proxmox-backup/src/pxar/decoder.rs

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//! *pxar* format decoder for seekable files
//!
//! This module contain the code to decode *pxar* archive files.
use std::convert::TryFrom;
use std::ffi::{OsString, OsStr};
use std::io::{Read, Seek, SeekFrom};
use std::path::{Path, PathBuf};
use std::os::unix::ffi::OsStrExt;
use failure::*;
use libc;
use super::format_definition::*;
use super::sequential_decoder::SequentialDecoder;
use super::match_pattern::MatchPattern;
use proxmox::tools::io::ReadExt;
pub struct DirectoryEntry {
/// Points to the `PxarEntry` of the directory
start: u64,
/// Points past the goodbye table tail
end: u64,
pub filename: OsString,
pub entry: PxarEntry,
}
// This one needs Read+Seek
pub struct Decoder<R: Read + Seek> {
inner: SequentialDecoder<R>,
root_start: u64,
root_end: u64,
}
const HEADER_SIZE: u64 = std::mem::size_of::<PxarHeader>() as u64;
const GOODBYE_ITEM_SIZE: u64 = std::mem::size_of::<PxarGoodbyeItem>() as u64;
impl<R: Read + Seek> Decoder<R> {
pub fn new(mut reader: R) -> Result<Self, Error> {
let root_end = reader.seek(SeekFrom::End(0))?;
let inner = SequentialDecoder::new(reader, super::flags::DEFAULT);
Ok(Self { inner, root_start: 0, root_end })
}
pub fn set_callback<F: Fn(&Path) -> Result<(), Error> + 'static>(&mut self, callback: F ) {
self.inner.set_callback(callback);
}
pub fn root(&mut self) -> Result<DirectoryEntry, Error> {
self.seek(SeekFrom::Start(0))?;
let header: PxarHeader = self.inner.read_item()?;
check_ca_header::<PxarEntry>(&header, PXAR_ENTRY)?;
let entry: PxarEntry = self.inner.read_item()?;
Ok(DirectoryEntry {
start: self.root_start,
end: self.root_end,
filename: OsString::new(), // Empty
entry,
})
}
fn seek(&mut self, pos: SeekFrom) -> Result<u64, Error> {
let pos = self.inner.get_reader_mut().seek(pos)?;
Ok(pos)
}
pub(crate) fn root_end_offset(&self) -> u64 {
self.root_end
}
/// Restore the subarchive starting at `dir` to the provided target `path`.
///
/// Only restore the content matched by the MatchPattern `pattern`.
/// An empty Vec `pattern` means restore all.
pub fn restore(&mut self, dir: &DirectoryEntry, path: &Path, pattern: &Vec<MatchPattern>) -> Result<(), Error> {
let start = dir.start;
self.seek(SeekFrom::Start(start))?;
self.inner.restore(path, pattern)?;
Ok(())
}
pub(crate) fn read_directory_entry(
&mut self,
start: u64,
end: u64,
) -> Result<DirectoryEntry, Error> {
self.seek(SeekFrom::Start(start))?;
let head: PxarHeader = self.inner.read_item()?;
if head.htype != PXAR_FILENAME {
bail!("wrong filename header type for object [{}..{}]", start, end);
}
let entry_start = start + head.size;
let filename = self.inner.read_filename(head.size)?;
let head: PxarHeader = self.inner.read_item()?;
if head.htype == PXAR_FORMAT_HARDLINK {
let (_, offset) = self.inner.read_hardlink(head.size)?;
// TODO: Howto find correct end offset for hardlink target?
// This is a bit tricky since we cannot find correct end in an efficient
// way, on the other hand it doesn't really matter (for now) since target
// is never a directory and end is not used in such cases.
return self.read_directory_entry(start - offset, end);
}
check_ca_header::<PxarEntry>(&head, PXAR_ENTRY)?;
let entry: PxarEntry = self.inner.read_item()?;
Ok(DirectoryEntry {
start: entry_start,
end,
filename,
entry,
})
}
/// Return the goodbye table based on the provided end offset.
///
/// Get the goodbye table entries and the start and end offsets of the
/// items they reference.
/// If the start offset is provided, we use that to check the consistency of
/// the data, else the start offset calculated based on the goodbye tail is
/// used.
pub(crate) fn goodbye_table(
&mut self,
start: Option<u64>,
end: u64,
) -> Result<Vec<(PxarGoodbyeItem, u64, u64)>, Error> {
self.seek(SeekFrom::Start(end - GOODBYE_ITEM_SIZE))?;
let tail: PxarGoodbyeItem = self.inner.read_item()?;
if tail.hash != PXAR_GOODBYE_TAIL_MARKER {
bail!("missing goodbye tail marker for object at offset {}", end);
}
// If the start offset was provided, we use and check based on that.
// If not, we rely on the offset calculated from the goodbye table entry.
let start = start.unwrap_or(end - tail.offset - tail.size);
let goodbye_table_size = tail.size;
if goodbye_table_size < (HEADER_SIZE + GOODBYE_ITEM_SIZE) {
bail!("short goodbye table size for object [{}..{}]", start, end);
}
let goodbye_inner_size = goodbye_table_size - HEADER_SIZE - GOODBYE_ITEM_SIZE;
if (goodbye_inner_size % GOODBYE_ITEM_SIZE) != 0 {
bail!(
"wrong goodbye inner table size for entry [{}..{}]",
start,
end
);
}
let goodbye_start = end - goodbye_table_size;
if tail.offset != (goodbye_start - start) {
bail!(
"wrong offset in goodbye tail marker for entry [{}..{}]",
start,
end
);
}
self.seek(SeekFrom::Start(goodbye_start))?;
let head: PxarHeader = self.inner.read_item()?;
if head.htype != PXAR_GOODBYE {
bail!(
"wrong goodbye table header type for entry [{}..{}]",
start,
end
);
}
if head.size != goodbye_table_size {
bail!("wrong goodbye table size for entry [{}..{}]", start, end);
}
let mut gb_entries = Vec::new();
for i in 0..goodbye_inner_size / GOODBYE_ITEM_SIZE {
let item: PxarGoodbyeItem = self.inner.read_item()?;
if item.offset > (goodbye_start - start) {
bail!(
"goodbye entry {} offset out of range [{}..{}] {} {} {}",
i,
start,
end,
item.offset,
goodbye_start,
start
);
}
let item_start = goodbye_start - item.offset;
let item_end = item_start + item.size;
if item_end > goodbye_start {
bail!("goodbye entry {} end out of range [{}..{}]", i, start, end);
}
gb_entries.push((item, item_start, item_end));
}
Ok(gb_entries)
}
pub fn list_dir(&mut self, dir: &DirectoryEntry) -> Result<Vec<DirectoryEntry>, Error> {
let start = dir.start;
let end = dir.end;
//println!("list_dir1: {} {}", start, end);
if (end - start) < (HEADER_SIZE + GOODBYE_ITEM_SIZE) {
bail!("detected short object [{}..{}]", start, end);
}
let mut result = vec![];
let goodbye_table = self.goodbye_table(Some(start), end)?;
for (_, item_start, item_end) in goodbye_table {
let entry = self.read_directory_entry(item_start, item_end)?;
//println!("ENTRY: {} {} {:?}", item_start, item_end, entry.filename);
result.push(entry);
}
Ok(result)
}
pub fn print_filenames<W: std::io::Write>(
&mut self,
output: &mut W,
prefix: &mut PathBuf,
dir: &DirectoryEntry,
) -> Result<(), Error> {
let mut list = self.list_dir(dir)?;
list.sort_unstable_by(|a, b| a.filename.cmp(&b.filename));
for item in &list {
prefix.push(item.filename.clone());
let mode = item.entry.mode as u32;
let ifmt = mode & libc::S_IFMT;
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writeln!(output, "{:?}", prefix)?;
match ifmt {
libc::S_IFDIR => self.print_filenames(output, prefix, item)?,
libc::S_IFREG | libc::S_IFLNK | libc::S_IFBLK | libc::S_IFCHR => {}
_ => bail!("unknown item mode/type for {:?}", prefix),
}
prefix.pop();
}
Ok(())
}
/// Lookup the item identified by `filename` in the provided `DirectoryEntry`.
///
/// Calculates the hash of the filename and searches for matching entries in
/// the goodbye table of the provided `DirectoryEntry`.
/// If found, also the filename is compared to avoid hash collision.
/// If the filename does not match, the search resumes with the next entry in
/// the goodbye table.
/// If there is no entry with matching `filename`, `Ok(None)` is returned.
pub fn lookup(
&mut self,
dir: &DirectoryEntry,
filename: &OsStr,
) -> Result<Option<(DirectoryEntry, PxarAttributes, u64)>, Error> {
let gbt = self.goodbye_table(Some(dir.start), dir.end)?;
let hash = compute_goodbye_hash(filename.as_bytes());
let mut iterator = gbt.iter();
loop {
// Search for the next goodbye entry with matching hash.
let (start, end) = match iterator.find(|(i, _, _)| i.hash == hash) {
Some((_item, start, end)) => (start, end),
None => return Ok(None),
};
// At this point it is not clear if the item is a directory or not,
// this has to be decided based on the entry mode.
// `Decoder`s attributes function accepts both, offsets pointing to
// the start of an item (PXAR_FILENAME) or the GOODBYE_TAIL_MARKER in
// case of directories, so the use of start offset is fine for both
// cases.
let (entry_name, entry, attr, payload_size) = self.attributes(*start)?;
// Possible hash collision, need to check if the found entry is indeed
// the filename to lookup.
if entry_name == filename {
let dir_entry = DirectoryEntry {
start: *start + HEADER_SIZE + entry_name.len() as u64 + 1,
end: *end,
filename: entry_name,
entry,
};
return Ok(Some((dir_entry, attr, payload_size)));
}
}
}
/// Get attributes for the archive item located at `offset`.
///
/// Returns the entry, attributes and the payload size for the item.
/// For regular archive itmes a `PXAR_FILENAME` or a `PXAR_ENTRY` header is
/// expected at `offset`.
/// For directories, `offset` might also (but not necessarily) point at the
/// directories `PXAR_GOODBYE_TAIL_MARKER`. This is not mandatory and it can
/// also directly point to its `PXAR_FILENAME` or `PXAR_ENTRY`, thereby
/// avoiding an additional seek.
pub fn attributes(&mut self, offset: u64) -> Result<(OsString, PxarEntry, PxarAttributes, u64), Error> {
self.seek(SeekFrom::Start(offset))?;
let mut marker: u64 = self.inner.read_item()?;
if marker == PXAR_GOODBYE_TAIL_MARKER {
let dir_offset: u64 = self.inner.read_item()?;
let gb_size: u64 = self.inner.read_item()?;
let distance = i64::try_from(dir_offset + gb_size)?;
self.seek(SeekFrom::Current(0 - distance))?;
marker = self.inner.read_item()?;
}
let filename = if marker == PXAR_FILENAME {
let size: u64 = self.inner.read_item()?;
let filename = self.inner.read_filename(size)?;
marker = self.inner.read_item()?;
filename
} else {
OsString::new()
};
if marker == PXAR_FORMAT_HARDLINK {
let size: u64 = self.inner.read_item()?;
let (_, diff) = self.inner.read_hardlink(size)?;
return self.attributes(offset - diff);
}
if marker != PXAR_ENTRY {
bail!("Expected PXAR_ENTRY, found 0x{:x?}", marker);
}
let _size: u64 = self.inner.read_item()?;
let entry: PxarEntry = self.inner.read_item()?;
let (header, xattr) = self.inner.read_attributes()?;
let file_size = match header.htype {
PXAR_PAYLOAD => header.size - HEADER_SIZE,
_ => 0,
};
Ok((filename, entry, xattr, file_size))
}
/// Opens the file by validating the given `offset` and returning its attrs,
/// xattrs and size.
pub fn open(&mut self, offset: u64) -> Result<(OsString, PxarEntry, PxarAttributes, u64), Error> {
self.attributes(offset)
}
/// Read the payload of the file given by `offset`.
///
/// This will read the file by first seeking to `offset` within the archive,
/// check if there is indeed a valid item with payload and then read `size`
/// bytes of content starting from `data_offset`.
/// If EOF is reached before reading `size` bytes, the reduced buffer is
/// returned.
pub fn read(&mut self, offset: u64, size: usize, data_offset: u64) -> Result<Vec<u8>, Error> {
self.seek(SeekFrom::Start(offset))?;
let head: PxarHeader = self.inner.read_item()?;
if head.htype != PXAR_FILENAME {
bail!("Expected PXAR_FILENAME, encountered 0x{:x?}", head.htype);
}
let _filename = self.inner.read_filename(head.size)?;
let head: PxarHeader = self.inner.read_item()?;
check_ca_header::<PxarEntry>(&head, PXAR_ENTRY)?;
let _: PxarEntry = self.inner.read_item()?;
let (header, _) = self.inner.read_attributes()?;
if header.htype != PXAR_PAYLOAD {
bail!("Expected PXAR_PAYLOAD, found 0x{:x?}", header.htype);
}
let payload_size = header.size - HEADER_SIZE;
if data_offset >= payload_size {
return Ok(Vec::new());
}
let len = if data_offset + u64::try_from(size)? > payload_size {
usize::try_from(payload_size - data_offset)?
} else {
size
};
self.inner.skip_bytes(usize::try_from(data_offset)?)?;
let data = self.inner.get_reader_mut().read_exact_allocated(len)?;
Ok(data)
}
/// Read the target of a hardlink in the archive.
pub fn read_link(&mut self, offset: u64) -> Result<(PathBuf, PxarEntry), Error> {
self.seek(SeekFrom::Start(offset))?;
let mut header: PxarHeader = self.inner.read_item()?;
if header.htype != PXAR_FILENAME {
bail!("Expected PXAR_FILENAME, encountered 0x{:x?}", header.htype);
}
let _filename = self.inner.read_filename(header.size)?;
header = self.inner.read_item()?;
check_ca_header::<PxarEntry>(&header, PXAR_ENTRY)?;
let entry: PxarEntry = self.inner.read_item()?;
header = self.inner.read_item()?;
if header.htype != PXAR_SYMLINK {
bail!("Expected PXAR_SYMLINK, encountered 0x{:x?}", header.htype);
}
let target = self.inner.read_link(header.size)?;
Ok((target, entry))
}
}