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rust: use new revlog configs in all revlog opening code...
rust: use new revlog configs in all revlog opening code This centralizes the more complex logic needed for the upcoming code and creates stronger APIs with fewer booleans. We also reuse `RevlogType` where needed.

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filelog.rs
245 lines | 8.4 KiB | application/rls-services+xml | RustLexer
use crate::errors::HgError;
use crate::exit_codes;
use crate::repo::Repo;
use crate::revlog::path_encode::path_encode;
use crate::revlog::NodePrefix;
use crate::revlog::Revision;
use crate::revlog::RevlogEntry;
use crate::revlog::{Revlog, RevlogError};
use crate::utils::files::get_path_from_bytes;
use crate::utils::hg_path::HgPath;
use crate::utils::SliceExt;
use crate::Graph;
use crate::GraphError;
use crate::RevlogOpenOptions;
use crate::UncheckedRevision;
use std::path::PathBuf;
/// A specialized `Revlog` to work with file data logs.
pub struct Filelog {
/// The generic `revlog` format.
revlog: Revlog,
}
impl Graph for Filelog {
fn parents(&self, rev: Revision) -> Result<[Revision; 2], GraphError> {
self.revlog.parents(rev)
}
}
impl Filelog {
pub fn open_vfs(
store_vfs: &crate::vfs::Vfs<'_>,
file_path: &HgPath,
options: RevlogOpenOptions,
) -> Result<Self, HgError> {
let index_path = store_path(file_path, b".i");
let data_path = store_path(file_path, b".d");
let revlog =
Revlog::open(store_vfs, index_path, Some(&data_path), options)?;
Ok(Self { revlog })
}
pub fn open(
repo: &Repo,
file_path: &HgPath,
options: RevlogOpenOptions,
) -> Result<Self, HgError> {
Self::open_vfs(&repo.store_vfs(), file_path, options)
}
/// The given node ID is that of the file as found in a filelog, not of a
/// changeset.
pub fn data_for_node(
&self,
file_node: impl Into<NodePrefix>,
) -> Result<FilelogRevisionData, RevlogError> {
let file_rev = self.revlog.rev_from_node(file_node.into())?;
self.data_for_rev(file_rev.into())
}
/// The given revision is that of the file as found in a filelog, not of a
/// changeset.
pub fn data_for_rev(
&self,
file_rev: UncheckedRevision,
) -> Result<FilelogRevisionData, RevlogError> {
let data: Vec<u8> = self.revlog.get_rev_data(file_rev)?.into_owned();
Ok(FilelogRevisionData(data))
}
/// The given node ID is that of the file as found in a filelog, not of a
/// changeset.
pub fn entry_for_node(
&self,
file_node: impl Into<NodePrefix>,
) -> Result<FilelogEntry, RevlogError> {
let file_rev = self.revlog.rev_from_node(file_node.into())?;
self.entry_for_checked_rev(file_rev)
}
/// The given revision is that of the file as found in a filelog, not of a
/// changeset.
pub fn entry_for_rev(
&self,
file_rev: UncheckedRevision,
) -> Result<FilelogEntry, RevlogError> {
Ok(FilelogEntry(self.revlog.get_entry(file_rev)?))
}
fn entry_for_checked_rev(
&self,
file_rev: Revision,
) -> Result<FilelogEntry, RevlogError> {
Ok(FilelogEntry(
self.revlog.get_entry_for_checked_rev(file_rev)?,
))
}
}
fn store_path(hg_path: &HgPath, suffix: &[u8]) -> PathBuf {
let encoded_bytes =
path_encode(&[b"data/", hg_path.as_bytes(), suffix].concat());
get_path_from_bytes(&encoded_bytes).into()
}
pub struct FilelogEntry<'a>(RevlogEntry<'a>);
impl FilelogEntry<'_> {
/// `self.data()` can be expensive, with decompression and delta
/// resolution.
///
/// *Without* paying this cost, based on revlog index information
/// including `RevlogEntry::uncompressed_len`:
///
/// * Returns `true` if the length that `self.data().file_data().len()`
/// would return is definitely **not equal** to `other_len`.
/// * Returns `false` if available information is inconclusive.
pub fn file_data_len_not_equal_to(&self, other_len: u64) -> bool {
// Relevant code that implement this behavior in Python code:
// basefilectx.cmp, filelog.size, storageutil.filerevisioncopied,
// revlog.size, revlog.rawsize
// Let’s call `file_data_len` what would be returned by
// `self.data().file_data().len()`.
if self.0.is_censored() {
let file_data_len = 0;
return other_len != file_data_len;
}
if self.0.has_length_affecting_flag_processor() {
// We can’t conclude anything about `file_data_len`.
return false;
}
// Revlog revisions (usually) have metadata for the size of
// their data after decompression and delta resolution
// as would be returned by `Revlog::get_rev_data`.
//
// For filelogs this is the file’s contents preceded by an optional
// metadata block.
let uncompressed_len = if let Some(l) = self.0.uncompressed_len() {
l as u64
} else {
// The field was set to -1, the actual uncompressed len is unknown.
// We need to decompress to say more.
return false;
};
// `uncompressed_len = file_data_len + optional_metadata_len`,
// so `file_data_len <= uncompressed_len`.
if uncompressed_len < other_len {
// Transitively, `file_data_len < other_len`.
// So `other_len != file_data_len` definitely.
return true;
}
if uncompressed_len == other_len + 4 {
// It’s possible that `file_data_len == other_len` with an empty
// metadata block (2 start marker bytes + 2 end marker bytes).
// This happens when there wouldn’t otherwise be metadata, but
// the first 2 bytes of file data happen to match a start marker
// and would be ambiguous.
return false;
}
if !self.0.has_p1() {
// There may or may not be copy metadata, so we can’t deduce more
// about `file_data_len` without computing file data.
return false;
}
// Filelog ancestry is not meaningful in the way changelog ancestry is.
// It only provides hints to delta generation.
// p1 and p2 are set to null when making a copy or rename since
// contents are likely unrelatedto what might have previously existed
// at the destination path.
//
// Conversely, since here p1 is non-null, there is no copy metadata.
// Note that this reasoning may be invalidated in the presence of
// merges made by some previous versions of Mercurial that
// swapped p1 and p2. See <https://bz.mercurial-scm.org/show_bug.cgi?id=6528>
// and `tests/test-issue6528.t`.
//
// Since copy metadata is currently the only kind of metadata
// kept in revlog data of filelogs,
// this `FilelogEntry` does not have such metadata:
let file_data_len = uncompressed_len;
file_data_len != other_len
}
pub fn data(&self) -> Result<FilelogRevisionData, HgError> {
let data = self.0.data();
match data {
Ok(data) => Ok(FilelogRevisionData(data.into_owned())),
// Errors other than `HgError` should not happen at this point
Err(e) => match e {
RevlogError::Other(hg_error) => Err(hg_error),
revlog_error => Err(HgError::abort(
revlog_error.to_string(),
exit_codes::ABORT,
None,
)),
},
}
}
}
/// The data for one revision in a filelog, uncompressed and delta-resolved.
pub struct FilelogRevisionData(Vec<u8>);
impl FilelogRevisionData {
/// Split into metadata and data
pub fn split(&self) -> Result<(Option<&[u8]>, &[u8]), HgError> {
const DELIMITER: &[u8; 2] = &[b'\x01', b'\n'];
if let Some(rest) = self.0.drop_prefix(DELIMITER) {
if let Some((metadata, data)) = rest.split_2_by_slice(DELIMITER) {
Ok((Some(metadata), data))
} else {
Err(HgError::corrupted(
"Missing metadata end delimiter in filelog entry",
))
}
} else {
Ok((None, &self.0))
}
}
/// Returns the file contents at this revision, stripped of any metadata
pub fn file_data(&self) -> Result<&[u8], HgError> {
let (_metadata, data) = self.split()?;
Ok(data)
}
/// Consume the entry, and convert it into data, discarding any metadata,
/// if present.
pub fn into_file_data(self) -> Result<Vec<u8>, HgError> {
if let (Some(_metadata), data) = self.split()? {
Ok(data.to_owned())
} else {
Ok(self.0)
}
}
}