Mercurial > hg
view rust/hg-core/src/sparse.rs @ 52314:33d8cb64e9da
rust: fix darwin build
author | Dan Villiom Podlaski Christiansen <danchr@gmail.com> |
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date | Mon, 18 Nov 2024 15:42:09 +0100 |
parents | 22d24f6d6411 |
children |
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use std::{collections::HashSet, fmt::Display, path::Path}; use format_bytes::{format_bytes, write_bytes, DisplayBytes}; use crate::{ errors::HgError, exit_codes::STATE_ERROR, filepatterns::{ parse_pattern_file_contents, IgnorePattern, PatternError, PatternFileWarning, PatternSyntax, }, matchers::{ AlwaysMatcher, DifferenceMatcher, IncludeMatcher, Matcher, UnionMatcher, }, narrow::VALID_PREFIXES, operations::cat, repo::Repo, requirements::SPARSE_REQUIREMENT, utils::{hg_path::HgPath, SliceExt}, Revision, NULL_REVISION, }; /// Command which is triggering the config read #[derive(Copy, Clone, Debug)] pub enum SparseConfigContext { Sparse, Narrow, } impl DisplayBytes for SparseConfigContext { fn display_bytes( &self, output: &mut dyn std::io::Write, ) -> std::io::Result<()> { match self { SparseConfigContext::Sparse => write_bytes!(output, b"sparse"), SparseConfigContext::Narrow => write_bytes!(output, b"narrow"), } } } impl Display for SparseConfigContext { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { SparseConfigContext::Sparse => write!(f, "sparse"), SparseConfigContext::Narrow => write!(f, "narrow"), } } } /// Possible warnings when reading sparse configuration #[derive(Debug, derive_more::From)] pub enum SparseWarning { /// Warns about improper paths that start with "/" RootWarning { context: SparseConfigContext, line: Vec<u8>, }, /// Warns about a profile missing from the given changelog revision ProfileNotFound { profile: Vec<u8>, rev: Revision }, #[from] Pattern(PatternFileWarning), } /// Parsed sparse config #[derive(Debug, Default)] pub struct SparseConfig { // Line-separated pub(crate) includes: Vec<u8>, // Line-separated pub(crate) excludes: Vec<u8>, pub(crate) profiles: HashSet<Vec<u8>>, pub(crate) warnings: Vec<SparseWarning>, } /// All possible errors when reading sparse/narrow config #[derive(Debug, derive_more::From)] pub enum SparseConfigError { IncludesAfterExcludes { context: SparseConfigContext, }, EntryOutsideSection { context: SparseConfigContext, line: Vec<u8>, }, /// Narrow config does not support '%include' directives IncludesInNarrow, /// An invalid pattern prefix was given to the narrow spec. Includes the /// entire pattern for context. InvalidNarrowPrefix(Vec<u8>), #[from] HgError(HgError), #[from] PatternError(PatternError), } impl From<SparseConfigError> for HgError { fn from(value: SparseConfigError) -> Self { match value { SparseConfigError::IncludesAfterExcludes { context } => { HgError::Abort { message: format!( "{} config cannot have includes after excludes", context, ), detailed_exit_code: STATE_ERROR, hint: None, } } SparseConfigError::EntryOutsideSection { context, line } => { HgError::Abort { message: format!( "{} config entry outside of section: {}", context, String::from_utf8_lossy(&line) ), detailed_exit_code: STATE_ERROR, hint: None, } } SparseConfigError::IncludesInNarrow => HgError::Abort { message: "including other spec files using '%include' is not \ supported in narrowspec" .to_string(), detailed_exit_code: STATE_ERROR, hint: None, }, SparseConfigError::InvalidNarrowPrefix(vec) => HgError::Abort { message: String::from_utf8_lossy(&format_bytes!( b"invalid prefix on narrow pattern: {}", vec )) .to_string(), detailed_exit_code: STATE_ERROR, hint: Some(format!( "narrow patterns must begin with one of the following: {}", VALID_PREFIXES.join(", ") )), }, SparseConfigError::HgError(hg_error) => hg_error, SparseConfigError::PatternError(pattern_error) => HgError::Abort { message: pattern_error.to_string(), detailed_exit_code: STATE_ERROR, hint: None, }, } } } /// Parse sparse config file content. pub(crate) fn parse_config( raw: &[u8], context: SparseConfigContext, ) -> Result<SparseConfig, SparseConfigError> { let mut includes = vec![]; let mut excludes = vec![]; let mut profiles = HashSet::new(); let mut warnings = vec![]; #[derive(PartialEq, Eq)] enum Current { Includes, Excludes, None, } let mut current = Current::None; let mut in_section = false; for line in raw.split(|c| *c == b'\n') { let line = line.trim(); if line.is_empty() || line[0] == b'#' { // empty or comment line, skip continue; } if line.starts_with(b"%include ") { let profile = line[b"%include ".len()..].trim(); if !profile.is_empty() { profiles.insert(profile.into()); } } else if line == b"[include]" { if in_section && current == Current::Includes { return Err(SparseConfigError::IncludesAfterExcludes { context, }); } in_section = true; current = Current::Includes; continue; } else if line == b"[exclude]" { in_section = true; current = Current::Excludes; } else { if current == Current::None { return Err(SparseConfigError::EntryOutsideSection { context, line: line.into(), }); } if line.trim().starts_with(b"/") { warnings.push(SparseWarning::RootWarning { context, line: line.into(), }); continue; } match current { Current::Includes => { includes.push(b'\n'); includes.extend(line.iter()); } Current::Excludes => { excludes.push(b'\n'); excludes.extend(line.iter()); } Current::None => unreachable!(), } } } Ok(SparseConfig { includes, excludes, profiles, warnings, }) } fn read_temporary_includes( repo: &Repo, ) -> Result<Vec<Vec<u8>>, SparseConfigError> { let raw = repo.hg_vfs().try_read("tempsparse")?.unwrap_or_default(); if raw.is_empty() { return Ok(vec![]); } Ok(raw.split(|c| *c == b'\n').map(ToOwned::to_owned).collect()) } /// Obtain sparse checkout patterns for the given revision fn patterns_for_rev( repo: &Repo, rev: Revision, ) -> Result<Option<SparseConfig>, SparseConfigError> { if !repo.has_sparse() { return Ok(None); } let raw = repo.hg_vfs().try_read("sparse")?.unwrap_or_default(); if raw.is_empty() { return Ok(None); } let mut config = parse_config(&raw, SparseConfigContext::Sparse)?; if !config.profiles.is_empty() { let mut profiles: Vec<Vec<u8>> = config.profiles.into_iter().collect(); let mut visited = HashSet::new(); while let Some(profile) = profiles.pop() { if visited.contains(&profile) { continue; } visited.insert(profile.to_owned()); let output = cat(repo, &rev.to_string(), vec![HgPath::new(&profile)]) .map_err(|_| { HgError::corrupted( "dirstate points to non-existent parent node" .to_string(), ) })?; if output.results.is_empty() { config.warnings.push(SparseWarning::ProfileNotFound { profile: profile.to_owned(), rev, }) } let subconfig = parse_config( &output.results[0].1, SparseConfigContext::Sparse, )?; if !subconfig.includes.is_empty() { config.includes.push(b'\n'); config.includes.extend(&subconfig.includes); } if !subconfig.includes.is_empty() { config.includes.push(b'\n'); config.excludes.extend(&subconfig.excludes); } config.warnings.extend(subconfig.warnings.into_iter()); profiles.extend(subconfig.profiles.into_iter()); } config.profiles = visited; } if !config.includes.is_empty() { config.includes.extend(b"\n.hg*"); } Ok(Some(config)) } /// Obtain a matcher for sparse working directories. pub fn matcher( repo: &Repo, ) -> Result<(Box<dyn Matcher + Sync>, Vec<SparseWarning>), SparseConfigError> { let mut warnings = vec![]; if !repo.requirements().contains(SPARSE_REQUIREMENT) { return Ok((Box::new(AlwaysMatcher), warnings)); } let parents = repo.dirstate_parents()?; let mut revs = vec![]; let p1_rev = repo.changelog()? .rev_from_node(parents.p1.into()) .map_err(|_| { HgError::corrupted( "dirstate points to non-existent parent node".to_string(), ) })?; if p1_rev != NULL_REVISION { revs.push(p1_rev) } let p2_rev = repo.changelog()? .rev_from_node(parents.p2.into()) .map_err(|_| { HgError::corrupted( "dirstate points to non-existent parent node".to_string(), ) })?; if p2_rev != NULL_REVISION { revs.push(p2_rev) } let mut matchers = vec![]; for rev in revs.iter() { let config = patterns_for_rev(repo, *rev); if let Ok(Some(config)) = config { warnings.extend(config.warnings); let mut m: Box<dyn Matcher + Sync> = Box::new(AlwaysMatcher); if !config.includes.is_empty() { let (patterns, subwarnings) = parse_pattern_file_contents( &config.includes, Path::new(""), Some(PatternSyntax::Glob), false, false, )?; warnings.extend(subwarnings.into_iter().map(From::from)); m = Box::new(IncludeMatcher::new(patterns)?); } if !config.excludes.is_empty() { let (patterns, subwarnings) = parse_pattern_file_contents( &config.excludes, Path::new(""), Some(PatternSyntax::Glob), false, false, )?; warnings.extend(subwarnings.into_iter().map(From::from)); m = Box::new(DifferenceMatcher::new( m, Box::new(IncludeMatcher::new(patterns)?), )); } matchers.push(m); } } let result: Box<dyn Matcher + Sync> = match matchers.len() { 0 => Box::new(AlwaysMatcher), 1 => matchers.pop().expect("1 is equal to 0"), _ => Box::new(UnionMatcher::new(matchers)), }; let matcher = force_include_matcher(result, &read_temporary_includes(repo)?)?; Ok((matcher, warnings)) } /// Returns a matcher that returns true for any of the forced includes before /// testing against the actual matcher fn force_include_matcher( result: Box<dyn Matcher + Sync>, temp_includes: &[Vec<u8>], ) -> Result<Box<dyn Matcher + Sync>, PatternError> { if temp_includes.is_empty() { return Ok(result); } let forced_include_matcher = IncludeMatcher::new( temp_includes .iter() .map(|include| { IgnorePattern::new(PatternSyntax::Path, include, Path::new("")) }) .collect(), )?; Ok(Box::new(UnionMatcher::new(vec![ Box::new(forced_include_matcher), result, ]))) }