use failure::*; use std::path::{Path, PathBuf}; use std::io::Write; use crypto::digest::Digest; use crypto::sha2::Sha512Trunc256; use std::sync::Mutex; use std::fs::{File, OpenOptions}; use nix::fcntl::{flock, FlockArg}; use std::os::unix::io::AsRawFd; pub struct ChunkStore { base: PathBuf, chunk_dir: PathBuf, hasher: Sha512Trunc256, mutex: Mutex, lockfile: File, } const HEX_CHARS: &'static [u8; 16] = b"0123456789abcdef"; fn u256_to_hex(digest: &[u8; 32]) -> String { let mut buf = Vec::::with_capacity(64); for i in 0..32 { buf.push(HEX_CHARS[(digest[i] >> 4) as usize]); buf.push(HEX_CHARS[(digest[i] & 0xf) as usize]); } unsafe { String::from_utf8_unchecked(buf) } } fn u256_to_prefix(digest: &[u8; 32]) -> PathBuf { let mut buf = Vec::::with_capacity(3+1+2+1); buf.push(HEX_CHARS[(digest[0] as usize) >> 4]); buf.push(HEX_CHARS[(digest[0] as usize) &0xf]); buf.push(HEX_CHARS[(digest[1] as usize) >> 4]); buf.push('/' as u8); buf.push(HEX_CHARS[(digest[1] as usize) & 0xf]); buf.push(HEX_CHARS[(digest[2] as usize) >> 4]); buf.push('/' as u8); let path = unsafe { String::from_utf8_unchecked(buf)}; path.into() } impl ChunkStore { fn chunk_dir>(path: P) -> PathBuf { let mut chunk_dir: PathBuf = PathBuf::from(path.as_ref()); chunk_dir.push(".chunks"); chunk_dir } pub fn create>(path: P) -> Result { let base: PathBuf = path.into(); let chunk_dir = Self::chunk_dir(&base); std::fs::create_dir(&base)?; std::fs::create_dir(&chunk_dir)?; // create 4096 subdir for i in 0..4096 { let mut l1path = base.clone(); l1path.push(format!("{:03x}",i)); std::fs::create_dir(&l1path)?; } Self::open(base) } pub fn open>(path: P) -> Result { let base: PathBuf = path.into(); let chunk_dir = Self::chunk_dir(&base); let metadata = std::fs::metadata(&chunk_dir)?; let mut lockfile_path = base.clone(); lockfile_path.push(".lock"); let lockfile = OpenOptions::new() .create(true) .append(true) .open(lockfile_path)?; let fd = lockfile.as_raw_fd(); // fixme: lock with timeout flock(fd, FlockArg::LockExclusive)?; println!("Got LOCK {:?}", fd); //std::thread::sleep_ms(30000); Ok(ChunkStore { base, chunk_dir, hasher: Sha512Trunc256::new(), lockfile, mutex: Mutex::new(false) }) } pub fn insert_chunk(&mut self, chunk: &[u8]) -> Result<([u8; 32]), Error> { self.hasher.reset(); self.hasher.input(chunk); let mut digest = [0u8; 32]; self.hasher.result(&mut digest); println!("DIGEST {}", u256_to_hex(&digest)); let mut chunk_path = self.base.clone(); let prefix = u256_to_prefix(&digest); chunk_path.push(&prefix); let digest_str = u256_to_hex(&digest); chunk_path.push(&digest_str); let lock = self.mutex.lock(); if let Ok(metadata) = std::fs::metadata(&chunk_path) { if metadata.is_file() { return Ok(digest); } else { bail!("Got unexpected file type for chunk {}", digest_str); } } let mut chunk_dir = self.base.clone(); chunk_dir.push(&prefix); if let Err(_) = std::fs::create_dir(&chunk_dir) { /* ignore */ } let mut tmp_path = chunk_path.clone(); tmp_path.set_extension("tmp"); let mut f = std::fs::File::create(&tmp_path)?; f.write_all(chunk)?; if let Err(err) = std::fs::rename(&tmp_path, &chunk_path) { if let Err(_) = std::fs::remove_file(&tmp_path) { /* ignore */ } bail!("Atomic rename failed for chunk {} - {}", digest_str, err); } println!("PATH {:?}", chunk_path); drop(lock); Ok(digest) } } #[test] fn test_chunk_store1() { if let Err(_e) = std::fs::remove_dir_all(".testdir") { /* ignore */ } let chunk_store = ChunkStore::open(".testdir"); assert!(chunk_store.is_err()); let mut chunk_store = ChunkStore::create(".testdir").unwrap(); chunk_store.insert_chunk(&[0u8, 1u8]).unwrap(); chunk_store.insert_chunk(&[0u8, 1u8]).unwrap(); let chunk_store = ChunkStore::create(".testdir"); assert!(chunk_store.is_err()); }