// Copyright 2019 Raphaël Gomès // // 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}; /// 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) } #[logging_timer::time("trace")] pub fn parse_dirstate(contents: &[u8]) -> Result { 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, ) { 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` never errors packed.write_u8(state).unwrap(); packed.write_i32::(mode).unwrap(); packed.write_i32::(size).unwrap(); packed.write_i32::(mtime).unwrap(); packed.write_i32::(length as i32).unwrap(); packed.extend(filename.as_bytes()); if let Some(source) = copy_source { packed.push(b'\0'); packed.extend(source.as_bytes()); } }