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use std::cmp;
use std::io;
use std::io::prelude::*;
use std::mem;
use super::{GzBuilder, GzHeader};
use super::{FCOMMENT, FEXTRA, FHCRC, FNAME};
use crate::crc::{Crc, CrcReader};
use crate::deflate;
use crate::Compression;
fn copy(into: &mut [u8], from: &[u8], pos: &mut usize) -> usize {
let min = cmp::min(into.len(), from.len() - *pos);
for (slot, val) in into.iter_mut().zip(from[*pos..*pos + min].iter()) {
*slot = *val;
}
*pos += min;
min
}
pub(crate) fn corrupt() -> io::Error {
io::Error::new(
io::ErrorKind::InvalidInput,
"corrupt gzip stream does not have a matching checksum",
)
}
fn bad_header() -> io::Error {
io::Error::new(io::ErrorKind::InvalidInput, "invalid gzip header")
}
fn read_le_u16<R: Read>(r: &mut Buffer<R>) -> io::Result<u16> {
let mut b = [0; 2];
r.read_and_forget(&mut b)?;
Ok((b[0] as u16) | ((b[1] as u16) << 8))
}
fn read_gz_header_part<'a, R: Read>(r: &'a mut Buffer<'a, R>) -> io::Result<()> {
loop {
match r.part.state {
GzHeaderParsingState::Start => {
let mut header = [0; 10];
r.read_and_forget(&mut header)?;
if header[0] != 0x1f || header[1] != 0x8b {
return Err(bad_header());
}
if header[2] != 8 {
return Err(bad_header());
}
r.part.flg = header[3];
r.part.header.mtime = ((header[4] as u32) << 0)
| ((header[5] as u32) << 8)
| ((header[6] as u32) << 16)
| ((header[7] as u32) << 24);
let _xfl = header[8];
r.part.header.operating_system = header[9];
r.part.state = GzHeaderParsingState::Xlen;
}
GzHeaderParsingState::Xlen => {
if r.part.flg & FEXTRA != 0 {
r.part.xlen = read_le_u16(r)?;
}
r.part.state = GzHeaderParsingState::Extra;
}
GzHeaderParsingState::Extra => {
if r.part.flg & FEXTRA != 0 {
let mut extra = vec![0; r.part.xlen as usize];
r.read_and_forget(&mut extra)?;
r.part.header.extra = Some(extra);
}
r.part.state = GzHeaderParsingState::Filename;
}
GzHeaderParsingState::Filename => {
if r.part.flg & FNAME != 0 {
if None == r.part.header.filename {
r.part.header.filename = Some(Vec::new());
};
for byte in r.bytes() {
let byte = byte?;
if byte == 0 {
break;
}
}
}
r.part.state = GzHeaderParsingState::Comment;
}
GzHeaderParsingState::Comment => {
if r.part.flg & FCOMMENT != 0 {
if None == r.part.header.comment {
r.part.header.comment = Some(Vec::new());
};
for byte in r.bytes() {
let byte = byte?;
if byte == 0 {
break;
}
}
}
r.part.state = GzHeaderParsingState::Crc;
}
GzHeaderParsingState::Crc => {
if r.part.flg & FHCRC != 0 {
let stored_crc = read_le_u16(r)?;
let calced_crc = r.part.crc.sum() as u16;
if stored_crc != calced_crc {
return Err(corrupt());
}
}
return Ok(());
}
}
}
}
pub(crate) fn read_gz_header<R: Read>(r: &mut R) -> io::Result<GzHeader> {
let mut part = GzHeaderPartial::new();
let result = {
let mut reader = Buffer::new(&mut part, r);
read_gz_header_part(&mut reader)
};
result.map(|()| part.take_header())
}
/// A gzip streaming encoder
///
/// This structure exposes a [`BufRead`] interface that will read uncompressed data
/// from the underlying reader and expose the compressed version as a [`BufRead`]
/// interface.
///
/// [`BufRead`]: https://doc.rust-lang.org/std/io/trait.BufRead.html
///
/// # Examples
///
/// ```
/// use std::io::prelude::*;
/// use std::io;
/// use flate2::Compression;
/// use flate2::bufread::GzEncoder;
/// use std::fs::File;
/// use std::io::BufReader;
///
/// // Opens sample file, compresses the contents and returns a Vector or error
/// // File wrapped in a BufReader implements BufRead
///
/// fn open_hello_world() -> io::Result<Vec<u8>> {
/// let f = File::open("examples/hello_world.txt")?;
/// let b = BufReader::new(f);
/// let mut gz = GzEncoder::new(b, Compression::fast());
/// let mut buffer = Vec::new();
/// gz.read_to_end(&mut buffer)?;
/// Ok(buffer)
/// }
/// ```
#[derive(Debug)]
pub struct GzEncoder<R> {
inner: deflate::bufread::DeflateEncoder<CrcReader<R>>,
header: Vec<u8>,
pos: usize,
eof: bool,
}
pub fn gz_encoder<R: BufRead>(header: Vec<u8>, r: R, lvl: Compression) -> GzEncoder<R> {
let crc = CrcReader::new(r);
GzEncoder {
inner: deflate::bufread::DeflateEncoder::new(crc, lvl),
header,
pos: 0,
eof: false,
}
}
impl<R: BufRead> GzEncoder<R> {
/// Creates a new encoder which will use the given compression level.
///
/// The encoder is not configured specially for the emitted header. For
/// header configuration, see the `GzBuilder` type.
///
/// The data read from the stream `r` will be compressed and available
/// through the returned reader.
pub fn new(r: R, level: Compression) -> GzEncoder<R> {
GzBuilder::new().buf_read(r, level)
}
fn read_footer(&mut self, into: &mut [u8]) -> io::Result<usize> {
if self.pos == 8 {
return Ok(0);
}
let crc = self.inner.get_ref().crc();
let ref arr = [
(crc.sum() >> 0) as u8,
(crc.sum() >> 8) as u8,
(crc.sum() >> 16) as u8,
(crc.sum() >> 24) as u8,
(crc.amount() >> 0) as u8,
(crc.amount() >> 8) as u8,
(crc.amount() >> 16) as u8,
(crc.amount() >> 24) as u8,
];
Ok(copy(into, arr, &mut self.pos))
}
}
impl<R> GzEncoder<R> {
/// Acquires a reference to the underlying reader.
pub fn get_ref(&self) -> &R {
self.inner.get_ref().get_ref()
}
/// Acquires a mutable reference to the underlying reader.
///
/// Note that mutation of the reader may result in surprising results if
/// this encoder is continued to be used.
pub fn get_mut(&mut self) -> &mut R {
self.inner.get_mut().get_mut()
}
/// Returns the underlying stream, consuming this encoder
pub fn into_inner(self) -> R {
self.inner.into_inner().into_inner()
}
}
#[inline]
fn finish(buf: &[u8; 8]) -> (u32, u32) {
let crc = ((buf[0] as u32) << 0)
| ((buf[1] as u32) << 8)
| ((buf[2] as u32) << 16)
| ((buf[3] as u32) << 24);
let amt = ((buf[4] as u32) << 0)
| ((buf[5] as u32) << 8)
| ((buf[6] as u32) << 16)
| ((buf[7] as u32) << 24);
(crc, amt)
}
impl<R: BufRead> Read for GzEncoder<R> {
fn read(&mut self, mut into: &mut [u8]) -> io::Result<usize> {
let mut amt = 0;
if self.eof {
return self.read_footer(into);
} else if self.pos < self.header.len() {
amt += copy(into, &self.header, &mut self.pos);
if amt == into.len() {
return Ok(amt);
}
let tmp = into;
into = &mut tmp[amt..];
}
match self.inner.read(into)? {
0 => {
self.eof = true;
self.pos = 0;
self.read_footer(into)
}
n => Ok(amt + n),
}
}
}
impl<R: BufRead + Write> Write for GzEncoder<R> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.get_mut().write(buf)
}
fn flush(&mut self) -> io::Result<()> {
self.get_mut().flush()
}
}
/// A gzip streaming decoder
///
/// This structure consumes a [`BufRead`] interface, reading compressed data
/// from the underlying reader, and emitting uncompressed data.
///
/// [`BufRead`]: https://doc.rust-lang.org/std/io/trait.BufRead.html
///
/// # Examples
///
/// ```
/// use std::io::prelude::*;
/// use std::io;
/// # use flate2::Compression;
/// # use flate2::write::GzEncoder;
/// use flate2::bufread::GzDecoder;
///
/// # fn main() {
/// # let mut e = GzEncoder::new(Vec::new(), Compression::default());
/// # e.write_all(b"Hello World").unwrap();
/// # let bytes = e.finish().unwrap();
/// # println!("{}", decode_reader(bytes).unwrap());
/// # }
/// #
/// // Uncompresses a Gz Encoded vector of bytes and returns a string or error
/// // Here &[u8] implements BufRead
///
/// fn decode_reader(bytes: Vec<u8>) -> io::Result<String> {
/// let mut gz = GzDecoder::new(&bytes[..]);
/// let mut s = String::new();
/// gz.read_to_string(&mut s)?;
/// Ok(s)
/// }
/// ```
#[derive(Debug)]
pub struct GzDecoder<R> {
inner: GzState,
header: Option<GzHeader>,
reader: CrcReader<deflate::bufread::DeflateDecoder<R>>,
multi: bool,
}
#[derive(Debug)]
pub enum GzHeaderParsingState {
Start,
Xlen,
Extra,
Filename,
Comment,
Crc,
}
#[derive(Debug)]
pub struct GzHeaderPartial {
buf: Vec<u8>,
state: GzHeaderParsingState,
flg: u8,
xlen: u16,
crc: Crc,
header: GzHeader,
}
impl GzHeaderPartial {
fn new() -> GzHeaderPartial {
GzHeaderPartial {
buf: Vec::with_capacity(10), // minimum header length
state: GzHeaderParsingState::Start,
flg: 0,
xlen: 0,
crc: Crc::new(),
header: GzHeader {
extra: None,
filename: None,
comment: None,
operating_system: 0,
mtime: 0,
},
}
}
pub fn take_header(self) -> GzHeader {
self.header
}
}
#[derive(Debug)]
enum GzState {
Header(GzHeaderPartial),
Body,
Finished(usize, [u8; 8]),
Err(io::Error),
End,
}
/// A small adapter which reads data originally from `buf` and then reads all
/// further data from `reader`. This will also buffer all data read from
/// `reader` into `buf` for reuse on a further call.
struct Buffer<'a, T: 'a> {
part: &'a mut GzHeaderPartial,
buf_cur: usize,
buf_max: usize,
reader: &'a mut T,
}
impl<'a, T> Buffer<'a, T> {
fn new(part: &'a mut GzHeaderPartial, reader: &'a mut T) -> Buffer<'a, T> {
Buffer {
reader,
buf_cur: 0,
buf_max: part.buf.len(),
part,
}
}
}
impl<'a, T: Read> Read for Buffer<'a, T> {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
let mut bufref = match self.part.state {
GzHeaderParsingState::Filename => self.part.header.filename.as_mut(),
GzHeaderParsingState::Comment => self.part.header.comment.as_mut(),
_ => None,
};
if let Some(ref mut b) = bufref {
// we have a direct reference to a buffer where to write
let len = self.reader.read(buf)?;
if len > 0 && buf[len - 1] == 0 {
// we do not append the final 0
b.extend_from_slice(&buf[..len - 1]);
} else {
b.extend_from_slice(&buf[..len]);
}
self.part.crc.update(&buf[..len]);
Ok(len)
} else if self.buf_cur == self.buf_max {
// we read new bytes and also save them in self.part.buf
let len = self.reader.read(buf)?;
self.part.buf.extend_from_slice(&buf[..len]);
self.part.crc.update(&buf[..len]);
Ok(len)
} else {
// we first read the previously saved bytes
let len = (&self.part.buf[self.buf_cur..self.buf_max]).read(buf)?;
self.buf_cur += len;
Ok(len)
}
}
}
impl<'a, T> Buffer<'a, T>
where
T: std::io::Read,
{
// If we manage to read all the bytes, we reset the buffer
fn read_and_forget(&mut self, buf: &mut [u8]) -> io::Result<usize> {
self.read_exact(buf)?;
// we managed to read the whole buf
// we will no longer need the previously saved bytes in self.part.buf
let rlen = buf.len();
self.part.buf.truncate(0);
self.buf_cur = 0;
self.buf_max = 0;
Ok(rlen)
}
}
impl<R: BufRead> GzDecoder<R> {
/// Creates a new decoder from the given reader, immediately parsing the
/// gzip header.
pub fn new(mut r: R) -> GzDecoder<R> {
let mut part = GzHeaderPartial::new();
let mut header = None;
let result = {
let mut reader = Buffer::new(&mut part, &mut r);
read_gz_header_part(&mut reader)
};
let state = match result {
Ok(()) => {
header = Some(part.take_header());
GzState::Body
}
Err(ref err) if io::ErrorKind::WouldBlock == err.kind() => GzState::Header(part),
Err(err) => GzState::Err(err),
};
GzDecoder {
inner: state,
reader: CrcReader::new(deflate::bufread::DeflateDecoder::new(r)),
multi: false,
header,
}
}
fn multi(mut self, flag: bool) -> GzDecoder<R> {
self.multi = flag;
self
}
}
impl<R> GzDecoder<R> {
/// Returns the header associated with this stream, if it was valid
pub fn header(&self) -> Option<&GzHeader> {
self.header.as_ref()
}
/// Acquires a reference to the underlying reader.
pub fn get_ref(&self) -> &R {
self.reader.get_ref().get_ref()
}
/// Acquires a mutable reference to the underlying stream.
///
/// Note that mutation of the stream may result in surprising results if
/// this encoder is continued to be used.
pub fn get_mut(&mut self) -> &mut R {
self.reader.get_mut().get_mut()
}
/// Consumes this decoder, returning the underlying reader.
pub fn into_inner(self) -> R {
self.reader.into_inner().into_inner()
}
}
impl<R: BufRead> Read for GzDecoder<R> {
fn read(&mut self, into: &mut [u8]) -> io::Result<usize> {
let GzDecoder {
inner,
header,
reader,
multi,
} = self;
loop {
*inner = match mem::replace(inner, GzState::End) {
GzState::Header(mut part) => {
let result = {
let mut reader = Buffer::new(&mut part, reader.get_mut().get_mut());
read_gz_header_part(&mut reader)
};
match result {
Ok(()) => {
*header = Some(part.take_header());
GzState::Body
}
Err(err) if io::ErrorKind::WouldBlock == err.kind() => {
*inner = GzState::Header(part);
return Err(err);
}
Err(err) => return Err(err),
}
}
GzState::Body => {
if into.is_empty() {
*inner = GzState::Body;
return Ok(0);
}
let n = reader.read(into).map_err(|err| {
if io::ErrorKind::WouldBlock == err.kind() {
*inner = GzState::Body;
}
err
})?;
match n {
0 => GzState::Finished(0, [0; 8]),
n => {
*inner = GzState::Body;
return Ok(n);
}
}
}
GzState::Finished(pos, mut buf) => {
if pos < buf.len() {
let n = reader
.get_mut()
.get_mut()
.read(&mut buf[pos..])
.and_then(|n| {
if n == 0 {
Err(io::ErrorKind::UnexpectedEof.into())
} else {
Ok(n)
}
})
.map_err(|err| {
if io::ErrorKind::WouldBlock == err.kind() {
*inner = GzState::Finished(pos, buf);
}
err
})?;
GzState::Finished(pos + n, buf)
} else {
let (crc, amt) = finish(&buf);
if crc != reader.crc().sum() || amt != reader.crc().amount() {
return Err(corrupt());
} else if *multi {
let is_eof = reader
.get_mut()
.get_mut()
.fill_buf()
.map(|buf| buf.is_empty())
.map_err(|err| {
if io::ErrorKind::WouldBlock == err.kind() {
*inner = GzState::Finished(pos, buf);
}
err
})?;
if is_eof {
GzState::End
} else {
reader.reset();
reader.get_mut().reset_data();
header.take();
GzState::Header(GzHeaderPartial::new())
}
} else {
GzState::End
}
}
}
GzState::Err(err) => return Err(err),
GzState::End => return Ok(0),
};
}
}
}
impl<R: BufRead + Write> Write for GzDecoder<R> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.get_mut().write(buf)
}
fn flush(&mut self) -> io::Result<()> {
self.get_mut().flush()
}
}
/// A gzip streaming decoder that decodes all members of a multistream
///
/// A gzip member consists of a header, compressed data and a trailer. The [gzip
/// specification](https://tools.ietf.org/html/rfc1952), however, allows multiple
/// gzip members to be joined in a single stream. `MultiGzDecoder` will
/// decode all consecutive members while `GzDecoder` will only decompress
/// the first gzip member. The multistream format is commonly used in
/// bioinformatics, for example when using the BGZF compressed data.
///
/// This structure exposes a [`BufRead`] interface that will consume all gzip members
/// from the underlying reader and emit uncompressed data.
///
/// [`BufRead`]: https://doc.rust-lang.org/std/io/trait.BufRead.html
///
/// # Examples
///
/// ```
/// use std::io::prelude::*;
/// use std::io;
/// # use flate2::Compression;
/// # use flate2::write::GzEncoder;
/// use flate2::bufread::MultiGzDecoder;
///
/// # fn main() {
/// # let mut e = GzEncoder::new(Vec::new(), Compression::default());
/// # e.write_all(b"Hello World").unwrap();
/// # let bytes = e.finish().unwrap();
/// # println!("{}", decode_reader(bytes).unwrap());
/// # }
/// #
/// // Uncompresses a Gz Encoded vector of bytes and returns a string or error
/// // Here &[u8] implements BufRead
///
/// fn decode_reader(bytes: Vec<u8>) -> io::Result<String> {
/// let mut gz = MultiGzDecoder::new(&bytes[..]);
/// let mut s = String::new();
/// gz.read_to_string(&mut s)?;
/// Ok(s)
/// }
/// ```
#[derive(Debug)]
pub struct MultiGzDecoder<R>(GzDecoder<R>);
impl<R: BufRead> MultiGzDecoder<R> {
/// Creates a new decoder from the given reader, immediately parsing the
/// (first) gzip header. If the gzip stream contains multiple members all will
/// be decoded.
pub fn new(r: R) -> MultiGzDecoder<R> {
MultiGzDecoder(GzDecoder::new(r).multi(true))
}
}
impl<R> MultiGzDecoder<R> {
/// Returns the current header associated with this stream, if it's valid
pub fn header(&self) -> Option<&GzHeader> {
self.0.header()
}
/// Acquires a reference to the underlying reader.
pub fn get_ref(&self) -> &R {
self.0.get_ref()
}
/// Acquires a mutable reference to the underlying stream.
///
/// Note that mutation of the stream may result in surprising results if
/// this encoder is continued to be used.
pub fn get_mut(&mut self) -> &mut R {
self.0.get_mut()
}
/// Consumes this decoder, returning the underlying reader.
pub fn into_inner(self) -> R {
self.0.into_inner()
}
}
impl<R: BufRead> Read for MultiGzDecoder<R> {
fn read(&mut self, into: &mut [u8]) -> io::Result<usize> {
self.0.read(into)
}
}
#[cfg(test)]
pub mod tests {
use crate::gz::bufread::*;
use std::io;
use std::io::{Cursor, Read, Write};
//a cursor turning EOF into blocking errors
#[derive(Debug)]
pub struct BlockingCursor {
pub cursor: Cursor<Vec<u8>>,
}
impl BlockingCursor {
pub fn new() -> BlockingCursor {
BlockingCursor {
cursor: Cursor::new(Vec::new()),
}
}
pub fn set_position(&mut self, pos: u64) {
return self.cursor.set_position(pos);
}
pub fn position(&mut self) -> u64 {
return self.cursor.position();
}
}
impl Write for BlockingCursor {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
return self.cursor.write(buf);
}
fn flush(&mut self) -> io::Result<()> {
return self.cursor.flush();
}
}
impl Read for BlockingCursor {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
//use the cursor, except it turns eof into blocking error
let r = self.cursor.read(buf);
match r {
Err(ref err) => {
if err.kind() == io::ErrorKind::UnexpectedEof {
return Err(io::ErrorKind::WouldBlock.into());
}
}
Ok(0) => {
//regular EOF turned into blocking error
return Err(io::ErrorKind::WouldBlock.into());
}
Ok(_n) => {}
}
return r;
}
}
#[test]
// test function read_and_forget of Buffer
fn buffer_read_and_forget() {
// this is unused except for the buffering
let mut part = GzHeaderPartial::new();
// this is a reader which receives data afterwards
let mut r = BlockingCursor::new();
let data = vec![1, 2, 3];
let mut out = Vec::with_capacity(7);
match r.write_all(&data) {
Ok(()) => {}
_ => {
panic!("Unexpected result for write_all");
}
}
r.set_position(0);
// First read : successful for one byte
let mut reader = Buffer::new(&mut part, &mut r);
out.resize(1, 0);
match reader.read_and_forget(&mut out) {
Ok(1) => {}
_ => {
panic!("Unexpected result for read_and_forget with data");
}
}
// Second read : incomplete for 7 bytes (we have only 2)
out.resize(7, 0);
match reader.read_and_forget(&mut out) {
Err(ref err) => {
assert_eq!(io::ErrorKind::WouldBlock, err.kind());
}
_ => {
panic!("Unexpected result for read_and_forget with incomplete");
}
}
// 3 more data bytes have arrived
let pos = r.position();
let data2 = vec![4, 5, 6];
match r.write_all(&data2) {
Ok(()) => {}
_ => {
panic!("Unexpected result for write_all");
}
}
r.set_position(pos);
// Third read : still incomplete for 7 bytes (we have 5)
let mut reader2 = Buffer::new(&mut part, &mut r);
match reader2.read_and_forget(&mut out) {
Err(ref err) => {
assert_eq!(io::ErrorKind::WouldBlock, err.kind());
}
_ => {
panic!("Unexpected result for read_and_forget with more incomplete");
}
}
// 3 more data bytes have arrived again
let pos2 = r.position();
let data3 = vec![7, 8, 9];
match r.write_all(&data3) {
Ok(()) => {}
_ => {
panic!("Unexpected result for write_all");
}
}
r.set_position(pos2);
// Fourth read : now successful for 7 bytes
let mut reader3 = Buffer::new(&mut part, &mut r);
match reader3.read_and_forget(&mut out) {
Ok(7) => {
assert_eq!(out[0], 2);
assert_eq!(out[6], 8);
}
_ => {
panic!("Unexpected result for read_and_forget with data");
}
}
// Fifth read : successful for one more byte
out.resize(1, 0);
match reader3.read_and_forget(&mut out) {
Ok(1) => {
assert_eq!(out[0], 9);
}
_ => {
panic!("Unexpected result for read_and_forget with data");
}
}
}
}