use std::convert::TryInto; use std::fs::File; use std::io::{BufWriter, Seek, SeekFrom, Write}; use std::os::unix::io::AsRawFd; use std::path::{Path, PathBuf}; use std::sync::Arc; use failure::*; use proxmox::tools::io::ReadExt; use proxmox::tools::uuid::Uuid; use proxmox::tools::vec; use super::chunk_stat::ChunkStat; use super::chunk_store::ChunkStore; use super::read_chunk::ReadChunk; use super::Chunker; use super::IndexFile; use super::{DataBlob, DataChunkBuilder}; use crate::tools; /// Header format definition for dynamic index files (`.dixd`) #[repr(C)] pub struct DynamicIndexHeader { pub magic: [u8; 8], pub uuid: [u8; 16], pub ctime: u64, /// Sha256 over the index ``SHA256(offset1||digest1||offset2||digest2||...)`` pub index_csum: [u8; 32], reserved: [u8; 4032], // overall size is one page (4096 bytes) } proxmox::tools::static_assert_size!(DynamicIndexHeader, 4096); // TODO: Once non-Copy unions are stabilized, use: // union DynamicIndexHeader { // reserved: [u8; 4096], // pub data: DynamicIndexHeaderData, // } pub struct DynamicIndexReader { _file: File, pub size: usize, index: *const u8, index_entries: usize, pub uuid: [u8; 16], pub ctime: u64, pub index_csum: [u8; 32], } // `index` is mmap()ed which cannot be thread-local so should be sendable // FIXME: Introduce an mmap wrapper type for this? unsafe impl Send for DynamicIndexReader {} unsafe impl Sync for DynamicIndexReader {} impl Drop for DynamicIndexReader { fn drop(&mut self) { if let Err(err) = self.unmap() { eprintln!("Unable to unmap dynamic index - {}", err); } } } impl DynamicIndexReader { pub fn open(path: &Path) -> Result { File::open(path) .map_err(Error::from) .and_then(|file| Self::new(file)) .map_err(|err| format_err!("Unable to open dynamic index {:?} - {}", path, err)) } pub fn new(mut file: std::fs::File) -> Result { if let Err(err) = nix::fcntl::flock(file.as_raw_fd(), nix::fcntl::FlockArg::LockSharedNonblock) { bail!("unable to get shared lock - {}", err); } file.seek(SeekFrom::Start(0))?; let header_size = std::mem::size_of::(); let header: Box = unsafe { file.read_host_value_boxed()? }; if header.magic != super::DYNAMIC_SIZED_CHUNK_INDEX_1_0 { bail!("got unknown magic number"); } let ctime = u64::from_le(header.ctime); let rawfd = file.as_raw_fd(); let stat = nix::sys::stat::fstat(rawfd)?; let size = stat.st_size as usize; let index_size = size - header_size; if (index_size % 40) != 0 { bail!("got unexpected file size"); } let data = unsafe { nix::sys::mman::mmap( std::ptr::null_mut(), index_size, nix::sys::mman::ProtFlags::PROT_READ, nix::sys::mman::MapFlags::MAP_PRIVATE, rawfd, header_size as i64, ) }? as *const u8; Ok(Self { _file: file, size, index: data, index_entries: index_size / 40, ctime, uuid: header.uuid, index_csum: header.index_csum, }) } fn unmap(&mut self) -> Result<(), Error> { if self.index == std::ptr::null_mut() { return Ok(()); } if let Err(err) = unsafe { nix::sys::mman::munmap(self.index as *mut std::ffi::c_void, self.index_entries * 40) } { bail!("unmap dynamic index failed - {}", err); } self.index = std::ptr::null_mut(); Ok(()) } #[allow(clippy::cast_ptr_alignment)] pub fn chunk_info(&self, pos: usize) -> Result<(u64, u64, [u8; 32]), Error> { if pos >= self.index_entries { bail!("chunk index out of range"); } let start = if pos == 0 { 0 } else { unsafe { *(self.index.add((pos - 1) * 40) as *const u64) } }; let end = unsafe { *(self.index.add(pos * 40) as *const u64) }; let mut digest = std::mem::MaybeUninit::<[u8; 32]>::uninit(); unsafe { std::ptr::copy_nonoverlapping( self.index.add(pos * 40 + 8), (*digest.as_mut_ptr()).as_mut_ptr(), 32, ); } Ok((start, end, unsafe { digest.assume_init() })) } #[inline] #[allow(clippy::cast_ptr_alignment)] fn chunk_end(&self, pos: usize) -> u64 { if pos >= self.index_entries { panic!("chunk index out of range"); } unsafe { *(self.index.add(pos * 40) as *const u64) } } #[inline] fn chunk_digest(&self, pos: usize) -> &[u8; 32] { if pos >= self.index_entries { panic!("chunk index out of range"); } let slice = unsafe { std::slice::from_raw_parts(self.index.add(pos * 40 + 8), 32) }; slice.try_into().unwrap() } /// Compute checksum and data size pub fn compute_csum(&self) -> ([u8; 32], u64) { let mut csum = openssl::sha::Sha256::new(); let mut chunk_end = 0; for pos in 0..self.index_entries { chunk_end = self.chunk_end(pos); let digest = self.chunk_digest(pos); csum.update(&chunk_end.to_le_bytes()); csum.update(digest); } let csum = csum.finish(); (csum, chunk_end) } /* pub fn dump_pxar(&self, mut writer: Box) -> Result<(), Error> { for pos in 0..self.index_entries { let _end = self.chunk_end(pos); let digest = self.chunk_digest(pos); //println!("Dump {:08x}", end ); let chunk = self.store.read_chunk(digest)?; // fimxe: handle encrypted chunks let data = chunk.decode(None)?; writer.write_all(&data)?; } Ok(()) } */ fn binary_search( &self, start_idx: usize, start: u64, end_idx: usize, end: u64, offset: u64, ) -> Result { if (offset >= end) || (offset < start) { bail!("offset out of range"); } if end_idx == start_idx { return Ok(start_idx); // found } let middle_idx = (start_idx + end_idx) / 2; let middle_end = self.chunk_end(middle_idx); if offset < middle_end { self.binary_search(start_idx, start, middle_idx, middle_end, offset) } else { self.binary_search(middle_idx + 1, middle_end, end_idx, end, offset) } } } impl IndexFile for DynamicIndexReader { fn index_count(&self) -> usize { self.index_entries } fn index_digest(&self, pos: usize) -> Option<&[u8; 32]> { if pos >= self.index_entries { None } else { Some(unsafe { std::mem::transmute(self.chunk_digest(pos).as_ptr()) }) } } fn index_bytes(&self) -> u64 { if self.index_entries == 0 { 0 } else { self.chunk_end((self.index_entries - 1) as usize) } } } pub struct BufferedDynamicReader { store: S, index: DynamicIndexReader, archive_size: u64, read_buffer: Vec, buffered_chunk_idx: usize, buffered_chunk_start: u64, read_offset: u64, } impl BufferedDynamicReader { pub fn new(index: DynamicIndexReader, store: S) -> Self { let archive_size = index.chunk_end(index.index_entries - 1); Self { store, index, archive_size, read_buffer: Vec::with_capacity(1024 * 1024), buffered_chunk_idx: 0, buffered_chunk_start: 0, read_offset: 0, } } pub fn archive_size(&self) -> u64 { self.archive_size } fn buffer_chunk(&mut self, idx: usize) -> Result<(), Error> { let index = &self.index; let (start, end, digest) = index.chunk_info(idx)?; // fixme: avoid copy let data = self.store.read_chunk(&digest)?; if (end - start) != data.len() as u64 { bail!( "read chunk with wrong size ({} != {}", (end - start), data.len() ); } self.read_buffer.clear(); self.read_buffer.extend_from_slice(&data); self.buffered_chunk_idx = idx; self.buffered_chunk_start = start as u64; //println!("BUFFER {} {}", self.buffered_chunk_start, end); Ok(()) } } impl crate::tools::BufferedRead for BufferedDynamicReader { fn buffered_read(&mut self, offset: u64) -> Result<&[u8], Error> { if offset == self.archive_size { return Ok(&self.read_buffer[0..0]); } let buffer_len = self.read_buffer.len(); let index = &self.index; // optimization for sequential read if buffer_len > 0 && ((self.buffered_chunk_idx + 1) < index.index_entries) && (offset >= (self.buffered_chunk_start + (self.read_buffer.len() as u64))) { let next_idx = self.buffered_chunk_idx + 1; let next_end = index.chunk_end(next_idx); if offset < next_end { self.buffer_chunk(next_idx)?; let buffer_offset = (offset - self.buffered_chunk_start) as usize; return Ok(&self.read_buffer[buffer_offset..]); } } if (buffer_len == 0) || (offset < self.buffered_chunk_start) || (offset >= (self.buffered_chunk_start + (self.read_buffer.len() as u64))) { let end_idx = index.index_entries - 1; let end = index.chunk_end(end_idx); let idx = index.binary_search(0, 0, end_idx, end, offset)?; self.buffer_chunk(idx)?; } let buffer_offset = (offset - self.buffered_chunk_start) as usize; Ok(&self.read_buffer[buffer_offset..]) } } impl std::io::Read for BufferedDynamicReader { fn read(&mut self, buf: &mut [u8]) -> Result { use crate::tools::BufferedRead; use std::io::{Error, ErrorKind}; let data = match self.buffered_read(self.read_offset) { Ok(v) => v, Err(err) => return Err(Error::new(ErrorKind::Other, err.to_string())), }; let n = if data.len() > buf.len() { buf.len() } else { data.len() }; unsafe { std::ptr::copy_nonoverlapping(data.as_ptr(), buf.as_mut_ptr(), n); } self.read_offset += n as u64; Ok(n) } } impl std::io::Seek for BufferedDynamicReader { fn seek(&mut self, pos: SeekFrom) -> Result { let new_offset = match pos { SeekFrom::Start(start_offset) => start_offset as i64, SeekFrom::End(end_offset) => (self.archive_size as i64) + end_offset, SeekFrom::Current(offset) => (self.read_offset as i64) + offset, }; use std::io::{Error, ErrorKind}; if (new_offset < 0) || (new_offset > (self.archive_size as i64)) { return Err(Error::new( ErrorKind::Other, format!( "seek is out of range {} ([0..{}])", new_offset, self.archive_size ), )); } self.read_offset = new_offset as u64; Ok(self.read_offset) } } /// Create dynamic index files (`.dixd`) pub struct DynamicIndexWriter { store: Arc, _lock: tools::ProcessLockSharedGuard, writer: BufWriter, closed: bool, filename: PathBuf, tmp_filename: PathBuf, csum: Option, pub uuid: [u8; 16], pub ctime: u64, } impl Drop for DynamicIndexWriter { fn drop(&mut self) { let _ = std::fs::remove_file(&self.tmp_filename); // ignore errors } } impl DynamicIndexWriter { pub fn create(store: Arc, path: &Path) -> Result { let shared_lock = store.try_shared_lock()?; let full_path = store.relative_path(path); let mut tmp_path = full_path.clone(); tmp_path.set_extension("tmp_didx"); let file = std::fs::OpenOptions::new() .create(true) .truncate(true) .read(true) .write(true) .open(&tmp_path)?; let mut writer = BufWriter::with_capacity(1024 * 1024, file); let header_size = std::mem::size_of::(); // todo: use static assertion when available in rust if header_size != 4096 { panic!("got unexpected header size"); } let ctime = std::time::SystemTime::now() .duration_since(std::time::SystemTime::UNIX_EPOCH)? .as_secs(); let uuid = Uuid::generate(); let mut buffer = vec::zeroed(header_size); let header = crate::tools::map_struct_mut::(&mut buffer)?; header.magic = super::DYNAMIC_SIZED_CHUNK_INDEX_1_0; header.ctime = u64::to_le(ctime); header.uuid = *uuid.as_bytes(); header.index_csum = [0u8; 32]; writer.write_all(&buffer)?; let csum = Some(openssl::sha::Sha256::new()); Ok(Self { store, _lock: shared_lock, writer, closed: false, filename: full_path, tmp_filename: tmp_path, ctime, uuid: *uuid.as_bytes(), csum, }) } // fixme: use add_chunk instead? pub fn insert_chunk(&self, chunk: &DataBlob, digest: &[u8; 32]) -> Result<(bool, u64), Error> { self.store.insert_chunk(chunk, digest) } pub fn close(&mut self) -> Result<[u8; 32], Error> { if self.closed { bail!( "cannot close already closed archive index file {:?}", self.filename ); } self.closed = true; self.writer.flush()?; let csum_offset = proxmox::tools::offsetof!(DynamicIndexHeader, index_csum); self.writer.seek(SeekFrom::Start(csum_offset as u64))?; let csum = self.csum.take().unwrap(); let index_csum = csum.finish(); self.writer.write_all(&index_csum)?; self.writer.flush()?; if let Err(err) = std::fs::rename(&self.tmp_filename, &self.filename) { bail!("Atomic rename file {:?} failed - {}", self.filename, err); } Ok(index_csum) } // fixme: rename to add_digest pub fn add_chunk(&mut self, offset: u64, digest: &[u8; 32]) -> Result<(), Error> { if self.closed { bail!( "cannot write to closed dynamic index file {:?}", self.filename ); } let offset_le: &[u8; 8] = unsafe { &std::mem::transmute::(offset.to_le()) }; if let Some(ref mut csum) = self.csum { csum.update(offset_le); csum.update(digest); } self.writer.write_all(offset_le)?; self.writer.write_all(digest)?; Ok(()) } } /// Writer which splits a binary stream into dynamic sized chunks /// /// And store the resulting chunk list into the index file. pub struct DynamicChunkWriter { index: DynamicIndexWriter, closed: bool, chunker: Chunker, stat: ChunkStat, chunk_offset: usize, last_chunk: usize, chunk_buffer: Vec, } impl DynamicChunkWriter { pub fn new(index: DynamicIndexWriter, chunk_size: usize) -> Self { Self { index, closed: false, chunker: Chunker::new(chunk_size), stat: ChunkStat::new(0), chunk_offset: 0, last_chunk: 0, chunk_buffer: Vec::with_capacity(chunk_size * 4), } } pub fn stat(&self) -> &ChunkStat { &self.stat } pub fn close(&mut self) -> Result<(), Error> { if self.closed { return Ok(()); } self.closed = true; self.write_chunk_buffer()?; self.index.close()?; self.stat.size = self.chunk_offset as u64; // add size of index file self.stat.size += (self.stat.chunk_count * 40 + std::mem::size_of::()) as u64; Ok(()) } fn write_chunk_buffer(&mut self) -> Result<(), Error> { let chunk_size = self.chunk_buffer.len(); if chunk_size == 0 { return Ok(()); } let expected_chunk_size = self.chunk_offset - self.last_chunk; if expected_chunk_size != self.chunk_buffer.len() { bail!("wrong chunk size {} != {}", expected_chunk_size, chunk_size); } self.stat.chunk_count += 1; self.last_chunk = self.chunk_offset; let (chunk, digest) = DataChunkBuilder::new(&self.chunk_buffer) .compress(true) .build()?; match self.index.insert_chunk(&chunk, &digest) { Ok((is_duplicate, compressed_size)) => { self.stat.compressed_size += compressed_size; if is_duplicate { self.stat.duplicate_chunks += 1; } else { self.stat.disk_size += compressed_size; } println!( "ADD CHUNK {:016x} {} {}% {} {}", self.chunk_offset, chunk_size, (compressed_size * 100) / (chunk_size as u64), is_duplicate, proxmox::tools::digest_to_hex(&digest) ); self.index.add_chunk(self.chunk_offset as u64, &digest)?; self.chunk_buffer.truncate(0); Ok(()) } Err(err) => { self.chunk_buffer.truncate(0); Err(err) } } } } impl Write for DynamicChunkWriter { fn write(&mut self, data: &[u8]) -> std::result::Result { let chunker = &mut self.chunker; let pos = chunker.scan(data); if pos > 0 { self.chunk_buffer.extend_from_slice(&data[0..pos]); self.chunk_offset += pos; if let Err(err) = self.write_chunk_buffer() { return Err(std::io::Error::new( std::io::ErrorKind::Other, err.to_string(), )); } Ok(pos) } else { self.chunk_offset += data.len(); self.chunk_buffer.extend_from_slice(data); Ok(data.len()) } } fn flush(&mut self) -> std::result::Result<(), std::io::Error> { Err(std::io::Error::new( std::io::ErrorKind::Other, "please use close() instead of flush()", )) } }