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

rust: Rename the `Revlog::get_node_rev` method to `rev_from_node`...

rust: Rename the `Revlog::get_node_rev` method to `rev_from_node` This better describes the input and outputs of this method. Also rewrite the doc-comment, which seemed to have been left from copy-paste of another method. Differential Revision: https://phab.mercurial-scm.org/D11415

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             revlog.rs
        
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             / rust / hg-core / src / revlog / revlog.rs
          
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      use std::borrow::Cow;

      use std::io::Read;

      use std::ops::Deref;

      use std::path::Path;

      use byteorder::{BigEndian, ByteOrder};

      use flate2::read::ZlibDecoder;

      use micro_timer::timed;

      use sha1::{Digest, Sha1};

      use zstd;

      use super::index::Index;

      use super::node::{NodePrefix, NODE_BYTES_LENGTH, NULL_NODE};

      use super::nodemap;

      use super::nodemap::{NodeMap, NodeMapError};

      use super::nodemap_docket::NodeMapDocket;

      use super::patch;

      use crate::errors::HgError;

      use crate::repo::Repo;

      use crate::revlog::Revision;

      use crate::{Node, NULL_REVISION};

      #[derive(derive_more::From)]

      pub enum RevlogError {

          InvalidRevision,

          /// Working directory is not supported

          WDirUnsupported,

          /// Found more than one entry whose ID match the requested prefix

          AmbiguousPrefix,

          #[from]

          Other(HgError),

      }

      impl From<NodeMapError> for RevlogError {

          fn from(error: NodeMapError) -> Self {

              match error {

                  NodeMapError::MultipleResults => RevlogError::AmbiguousPrefix,

                  NodeMapError::RevisionNotInIndex(_) => RevlogError::corrupted(),

              }

          }

      }

      impl RevlogError {

          fn corrupted() -> Self {

              RevlogError::Other(HgError::corrupted("corrupted revlog"))

          }

      }

      /// Read only implementation of revlog.

      pub struct Revlog {

          /// When index and data are not interleaved: bytes of the revlog index.

          /// When index and data are interleaved: bytes of the revlog index and

          /// data.

          index: Index,

          /// When index and data are not interleaved: bytes of the revlog data

          data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>>,

          /// When present on disk: the persistent nodemap for this revlog

          nodemap: Option<nodemap::NodeTree>,

      }

      impl Revlog {

          /// Open a revlog index file.

          ///

          /// It will also open the associated data file if index and data are not

          /// interleaved.

          #[timed]

          pub fn open(

              repo: &Repo,

              index_path: impl AsRef<Path>,

              data_path: Option<&Path>,

          ) -> Result<Self, HgError> {

              let index_path = index_path.as_ref();

              let index_mmap = repo.store_vfs().mmap_open(&index_path)?;

              let version = get_version(&index_mmap);

              if version != 1 {

                  // A proper new version should have had a repo/store requirement.

                  return Err(HgError::corrupted("corrupted revlog"));

              }

              let index = Index::new(Box::new(index_mmap))?;

              let default_data_path = index_path.with_extension("d");

              // type annotation required

              // won't recognize Mmap as Deref<Target = [u8]>

              let data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>> =

                  if index.is_inline() {

                      None

                  } else {

                      let data_path = data_path.unwrap_or(&default_data_path);

                      let data_mmap = repo.store_vfs().mmap_open(data_path)?;

                      Some(Box::new(data_mmap))

                  };

              let nodemap = NodeMapDocket::read_from_file(repo, index_path)?.map(

                  |(docket, data)| {

                      nodemap::NodeTree::load_bytes(

                          Box::new(data),

                          docket.data_length,

                      )

                  },

              );

              Ok(Revlog {

                  index,

                  data_bytes,

                  nodemap,

              })

          }

          /// Return number of entries of the `Revlog`.

          pub fn len(&self) -> usize {

              self.index.len()

          }

          /// Returns `true` if the `Revlog` has zero `entries`.

          pub fn is_empty(&self) -> bool {

              self.index.is_empty()

          }

          /// Returns the node ID for the given revision number, if it exists in this revlog

          pub fn node_from_rev(&self, rev: Revision) -> Option<&Node> {

              Some(self.index.get_entry(rev)?.hash())

          }

          /// Return the revision number for the given node ID, if it exists in this revlog

          #[timed]

          pub fn rev_from_node(

              &self,

              node: NodePrefix,

          ) -> Result<Revision, RevlogError> {

              if node.is_prefix_of(&NULL_NODE) {

                  return Ok(NULL_REVISION);

              }

              if let Some(nodemap) = &self.nodemap {

                  return nodemap

                      .find_bin(&self.index, node)?

                      .ok_or(RevlogError::InvalidRevision);

              }

              // Fallback to linear scan when a persistent nodemap is not present.

              // This happens when the persistent-nodemap experimental feature is not

              // enabled, or for small revlogs.

              //

              // TODO: consider building a non-persistent nodemap in memory to

              // optimize these cases.

              let mut found_by_prefix = None;

              for rev in (0..self.len() as Revision).rev() {

                  let index_entry =

                      self.index.get_entry(rev).ok_or(HgError::corrupted(

                          "revlog references a revision not in the index",

                      ))?;

                  if node == *index_entry.hash() {

                      return Ok(rev);

                  }

                  if node.is_prefix_of(index_entry.hash()) {

                      if found_by_prefix.is_some() {

                          return Err(RevlogError::AmbiguousPrefix);

                      }

                      found_by_prefix = Some(rev)

                  }

              }

              found_by_prefix.ok_or(RevlogError::InvalidRevision)

          }

          /// Returns whether the given revision exists in this revlog.

          pub fn has_rev(&self, rev: Revision) -> bool {

              self.index.get_entry(rev).is_some()

          }

          /// Return the full data associated to a revision.

          ///

          /// All entries required to build the final data out of deltas will be

          /// retrieved as needed, and the deltas will be applied to the inital

          /// snapshot to rebuild the final data.

          #[timed]

          pub fn get_rev_data(&self, rev: Revision) -> Result<Vec<u8>, RevlogError> {

              // Todo return -> Cow

              let mut entry = self.get_entry(rev)?;

              let mut delta_chain = vec![];

              while let Some(base_rev) = entry.base_rev {

                  delta_chain.push(entry);

                  entry = self

                      .get_entry(base_rev)

                      .map_err(|_| RevlogError::corrupted())?;

              }

              // TODO do not look twice in the index

              let index_entry = self

                  .index

                  .get_entry(rev)

                  .ok_or(RevlogError::InvalidRevision)?;

              let data: Vec<u8> = if delta_chain.is_empty() {

                  entry.data()?.into()

              } else {

                  Revlog::build_data_from_deltas(entry, &delta_chain)?

              };

              if self.check_hash(

                  index_entry.p1(),

                  index_entry.p2(),

                  index_entry.hash().as_bytes(),

                  &data,

              ) {

                  Ok(data)

              } else {

                  Err(RevlogError::corrupted())

              }

          }

          /// Check the hash of some given data against the recorded hash.

          pub fn check_hash(

              &self,

              p1: Revision,

              p2: Revision,

              expected: &[u8],

              data: &[u8],

          ) -> bool {

              let e1 = self.index.get_entry(p1);

              let h1 = match e1 {

                  Some(ref entry) => entry.hash(),

                  None => &NULL_NODE,

              };

              let e2 = self.index.get_entry(p2);

              let h2 = match e2 {

                  Some(ref entry) => entry.hash(),

                  None => &NULL_NODE,

              };

              &hash(data, h1.as_bytes(), h2.as_bytes()) == expected

          }

          /// Build the full data of a revision out its snapshot

          /// and its deltas.

          #[timed]

          fn build_data_from_deltas(

              snapshot: RevlogEntry,

              deltas: &[RevlogEntry],

          ) -> Result<Vec<u8>, RevlogError> {

              let snapshot = snapshot.data()?;

              let deltas = deltas

                  .iter()

                  .rev()

                  .map(RevlogEntry::data)

                  .collect::<Result<Vec<Cow<'_, [u8]>>, RevlogError>>()?;

              let patches: Vec<_> =

                  deltas.iter().map(|d| patch::PatchList::new(d)).collect();

              let patch = patch::fold_patch_lists(&patches);

              Ok(patch.apply(&snapshot))

          }

          /// Return the revlog data.

          fn data(&self) -> &[u8] {

              match self.data_bytes {

                  Some(ref data_bytes) => &data_bytes,

                  None => panic!(

                      "forgot to load the data or trying to access inline data"

                  ),

              }

          }

          /// Get an entry of the revlog.

          fn get_entry(&self, rev: Revision) -> Result<RevlogEntry, RevlogError> {

              let index_entry = self

                  .index

                  .get_entry(rev)

                  .ok_or(RevlogError::InvalidRevision)?;

              let start = index_entry.offset();

              let end = start + index_entry.compressed_len();

              let data = if self.index.is_inline() {

                  self.index.data(start, end)

              } else {

                  &self.data()[start..end]

              };

              let entry = RevlogEntry {

                  rev,

                  bytes: data,

                  compressed_len: index_entry.compressed_len(),

                  uncompressed_len: index_entry.uncompressed_len(),

                  base_rev: if index_entry.base_revision() == rev {

                      None

                  } else {

                      Some(index_entry.base_revision())

                  },

              };

              Ok(entry)

          }

      }

      /// The revlog entry's bytes and the necessary informations to extract

      /// the entry's data.

      #[derive(Debug)]

      pub struct RevlogEntry<'a> {

          rev: Revision,

          bytes: &'a [u8],

          compressed_len: usize,

          uncompressed_len: usize,

          base_rev: Option<Revision>,

      }

      impl<'a> RevlogEntry<'a> {

          /// Extract the data contained in the entry.

          pub fn data(&self) -> Result<Cow<'_, [u8]>, RevlogError> {

              if self.bytes.is_empty() {

                  return Ok(Cow::Borrowed(&[]));

              }

              match self.bytes[0] {

                  // Revision data is the entirety of the entry, including this

                  // header.

                  b'\0' => Ok(Cow::Borrowed(self.bytes)),

                  // Raw revision data follows.

                  b'u' => Ok(Cow::Borrowed(&self.bytes[1..])),

                  // zlib (RFC 1950) data.

                  b'x' => Ok(Cow::Owned(self.uncompressed_zlib_data()?)),

                  // zstd data.

                  b'\x28' => Ok(Cow::Owned(self.uncompressed_zstd_data()?)),

                  // A proper new format should have had a repo/store requirement.

                  _format_type => Err(RevlogError::corrupted()),

              }

          }

          fn uncompressed_zlib_data(&self) -> Result<Vec<u8>, RevlogError> {

              let mut decoder = ZlibDecoder::new(self.bytes);

              if self.is_delta() {

                  let mut buf = Vec::with_capacity(self.compressed_len);

                  decoder

                      .read_to_end(&mut buf)

                      .map_err(|_| RevlogError::corrupted())?;

                  Ok(buf)

              } else {

                  let mut buf = vec![0; self.uncompressed_len];

                  decoder

                      .read_exact(&mut buf)

                      .map_err(|_| RevlogError::corrupted())?;

                  Ok(buf)

              }

          }

          fn uncompressed_zstd_data(&self) -> Result<Vec<u8>, RevlogError> {

              if self.is_delta() {

                  let mut buf = Vec::with_capacity(self.compressed_len);

                  zstd::stream::copy_decode(self.bytes, &mut buf)

                      .map_err(|_| RevlogError::corrupted())?;

                  Ok(buf)

              } else {

                  let mut buf = vec![0; self.uncompressed_len];

                  let len = zstd::block::decompress_to_buffer(self.bytes, &mut buf)

                      .map_err(|_| RevlogError::corrupted())?;

                  if len != self.uncompressed_len {

                      Err(RevlogError::corrupted())

                  } else {

                      Ok(buf)

                  }

              }

          }

          /// Tell if the entry is a snapshot or a delta

          /// (influences on decompression).

          fn is_delta(&self) -> bool {

              self.base_rev.is_some()

          }

      }

      /// Format version of the revlog.

      pub fn get_version(index_bytes: &[u8]) -> u16 {

          BigEndian::read_u16(&index_bytes[2..=3])

      }

      /// Calculate the hash of a revision given its data and its parents.

      fn hash(

          data: &[u8],

          p1_hash: &[u8],

          p2_hash: &[u8],

      ) -> [u8; NODE_BYTES_LENGTH] {

          let mut hasher = Sha1::new();

          let (a, b) = (p1_hash, p2_hash);

          if a > b {

              hasher.update(b);

              hasher.update(a);

          } else {

              hasher.update(a);

              hasher.update(b);

          }

          hasher.update(data);

          *hasher.finalize().as_ref()

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          use super::super::index::IndexEntryBuilder;

          #[test]

          fn version_test() {

              let bytes = IndexEntryBuilder::new()

                  .is_first(true)

                  .with_version(1)

                  .build();

              assert_eq!(get_version(&bytes), 1)

          }

      }

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				use std::borrow::Cow;
				use std::io::Read;
				use std::ops::Deref;
				use std::path::Path;

				use byteorder::{BigEndian, ByteOrder};
				use flate2::read::ZlibDecoder;
				use micro_timer::timed;
				use sha1::{Digest, Sha1};
				use zstd;

				use super::index::Index;
				use super::node::{NodePrefix, NODE_BYTES_LENGTH, NULL_NODE};
				use super::nodemap;
				use super::nodemap::{NodeMap, NodeMapError};
				use super::nodemap_docket::NodeMapDocket;
				use super::patch;
				use crate::errors::HgError;
				use crate::repo::Repo;
				use crate::revlog::Revision;
				use crate::{Node, NULL_REVISION};

				#[derive(derive_more::From)]
				pub enum RevlogError {
				InvalidRevision,
				/// Working directory is not supported
				WDirUnsupported,
				/// Found more than one entry whose ID match the requested prefix
				AmbiguousPrefix,
				#[from]
				Other(HgError),
				}

				impl From<NodeMapError> for RevlogError {
				fn from(error: NodeMapError) -> Self {
				match error {
				NodeMapError::MultipleResults => RevlogError::AmbiguousPrefix,
				NodeMapError::RevisionNotInIndex(_) => RevlogError::corrupted(),
				}
				}
				}

				impl RevlogError {
				fn corrupted() -> Self {
				RevlogError::Other(HgError::corrupted("corrupted revlog"))
				}
				}

				/// Read only implementation of revlog.
				pub struct Revlog {
				/// When index and data are not interleaved: bytes of the revlog index.
				/// When index and data are interleaved: bytes of the revlog index and
				/// data.
				index: Index,
				/// When index and data are not interleaved: bytes of the revlog data
				data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>>,
				/// When present on disk: the persistent nodemap for this revlog
				nodemap: Option<nodemap::NodeTree>,
				}

				impl Revlog {
				/// Open a revlog index file.
				///
				/// It will also open the associated data file if index and data are not
				/// interleaved.
				#[timed]
				pub fn open(
				repo: &Repo,
				index_path: impl AsRef<Path>,
				data_path: Option<&Path>,
				) -> Result<Self, HgError> {
				let index_path = index_path.as_ref();
				let index_mmap = repo.store_vfs().mmap_open(&index_path)?;

				let version = get_version(&index_mmap);
				if version != 1 {
				// A proper new version should have had a repo/store requirement.
				return Err(HgError::corrupted("corrupted revlog"));
				}

				let index = Index::new(Box::new(index_mmap))?;

				let default_data_path = index_path.with_extension("d");

				// type annotation required
				// won't recognize Mmap as Deref<Target = [u8]>
				let data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>> =
				if index.is_inline() {
				None
				} else {
				let data_path = data_path.unwrap_or(&default_data_path);
				let data_mmap = repo.store_vfs().mmap_open(data_path)?;
				Some(Box::new(data_mmap))
				};

				let nodemap = NodeMapDocket::read_from_file(repo, index_path)?.map(
				\|(docket, data)\| {
				nodemap::NodeTree::load_bytes(
				Box::new(data),
				docket.data_length,
				)
				},
				);

				Ok(Revlog {
				index,
				data_bytes,
				nodemap,
				})
				}

				/// Return number of entries of the `Revlog`.
				pub fn len(&self) -> usize {
				self.index.len()
				}

				/// Returns `true` if the `Revlog` has zero `entries`.
				pub fn is_empty(&self) -> bool {
				self.index.is_empty()
				}

				/// Returns the node ID for the given revision number, if it exists in this revlog
				pub fn node_from_rev(&self, rev: Revision) -> Option<&Node> {
				Some(self.index.get_entry(rev)?.hash())
				}

				/// Return the revision number for the given node ID, if it exists in this revlog
				#[timed]
				pub fn rev_from_node(
				&self,
				node: NodePrefix,
				) -> Result<Revision, RevlogError> {
				if node.is_prefix_of(&NULL_NODE) {
				return Ok(NULL_REVISION);
				}

				if let Some(nodemap) = &self.nodemap {
				return nodemap
				.find_bin(&self.index, node)?
				.ok_or(RevlogError::InvalidRevision);
				}

				// Fallback to linear scan when a persistent nodemap is not present.
				// This happens when the persistent-nodemap experimental feature is not
				// enabled, or for small revlogs.
				//
				// TODO: consider building a non-persistent nodemap in memory to
				// optimize these cases.
				let mut found_by_prefix = None;
				for rev in (0..self.len() as Revision).rev() {
				let index_entry =
				self.index.get_entry(rev).ok_or(HgError::corrupted(
				"revlog references a revision not in the index",
				))?;
				if node == *index_entry.hash() {
				return Ok(rev);
				}
				if node.is_prefix_of(index_entry.hash()) {
				if found_by_prefix.is_some() {
				return Err(RevlogError::AmbiguousPrefix);
				}
				found_by_prefix = Some(rev)
				}
				}
				found_by_prefix.ok_or(RevlogError::InvalidRevision)
				}

				/// Returns whether the given revision exists in this revlog.
				pub fn has_rev(&self, rev: Revision) -> bool {
				self.index.get_entry(rev).is_some()
				}

				/// Return the full data associated to a revision.
				///
				/// All entries required to build the final data out of deltas will be
				/// retrieved as needed, and the deltas will be applied to the inital
				/// snapshot to rebuild the final data.
				#[timed]
				pub fn get_rev_data(&self, rev: Revision) -> Result<Vec<u8>, RevlogError> {
				// Todo return -> Cow
				let mut entry = self.get_entry(rev)?;
				let mut delta_chain = vec![];
				while let Some(base_rev) = entry.base_rev {
				delta_chain.push(entry);
				entry = self
				.get_entry(base_rev)
				.map_err(\|_\| RevlogError::corrupted())?;
				}

				// TODO do not look twice in the index
				let index_entry = self
				.index
				.get_entry(rev)
				.ok_or(RevlogError::InvalidRevision)?;

				let data: Vec<u8> = if delta_chain.is_empty() {
				entry.data()?.into()
				} else {
				Revlog::build_data_from_deltas(entry, &delta_chain)?
				};

				if self.check_hash(
				index_entry.p1(),
				index_entry.p2(),
				index_entry.hash().as_bytes(),
				&data,
				) {
				Ok(data)
				} else {
				Err(RevlogError::corrupted())
				}
				}

				/// Check the hash of some given data against the recorded hash.
				pub fn check_hash(
				&self,
				p1: Revision,
				p2: Revision,
				expected: &[u8],
				data: &[u8],
				) -> bool {
				let e1 = self.index.get_entry(p1);
				let h1 = match e1 {
				Some(ref entry) => entry.hash(),
				None => &NULL_NODE,
				};
				let e2 = self.index.get_entry(p2);
				let h2 = match e2 {
				Some(ref entry) => entry.hash(),
				None => &NULL_NODE,
				};

				&hash(data, h1.as_bytes(), h2.as_bytes()) == expected
				}

				/// Build the full data of a revision out its snapshot
				/// and its deltas.
				#[timed]
				fn build_data_from_deltas(
				snapshot: RevlogEntry,
				deltas: &[RevlogEntry],
				) -> Result<Vec<u8>, RevlogError> {
				let snapshot = snapshot.data()?;
				let deltas = deltas
				.iter()
				.rev()
				.map(RevlogEntry::data)
				.collect::<Result<Vec<Cow<'_, [u8]>>, RevlogError>>()?;
				let patches: Vec<_> =
				deltas.iter().map(\|d\| patch::PatchList::new(d)).collect();
				let patch = patch::fold_patch_lists(&patches);
				Ok(patch.apply(&snapshot))
				}

				/// Return the revlog data.
				fn data(&self) -> &[u8] {
				match self.data_bytes {
				Some(ref data_bytes) => &data_bytes,
				None => panic!(
				"forgot to load the data or trying to access inline data"
				),
				}
				}

				/// Get an entry of the revlog.
				fn get_entry(&self, rev: Revision) -> Result<RevlogEntry, RevlogError> {
				let index_entry = self
				.index
				.get_entry(rev)
				.ok_or(RevlogError::InvalidRevision)?;
				let start = index_entry.offset();
				let end = start + index_entry.compressed_len();
				let data = if self.index.is_inline() {
				self.index.data(start, end)
				} else {
				&self.data()[start..end]
				};
				let entry = RevlogEntry {
				rev,
				bytes: data,
				compressed_len: index_entry.compressed_len(),
				uncompressed_len: index_entry.uncompressed_len(),
				base_rev: if index_entry.base_revision() == rev {
				None
				} else {
				Some(index_entry.base_revision())
				},
				};
				Ok(entry)
				}
				}

				/// The revlog entry's bytes and the necessary informations to extract
				/// the entry's data.
				#[derive(Debug)]
				pub struct RevlogEntry<'a> {
				rev: Revision,
				bytes: &'a [u8],
				compressed_len: usize,
				uncompressed_len: usize,
				base_rev: Option<Revision>,
				}

				impl<'a> RevlogEntry<'a> {
				/// Extract the data contained in the entry.
				pub fn data(&self) -> Result<Cow<'_, [u8]>, RevlogError> {
				if self.bytes.is_empty() {
				return Ok(Cow::Borrowed(&[]));
				}
				match self.bytes[0] {
				// Revision data is the entirety of the entry, including this
				// header.
				b'\0' => Ok(Cow::Borrowed(self.bytes)),
				// Raw revision data follows.
				b'u' => Ok(Cow::Borrowed(&self.bytes[1..])),
				// zlib (RFC 1950) data.
				b'x' => Ok(Cow::Owned(self.uncompressed_zlib_data()?)),
				// zstd data.
				b'\x28' => Ok(Cow::Owned(self.uncompressed_zstd_data()?)),
				// A proper new format should have had a repo/store requirement.
				_format_type => Err(RevlogError::corrupted()),
				}
				}

				fn uncompressed_zlib_data(&self) -> Result<Vec<u8>, RevlogError> {
				let mut decoder = ZlibDecoder::new(self.bytes);
				if self.is_delta() {
				let mut buf = Vec::with_capacity(self.compressed_len);
				decoder
				.read_to_end(&mut buf)
				.map_err(\|_\| RevlogError::corrupted())?;
				Ok(buf)
				} else {
				let mut buf = vec![0; self.uncompressed_len];
				decoder
				.read_exact(&mut buf)
				.map_err(\|_\| RevlogError::corrupted())?;
				Ok(buf)
				}
				}

				fn uncompressed_zstd_data(&self) -> Result<Vec<u8>, RevlogError> {
				if self.is_delta() {
				let mut buf = Vec::with_capacity(self.compressed_len);
				zstd::stream::copy_decode(self.bytes, &mut buf)
				.map_err(\|_\| RevlogError::corrupted())?;
				Ok(buf)
				} else {
				let mut buf = vec![0; self.uncompressed_len];
				let len = zstd::block::decompress_to_buffer(self.bytes, &mut buf)
				.map_err(\|_\| RevlogError::corrupted())?;
				if len != self.uncompressed_len {
				Err(RevlogError::corrupted())
				} else {
				Ok(buf)
				}
				}
				}

				/// Tell if the entry is a snapshot or a delta
				/// (influences on decompression).
				fn is_delta(&self) -> bool {
				self.base_rev.is_some()
				}
				}

				/// Format version of the revlog.
				pub fn get_version(index_bytes: &[u8]) -> u16 {
				BigEndian::read_u16(&index_bytes[2..=3])
				}

				/// Calculate the hash of a revision given its data and its parents.
				fn hash(
				data: &[u8],
				p1_hash: &[u8],
				p2_hash: &[u8],
				) -> [u8; NODE_BYTES_LENGTH] {
				let mut hasher = Sha1::new();
				let (a, b) = (p1_hash, p2_hash);
				if a > b {
				hasher.update(b);
				hasher.update(a);
				} else {
				hasher.update(a);
				hasher.update(b);
				}
				hasher.update(data);
				*hasher.finalize().as_ref()
				}

				#[cfg(test)]
				mod tests {
				use super::*;

				use super::super::index::IndexEntryBuilder;

				#[test]
				fn version_test() {
				let bytes = IndexEntryBuilder::new()
				.is_first(true)
				.with_version(1)
				.build();

				assert_eq!(get_version(&bytes), 1)
				}
				}