async_compression_issue_150_workaround/codec/gzip/
decoder.rs1use crate::{
2 codec::{
3 gzip::header::{self, Header},
4 Decode,
5 },
6 util::PartialBuffer,
7};
8use std::io::{Error, ErrorKind, Result};
9
10use flate2::Crc;
11
12#[derive(Debug)]
13enum State {
14 Header(header::Parser),
15 Decoding,
16 Footer(PartialBuffer<Vec<u8>>),
17 Done,
18}
19
20#[derive(Debug)]
21pub struct GzipDecoder {
22 inner: crate::codec::FlateDecoder,
23 crc: Crc,
24 state: State,
25 header: Header,
26}
27
28fn check_footer(crc: &Crc, input: &[u8]) -> Result<()> {
29 if input.len() < 8 {
30 return Err(Error::new(
31 ErrorKind::InvalidData,
32 "Invalid gzip footer length",
33 ));
34 }
35
36 let crc_sum = crc.sum().to_le_bytes();
37 let bytes_read = crc.amount().to_le_bytes();
38
39 if crc_sum != input[0..4] {
40 return Err(Error::new(
41 ErrorKind::InvalidData,
42 "CRC computed does not match",
43 ));
44 }
45
46 if bytes_read != input[4..8] {
47 return Err(Error::new(
48 ErrorKind::InvalidData,
49 "amount of bytes read does not match",
50 ));
51 }
52
53 Ok(())
54}
55
56impl GzipDecoder {
57 pub fn new() -> Self {
58 Self {
59 inner: crate::codec::FlateDecoder::new(false),
60 crc: Crc::new(),
61 state: State::Header(header::Parser::default()),
62 header: Header::default(),
63 }
64 }
65
66 fn process<I: AsRef<[u8]>, O: AsRef<[u8]> + AsMut<[u8]>>(
67 &mut self,
68 input: &mut PartialBuffer<I>,
69 output: &mut PartialBuffer<O>,
70 inner: impl Fn(&mut Self, &mut PartialBuffer<I>, &mut PartialBuffer<O>) -> Result<bool>,
71 ) -> Result<bool> {
72 loop {
73 match &mut self.state {
74 State::Header(parser) => {
75 if let Some(header) = parser.input(input)? {
76 self.header = header;
77 self.state = State::Decoding;
78 }
79 }
80
81 State::Decoding => {
82 let prior = output.written().len();
83 let done = inner(self, input, output)?;
84 self.crc.update(&output.written()[prior..]);
85 if done {
86 self.state = State::Footer(vec![0; 8].into())
87 }
88 }
89
90 State::Footer(footer) => {
91 footer.copy_unwritten_from(input);
92
93 if footer.unwritten().is_empty() {
94 check_footer(&self.crc, footer.written())?;
95 self.state = State::Done
96 }
97 }
98
99 State::Done => {}
100 };
101
102 if let State::Done = self.state {
103 return Ok(true);
104 }
105
106 if input.unwritten().is_empty() || output.unwritten().is_empty() {
107 return Ok(false);
108 }
109 }
110 }
111}
112
113impl Decode for GzipDecoder {
114 fn reinit(&mut self) -> Result<()> {
115 self.inner.reinit()?;
116 self.crc = Crc::new();
117 self.state = State::Header(header::Parser::default());
118 self.header = Header::default();
119 Ok(())
120 }
121
122 fn decode(
123 &mut self,
124 input: &mut PartialBuffer<impl AsRef<[u8]>>,
125 output: &mut PartialBuffer<impl AsRef<[u8]> + AsMut<[u8]>>,
126 ) -> Result<bool> {
127 self.process(input, output, |this, input, output| {
128 this.inner.decode(input, output)
129 })
130 }
131
132 fn flush(
133 &mut self,
134 output: &mut PartialBuffer<impl AsRef<[u8]> + AsMut<[u8]>>,
135 ) -> Result<bool> {
136 loop {
137 match self.state {
138 State::Header(_) | State::Footer(_) | State::Done => return Ok(true),
139
140 State::Decoding => {
141 let prior = output.written().len();
142 let done = self.inner.flush(output)?;
143 self.crc.update(&output.written()[prior..]);
144 if done {
145 return Ok(true);
146 }
147 }
148 };
149
150 if output.unwritten().is_empty() {
151 return Ok(false);
152 }
153 }
154 }
155
156 fn finish(
157 &mut self,
158 _output: &mut PartialBuffer<impl AsRef<[u8]> + AsMut<[u8]>>,
159 ) -> Result<bool> {
160 if let State::Done = self.state {
162 Ok(true)
163 } else {
164 Err(Error::new(
165 ErrorKind::UnexpectedEof,
166 "unexpected end of file",
167 ))
168 }
169 }
170}