use std::ffi::CString; use std::io::prelude::*; use std::time; use crate::bufreader::BufReader; use crate::Compression; pub static FHCRC: u8 = 1 << 1; pub static FEXTRA: u8 = 1 << 2; pub static FNAME: u8 = 1 << 3; pub static FCOMMENT: u8 = 1 << 4; pub mod bufread; pub mod read; pub mod write; /// A structure representing the header of a gzip stream. /// /// The header can contain metadata about the file that was compressed, if /// present. #[derive(PartialEq, Clone, Debug, Default)] pub struct GzHeader { extra: Option>, filename: Option>, comment: Option>, operating_system: u8, mtime: u32, } impl GzHeader { /// Returns the `filename` field of this gzip stream's header, if present. pub fn filename(&self) -> Option<&[u8]> { self.filename.as_ref().map(|s| &s[..]) } /// Returns the `extra` field of this gzip stream's header, if present. pub fn extra(&self) -> Option<&[u8]> { self.extra.as_ref().map(|s| &s[..]) } /// Returns the `comment` field of this gzip stream's header, if present. pub fn comment(&self) -> Option<&[u8]> { self.comment.as_ref().map(|s| &s[..]) } /// Returns the `operating_system` field of this gzip stream's header. /// /// There are predefined values for various operating systems. /// 255 means that the value is unknown. pub fn operating_system(&self) -> u8 { self.operating_system } /// This gives the most recent modification time of the original file being compressed. /// /// The time is in Unix format, i.e., seconds since 00:00:00 GMT, Jan. 1, 1970. /// (Note that this may cause problems for MS-DOS and other systems that use local /// rather than Universal time.) If the compressed data did not come from a file, /// `mtime` is set to the time at which compression started. /// `mtime` = 0 means no time stamp is available. /// /// The usage of `mtime` is discouraged because of Year 2038 problem. pub fn mtime(&self) -> u32 { self.mtime } /// Returns the most recent modification time represented by a date-time type. /// Returns `None` if the value of the underlying counter is 0, /// indicating no time stamp is available. /// /// /// The time is measured as seconds since 00:00:00 GMT, Jan. 1 1970. /// See [`mtime`](#method.mtime) for more detail. pub fn mtime_as_datetime(&self) -> Option { if self.mtime == 0 { None } else { let duration = time::Duration::new(u64::from(self.mtime), 0); let datetime = time::UNIX_EPOCH + duration; Some(datetime) } } } /// A builder structure to create a new gzip Encoder. /// /// This structure controls header configuration options such as the filename. /// /// # Examples /// /// ``` /// use std::io::prelude::*; /// # use std::io; /// use std::fs::File; /// use flate2::GzBuilder; /// use flate2::Compression; /// /// // GzBuilder opens a file and writes a sample string using GzBuilder pattern /// /// # fn sample_builder() -> Result<(), io::Error> { /// let f = File::create("examples/hello_world.gz")?; /// let mut gz = GzBuilder::new() /// .filename("hello_world.txt") /// .comment("test file, please delete") /// .write(f, Compression::default()); /// gz.write_all(b"hello world")?; /// gz.finish()?; /// # Ok(()) /// # } /// ``` #[derive(Debug)] pub struct GzBuilder { extra: Option>, filename: Option, comment: Option, operating_system: Option, mtime: u32, } impl Default for GzBuilder { fn default() -> Self { Self::new() } } impl GzBuilder { /// Create a new blank builder with no header by default. pub fn new() -> GzBuilder { GzBuilder { extra: None, filename: None, comment: None, operating_system: None, mtime: 0, } } /// Configure the `mtime` field in the gzip header. pub fn mtime(mut self, mtime: u32) -> GzBuilder { self.mtime = mtime; self } /// Configure the `operating_system` field in the gzip header. pub fn operating_system(mut self, os: u8) -> GzBuilder { self.operating_system = Some(os); self } /// Configure the `extra` field in the gzip header. pub fn extra>>(mut self, extra: T) -> GzBuilder { self.extra = Some(extra.into()); self } /// Configure the `filename` field in the gzip header. /// /// # Panics /// /// Panics if the `filename` slice contains a zero. pub fn filename>>(mut self, filename: T) -> GzBuilder { self.filename = Some(CString::new(filename.into()).unwrap()); self } /// Configure the `comment` field in the gzip header. /// /// # Panics /// /// Panics if the `comment` slice contains a zero. pub fn comment>>(mut self, comment: T) -> GzBuilder { self.comment = Some(CString::new(comment.into()).unwrap()); self } /// Consume this builder, creating a writer encoder in the process. /// /// The data written to the returned encoder will be compressed and then /// written out to the supplied parameter `w`. pub fn write(self, w: W, lvl: Compression) -> write::GzEncoder { write::gz_encoder(self.into_header(lvl), w, lvl) } /// Consume this builder, creating a reader encoder in the process. /// /// Data read from the returned encoder will be the compressed version of /// the data read from the given reader. pub fn read(self, r: R, lvl: Compression) -> read::GzEncoder { read::gz_encoder(self.buf_read(BufReader::new(r), lvl)) } /// Consume this builder, creating a reader encoder in the process. /// /// Data read from the returned encoder will be the compressed version of /// the data read from the given reader. pub fn buf_read(self, r: R, lvl: Compression) -> bufread::GzEncoder where R: BufRead, { bufread::gz_encoder(self.into_header(lvl), r, lvl) } fn into_header(self, lvl: Compression) -> Vec { let GzBuilder { extra, filename, comment, operating_system, mtime, } = self; let mut flg = 0; let mut header = vec![0u8; 10]; if let Some(v) = extra { flg |= FEXTRA; header.push((v.len() >> 0) as u8); header.push((v.len() >> 8) as u8); header.extend(v); } if let Some(filename) = filename { flg |= FNAME; header.extend(filename.as_bytes_with_nul().iter().map(|x| *x)); } if let Some(comment) = comment { flg |= FCOMMENT; header.extend(comment.as_bytes_with_nul().iter().map(|x| *x)); } header[0] = 0x1f; header[1] = 0x8b; header[2] = 8; header[3] = flg; header[4] = (mtime >> 0) as u8; header[5] = (mtime >> 8) as u8; header[6] = (mtime >> 16) as u8; header[7] = (mtime >> 24) as u8; header[8] = if lvl.0 >= Compression::best().0 { 2 } else if lvl.0 <= Compression::fast().0 { 4 } else { 0 }; // Typically this byte indicates what OS the gz stream was created on, // but in an effort to have cross-platform reproducible streams just // default this value to 255. I'm not sure that if we "correctly" set // this it'd do anything anyway... header[9] = operating_system.unwrap_or(255); header } } #[cfg(test)] mod tests { use std::io::prelude::*; use super::{read, write, GzBuilder}; use crate::Compression; use rand::{thread_rng, Rng}; #[test] fn roundtrip() { let mut e = write::GzEncoder::new(Vec::new(), Compression::default()); e.write_all(b"foo bar baz").unwrap(); let inner = e.finish().unwrap(); let mut d = read::GzDecoder::new(&inner[..]); let mut s = String::new(); d.read_to_string(&mut s).unwrap(); assert_eq!(s, "foo bar baz"); } #[test] fn roundtrip_zero() { let e = write::GzEncoder::new(Vec::new(), Compression::default()); let inner = e.finish().unwrap(); let mut d = read::GzDecoder::new(&inner[..]); let mut s = String::new(); d.read_to_string(&mut s).unwrap(); assert_eq!(s, ""); } #[test] fn roundtrip_big() { let mut real = Vec::new(); let mut w = write::GzEncoder::new(Vec::new(), Compression::default()); let v = crate::random_bytes().take(1024).collect::>(); for _ in 0..200 { let to_write = &v[..thread_rng().gen_range(0..v.len())]; real.extend(to_write.iter().map(|x| *x)); w.write_all(to_write).unwrap(); } let result = w.finish().unwrap(); let mut r = read::GzDecoder::new(&result[..]); let mut v = Vec::new(); r.read_to_end(&mut v).unwrap(); assert!(v == real); } #[test] fn roundtrip_big2() { let v = crate::random_bytes().take(1024 * 1024).collect::>(); let mut r = read::GzDecoder::new(read::GzEncoder::new(&v[..], Compression::default())); let mut res = Vec::new(); r.read_to_end(&mut res).unwrap(); assert!(res == v); } #[test] fn fields() { let r = vec![0, 2, 4, 6]; let e = GzBuilder::new() .filename("foo.rs") .comment("bar") .extra(vec![0, 1, 2, 3]) .read(&r[..], Compression::default()); let mut d = read::GzDecoder::new(e); assert_eq!(d.header().unwrap().filename(), Some(&b"foo.rs"[..])); assert_eq!(d.header().unwrap().comment(), Some(&b"bar"[..])); assert_eq!(d.header().unwrap().extra(), Some(&b"\x00\x01\x02\x03"[..])); let mut res = Vec::new(); d.read_to_end(&mut res).unwrap(); assert_eq!(res, vec![0, 2, 4, 6]); } #[test] fn keep_reading_after_end() { let mut e = write::GzEncoder::new(Vec::new(), Compression::default()); e.write_all(b"foo bar baz").unwrap(); let inner = e.finish().unwrap(); let mut d = read::GzDecoder::new(&inner[..]); let mut s = String::new(); d.read_to_string(&mut s).unwrap(); assert_eq!(s, "foo bar baz"); d.read_to_string(&mut s).unwrap(); assert_eq!(s, "foo bar baz"); } #[test] fn qc_reader() { ::quickcheck::quickcheck(test as fn(_) -> _); fn test(v: Vec) -> bool { let r = read::GzEncoder::new(&v[..], Compression::default()); let mut r = read::GzDecoder::new(r); let mut v2 = Vec::new(); r.read_to_end(&mut v2).unwrap(); v == v2 } } #[test] fn flush_after_write() { let mut f = write::GzEncoder::new(Vec::new(), Compression::default()); write!(f, "Hello world").unwrap(); f.flush().unwrap(); } use crate::gz::bufread::tests::BlockingCursor; #[test] // test function read_and_forget of Buffer fn blocked_partial_header_read() { // this is a reader which receives data afterwards let mut r = BlockingCursor::new(); let data = vec![1, 2, 3]; match r.write_all(&data) { Ok(()) => {} _ => { panic!("Unexpected result for write_all"); } } r.set_position(0); // this is unused except for the buffering let mut decoder = read::GzDecoder::new(r); let mut out = Vec::with_capacity(7); match decoder.read(&mut out) { Err(e) => { assert_eq!(e.kind(), std::io::ErrorKind::WouldBlock); } _ => { panic!("Unexpected result for decoder.read"); } } } }