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typing: add basic type hints to localrepo.py...
typing: add basic type hints to localrepo.py There's a lot more that could be done, but this sticks to the obviously correct stuff that is either related to existing imports or primitives. Hopefully this helps smoke out more path related bytes vs str issues in TortoiseHg. I'm avoiding the interfaces for now, because they seem to confuse pytype and/or PyCharm. It might be worth typing the return of `makelocalrepository` to `localrepository`, but that leaks an implementation detail, so that can be revisited later.
Martin von Zweigbergk - - Load All Authors

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index.rs
616 lines | 17.3 KiB | application/rls-services+xml | RustLexer
/ rust / hg-core / src / revlog / index.rs
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use std::convert::TryInto;
use std::ops::Deref;
use byteorder::{BigEndian, ByteOrder};
use crate::errors::HgError;
use crate::revlog::node::Node;
use crate::revlog::{Revision, NULL_REVISION};
pub const INDEX_ENTRY_SIZE: usize = 64;
pub struct IndexHeader {
header_bytes: [u8; 4],
}
#[derive(Copy, Clone)]
pub struct IndexHeaderFlags {
flags: u16,
}
/// Corresponds to the high bits of `_format_flags` in python
impl IndexHeaderFlags {
/// Corresponds to FLAG_INLINE_DATA in python
pub fn is_inline(self) -> bool {
return self.flags & 1 != 0;
}
/// Corresponds to FLAG_GENERALDELTA in python
pub fn uses_generaldelta(self) -> bool {
return self.flags & 2 != 0;
}
}
/// Corresponds to the INDEX_HEADER structure,
/// which is parsed as a `header` variable in `_loadindex` in `revlog.py`
impl IndexHeader {
fn format_flags(&self) -> IndexHeaderFlags {
// No "unknown flags" check here, unlike in python. Maybe there should
// be.
return IndexHeaderFlags {
flags: BigEndian::read_u16(&self.header_bytes[0..2]),
};
}
/// The only revlog version currently supported by rhg.
const REVLOGV1: u16 = 1;
/// Corresponds to `_format_version` in Python.
fn format_version(&self) -> u16 {
return BigEndian::read_u16(&self.header_bytes[2..4]);
}
const EMPTY_INDEX_HEADER: IndexHeader = IndexHeader {
// We treat an empty file as a valid index with no entries.
// Here we make an arbitrary choice of what we assume the format of the
// index to be (V1, using generaldelta).
// This doesn't matter too much, since we're only doing read-only
// access. but the value corresponds to the `new_header` variable in
// `revlog.py`, `_loadindex`
header_bytes: [0, 3, 0, 1],
};
fn parse(index_bytes: &[u8]) -> Result<IndexHeader, HgError> {
if index_bytes.len() == 0 {
return Ok(IndexHeader::EMPTY_INDEX_HEADER);
}
if index_bytes.len() < 4 {
return Err(HgError::corrupted(
"corrupted revlog: can't read the index format header",
));
}
return Ok(IndexHeader {
header_bytes: {
let bytes: [u8; 4] =
index_bytes[0..4].try_into().expect("impossible");
bytes
},
});
}
}
/// A Revlog index
pub struct Index {
bytes: Box<dyn Deref<Target = [u8]> + Send>,
/// Offsets of starts of index blocks.
/// Only needed when the index is interleaved with data.
offsets: Option<Vec<usize>>,
uses_generaldelta: bool,
}
impl Index {
/// Create an index from bytes.
/// Calculate the start of each entry when is_inline is true.
pub fn new(
bytes: Box<dyn Deref<Target = [u8]> + Send>,
) -> Result<Self, HgError> {
let header = IndexHeader::parse(bytes.as_ref())?;
if header.format_version() != IndexHeader::REVLOGV1 {
// A proper new version should have had a repo/store
// requirement.
return Err(HgError::corrupted("unsupported revlog version"));
}
// This is only correct because we know version is REVLOGV1.
// In v2 we always use generaldelta, while in v0 we never use
// generaldelta. Similar for [is_inline] (it's only used in v1).
let uses_generaldelta = header.format_flags().uses_generaldelta();
if header.format_flags().is_inline() {
let mut offset: usize = 0;
let mut offsets = Vec::new();
while offset + INDEX_ENTRY_SIZE <= bytes.len() {
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() as usize;
}
if offset == bytes.len() {
Ok(Self {
bytes,
offsets: Some(offsets),
uses_generaldelta,
})
} else {
Err(HgError::corrupted("unexpected inline revlog length")
.into())
}
} else {
Ok(Self {
bytes,
offsets: None,
uses_generaldelta,
})
}
}
pub fn uses_generaldelta(&self) -> bool {
self.uses_generaldelta
}
/// Value of the inline flag.
pub fn is_inline(&self) -> bool {
self.offsets.is_some()
}
/// 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]
}
/// 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
}
/// 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];
// Override the offset of the first revision as its bytes are used
// for the index's metadata (saving space because it is always 0)
let offset_override = if rev == 0 { Some(0) } else { None };
Some(IndexEntry {
bytes,
offset_override,
})
}
}
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())
}
}
#[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> {
/// Return the offset of the data.
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
}
}
pub fn flags(&self) -> u16 {
BigEndian::read_u16(&self.bytes[6..=7])
}
/// Return the compressed length of the data.
pub fn compressed_len(&self) -> u32 {
BigEndian::read_u32(&self.bytes[8..=11])
}
/// Return the uncompressed length of the data.
pub fn uncompressed_len(&self) -> i32 {
BigEndian::read_i32(&self.bytes[12..=15])
}
/// Return the revision upon which the data has been derived.
pub fn base_revision_or_base_of_delta_chain(&self) -> Revision {
// TODO Maybe return an Option when base_revision == rev?
// Requires to add rev to IndexEntry
BigEndian::read_i32(&self.bytes[16..])
}
pub fn link_revision(&self) -> Revision {
BigEndian::read_i32(&self.bytes[20..])
}
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.
pub fn hash(&self) -> &'a Node {
(&self.bytes[32..52]).try_into().unwrap()
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::node::NULL_NODE;
#[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_or_base_of_delta_chain: Revision,
link_revision: Revision,
p1: Revision,
p2: Revision,
node: Node,
}
#[cfg(test)]
impl IndexEntryBuilder {
pub fn new() -> Self {
Self {
is_first: false,
is_inline: false,
is_general_delta: true,
version: 1,
offset: 0,
compressed_len: 0,
uncompressed_len: 0,
base_revision_or_base_of_delta_chain: 0,
link_revision: 0,
p1: NULL_REVISION,
p2: NULL_REVISION,
node: NULL_NODE,
}
}
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_or_base_of_delta_chain(
&mut self,
value: Revision,
) -> &mut Self {
self.base_revision_or_base_of_delta_chain = value;
self
}
pub fn with_link_revision(&mut self, value: Revision) -> &mut Self {
self.link_revision = value;
self
}
pub fn with_p1(&mut self, value: Revision) -> &mut Self {
self.p1 = value;
self
}
pub fn with_p2(&mut self, value: Revision) -> &mut Self {
self.p2 = value;
self
}
pub fn with_node(&mut self, value: Node) -> &mut Self {
self.node = 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 stored on 48 bits (6 bytes)
bytes.extend(&(self.offset as u64).to_be_bytes()[2..]);
}
bytes.extend(&[0u8; 2]); // Revision flags.
bytes.extend(&(self.compressed_len as u32).to_be_bytes());
bytes.extend(&(self.uncompressed_len as u32).to_be_bytes());
bytes.extend(
&self.base_revision_or_base_of_delta_chain.to_be_bytes(),
);
bytes.extend(&self.link_revision.to_be_bytes());
bytes.extend(&self.p1.to_be_bytes());
bytes.extend(&self.p2.to_be_bytes());
bytes.extend(self.node.as_bytes());
bytes.extend(vec![0u8; 12]);
bytes
}
}
pub fn is_inline(index_bytes: &[u8]) -> bool {
IndexHeader::parse(index_bytes)
.expect("too short")
.format_flags()
.is_inline()
}
pub fn uses_generaldelta(index_bytes: &[u8]) -> bool {
IndexHeader::parse(index_bytes)
.expect("too short")
.format_flags()
.uses_generaldelta()
}
pub fn get_version(index_bytes: &[u8]) -> u16 {
IndexHeader::parse(index_bytes)
.expect("too short")
.format_version()
}
#[test]
fn flags_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);
assert_eq!(uses_generaldelta(&bytes), false);
}
#[test]
fn flags_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);
assert_eq!(uses_generaldelta(&bytes), false);
}
#[test]
fn flags_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);
assert_eq!(uses_generaldelta(&bytes), true);
}
#[test]
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_or_base_of_delta_chain() {
let bytes = IndexEntryBuilder::new()
.with_base_revision_or_base_of_delta_chain(1)
.build();
let entry = IndexEntry {
bytes: &bytes,
offset_override: None,
};
assert_eq!(entry.base_revision_or_base_of_delta_chain(), 1)
}
#[test]
fn link_revision_test() {
let bytes = IndexEntryBuilder::new().with_link_revision(123).build();
let entry = IndexEntry {
bytes: &bytes,
offset_override: None,
};
assert_eq!(entry.link_revision(), 123);
}
#[test]
fn p1_test() {
let bytes = IndexEntryBuilder::new().with_p1(123).build();
let entry = IndexEntry {
bytes: &bytes,
offset_override: None,
};
assert_eq!(entry.p1(), 123);
}
#[test]
fn p2_test() {
let bytes = IndexEntryBuilder::new().with_p2(123).build();
let entry = IndexEntry {
bytes: &bytes,
offset_override: None,
};
assert_eq!(entry.p2(), 123);
}
#[test]
fn node_test() {
let node = Node::from_hex("0123456789012345678901234567890123456789")
.unwrap();
let bytes = IndexEntryBuilder::new().with_node(node).build();
let entry = IndexEntry {
bytes: &bytes,
offset_override: None,
};
assert_eq!(*entry.hash(), node);
}
#[test]
fn version_test() {
let bytes = IndexEntryBuilder::new()
.is_first(true)
.with_version(2)
.build();
assert_eq!(get_version(&bytes), 2)
}
}
#[cfg(test)]
pub use tests::IndexEntryBuilder;