use failure::*; use std::fmt; use std::ffi::{CStr, CString, OsStr}; use std::os::unix::ffi::OsStrExt; use std::io::{Read, Write, Seek, SeekFrom}; use std::convert::TryFrom; use chrono::offset::{TimeZone, Local}; use proxmox::tools::io::ReadExt; use crate::pxar::catalog::BackupCatalogWriter; use crate::pxar::{MatchPattern, MatchPatternSlice, MatchType}; use crate::backup::file_formats::PROXMOX_CATALOG_FILE_MAGIC_1_0; #[repr(u8)] #[derive(Copy,Clone,PartialEq)] enum CatalogEntryType { Directory = b'd', File = b'f', Symlink = b'l', Hardlink = b'h', BlockDevice = b'b', CharDevice = b'c', Fifo = b'p', // Fifo,Pipe Socket = b's', } impl TryFrom for CatalogEntryType { type Error=Error; fn try_from(value: u8) -> Result { Ok(match value { b'd' => CatalogEntryType::Directory, b'f' => CatalogEntryType::File, b'l' => CatalogEntryType::Symlink, b'h' => CatalogEntryType::Hardlink, b'b' => CatalogEntryType::BlockDevice, b'c' => CatalogEntryType::CharDevice, b'p' => CatalogEntryType::Fifo, b's' => CatalogEntryType::Socket, _ => bail!("invalid CatalogEntryType value '{}'", char::from(value)), }) } } impl fmt::Display for CatalogEntryType { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "{}", char::from(*self as u8)) } } /// Represents a named directory entry /// /// The ``attr`` property contain the exact type with type specific /// attributes. #[derive(Clone)] pub struct DirEntry { pub name: Vec, pub attr: DirEntryAttribute, } /// Used to specific additional attributes inside DirEntry #[derive(Clone)] pub enum DirEntryAttribute { Directory { start: u64 }, File { size: u64, mtime: u64 }, Symlink, Hardlink, BlockDevice, CharDevice, Fifo, Socket, } impl DirEntry { fn new(etype: CatalogEntryType, name: Vec, start: u64, size: u64, mtime:u64) -> Self { match etype { CatalogEntryType::Directory => { DirEntry { name, attr: DirEntryAttribute::Directory { start } } } CatalogEntryType::File => { DirEntry { name, attr: DirEntryAttribute::File { size, mtime } } } CatalogEntryType::Symlink => { DirEntry { name, attr: DirEntryAttribute::Symlink } } CatalogEntryType::Hardlink => { DirEntry { name, attr: DirEntryAttribute::Hardlink } } CatalogEntryType::BlockDevice => { DirEntry { name, attr: DirEntryAttribute::BlockDevice } } CatalogEntryType::CharDevice => { DirEntry { name, attr: DirEntryAttribute::CharDevice } } CatalogEntryType::Fifo => { DirEntry { name, attr: DirEntryAttribute::Fifo } } CatalogEntryType::Socket => { DirEntry { name, attr: DirEntryAttribute::Socket } } } } pub fn is_directory(&self) -> bool { match self.attr { DirEntryAttribute::Directory { .. } => true, _ => false, } } } struct DirInfo { name: CString, entries: Vec, } impl DirInfo { fn new(name: CString) -> Self { DirInfo { name, entries: Vec::new() } } fn new_rootdir() -> Self { DirInfo::new(CString::new(b"/".to_vec()).unwrap()) } fn encode_entry( writer: &mut W, entry: &DirEntry, pos: u64, ) -> Result<(), Error> { match entry { DirEntry { name, attr: DirEntryAttribute::Directory { start } } => { writer.write_all(&[CatalogEntryType::Directory as u8])?; catalog_encode_u64(writer, name.len() as u64)?; writer.write_all(name)?; catalog_encode_u64(writer, pos - start)?; } DirEntry { name, attr: DirEntryAttribute::File { size, mtime } } => { writer.write_all(&[CatalogEntryType::File as u8])?; catalog_encode_u64(writer, name.len() as u64)?; writer.write_all(name)?; catalog_encode_u64(writer, *size)?; catalog_encode_u64(writer, *mtime)?; } DirEntry { name, attr: DirEntryAttribute::Symlink } => { writer.write_all(&[CatalogEntryType::Symlink as u8])?; catalog_encode_u64(writer, name.len() as u64)?; writer.write_all(name)?; } DirEntry { name, attr: DirEntryAttribute::Hardlink } => { writer.write_all(&[CatalogEntryType::Hardlink as u8])?; catalog_encode_u64(writer, name.len() as u64)?; writer.write_all(name)?; } DirEntry { name, attr: DirEntryAttribute::BlockDevice } => { writer.write_all(&[CatalogEntryType::BlockDevice as u8])?; catalog_encode_u64(writer, name.len() as u64)?; writer.write_all(name)?; } DirEntry { name, attr: DirEntryAttribute::CharDevice } => { writer.write_all(&[CatalogEntryType::CharDevice as u8])?; catalog_encode_u64(writer, name.len() as u64)?; writer.write_all(name)?; } DirEntry { name, attr: DirEntryAttribute::Fifo } => { writer.write_all(&[CatalogEntryType::Fifo as u8])?; catalog_encode_u64(writer, name.len() as u64)?; writer.write_all(name)?; } DirEntry { name, attr: DirEntryAttribute::Socket } => { writer.write_all(&[CatalogEntryType::Socket as u8])?; catalog_encode_u64(writer, name.len() as u64)?; writer.write_all(name)?; } } Ok(()) } fn encode(self, start: u64) -> Result<(CString, Vec), Error> { let mut table = Vec::new(); catalog_encode_u64(&mut table, self.entries.len() as u64)?; for entry in self.entries { Self::encode_entry(&mut table, &entry, start)?; } let mut data = Vec::new(); catalog_encode_u64(&mut data, table.len() as u64)?; data.extend_from_slice(&table); Ok((self.name, data)) } fn parse Result>( data: &[u8], mut callback: C, ) -> Result<(), Error> { let mut cursor = data; let entries = catalog_decode_u64(&mut cursor)?; let mut name_buf = vec![0u8; 4096]; for _ in 0..entries { let mut buf = [ 0u8 ]; cursor.read_exact(&mut buf)?; let etype = CatalogEntryType::try_from(buf[0])?; let name_len = catalog_decode_u64(&mut cursor)? as usize; if name_len >= name_buf.len() { bail!("directory entry name too long ({} >= {})", name_len, name_buf.len()); } let name = &mut name_buf[0..name_len]; cursor.read_exact(name)?; let cont = match etype { CatalogEntryType::Directory => { let offset = catalog_decode_u64(&mut cursor)?; callback(etype, name, offset, 0, 0)? } CatalogEntryType::File => { let size = catalog_decode_u64(&mut cursor)?; let mtime = catalog_decode_u64(&mut cursor)?; callback(etype, name, 0, size, mtime)? } _ => { callback(etype, name, 0, 0, 0)? } }; if !cont { return Ok(()); } } if !cursor.is_empty() { bail!("unable to parse whole catalog data block"); } Ok(()) } } /// Write small catalog files /// /// A Catalogs simply contains list of files and directories /// (directory tree). They are use to find content without having to /// search the real archive (which may be large). For files, they /// include the last modification time and file size. pub struct CatalogWriter { writer: W, dirstack: Vec, pos: u64, } impl CatalogWriter { /// Create a new CatalogWriter instance pub fn new(writer: W) -> Result { let mut me = Self { writer, dirstack: vec![ DirInfo::new_rootdir() ], pos: 0 }; me.write_all(&PROXMOX_CATALOG_FILE_MAGIC_1_0)?; Ok(me) } fn write_all(&mut self, data: &[u8]) -> Result<(), Error> { self.writer.write_all(data)?; self.pos += u64::try_from(data.len())?; Ok(()) } /// Finish writing, flush all data /// /// This need to be called before drop. pub fn finish(&mut self) -> Result<(), Error> { if self.dirstack.len() != 1 { bail!("unable to finish catalog at level {}", self.dirstack.len()); } let dir = self.dirstack.pop().unwrap(); let start = self.pos; let (_, data) = dir.encode(start)?; self.write_all(&data)?; self.write_all(&start.to_le_bytes())?; self.writer.flush()?; Ok(()) } } impl BackupCatalogWriter for CatalogWriter { fn start_directory(&mut self, name: &CStr) -> Result<(), Error> { let new = DirInfo::new(name.to_owned()); self.dirstack.push(new); Ok(()) } fn end_directory(&mut self) -> Result<(), Error> { let (start, name) = match self.dirstack.pop() { Some(dir) => { let start = self.pos; let (name, data) = dir.encode(start)?; self.write_all(&data)?; (start, name) } None => { bail!("got unexpected end_directory level 0"); } }; let current = self.dirstack.last_mut().ok_or_else(|| format_err!("outside root"))?; let name = name.to_bytes().to_vec(); current.entries.push(DirEntry { name, attr: DirEntryAttribute::Directory { start } }); Ok(()) } fn add_file(&mut self, name: &CStr, size: u64, mtime: u64) -> Result<(), Error> { let dir = self.dirstack.last_mut().ok_or_else(|| format_err!("outside root"))?; let name = name.to_bytes().to_vec(); dir.entries.push(DirEntry { name, attr: DirEntryAttribute::File { size, mtime } }); Ok(()) } fn add_symlink(&mut self, name: &CStr) -> Result<(), Error> { let dir = self.dirstack.last_mut().ok_or_else(|| format_err!("outside root"))?; let name = name.to_bytes().to_vec(); dir.entries.push(DirEntry { name, attr: DirEntryAttribute::Symlink }); Ok(()) } fn add_hardlink(&mut self, name: &CStr) -> Result<(), Error> { let dir = self.dirstack.last_mut().ok_or_else(|| format_err!("outside root"))?; let name = name.to_bytes().to_vec(); dir.entries.push(DirEntry { name, attr: DirEntryAttribute::Hardlink }); Ok(()) } fn add_block_device(&mut self, name: &CStr) -> Result<(), Error> { let dir = self.dirstack.last_mut().ok_or_else(|| format_err!("outside root"))?; let name = name.to_bytes().to_vec(); dir.entries.push(DirEntry { name, attr: DirEntryAttribute::BlockDevice }); Ok(()) } fn add_char_device(&mut self, name: &CStr) -> Result<(), Error> { let dir = self.dirstack.last_mut().ok_or_else(|| format_err!("outside root"))?; let name = name.to_bytes().to_vec(); dir.entries.push(DirEntry { name, attr: DirEntryAttribute::CharDevice }); Ok(()) } fn add_fifo(&mut self, name: &CStr) -> Result<(), Error> { let dir = self.dirstack.last_mut().ok_or_else(|| format_err!("outside root"))?; let name = name.to_bytes().to_vec(); dir.entries.push(DirEntry { name, attr: DirEntryAttribute::Fifo }); Ok(()) } fn add_socket(&mut self, name: &CStr) -> Result<(), Error> { let dir = self.dirstack.last_mut().ok_or_else(|| format_err!("outside root"))?; let name = name.to_bytes().to_vec(); dir.entries.push(DirEntry { name, attr: DirEntryAttribute::Socket }); Ok(()) } } // fixme: move to somehere else? /// Implement Write to tokio mpsc channel Sender pub struct SenderWriter(tokio::sync::mpsc::Sender, Error>>); impl SenderWriter { pub fn new(sender: tokio::sync::mpsc::Sender, Error>>) -> Self { Self(sender) } } impl Write for SenderWriter { fn write(&mut self, buf: &[u8]) -> Result { futures::executor::block_on(async move { self.0.send(Ok(buf.to_vec())).await .map_err(|err| std::io::Error::new(std::io::ErrorKind::Other, err.to_string()))?; Ok(buf.len()) }) } fn flush(&mut self) -> Result<(), std::io::Error> { Ok(()) } } /// Read Catalog files pub struct CatalogReader { reader: R, } impl CatalogReader { /// Create a new CatalogReader instance pub fn new(reader: R) -> Self { Self { reader } } /// Print whole catalog to stdout pub fn dump(&mut self) -> Result<(), Error> { let root = self.root()?; match root { DirEntry { attr: DirEntryAttribute::Directory { start }, .. }=> { self.dump_dir(std::path::Path::new("./"), start) } _ => unreachable!(), } } /// Get the root DirEntry pub fn root(&mut self) -> Result { // Root dir is special self.reader.seek(SeekFrom::Start(0))?; let mut magic = [ 0u8; 8]; self.reader.read_exact(&mut magic)?; if magic != PROXMOX_CATALOG_FILE_MAGIC_1_0 { bail!("got unexpected magic number for catalog"); } self.reader.seek(SeekFrom::End(-8))?; let start = unsafe { self.reader.read_le_value::()? }; Ok(DirEntry { name: b"".to_vec(), attr: DirEntryAttribute::Directory { start } }) } /// Read all directory entries pub fn read_dir( &mut self, parent: &DirEntry, ) -> Result, Error> { let start = match parent.attr { DirEntryAttribute::Directory { start } => start, _ => bail!("parent is not a directory - internal error"), }; let data = self.read_raw_dirinfo_block(start)?; let mut entry_list = Vec::new(); DirInfo::parse(&data, |etype, name, offset, size, mtime| { let entry = DirEntry::new(etype, name.to_vec(), start - offset, size, mtime); entry_list.push(entry); Ok(true) })?; Ok(entry_list) } /// Lockup a DirEntry inside a parent directory pub fn lookup( &mut self, parent: &DirEntry, filename: &[u8], ) -> Result { let start = match parent.attr { DirEntryAttribute::Directory { start } => start, _ => bail!("parent is not a directory - internal error"), }; let data = self.read_raw_dirinfo_block(start)?; let mut item = None; DirInfo::parse(&data, |etype, name, offset, size, mtime| { if name != filename { return Ok(true); } let entry = DirEntry::new(etype, name.to_vec(), start - offset, size, mtime); item = Some(entry); Ok(false) // stop parsing })?; match item { None => bail!("no such file"), Some(entry) => Ok(entry), } } /// Read the raw directory info block from current reader position. fn read_raw_dirinfo_block(&mut self, start: u64) -> Result, Error> { self.reader.seek(SeekFrom::Start(start))?; let size = catalog_decode_u64(&mut self.reader)?; if size < 1 { bail!("got small directory size {}", size) }; let data = self.reader.read_exact_allocated(size as usize)?; Ok(data) } /// Print the content of a directory to stdout pub fn dump_dir(&mut self, prefix: &std::path::Path, start: u64) -> Result<(), Error> { let data = self.read_raw_dirinfo_block(start)?; DirInfo::parse(&data, |etype, name, offset, size, mtime| { let mut path = std::path::PathBuf::from(prefix); let name: &OsStr = OsStrExt::from_bytes(name); path.push(name); match etype { CatalogEntryType::Directory => { println!("{} {:?}", etype, path); if offset > start { bail!("got wrong directory offset ({} > {})", offset, start); } let pos = start - offset; self.dump_dir(&path, pos)?; } CatalogEntryType::File => { let dt = Local.timestamp(mtime as i64, 0); println!( "{} {:?} {} {}", etype, path, size, dt.to_rfc3339_opts(chrono::SecondsFormat::Secs, false), ); } _ => { println!("{} {:?}", etype, path); } } Ok(true) }) } /// Finds all entries matching the given match patterns and calls the /// provided callback on them. pub fn find( &mut self, mut entry: &mut Vec, pattern: &[MatchPatternSlice], callback: &Box, ) -> Result<(), Error> { let parent = entry.last().unwrap(); if !parent.is_directory() { return Ok(()) } for e in self.read_dir(parent)? { match MatchPatternSlice::match_filename_include( &CString::new(e.name.clone())?, e.is_directory(), pattern, )? { (MatchType::Positive, _) => { entry.push(e); callback(&entry); let pattern = MatchPattern::from_line(b"**/*").unwrap().unwrap(); let child_pattern = vec![pattern.as_slice()]; self.find(&mut entry, &child_pattern, callback)?; entry.pop(); } (MatchType::PartialPositive, child_pattern) | (MatchType::PartialNegative, child_pattern) => { entry.push(e); self.find(&mut entry, &child_pattern, callback)?; entry.pop(); } _ => {} } } Ok(()) } } /// Serialize u64 as short, variable length byte sequence /// /// Stores 7 bits per byte, Bit 8 indicates the end of the sequence (when not set). /// We limit values to a maximum of 2^63. pub fn catalog_encode_u64(writer: &mut W, v: u64) -> Result<(), Error> { let mut enc = Vec::new(); if (v & (1<<63)) != 0 { bail!("catalog_encode_u64 failed - value >= 2^63"); } let mut d = v; loop { if d < 128 { enc.push(d as u8); break; } enc.push((128 | (d & 127)) as u8); d = d >> 7; } writer.write_all(&enc)?; Ok(()) } /// Deserialize u64 from variable length byte sequence /// /// We currently read maximal 9 bytes, which give a maximum of 63 bits. pub fn catalog_decode_u64(reader: &mut R) -> Result { let mut v: u64 = 0; let mut buf = [0u8]; for i in 0..9 { // only allow 9 bytes (63 bits) if buf.is_empty() { bail!("decode_u64 failed - unexpected EOB"); } reader.read_exact(&mut buf)?; let t = buf[0]; if t < 128 { v |= (t as u64) << (i*7); return Ok(v); } else { v |= ((t & 127) as u64) << (i*7); } } bail!("decode_u64 failed - missing end marker"); } #[test] fn test_catalog_u64_encoder() { fn test_encode_decode(value: u64) { let mut data = Vec::new(); catalog_encode_u64(&mut data, value).unwrap(); //println!("ENCODE {} {:?}", value, data); let slice = &mut &data[..]; let decoded = catalog_decode_u64(slice).unwrap(); //println!("DECODE {}", decoded); assert!(decoded == value); } test_encode_decode(126); test_encode_decode((1<<12)-1); test_encode_decode((1<<20)-1); test_encode_decode((1<<50)-1); test_encode_decode((1<<63)-1); }