index.rs
402 lines
| 11.1 KiB
| application/rls-services+xml
|
RustLexer
Simon Sapin
|
r46647 | use std::convert::TryInto; | ||
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r46175 | use std::ops::Deref; | ||
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r46102 | use byteorder::{BigEndian, ByteOrder}; | ||
Simon Sapin
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r46647 | use crate::revlog::node::Node; | ||
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r46176 | use crate::revlog::revlog::RevlogError; | ||
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r46097 | use crate::revlog::{Revision, NULL_REVISION}; | ||
pub const INDEX_ENTRY_SIZE: usize = 64; | ||||
/// A Revlog index | ||||
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r46175 | pub struct Index { | ||
bytes: Box<dyn Deref<Target = [u8]> + Send>, | ||||
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r46097 | /// Offsets of starts of index blocks. | ||
/// Only needed when the index is interleaved with data. | ||||
offsets: Option<Vec<usize>>, | ||||
} | ||||
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r46175 | impl Index { | ||
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r46097 | /// Create an index from bytes. | ||
/// Calculate the start of each entry when is_inline is true. | ||||
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r46176 | pub fn new( | ||
bytes: Box<dyn Deref<Target = [u8]> + Send>, | ||||
) -> Result<Self, RevlogError> { | ||||
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r46175 | if is_inline(&bytes) { | ||
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r46097 | let mut offset: usize = 0; | ||
let mut offsets = Vec::new(); | ||||
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r46164 | while offset + INDEX_ENTRY_SIZE <= bytes.len() { | ||
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r46097 | offsets.push(offset); | ||
let end = offset + INDEX_ENTRY_SIZE; | ||||
let entry = IndexEntry { | ||||
bytes: &bytes[offset..end], | ||||
offset_override: None, | ||||
}; | ||||
offset += INDEX_ENTRY_SIZE + entry.compressed_len(); | ||||
} | ||||
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r46176 | if offset == bytes.len() { | ||
Ok(Self { | ||||
bytes, | ||||
offsets: Some(offsets), | ||||
}) | ||||
} else { | ||||
Err(RevlogError::Corrupted) | ||||
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r46097 | } | ||
} else { | ||||
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r46176 | Ok(Self { | ||
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r46097 | bytes, | ||
offsets: None, | ||||
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r46176 | }) | ||
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r46097 | } | ||
} | ||||
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r46175 | /// Value of the inline flag. | ||
pub fn is_inline(&self) -> bool { | ||||
is_inline(&self.bytes) | ||||
} | ||||
/// Return a slice of bytes if `revlog` is inline. Panic if not. | ||||
pub fn data(&self, start: usize, end: usize) -> &[u8] { | ||||
if !self.is_inline() { | ||||
panic!("tried to access data in the index of a revlog that is not inline"); | ||||
} | ||||
&self.bytes[start..end] | ||||
} | ||||
Antoine Cezar
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r46107 | /// Return number of entries of the revlog index. | ||
pub fn len(&self) -> usize { | ||||
if let Some(offsets) = &self.offsets { | ||||
offsets.len() | ||||
} else { | ||||
self.bytes.len() / INDEX_ENTRY_SIZE | ||||
} | ||||
} | ||||
/// Returns `true` if the `Index` has zero `entries`. | ||||
pub fn is_empty(&self) -> bool { | ||||
self.len() == 0 | ||||
} | ||||
Antoine Cezar
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r46097 | /// Return the index entry corresponding to the given revision if it | ||
/// exists. | ||||
pub fn get_entry(&self, rev: Revision) -> Option<IndexEntry> { | ||||
if rev == NULL_REVISION { | ||||
return None; | ||||
} | ||||
if let Some(offsets) = &self.offsets { | ||||
self.get_entry_inline(rev, offsets) | ||||
} else { | ||||
self.get_entry_separated(rev) | ||||
} | ||||
} | ||||
fn get_entry_inline( | ||||
&self, | ||||
rev: Revision, | ||||
offsets: &[usize], | ||||
) -> Option<IndexEntry> { | ||||
let start = *offsets.get(rev as usize)?; | ||||
let end = start.checked_add(INDEX_ENTRY_SIZE)?; | ||||
let bytes = &self.bytes[start..end]; | ||||
// See IndexEntry for an explanation of this override. | ||||
let offset_override = Some(end); | ||||
Some(IndexEntry { | ||||
bytes, | ||||
offset_override, | ||||
}) | ||||
} | ||||
fn get_entry_separated(&self, rev: Revision) -> Option<IndexEntry> { | ||||
let max_rev = self.bytes.len() / INDEX_ENTRY_SIZE; | ||||
if rev as usize >= max_rev { | ||||
return None; | ||||
} | ||||
let start = rev as usize * INDEX_ENTRY_SIZE; | ||||
let end = start + INDEX_ENTRY_SIZE; | ||||
let bytes = &self.bytes[start..end]; | ||||
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r46165 | // Override the offset of the first revision as its bytes are used | ||
// for the index's metadata (saving space because it is always 0) | ||||
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r46166 | let offset_override = if rev == 0 { Some(0) } else { None }; | ||
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r46097 | |||
Some(IndexEntry { | ||||
bytes, | ||||
offset_override, | ||||
}) | ||||
} | ||||
} | ||||
Simon Sapin
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r46706 | impl super::RevlogIndex for Index { | ||
fn len(&self) -> usize { | ||||
self.len() | ||||
} | ||||
fn node(&self, rev: Revision) -> Option<&Node> { | ||||
self.get_entry(rev).map(|entry| entry.hash()) | ||||
} | ||||
} | ||||
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r46097 | #[derive(Debug)] | ||
pub struct IndexEntry<'a> { | ||||
bytes: &'a [u8], | ||||
/// Allows to override the offset value of the entry. | ||||
/// | ||||
/// For interleaved index and data, the offset stored in the index | ||||
/// corresponds to the separated data offset. | ||||
/// It has to be overridden with the actual offset in the interleaved | ||||
/// index which is just after the index block. | ||||
/// | ||||
/// For separated index and data, the offset stored in the first index | ||||
/// entry is mixed with the index headers. | ||||
/// It has to be overridden with 0. | ||||
offset_override: Option<usize>, | ||||
} | ||||
impl<'a> IndexEntry<'a> { | ||||
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r46167 | /// Return the offset of the data. | ||
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r46097 | pub fn offset(&self) -> usize { | ||
if let Some(offset_override) = self.offset_override { | ||||
offset_override | ||||
} else { | ||||
let mut bytes = [0; 8]; | ||||
bytes[2..8].copy_from_slice(&self.bytes[0..=5]); | ||||
BigEndian::read_u64(&bytes[..]) as usize | ||||
} | ||||
} | ||||
/// Return the compressed length of the data. | ||||
pub fn compressed_len(&self) -> usize { | ||||
BigEndian::read_u32(&self.bytes[8..=11]) as usize | ||||
} | ||||
/// Return the uncompressed length of the data. | ||||
pub fn uncompressed_len(&self) -> usize { | ||||
BigEndian::read_u32(&self.bytes[12..=15]) as usize | ||||
} | ||||
/// Return the revision upon which the data has been derived. | ||||
pub fn base_revision(&self) -> Revision { | ||||
// TODO Maybe return an Option when base_revision == rev? | ||||
// Requires to add rev to IndexEntry | ||||
BigEndian::read_i32(&self.bytes[16..]) | ||||
} | ||||
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r46102 | |||
pub fn p1(&self) -> Revision { | ||||
BigEndian::read_i32(&self.bytes[24..]) | ||||
} | ||||
pub fn p2(&self) -> Revision { | ||||
BigEndian::read_i32(&self.bytes[28..]) | ||||
} | ||||
/// Return the hash of revision's full text. | ||||
/// | ||||
/// Currently, SHA-1 is used and only the first 20 bytes of this field | ||||
/// are used. | ||||
Simon Sapin
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r46706 | pub fn hash(&self) -> &'a Node { | ||
Simon Sapin
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r46647 | (&self.bytes[32..52]).try_into().unwrap() | ||
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r46102 | } | ||
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r46097 | } | ||
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r46175 | /// Value of the inline flag. | ||
pub fn is_inline(index_bytes: &[u8]) -> bool { | ||||
match &index_bytes[0..=1] { | ||||
[0, 0] | [0, 2] => false, | ||||
_ => true, | ||||
} | ||||
} | ||||
Antoine Cezar
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r46097 | #[cfg(test)] | ||
mod tests { | ||||
use super::*; | ||||
#[cfg(test)] | ||||
#[derive(Debug, Copy, Clone)] | ||||
pub struct IndexEntryBuilder { | ||||
is_first: bool, | ||||
is_inline: bool, | ||||
is_general_delta: bool, | ||||
version: u16, | ||||
offset: usize, | ||||
compressed_len: usize, | ||||
uncompressed_len: usize, | ||||
base_revision: Revision, | ||||
} | ||||
#[cfg(test)] | ||||
impl IndexEntryBuilder { | ||||
pub fn new() -> Self { | ||||
Self { | ||||
is_first: false, | ||||
is_inline: false, | ||||
is_general_delta: true, | ||||
version: 2, | ||||
offset: 0, | ||||
compressed_len: 0, | ||||
uncompressed_len: 0, | ||||
base_revision: 0, | ||||
} | ||||
} | ||||
pub fn is_first(&mut self, value: bool) -> &mut Self { | ||||
self.is_first = value; | ||||
self | ||||
} | ||||
pub fn with_inline(&mut self, value: bool) -> &mut Self { | ||||
self.is_inline = value; | ||||
self | ||||
} | ||||
pub fn with_general_delta(&mut self, value: bool) -> &mut Self { | ||||
self.is_general_delta = value; | ||||
self | ||||
} | ||||
pub fn with_version(&mut self, value: u16) -> &mut Self { | ||||
self.version = value; | ||||
self | ||||
} | ||||
pub fn with_offset(&mut self, value: usize) -> &mut Self { | ||||
self.offset = value; | ||||
self | ||||
} | ||||
pub fn with_compressed_len(&mut self, value: usize) -> &mut Self { | ||||
self.compressed_len = value; | ||||
self | ||||
} | ||||
pub fn with_uncompressed_len(&mut self, value: usize) -> &mut Self { | ||||
self.uncompressed_len = value; | ||||
self | ||||
} | ||||
pub fn with_base_revision(&mut self, value: Revision) -> &mut Self { | ||||
self.base_revision = value; | ||||
self | ||||
} | ||||
pub fn build(&self) -> Vec<u8> { | ||||
let mut bytes = Vec::with_capacity(INDEX_ENTRY_SIZE); | ||||
if self.is_first { | ||||
bytes.extend(&match (self.is_general_delta, self.is_inline) { | ||||
(false, false) => [0u8, 0], | ||||
(false, true) => [0u8, 1], | ||||
(true, false) => [0u8, 2], | ||||
(true, true) => [0u8, 3], | ||||
}); | ||||
bytes.extend(&self.version.to_be_bytes()); | ||||
// Remaining offset bytes. | ||||
bytes.extend(&[0u8; 2]); | ||||
} else { | ||||
// Offset is only 6 bytes will usize is 8. | ||||
bytes.extend(&self.offset.to_be_bytes()[2..]); | ||||
} | ||||
bytes.extend(&[0u8; 2]); // Revision flags. | ||||
bytes.extend(&self.compressed_len.to_be_bytes()[4..]); | ||||
bytes.extend(&self.uncompressed_len.to_be_bytes()[4..]); | ||||
bytes.extend(&self.base_revision.to_be_bytes()); | ||||
bytes | ||||
} | ||||
} | ||||
#[test] | ||||
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r46175 | fn is_not_inline_when_no_inline_flag_test() { | ||
let bytes = IndexEntryBuilder::new() | ||||
.is_first(true) | ||||
.with_general_delta(false) | ||||
.with_inline(false) | ||||
.build(); | ||||
assert_eq!(is_inline(&bytes), false) | ||||
} | ||||
#[test] | ||||
fn is_inline_when_inline_flag_test() { | ||||
let bytes = IndexEntryBuilder::new() | ||||
.is_first(true) | ||||
.with_general_delta(false) | ||||
.with_inline(true) | ||||
.build(); | ||||
assert_eq!(is_inline(&bytes), true) | ||||
} | ||||
#[test] | ||||
fn is_inline_when_inline_and_generaldelta_flags_test() { | ||||
let bytes = IndexEntryBuilder::new() | ||||
.is_first(true) | ||||
.with_general_delta(true) | ||||
.with_inline(true) | ||||
.build(); | ||||
assert_eq!(is_inline(&bytes), true) | ||||
} | ||||
#[test] | ||||
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r46097 | fn test_offset() { | ||
let bytes = IndexEntryBuilder::new().with_offset(1).build(); | ||||
let entry = IndexEntry { | ||||
bytes: &bytes, | ||||
offset_override: None, | ||||
}; | ||||
assert_eq!(entry.offset(), 1) | ||||
} | ||||
#[test] | ||||
fn test_with_overridden_offset() { | ||||
let bytes = IndexEntryBuilder::new().with_offset(1).build(); | ||||
let entry = IndexEntry { | ||||
bytes: &bytes, | ||||
offset_override: Some(2), | ||||
}; | ||||
assert_eq!(entry.offset(), 2) | ||||
} | ||||
#[test] | ||||
fn test_compressed_len() { | ||||
let bytes = IndexEntryBuilder::new().with_compressed_len(1).build(); | ||||
let entry = IndexEntry { | ||||
bytes: &bytes, | ||||
offset_override: None, | ||||
}; | ||||
assert_eq!(entry.compressed_len(), 1) | ||||
} | ||||
#[test] | ||||
fn test_uncompressed_len() { | ||||
let bytes = IndexEntryBuilder::new().with_uncompressed_len(1).build(); | ||||
let entry = IndexEntry { | ||||
bytes: &bytes, | ||||
offset_override: None, | ||||
}; | ||||
assert_eq!(entry.uncompressed_len(), 1) | ||||
} | ||||
#[test] | ||||
fn test_base_revision() { | ||||
let bytes = IndexEntryBuilder::new().with_base_revision(1).build(); | ||||
let entry = IndexEntry { | ||||
bytes: &bytes, | ||||
offset_override: None, | ||||
}; | ||||
assert_eq!(entry.base_revision(), 1) | ||||
} | ||||
} | ||||
#[cfg(test)] | ||||
pub use tests::IndexEntryBuilder; | ||||