zvault/src/chunking/fastcdc.rs

use super::*;

use std::ptr;
use std::cmp;

// FastCDC
// Paper: "FastCDC: a Fast and Efficient Content-Defined Chunking Approach for Data Deduplication"
// Paper-URL: https://www.usenix.org/system/files/conference/atc16/atc16-paper-xia.pdf
// Presentation: https://www.usenix.org/sites/default/files/conference/protected-files/atc16_slides_xia.pdf


// Creating 256 pseudo-random values (based on Knuth's MMIX)
fn create_gear(seed: u64) -> [u64; 256] {
    let mut table = [0u64; 256];
    let a = 6_364_136_223_846_793_005;
    let c = 1_442_695_040_888_963_407;
    let mut v = seed;
    for t in &mut table.iter_mut() {
        v = v.wrapping_mul(a).wrapping_add(c);
        *t = v;
    }
    table
}

fn get_masks(avg_size: usize, nc_level: usize, seed: u64) -> (u64, u64) {
    let bits = (avg_size.next_power_of_two() - 1).count_ones();
    if bits == 13 {
        // From the paper
        return (0x0003_5907_0353_0000, 0x0000_d900_0353_0000);
    }
    let mut mask = 0u64;
    let mut v = seed;
    let a = 6_364_136_223_846_793_005;
    let c = 1_442_695_040_888_963_407;
    while mask.count_ones() < bits - nc_level as u32 {
        v = v.wrapping_mul(a).wrapping_add(c);
        mask = (mask | 1).rotate_left(v as u32 & 0x3f);
    }
    let mask_long = mask;
    while mask.count_ones() < bits + nc_level as u32 {
        v = v.wrapping_mul(a).wrapping_add(c);
        mask = (mask | 1).rotate_left(v as u32 & 0x3f);
    }
    let mask_short = mask;
    (mask_short, mask_long)
}

pub struct FastCdcChunker {
    buffer: [u8; 0x1000],
    buffered: usize,
    gear: [u64; 256],
    min_size: usize,
    max_size: usize,
    avg_size: usize,
    mask_long: u64,
    mask_short: u64,
}

impl FastCdcChunker {
    pub fn new(avg_size: usize, seed: u64) -> Self {
        let (mask_short, mask_long) = get_masks(avg_size, 2, seed);
        FastCdcChunker {
            buffer: [0; 0x1000],
            buffered: 0,
            gear: create_gear(seed),
            min_size: avg_size/4,
            max_size: avg_size*8,
            avg_size: avg_size,
            mask_long: mask_long,
            mask_short: mask_short,
        }
    }
}


impl FastCdcChunker {
    fn write_output(&mut self, w: &mut Write, pos: usize, max: usize) -> Result<ChunkerStatus, ChunkerError> {
        debug_assert!(max <= self.buffer.len());
        debug_assert!(pos <= self.buffer.len());
        try!(w.write_all(&self.buffer[..pos]).map_err(ChunkerError::Write));
        unsafe { ptr::copy(self.buffer[pos..].as_ptr(), self.buffer.as_mut_ptr(), max-pos) };
        self.buffered = max-pos;
        Ok(ChunkerStatus::Continue)
    }
}


impl Chunker for FastCdcChunker {
    #[allow(unknown_lints,explicit_counter_loop,needless_range_loop)]
    fn chunk(&mut self, r: &mut Read, w: &mut Write) -> Result<ChunkerStatus, ChunkerError> {
        let mut max;
        let mut hash = 0u64;
        let mut pos = 0;
        loop {
            // Fill the buffer, there might be some bytes still in there from last chunk
            max = try!(r.read(&mut self.buffer[self.buffered..]).map_err(ChunkerError::Read)) + self.buffered;
            // If nothing to do, finish
            if max == 0 {
                return Ok(ChunkerStatus::Finished)
            }
            let min_size_p = cmp::min(max, cmp::max(self.min_size as isize - pos as isize, 0) as usize);
            let avg_size_p = cmp::min(max, cmp::max(self.avg_size as isize - pos as isize, 0) as usize);
            let max_size_p = cmp::min(max, cmp::max(self.max_size as isize - pos as isize, 0) as usize);
            // Skipping first min_size bytes. This is ok as same data still results in same hash.
            if self.avg_size > pos {
                for i in min_size_p..avg_size_p {
                    hash = (hash << 1).wrapping_add(self.gear[self.buffer[i] as usize]);
                    if hash & self.mask_short == 0 {
                        return self.write_output(w, i + 1, max);
                    }
                }
            }
            if self.max_size > pos {
                for i in avg_size_p..max_size_p {
                    hash = (hash << 1).wrapping_add(self.gear[self.buffer[i] as usize]);
                    if hash & self.mask_long == 0 {
                        return self.write_output(w, i+1, max);
                    }
                }
            }
            if max + pos >= self.max_size {
                return self.write_output(w, max_size_p, max);
            }
            pos += max;
            try!(w.write_all(&self.buffer[..max]).map_err(ChunkerError::Write));
            self.buffered = 0;
        }
    }
}
First working version 2017-03-10 11:43:32 +00:00			`use super::*;`

			`use std::ptr;`
Also including the first min_size bytes in hash (oops), performance improvements 2017-08-02 20:18:37 +00:00			`use std::cmp;`
First working version 2017-03-10 11:43:32 +00:00
			`// FastCDC`
			`// Paper: "FastCDC: a Fast and Efficient Content-Defined Chunking Approach for Data Deduplication"`
			`// Paper-URL: https://www.usenix.org/system/files/conference/atc16/atc16-paper-xia.pdf`
			`// Presentation: https://www.usenix.org/sites/default/files/conference/protected-files/atc16_slides_xia.pdf`


Some minor changes 2018-02-19 20:18:47 +00:00
First working version 2017-03-10 11:43:32 +00:00			`// Creating 256 pseudo-random values (based on Knuth's MMIX)`
			`fn create_gear(seed: u64) -> [u64; 256] {`
			`let mut table = [0u64; 256];`
All in one module 2018-02-24 22:28:18 +00:00			`let a = 6_364_136_223_846_793_005;`
			`let c = 1_442_695_040_888_963_407;`
First working version 2017-03-10 11:43:32 +00:00			`let mut v = seed;`
			`for t in &mut table.iter_mut() {`
			`v = v.wrapping_mul(a).wrapping_add(c);`
			`*t = v;`
			`}`
			`table`
			`}`

			`fn get_masks(avg_size: usize, nc_level: usize, seed: u64) -> (u64, u64) {`
			`let bits = (avg_size.next_power_of_two() - 1).count_ones();`
			`if bits == 13 {`
			`// From the paper`
All in one module 2018-02-24 22:28:18 +00:00			`return (0x0003_5907_0353_0000, 0x0000_d900_0353_0000);`
First working version 2017-03-10 11:43:32 +00:00			`}`
			`let mut mask = 0u64;`
			`let mut v = seed;`
All in one module 2018-02-24 22:28:18 +00:00			`let a = 6_364_136_223_846_793_005;`
			`let c = 1_442_695_040_888_963_407;`
First working version 2017-03-10 11:43:32 +00:00			`while mask.count_ones() < bits - nc_level as u32 {`
			`v = v.wrapping_mul(a).wrapping_add(c);`
			`mask = (mask \| 1).rotate_left(v as u32 & 0x3f);`
			`}`
			`let mask_long = mask;`
			`while mask.count_ones() < bits + nc_level as u32 {`
			`v = v.wrapping_mul(a).wrapping_add(c);`
			`mask = (mask \| 1).rotate_left(v as u32 & 0x3f);`
			`}`
			`let mask_short = mask;`
			`(mask_short, mask_long)`
			`}`

			`pub struct FastCdcChunker {`
All in one module 2018-02-24 22:28:18 +00:00			`buffer: [u8; 0x1000],`
First working version 2017-03-10 11:43:32 +00:00			`buffered: usize,`
			`gear: [u64; 256],`
			`min_size: usize,`
			`max_size: usize,`
			`avg_size: usize,`
			`mask_long: u64,`
			`mask_short: u64,`
			`}`

			`impl FastCdcChunker {`
More tests, forcing cut-point-skipping, using black_box 2017-08-03 05:34:16 +00:00			`pub fn new(avg_size: usize, seed: u64) -> Self {`
First working version 2017-03-10 11:43:32 +00:00			`let (mask_short, mask_long) = get_masks(avg_size, 2, seed);`
			`FastCdcChunker {`
All in one module 2018-02-24 22:28:18 +00:00			`buffer: [0; 0x1000],`
First working version 2017-03-10 11:43:32 +00:00			`buffered: 0,`
			`gear: create_gear(seed),`
			`min_size: avg_size/4,`
			`max_size: avg_size*8,`
			`avg_size: avg_size,`
			`mask_long: mask_long,`
			`mask_short: mask_short,`
			`}`
			`}`
			`}`

Simplified code 2017-08-02 21:12:46 +00:00
			`impl FastCdcChunker {`
			`fn write_output(&mut self, w: &mut Write, pos: usize, max: usize) -> Result<ChunkerStatus, ChunkerError> {`
Some minor changes 2018-02-19 20:18:47 +00:00			`debug_assert!(max <= self.buffer.len());`
			`debug_assert!(pos <= self.buffer.len());`
Simplified code 2017-08-02 21:12:46 +00:00			`try!(w.write_all(&self.buffer[..pos]).map_err(ChunkerError::Write));`
			`unsafe { ptr::copy(self.buffer[pos..].as_ptr(), self.buffer.as_mut_ptr(), max-pos) };`
			`self.buffered = max-pos;`
			`Ok(ChunkerStatus::Continue)`
			`}`
			`}`


Moved chunker to separate crate (re #17) 2017-04-19 15:35:25 +00:00			`impl Chunker for FastCdcChunker {`
Nice error when remote storage is not mounted fastcdc speedup 2017-04-08 13:10:02 +00:00			`#[allow(unknown_lints,explicit_counter_loop,needless_range_loop)]`
Make clippy happy 2018-02-19 21:30:59 +00:00			`fn chunk(&mut self, r: &mut Read, w: &mut Write) -> Result<ChunkerStatus, ChunkerError> {`
First working version 2017-03-10 11:43:32 +00:00			`let mut max;`
			`let mut hash = 0u64;`
			`let mut pos = 0;`
			`loop {`
			`// Fill the buffer, there might be some bytes still in there from last chunk`
Simplified code 2017-08-02 21:12:46 +00:00			`max = try!(r.read(&mut self.buffer[self.buffered..]).map_err(ChunkerError::Read)) + self.buffered;`
First working version 2017-03-10 11:43:32 +00:00			`// If nothing to do, finish`
			`if max == 0 {`
			`return Ok(ChunkerStatus::Finished)`
			`}`
Simplified code 2017-08-02 21:12:46 +00:00			`let min_size_p = cmp::min(max, cmp::max(self.min_size as isize - pos as isize, 0) as usize);`
			`let avg_size_p = cmp::min(max, cmp::max(self.avg_size as isize - pos as isize, 0) as usize);`
			`let max_size_p = cmp::min(max, cmp::max(self.max_size as isize - pos as isize, 0) as usize);`
More tests, forcing cut-point-skipping, using black_box 2017-08-03 05:34:16 +00:00			`// Skipping first min_size bytes. This is ok as same data still results in same hash.`
Simplified code 2017-08-02 21:12:46 +00:00			`if self.avg_size > pos {`
Also including the first min_size bytes in hash (oops), performance improvements 2017-08-02 20:18:37 +00:00			`for i in min_size_p..avg_size_p {`
Simplified code 2017-08-02 21:12:46 +00:00			`hash = (hash << 1).wrapping_add(self.gear[self.buffer[i] as usize]);`
			`if hash & self.mask_short == 0 {`
Make clippy happy 2018-02-19 21:30:59 +00:00			`return self.write_output(w, i + 1, max);`
Also including the first min_size bytes in hash (oops), performance improvements 2017-08-02 20:18:37 +00:00			`}`
			`}`
			`}`
Simplified code 2017-08-02 21:12:46 +00:00			`if self.max_size > pos {`
Also including the first min_size bytes in hash (oops), performance improvements 2017-08-02 20:18:37 +00:00			`for i in avg_size_p..max_size_p {`
Simplified code 2017-08-02 21:12:46 +00:00			`hash = (hash << 1).wrapping_add(self.gear[self.buffer[i] as usize]);`
			`if hash & self.mask_long == 0 {`
			`return self.write_output(w, i+1, max);`
First working version 2017-03-10 11:43:32 +00:00			`}`
			`}`
			`}`
Simplified code 2017-08-02 21:12:46 +00:00			`if max + pos >= self.max_size {`
			`return self.write_output(w, max_size_p, max);`
Also including the first min_size bytes in hash (oops), performance improvements 2017-08-02 20:18:37 +00:00			`}`
			`pos += max;`
Simplified code 2017-08-02 21:12:46 +00:00			`try!(w.write_all(&self.buffer[..max]).map_err(ChunkerError::Write));`
First working version 2017-03-10 11:43:32 +00:00			`self.buffered = 0;`
			`}`
			`}`
			`}`