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

configitems: declare items in a TOML file...

configitems: declare items in a TOML file Mercurial ships with Rust code that also needs to read from the config. Having a way of presenting `configitems` to both Python and Rust is needed to prevent duplication, drift, and have the appropriate devel warnings. Abstracting away from Python means choosing a config format. No single format is perfect, and I have yet to come across a developer that doesn't hate all of them in some way. Since we have a strict no-dependencies policy for Mercurial, we either need to use whatever comes with Python, vendor a library, or implement a custom format ourselves. Python stdlib means using JSON, which doesn't support comments and isn't great for humans, or `configparser` which is an obscure, untyped format that nobody uses and doesn't have a commonplace Rust parser. Implementing a custom format is error-prone, tedious and subject to the same issues as picking an existing format. Vendoring opens us to the vast array of common config formats. The ones being picked for most modern software are YAML and TOML. YAML is older and common in the Python community, but TOML is much simpler and less error-prone. I would much rather be responsible for the <1000 lines of `tomli`, on top of TOML being the choice of the Rust community, with robust crates for reading it. The structure of `configitems.toml` is explained inline.

Raphaël Gomès - - Load All Authors

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             filelog.rs
        
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             / rust / hg-core / src / revlog / filelog.rs
          
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      use crate::errors::HgError;

      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 std::path::PathBuf;

      /// A specialized `Revlog` to work with file data logs.

      pub struct Filelog {

          /// The generic `revlog` format.

          revlog: Revlog,

      }

      impl Filelog {

          pub fn open_vfs(

              store_vfs: &crate::vfs::Vfs<'_>,

              file_path: &HgPath,

          ) -> 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), false)?;

              Ok(Self { revlog })

          }

          pub fn open(repo: &Repo, file_path: &HgPath) -> Result<Self, HgError> {

              Self::open_vfs(&repo.store_vfs(), file_path)

          }

          /// 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)

          }

          /// 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: Revision,

          ) -> 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_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: Revision,

          ) -> Result<FilelogEntry, RevlogError> {

              Ok(FilelogEntry(self.revlog.get_entry(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> {

              Ok(FilelogRevisionData(self.0.data()?.into_owned()))

          }

      }

      /// 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)

              }

          }

      }

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				use crate::errors::HgError;
				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 std::path::PathBuf;

				/// A specialized `Revlog` to work with file data logs.
				pub struct Filelog {
				/// The generic `revlog` format.
				revlog: Revlog,
				}

				impl Filelog {
				pub fn open_vfs(
				store_vfs: &crate::vfs::Vfs<'_>,
				file_path: &HgPath,
				) -> 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), false)?;
				Ok(Self { revlog })
				}

				pub fn open(repo: &Repo, file_path: &HgPath) -> Result<Self, HgError> {
				Self::open_vfs(&repo.store_vfs(), file_path)
				}

				/// 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)
				}

				/// 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: Revision,
				) -> 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_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: Revision,
				) -> Result<FilelogEntry, RevlogError> {
				Ok(FilelogEntry(self.revlog.get_entry(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> {
				Ok(FilelogRevisionData(self.0.data()?.into_owned()))
				}
				}

				/// 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)
				}
				}
				}