use std::{fs, io};
use gix_features::{hash::Sha1, zlib::Decompress};
use gix_hash::ObjectId;
use crate::data::input;
pub struct BytesToEntriesIter<BR> {
read: BR,
decompressor: Decompress,
offset: u64,
had_error: bool,
version: crate::data::Version,
objects_left: u32,
hash: Option<Sha1>,
mode: input::Mode,
compressed: input::EntryDataMode,
compressed_buf: Option<Vec<u8>>,
hash_len: usize,
object_hash: gix_hash::Kind,
}
impl<BR> BytesToEntriesIter<BR> {
pub fn version(&self) -> crate::data::Version {
self.version
}
pub fn mode(&self) -> input::Mode {
self.mode
}
}
impl<BR> BytesToEntriesIter<BR>
where
BR: io::BufRead,
{
pub fn new_from_header(
mut read: BR,
mode: input::Mode,
compressed: input::EntryDataMode,
object_hash: gix_hash::Kind,
) -> Result<BytesToEntriesIter<BR>, input::Error> {
let mut header_data = [0u8; 12];
read.read_exact(&mut header_data)?;
let (version, num_objects) = crate::data::header::decode(&header_data)?;
assert_eq!(
version,
crate::data::Version::V2,
"let's stop here if we see undocumented pack formats"
);
Ok(BytesToEntriesIter {
read,
decompressor: Decompress::new(true),
compressed,
offset: 12,
had_error: false,
version,
objects_left: num_objects,
hash: (mode != input::Mode::AsIs).then(|| {
let mut hash = gix_features::hash::hasher(object_hash);
hash.update(&header_data);
hash
}),
mode,
compressed_buf: None,
hash_len: object_hash.len_in_bytes(),
object_hash,
})
}
fn next_inner(&mut self) -> Result<input::Entry, input::Error> {
self.objects_left -= 1; let entry = match self.hash.as_mut() {
Some(hash) => {
let mut read = read_and_pass_to(
&mut self.read,
HashWrite {
inner: io::sink(),
hash,
},
);
crate::data::Entry::from_read(&mut read, self.offset, self.hash_len)
}
None => crate::data::Entry::from_read(&mut self.read, self.offset, self.hash_len),
}
.map_err(input::Error::from)?;
let compressed_buf = self.compressed_buf.take().unwrap_or_else(|| Vec::with_capacity(4096));
self.decompressor.reset(true);
let mut decompressed_reader = DecompressRead {
inner: read_and_pass_to(
&mut self.read,
if self.compressed.keep() {
Vec::with_capacity(entry.decompressed_size as usize)
} else {
compressed_buf
},
),
decompressor: &mut self.decompressor,
};
let bytes_copied = io::copy(&mut decompressed_reader, &mut io::sink())?;
if bytes_copied != entry.decompressed_size {
return Err(input::Error::IncompletePack {
actual: bytes_copied,
expected: entry.decompressed_size,
});
}
let pack_offset = self.offset;
let compressed_size = decompressed_reader.decompressor.total_in();
self.offset += entry.header_size() as u64 + compressed_size;
let mut compressed = decompressed_reader.inner.write;
debug_assert_eq!(
compressed_size,
compressed.len() as u64,
"we must track exactly the same amount of bytes as read by the decompressor"
);
if let Some(hash) = self.hash.as_mut() {
hash.update(&compressed);
}
let crc32 = if self.compressed.crc32() {
let mut header_buf = [0u8; 12 + gix_hash::Kind::longest().len_in_bytes()];
let header_len = entry.header.write_to(bytes_copied, &mut header_buf.as_mut())?;
let state = gix_features::hash::crc32_update(0, &header_buf[..header_len]);
Some(gix_features::hash::crc32_update(state, &compressed))
} else {
None
};
let compressed = if self.compressed.keep() {
Some(compressed)
} else {
compressed.clear();
self.compressed_buf = Some(compressed);
None
};
let trailer = self.try_read_trailer()?;
Ok(input::Entry {
header: entry.header,
header_size: entry.header_size() as u16,
compressed,
compressed_size,
crc32,
pack_offset,
decompressed_size: bytes_copied,
trailer,
})
}
fn try_read_trailer(&mut self) -> Result<Option<ObjectId>, input::Error> {
Ok(if self.objects_left == 0 {
let mut id = gix_hash::ObjectId::null(self.object_hash);
if let Err(err) = self.read.read_exact(id.as_mut_slice()) {
if self.mode != input::Mode::Restore {
return Err(err.into());
}
}
if let Some(hash) = self.hash.take() {
let actual_id = gix_hash::ObjectId::from(hash.digest());
if self.mode == input::Mode::Restore {
id = actual_id;
}
if id != actual_id {
return Err(input::Error::ChecksumMismatch {
actual: actual_id,
expected: id,
});
}
}
Some(id)
} else if self.mode == input::Mode::Restore {
let hash = self.hash.clone().expect("in restore mode a hash is set");
Some(gix_hash::ObjectId::from(hash.digest()))
} else {
None
})
}
}
fn read_and_pass_to<R: io::Read, W: io::Write>(read: &mut R, to: W) -> PassThrough<&mut R, W> {
PassThrough { read, write: to }
}
impl<R> Iterator for BytesToEntriesIter<R>
where
R: io::BufRead,
{
type Item = Result<input::Entry, input::Error>;
fn next(&mut self) -> Option<Self::Item> {
if self.had_error || self.objects_left == 0 {
return None;
}
let result = self.next_inner();
self.had_error = result.is_err();
if self.had_error {
self.objects_left = 0;
}
if self.mode == input::Mode::Restore && self.had_error {
None
} else {
Some(result)
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
(self.objects_left as usize, Some(self.objects_left as usize))
}
}
impl<R> std::iter::ExactSizeIterator for BytesToEntriesIter<R> where R: io::BufRead {}
struct PassThrough<R, W> {
read: R,
write: W,
}
impl<R, W> io::BufRead for PassThrough<R, W>
where
Self: io::Read,
R: io::BufRead,
W: io::Write,
{
fn fill_buf(&mut self) -> io::Result<&[u8]> {
self.read.fill_buf()
}
fn consume(&mut self, amt: usize) {
let buf = self
.read
.fill_buf()
.expect("never fail as we called fill-buf before and this does nothing");
self.write
.write_all(&buf[..amt])
.expect("a write to never fail - should be a memory buffer");
self.read.consume(amt)
}
}
impl<R, W> io::Read for PassThrough<R, W>
where
W: io::Write,
R: io::Read,
{
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
let bytes_read = self.read.read(buf)?;
self.write.write_all(&buf[..bytes_read])?;
Ok(bytes_read)
}
}
impl crate::data::File {
pub fn streaming_iter(&self) -> Result<BytesToEntriesIter<impl io::BufRead>, input::Error> {
let reader = io::BufReader::with_capacity(4096 * 8, fs::File::open(&self.path)?);
BytesToEntriesIter::new_from_header(
reader,
input::Mode::Verify,
input::EntryDataMode::KeepAndCrc32,
self.object_hash,
)
}
}
pub struct DecompressRead<'a, R> {
pub inner: R,
pub decompressor: &'a mut Decompress,
}
impl<'a, R> io::Read for DecompressRead<'a, R>
where
R: io::BufRead,
{
fn read(&mut self, into: &mut [u8]) -> io::Result<usize> {
gix_features::zlib::stream::inflate::read(&mut self.inner, self.decompressor, into)
}
}
pub struct HashWrite<'a, T> {
pub hash: &'a mut Sha1,
pub inner: T,
}
impl<'a, T> std::io::Write for HashWrite<'a, T>
where
T: std::io::Write,
{
fn write(&mut self, buf: &[u8]) -> std::io::Result<usize> {
let written = self.inner.write(buf)?;
self.hash.update(&buf[..written]);
Ok(written)
}
fn flush(&mut self) -> std::io::Result<()> {
self.inner.flush()
}
}