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use std::borrow::Cow;
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use std::io::Read;
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use std::ops::Deref;
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use std::path::Path;
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use byteorder::{BigEndian, ByteOrder};
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use flate2::read::ZlibDecoder;
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use micro_timer::timed;
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use sha1::{Digest, Sha1};
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use zstd;
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use super::index::Index;
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use super::node::{NodePrefix, NODE_BYTES_LENGTH, NULL_NODE};
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use super::nodemap;
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use super::nodemap::{NodeMap, NodeMapError};
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use super::nodemap_docket::NodeMapDocket;
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use super::patch;
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use crate::errors::HgError;
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use crate::repo::Repo;
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use crate::revlog::Revision;
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use crate::NULL_REVISION;
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#[derive(derive_more::From)]
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pub enum RevlogError {
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InvalidRevision,
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/// Working directory is not supported
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WDirUnsupported,
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/// Found more than one entry whose ID match the requested prefix
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AmbiguousPrefix,
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#[from]
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Other(HgError),
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}
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impl From<NodeMapError> for RevlogError {
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fn from(error: NodeMapError) -> Self {
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match error {
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NodeMapError::MultipleResults => RevlogError::AmbiguousPrefix,
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NodeMapError::RevisionNotInIndex(_) => RevlogError::corrupted(),
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}
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}
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}
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impl RevlogError {
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fn corrupted() -> Self {
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RevlogError::Other(HgError::corrupted("corrupted revlog"))
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}
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}
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/// Read only implementation of revlog.
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pub struct Revlog {
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/// When index and data are not interleaved: bytes of the revlog index.
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/// When index and data are interleaved: bytes of the revlog index and
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/// data.
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pub(crate) index: Index,
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/// When index and data are not interleaved: bytes of the revlog data
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data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>>,
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/// When present on disk: the persistent nodemap for this revlog
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nodemap: Option<nodemap::NodeTree>,
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}
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impl Revlog {
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/// Open a revlog index file.
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///
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/// It will also open the associated data file if index and data are not
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/// interleaved.
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#[timed]
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pub fn open(
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repo: &Repo,
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index_path: impl AsRef<Path>,
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data_path: Option<&Path>,
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) -> Result<Self, HgError> {
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let index_path = index_path.as_ref();
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let index_mmap = repo.store_vfs().mmap_open(&index_path)?;
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let version = get_version(&index_mmap);
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if version != 1 {
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// A proper new version should have had a repo/store requirement.
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return Err(HgError::corrupted("corrupted revlog"));
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}
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let index = Index::new(Box::new(index_mmap))?;
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let default_data_path = index_path.with_extension("d");
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// type annotation required
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// won't recognize Mmap as Deref<Target = [u8]>
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let data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>> =
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if index.is_inline() {
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None
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} else {
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let data_path = data_path.unwrap_or(&default_data_path);
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let data_mmap = repo.store_vfs().mmap_open(data_path)?;
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Some(Box::new(data_mmap))
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};
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let nodemap = NodeMapDocket::read_from_file(repo, index_path)?.map(
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|(docket, data)| {
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nodemap::NodeTree::load_bytes(
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Box::new(data),
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docket.data_length,
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)
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},
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);
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Ok(Revlog {
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index,
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data_bytes,
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nodemap,
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})
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}
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/// Return number of entries of the `Revlog`.
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pub fn len(&self) -> usize {
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self.index.len()
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}
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/// Returns `true` if the `Revlog` has zero `entries`.
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pub fn is_empty(&self) -> bool {
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self.index.is_empty()
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}
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/// Return the full data associated to a node.
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#[timed]
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pub fn get_node_rev(
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&self,
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node: NodePrefix,
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) -> Result<Revision, RevlogError> {
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if node.is_prefix_of(&NULL_NODE) {
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return Ok(NULL_REVISION);
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}
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if let Some(nodemap) = &self.nodemap {
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return nodemap
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.find_bin(&self.index, node)?
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.ok_or(RevlogError::InvalidRevision);
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}
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// Fallback to linear scan when a persistent nodemap is not present.
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// This happens when the persistent-nodemap experimental feature is not
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// enabled, or for small revlogs.
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//
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// TODO: consider building a non-persistent nodemap in memory to
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// optimize these cases.
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let mut found_by_prefix = None;
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for rev in (0..self.len() as Revision).rev() {
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let index_entry =
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self.index.get_entry(rev).ok_or(HgError::corrupted(
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"revlog references a revision not in the index",
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))?;
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if node == *index_entry.hash() {
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return Ok(rev);
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}
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if node.is_prefix_of(index_entry.hash()) {
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if found_by_prefix.is_some() {
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return Err(RevlogError::AmbiguousPrefix);
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}
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found_by_prefix = Some(rev)
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}
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}
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found_by_prefix.ok_or(RevlogError::InvalidRevision)
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}
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/// Returns whether the given revision exists in this revlog.
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pub fn has_rev(&self, rev: Revision) -> bool {
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self.index.get_entry(rev).is_some()
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}
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/// Return the full data associated to a revision.
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///
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/// All entries required to build the final data out of deltas will be
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/// retrieved as needed, and the deltas will be applied to the inital
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/// snapshot to rebuild the final data.
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#[timed]
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pub fn get_rev_data(&self, rev: Revision) -> Result<Vec<u8>, RevlogError> {
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// Todo return -> Cow
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let mut entry = self.get_entry(rev)?;
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let mut delta_chain = vec![];
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while let Some(base_rev) = entry.base_rev {
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delta_chain.push(entry);
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entry = self
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.get_entry(base_rev)
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.map_err(|_| RevlogError::corrupted())?;
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}
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// TODO do not look twice in the index
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let index_entry = self
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.index
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.get_entry(rev)
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.ok_or(RevlogError::InvalidRevision)?;
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let data: Vec<u8> = if delta_chain.is_empty() {
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entry.data()?.into()
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} else {
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Revlog::build_data_from_deltas(entry, &delta_chain)?
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};
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if self.check_hash(
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index_entry.p1(),
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index_entry.p2(),
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index_entry.hash().as_bytes(),
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&data,
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) {
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Ok(data)
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} else {
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Err(RevlogError::corrupted())
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}
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}
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/// Check the hash of some given data against the recorded hash.
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pub fn check_hash(
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&self,
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p1: Revision,
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p2: Revision,
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expected: &[u8],
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data: &[u8],
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) -> bool {
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let e1 = self.index.get_entry(p1);
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let h1 = match e1 {
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Some(ref entry) => entry.hash(),
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None => &NULL_NODE,
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};
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let e2 = self.index.get_entry(p2);
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let h2 = match e2 {
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Some(ref entry) => entry.hash(),
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None => &NULL_NODE,
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};
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&hash(data, h1.as_bytes(), h2.as_bytes()) == expected
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}
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/// Build the full data of a revision out its snapshot
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/// and its deltas.
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#[timed]
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fn build_data_from_deltas(
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snapshot: RevlogEntry,
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deltas: &[RevlogEntry],
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) -> Result<Vec<u8>, RevlogError> {
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let snapshot = snapshot.data()?;
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let deltas = deltas
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.iter()
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.rev()
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.map(RevlogEntry::data)
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.collect::<Result<Vec<Cow<'_, [u8]>>, RevlogError>>()?;
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let patches: Vec<_> =
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deltas.iter().map(|d| patch::PatchList::new(d)).collect();
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let patch = patch::fold_patch_lists(&patches);
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Ok(patch.apply(&snapshot))
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}
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/// Return the revlog data.
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fn data(&self) -> &[u8] {
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match self.data_bytes {
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Some(ref data_bytes) => &data_bytes,
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None => panic!(
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"forgot to load the data or trying to access inline data"
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),
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}
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}
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/// Get an entry of the revlog.
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fn get_entry(&self, rev: Revision) -> Result<RevlogEntry, RevlogError> {
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let index_entry = self
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.index
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.get_entry(rev)
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.ok_or(RevlogError::InvalidRevision)?;
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let start = index_entry.offset();
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let end = start + index_entry.compressed_len();
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let data = if self.index.is_inline() {
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self.index.data(start, end)
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} else {
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&self.data()[start..end]
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};
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let entry = RevlogEntry {
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rev,
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bytes: data,
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compressed_len: index_entry.compressed_len(),
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uncompressed_len: index_entry.uncompressed_len(),
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base_rev: if index_entry.base_revision() == rev {
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None
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} else {
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Some(index_entry.base_revision())
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},
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};
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Ok(entry)
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}
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}
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/// The revlog entry's bytes and the necessary informations to extract
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/// the entry's data.
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#[derive(Debug)]
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pub struct RevlogEntry<'a> {
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rev: Revision,
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bytes: &'a [u8],
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compressed_len: usize,
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uncompressed_len: usize,
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base_rev: Option<Revision>,
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}
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impl<'a> RevlogEntry<'a> {
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/// Extract the data contained in the entry.
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pub fn data(&self) -> Result<Cow<'_, [u8]>, RevlogError> {
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if self.bytes.is_empty() {
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return Ok(Cow::Borrowed(&[]));
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}
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match self.bytes[0] {
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// Revision data is the entirety of the entry, including this
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// header.
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b'\0' => Ok(Cow::Borrowed(self.bytes)),
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// Raw revision data follows.
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b'u' => Ok(Cow::Borrowed(&self.bytes[1..])),
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// zlib (RFC 1950) data.
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b'x' => Ok(Cow::Owned(self.uncompressed_zlib_data()?)),
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// zstd data.
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b'\x28' => Ok(Cow::Owned(self.uncompressed_zstd_data()?)),
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// A proper new format should have had a repo/store requirement.
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_format_type => Err(RevlogError::corrupted()),
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}
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}
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fn uncompressed_zlib_data(&self) -> Result<Vec<u8>, RevlogError> {
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let mut decoder = ZlibDecoder::new(self.bytes);
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if self.is_delta() {
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let mut buf = Vec::with_capacity(self.compressed_len);
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decoder
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.read_to_end(&mut buf)
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.map_err(|_| RevlogError::corrupted())?;
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Ok(buf)
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} else {
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let mut buf = vec![0; self.uncompressed_len];
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decoder
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.read_exact(&mut buf)
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.map_err(|_| RevlogError::corrupted())?;
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Ok(buf)
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}
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}
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fn uncompressed_zstd_data(&self) -> Result<Vec<u8>, RevlogError> {
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if self.is_delta() {
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let mut buf = Vec::with_capacity(self.compressed_len);
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zstd::stream::copy_decode(self.bytes, &mut buf)
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.map_err(|_| RevlogError::corrupted())?;
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Ok(buf)
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} else {
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let mut buf = vec![0; self.uncompressed_len];
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let len = zstd::block::decompress_to_buffer(self.bytes, &mut buf)
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.map_err(|_| RevlogError::corrupted())?;
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if len != self.uncompressed_len {
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Err(RevlogError::corrupted())
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} else {
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Ok(buf)
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}
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}
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}
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/// Tell if the entry is a snapshot or a delta
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/// (influences on decompression).
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fn is_delta(&self) -> bool {
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self.base_rev.is_some()
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}
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}
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/// Format version of the revlog.
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pub fn get_version(index_bytes: &[u8]) -> u16 {
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BigEndian::read_u16(&index_bytes[2..=3])
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}
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|
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/// Calculate the hash of a revision given its data and its parents.
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fn hash(
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data: &[u8],
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p1_hash: &[u8],
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p2_hash: &[u8],
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) -> [u8; NODE_BYTES_LENGTH] {
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let mut hasher = Sha1::new();
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let (a, b) = (p1_hash, p2_hash);
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if a > b {
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hasher.update(b);
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hasher.update(a);
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} else {
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hasher.update(a);
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hasher.update(b);
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}
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hasher.update(data);
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*hasher.finalize().as_ref()
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}
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|
|
#[cfg(test)]
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|
|
mod tests {
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|
|
use super::*;
|
|
|
|
|
|
use super::super::index::IndexEntryBuilder;
|
|
|
|
|
|
#[test]
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|
|
fn version_test() {
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|
let bytes = IndexEntryBuilder::new()
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.is_first(true)
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.with_version(1)
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.build();
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assert_eq!(get_version(&bytes), 1)
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}
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}
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|
