upstream/mercurial-mirror Files · rust/hg-core/src/dirstate/parsers.rs

status: keep second-ambiguous mtimes during fixup...

status: keep second-ambiguous mtimes during fixup Now that we support the feature, we can keep "second ambiguous" mtime during the fixup phase. These are the mtime that would be ambiguous if we did not had sub-second précions. See the v2 format documentation for details. Differential Revision: https://phab.mercurial-scm.org/D11847

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             parsers.rs
        
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                | application/rls-services+xml
            
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             / rust / hg-core / src / dirstate / parsers.rs
          
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      // Copyright 2019 Raphaël Gomès <rgomes@octobus.net>

      //

      // This software may be used and distributed according to the terms of the

      // GNU General Public License version 2 or any later version.

      use crate::errors::HgError;

      use crate::utils::hg_path::HgPath;

      use crate::{dirstate::EntryState, DirstateEntry, DirstateParents};

      use byteorder::{BigEndian, WriteBytesExt};

      use bytes_cast::{unaligned, BytesCast};

      use micro_timer::timed;

      use std::convert::TryFrom;

      /// Parents are stored in the dirstate as byte hashes.

      pub const PARENT_SIZE: usize = 20;

      /// Dirstate entries have a static part of 8 + 32 + 32 + 32 + 32 bits.

      const MIN_ENTRY_SIZE: usize = 17;

      type ParseResult<'a> = (

          &'a DirstateParents,

          Vec<(&'a HgPath, DirstateEntry)>,

          Vec<(&'a HgPath, &'a HgPath)>,

      );

      pub fn parse_dirstate_parents(

          contents: &[u8],

      ) -> Result<&DirstateParents, HgError> {

          let (parents, _rest) = DirstateParents::from_bytes(contents)

              .map_err(|_| HgError::corrupted("Too little data for dirstate."))?;

          Ok(parents)

      }

      #[timed]

      pub fn parse_dirstate(contents: &[u8]) -> Result<ParseResult, HgError> {

          let mut copies = Vec::new();

          let mut entries = Vec::new();

          let parents =

              parse_dirstate_entries(contents, |path, entry, copy_source| {

                  if let Some(source) = copy_source {

                      copies.push((path, source));

                  }

                  entries.push((path, *entry));

                  Ok(())

              })?;

          Ok((parents, entries, copies))

      }

      #[derive(BytesCast)]

      #[repr(C)]

      struct RawEntry {

          state: u8,

          mode: unaligned::I32Be,

          size: unaligned::I32Be,

          mtime: unaligned::I32Be,

          length: unaligned::I32Be,

      }

      pub fn parse_dirstate_entries<'a>(

          mut contents: &'a [u8],

          mut each_entry: impl FnMut(

              &'a HgPath,

              &DirstateEntry,

              Option<&'a HgPath>,

          ) -> Result<(), HgError>,

      ) -> Result<&'a DirstateParents, HgError> {

          let (parents, rest) = DirstateParents::from_bytes(contents)

              .map_err(|_| HgError::corrupted("Too little data for dirstate."))?;

          contents = rest;

          while !contents.is_empty() {

              let (raw_entry, rest) = RawEntry::from_bytes(contents)

                  .map_err(|_| HgError::corrupted("Overflow in dirstate."))?;

              let entry = DirstateEntry::from_v1_data(

                  EntryState::try_from(raw_entry.state)?,

                  raw_entry.mode.get(),

                  raw_entry.size.get(),

                  raw_entry.mtime.get(),

              );

              let (paths, rest) =

                  u8::slice_from_bytes(rest, raw_entry.length.get() as usize)

                      .map_err(|_| HgError::corrupted("Overflow in dirstate."))?;

              // `paths` is either a single path, or two paths separated by a NULL

              // byte

              let mut iter = paths.splitn(2, |&byte| byte == b'\0');

              let path = HgPath::new(

                  iter.next().expect("splitn always yields at least one item"),

              );

              let copy_source = iter.next().map(HgPath::new);

              each_entry(path, &entry, copy_source)?;

              contents = rest;

          }

          Ok(parents)

      }

      fn packed_filename_and_copy_source_size(

          filename: &HgPath,

          copy_source: Option<&HgPath>,

      ) -> usize {

          filename.len()

              + if let Some(source) = copy_source {

                  b"\0".len() + source.len()

              } else {

                  0

              }

      }

      pub fn packed_entry_size(

          filename: &HgPath,

          copy_source: Option<&HgPath>,

      ) -> usize {

          MIN_ENTRY_SIZE

              + packed_filename_and_copy_source_size(filename, copy_source)

      }

      pub fn pack_entry(

          filename: &HgPath,

          entry: &DirstateEntry,

          copy_source: Option<&HgPath>,

          packed: &mut Vec<u8>,

      ) {

          let length = packed_filename_and_copy_source_size(filename, copy_source);

          let (state, mode, size, mtime) = entry.v1_data();

          // Unwrapping because `impl std::io::Write for Vec<u8>` never errors

          packed.write_u8(state).unwrap();

          packed.write_i32::<BigEndian>(mode).unwrap();

          packed.write_i32::<BigEndian>(size).unwrap();

          packed.write_i32::<BigEndian>(mtime).unwrap();

          packed.write_i32::<BigEndian>(length as i32).unwrap();

          packed.extend(filename.as_bytes());

          if let Some(source) = copy_source {

              packed.push(b'\0');

              packed.extend(source.as_bytes());

          }

      }

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				// Copyright 2019 Raphaël Gomès <rgomes@octobus.net>
				//
				// This software may be used and distributed according to the terms of the
				// GNU General Public License version 2 or any later version.

				use crate::errors::HgError;
				use crate::utils::hg_path::HgPath;
				use crate::{dirstate::EntryState, DirstateEntry, DirstateParents};
				use byteorder::{BigEndian, WriteBytesExt};
				use bytes_cast::{unaligned, BytesCast};
				use micro_timer::timed;
				use std::convert::TryFrom;

				/// Parents are stored in the dirstate as byte hashes.
				pub const PARENT_SIZE: usize = 20;
				/// Dirstate entries have a static part of 8 + 32 + 32 + 32 + 32 bits.
				const MIN_ENTRY_SIZE: usize = 17;

				type ParseResult<'a> = (
				&'a DirstateParents,
				Vec<(&'a HgPath, DirstateEntry)>,
				Vec<(&'a HgPath, &'a HgPath)>,
				);

				pub fn parse_dirstate_parents(
				contents: &[u8],
				) -> Result<&DirstateParents, HgError> {
				let (parents, _rest) = DirstateParents::from_bytes(contents)
				.map_err(\|_\| HgError::corrupted("Too little data for dirstate."))?;
				Ok(parents)
				}

				#[timed]
				pub fn parse_dirstate(contents: &[u8]) -> Result<ParseResult, HgError> {
				let mut copies = Vec::new();
				let mut entries = Vec::new();
				let parents =
				parse_dirstate_entries(contents, \|path, entry, copy_source\| {
				if let Some(source) = copy_source {
				copies.push((path, source));
				}
				entries.push((path, *entry));
				Ok(())
				})?;
				Ok((parents, entries, copies))
				}

				#[derive(BytesCast)]
				#[repr(C)]
				struct RawEntry {
				state: u8,
				mode: unaligned::I32Be,
				size: unaligned::I32Be,
				mtime: unaligned::I32Be,
				length: unaligned::I32Be,
				}

				pub fn parse_dirstate_entries<'a>(
				mut contents: &'a [u8],
				mut each_entry: impl FnMut(
				&'a HgPath,
				&DirstateEntry,
				Option<&'a HgPath>,
				) -> Result<(), HgError>,
				) -> Result<&'a DirstateParents, HgError> {
				let (parents, rest) = DirstateParents::from_bytes(contents)
				.map_err(\|_\| HgError::corrupted("Too little data for dirstate."))?;
				contents = rest;
				while !contents.is_empty() {
				let (raw_entry, rest) = RawEntry::from_bytes(contents)
				.map_err(\|_\| HgError::corrupted("Overflow in dirstate."))?;

				let entry = DirstateEntry::from_v1_data(
				EntryState::try_from(raw_entry.state)?,
				raw_entry.mode.get(),
				raw_entry.size.get(),
				raw_entry.mtime.get(),
				);
				let (paths, rest) =
				u8::slice_from_bytes(rest, raw_entry.length.get() as usize)
				.map_err(\|_\| HgError::corrupted("Overflow in dirstate."))?;

				// `paths` is either a single path, or two paths separated by a NULL
				// byte
				let mut iter = paths.splitn(2, \|&byte\| byte == b'\0');
				let path = HgPath::new(
				iter.next().expect("splitn always yields at least one item"),
				);
				let copy_source = iter.next().map(HgPath::new);
				each_entry(path, &entry, copy_source)?;

				contents = rest;
				}
				Ok(parents)
				}

				fn packed_filename_and_copy_source_size(
				filename: &HgPath,
				copy_source: Option<&HgPath>,
				) -> usize {
				filename.len()
				+ if let Some(source) = copy_source {
				b"\0".len() + source.len()
				} else {
				0
				}
				}

				pub fn packed_entry_size(
				filename: &HgPath,
				copy_source: Option<&HgPath>,
				) -> usize {
				MIN_ENTRY_SIZE
				+ packed_filename_and_copy_source_size(filename, copy_source)
				}

				pub fn pack_entry(
				filename: &HgPath,
				entry: &DirstateEntry,
				copy_source: Option<&HgPath>,
				packed: &mut Vec<u8>,
				) {
				let length = packed_filename_and_copy_source_size(filename, copy_source);
				let (state, mode, size, mtime) = entry.v1_data();

				// Unwrapping because `impl std::io::Write for Vec<u8>` never errors
				packed.write_u8(state).unwrap();
				packed.write_i32::<BigEndian>(mode).unwrap();
				packed.write_i32::<BigEndian>(size).unwrap();
				packed.write_i32::<BigEndian>(mtime).unwrap();
				packed.write_i32::<BigEndian>(length as i32).unwrap();
				packed.extend(filename.as_bytes());
				if let Some(source) = copy_source {
				packed.push(b'\0');
				packed.extend(source.as_bytes());
				}
				}