//! This module contains functionality for decompression. #[cfg(feature = "with-alloc")] use crate::alloc::{boxed::Box, vec, vec::Vec}; use ::core::usize; #[cfg(all(feature = "std", feature = "with-alloc"))] use std::error::Error; pub mod core; mod output_buffer; pub mod stream; use self::core::*; const TINFL_STATUS_FAILED_CANNOT_MAKE_PROGRESS: i32 = -4; const TINFL_STATUS_BAD_PARAM: i32 = -3; const TINFL_STATUS_ADLER32_MISMATCH: i32 = -2; const TINFL_STATUS_FAILED: i32 = -1; const TINFL_STATUS_DONE: i32 = 0; const TINFL_STATUS_NEEDS_MORE_INPUT: i32 = 1; const TINFL_STATUS_HAS_MORE_OUTPUT: i32 = 2; /// Return status codes. #[repr(i8)] #[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)] pub enum TINFLStatus { /// More input data was expected, but the caller indicated that there was no more data, so the /// input stream is likely truncated. /// /// This can't happen if you have provided the /// [`TINFL_FLAG_HAS_MORE_INPUT`][core::inflate_flags::TINFL_FLAG_HAS_MORE_INPUT] flag to the /// decompression. By setting that flag, you indicate more input exists but is not provided, /// and so reaching the end of the input data without finding the end of the compressed stream /// would instead return a [`NeedsMoreInput`][Self::NeedsMoreInput] status. FailedCannotMakeProgress = TINFL_STATUS_FAILED_CANNOT_MAKE_PROGRESS as i8, /// The output buffer is an invalid size; consider the `flags` parameter. BadParam = TINFL_STATUS_BAD_PARAM as i8, /// The decompression went fine, but the adler32 checksum did not match the one /// provided in the header. Adler32Mismatch = TINFL_STATUS_ADLER32_MISMATCH as i8, /// Failed to decompress due to invalid data. Failed = TINFL_STATUS_FAILED as i8, /// Finished decompression without issues. /// /// This indicates the end of the compressed stream has been reached. Done = TINFL_STATUS_DONE as i8, /// The decompressor needs more input data to continue decompressing. /// /// This occurs when there's no more consumable input, but the end of the stream hasn't been /// reached, and you have supplied the /// [`TINFL_FLAG_HAS_MORE_INPUT`][core::inflate_flags::TINFL_FLAG_HAS_MORE_INPUT] flag to the /// decompressor. Had you not supplied that flag (which would mean you were asserting that you /// believed all the data was available) you would have gotten a /// [`FailedCannotMakeProcess`][Self::FailedCannotMakeProgress] instead. NeedsMoreInput = TINFL_STATUS_NEEDS_MORE_INPUT as i8, /// There is still pending data that didn't fit in the output buffer. HasMoreOutput = TINFL_STATUS_HAS_MORE_OUTPUT as i8, } impl TINFLStatus { pub fn from_i32(value: i32) -> Option { use self::TINFLStatus::*; match value { TINFL_STATUS_FAILED_CANNOT_MAKE_PROGRESS => Some(FailedCannotMakeProgress), TINFL_STATUS_BAD_PARAM => Some(BadParam), TINFL_STATUS_ADLER32_MISMATCH => Some(Adler32Mismatch), TINFL_STATUS_FAILED => Some(Failed), TINFL_STATUS_DONE => Some(Done), TINFL_STATUS_NEEDS_MORE_INPUT => Some(NeedsMoreInput), TINFL_STATUS_HAS_MORE_OUTPUT => Some(HasMoreOutput), _ => None, } } } /// Struct return when decompress_to_vec functions fail. #[cfg(feature = "with-alloc")] #[derive(Debug)] pub struct DecompressError { /// Decompressor status on failure. See [TINFLStatus] for details. pub status: TINFLStatus, /// The currently decompressed data if any. pub output: Vec, } #[cfg(feature = "with-alloc")] impl alloc::fmt::Display for DecompressError { fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result { f.write_str(match self.status { TINFLStatus::FailedCannotMakeProgress => "Truncated input stream", TINFLStatus::BadParam => "Invalid output buffer size", TINFLStatus::Adler32Mismatch => "Adler32 checksum mismatch", TINFLStatus::Failed => "Invalid input data", TINFLStatus::Done => unreachable!(), TINFLStatus::NeedsMoreInput => "Truncated input stream", TINFLStatus::HasMoreOutput => "Output size exceeded the specified limit", }) } } /// Implement Error trait only if std feature is requested as it requires std. #[cfg(all(feature = "std", feature = "with-alloc"))] impl Error for DecompressError {} #[cfg(feature = "with-alloc")] fn decompress_error(status: TINFLStatus, output: Vec) -> Result, DecompressError> { Err(DecompressError { status, output }) } /// Decompress the deflate-encoded data in `input` to a vector. /// /// NOTE: This function will not bound the output, so if the output is large enough it can result in an out of memory error. /// It is therefore suggested to not use this for anything other than test programs, use the functions with a specified limit, or /// ideally streaming decompression via the [flate2](https://github.com/alexcrichton/flate2-rs) library instead. /// /// Returns a [`Result`] containing the [`Vec`] of decompressed data on success, and a [struct][DecompressError] containing the status and so far decompressed data if any on failure. #[inline] #[cfg(feature = "with-alloc")] pub fn decompress_to_vec(input: &[u8]) -> Result, DecompressError> { decompress_to_vec_inner(input, 0, usize::max_value()) } /// Decompress the deflate-encoded data (with a zlib wrapper) in `input` to a vector. /// /// NOTE: This function will not bound the output, so if the output is large enough it can result in an out of memory error. /// It is therefore suggested to not use this for anything other than test programs, use the functions with a specified limit, or /// ideally streaming decompression via the [flate2](https://github.com/alexcrichton/flate2-rs) library instead. /// /// Returns a [`Result`] containing the [`Vec`] of decompressed data on success, and a [struct][DecompressError] containing the status and so far decompressed data if any on failure. #[inline] #[cfg(feature = "with-alloc")] pub fn decompress_to_vec_zlib(input: &[u8]) -> Result, DecompressError> { decompress_to_vec_inner( input, inflate_flags::TINFL_FLAG_PARSE_ZLIB_HEADER, usize::max_value(), ) } /// Decompress the deflate-encoded data in `input` to a vector. /// /// The vector is grown to at most `max_size` bytes; if the data does not fit in that size, /// the error [struct][DecompressError] will contain the status [`TINFLStatus::HasMoreOutput`] and the data that was decompressed on failure. /// /// As this function tries to decompress everything in one go, it's not ideal for general use outside of tests or where the output size is expected to be small. /// It is suggested to use streaming decompression via the [flate2](https://github.com/alexcrichton/flate2-rs) library instead. /// /// Returns a [`Result`] containing the [`Vec`] of decompressed data on success, and a [struct][DecompressError] on failure. #[inline] #[cfg(feature = "with-alloc")] pub fn decompress_to_vec_with_limit( input: &[u8], max_size: usize, ) -> Result, DecompressError> { decompress_to_vec_inner(input, 0, max_size) } /// Decompress the deflate-encoded data (with a zlib wrapper) in `input` to a vector. /// The vector is grown to at most `max_size` bytes; if the data does not fit in that size, /// the error [struct][DecompressError] will contain the status [`TINFLStatus::HasMoreOutput`] and the data that was decompressed on failure. /// /// As this function tries to decompress everything in one go, it's not ideal for general use outside of tests or where the output size is expected to be small. /// It is suggested to use streaming decompression via the [flate2](https://github.com/alexcrichton/flate2-rs) library instead. /// /// Returns a [`Result`] containing the [`Vec`] of decompressed data on success, and a [struct][DecompressError] on failure. #[inline] #[cfg(feature = "with-alloc")] pub fn decompress_to_vec_zlib_with_limit( input: &[u8], max_size: usize, ) -> Result, DecompressError> { decompress_to_vec_inner(input, inflate_flags::TINFL_FLAG_PARSE_ZLIB_HEADER, max_size) } /// Backend of various to-[`Vec`] decompressions. /// /// Returns [`Vec`] of decompressed data on success and the [error struct][DecompressError] with details on failure. #[cfg(feature = "with-alloc")] fn decompress_to_vec_inner( input: &[u8], flags: u32, max_output_size: usize, ) -> Result, DecompressError> { let flags = flags | inflate_flags::TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF; let mut ret: Vec = vec![0; input.len().saturating_mul(2).min(max_output_size)]; let mut decomp = Box::::default(); let mut in_pos = 0; let mut out_pos = 0; loop { // Wrap the whole output slice so we know we have enough of the // decompressed data for matches. let (status, in_consumed, out_consumed) = decompress(&mut decomp, &input[in_pos..], &mut ret, out_pos, flags); in_pos += in_consumed; out_pos += out_consumed; match status { TINFLStatus::Done => { ret.truncate(out_pos); return Ok(ret); } TINFLStatus::HasMoreOutput => { // if the buffer has already reached the size limit, return an error if ret.len() >= max_output_size { return decompress_error(TINFLStatus::HasMoreOutput, ret); } // calculate the new length, capped at `max_output_size` let new_len = ret.len().saturating_mul(2).min(max_output_size); ret.resize(new_len, 0); } _ => return decompress_error(status, ret), } } } /// Decompress one or more source slices from an iterator into the output slice. /// /// * On success, returns the number of bytes that were written. /// * On failure, returns the failure status code. /// /// This will fail if the output buffer is not large enough, but in that case /// the output buffer will still contain the partial decompression. /// /// * `out` the output buffer. /// * `it` the iterator of input slices. /// * `zlib_header` if the first slice out of the iterator is expected to have a /// Zlib header. Otherwise the slices are assumed to be the deflate data only. /// * `ignore_adler32` if the adler32 checksum should be calculated or not. pub fn decompress_slice_iter_to_slice<'out, 'inp>( out: &'out mut [u8], it: impl Iterator, zlib_header: bool, ignore_adler32: bool, ) -> Result { use self::core::inflate_flags::*; let mut it = it.peekable(); let r = &mut DecompressorOxide::new(); let mut out_pos = 0; while let Some(in_buf) = it.next() { let has_more = it.peek().is_some(); let flags = { let mut f = TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF; if zlib_header { f |= TINFL_FLAG_PARSE_ZLIB_HEADER; } if ignore_adler32 { f |= TINFL_FLAG_IGNORE_ADLER32; } if has_more { f |= TINFL_FLAG_HAS_MORE_INPUT; } f }; let (status, _input_read, bytes_written) = decompress(r, in_buf, out, out_pos, flags); out_pos += bytes_written; match status { TINFLStatus::NeedsMoreInput => continue, TINFLStatus::Done => return Ok(out_pos), e => return Err(e), } } // If we ran out of source slices without getting a `Done` from the // decompression we can call it a failure. Err(TINFLStatus::FailedCannotMakeProgress) } #[cfg(test)] mod test { use super::{ decompress_slice_iter_to_slice, decompress_to_vec_zlib, decompress_to_vec_zlib_with_limit, DecompressError, TINFLStatus, }; const ENCODED: [u8; 20] = [ 120, 156, 243, 72, 205, 201, 201, 215, 81, 168, 202, 201, 76, 82, 4, 0, 27, 101, 4, 19, ]; #[test] fn decompress_vec() { let res = decompress_to_vec_zlib(&ENCODED[..]).unwrap(); assert_eq!(res.as_slice(), &b"Hello, zlib!"[..]); } #[test] fn decompress_vec_with_high_limit() { let res = decompress_to_vec_zlib_with_limit(&ENCODED[..], 100_000).unwrap(); assert_eq!(res.as_slice(), &b"Hello, zlib!"[..]); } #[test] fn fail_to_decompress_with_limit() { let res = decompress_to_vec_zlib_with_limit(&ENCODED[..], 8); match res { Err(DecompressError { status: TINFLStatus::HasMoreOutput, .. }) => (), // expected result _ => panic!("Decompression output size limit was not enforced"), } } #[test] fn test_decompress_slice_iter_to_slice() { // one slice let mut out = [0_u8; 12_usize]; let r = decompress_slice_iter_to_slice(&mut out, Some(&ENCODED[..]).into_iter(), true, false); assert_eq!(r, Ok(12)); assert_eq!(&out[..12], &b"Hello, zlib!"[..]); // some chunks at a time for chunk_size in 1..13 { // Note: because of https://github.com/Frommi/miniz_oxide/issues/110 our // out buffer needs to have +1 byte available when the chunk size cuts // the adler32 data off from the last actual data. let mut out = [0_u8; 12_usize + 1]; let r = decompress_slice_iter_to_slice(&mut out, ENCODED.chunks(chunk_size), true, false); assert_eq!(r, Ok(12)); assert_eq!(&out[..12], &b"Hello, zlib!"[..]); } // output buffer too small let mut out = [0_u8; 3_usize]; let r = decompress_slice_iter_to_slice(&mut out, ENCODED.chunks(7), true, false); assert!(r.is_err()); } }