##// END OF EJS Templates
revlog: fix index computation during inline->non-inline transition...
revlog: fix index computation during inline->non-inline transition The computation in 63edc384d3b7 failed to factor in the index entries themselve as revlog.start() doesn't count them. Found by Valtenin Gatienbaron with a more precise test case from me. Differential Revision: https://phab.mercurial-scm.org/D10724

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repo.rs
266 lines | 8.7 KiB | application/rls-services+xml | RustLexer
use crate::config::{Config, ConfigError, ConfigParseError};
use crate::errors::{HgError, IoErrorContext, IoResultExt};
use crate::requirements;
use crate::utils::files::get_path_from_bytes;
use crate::utils::SliceExt;
use memmap::{Mmap, MmapOptions};
use std::collections::HashSet;
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,
}
#[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(),
}
}
}
/// Filesystem access abstraction for the contents of a given "base" diretory
#[derive(Clone, Copy)]
pub struct Vfs<'a> {
pub(crate) base: &'a Path,
}
impl Repo {
/// 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<&Path>,
) -> Result<Self, RepoError> {
if let Some(root) = explicit_path {
if root.join(".hg").is_dir() {
Self::new_at_path(root.to_owned(), config)
} else if root.is_file() {
Err(HgError::unsupported("bundle repository").into())
} else {
Err(RepoError::NotFound {
at: root.to_owned(),
})
}
} else {
let current_directory = crate::utils::current_dir()?;
// ancestors() is inclusive: it first yields `current_directory`
// as-is.
for ancestor in current_directory.ancestors() {
if ancestor.join(".hg").is_dir() {
return Self::new_at_path(ancestor.to_owned(), config);
}
}
Err(RepoError::NotFound {
at: current_directory,
})
}
}
/// 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_newlines()).to_owned();
if relative {
shared_path = dot_hg.join(shared_path)
}
if !shared_path.is_dir() {
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(match config
.get(b"share", b"safe-mismatch.source-not-safe")
{
Some(b"abort") | None => HgError::abort(
"abort: share source does not support share-safe requirement\n\
(see `hg help config.format.use-share-safe` for more information)",
),
_ => HgError::unsupported("share-safe downgrade"),
}
.into());
} else if source_is_share_safe && !share_safe {
return Err(
match config.get(b"share", b"safe-mismatch.source-safe") {
Some(b"abort") | None => HgError::abort(
"abort: version mismatch: source uses share-safe \
functionality while the current share does not\n\
(see `hg help config.format.use-share-safe` for more information)",
),
_ => HgError::unsupported("share-safe upgrade"),
}
.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,
};
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 dirstate_parents(
&self,
) -> Result<crate::dirstate::DirstateParents, HgError> {
let dirstate = self.hg_vfs().mmap_open("dirstate")?;
let parents =
crate::dirstate::parsers::parse_dirstate_parents(&dirstate)?;
Ok(parents.clone())
}
}
impl Vfs<'_> {
pub fn join(&self, relative_path: impl AsRef<Path>) -> PathBuf {
self.base.join(relative_path)
}
pub fn read(
&self,
relative_path: impl AsRef<Path>,
) -> Result<Vec<u8>, HgError> {
let path = self.join(relative_path);
std::fs::read(&path).when_reading_file(&path)
}
pub fn mmap_open(
&self,
relative_path: impl AsRef<Path>,
) -> Result<Mmap, HgError> {
let path = self.base.join(relative_path);
let file = std::fs::File::open(&path).when_reading_file(&path)?;
// TODO: what are the safety requirements here?
let mmap = unsafe { MmapOptions::new().map(&file) }
.when_reading_file(&path)?;
Ok(mmap)
}
pub fn rename(
&self,
relative_from: impl AsRef<Path>,
relative_to: impl AsRef<Path>,
) -> Result<(), HgError> {
let from = self.join(relative_from);
let to = self.join(relative_to);
std::fs::rename(&from, &to)
.with_context(|| IoErrorContext::RenamingFile { from, to })
}
}