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

rust-repo: move dirstate-v2 opening to a separate method...

rust-repo: move dirstate-v2 opening to a separate method The next changeset will make changes to this logic, it helps to have it in order first.

Raphaël Gomès - - Load All Authors

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r51122:cbd4c923 stable


                r51122:cbd4c923

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             repo.rs
        
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      use crate::changelog::Changelog;

      use crate::config::{Config, ConfigError, ConfigParseError};

      use crate::dirstate::DirstateParents;

      use crate::dirstate_tree::dirstate_map::DirstateMapWriteMode;

      use crate::dirstate_tree::on_disk::Docket as DirstateDocket;

      use crate::dirstate_tree::owning::OwningDirstateMap;

      use crate::errors::HgResultExt;

      use crate::errors::{HgError, IoResultExt};

      use crate::lock::{try_with_lock_no_wait, LockError};

      use crate::manifest::{Manifest, Manifestlog};

      use crate::revlog::filelog::Filelog;

      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::vfs::{is_dir, is_file, Vfs};

      use crate::{requirements, NodePrefix};

      use crate::{DirstateError, Revision};

      use std::cell::{Ref, RefCell, RefMut};

      use std::collections::HashSet;

      use std::io::Seek;

      use std::io::SeekFrom;

      use std::io::Write as IoWrite;

      use std::path::{Path, PathBuf};

      /// A repository on disk

      pub struct Repo {

          working_directory: PathBuf,

          dot_hg: PathBuf,

          store: PathBuf,

          requirements: HashSet<String>,

          config: Config,

          dirstate_parents: LazyCell<DirstateParents>,

          dirstate_data_file_uuid: LazyCell<Option<Vec<u8>>>,

          dirstate_map: LazyCell<OwningDirstateMap>,

          changelog: LazyCell<Changelog>,

          manifestlog: LazyCell<Manifestlog>,

      }

      #[derive(Debug, derive_more::From)]

      pub enum RepoError {

          NotFound {

              at: PathBuf,

          },

          #[from]

          ConfigParseError(ConfigParseError),

          #[from]

          Other(HgError),

      }

      impl From<ConfigError> for RepoError {

          fn from(error: ConfigError) -> Self {

              match error {

                  ConfigError::Parse(error) => error.into(),

                  ConfigError::Other(error) => error.into(),

              }

          }

      }

      impl Repo {

          /// tries to find nearest repository root in current working directory or

          /// its ancestors

          pub fn find_repo_root() -> Result<PathBuf, RepoError> {

              let current_directory = crate::utils::current_dir()?;

              // ancestors() is inclusive: it first yields `current_directory`

              // as-is.

              for ancestor in current_directory.ancestors() {

                  if is_dir(ancestor.join(".hg"))? {

                      return Ok(ancestor.to_path_buf());

                  }

              }

              return Err(RepoError::NotFound {

                  at: current_directory,

              });

          }

          /// Find a repository, either at the given path (which must contain a `.hg`

          /// sub-directory) or by searching the current directory and its

          /// ancestors.

          ///

          /// A method with two very different "modes" like this usually a code smell

          /// to make two methods instead, but in this case an `Option` is what rhg

          /// sub-commands get from Clap for the `-R` / `--repository` CLI argument.

          /// Having two methods would just move that `if` to almost all callers.

          pub fn find(

              config: &Config,

              explicit_path: Option<PathBuf>,

          ) -> Result<Self, RepoError> {

              if let Some(root) = explicit_path {

                  if is_dir(root.join(".hg"))? {

                      Self::new_at_path(root.to_owned(), config)

                  } else if is_file(&root)? {

                      Err(HgError::unsupported("bundle repository").into())

                  } else {

                      Err(RepoError::NotFound {

                          at: root.to_owned(),

                      })

                  }

              } else {

                  let root = Self::find_repo_root()?;

                  Self::new_at_path(root, config)

              }

          }

          /// To be called after checking that `.hg` is a sub-directory

          fn new_at_path(

              working_directory: PathBuf,

              config: &Config,

          ) -> Result<Self, RepoError> {

              let dot_hg = working_directory.join(".hg");

              let mut repo_config_files = Vec::new();

              repo_config_files.push(dot_hg.join("hgrc"));

              repo_config_files.push(dot_hg.join("hgrc-not-shared"));

              let hg_vfs = Vfs { base: &dot_hg };

              let mut reqs = requirements::load_if_exists(hg_vfs)?;

              let relative =

                  reqs.contains(requirements::RELATIVE_SHARED_REQUIREMENT);

              let shared =

                  reqs.contains(requirements::SHARED_REQUIREMENT) || relative;

              // From `mercurial/localrepo.py`:

              //

              // if .hg/requires contains the sharesafe requirement, it means

              // there exists a `.hg/store/requires` too and we should read it

              // NOTE: presence of SHARESAFE_REQUIREMENT imply that store requirement

              // is present. We never write SHARESAFE_REQUIREMENT for a repo if store

              // is not present, refer checkrequirementscompat() for that

              //

              // However, if SHARESAFE_REQUIREMENT is not present, it means that the

              // repository was shared the old way. We check the share source

              // .hg/requires for SHARESAFE_REQUIREMENT to detect whether the

              // current repository needs to be reshared

              let share_safe = reqs.contains(requirements::SHARESAFE_REQUIREMENT);

              let store_path;

              if !shared {

                  store_path = dot_hg.join("store");

              } else {

                  let bytes = hg_vfs.read("sharedpath")?;

                  let mut shared_path =

                      get_path_from_bytes(bytes.trim_end_matches(|b| b == b'\n'))

                          .to_owned();

                  if relative {

                      shared_path = dot_hg.join(shared_path)

                  }

                  if !is_dir(&shared_path)? {

                      return Err(HgError::corrupted(format!(

                          ".hg/sharedpath points to nonexistent directory {}",

                          shared_path.display()

                      ))

                      .into());

                  }

                  store_path = shared_path.join("store");

                  let source_is_share_safe =

                      requirements::load(Vfs { base: &shared_path })?

                          .contains(requirements::SHARESAFE_REQUIREMENT);

                  if share_safe != source_is_share_safe {

                      return Err(HgError::unsupported("share-safe mismatch").into());

                  }

                  if share_safe {

                      repo_config_files.insert(0, shared_path.join("hgrc"))

                  }

              }

              if share_safe {

                  reqs.extend(requirements::load(Vfs { base: &store_path })?);

              }

              let repo_config = if std::env::var_os("HGRCSKIPREPO").is_none() {

                  config.combine_with_repo(&repo_config_files)?

              } else {

                  config.clone()

              };

              let repo = Self {

                  requirements: reqs,

                  working_directory,

                  store: store_path,

                  dot_hg,

                  config: repo_config,

                  dirstate_parents: LazyCell::new(),

                  dirstate_data_file_uuid: LazyCell::new(),

                  dirstate_map: LazyCell::new(),

                  changelog: LazyCell::new(),

                  manifestlog: LazyCell::new(),

              };

              requirements::check(&repo)?;

              Ok(repo)

          }

          pub fn working_directory_path(&self) -> &Path {

              &self.working_directory

          }

          pub fn requirements(&self) -> &HashSet<String> {

              &self.requirements

          }

          pub fn config(&self) -> &Config {

              &self.config

          }

          /// For accessing repository files (in `.hg`), except for the store

          /// (`.hg/store`).

          pub fn hg_vfs(&self) -> Vfs<'_> {

              Vfs { base: &self.dot_hg }

          }

          /// For accessing repository store files (in `.hg/store`)

          pub fn store_vfs(&self) -> Vfs<'_> {

              Vfs { base: &self.store }

          }

          /// For accessing the working copy

          pub fn working_directory_vfs(&self) -> Vfs<'_> {

              Vfs {

                  base: &self.working_directory,

              }

          }

          pub fn try_with_wlock_no_wait<R>(

              &self,

              f: impl FnOnce() -> R,

          ) -> Result<R, LockError> {

              try_with_lock_no_wait(self.hg_vfs(), "wlock", f)

          }

          pub fn has_dirstate_v2(&self) -> bool {

              self.requirements

                  .contains(requirements::DIRSTATE_V2_REQUIREMENT)

          }

          pub fn has_sparse(&self) -> bool {

              self.requirements.contains(requirements::SPARSE_REQUIREMENT)

          }

          pub fn has_narrow(&self) -> bool {

              self.requirements.contains(requirements::NARROW_REQUIREMENT)

          }

          pub fn has_nodemap(&self) -> bool {

              self.requirements

                  .contains(requirements::NODEMAP_REQUIREMENT)

          }

          fn dirstate_file_contents(&self) -> Result<Vec<u8>, HgError> {

              Ok(self

                  .hg_vfs()

                  .read("dirstate")

                  .io_not_found_as_none()?

                  .unwrap_or(Vec::new()))

          }

          pub fn dirstate_parents(&self) -> Result<DirstateParents, HgError> {

              Ok(*self

                  .dirstate_parents

                  .get_or_init(|| self.read_dirstate_parents())?)

          }

          fn read_dirstate_parents(&self) -> Result<DirstateParents, HgError> {

              let dirstate = self.dirstate_file_contents()?;

              let parents = if dirstate.is_empty() {

                  if self.has_dirstate_v2() {

                      self.dirstate_data_file_uuid.set(None);

                  }

                  DirstateParents::NULL

              } else if self.has_dirstate_v2() {

                  let docket =

                      crate::dirstate_tree::on_disk::read_docket(&dirstate)?;

                  self.dirstate_data_file_uuid

                      .set(Some(docket.uuid.to_owned()));

                  docket.parents()

              } else {

                  crate::dirstate::parsers::parse_dirstate_parents(&dirstate)?

                      .clone()

              };

              self.dirstate_parents.set(parents);

              Ok(parents)

          }

          fn read_dirstate_data_file_uuid(

              &self,

          ) -> Result<Option<Vec<u8>>, HgError> {

              assert!(

                  self.has_dirstate_v2(),

                  "accessing dirstate data file ID without dirstate-v2"

              );

              let dirstate = self.dirstate_file_contents()?;

              if dirstate.is_empty() {

                  self.dirstate_parents.set(DirstateParents::NULL);

                  Ok(None)

              } else {

                  let docket =

                      crate::dirstate_tree::on_disk::read_docket(&dirstate)?;

                  self.dirstate_parents.set(docket.parents());

                  Ok(Some(docket.uuid.to_owned()))

              }

          }

          fn new_dirstate_map(&self) -> Result<OwningDirstateMap, DirstateError> {

              if self.has_dirstate_v2() {

                  self.read_docket_and_data_file()

              } else {

                  let dirstate_file_contents = self.dirstate_file_contents()?;

                  if dirstate_file_contents.is_empty() {

                      self.dirstate_parents.set(DirstateParents::NULL);

                      Ok(OwningDirstateMap::new_empty(Vec::new()))

                  } else {

                      let (map, parents) =

                          OwningDirstateMap::new_v1(dirstate_file_contents)?;

                      self.dirstate_parents.set(parents);

                      Ok(map)

                  }

              }

          }

          fn read_docket_and_data_file(

              &self,

          ) -> Result<OwningDirstateMap, DirstateError> {

              let dirstate_file_contents = self.dirstate_file_contents()?;

              if dirstate_file_contents.is_empty() {

                  self.dirstate_parents.set(DirstateParents::NULL);

                  self.dirstate_data_file_uuid.set(None);

                  return Ok(OwningDirstateMap::new_empty(Vec::new()));

              }

              let docket = crate::dirstate_tree::on_disk::read_docket(

                  &dirstate_file_contents,

              )?;

              self.dirstate_parents.set(docket.parents());

              self.dirstate_data_file_uuid

                  .set(Some(docket.uuid.to_owned()));

              let data_size = docket.data_size();

              let metadata = docket.tree_metadata();

              let mut map = if crate::vfs::is_on_nfs_mount(docket.data_filename()) {

                  // Don't mmap on NFS to prevent `SIGBUS` error on deletion

                  OwningDirstateMap::new_v2(

                      self.hg_vfs().read(docket.data_filename())?,

                      data_size,

                      metadata,

                  )

              } else if let Some(data_mmap) = self

                  .hg_vfs()

                  .mmap_open(docket.data_filename())

                  .io_not_found_as_none()?

              {

                  OwningDirstateMap::new_v2(data_mmap, data_size, metadata)

              } else {

                  OwningDirstateMap::new_v2(Vec::new(), data_size, metadata)

              }?;

              let write_mode_config = self

                  .config()

                  .get_str(b"devel", b"dirstate.v2.data_update_mode")

                  .unwrap_or(Some("auto"))

                  .unwrap_or("auto"); // don't bother for devel options

              let write_mode = match write_mode_config {

                  "auto" => DirstateMapWriteMode::Auto,

                  "force-new" => DirstateMapWriteMode::ForceNewDataFile,

                  "force-append" => DirstateMapWriteMode::ForceAppend,

                  _ => DirstateMapWriteMode::Auto,

              };

              map.with_dmap_mut(|m| m.set_write_mode(write_mode));

              Ok(map)

          }

          pub fn dirstate_map(

              &self,

          ) -> Result<Ref<OwningDirstateMap>, DirstateError> {

              self.dirstate_map.get_or_init(|| self.new_dirstate_map())

          }

          pub fn dirstate_map_mut(

              &self,

          ) -> Result<RefMut<OwningDirstateMap>, DirstateError> {

              self.dirstate_map

                  .get_mut_or_init(|| self.new_dirstate_map())

          }

          fn new_changelog(&self) -> Result<Changelog, HgError> {

              Changelog::open(&self.store_vfs(), self.has_nodemap())

          }

          pub fn changelog(&self) -> Result<Ref<Changelog>, HgError> {

              self.changelog.get_or_init(|| self.new_changelog())

          }

          pub fn changelog_mut(&self) -> Result<RefMut<Changelog>, HgError> {

              self.changelog.get_mut_or_init(|| self.new_changelog())

          }

          fn new_manifestlog(&self) -> Result<Manifestlog, HgError> {

              Manifestlog::open(&self.store_vfs(), self.has_nodemap())

          }

          pub fn manifestlog(&self) -> Result<Ref<Manifestlog>, HgError> {

              self.manifestlog.get_or_init(|| self.new_manifestlog())

          }

          pub fn manifestlog_mut(&self) -> Result<RefMut<Manifestlog>, HgError> {

              self.manifestlog.get_mut_or_init(|| self.new_manifestlog())

          }

          /// Returns the manifest of the *changeset* with the given node ID

          pub fn manifest_for_node(

              &self,

              node: impl Into<NodePrefix>,

          ) -> Result<Manifest, RevlogError> {

              self.manifestlog()?.data_for_node(

                  self.changelog()?

                      .data_for_node(node.into())?

                      .manifest_node()?

                      .into(),

              )

          }

          /// Returns the manifest of the *changeset* with the given revision number

          pub fn manifest_for_rev(

              &self,

              revision: Revision,

          ) -> Result<Manifest, RevlogError> {

              self.manifestlog()?.data_for_node(

                  self.changelog()?

                      .data_for_rev(revision)?

                      .manifest_node()?

                      .into(),

              )

          }

          pub fn has_subrepos(&self) -> Result<bool, DirstateError> {

              if let Some(entry) = self.dirstate_map()?.get(HgPath::new(".hgsub"))? {

                  Ok(entry.tracked())

              } else {

                  Ok(false)

              }

          }

          pub fn filelog(&self, path: &HgPath) -> Result<Filelog, HgError> {

              Filelog::open(self, path)

          }

          /// Write to disk any updates that were made through `dirstate_map_mut`.

          ///

          /// The "wlock" must be held while calling this.

          /// See for example `try_with_wlock_no_wait`.

          ///

          /// TODO: have a `WritableRepo` type only accessible while holding the

          /// lock?

          pub fn write_dirstate(&self) -> Result<(), DirstateError> {

              let map = self.dirstate_map()?;

              // TODO: Maintain a `DirstateMap::dirty` flag, and return early here if

              // it’s unset

              let parents = self.dirstate_parents()?;

              let (packed_dirstate, old_uuid_to_remove) = if self.has_dirstate_v2() {

                  let uuid_opt = self

                      .dirstate_data_file_uuid

                      .get_or_init(|| self.read_dirstate_data_file_uuid())?;

                  let uuid_opt = uuid_opt.as_ref();

                  let write_mode = if uuid_opt.is_some() {

                      DirstateMapWriteMode::Auto

                  } else {

                      DirstateMapWriteMode::ForceNewDataFile

                  };

                  let (data, tree_metadata, append, old_data_size) =

                      map.pack_v2(write_mode)?;

                  // Reuse the uuid, or generate a new one, keeping the old for

                  // deletion.

                  let (uuid, old_uuid) = match uuid_opt {

                      Some(uuid) => {

                          let as_str = std::str::from_utf8(uuid)

                              .map_err(|_| {

                                  HgError::corrupted(

                                      "non-UTF-8 dirstate data file ID",

                                  )

                              })?

                              .to_owned();

                          if append {

                              (as_str, None)

                          } else {

                              (DirstateDocket::new_uid(), Some(as_str))

                          }

                      }

                      None => (DirstateDocket::new_uid(), None),

                  };

                  let data_filename = format!("dirstate.{}", uuid);

                  let data_filename = self.hg_vfs().join(data_filename);

                  let mut options = std::fs::OpenOptions::new();

                  options.write(true);

                  // Why are we not using the O_APPEND flag when appending?

                  //

                  // - O_APPEND makes it trickier to deal with garbage at the end of

                  //   the file, left by a previous uncommitted transaction. By

                  //   starting the write at [old_data_size] we make sure we erase

                  //   all such garbage.

                  //

                  // - O_APPEND requires to special-case 0-byte writes, whereas we

                  //   don't need that.

                  //

                  // - Some OSes have bugs in implementation O_APPEND:

                  //   revlog.py talks about a Solaris bug, but we also saw some ZFS

                  //   bug: https://github.com/openzfs/zfs/pull/3124,

                  //   https://github.com/openzfs/zfs/issues/13370

                  //

                  if !append {

                      log::trace!("creating a new dirstate data file");

                      options.create_new(true);

                  } else {

                      log::trace!("appending to the dirstate data file");

                  }

                  let data_size = (|| {

                      // TODO: loop and try another random ID if !append and this

                      // returns `ErrorKind::AlreadyExists`? Collision chance of two

                      // random IDs is one in 2**32

                      let mut file = options.open(&data_filename)?;

                      if append {

                          file.seek(SeekFrom::Start(old_data_size as u64))?;

                      }

                      file.write_all(&data)?;

                      file.flush()?;

                      file.seek(SeekFrom::Current(0))

                  })()

                  .when_writing_file(&data_filename)?;

                  let packed_dirstate = DirstateDocket::serialize(

                      parents,

                      tree_metadata,

                      data_size,

                      uuid.as_bytes(),

                  )

                  .map_err(|_: std::num::TryFromIntError| {

                      HgError::corrupted("overflow in dirstate docket serialization")

                  })?;

                  (packed_dirstate, old_uuid)

              } else {

                  (map.pack_v1(parents)?, None)

              };

              let vfs = self.hg_vfs();

              vfs.atomic_write("dirstate", &packed_dirstate)?;

              if let Some(uuid) = old_uuid_to_remove {

                  // Remove the old data file after the new docket pointing to the

                  // new data file was written.

                  vfs.remove_file(format!("dirstate.{}", uuid))?;

              }

              Ok(())

          }

      }

      /// Lazily-initialized component of `Repo` with interior mutability

      ///

      /// This differs from `OnceCell` in that the value can still be "deinitialized"

      /// later by setting its inner `Option` to `None`. It also takes the

      /// initialization function as an argument when the value is requested, not

      /// when the instance is created.

      struct LazyCell<T> {

          value: RefCell<Option<T>>,

      }

      impl<T> LazyCell<T> {

          fn new() -> Self {

              Self {

                  value: RefCell::new(None),

              }

          }

          fn set(&self, value: T) {

              *self.value.borrow_mut() = Some(value)

          }

          fn get_or_init<E>(

              &self,

              init: impl Fn() -> Result<T, E>,

          ) -> Result<Ref<T>, E> {

              let mut borrowed = self.value.borrow();

              if borrowed.is_none() {

                  drop(borrowed);

                  // Only use `borrow_mut` if it is really needed to avoid panic in

                  // case there is another outstanding borrow but mutation is not

                  // needed.

                  *self.value.borrow_mut() = Some(init()?);

                  borrowed = self.value.borrow()

              }

              Ok(Ref::map(borrowed, |option| option.as_ref().unwrap()))

          }

          fn get_mut_or_init<E>(

              &self,

              init: impl Fn() -> Result<T, E>,

          ) -> Result<RefMut<T>, E> {

              let mut borrowed = self.value.borrow_mut();

              if borrowed.is_none() {

                  *borrowed = Some(init()?);

              }

              Ok(RefMut::map(borrowed, |option| option.as_mut().unwrap()))

          }

      }

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				use crate::changelog::Changelog;
				use crate::config::{Config, ConfigError, ConfigParseError};
				use crate::dirstate::DirstateParents;
				use crate::dirstate_tree::dirstate_map::DirstateMapWriteMode;
				use crate::dirstate_tree::on_disk::Docket as DirstateDocket;
				use crate::dirstate_tree::owning::OwningDirstateMap;
				use crate::errors::HgResultExt;
				use crate::errors::{HgError, IoResultExt};
				use crate::lock::{try_with_lock_no_wait, LockError};
				use crate::manifest::{Manifest, Manifestlog};
				use crate::revlog::filelog::Filelog;
				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::vfs::{is_dir, is_file, Vfs};
				use crate::{requirements, NodePrefix};
				use crate::{DirstateError, Revision};
				use std::cell::{Ref, RefCell, RefMut};
				use std::collections::HashSet;
				use std::io::Seek;
				use std::io::SeekFrom;
				use std::io::Write as IoWrite;
				use std::path::{Path, PathBuf};

				/// A repository on disk
				pub struct Repo {
				working_directory: PathBuf,
				dot_hg: PathBuf,
				store: PathBuf,
				requirements: HashSet<String>,
				config: Config,
				dirstate_parents: LazyCell<DirstateParents>,
				dirstate_data_file_uuid: LazyCell<Option<Vec<u8>>>,
				dirstate_map: LazyCell<OwningDirstateMap>,
				changelog: LazyCell<Changelog>,
				manifestlog: LazyCell<Manifestlog>,
				}

				#[derive(Debug, derive_more::From)]
				pub enum RepoError {
				NotFound {
				at: PathBuf,
				},
				#[from]
				ConfigParseError(ConfigParseError),
				#[from]
				Other(HgError),
				}

				impl From<ConfigError> for RepoError {
				fn from(error: ConfigError) -> Self {
				match error {
				ConfigError::Parse(error) => error.into(),
				ConfigError::Other(error) => error.into(),
				}
				}
				}

				impl Repo {
				/// tries to find nearest repository root in current working directory or
				/// its ancestors
				pub fn find_repo_root() -> Result<PathBuf, RepoError> {
				let current_directory = crate::utils::current_dir()?;
				// ancestors() is inclusive: it first yields `current_directory`
				// as-is.
				for ancestor in current_directory.ancestors() {
				if is_dir(ancestor.join(".hg"))? {
				return Ok(ancestor.to_path_buf());
				}
				}
				return Err(RepoError::NotFound {
				at: current_directory,
				});
				}

				/// Find a repository, either at the given path (which must contain a `.hg`
				/// sub-directory) or by searching the current directory and its
				/// ancestors.
				///
				/// A method with two very different "modes" like this usually a code smell
				/// to make two methods instead, but in this case an `Option` is what rhg
				/// sub-commands get from Clap for the `-R` / `--repository` CLI argument.
				/// Having two methods would just move that `if` to almost all callers.
				pub fn find(
				config: &Config,
				explicit_path: Option<PathBuf>,
				) -> Result<Self, RepoError> {
				if let Some(root) = explicit_path {
				if is_dir(root.join(".hg"))? {
				Self::new_at_path(root.to_owned(), config)
				} else if is_file(&root)? {
				Err(HgError::unsupported("bundle repository").into())
				} else {
				Err(RepoError::NotFound {
				at: root.to_owned(),
				})
				}
				} else {
				let root = Self::find_repo_root()?;
				Self::new_at_path(root, config)
				}
				}

				/// To be called after checking that `.hg` is a sub-directory
				fn new_at_path(
				working_directory: PathBuf,
				config: &Config,
				) -> Result<Self, RepoError> {
				let dot_hg = working_directory.join(".hg");

				let mut repo_config_files = Vec::new();
				repo_config_files.push(dot_hg.join("hgrc"));
				repo_config_files.push(dot_hg.join("hgrc-not-shared"));

				let hg_vfs = Vfs { base: &dot_hg };
				let mut reqs = requirements::load_if_exists(hg_vfs)?;
				let relative =
				reqs.contains(requirements::RELATIVE_SHARED_REQUIREMENT);
				let shared =
				reqs.contains(requirements::SHARED_REQUIREMENT) \|\| relative;

				// From `mercurial/localrepo.py`:
				//
				// if .hg/requires contains the sharesafe requirement, it means
				// there exists a `.hg/store/requires` too and we should read it
				// NOTE: presence of SHARESAFE_REQUIREMENT imply that store requirement
				// is present. We never write SHARESAFE_REQUIREMENT for a repo if store
				// is not present, refer checkrequirementscompat() for that
				//
				// However, if SHARESAFE_REQUIREMENT is not present, it means that the
				// repository was shared the old way. We check the share source
				// .hg/requires for SHARESAFE_REQUIREMENT to detect whether the
				// current repository needs to be reshared
				let share_safe = reqs.contains(requirements::SHARESAFE_REQUIREMENT);

				let store_path;
				if !shared {
				store_path = dot_hg.join("store");
				} else {
				let bytes = hg_vfs.read("sharedpath")?;
				let mut shared_path =
				get_path_from_bytes(bytes.trim_end_matches(\|b\| b == b'\n'))
				.to_owned();
				if relative {
				shared_path = dot_hg.join(shared_path)
				}
				if !is_dir(&shared_path)? {
				return Err(HgError::corrupted(format!(
				".hg/sharedpath points to nonexistent directory {}",
				shared_path.display()
				))
				.into());
				}

				store_path = shared_path.join("store");

				let source_is_share_safe =
				requirements::load(Vfs { base: &shared_path })?
				.contains(requirements::SHARESAFE_REQUIREMENT);

				if share_safe != source_is_share_safe {
				return Err(HgError::unsupported("share-safe mismatch").into());
				}

				if share_safe {
				repo_config_files.insert(0, shared_path.join("hgrc"))
				}
				}
				if share_safe {
				reqs.extend(requirements::load(Vfs { base: &store_path })?);
				}

				let repo_config = if std::env::var_os("HGRCSKIPREPO").is_none() {
				config.combine_with_repo(&repo_config_files)?
				} else {
				config.clone()
				};

				let repo = Self {
				requirements: reqs,
				working_directory,
				store: store_path,
				dot_hg,
				config: repo_config,
				dirstate_parents: LazyCell::new(),
				dirstate_data_file_uuid: LazyCell::new(),
				dirstate_map: LazyCell::new(),
				changelog: LazyCell::new(),
				manifestlog: LazyCell::new(),
				};

				requirements::check(&repo)?;

				Ok(repo)
				}

				pub fn working_directory_path(&self) -> &Path {
				&self.working_directory
				}

				pub fn requirements(&self) -> &HashSet<String> {
				&self.requirements
				}

				pub fn config(&self) -> &Config {
				&self.config
				}

				/// For accessing repository files (in `.hg`), except for the store
				/// (`.hg/store`).
				pub fn hg_vfs(&self) -> Vfs<'_> {
				Vfs { base: &self.dot_hg }
				}

				/// For accessing repository store files (in `.hg/store`)
				pub fn store_vfs(&self) -> Vfs<'_> {
				Vfs { base: &self.store }
				}

				/// For accessing the working copy
				pub fn working_directory_vfs(&self) -> Vfs<'_> {
				Vfs {
				base: &self.working_directory,
				}
				}

				pub fn try_with_wlock_no_wait<R>(
				&self,
				f: impl FnOnce() -> R,
				) -> Result<R, LockError> {
				try_with_lock_no_wait(self.hg_vfs(), "wlock", f)
				}

				pub fn has_dirstate_v2(&self) -> bool {
				self.requirements
				.contains(requirements::DIRSTATE_V2_REQUIREMENT)
				}

				pub fn has_sparse(&self) -> bool {
				self.requirements.contains(requirements::SPARSE_REQUIREMENT)
				}

				pub fn has_narrow(&self) -> bool {
				self.requirements.contains(requirements::NARROW_REQUIREMENT)
				}

				pub fn has_nodemap(&self) -> bool {
				self.requirements
				.contains(requirements::NODEMAP_REQUIREMENT)
				}

				fn dirstate_file_contents(&self) -> Result<Vec<u8>, HgError> {
				Ok(self
				.hg_vfs()
				.read("dirstate")
				.io_not_found_as_none()?
				.unwrap_or(Vec::new()))
				}

				pub fn dirstate_parents(&self) -> Result<DirstateParents, HgError> {
				Ok(*self
				.dirstate_parents
				.get_or_init(\|\| self.read_dirstate_parents())?)
				}

				fn read_dirstate_parents(&self) -> Result<DirstateParents, HgError> {
				let dirstate = self.dirstate_file_contents()?;
				let parents = if dirstate.is_empty() {
				if self.has_dirstate_v2() {
				self.dirstate_data_file_uuid.set(None);
				}
				DirstateParents::NULL
				} else if self.has_dirstate_v2() {
				let docket =
				crate::dirstate_tree::on_disk::read_docket(&dirstate)?;
				self.dirstate_data_file_uuid
				.set(Some(docket.uuid.to_owned()));
				docket.parents()
				} else {
				crate::dirstate::parsers::parse_dirstate_parents(&dirstate)?
				.clone()
				};
				self.dirstate_parents.set(parents);
				Ok(parents)
				}

				fn read_dirstate_data_file_uuid(
				&self,
				) -> Result<Option<Vec<u8>>, HgError> {
				assert!(
				self.has_dirstate_v2(),
				"accessing dirstate data file ID without dirstate-v2"
				);
				let dirstate = self.dirstate_file_contents()?;
				if dirstate.is_empty() {
				self.dirstate_parents.set(DirstateParents::NULL);
				Ok(None)
				} else {
				let docket =
				crate::dirstate_tree::on_disk::read_docket(&dirstate)?;
				self.dirstate_parents.set(docket.parents());
				Ok(Some(docket.uuid.to_owned()))
				}
				}

				fn new_dirstate_map(&self) -> Result<OwningDirstateMap, DirstateError> {
				if self.has_dirstate_v2() {
				self.read_docket_and_data_file()
				} else {
				let dirstate_file_contents = self.dirstate_file_contents()?;
				if dirstate_file_contents.is_empty() {
				self.dirstate_parents.set(DirstateParents::NULL);
				Ok(OwningDirstateMap::new_empty(Vec::new()))
				} else {
				let (map, parents) =
				OwningDirstateMap::new_v1(dirstate_file_contents)?;
				self.dirstate_parents.set(parents);
				Ok(map)
				}
				}
				}

				fn read_docket_and_data_file(
				&self,
				) -> Result<OwningDirstateMap, DirstateError> {
				let dirstate_file_contents = self.dirstate_file_contents()?;
				if dirstate_file_contents.is_empty() {
				self.dirstate_parents.set(DirstateParents::NULL);
				self.dirstate_data_file_uuid.set(None);
				return Ok(OwningDirstateMap::new_empty(Vec::new()));
				}
				let docket = crate::dirstate_tree::on_disk::read_docket(
				&dirstate_file_contents,
				)?;
				self.dirstate_parents.set(docket.parents());
				self.dirstate_data_file_uuid
				.set(Some(docket.uuid.to_owned()));
				let data_size = docket.data_size();
				let metadata = docket.tree_metadata();
				let mut map = if crate::vfs::is_on_nfs_mount(docket.data_filename()) {
				// Don't mmap on NFS to prevent `SIGBUS` error on deletion
				OwningDirstateMap::new_v2(
				self.hg_vfs().read(docket.data_filename())?,
				data_size,
				metadata,
				)
				} else if let Some(data_mmap) = self
				.hg_vfs()
				.mmap_open(docket.data_filename())
				.io_not_found_as_none()?
				{
				OwningDirstateMap::new_v2(data_mmap, data_size, metadata)
				} else {
				OwningDirstateMap::new_v2(Vec::new(), data_size, metadata)
				}?;

				let write_mode_config = self
				.config()
				.get_str(b"devel", b"dirstate.v2.data_update_mode")
				.unwrap_or(Some("auto"))
				.unwrap_or("auto"); // don't bother for devel options
				let write_mode = match write_mode_config {
				"auto" => DirstateMapWriteMode::Auto,
				"force-new" => DirstateMapWriteMode::ForceNewDataFile,
				"force-append" => DirstateMapWriteMode::ForceAppend,
				_ => DirstateMapWriteMode::Auto,
				};

				map.with_dmap_mut(\|m\| m.set_write_mode(write_mode));

				Ok(map)
				}

				pub fn dirstate_map(
				&self,
				) -> Result<Ref<OwningDirstateMap>, DirstateError> {
				self.dirstate_map.get_or_init(\|\| self.new_dirstate_map())
				}

				pub fn dirstate_map_mut(
				&self,
				) -> Result<RefMut<OwningDirstateMap>, DirstateError> {
				self.dirstate_map
				.get_mut_or_init(\|\| self.new_dirstate_map())
				}

				fn new_changelog(&self) -> Result<Changelog, HgError> {
				Changelog::open(&self.store_vfs(), self.has_nodemap())
				}

				pub fn changelog(&self) -> Result<Ref<Changelog>, HgError> {
				self.changelog.get_or_init(\|\| self.new_changelog())
				}

				pub fn changelog_mut(&self) -> Result<RefMut<Changelog>, HgError> {
				self.changelog.get_mut_or_init(\|\| self.new_changelog())
				}

				fn new_manifestlog(&self) -> Result<Manifestlog, HgError> {
				Manifestlog::open(&self.store_vfs(), self.has_nodemap())
				}

				pub fn manifestlog(&self) -> Result<Ref<Manifestlog>, HgError> {
				self.manifestlog.get_or_init(\|\| self.new_manifestlog())
				}

				pub fn manifestlog_mut(&self) -> Result<RefMut<Manifestlog>, HgError> {
				self.manifestlog.get_mut_or_init(\|\| self.new_manifestlog())
				}

				/// Returns the manifest of the changeset with the given node ID
				pub fn manifest_for_node(
				&self,
				node: impl Into<NodePrefix>,
				) -> Result<Manifest, RevlogError> {
				self.manifestlog()?.data_for_node(
				self.changelog()?
				.data_for_node(node.into())?
				.manifest_node()?
				.into(),
				)
				}

				/// Returns the manifest of the changeset with the given revision number
				pub fn manifest_for_rev(
				&self,
				revision: Revision,
				) -> Result<Manifest, RevlogError> {
				self.manifestlog()?.data_for_node(
				self.changelog()?
				.data_for_rev(revision)?
				.manifest_node()?
				.into(),
				)
				}

				pub fn has_subrepos(&self) -> Result<bool, DirstateError> {
				if let Some(entry) = self.dirstate_map()?.get(HgPath::new(".hgsub"))? {
				Ok(entry.tracked())
				} else {
				Ok(false)
				}
				}

				pub fn filelog(&self, path: &HgPath) -> Result<Filelog, HgError> {
				Filelog::open(self, path)
				}

				/// Write to disk any updates that were made through `dirstate_map_mut`.
				///
				/// The "wlock" must be held while calling this.
				/// See for example `try_with_wlock_no_wait`.
				///
				/// TODO: have a `WritableRepo` type only accessible while holding the
				/// lock?
				pub fn write_dirstate(&self) -> Result<(), DirstateError> {
				let map = self.dirstate_map()?;
				// TODO: Maintain a `DirstateMap::dirty` flag, and return early here if
				// it’s unset
				let parents = self.dirstate_parents()?;
				let (packed_dirstate, old_uuid_to_remove) = if self.has_dirstate_v2() {
				let uuid_opt = self
				.dirstate_data_file_uuid
				.get_or_init(\|\| self.read_dirstate_data_file_uuid())?;
				let uuid_opt = uuid_opt.as_ref();
				let write_mode = if uuid_opt.is_some() {
				DirstateMapWriteMode::Auto
				} else {
				DirstateMapWriteMode::ForceNewDataFile
				};
				let (data, tree_metadata, append, old_data_size) =
				map.pack_v2(write_mode)?;

				// Reuse the uuid, or generate a new one, keeping the old for
				// deletion.
				let (uuid, old_uuid) = match uuid_opt {
				Some(uuid) => {
				let as_str = std::str::from_utf8(uuid)
				.map_err(\|_\| {
				HgError::corrupted(
				"non-UTF-8 dirstate data file ID",
				)
				})?
				.to_owned();
				if append {
				(as_str, None)
				} else {
				(DirstateDocket::new_uid(), Some(as_str))
				}
				}
				None => (DirstateDocket::new_uid(), None),
				};

				let data_filename = format!("dirstate.{}", uuid);
				let data_filename = self.hg_vfs().join(data_filename);
				let mut options = std::fs::OpenOptions::new();
				options.write(true);

				// Why are we not using the O_APPEND flag when appending?
				//
				// - O_APPEND makes it trickier to deal with garbage at the end of
				// the file, left by a previous uncommitted transaction. By
				// starting the write at [old_data_size] we make sure we erase
				// all such garbage.
				//
				// - O_APPEND requires to special-case 0-byte writes, whereas we
				// don't need that.
				//
				// - Some OSes have bugs in implementation O_APPEND:
				// revlog.py talks about a Solaris bug, but we also saw some ZFS
				// bug: https://github.com/openzfs/zfs/pull/3124,
				// https://github.com/openzfs/zfs/issues/13370
				//
				if !append {
				log::trace!("creating a new dirstate data file");
				options.create_new(true);
				} else {
				log::trace!("appending to the dirstate data file");
				}

				let data_size = (\|\| {
				// TODO: loop and try another random ID if !append and this
				// returns `ErrorKind::AlreadyExists`? Collision chance of two
				// random IDs is one in 2**32
				let mut file = options.open(&data_filename)?;
				if append {
				file.seek(SeekFrom::Start(old_data_size as u64))?;
				}
				file.write_all(&data)?;
				file.flush()?;
				file.seek(SeekFrom::Current(0))
				})()
				.when_writing_file(&data_filename)?;

				let packed_dirstate = DirstateDocket::serialize(
				parents,
				tree_metadata,
				data_size,
				uuid.as_bytes(),
				)
				.map_err(\|_: std::num::TryFromIntError\| {
				HgError::corrupted("overflow in dirstate docket serialization")
				})?;

				(packed_dirstate, old_uuid)
				} else {
				(map.pack_v1(parents)?, None)
				};

				let vfs = self.hg_vfs();
				vfs.atomic_write("dirstate", &packed_dirstate)?;
				if let Some(uuid) = old_uuid_to_remove {
				// Remove the old data file after the new docket pointing to the
				// new data file was written.
				vfs.remove_file(format!("dirstate.{}", uuid))?;
				}
				Ok(())
				}
				}

				/// Lazily-initialized component of `Repo` with interior mutability
				///
				/// This differs from `OnceCell` in that the value can still be "deinitialized"
				/// later by setting its inner `Option` to `None`. It also takes the
				/// initialization function as an argument when the value is requested, not
				/// when the instance is created.
				struct LazyCell<T> {
				value: RefCell<Option<T>>,
				}

				impl<T> LazyCell<T> {
				fn new() -> Self {
				Self {
				value: RefCell::new(None),
				}
				}

				fn set(&self, value: T) {
				*self.value.borrow_mut() = Some(value)
				}

				fn get_or_init<E>(
				&self,
				init: impl Fn() -> Result<T, E>,
				) -> Result<Ref<T>, E> {
				let mut borrowed = self.value.borrow();
				if borrowed.is_none() {
				drop(borrowed);
				// Only use `borrow_mut` if it is really needed to avoid panic in
				// case there is another outstanding borrow but mutation is not
				// needed.
				*self.value.borrow_mut() = Some(init()?);
				borrowed = self.value.borrow()
				}
				Ok(Ref::map(borrowed, \|option\| option.as_ref().unwrap()))
				}

				fn get_mut_or_init<E>(
				&self,
				init: impl Fn() -> Result<T, E>,
				) -> Result<RefMut<T>, E> {
				let mut borrowed = self.value.borrow_mut();
				if borrowed.is_none() {
				*borrowed = Some(init()?);
				}
				Ok(RefMut::map(borrowed, \|option\| option.as_mut().unwrap()))
				}
				}