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revlog: update data file record before index rename...
revlog: update data file record before index rename When migrating from inline to non-inline data storage, the data file is recorded initially as zero sized so that it is removed on failure. But the record has to be updated before the index is renamed, otherwise data is lost on rollback. Differential Revision: https://phab.mercurial-scm.org/D10725
Simon Sapin - - Load All Authors

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on_disk.rs
335 lines | 10.8 KiB | application/rls-services+xml | RustLexer
/ rust / hg-core / src / dirstate_tree / on_disk.rs
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//! The "version 2" disk representation of the dirstate
//!
//! # File format
//!
//! The file starts with a fixed-sized header, whose layout is defined by the
//! `Header` struct. Its `root` field contains the slice (offset and length) to
//! the nodes representing the files and directories at the root of the
//! repository. Each node is also fixed-size, defined by the `Node` struct.
//! Nodes in turn contain slices to variable-size paths, and to their own child
//! nodes (if any) for nested files and directories.
use crate::dirstate::parsers::clear_ambiguous_mtime;
use crate::dirstate::parsers::Timestamp;
use crate::dirstate_tree::dirstate_map::{self, DirstateMap};
use crate::dirstate_tree::path_with_basename::WithBasename;
use crate::errors::HgError;
use crate::utils::hg_path::HgPath;
use crate::DirstateEntry;
use crate::DirstateError;
use crate::DirstateParents;
use bytes_cast::unaligned::{I32Be, U32Be, U64Be};
use bytes_cast::BytesCast;
use std::borrow::Cow;
use std::convert::{TryFrom, TryInto};
/// Added at the start of `.hg/dirstate` when the "v2" format is used.
/// This a redundant sanity check more than an actual "magic number" since
/// `.hg/requires` already governs which format should be used.
pub const V2_FORMAT_MARKER: &[u8; 12] = b"dirstate-v2\n";
#[derive(BytesCast)]
#[repr(C)]
struct Header {
marker: [u8; V2_FORMAT_MARKER.len()],
/// `dirstatemap.parents()` in `mercurial/dirstate.py` relies on this
/// `parents` field being at this offset, immediately after `marker`.
parents: DirstateParents,
root: ChildNodes,
nodes_with_entry_count: Size,
nodes_with_copy_source_count: Size,
}
#[derive(BytesCast)]
#[repr(C)]
struct Node {
full_path: PathSlice,
/// In bytes from `self.full_path.start`
base_name_start: Size,
copy_source: OptPathSlice,
entry: OptEntry,
children: ChildNodes,
tracked_descendants_count: Size,
}
/// Either nothing if `state == b'\0'`, or a dirstate entry like in the v1
/// format
#[derive(BytesCast)]
#[repr(C)]
struct OptEntry {
state: u8,
mode: I32Be,
mtime: I32Be,
size: I32Be,
}
/// Counted in bytes from the start of the file
///
/// NOTE: If we decide to never support `.hg/dirstate` files larger than 4 GiB
/// we could save space by using `U32Be` instead.
type Offset = U64Be;
/// Counted in number of items
///
/// NOTE: not supporting directories with more than 4 billion direct children,
/// or filenames more than 4 GiB.
type Size = U32Be;
/// Location of consecutive, fixed-size items.
///
/// An item can be a single byte for paths, or a struct with
/// `derive(BytesCast)`.
#[derive(BytesCast, Copy, Clone)]
#[repr(C)]
struct Slice {
start: Offset,
len: Size,
}
/// A contiguous sequence of `len` times `Node`, representing the child nodes
/// of either some other node or of the repository root.
///
/// Always sorted by ascending `full_path`, to allow binary search.
/// Since nodes with the same parent nodes also have the same parent path,
/// only the `base_name`s need to be compared during binary search.
type ChildNodes = Slice;
/// A `HgPath` of `len` bytes
type PathSlice = Slice;
/// Either nothing if `start == 0`, or a `HgPath` of `len` bytes
type OptPathSlice = Slice;
/// Make sure that size-affecting changes are made knowingly
fn _static_assert_size_of() {
let _ = std::mem::transmute::<Header, [u8; 72]>;
let _ = std::mem::transmute::<Node, [u8; 57]>;
}
pub(super) fn read<'on_disk>(
on_disk: &'on_disk [u8],
) -> Result<(DirstateMap<'on_disk>, Option<DirstateParents>), DirstateError> {
if on_disk.is_empty() {
return Ok((DirstateMap::empty(on_disk), None));
}
let (header, _) = Header::from_bytes(on_disk)
.map_err(|_| HgError::corrupted("truncated dirstate-v2"))?;
let Header {
marker,
parents,
root,
nodes_with_entry_count,
nodes_with_copy_source_count,
} = header;
if marker != V2_FORMAT_MARKER {
return Err(HgError::corrupted("missing dirstated-v2 marker").into());
}
let dirstate_map = DirstateMap {
on_disk,
root: read_nodes(on_disk, *root)?,
nodes_with_entry_count: nodes_with_entry_count.get(),
nodes_with_copy_source_count: nodes_with_copy_source_count.get(),
};
let parents = Some(parents.clone());
Ok((dirstate_map, parents))
}
impl Node {
pub(super) fn path<'on_disk>(
&self,
on_disk: &'on_disk [u8],
) -> Result<dirstate_map::NodeKey<'on_disk>, HgError> {
let full_path = read_hg_path(on_disk, self.full_path)?;
let base_name_start = usize::try_from(self.base_name_start.get())
// u32 -> usize, could only panic on a 16-bit CPU
.expect("dirstate-v2 base_name_start out of bounds");
if base_name_start < full_path.len() {
Ok(WithBasename::from_raw_parts(full_path, base_name_start))
} else {
Err(HgError::corrupted(
"dirstate-v2 base_name_start out of bounds",
))
}
}
pub(super) fn copy_source<'on_disk>(
&self,
on_disk: &'on_disk [u8],
) -> Result<Option<Cow<'on_disk, HgPath>>, HgError> {
Ok(if self.copy_source.start.get() != 0 {
Some(read_hg_path(on_disk, self.copy_source)?)
} else {
None
})
}
pub(super) fn entry(&self) -> Result<Option<DirstateEntry>, HgError> {
Ok(if self.entry.state != b'\0' {
Some(DirstateEntry {
state: self.entry.state.try_into()?,
mode: self.entry.mode.get(),
mtime: self.entry.mtime.get(),
size: self.entry.size.get(),
})
} else {
None
})
}
pub(super) fn to_in_memory_node<'on_disk>(
&self,
on_disk: &'on_disk [u8],
) -> Result<dirstate_map::Node<'on_disk>, HgError> {
Ok(dirstate_map::Node {
children: read_nodes(on_disk, self.children)?,
copy_source: self.copy_source(on_disk)?,
entry: self.entry()?,
tracked_descendants_count: self.tracked_descendants_count.get(),
})
}
}
fn read_nodes(
on_disk: &[u8],
slice: ChildNodes,
) -> Result<dirstate_map::ChildNodes, HgError> {
read_slice::<Node>(on_disk, slice)?
.iter()
.map(|node| {
Ok((node.path(on_disk)?, node.to_in_memory_node(on_disk)?))
})
.collect()
}
fn read_hg_path(on_disk: &[u8], slice: Slice) -> Result<Cow<HgPath>, HgError> {
let bytes = read_slice::<u8>(on_disk, slice)?;
Ok(Cow::Borrowed(HgPath::new(bytes)))
}
fn read_slice<T>(on_disk: &[u8], slice: Slice) -> Result<&[T], HgError>
where
T: BytesCast,
{
// Either `usize::MAX` would result in "out of bounds" error since a single
// `&[u8]` cannot occupy the entire addess space.
let start = usize::try_from(slice.start.get()).unwrap_or(std::usize::MAX);
let len = usize::try_from(slice.len.get()).unwrap_or(std::usize::MAX);
on_disk
.get(start..)
.and_then(|bytes| T::slice_from_bytes(bytes, len).ok())
.map(|(slice, _rest)| slice)
.ok_or_else(|| {
HgError::corrupted("dirstate v2 slice is out of bounds")
})
}
pub(super) fn write(
dirstate_map: &mut DirstateMap,
parents: DirstateParents,
now: Timestamp,
) -> Result<Vec<u8>, DirstateError> {
// TODO: how do we want to handle this in 2038?
let now: i32 = now.0.try_into().expect("time overflow");
let header_len = std::mem::size_of::<Header>();
// This ignores the space for paths, and for nodes without an entry.
// TODO: better estimate? Skip the `Vec` and write to a file directly?
let size_guess = header_len
+ std::mem::size_of::<Node>()
* dirstate_map.nodes_with_entry_count as usize;
let mut out = Vec::with_capacity(size_guess);
// Keep space for the header. We’ll fill it out at the end when we know the
// actual offset for the root nodes.
out.resize(header_len, 0_u8);
let root = write_nodes(&mut dirstate_map.root, now, &mut out)?;
let header = Header {
marker: *V2_FORMAT_MARKER,
parents: parents,
root,
nodes_with_entry_count: dirstate_map.nodes_with_entry_count.into(),
nodes_with_copy_source_count: dirstate_map
.nodes_with_copy_source_count
.into(),
};
out[..header_len].copy_from_slice(header.as_bytes());
Ok(out)
}
/// Serialize the dirstate to the `v2` format after clearing ambigous `mtime`s.
fn write_nodes(
nodes: &mut dirstate_map::ChildNodes,
now: i32,
out: &mut Vec<u8>,
) -> Result<ChildNodes, DirstateError> {
// `dirstate_map::ChildNodes` is a `HashMap` with undefined iteration
// order. Sort to enable binary search in the written file.
let nodes = dirstate_map::Node::sorted(nodes);
// First accumulate serialized nodes in a `Vec`
let mut on_disk_nodes = Vec::with_capacity(nodes.len());
for (full_path, node) in nodes {
on_disk_nodes.push(Node {
children: write_nodes(&mut node.children, now, out)?,
tracked_descendants_count: node.tracked_descendants_count.into(),
full_path: write_slice::<u8>(
full_path.full_path().as_bytes(),
out,
),
base_name_start: u32::try_from(full_path.base_name_start())
// Could only panic for paths over 4 GiB
.expect("dirstate-v2 offset overflow")
.into(),
copy_source: if let Some(source) = &node.copy_source {
write_slice::<u8>(source.as_bytes(), out)
} else {
Slice {
start: 0.into(),
len: 0.into(),
}
},
entry: if let Some(entry) = &mut node.entry {
clear_ambiguous_mtime(entry, now);
OptEntry {
state: entry.state.into(),
mode: entry.mode.into(),
mtime: entry.mtime.into(),
size: entry.size.into(),
}
} else {
OptEntry {
state: b'\0',
mode: 0.into(),
mtime: 0.into(),
size: 0.into(),
}
},
})
}
// … so we can write them contiguously
Ok(write_slice::<Node>(&on_disk_nodes, out))
}
fn write_slice<T>(slice: &[T], out: &mut Vec<u8>) -> Slice
where
T: BytesCast,
{
let start = u64::try_from(out.len())
// Could only panic on a 128-bit CPU with a dirstate over 16 EiB
.expect("dirstate-v2 offset overflow")
.into();
let len = u32::try_from(slice.len())
// Could only panic for paths over 4 GiB or nodes with over 4 billions
// child nodes
.expect("dirstate-v2 offset overflow")
.into();
out.extend(slice.as_bytes());
Slice { start, len }
}