache and
	//! compiler versions don't change frequently for the typical user, being
	//! conservative here practically has no downside.

	use crate::errors;
	use rustc_data_structures::memmap::Mmap;
	use rustc_serialize::opaque::{FileEncodeResult, FileEncoder};
	use rustc_serialize::Encoder;
	use rustc_session::Session;
	use std::borrow::Cow;
	use std::env;
	use std::fs;
	use std::io::{self, Read};
	use std::path::{Path, PathBuf};

	/// The first few bytes of files generated by incremental compilation.
	const FILE_MAGIC: &[u8] = b"RSIC";

	/// Change this if the header format changes.
	const HEADER_FORMAT_VERSION: u16 = 0;

	pub(crate) fn write_file_header(stream: &mut FileEncoder, sess: &Session) {
	stream.emit_raw_bytes(FILE_MAGIC);
	stream
	.emit_raw_bytes(&[(HEADER_FORMAT_VERSION >> 0) as u8, (HEADER_FORMAT_VERSION >> 8) as u8]);

	let rustc_version = rustc_version(sess.is_nightly_build(), sess.cfg_version);
	assert_eq!(rustc_version.len(), (rustc_version.len() as u8) as usize);
	stream.emit_raw_bytes(&[rustc_version.len() as u8]);
	stream.emit_raw_bytes(rustc_version.as_bytes());
	}

	pub(crate) fn save_in<F>(sess: &Session, path_buf: PathBuf, name: &str, encode: F)
	where
	F: FnOnce(FileEncoder) -> FileEncodeResult,
	{
	debug!("save: storing data in {}", path_buf.display());

	// Delete the old file, if any.
	// Note: It's important that we actually delete the old file and not just
	// truncate and overwrite it, since it might be a shared hard-link, the
	// underlying data of which we don't want to modify.
	//
	// We have to ensure we have dropped the memory maps to this file
	// before performing this removal.
	match fs::remove_file(&path_buf) {
	Ok(()) => {
	debug!("save: remove old file");
	}
	Err(err) if err.kind() == io::ErrorKind::NotFound => (),
	Err(err) => sess.dcx().emit_fatal(errors::DeleteOld { name, path: path_buf, err }),
	}

	let mut encoder = match FileEncoder::new(&path_buf) {
	Ok(encoder) => encoder,
	Err(err) => sess.dcx().emit_fatal(errors::CreateNew { name, path: path_buf, err }),
	};

	write_file_header(&mut encoder, sess);

	match encode(encoder) {
	Ok(position) => {
	sess.prof.artifact_size(
	&name.replace(' ', "_"),
	path_buf.file_name().unwrap().to_string_lossy(),
	position as u64,
	);
	debug!("save: data written to disk successfully");
	}
	Err((path, err)) => sess.dcx().emit_fatal(errors::WriteNew { name, path, err }),
	}
	}

	/// Reads the contents of a file with a file header as defined in this module.
	///
	/// - Returns `Ok(Some(data, pos))` if the file existed and was generated by a
	/// compatible compiler version. `data` is the entire contents of the file
	/// and `pos` points to the first byte after the header.
	/// - Returns `Ok(None)` if the file did not exist or was generated by an
	/// incompatible version of the compiler.
	/// - Returns `Err(..)` if some kind of IO error occurred while reading the
	/// file.
	pub fn read_file(
	path: &Path,
	report_incremental_info: bool,
	is_nightly_build: bool,
	cfg_version: &'static str,
	) -> io::Result<Option<(Mmap, usize)>> {
	let file = match fs::File::open(path) {
	Ok(file) => file,
	Err(err) if err.kind() == io::ErrorKind::NotFound => return Ok(None),
	Err(err) => return Err(err),
	};
	// SAFETY: This process must not modify nor remove the backing file while the memory map lives.
	// For the dep-graph and the work product index, it is as soon as the decoding is done.
	// For the query result cache, the memory map is dropped in save_dep_graph before calling
	// save_in and trying to remove the backing file.
	//
	// There is no way to prevent another process from modifying this file.
	let mmap = unsafe { Mmap::map(file) }?;

	let mut file = io::Cursor::new(&*mmap);

	// Check FILE_MAGIC
	{
	debug_assert!(FILE_MAGIC.len() == 4);
	let mut file_magic = [0u8; 4];
	file.read_exact(&mut file_magic)?;
	if file_magic != FILE_MAGIC {
	report_format_mismatch(report_incremental_info, path, "Wrong FILE_MAGIC");
	return Ok(None);
	}
	}

	// Check HEADER_FORMAT_VERSION
	{
	debug_assert!(::std::mem::size_of_val(&HEADER_FORMAT_VERSION) == 2);
	let mut header_format_version = [0u8; 2];
	file.read_exact(&mut header_format_version)?;
	let header_format_version =
	(header_format_version[0] as u16) \| ((header_format_version[1] as u16) << 8);

	if header_format_version != HEADER_FORMAT_VERSION {
	report_format_mismatch(report_incremental_info, path, "Wrong HEADER_FORMAT_VERSION");
	return Ok(None);
	}
	}

	// Check RUSTC_VERSION
	{
	let mut rustc_version_str_len = [0u8; 1];
	file.read_exact(&mut rustc_version_str_len)?;
	let rustc_version_str_len = rustc_version_str_len[0] as usize;
	let mut buffer = vec![0; rustc_version_str_len];
	file.read_exact(&mut buffer)?;

	if buffer != rustc_version(is_nightly_build, cfg_version).as_bytes() {
	report_format_mismatch(report_incremental_info, path, "Different compiler version");
	return Ok(None);
	}
	}

	let post_header_start_pos = file.position() as usize;
	Ok(Some((mmap, post_header_start_pos)))
	}

	fn report_format_mismatch(report_incremental_info: bool, file: &Path, message: &str) {
	debug!("read_file: {}", message);

	if report_incremental_info {
	eprintln!(
	"[incremental] ignoring cache artifact `{}`: {}",
	file.file_name().unwrap().to_string_lossy(),
	message
	);
	}
	}

	/// A version string that hopefully is always different for compiler versions
	/// with different encodings of incremental compilation artifacts. Contains
	/// the Git commit hash.
	fn rustc_version(nightly_build: bool, cfg_version: &'static str) -> Cow<'static, str> {
	if nightly_build {
	if let Ok(val) = env::var("RUSTC_FORCE_RUSTC_VERSION") {
	return val.into();
	}
	}

	cfg_version.into()
	}