patch.rs
369 lines
| 11.8 KiB
| application/rls-services+xml
|
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r46097 | use byteorder::{BigEndian, ByteOrder}; | ||
| /// A chunk of data to insert, delete or replace in a patch | ||||
| /// | ||||
| /// A chunk is: | ||||
| /// - an insertion when `!data.is_empty() && start == end` | ||||
| /// - an deletion when `data.is_empty() && start < end` | ||||
| /// - a replacement when `!data.is_empty() && start < end` | ||||
| /// - not doing anything when `data.is_empty() && start == end` | ||||
| #[derive(Debug, Clone)] | ||||
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r46170 | struct Chunk<'a> { | ||
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r46097 | /// The start position of the chunk of data to replace | ||
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r46171 | start: u32, | ||
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r46097 | /// The end position of the chunk of data to replace (open end interval) | ||
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r46171 | end: u32, | ||
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r46097 | /// The data replacing the chunk | ||
| data: &'a [u8], | ||||
| } | ||||
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r46172 | impl Chunk<'_> { | ||
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r46097 | /// Adjusted start of the chunk to replace. | ||
| /// | ||||
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r46173 | /// The offset, taking into account the growth/shrinkage of data | ||
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r46097 | /// induced by previously applied chunks. | ||
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r46174 | fn start_offset_by(&self, offset: i32) -> u32 { | ||
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r46171 | let start = self.start as i32 + offset; | ||
| assert!(start >= 0, "negative chunk start should never happen"); | ||||
| start as u32 | ||||
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r46097 | } | ||
| /// Adjusted end of the chunk to replace. | ||||
| /// | ||||
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r46173 | /// The offset, taking into account the growth/shrinkage of data | ||
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r46097 | /// induced by previously applied chunks. | ||
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r46174 | fn end_offset_by(&self, offset: i32) -> u32 { | ||
| self.start_offset_by(offset) + self.data.len() as u32 | ||||
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r46097 | } | ||
| /// Length of the replaced chunk. | ||||
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r46171 | fn replaced_len(&self) -> u32 { | ||
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r46097 | self.end - self.start | ||
| } | ||||
| /// Length difference between the replacing data and the replaced data. | ||||
| fn len_diff(&self) -> i32 { | ||||
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r46171 | self.data.len() as i32 - self.replaced_len() as i32 | ||
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r46097 | } | ||
| } | ||||
| /// The delta between two revisions data. | ||||
| #[derive(Debug, Clone)] | ||||
| pub struct PatchList<'a> { | ||||
| /// A collection of chunks to apply. | ||||
| /// | ||||
| /// Those chunks are: | ||||
| /// - ordered from the left-most replacement to the right-most replacement | ||||
| /// - non-overlapping, meaning that two chucks can not change the same | ||||
| /// chunk of the patched data | ||||
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r46170 | chunks: Vec<Chunk<'a>>, | ||
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r46097 | } | ||
| impl<'a> PatchList<'a> { | ||||
| /// Create a `PatchList` from bytes. | ||||
| pub fn new(data: &'a [u8]) -> Self { | ||||
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r46170 | let mut chunks = vec![]; | ||
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r46097 | let mut data = data; | ||
| while !data.is_empty() { | ||||
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r46171 | let start = BigEndian::read_u32(&data[0..]); | ||
| let end = BigEndian::read_u32(&data[4..]); | ||||
| let len = BigEndian::read_u32(&data[8..]); | ||||
| assert!(start <= end); | ||||
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r46170 | chunks.push(Chunk { | ||
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r46097 | start, | ||
| end, | ||||
| data: &data[12..12 + (len as usize)], | ||||
| }); | ||||
| data = &data[12 + (len as usize)..]; | ||||
| } | ||||
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r46170 | PatchList { chunks } | ||
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r46097 | } | ||
| /// Return the final length of data after patching | ||||
| /// given its initial length . | ||||
| fn size(&self, initial_size: i32) -> i32 { | ||||
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r46170 | self.chunks | ||
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r46097 | .iter() | ||
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r46170 | .fold(initial_size, |acc, chunk| acc + chunk.len_diff()) | ||
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r46097 | } | ||
| /// Apply the patch to some data. | ||||
| pub fn apply(&self, initial: &[u8]) -> Vec<u8> { | ||||
| let mut last: usize = 0; | ||||
| let mut vec = | ||||
| Vec::with_capacity(self.size(initial.len() as i32) as usize); | ||||
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r46170 | for Chunk { start, end, data } in self.chunks.iter() { | ||
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r46097 | vec.extend(&initial[last..(*start as usize)]); | ||
| vec.extend(data.iter()); | ||||
| last = *end as usize; | ||||
| } | ||||
| vec.extend(&initial[last..]); | ||||
| vec | ||||
| } | ||||
| /// Combine two patch lists into a single patch list. | ||||
| /// | ||||
| /// Applying consecutive patches can lead to waste of time and memory | ||||
| /// as the changes introduced by one patch can be overridden by the next. | ||||
| /// Combining patches optimizes the whole patching sequence. | ||||
| fn combine(&mut self, other: &mut Self) -> Self { | ||||
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r46170 | let mut chunks = vec![]; | ||
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r46097 | |||
| // Keep track of each growth/shrinkage resulting from applying a chunk | ||||
| // in order to adjust the start/end of subsequent chunks. | ||||
| let mut offset = 0i32; | ||||
| // Keep track of the chunk of self.chunks to process. | ||||
| let mut pos = 0; | ||||
| // For each chunk of `other`, chunks of `self` are processed | ||||
| // until they start after the end of the current chunk. | ||||
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r46170 | for Chunk { start, end, data } in other.chunks.iter() { | ||
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r46097 | // Add chunks of `self` that start before this chunk of `other` | ||
| // without overlap. | ||||
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r46170 | while pos < self.chunks.len() | ||
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r46174 | && self.chunks[pos].end_offset_by(offset) <= *start | ||
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r46097 | { | ||
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r46170 | let first = self.chunks[pos].clone(); | ||
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r46097 | offset += first.len_diff(); | ||
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r46170 | chunks.push(first); | ||
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r46097 | pos += 1; | ||
| } | ||||
| // The current chunk of `self` starts before this chunk of `other` | ||||
| // with overlap. | ||||
| // The left-most part of data is added as an insertion chunk. | ||||
| // The right-most part data is kept in the chunk. | ||||
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r46170 | if pos < self.chunks.len() | ||
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r46174 | && self.chunks[pos].start_offset_by(offset) < *start | ||
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r46097 | { | ||
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r46170 | let first = &mut self.chunks[pos]; | ||
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r46097 | |||
| let (data_left, data_right) = first.data.split_at( | ||||
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r46174 | (*start - first.start_offset_by(offset)) as usize, | ||
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r46097 | ); | ||
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r46170 | let left = Chunk { | ||
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r46097 | start: first.start, | ||
| end: first.start, | ||||
| data: data_left, | ||||
| }; | ||||
| first.data = data_right; | ||||
| offset += left.len_diff(); | ||||
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r46170 | chunks.push(left); | ||
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r46097 | |||
| // There is no index incrementation because the right-most part | ||||
| // needs further examination. | ||||
| } | ||||
| // At this point remaining chunks of `self` starts after | ||||
| // the current chunk of `other`. | ||||
| // `start_offset` will be used to adjust the start of the current | ||||
| // chunk of `other`. | ||||
| // Offset tracking continues with `end_offset` to adjust the end | ||||
| // of the current chunk of `other`. | ||||
| let mut next_offset = offset; | ||||
| // Discard the chunks of `self` that are totally overridden | ||||
| // by the current chunk of `other` | ||||
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r46170 | while pos < self.chunks.len() | ||
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r46174 | && self.chunks[pos].end_offset_by(next_offset) <= *end | ||
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r46097 | { | ||
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r46170 | let first = &self.chunks[pos]; | ||
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r46097 | next_offset += first.len_diff(); | ||
| pos += 1; | ||||
| } | ||||
| // Truncate the left-most part of chunk of `self` that overlaps | ||||
| // the current chunk of `other`. | ||||
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r46170 | if pos < self.chunks.len() | ||
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r46174 | && self.chunks[pos].start_offset_by(next_offset) < *end | ||
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r46097 | { | ||
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r46170 | let first = &mut self.chunks[pos]; | ||
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r46097 | |||
| let how_much_to_discard = | ||||
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r46174 | *end - first.start_offset_by(next_offset); | ||
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r46097 | |||
| first.data = &first.data[(how_much_to_discard as usize)..]; | ||||
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r46171 | next_offset += how_much_to_discard as i32; | ||
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r46097 | } | ||
| // Add the chunk of `other` with adjusted position. | ||||
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r46170 | chunks.push(Chunk { | ||
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r46171 | start: (*start as i32 - offset) as u32, | ||
| end: (*end as i32 - next_offset) as u32, | ||||
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r46097 | data, | ||
| }); | ||||
| // Go back to normal offset tracking for the next `o` chunk | ||||
| offset = next_offset; | ||||
| } | ||||
| // Add remaining chunks of `self`. | ||||
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r46170 | for elt in &self.chunks[pos..] { | ||
| chunks.push(elt.clone()); | ||||
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r46097 | } | ||
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r46170 | PatchList { chunks } | ||
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r46097 | } | ||
| } | ||||
| /// Combine a list of patch list into a single patch optimized patch list. | ||||
| pub fn fold_patch_lists<'a>(lists: &[PatchList<'a>]) -> PatchList<'a> { | ||||
| if lists.len() <= 1 { | ||||
| if lists.is_empty() { | ||||
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r46170 | PatchList { chunks: vec![] } | ||
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r46097 | } else { | ||
| lists[0].clone() | ||||
| } | ||||
| } else { | ||||
| let (left, right) = lists.split_at(lists.len() / 2); | ||||
| let mut left_res = fold_patch_lists(left); | ||||
| let mut right_res = fold_patch_lists(right); | ||||
| left_res.combine(&mut right_res) | ||||
| } | ||||
| } | ||||
| #[cfg(test)] | ||||
| mod tests { | ||||
| use super::*; | ||||
| struct PatchDataBuilder { | ||||
| data: Vec<u8>, | ||||
| } | ||||
| impl PatchDataBuilder { | ||||
| pub fn new() -> Self { | ||||
| Self { data: vec![] } | ||||
| } | ||||
| pub fn replace( | ||||
| &mut self, | ||||
| start: usize, | ||||
| end: usize, | ||||
| data: &[u8], | ||||
| ) -> &mut Self { | ||||
| assert!(start <= end); | ||||
| self.data.extend(&(start as i32).to_be_bytes()); | ||||
| self.data.extend(&(end as i32).to_be_bytes()); | ||||
| self.data.extend(&(data.len() as i32).to_be_bytes()); | ||||
| self.data.extend(data.iter()); | ||||
| self | ||||
| } | ||||
| pub fn get(&mut self) -> &[u8] { | ||||
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r46168 | &self.data | ||
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r46097 | } | ||
| } | ||||
| #[test] | ||||
| fn test_ends_before() { | ||||
| let data = vec![0u8, 0u8, 0u8]; | ||||
| let mut patch1_data = PatchDataBuilder::new(); | ||||
| patch1_data.replace(0, 1, &[1, 2]); | ||||
| let mut patch1 = PatchList::new(patch1_data.get()); | ||||
| let mut patch2_data = PatchDataBuilder::new(); | ||||
| patch2_data.replace(2, 4, &[3, 4]); | ||||
| let mut patch2 = PatchList::new(patch2_data.get()); | ||||
| let patch = patch1.combine(&mut patch2); | ||||
| let result = patch.apply(&data); | ||||
| assert_eq!(result, vec![1u8, 2, 3, 4]); | ||||
| } | ||||
| #[test] | ||||
| fn test_starts_after() { | ||||
| let data = vec![0u8, 0u8, 0u8]; | ||||
| let mut patch1_data = PatchDataBuilder::new(); | ||||
| patch1_data.replace(2, 3, &[3]); | ||||
| let mut patch1 = PatchList::new(patch1_data.get()); | ||||
| let mut patch2_data = PatchDataBuilder::new(); | ||||
| patch2_data.replace(1, 2, &[1, 2]); | ||||
| let mut patch2 = PatchList::new(patch2_data.get()); | ||||
| let patch = patch1.combine(&mut patch2); | ||||
| let result = patch.apply(&data); | ||||
| assert_eq!(result, vec![0u8, 1, 2, 3]); | ||||
| } | ||||
| #[test] | ||||
| fn test_overridden() { | ||||
| let data = vec![0u8, 0, 0]; | ||||
| let mut patch1_data = PatchDataBuilder::new(); | ||||
| patch1_data.replace(1, 2, &[3, 4]); | ||||
| let mut patch1 = PatchList::new(patch1_data.get()); | ||||
| let mut patch2_data = PatchDataBuilder::new(); | ||||
| patch2_data.replace(1, 4, &[1, 2, 3]); | ||||
| let mut patch2 = PatchList::new(patch2_data.get()); | ||||
| let patch = patch1.combine(&mut patch2); | ||||
| let result = patch.apply(&data); | ||||
| assert_eq!(result, vec![0u8, 1, 2, 3]); | ||||
| } | ||||
| #[test] | ||||
| fn test_right_most_part_is_overridden() { | ||||
| let data = vec![0u8, 0, 0]; | ||||
| let mut patch1_data = PatchDataBuilder::new(); | ||||
| patch1_data.replace(0, 1, &[1, 3]); | ||||
| let mut patch1 = PatchList::new(patch1_data.get()); | ||||
| let mut patch2_data = PatchDataBuilder::new(); | ||||
| patch2_data.replace(1, 4, &[2, 3, 4]); | ||||
| let mut patch2 = PatchList::new(patch2_data.get()); | ||||
| let patch = patch1.combine(&mut patch2); | ||||
| let result = patch.apply(&data); | ||||
| assert_eq!(result, vec![1u8, 2, 3, 4]); | ||||
| } | ||||
| #[test] | ||||
| fn test_left_most_part_is_overridden() { | ||||
| let data = vec![0u8, 0, 0]; | ||||
| let mut patch1_data = PatchDataBuilder::new(); | ||||
| patch1_data.replace(1, 3, &[1, 3, 4]); | ||||
| let mut patch1 = PatchList::new(patch1_data.get()); | ||||
| let mut patch2_data = PatchDataBuilder::new(); | ||||
| patch2_data.replace(0, 2, &[1, 2]); | ||||
| let mut patch2 = PatchList::new(patch2_data.get()); | ||||
| let patch = patch1.combine(&mut patch2); | ||||
| let result = patch.apply(&data); | ||||
| assert_eq!(result, vec![1u8, 2, 3, 4]); | ||||
| } | ||||
| #[test] | ||||
| fn test_mid_is_overridden() { | ||||
| let data = vec![0u8, 0, 0]; | ||||
| let mut patch1_data = PatchDataBuilder::new(); | ||||
| patch1_data.replace(0, 3, &[1, 3, 3, 4]); | ||||
| let mut patch1 = PatchList::new(patch1_data.get()); | ||||
| let mut patch2_data = PatchDataBuilder::new(); | ||||
| patch2_data.replace(1, 3, &[2, 3]); | ||||
| let mut patch2 = PatchList::new(patch2_data.get()); | ||||
| let patch = patch1.combine(&mut patch2); | ||||
| let result = patch.apply(&data); | ||||
| assert_eq!(result, vec![1u8, 2, 3, 4]); | ||||
| } | ||||
| } | ||||