Mercurial > hg
view rust/hg-core/src/revlog/changelog.rs @ 51568:2a89d2f6336f stable
match: rename RootFiles to RootFilesIn for more consistency
author | Arseniy Alekseyev <aalekseyev@janestreet.com> |
---|---|
date | Fri, 12 Apr 2024 14:21:14 +0100 |
parents | 6603a1448f18 |
children | 918ceb5a3d25 |
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use std::ascii::escape_default; use std::borrow::Cow; use std::collections::BTreeMap; use std::fmt::{Debug, Formatter}; use std::{iter, str}; use chrono::{DateTime, FixedOffset, NaiveDateTime}; use itertools::{Either, Itertools}; use crate::errors::HgError; use crate::revlog::Revision; use crate::revlog::{Node, NodePrefix}; use crate::revlog::{Revlog, RevlogEntry, RevlogError}; use crate::utils::hg_path::HgPath; use crate::vfs::Vfs; use crate::{Graph, GraphError, RevlogOpenOptions, UncheckedRevision}; /// A specialized `Revlog` to work with changelog data format. pub struct Changelog { /// The generic `revlog` format. pub(crate) revlog: Revlog, } impl Changelog { /// Open the `changelog` of a repository given by its root. pub fn open( store_vfs: &Vfs, options: RevlogOpenOptions, ) -> Result<Self, HgError> { let revlog = Revlog::open(store_vfs, "00changelog.i", None, options)?; Ok(Self { revlog }) } /// Return the `ChangelogRevisionData` for the given node ID. pub fn data_for_node( &self, node: NodePrefix, ) -> Result<ChangelogRevisionData, RevlogError> { let rev = self.revlog.rev_from_node(node)?; self.entry_for_checked_rev(rev)?.data() } /// Return the [`ChangelogEntry`] for the given revision number. pub fn entry_for_rev( &self, rev: UncheckedRevision, ) -> Result<ChangelogEntry, RevlogError> { let revlog_entry = self.revlog.get_entry(rev)?; Ok(ChangelogEntry { revlog_entry }) } /// Same as [`Self::entry_for_rev`] for checked revisions. fn entry_for_checked_rev( &self, rev: Revision, ) -> Result<ChangelogEntry, RevlogError> { let revlog_entry = self.revlog.get_entry_for_checked_rev(rev)?; Ok(ChangelogEntry { revlog_entry }) } /// Return the [`ChangelogRevisionData`] for the given revision number. /// /// This is a useful shortcut in case the caller does not need the /// generic revlog information (parents, hashes etc). Otherwise /// consider taking a [`ChangelogEntry`] with /// [entry_for_rev](`Self::entry_for_rev`) and doing everything from there. pub fn data_for_rev( &self, rev: UncheckedRevision, ) -> Result<ChangelogRevisionData, RevlogError> { self.entry_for_rev(rev)?.data() } pub fn node_from_rev(&self, rev: UncheckedRevision) -> Option<&Node> { self.revlog.node_from_rev(rev) } pub fn rev_from_node( &self, node: NodePrefix, ) -> Result<Revision, RevlogError> { self.revlog.rev_from_node(node) } } impl Graph for Changelog { fn parents(&self, rev: Revision) -> Result<[Revision; 2], GraphError> { self.revlog.parents(rev) } } /// A specialized `RevlogEntry` for `changelog` data format /// /// This is a `RevlogEntry` with the added semantics that the associated /// data should meet the requirements for `changelog`, materialized by /// the fact that `data()` constructs a `ChangelogRevisionData`. /// In case that promise would be broken, the `data` method returns an error. #[derive(Clone)] pub struct ChangelogEntry<'changelog> { /// Same data, as a generic `RevlogEntry`. pub(crate) revlog_entry: RevlogEntry<'changelog>, } impl<'changelog> ChangelogEntry<'changelog> { pub fn data<'a>( &'a self, ) -> Result<ChangelogRevisionData<'changelog>, RevlogError> { let bytes = self.revlog_entry.data()?; if bytes.is_empty() { Ok(ChangelogRevisionData::null()) } else { Ok(ChangelogRevisionData::new(bytes).map_err(|err| { RevlogError::Other(HgError::CorruptedRepository(format!( "Invalid changelog data for revision {}: {:?}", self.revlog_entry.revision(), err ))) })?) } } /// Obtain a reference to the underlying `RevlogEntry`. /// /// This allows the caller to access the information that is common /// to all revlog entries: revision number, node id, parent revisions etc. pub fn as_revlog_entry(&self) -> &RevlogEntry { &self.revlog_entry } pub fn p1_entry(&self) -> Result<Option<ChangelogEntry>, RevlogError> { Ok(self .revlog_entry .p1_entry()? .map(|revlog_entry| Self { revlog_entry })) } pub fn p2_entry(&self) -> Result<Option<ChangelogEntry>, RevlogError> { Ok(self .revlog_entry .p2_entry()? .map(|revlog_entry| Self { revlog_entry })) } } /// `Changelog` entry which knows how to interpret the `changelog` data bytes. #[derive(PartialEq)] pub struct ChangelogRevisionData<'changelog> { /// The data bytes of the `changelog` entry. bytes: Cow<'changelog, [u8]>, /// The end offset for the hex manifest (not including the newline) manifest_end: usize, /// The end offset for the user+email (not including the newline) user_end: usize, /// The end offset for the timestamp+timezone+extras (not including the /// newline) timestamp_end: usize, /// The end offset for the file list (not including the newline) files_end: usize, } impl<'changelog> ChangelogRevisionData<'changelog> { fn new(bytes: Cow<'changelog, [u8]>) -> Result<Self, HgError> { let mut line_iter = bytes.split(|b| b == &b'\n'); let manifest_end = line_iter .next() .expect("Empty iterator from split()?") .len(); let user_slice = line_iter.next().ok_or_else(|| { HgError::corrupted("Changeset data truncated after manifest line") })?; let user_end = manifest_end + 1 + user_slice.len(); let timestamp_slice = line_iter.next().ok_or_else(|| { HgError::corrupted("Changeset data truncated after user line") })?; let timestamp_end = user_end + 1 + timestamp_slice.len(); let mut files_end = timestamp_end + 1; loop { let line = line_iter.next().ok_or_else(|| { HgError::corrupted("Changeset data truncated in files list") })?; if line.is_empty() { if files_end == bytes.len() { // The list of files ended with a single newline (there // should be two) return Err(HgError::corrupted( "Changeset data truncated after files list", )); } files_end -= 1; break; } files_end += line.len() + 1; } Ok(Self { bytes, manifest_end, user_end, timestamp_end, files_end, }) } fn null() -> Self { Self::new(Cow::Borrowed( b"0000000000000000000000000000000000000000\n\n0 0\n\n", )) .unwrap() } /// Return an iterator over the lines of the entry. pub fn lines(&self) -> impl Iterator<Item = &[u8]> { self.bytes.split(|b| b == &b'\n') } /// Return the node id of the `manifest` referenced by this `changelog` /// entry. pub fn manifest_node(&self) -> Result<Node, HgError> { let manifest_node_hex = &self.bytes[..self.manifest_end]; Node::from_hex_for_repo(manifest_node_hex) } /// The full user string (usually a name followed by an email enclosed in /// angle brackets) pub fn user(&self) -> &[u8] { &self.bytes[self.manifest_end + 1..self.user_end] } /// The full timestamp line (timestamp in seconds, offset in seconds, and /// possibly extras) // TODO: We should expose this in a more useful way pub fn timestamp_line(&self) -> &[u8] { &self.bytes[self.user_end + 1..self.timestamp_end] } /// Parsed timestamp. pub fn timestamp(&self) -> Result<DateTime<FixedOffset>, HgError> { parse_timestamp(self.timestamp_line()) } /// Optional commit extras. pub fn extra(&self) -> Result<BTreeMap<String, Vec<u8>>, HgError> { parse_timestamp_line_extra(self.timestamp_line()) } /// The files changed in this revision. pub fn files(&self) -> impl Iterator<Item = &HgPath> { if self.timestamp_end == self.files_end { Either::Left(iter::empty()) } else { Either::Right( self.bytes[self.timestamp_end + 1..self.files_end] .split(|b| b == &b'\n') .map(HgPath::new), ) } } /// The change description. pub fn description(&self) -> &[u8] { &self.bytes[self.files_end + 2..] } } impl Debug for ChangelogRevisionData<'_> { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { f.debug_struct("ChangelogRevisionData") .field("bytes", &debug_bytes(&self.bytes)) .field("manifest", &debug_bytes(&self.bytes[..self.manifest_end])) .field( "user", &debug_bytes( &self.bytes[self.manifest_end + 1..self.user_end], ), ) .field( "timestamp", &debug_bytes( &self.bytes[self.user_end + 1..self.timestamp_end], ), ) .field( "files", &debug_bytes( &self.bytes[self.timestamp_end + 1..self.files_end], ), ) .field( "description", &debug_bytes(&self.bytes[self.files_end + 2..]), ) .finish() } } fn debug_bytes(bytes: &[u8]) -> String { String::from_utf8_lossy( &bytes.iter().flat_map(|b| escape_default(*b)).collect_vec(), ) .to_string() } /// Parse the raw bytes of the timestamp line from a changelog entry. /// /// According to the documentation in `hg help dates` and the /// implementation in `changelog.py`, the format of the timestamp line /// is `time tz extra\n` where: /// /// - `time` is an ASCII-encoded signed int or float denoting a UTC timestamp /// as seconds since the UNIX epoch. /// /// - `tz` is the timezone offset as an ASCII-encoded signed integer denoting /// seconds WEST of UTC (so negative for timezones east of UTC, which is the /// opposite of the sign in ISO 8601 timestamps). /// /// - `extra` is an optional set of NUL-delimited key-value pairs, with the key /// and value in each pair separated by an ASCII colon. Keys are limited to /// ASCII letters, digits, hyphens, and underscores, whereas values can be /// arbitrary bytes. fn parse_timestamp( timestamp_line: &[u8], ) -> Result<DateTime<FixedOffset>, HgError> { let mut parts = timestamp_line.splitn(3, |c| *c == b' '); let timestamp_bytes = parts .next() .ok_or_else(|| HgError::corrupted("missing timestamp"))?; let timestamp_str = str::from_utf8(timestamp_bytes).map_err(|e| { HgError::corrupted(format!("timestamp is not valid UTF-8: {e}")) })?; let timestamp_utc = timestamp_str .parse() .map_err(|e| { HgError::corrupted(format!("failed to parse timestamp: {e}")) }) .and_then(|secs| { NaiveDateTime::from_timestamp_opt(secs, 0).ok_or_else(|| { HgError::corrupted(format!( "integer timestamp out of valid range: {secs}" )) }) }) // Attempt to parse the timestamp as a float if we can't parse // it as an int. It doesn't seem like float timestamps are actually // used in practice, but the Python code supports them. .or_else(|_| parse_float_timestamp(timestamp_str))?; let timezone_bytes = parts .next() .ok_or_else(|| HgError::corrupted("missing timezone"))?; let timezone_secs: i32 = str::from_utf8(timezone_bytes) .map_err(|e| { HgError::corrupted(format!("timezone is not valid UTF-8: {e}")) })? .parse() .map_err(|e| { HgError::corrupted(format!("timezone is not an integer: {e}")) })?; let timezone = FixedOffset::west_opt(timezone_secs) .ok_or_else(|| HgError::corrupted("timezone offset out of bounds"))?; Ok(DateTime::from_naive_utc_and_offset(timestamp_utc, timezone)) } /// Attempt to parse the given string as floating-point timestamp, and /// convert the result into a `chrono::NaiveDateTime`. fn parse_float_timestamp( timestamp_str: &str, ) -> Result<NaiveDateTime, HgError> { let timestamp = timestamp_str.parse::<f64>().map_err(|e| { HgError::corrupted(format!("failed to parse timestamp: {e}")) })?; // To construct a `NaiveDateTime` we'll need to convert the float // into signed integer seconds and unsigned integer nanoseconds. let mut secs = timestamp.trunc() as i64; let mut subsecs = timestamp.fract(); // If the timestamp is negative, we need to express the fractional // component as positive nanoseconds since the previous second. if timestamp < 0.0 { secs -= 1; subsecs += 1.0; } // This cast should be safe because the fractional component is // by definition less than 1.0, so this value should not exceed // 1 billion, which is representable as an f64 without loss of // precision and should fit into a u32 without overflowing. // // (Any loss of precision in the fractional component will have // already happened at the time of initial parsing; in general, // f64s are insufficiently precise to provide nanosecond-level // precision with present-day timestamps.) let nsecs = (subsecs * 1_000_000_000.0) as u32; NaiveDateTime::from_timestamp_opt(secs, nsecs).ok_or_else(|| { HgError::corrupted(format!( "float timestamp out of valid range: {timestamp}" )) }) } /// Decode changeset extra fields. /// /// Extras are null-delimited key-value pairs where the key consists of ASCII /// alphanumeric characters plus hyphens and underscores, and the value can /// contain arbitrary bytes. fn decode_extra(extra: &[u8]) -> Result<BTreeMap<String, Vec<u8>>, HgError> { extra .split(|c| *c == b'\0') .map(|pair| { let pair = unescape_extra(pair); let mut iter = pair.splitn(2, |c| *c == b':'); let key_bytes = iter.next().filter(|k| !k.is_empty()).ok_or_else(|| { HgError::corrupted("empty key in changeset extras") })?; let key = str::from_utf8(key_bytes) .ok() .filter(|k| { k.chars().all(|c| { c.is_ascii_alphanumeric() || c == '_' || c == '-' }) }) .ok_or_else(|| { let key = String::from_utf8_lossy(key_bytes); HgError::corrupted(format!( "invalid key in changeset extras: {key}", )) })? .to_string(); let value = iter.next().map(Into::into).ok_or_else(|| { HgError::corrupted(format!( "missing value for changeset extra: {key}" )) })?; Ok((key, value)) }) .collect() } /// Parse the extra fields from a changeset's timestamp line. fn parse_timestamp_line_extra( timestamp_line: &[u8], ) -> Result<BTreeMap<String, Vec<u8>>, HgError> { Ok(timestamp_line .splitn(3, |c| *c == b' ') .nth(2) .map(decode_extra) .transpose()? .unwrap_or_default()) } /// Decode Mercurial's escaping for changelog extras. /// /// The `_string_escape` function in `changelog.py` only escapes 4 characters /// (null, backslash, newline, and carriage return) so we only decode those. /// /// The Python code also includes a workaround for decoding escaped nuls /// that are followed by an ASCII octal digit, since Python's built-in /// `string_escape` codec will interpret that as an escaped octal byte value. /// That workaround is omitted here since we don't support decoding octal. fn unescape_extra(bytes: &[u8]) -> Vec<u8> { let mut output = Vec::with_capacity(bytes.len()); let mut input = bytes.iter().copied(); while let Some(c) = input.next() { if c != b'\\' { output.push(c); continue; } match input.next() { Some(b'0') => output.push(b'\0'), Some(b'\\') => output.push(b'\\'), Some(b'n') => output.push(b'\n'), Some(b'r') => output.push(b'\r'), // The following cases should never occur in theory because any // backslashes in the original input should have been escaped // with another backslash, so it should not be possible to // observe an escape sequence other than the 4 above. Some(c) => output.extend_from_slice(&[b'\\', c]), None => output.push(b'\\'), } } output } #[cfg(test)] mod tests { use super::*; use crate::vfs::Vfs; use crate::NULL_REVISION; use pretty_assertions::assert_eq; #[test] fn test_create_changelogrevisiondata_invalid() { // Completely empty assert!(ChangelogRevisionData::new(Cow::Borrowed(b"abcd")).is_err()); // No newline after manifest assert!(ChangelogRevisionData::new(Cow::Borrowed(b"abcd")).is_err()); // No newline after user assert!(ChangelogRevisionData::new(Cow::Borrowed(b"abcd\n")).is_err()); // No newline after timestamp assert!( ChangelogRevisionData::new(Cow::Borrowed(b"abcd\n\n0 0")).is_err() ); // Missing newline after files assert!(ChangelogRevisionData::new(Cow::Borrowed( b"abcd\n\n0 0\nfile1\nfile2" )) .is_err(),); // Only one newline after files assert!(ChangelogRevisionData::new(Cow::Borrowed( b"abcd\n\n0 0\nfile1\nfile2\n" )) .is_err(),); } #[test] fn test_create_changelogrevisiondata() { let data = ChangelogRevisionData::new(Cow::Borrowed( b"0123456789abcdef0123456789abcdef01234567 Some One <someone@example.com> 0 0 file1 file2 some commit message", )) .unwrap(); assert_eq!( data.manifest_node().unwrap(), Node::from_hex("0123456789abcdef0123456789abcdef01234567") .unwrap() ); assert_eq!(data.user(), b"Some One <someone@example.com>"); assert_eq!(data.timestamp_line(), b"0 0"); assert_eq!( data.files().collect_vec(), vec![HgPath::new("file1"), HgPath::new("file2")] ); assert_eq!(data.description(), b"some\ncommit\nmessage"); } #[test] fn test_data_from_rev_null() -> Result<(), RevlogError> { // an empty revlog will be enough for this case let temp = tempfile::tempdir().unwrap(); let vfs = Vfs { base: temp.path() }; std::fs::write(temp.path().join("foo.i"), b"").unwrap(); let revlog = Revlog::open(&vfs, "foo.i", None, RevlogOpenOptions::new()) .unwrap(); let changelog = Changelog { revlog }; assert_eq!( changelog.data_for_rev(NULL_REVISION.into())?, ChangelogRevisionData::null() ); // same with the intermediate entry object assert_eq!( changelog.entry_for_rev(NULL_REVISION.into())?.data()?, ChangelogRevisionData::null() ); Ok(()) } #[test] fn test_empty_files_list() { assert!(ChangelogRevisionData::null() .files() .collect_vec() .is_empty()); } #[test] fn test_unescape_basic() { // '\0', '\\', '\n', and '\r' are correctly unescaped. let expected = b"AAA\0BBB\\CCC\nDDD\rEEE"; let escaped = br"AAA\0BBB\\CCC\nDDD\rEEE"; let unescaped = unescape_extra(escaped); assert_eq!(&expected[..], &unescaped[..]); } #[test] fn test_unescape_unsupported_sequence() { // Other escape sequences are left unaltered. for c in 0u8..255 { match c { b'0' | b'\\' | b'n' | b'r' => continue, c => { let expected = &[b'\\', c][..]; let unescaped = unescape_extra(expected); assert_eq!(expected, &unescaped[..]); } } } } #[test] fn test_unescape_trailing_backslash() { // Trailing backslashes are OK. let expected = br"hi\"; let unescaped = unescape_extra(expected); assert_eq!(&expected[..], &unescaped[..]); } #[test] fn test_unescape_nul_followed_by_octal() { // Escaped NUL chars followed by octal digits are decoded correctly. let expected = b"\012"; let escaped = br"\012"; let unescaped = unescape_extra(escaped); assert_eq!(&expected[..], &unescaped[..]); } #[test] fn test_parse_float_timestamp() { let test_cases = [ // Zero should map to the UNIX epoch. ("0.0", "1970-01-01 00:00:00"), // Negative zero should be the same as positive zero. ("-0.0", "1970-01-01 00:00:00"), // Values without fractional components should work like integers. // (Assuming the timestamp is within the limits of f64 precision.) ("1115154970.0", "2005-05-03 21:16:10"), // We expect some loss of precision in the fractional component // when parsing arbitrary floating-point values. ("1115154970.123456789", "2005-05-03 21:16:10.123456716"), // But representable f64 values should parse losslessly. ("1115154970.123456716", "2005-05-03 21:16:10.123456716"), // Negative fractional components are subtracted from the epoch. ("-1.333", "1969-12-31 23:59:58.667"), ]; for (input, expected) in test_cases { let res = parse_float_timestamp(input).unwrap().to_string(); assert_eq!(res, expected); } } fn escape_extra(bytes: &[u8]) -> Vec<u8> { let mut output = Vec::with_capacity(bytes.len()); for c in bytes.iter().copied() { output.extend_from_slice(match c { b'\0' => &b"\\0"[..], b'\\' => &b"\\\\"[..], b'\n' => &b"\\n"[..], b'\r' => &b"\\r"[..], _ => { output.push(c); continue; } }); } output } fn encode_extra<K, V>(pairs: impl IntoIterator<Item = (K, V)>) -> Vec<u8> where K: AsRef<[u8]>, V: AsRef<[u8]>, { let extras = pairs.into_iter().map(|(k, v)| { escape_extra(&[k.as_ref(), b":", v.as_ref()].concat()) }); // Use fully-qualified syntax to avoid a future naming conflict with // the standard library: https://github.com/rust-lang/rust/issues/79524 Itertools::intersperse(extras, b"\0".to_vec()).concat() } #[test] fn test_decode_extra() { let extra = [ ("branch".into(), b"default".to_vec()), ("key-with-hyphens".into(), b"value1".to_vec()), ("key_with_underscores".into(), b"value2".to_vec()), ("empty-value".into(), b"".to_vec()), ("binary-value".into(), (0u8..=255).collect::<Vec<_>>()), ] .into_iter() .collect::<BTreeMap<String, Vec<u8>>>(); let encoded = encode_extra(&extra); let decoded = decode_extra(&encoded).unwrap(); assert_eq!(extra, decoded); } #[test] fn test_corrupt_extra() { let test_cases = [ (&b""[..], "empty input"), (&b"\0"[..], "unexpected null byte"), (&b":empty-key"[..], "empty key"), (&b"\0leading-null:"[..], "leading null"), (&b"trailing-null:\0"[..], "trailing null"), (&b"missing-value"[..], "missing value"), (&b"$!@# non-alphanum-key:"[..], "non-alphanumeric key"), (&b"\xF0\x9F\xA6\x80 non-ascii-key:"[..], "non-ASCII key"), ]; for (extra, msg) in test_cases { assert!( decode_extra(&extra).is_err(), "corrupt extra should have failed to parse: {}", msg ); } } #[test] fn test_parse_timestamp_line() { let extra = [ ("branch".into(), b"default".to_vec()), ("key-with-hyphens".into(), b"value1".to_vec()), ("key_with_underscores".into(), b"value2".to_vec()), ("empty-value".into(), b"".to_vec()), ("binary-value".into(), (0u8..=255).collect::<Vec<_>>()), ] .into_iter() .collect::<BTreeMap<String, Vec<u8>>>(); let mut line: Vec<u8> = b"1115154970 28800 ".to_vec(); line.extend_from_slice(&encode_extra(&extra)); let timestamp = parse_timestamp(&line).unwrap(); assert_eq!(×tamp.to_rfc3339(), "2005-05-03T13:16:10-08:00"); let parsed_extra = parse_timestamp_line_extra(&line).unwrap(); assert_eq!(extra, parsed_extra); } }