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use std::error::Error; use std::cmp; use std::fmt; use std::io; use std::marker; use std::slice; use libc::{c_int, c_uint}; use ffi; use Compression; /// Raw in-memory compression stream for blocks of data. /// /// This type is the building block for the I/O streams in the rest of this /// crate. It requires more management than the [`Read`]/[`Write`] API but is /// maximally flexible in terms of accepting input from any source and being /// able to produce output to any memory location. /// /// It is recommended to use the I/O stream adaptors over this type as they're /// easier to use. /// /// [`Read`]: https://doc.rust-lang.org/std/io/trait.Read.html /// [`Write`]: https://doc.rust-lang.org/std/io/trait.Write.html #[derive(Debug)] pub struct Compress { inner: Stream<DirCompress>, } /// Raw in-memory decompression stream for blocks of data. /// /// This type is the building block for the I/O streams in the rest of this /// crate. It requires more management than the [`Read`]/[`Write`] API but is /// maximally flexible in terms of accepting input from any source and being /// able to produce output to any memory location. /// /// It is recommended to use the I/O stream adaptors over this type as they're /// easier to use. /// /// [`Read`]: https://doc.rust-lang.org/std/io/trait.Read.html /// [`Write`]: https://doc.rust-lang.org/std/io/trait.Write.html #[derive(Debug)] pub struct Decompress { inner: Stream<DirDecompress>, } #[derive(Debug)] struct Stream<D: Direction> { stream_wrapper: ffi::StreamWrapper, total_in: u64, total_out: u64, _marker: marker::PhantomData<D>, } unsafe impl<D: Direction> Send for Stream<D> {} unsafe impl<D: Direction> Sync for Stream<D> {} trait Direction { unsafe fn destroy(stream: *mut ffi::mz_stream) -> c_int; } #[derive(Debug)] enum DirCompress {} #[derive(Debug)] enum DirDecompress {} #[derive(Copy, Clone, PartialEq, Eq, Debug)] /// Values which indicate the form of flushing to be used when compressing /// in-memory data. pub enum FlushCompress { /// A typical parameter for passing to compression/decompression functions, /// this indicates that the underlying stream to decide how much data to /// accumulate before producing output in order to maximize compression. None = ffi::MZ_NO_FLUSH as isize, /// All pending output is flushed to the output buffer and the output is /// aligned on a byte boundary so that the decompressor can get all input /// data available so far. /// /// Flushing may degrade compression for some compression algorithms and so /// it should only be used when necessary. This will complete the current /// deflate block and follow it with an empty stored block. Sync = ffi::MZ_SYNC_FLUSH as isize, /// All pending output is flushed to the output buffer, but the output is /// not aligned to a byte boundary. /// /// All of the input data so far will be available to the decompressor (as /// with `Flush::Sync`. This completes the current deflate block and follows /// it with an empty fixed codes block that is 10 bites long, and it assures /// that enough bytes are output in order for the decompessor to finish the /// block before the empty fixed code block. Partial = ffi::MZ_PARTIAL_FLUSH as isize, /// All output is flushed as with `Flush::Sync` and the compression state is /// reset so decompression can restart from this point if previous /// compressed data has been damaged or if random access is desired. /// /// Using this option too often can seriously degrade compression. Full = ffi::MZ_FULL_FLUSH as isize, /// Pending input is processed and pending output is flushed. /// /// The return value may indicate that the stream is not yet done and more /// data has yet to be processed. Finish = ffi::MZ_FINISH as isize, #[doc(hidden)] _Nonexhaustive, } #[derive(Copy, Clone, PartialEq, Eq, Debug)] /// Values which indicate the form of flushing to be used when /// decompressing in-memory data. pub enum FlushDecompress { /// A typical parameter for passing to compression/decompression functions, /// this indicates that the underlying stream to decide how much data to /// accumulate before producing output in order to maximize compression. None = ffi::MZ_NO_FLUSH as isize, /// All pending output is flushed to the output buffer and the output is /// aligned on a byte boundary so that the decompressor can get all input /// data available so far. /// /// Flushing may degrade compression for some compression algorithms and so /// it should only be used when necessary. This will complete the current /// deflate block and follow it with an empty stored block. Sync = ffi::MZ_SYNC_FLUSH as isize, /// Pending input is processed and pending output is flushed. /// /// The return value may indicate that the stream is not yet done and more /// data has yet to be processed. Finish = ffi::MZ_FINISH as isize, #[doc(hidden)] _Nonexhaustive, } /// The inner state for an error when decompressing #[derive(Debug, Default)] struct DecompressErrorInner { needs_dictionary: Option<u32>, } /// Error returned when a decompression object finds that the input stream of /// bytes was not a valid input stream of bytes. #[derive(Debug)] pub struct DecompressError(DecompressErrorInner); impl DecompressError { /// Indicates whether decompression failed due to requiring a dictionary. /// /// The resulting integer is the Adler-32 checksum of the dictionary /// required. pub fn needs_dictionary(&self) -> Option<u32> { self.0.needs_dictionary } } /// Error returned when a compression object is used incorrectly or otherwise /// generates an error. #[derive(Debug)] pub struct CompressError(()); /// Possible status results of compressing some data or successfully /// decompressing a block of data. #[derive(Copy, Clone, PartialEq, Eq, Debug)] pub enum Status { /// Indicates success. /// /// Means that more input may be needed but isn't available /// and/or there's more output to be written but the output buffer is full. Ok, /// Indicates that forward progress is not possible due to input or output /// buffers being empty. /// /// For compression it means the input buffer needs some more data or the /// output buffer needs to be freed up before trying again. /// /// For decompression this means that more input is needed to continue or /// the output buffer isn't large enough to contain the result. The function /// can be called again after fixing both. BufError, /// Indicates that all input has been consumed and all output bytes have /// been written. Decompression/compression should not be called again. /// /// For decompression with zlib streams the adler-32 of the decompressed /// data has also been verified. StreamEnd, } impl Compress { /// Creates a new object ready for compressing data that it's given. /// /// The `level` argument here indicates what level of compression is going /// to be performed, and the `zlib_header` argument indicates whether the /// output data should have a zlib header or not. pub fn new(level: Compression, zlib_header: bool) -> Compress { Compress::make(level, zlib_header, ffi::MZ_DEFAULT_WINDOW_BITS as u8) } /// Creates a new object ready for compressing data that it's given. /// /// The `level` argument here indicates what level of compression is going /// to be performed, and the `zlib_header` argument indicates whether the /// output data should have a zlib header or not. The `window_bits` parameter /// indicates the base-2 logarithm of the sliding window size and must be /// between 9 and 15. /// /// # Panics /// /// If `window_bits` does not fall into the range 9 ..= 15, /// `new_with_window_bits` will panic. /// /// # Note /// /// This constructor is only available when the `zlib` feature is used. /// Other backends currently do not support custom window bits. #[cfg(feature = "zlib")] pub fn new_with_window_bits(level: Compression, zlib_header: bool, window_bits: u8) -> Compress { Compress::make(level, zlib_header, window_bits) } fn make(level: Compression, zlib_header: bool, window_bits: u8) -> Compress { assert!(window_bits > 8 && window_bits < 16, "window_bits must be within 9 ..= 15"); unsafe { let mut state = ffi::StreamWrapper::default(); let ret = ffi::mz_deflateInit2( &mut *state, level.0 as c_int, ffi::MZ_DEFLATED, if zlib_header { window_bits as c_int } else { -(window_bits as c_int) }, 9, ffi::MZ_DEFAULT_STRATEGY, ); assert_eq!(ret, 0); Compress { inner: Stream { stream_wrapper: state, total_in: 0, total_out: 0, _marker: marker::PhantomData, }, } } } /// Returns the total number of input bytes which have been processed by /// this compression object. pub fn total_in(&self) -> u64 { self.inner.total_in } /// Returns the total number of output bytes which have been produced by /// this compression object. pub fn total_out(&self) -> u64 { self.inner.total_out } /// Specifies the compression dictionary to use. /// /// Returns the Adler-32 checksum of the dictionary. #[cfg(feature = "zlib")] pub fn set_dictionary(&mut self, dictionary: &[u8]) -> Result<u32, CompressError> { let stream = &mut *self.inner.stream_wrapper; let rc = unsafe { assert!(dictionary.len() < ffi::uInt::max_value() as usize); ffi::deflateSetDictionary(stream, dictionary.as_ptr(), dictionary.len() as ffi::uInt) }; match rc { ffi::MZ_STREAM_ERROR => Err(CompressError(())), ffi::MZ_OK => Ok(stream.adler as u32), c => panic!("unknown return code: {}", c), } } /// Quickly resets this compressor without having to reallocate anything. /// /// This is equivalent to dropping this object and then creating a new one. pub fn reset(&mut self) { let rc = unsafe { ffi::mz_deflateReset(&mut *self.inner.stream_wrapper) }; assert_eq!(rc, ffi::MZ_OK); self.inner.total_in = 0; self.inner.total_out = 0; } /// Dynamically updates the compression level. /// /// This can be used to switch between compression levels for different /// kinds of data, or it can be used in conjunction with a call to reset /// to reuse the compressor. /// /// This may return an error if there wasn't enough output space to complete /// the compression of the available input data before changing the /// compression level. Flushing the stream before calling this method /// ensures that the function will succeed on the first call. #[cfg(feature = "zlib")] pub fn set_level(&mut self, level: Compression) -> Result<(), CompressError> { let stream = &mut *self.inner.stream_wrapper; let rc = unsafe { ffi::deflateParams(stream, level.0 as c_int, ffi::MZ_DEFAULT_STRATEGY) }; match rc { ffi::MZ_OK => Ok(()), ffi::MZ_BUF_ERROR => Err(CompressError(())), c => panic!("unknown return code: {}", c), } } /// Compresses the input data into the output, consuming only as much /// input as needed and writing as much output as possible. /// /// The flush option can be any of the available `FlushCompress` parameters. /// /// To learn how much data was consumed or how much output was produced, use /// the `total_in` and `total_out` functions before/after this is called. pub fn compress( &mut self, input: &[u8], output: &mut [u8], flush: FlushCompress, ) -> Result<Status, CompressError> { let raw = &mut *self.inner.stream_wrapper; raw.next_in = input.as_ptr() as *mut _; raw.avail_in = cmp::min(input.len(), c_uint::max_value() as usize) as c_uint; raw.next_out = output.as_mut_ptr(); raw.avail_out = cmp::min(output.len(), c_uint::max_value() as usize) as c_uint; let rc = unsafe { ffi::mz_deflate(raw, flush as c_int) }; // Unfortunately the total counters provided by zlib might be only // 32 bits wide and overflow while processing large amounts of data. self.inner.total_in += (raw.next_in as usize - input.as_ptr() as usize) as u64; self.inner.total_out += (raw.next_out as usize - output.as_ptr() as usize) as u64; match rc { ffi::MZ_OK => Ok(Status::Ok), ffi::MZ_BUF_ERROR => Ok(Status::BufError), ffi::MZ_STREAM_END => Ok(Status::StreamEnd), ffi::MZ_STREAM_ERROR => Err(CompressError(())), c => panic!("unknown return code: {}", c), } } /// Compresses the input data into the extra space of the output, consuming /// only as much input as needed and writing as much output as possible. /// /// This function has the same semantics as `compress`, except that the /// length of `vec` is managed by this function. This will not reallocate /// the vector provided or attempt to grow it, so space for the output must /// be reserved in the output vector by the caller before calling this /// function. pub fn compress_vec( &mut self, input: &[u8], output: &mut Vec<u8>, flush: FlushCompress, ) -> Result<Status, CompressError> { let cap = output.capacity(); let len = output.len(); unsafe { let before = self.total_out(); let ret = { let ptr = output.as_mut_ptr().offset(len as isize); let out = slice::from_raw_parts_mut(ptr, cap - len); self.compress(input, out, flush) }; output.set_len((self.total_out() - before) as usize + len); return ret; } } } impl Decompress { /// Creates a new object ready for decompressing data that it's given. /// /// The `zlib_header` argument indicates whether the input data is expected /// to have a zlib header or not. pub fn new(zlib_header: bool) -> Decompress { Decompress::make(zlib_header, ffi::MZ_DEFAULT_WINDOW_BITS as u8) } /// Creates a new object ready for decompressing data that it's given. /// /// The `zlib_header` argument indicates whether the input data is expected /// to have a zlib header or not. The `window_bits` parameter indicates the /// base-2 logarithm of the sliding window size and must be between 9 and 15. /// /// # Panics /// /// If `window_bits` does not fall into the range 9 ..= 15, /// `new_with_window_bits` will panic. /// /// # Note /// /// This constructor is only available when the `zlib` feature is used. /// Other backends currently do not support custom window bits. #[cfg(feature = "zlib")] pub fn new_with_window_bits(zlib_header: bool, window_bits: u8) -> Decompress { Decompress::make(zlib_header, window_bits) } fn make(zlib_header: bool, window_bits: u8) -> Decompress { assert!(window_bits > 8 && window_bits < 16, "window_bits must be within 9 ..= 15"); unsafe { let mut state = ffi::StreamWrapper::default(); let ret = ffi::mz_inflateInit2( &mut *state, if zlib_header { window_bits as c_int } else { -(window_bits as c_int) }, ); assert_eq!(ret, 0); Decompress { inner: Stream { stream_wrapper: state, total_in: 0, total_out: 0, _marker: marker::PhantomData, }, } } } /// Returns the total number of input bytes which have been processed by /// this decompression object. pub fn total_in(&self) -> u64 { self.inner.total_in } /// Returns the total number of output bytes which have been produced by /// this decompression object. pub fn total_out(&self) -> u64 { self.inner.total_out } /// Decompresses the input data into the output, consuming only as much /// input as needed and writing as much output as possible. /// /// The flush option can be any of the available `FlushDecompress` parameters. /// /// If the first call passes `FlushDecompress::Finish` it is assumed that /// the input and output buffers are both sized large enough to decompress /// the entire stream in a single call. /// /// A flush value of `FlushDecompress::Finish` indicates that there are no /// more source bytes available beside what's already in the input buffer, /// and the output buffer is large enough to hold the rest of the /// decompressed data. /// /// To learn how much data was consumed or how much output was produced, use /// the `total_in` and `total_out` functions before/after this is called. /// /// # Errors /// /// If the input data to this instance of `Decompress` is not a valid /// zlib/deflate stream then this function may return an instance of /// `DecompressError` to indicate that the stream of input bytes is corrupted. pub fn decompress( &mut self, input: &[u8], output: &mut [u8], flush: FlushDecompress, ) -> Result<Status, DecompressError> { let raw = &mut *self.inner.stream_wrapper; raw.next_in = input.as_ptr() as *mut u8; raw.avail_in = cmp::min(input.len(), c_uint::max_value() as usize) as c_uint; raw.next_out = output.as_mut_ptr(); raw.avail_out = cmp::min(output.len(), c_uint::max_value() as usize) as c_uint; let rc = unsafe { ffi::mz_inflate(raw, flush as c_int) }; // Unfortunately the total counters provided by zlib might be only // 32 bits wide and overflow while processing large amounts of data. self.inner.total_in += (raw.next_in as usize - input.as_ptr() as usize) as u64; self.inner.total_out += (raw.next_out as usize - output.as_ptr() as usize) as u64; match rc { ffi::MZ_DATA_ERROR | ffi::MZ_STREAM_ERROR => Err(DecompressError(Default::default())), ffi::MZ_OK => Ok(Status::Ok), ffi::MZ_BUF_ERROR => Ok(Status::BufError), ffi::MZ_STREAM_END => Ok(Status::StreamEnd), ffi::MZ_NEED_DICT => Err(DecompressError(DecompressErrorInner { needs_dictionary: Some(raw.adler as u32), })), c => panic!("unknown return code: {}", c), } } /// Decompresses the input data into the extra space in the output vector /// specified by `output`. /// /// This function has the same semantics as `decompress`, except that the /// length of `vec` is managed by this function. This will not reallocate /// the vector provided or attempt to grow it, so space for the output must /// be reserved in the output vector by the caller before calling this /// function. /// /// # Errors /// /// If the input data to this instance of `Decompress` is not a valid /// zlib/deflate stream then this function may return an instance of /// `DecompressError` to indicate that the stream of input bytes is corrupted. pub fn decompress_vec( &mut self, input: &[u8], output: &mut Vec<u8>, flush: FlushDecompress, ) -> Result<Status, DecompressError> { let cap = output.capacity(); let len = output.len(); unsafe { let before = self.total_out(); let ret = { let ptr = output.as_mut_ptr().offset(len as isize); let out = slice::from_raw_parts_mut(ptr, cap - len); self.decompress(input, out, flush) }; output.set_len((self.total_out() - before) as usize + len); return ret; } } /// Specifies the decompression dictionary to use. #[cfg(feature = "zlib")] pub fn set_dictionary(&mut self, dictionary: &[u8]) -> Result<u32, DecompressError> { let stream = &mut *self.inner.stream_wrapper; let rc = unsafe { assert!(dictionary.len() < ffi::uInt::max_value() as usize); ffi::inflateSetDictionary(stream, dictionary.as_ptr(), dictionary.len() as ffi::uInt) }; match rc { ffi::MZ_STREAM_ERROR => Err(DecompressError(Default::default())), ffi::MZ_DATA_ERROR => Err(DecompressError(DecompressErrorInner { needs_dictionary: Some(stream.adler as u32), })), ffi::MZ_OK => Ok(stream.adler as u32), c => panic!("unknown return code: {}", c), } } /// Performs the equivalent of replacing this decompression state with a /// freshly allocated copy. /// /// This function may not allocate memory, though, and attempts to reuse any /// previously existing resources. /// /// The argument provided here indicates whether the reset state will /// attempt to decode a zlib header first or not. pub fn reset(&mut self, zlib_header: bool) { self._reset(zlib_header); } #[cfg(feature = "zlib")] fn _reset(&mut self, zlib_header: bool) { let bits = if zlib_header { ffi::MZ_DEFAULT_WINDOW_BITS } else { -ffi::MZ_DEFAULT_WINDOW_BITS }; unsafe { ffi::inflateReset2(&mut *self.inner.stream_wrapper, bits); } self.inner.total_out = 0; self.inner.total_in = 0; } #[cfg(not(feature = "zlib"))] fn _reset(&mut self, zlib_header: bool) { *self = Decompress::new(zlib_header); } } impl Error for DecompressError { fn description(&self) -> &str { "deflate decompression error" } } impl From<DecompressError> for io::Error { fn from(data: DecompressError) -> io::Error { io::Error::new(io::ErrorKind::Other, data) } } impl fmt::Display for DecompressError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.description().fmt(f) } } impl Error for CompressError { fn description(&self) -> &str { "deflate compression error" } } impl From<CompressError> for io::Error { fn from(data: CompressError) -> io::Error { io::Error::new(io::ErrorKind::Other, data) } } impl fmt::Display for CompressError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.description().fmt(f) } } impl Direction for DirCompress { unsafe fn destroy(stream: *mut ffi::mz_stream) -> c_int { ffi::mz_deflateEnd(stream) } } impl Direction for DirDecompress { unsafe fn destroy(stream: *mut ffi::mz_stream) -> c_int { ffi::mz_inflateEnd(stream) } } impl<D: Direction> Drop for Stream<D> { fn drop(&mut self) { unsafe { let _ = D::destroy(&mut *self.stream_wrapper); } } } #[cfg(test)] mod tests { use std::io::Write; use write; use {Compression, Decompress, FlushDecompress}; #[cfg(feature = "zlib")] use {Compress, FlushCompress}; #[test] fn issue51() { let data = vec![ 0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0xb3, 0xc9, 0x28, 0xc9, 0xcd, 0xb1, 0xe3, 0xe5, 0xb2, 0xc9, 0x48, 0x4d, 0x4c, 0xb1, 0xb3, 0x29, 0xc9, 0x2c, 0xc9, 0x49, 0xb5, 0x33, 0x31, 0x30, 0x51, 0xf0, 0xcb, 0x2f, 0x51, 0x70, 0xcb, 0x2f, 0xcd, 0x4b, 0xb1, 0xd1, 0x87, 0x08, 0xda, 0xe8, 0x83, 0x95, 0x00, 0x95, 0x26, 0xe5, 0xa7, 0x54, 0x2a, 0x24, 0xa5, 0x27, 0xe7, 0xe7, 0xe4, 0x17, 0xd9, 0x2a, 0x95, 0x67, 0x64, 0x96, 0xa4, 0x2a, 0x81, 0x8c, 0x48, 0x4e, 0xcd, 0x2b, 0x49, 0x2d, 0xb2, 0xb3, 0xc9, 0x30, 0x44, 0x37, 0x01, 0x28, 0x62, 0xa3, 0x0f, 0x95, 0x06, 0xd9, 0x05, 0x54, 0x04, 0xe5, 0xe5, 0xa5, 0x67, 0xe6, 0x55, 0xe8, 0x1b, 0xea, 0x99, 0xe9, 0x19, 0x21, 0xab, 0xd0, 0x07, 0xd9, 0x01, 0x32, 0x53, 0x1f, 0xea, 0x3e, 0x00, 0x94, 0x85, 0xeb, 0xe4, 0xa8, 0x00, 0x00, 0x00, ]; let mut decoded = Vec::with_capacity(data.len() * 2); let mut d = Decompress::new(false); // decompressed whole deflate stream assert!(d .decompress_vec(&data[10..], &mut decoded, FlushDecompress::Finish) .is_ok()); // decompress data that has nothing to do with the deflate stream (this // used to panic) drop(d.decompress_vec(&[0], &mut decoded, FlushDecompress::None)); } #[test] fn reset() { let string = "hello world".as_bytes(); let mut zlib = Vec::new(); let mut deflate = Vec::new(); let comp = Compression::default(); write::ZlibEncoder::new(&mut zlib, comp) .write_all(string) .unwrap(); write::DeflateEncoder::new(&mut deflate, comp) .write_all(string) .unwrap(); let mut dst = [0; 1024]; let mut decoder = Decompress::new(true); decoder .decompress(&zlib, &mut dst, FlushDecompress::Finish) .unwrap(); assert_eq!(decoder.total_out(), string.len() as u64); assert!(dst.starts_with(string)); decoder.reset(false); decoder .decompress(&deflate, &mut dst, FlushDecompress::Finish) .unwrap(); assert_eq!(decoder.total_out(), string.len() as u64); assert!(dst.starts_with(string)); } #[cfg(feature = "zlib")] #[test] fn set_dictionary_with_zlib_header() { let string = "hello, hello!".as_bytes(); let dictionary = "hello".as_bytes(); let mut encoded = Vec::with_capacity(1024); let mut encoder = Compress::new(Compression::default(), true); let dictionary_adler = encoder.set_dictionary(&dictionary).unwrap(); encoder .compress_vec(string, &mut encoded, FlushCompress::Finish) .unwrap(); assert_eq!(encoder.total_in(), string.len() as u64); assert_eq!(encoder.total_out(), encoded.len() as u64); let mut decoder = Decompress::new(true); let mut decoded = [0; 1024]; let decompress_error = decoder .decompress(&encoded, &mut decoded, FlushDecompress::Finish) .expect_err("decompression should fail due to requiring a dictionary"); let required_adler = decompress_error.needs_dictionary() .expect("the first call to decompress should indicate a dictionary is required along with the required Adler-32 checksum"); assert_eq!(required_adler, dictionary_adler, "the Adler-32 checksum should match the value when the dictionary was set on the compressor"); let actual_adler = decoder.set_dictionary(&dictionary).unwrap(); assert_eq!(required_adler, actual_adler); // Decompress the rest of the input to the remainder of the output buffer let total_in = decoder.total_in(); let total_out = decoder.total_out(); let decompress_result = decoder.decompress( &encoded[total_in as usize..], &mut decoded[total_out as usize..], FlushDecompress::Finish, ); assert!(decompress_result.is_ok()); assert_eq!(&decoded[..decoder.total_out() as usize], string); } #[cfg(feature = "zlib")] #[test] fn set_dictionary_raw() { let string = "hello, hello!".as_bytes(); let dictionary = "hello".as_bytes(); let mut encoded = Vec::with_capacity(1024); let mut encoder = Compress::new(Compression::default(), false); encoder.set_dictionary(&dictionary).unwrap(); encoder .compress_vec(string, &mut encoded, FlushCompress::Finish) .unwrap(); assert_eq!(encoder.total_in(), string.len() as u64); assert_eq!(encoder.total_out(), encoded.len() as u64); let mut decoder = Decompress::new(false); decoder.set_dictionary(&dictionary).unwrap(); let mut decoded = [0; 1024]; let decompress_result = decoder.decompress(&encoded, &mut decoded, FlushDecompress::Finish); assert!(decompress_result.is_ok()); assert_eq!(&decoded[..decoder.total_out() as usize], string); } }