zvault/src/repository/basic_io.rs

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use ::prelude::*;
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use std::mem;
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use std::cmp::min;
use std::collections::VecDeque;
use std::io::{self, Read, Write, Cursor};
pub struct ChunkReader<'a> {
chunks: VecDeque<Chunk>,
data: Vec<u8>,
pos: usize,
repo: &'a mut Repository
}
impl<'a> ChunkReader<'a> {
pub fn new(repo: &'a mut Repository, chunks: ChunkList) -> Self {
ChunkReader {
repo: repo,
chunks: chunks.into_inner().into(),
data: vec![],
pos: 0
}
}
}
impl<'a> Read for ChunkReader<'a> {
fn read(&mut self, mut buf: &mut [u8]) -> Result<usize, io::Error> {
let mut bpos = 0;
loop {
if buf.len() == bpos {
break
}
if self.data.len() == self.pos {
if let Some(chunk) = self.chunks.pop_front() {
self.data = match self.repo.get_chunk(chunk.0) {
Ok(Some(data)) => data,
Ok(None) => return Err(io::Error::new(io::ErrorKind::Other, IntegrityError::MissingChunk(chunk.0))),
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Err(err) => return Err(io::Error::new(io::ErrorKind::Other, err))
};
self.pos = 0;
} else {
break
}
}
let l = min(self.data.len()-self.pos, buf.len() - bpos);
buf[bpos..bpos+l].copy_from_slice(&self.data[self.pos..self.pos+l]);
bpos += l;
self.pos += l;
}
Ok(bpos)
}
}
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impl Repository {
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#[inline]
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pub fn get_bundle_id(&self, id: u32) -> Result<BundleId, RepositoryError> {
self.bundle_map.get(id).ok_or_else(|| IntegrityError::MissingBundleId(id).into())
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}
pub fn get_chunk(&mut self, hash: Hash) -> Result<Option<Vec<u8>>, RepositoryError> {
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// Find bundle and chunk id in index
let found = if let Some(found) = self.index.get(&hash) {
found
} else {
return Ok(None)
};
// Lookup bundle id from map
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let bundle_id = try!(self.get_bundle_id(found.bundle));
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// Get chunk from bundle
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Ok(Some(try!(self.bundles.get_chunk(&bundle_id, found.chunk as usize))))
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}
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#[inline]
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pub fn put_chunk(&mut self, mode: BundleMode, hash: Hash, data: &[u8]) -> Result<(), RepositoryError> {
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// If this chunk is in the index, ignore it
if self.index.contains(&hash) {
return Ok(())
}
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self.put_chunk_override(mode, hash, data)
}
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fn write_chunk_to_bundle_and_index(&mut self, mode: BundleMode, hash: Hash, data: &[u8]) -> Result<(), RepositoryError> {
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let writer = match mode {
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BundleMode::Data => &mut self.data_bundle,
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BundleMode::Meta => &mut self.meta_bundle
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};
// ...alocate one if needed
if writer.is_none() {
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*writer = Some(try!(self.bundles.create_bundle(
mode,
self.config.hash,
self.config.compression.clone(),
self.config.encryption.clone()
)));
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}
debug_assert!(writer.is_some());
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// Add chunk to bundle writer and determine the size of the bundle
let writer_obj = writer.as_mut().unwrap();
let chunk_id = try!(writer_obj.add(data, hash));
let bundle_id = match mode {
BundleMode::Data => self.next_data_bundle,
BundleMode::Meta => self.next_meta_bundle
};
// Add location to the index
try!(self.index.set(&hash, &Location::new(bundle_id, chunk_id as u32)));
Ok(())
}
fn finish_bundle(&mut self, mode: BundleMode) -> Result<(), RepositoryError> {
// Calculate the next free bundle id now (late lifetime prevents this)
let next_free_bundle_id = self.next_free_bundle_id();
let writer = match mode {
BundleMode::Data => &mut self.data_bundle,
BundleMode::Meta => &mut self.meta_bundle
};
if writer.is_none() {
return Ok(())
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}
let bundle_id = match mode {
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BundleMode::Data => self.next_data_bundle,
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BundleMode::Meta => self.next_meta_bundle
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};
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let mut finished = None;
mem::swap(writer, &mut finished);
let bundle = try!(self.bundles.add_bundle(finished.unwrap()));
self.bundle_map.set(bundle_id, bundle.id.clone());
if self.next_meta_bundle == bundle_id {
self.next_meta_bundle = next_free_bundle_id
}
if self.next_data_bundle == bundle_id {
self.next_data_bundle = next_free_bundle_id
}
Ok(())
}
fn finish_bundle_if_needed(&mut self, mode: BundleMode) -> Result<(), RepositoryError> {
let (size, raw_size) = {
let writer = match mode {
BundleMode::Data => &mut self.data_bundle,
BundleMode::Meta => &mut self.meta_bundle
};
if let Some(ref writer) = *writer {
(writer.size(), writer.raw_size())
} else {
return Ok(())
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}
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};
if size >= self.config.bundle_size || raw_size >= 4 * self.config.bundle_size {
if mode == BundleMode::Meta {
//First store the current data bundle as meta referrs to those chunks
try!(self.finish_bundle(BundleMode::Data))
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}
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try!(self.finish_bundle(mode))
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}
Ok(())
}
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#[inline]
pub fn put_chunk_override(&mut self, mode: BundleMode, hash: Hash, data: &[u8]) -> Result<(), RepositoryError> {
try!(self.write_chunk_to_bundle_and_index(mode, hash, data));
self.finish_bundle_if_needed(mode)
}
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#[inline]
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pub fn put_data(&mut self, mode: BundleMode, data: &[u8]) -> Result<ChunkList, RepositoryError> {
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let mut input = Cursor::new(data);
self.put_stream(mode, &mut input)
}
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pub fn put_stream<R: Read>(&mut self, mode: BundleMode, data: &mut R) -> Result<ChunkList, RepositoryError> {
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let avg_size = self.config.chunker.avg_size();
let mut chunks = Vec::new();
let mut chunk = Vec::with_capacity(avg_size * 2);
loop {
chunk.clear();
let mut output = Cursor::new(chunk);
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let res = try!(self.chunker.chunk(data, &mut output));
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chunk = output.into_inner();
let hash = self.config.hash.hash(&chunk);
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try!(self.put_chunk(mode, hash, &chunk));
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chunks.push((hash, chunk.len() as u32));
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if res == ChunkerStatus::Finished {
break
}
}
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Ok(chunks.into())
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}
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pub fn get_data(&mut self, chunks: &[Chunk]) -> Result<Vec<u8>, RepositoryError> {
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let mut data = Vec::with_capacity(chunks.iter().map(|&(_, size)| size).sum::<u32>() as usize);
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try!(self.get_stream(chunks, &mut data));
Ok(data)
}
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#[inline]
pub fn get_reader(&mut self, chunks: ChunkList) -> ChunkReader {
ChunkReader::new(self, chunks)
}
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pub fn get_stream<W: Write>(&mut self, chunks: &[Chunk], w: &mut W) -> Result<(), RepositoryError> {
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for &(ref hash, len) in chunks {
let data = try!(try!(self.get_chunk(*hash)).ok_or_else(|| IntegrityError::MissingChunk(hash.clone())));
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debug_assert_eq!(data.len() as u32, len);
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try!(w.write_all(&data));
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}
Ok(())
}
}