From 1b6a04ca5504955c571d1c97504fb45ea0befee4 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Mon, 8 Jan 2024 01:21:28 +0400 Subject: Initial vendor packages Signed-off-by: Valentin Popov --- vendor/fdeflate/src/compress.rs | 327 ++++++++++ vendor/fdeflate/src/decompress.rs | 1270 +++++++++++++++++++++++++++++++++++++ vendor/fdeflate/src/lib.rs | 123 ++++ vendor/fdeflate/src/tables.rs | 635 +++++++++++++++++++ 4 files changed, 2355 insertions(+) create mode 100644 vendor/fdeflate/src/compress.rs create mode 100644 vendor/fdeflate/src/decompress.rs create mode 100644 vendor/fdeflate/src/lib.rs create mode 100644 vendor/fdeflate/src/tables.rs (limited to 'vendor/fdeflate/src') diff --git a/vendor/fdeflate/src/compress.rs b/vendor/fdeflate/src/compress.rs new file mode 100644 index 0000000..027d0ef --- /dev/null +++ b/vendor/fdeflate/src/compress.rs @@ -0,0 +1,327 @@ +use simd_adler32::Adler32; +use std::{ + convert::TryInto, + io::{self, Seek, SeekFrom, Write}, +}; + +use crate::tables::{ + BITMASKS, HUFFMAN_CODES, HUFFMAN_LENGTHS, LENGTH_TO_LEN_EXTRA, LENGTH_TO_SYMBOL, +}; + +/// Compressor that produces fdeflate compressed streams. +pub struct Compressor { + checksum: Adler32, + buffer: u64, + nbits: u8, + writer: W, +} +impl Compressor { + fn write_bits(&mut self, bits: u64, nbits: u8) -> io::Result<()> { + debug_assert!(nbits <= 64); + + self.buffer |= bits << self.nbits; + self.nbits += nbits; + + if self.nbits >= 64 { + self.writer.write_all(&self.buffer.to_le_bytes())?; + self.nbits -= 64; + self.buffer = bits.checked_shr((nbits - self.nbits) as u32).unwrap_or(0); + } + debug_assert!(self.nbits < 64); + Ok(()) + } + + fn flush(&mut self) -> io::Result<()> { + if self.nbits % 8 != 0 { + self.write_bits(0, 8 - self.nbits % 8)?; + } + if self.nbits > 0 { + self.writer + .write_all(&self.buffer.to_le_bytes()[..self.nbits as usize / 8]) + .unwrap(); + self.buffer = 0; + self.nbits = 0; + } + Ok(()) + } + + fn write_run(&mut self, mut run: u32) -> io::Result<()> { + self.write_bits(HUFFMAN_CODES[0] as u64, HUFFMAN_LENGTHS[0])?; + run -= 1; + + while run >= 258 { + self.write_bits(HUFFMAN_CODES[285] as u64, HUFFMAN_LENGTHS[285] + 1)?; + run -= 258; + } + + if run > 4 { + let sym = LENGTH_TO_SYMBOL[run as usize - 3] as usize; + self.write_bits(HUFFMAN_CODES[sym] as u64, HUFFMAN_LENGTHS[sym])?; + + let len_extra = LENGTH_TO_LEN_EXTRA[run as usize - 3]; + let extra = ((run - 3) & BITMASKS[len_extra as usize]) as u64; + self.write_bits(extra, len_extra + 1)?; + } else { + debug_assert_eq!(HUFFMAN_CODES[0], 0); + self.write_bits(0, run as u8 * HUFFMAN_LENGTHS[0])?; + } + + Ok(()) + } + + /// Create a new Compressor. + pub fn new(writer: W) -> io::Result { + let mut compressor = Self { + checksum: Adler32::new(), + buffer: 0, + nbits: 0, + writer, + }; + compressor.write_headers()?; + Ok(compressor) + } + + fn write_headers(&mut self) -> io::Result<()> { + self.write_bits(0x0178, 16)?; // zlib header + + self.write_bits(0b1, 1)?; // BFINAL + self.write_bits(0b10, 2)?; // Dynamic Huffman block + + self.write_bits((HUFFMAN_LENGTHS.len() - 257) as u64, 5)?; // # of length / literal codes + self.write_bits(0, 5)?; // 1 distance code + self.write_bits(15, 4)?; // 16 code length codes + + // Write code lengths for code length alphabet + for _ in 0..3 { + self.write_bits(0, 3)?; + } + for _ in 0..16 { + self.write_bits(4, 3)?; + } + + // Write code lengths for length/literal alphabet + for &len in &HUFFMAN_LENGTHS { + self.write_bits((len.reverse_bits() >> 4) as u64, 4)?; + } + + // Write code lengths for distance alphabet + for _ in 0..1 { + self.write_bits(0b1000, 4)?; + } + + Ok(()) + } + + /// Write data to the compressor. + pub fn write_data(&mut self, data: &[u8]) -> io::Result<()> { + self.checksum.write(data); + + let mut run = 0; + let mut chunks = data.chunks_exact(8); + for chunk in &mut chunks { + let ichunk = u64::from_le_bytes(chunk.try_into().unwrap()); + + if ichunk == 0 { + run += 8; + continue; + } else if run > 0 { + let run_extra = ichunk.trailing_zeros() / 8; + self.write_run(run + run_extra)?; + run = 0; + + if run_extra > 0 { + run = ichunk.leading_zeros() / 8; + for &b in &chunk[run_extra as usize..8 - run as usize] { + self.write_bits( + HUFFMAN_CODES[b as usize] as u64, + HUFFMAN_LENGTHS[b as usize], + )?; + } + continue; + } + } + + let run_start = ichunk.leading_zeros() / 8; + if run_start > 0 { + for &b in &chunk[..8 - run_start as usize] { + self.write_bits( + HUFFMAN_CODES[b as usize] as u64, + HUFFMAN_LENGTHS[b as usize], + )?; + } + run = run_start; + continue; + } + + let n0 = HUFFMAN_LENGTHS[chunk[0] as usize]; + let n1 = HUFFMAN_LENGTHS[chunk[1] as usize]; + let n2 = HUFFMAN_LENGTHS[chunk[2] as usize]; + let n3 = HUFFMAN_LENGTHS[chunk[3] as usize]; + let bits = HUFFMAN_CODES[chunk[0] as usize] as u64 + | ((HUFFMAN_CODES[chunk[1] as usize] as u64) << n0) + | ((HUFFMAN_CODES[chunk[2] as usize] as u64) << (n0 + n1)) + | ((HUFFMAN_CODES[chunk[3] as usize] as u64) << (n0 + n1 + n2)); + self.write_bits(bits, n0 + n1 + n2 + n3)?; + + let n4 = HUFFMAN_LENGTHS[chunk[4] as usize]; + let n5 = HUFFMAN_LENGTHS[chunk[5] as usize]; + let n6 = HUFFMAN_LENGTHS[chunk[6] as usize]; + let n7 = HUFFMAN_LENGTHS[chunk[7] as usize]; + let bits2 = HUFFMAN_CODES[chunk[4] as usize] as u64 + | ((HUFFMAN_CODES[chunk[5] as usize] as u64) << n4) + | ((HUFFMAN_CODES[chunk[6] as usize] as u64) << (n4 + n5)) + | ((HUFFMAN_CODES[chunk[7] as usize] as u64) << (n4 + n5 + n6)); + self.write_bits(bits2, n4 + n5 + n6 + n7)?; + } + + if run > 0 { + self.write_run(run)?; + } + + for &b in chunks.remainder() { + self.write_bits( + HUFFMAN_CODES[b as usize] as u64, + HUFFMAN_LENGTHS[b as usize], + )?; + } + + Ok(()) + } + + /// Write the remainder of the stream and return the inner writer. + pub fn finish(mut self) -> io::Result { + // Write end of block + self.write_bits(HUFFMAN_CODES[256] as u64, HUFFMAN_LENGTHS[256])?; + self.flush()?; + + // Write Adler32 checksum + let checksum: u32 = self.checksum.finish(); + self.writer + .write_all(checksum.to_be_bytes().as_ref()) + .unwrap(); + Ok(self.writer) + } +} + +/// Compressor that only writes the stored blocks. +/// +/// This is useful for writing files that are not compressed, but still need to be wrapped in a +/// zlib stream. +pub struct StoredOnlyCompressor { + writer: W, + checksum: Adler32, + block_bytes: u16, +} +impl StoredOnlyCompressor { + /// Creates a new `StoredOnlyCompressor` that writes to the given writer. + pub fn new(mut writer: W) -> io::Result { + writer.write_all(&[0x78, 0x01])?; // zlib header + writer.write_all(&[0; 5])?; // placeholder stored block header + + Ok(Self { + writer, + checksum: Adler32::new(), + block_bytes: 0, + }) + } + + fn set_block_header(&mut self, size: u16, last: bool) -> io::Result<()> { + self.writer.seek(SeekFrom::Current(-(size as i64 + 5)))?; + self.writer.write_all(&[ + last as u8, + (size & 0xFF) as u8, + ((size >> 8) & 0xFF) as u8, + (!size & 0xFF) as u8, + ((!size >> 8) & 0xFF) as u8, + ])?; + self.writer.seek(SeekFrom::Current(size as i64))?; + + Ok(()) + } + + /// Writes the given data to the underlying writer. + pub fn write_data(&mut self, mut data: &[u8]) -> io::Result<()> { + self.checksum.write(data); + while !data.is_empty() { + if self.block_bytes == u16::MAX { + self.set_block_header(u16::MAX, false)?; + self.writer.write_all(&[0; 5])?; // placeholder stored block header + self.block_bytes = 0; + } + + let prefix_bytes = data.len().min((u16::MAX - self.block_bytes) as usize); + self.writer.write_all(&data[..prefix_bytes])?; + self.block_bytes += prefix_bytes as u16; + data = &data[prefix_bytes..]; + } + + Ok(()) + } + + /// Finish writing the final block and return the underlying writer. + pub fn finish(mut self) -> io::Result { + self.set_block_header(self.block_bytes, true)?; + + // Write Adler32 checksum + let checksum: u32 = self.checksum.finish(); + self.writer + .write_all(checksum.to_be_bytes().as_ref()) + .unwrap(); + + Ok(self.writer) + } +} +impl StoredOnlyCompressor { + /// Return the number of bytes that will be written to the output stream + /// for the given input size. Because this compressor only writes stored blocks, + /// the output size is always slightly *larger* than the input size. + pub fn compressed_size(raw_size: usize) -> usize { + (raw_size.saturating_sub(1) / u16::MAX as usize) * (u16::MAX as usize + 5) + + (raw_size % u16::MAX as usize + 5) + + 6 + } +} + +/// Compresses the given data. +pub fn compress_to_vec(input: &[u8]) -> Vec { + let mut compressor = Compressor::new(Vec::with_capacity(input.len() / 4)).unwrap(); + compressor.write_data(input).unwrap(); + compressor.finish().unwrap() +} + +#[cfg(test)] +mod tests { + use super::*; + use rand::Rng; + + fn roundtrip(data: &[u8]) { + let compressed = compress_to_vec(data); + let decompressed = miniz_oxide::inflate::decompress_to_vec_zlib(&compressed).unwrap(); + assert_eq!(&decompressed, data); + } + + #[test] + fn it_works() { + roundtrip(b"Hello world!"); + } + + #[test] + fn constant() { + roundtrip(&vec![0; 2048]); + roundtrip(&vec![5; 2048]); + roundtrip(&vec![128; 2048]); + roundtrip(&vec![254; 2048]); + } + + #[test] + fn random() { + let mut rng = rand::thread_rng(); + let mut data = vec![0; 2048]; + for _ in 0..10 { + for byte in &mut data { + *byte = rng.gen(); + } + roundtrip(&data); + } + } +} diff --git a/vendor/fdeflate/src/decompress.rs b/vendor/fdeflate/src/decompress.rs new file mode 100644 index 0000000..d38f63b --- /dev/null +++ b/vendor/fdeflate/src/decompress.rs @@ -0,0 +1,1270 @@ +use std::convert::TryInto; + +use simd_adler32::Adler32; + +use crate::tables::{ + self, CLCL_ORDER, DIST_SYM_TO_DIST_BASE, DIST_SYM_TO_DIST_EXTRA, FDEFLATE_DIST_DECODE_TABLE, + FDEFLATE_LITLEN_DECODE_TABLE, FIXED_CODE_LENGTHS, LEN_SYM_TO_LEN_BASE, LEN_SYM_TO_LEN_EXTRA, +}; + +/// An error encountered while decompressing a deflate stream. +#[derive(Debug, PartialEq)] +pub enum DecompressionError { + /// The zlib header is corrupt. + BadZlibHeader, + /// All input was consumed, but the end of the stream hasn't been reached. + InsufficientInput, + /// A block header specifies an invalid block type. + InvalidBlockType, + /// An uncompressed block's NLEN value is invalid. + InvalidUncompressedBlockLength, + /// Too many literals were specified. + InvalidHlit, + /// Too many distance codes were specified. + InvalidHdist, + /// Attempted to repeat a previous code before reading any codes, or past the end of the code + /// lengths. + InvalidCodeLengthRepeat, + /// The stream doesn't specify a valid huffman tree. + BadCodeLengthHuffmanTree, + /// The stream doesn't specify a valid huffman tree. + BadLiteralLengthHuffmanTree, + /// The stream doesn't specify a valid huffman tree. + BadDistanceHuffmanTree, + /// The stream contains a literal/length code that was not allowed by the header. + InvalidLiteralLengthCode, + /// The stream contains a distance code that was not allowed by the header. + InvalidDistanceCode, + /// The stream contains contains back-reference as the first symbol. + InputStartsWithRun, + /// The stream contains a back-reference that is too far back. + DistanceTooFarBack, + /// The deflate stream checksum is incorrect. + WrongChecksum, + /// Extra input data. + ExtraInput, +} + +struct BlockHeader { + hlit: usize, + hdist: usize, + hclen: usize, + num_lengths_read: usize, + + /// Low 3-bits are code length code length, high 5-bits are code length code. + table: [u8; 128], + code_lengths: [u8; 320], +} + +const LITERAL_ENTRY: u32 = 0x8000; +const EXCEPTIONAL_ENTRY: u32 = 0x4000; +const SECONDARY_TABLE_ENTRY: u32 = 0x2000; + +/// The Decompressor state for a compressed block. +/// +/// The main litlen_table uses a 12-bit input to lookup the meaning of the symbol. The table is +/// split into 4 sections: +/// +/// aaaaaaaa_bbbbbbbb_1000yyyy_0000xxxx x = input_advance_bits, y = output_advance_bytes (literal) +/// 0000000z_zzzzzzzz_00000yyy_0000xxxx x = input_advance_bits, y = extra_bits, z = distance_base (length) +/// 00000000_00000000_01000000_0000xxxx x = input_advance_bits (EOF) +/// 0000xxxx_xxxxxxxx_01100000_00000000 x = secondary_table_index +/// 00000000_00000000_01000000_00000000 invalid code +/// +/// The distance table is a 512-entry table that maps 9 bits of distance symbols to their meaning. +/// +/// 00000000_00000000_00000000_00000000 symbol is more than 9 bits +/// zzzzzzzz_zzzzzzzz_0000yyyy_0000xxxx x = input_advance_bits, y = extra_bits, z = distance_base +#[repr(align(64))] +#[derive(Eq, PartialEq, Debug)] +struct CompressedBlock { + litlen_table: [u32; 4096], + dist_table: [u32; 512], + + dist_symbol_lengths: [u8; 30], + dist_symbol_masks: [u16; 30], + dist_symbol_codes: [u16; 30], + + secondary_table: Vec, + eof_code: u16, + eof_mask: u16, + eof_bits: u8, +} + +const FDEFLATE_COMPRESSED_BLOCK: CompressedBlock = CompressedBlock { + litlen_table: FDEFLATE_LITLEN_DECODE_TABLE, + dist_table: FDEFLATE_DIST_DECODE_TABLE, + dist_symbol_lengths: [ + 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + ], + dist_symbol_masks: [ + 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + ], + dist_symbol_codes: [ + 0, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, + 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, + 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, + ], + secondary_table: Vec::new(), + eof_code: 0x8ff, + eof_mask: 0xfff, + eof_bits: 0xc, +}; + +#[derive(Debug, Copy, Clone, Eq, PartialEq)] +enum State { + ZlibHeader, + BlockHeader, + CodeLengthCodes, + CodeLengths, + CompressedData, + UncompressedData, + Checksum, + Done, +} + +/// Decompressor for arbitrary zlib streams. +pub struct Decompressor { + /// State for decoding a compressed block. + compression: CompressedBlock, + // State for decoding a block header. + header: BlockHeader, + // Number of bytes left for uncompressed block. + uncompressed_bytes_left: u16, + + buffer: u64, + nbits: u8, + + queued_rle: Option<(u8, usize)>, + queued_backref: Option<(usize, usize)>, + last_block: bool, + + state: State, + checksum: Adler32, + ignore_adler32: bool, +} + +impl Default for Decompressor { + fn default() -> Self { + Self::new() + } +} + +impl Decompressor { + /// Create a new decompressor. + pub fn new() -> Self { + Self { + buffer: 0, + nbits: 0, + compression: CompressedBlock { + litlen_table: [0; 4096], + dist_table: [0; 512], + secondary_table: Vec::new(), + dist_symbol_lengths: [0; 30], + dist_symbol_masks: [0; 30], + dist_symbol_codes: [0xffff; 30], + eof_code: 0, + eof_mask: 0, + eof_bits: 0, + }, + header: BlockHeader { + hlit: 0, + hdist: 0, + hclen: 0, + table: [0; 128], + num_lengths_read: 0, + code_lengths: [0; 320], + }, + uncompressed_bytes_left: 0, + queued_rle: None, + queued_backref: None, + checksum: Adler32::new(), + state: State::ZlibHeader, + last_block: false, + ignore_adler32: false, + } + } + + /// Ignore the checksum at the end of the stream. + pub fn ignore_adler32(&mut self) { + self.ignore_adler32 = true; + } + + fn fill_buffer(&mut self, input: &mut &[u8]) { + if input.len() >= 8 { + self.buffer |= u64::from_le_bytes(input[..8].try_into().unwrap()) << self.nbits; + *input = &mut &input[(63 - self.nbits as usize) / 8..]; + self.nbits |= 56; + } else { + let nbytes = input.len().min((63 - self.nbits as usize) / 8); + let mut input_data = [0; 8]; + input_data[..nbytes].copy_from_slice(&input[..nbytes]); + self.buffer |= u64::from_le_bytes(input_data) + .checked_shl(self.nbits as u32) + .unwrap_or(0); + self.nbits += nbytes as u8 * 8; + *input = &mut &input[nbytes..]; + } + } + + fn peak_bits(&mut self, nbits: u8) -> u64 { + debug_assert!(nbits <= 56 && nbits <= self.nbits); + self.buffer & ((1u64 << nbits) - 1) + } + fn consume_bits(&mut self, nbits: u8) { + debug_assert!(self.nbits >= nbits); + self.buffer >>= nbits; + self.nbits -= nbits; + } + + fn read_block_header(&mut self, remaining_input: &mut &[u8]) -> Result<(), DecompressionError> { + self.fill_buffer(remaining_input); + if self.nbits < 3 { + return Ok(()); + } + + let start = self.peak_bits(3); + self.last_block = start & 1 != 0; + match start >> 1 { + 0b00 => { + let align_bits = (self.nbits - 3) % 8; + let header_bits = 3 + 32 + align_bits; + if self.nbits < header_bits { + return Ok(()); + } + + let len = (self.peak_bits(align_bits + 19) >> (align_bits + 3)) as u16; + let nlen = (self.peak_bits(header_bits) >> (align_bits + 19)) as u16; + if nlen != !len { + return Err(DecompressionError::InvalidUncompressedBlockLength); + } + + self.state = State::UncompressedData; + self.uncompressed_bytes_left = len; + self.consume_bits(header_bits); + Ok(()) + } + 0b01 => { + self.consume_bits(3); + // TODO: Do this statically rather than every time. + Self::build_tables(288, &FIXED_CODE_LENGTHS, &mut self.compression, 6)?; + self.state = State::CompressedData; + Ok(()) + } + 0b10 => { + if self.nbits < 17 { + return Ok(()); + } + + self.header.hlit = (self.peak_bits(8) >> 3) as usize + 257; + self.header.hdist = (self.peak_bits(13) >> 8) as usize + 1; + self.header.hclen = (self.peak_bits(17) >> 13) as usize + 4; + if self.header.hlit > 286 { + return Err(DecompressionError::InvalidHlit); + } + if self.header.hdist > 30 { + return Err(DecompressionError::InvalidHdist); + } + + self.consume_bits(17); + self.state = State::CodeLengthCodes; + Ok(()) + } + 0b11 => Err(DecompressionError::InvalidBlockType), + _ => unreachable!(), + } + } + + fn read_code_length_codes( + &mut self, + remaining_input: &mut &[u8], + ) -> Result<(), DecompressionError> { + self.fill_buffer(remaining_input); + if self.nbits as usize + remaining_input.len() * 8 < 3 * self.header.hclen { + return Ok(()); + } + + let mut code_length_lengths = [0; 19]; + for i in 0..self.header.hclen { + code_length_lengths[CLCL_ORDER[i]] = self.peak_bits(3) as u8; + self.consume_bits(3); + + // We need to refill the buffer after reading 3 * 18 = 54 bits since the buffer holds + // between 56 and 63 bits total. + if i == 17 { + self.fill_buffer(remaining_input); + } + } + let code_length_codes: [u16; 19] = crate::compute_codes(&code_length_lengths) + .ok_or(DecompressionError::BadCodeLengthHuffmanTree)?; + + self.header.table = [255; 128]; + for i in 0..19 { + let length = code_length_lengths[i]; + if length > 0 { + let mut j = code_length_codes[i]; + while j < 128 { + self.header.table[j as usize] = ((i as u8) << 3) | length; + j += 1 << length; + } + } + } + + self.state = State::CodeLengths; + self.header.num_lengths_read = 0; + Ok(()) + } + + fn read_code_lengths(&mut self, remaining_input: &mut &[u8]) -> Result<(), DecompressionError> { + let total_lengths = self.header.hlit + self.header.hdist; + while self.header.num_lengths_read < total_lengths { + self.fill_buffer(remaining_input); + if self.nbits < 7 { + return Ok(()); + } + + let code = self.peak_bits(7); + let entry = self.header.table[code as usize]; + let length = entry & 0x7; + let symbol = entry >> 3; + + debug_assert!(length != 0); + match symbol { + 0..=15 => { + self.header.code_lengths[self.header.num_lengths_read] = symbol; + self.header.num_lengths_read += 1; + self.consume_bits(length); + } + 16..=18 => { + let (base_repeat, extra_bits) = match symbol { + 16 => (3, 2), + 17 => (3, 3), + 18 => (11, 7), + _ => unreachable!(), + }; + + if self.nbits < length + extra_bits { + return Ok(()); + } + + let value = match symbol { + 16 => { + self.header.code_lengths[self + .header + .num_lengths_read + .checked_sub(1) + .ok_or(DecompressionError::InvalidCodeLengthRepeat)?] + // TODO: is this right? + } + 17 => 0, + 18 => 0, + _ => unreachable!(), + }; + + let repeat = + (self.peak_bits(length + extra_bits) >> length) as usize + base_repeat; + if self.header.num_lengths_read + repeat > total_lengths { + return Err(DecompressionError::InvalidCodeLengthRepeat); + } + + for i in 0..repeat { + self.header.code_lengths[self.header.num_lengths_read + i] = value; + } + self.header.num_lengths_read += repeat; + self.consume_bits(length + extra_bits); + } + _ => unreachable!(), + } + } + + self.header + .code_lengths + .copy_within(self.header.hlit..total_lengths, 288); + for i in self.header.hlit..288 { + self.header.code_lengths[i] = 0; + } + for i in 288 + self.header.hdist..320 { + self.header.code_lengths[i] = 0; + } + + if self.header.hdist == 1 + && self.header.code_lengths[..286] == tables::HUFFMAN_LENGTHS + && self.header.code_lengths[288] == 1 + { + self.compression = FDEFLATE_COMPRESSED_BLOCK; + } else { + Self::build_tables( + self.header.hlit, + &self.header.code_lengths, + &mut self.compression, + 6, + )?; + } + self.state = State::CompressedData; + Ok(()) + } + + fn build_tables( + hlit: usize, + code_lengths: &[u8], + compression: &mut CompressedBlock, + max_search_bits: u8, + ) -> Result<(), DecompressionError> { + // Build the literal/length code table. + let lengths = &code_lengths[..288]; + let codes: [u16; 288] = crate::compute_codes(&lengths.try_into().unwrap()) + .ok_or(DecompressionError::BadLiteralLengthHuffmanTree)?; + + let table_bits = lengths.iter().cloned().max().unwrap().min(12).max(6); + let table_size = 1 << table_bits; + + for i in 0..256 { + let code = codes[i]; + let length = lengths[i]; + let mut j = code; + + while j < table_size && length != 0 && length <= 12 { + compression.litlen_table[j as usize] = + ((i as u32) << 16) | LITERAL_ENTRY | (1 << 8) | length as u32; + j += 1 << length; + } + + if length > 0 && length <= max_search_bits { + for ii in 0..256 { + let code2 = codes[ii]; + let length2 = lengths[ii]; + if length2 != 0 && length + length2 <= table_bits { + let mut j = code | (code2 << length); + + while j < table_size { + compression.litlen_table[j as usize] = (ii as u32) << 24 + | (i as u32) << 16 + | LITERAL_ENTRY + | (2 << 8) + | ((length + length2) as u32); + j += 1 << (length + length2); + } + } + } + } + } + + if lengths[256] != 0 && lengths[256] <= 12 { + let mut j = codes[256]; + while j < table_size { + compression.litlen_table[j as usize] = EXCEPTIONAL_ENTRY | lengths[256] as u32; + j += 1 << lengths[256]; + } + } + + let table_size = table_size as usize; + for i in (table_size..4096).step_by(table_size) { + compression.litlen_table.copy_within(0..table_size, i); + } + + compression.eof_code = codes[256]; + compression.eof_mask = (1 << lengths[256]) - 1; + compression.eof_bits = lengths[256]; + + for i in 257..hlit { + let code = codes[i]; + let length = lengths[i]; + if length != 0 && length <= 12 { + let mut j = code; + while j < 4096 { + compression.litlen_table[j as usize] = if i < 286 { + (LEN_SYM_TO_LEN_BASE[i - 257] as u32) << 16 + | (LEN_SYM_TO_LEN_EXTRA[i - 257] as u32) << 8 + | length as u32 + } else { + EXCEPTIONAL_ENTRY + }; + j += 1 << length; + } + } + } + + for i in 0..hlit { + if lengths[i] > 12 { + compression.litlen_table[(codes[i] & 0xfff) as usize] = u32::MAX; + } + } + + let mut secondary_table_len = 0; + for i in 0..hlit { + if lengths[i] > 12 { + let j = (codes[i] & 0xfff) as usize; + if compression.litlen_table[j] == u32::MAX { + compression.litlen_table[j] = + (secondary_table_len << 16) | EXCEPTIONAL_ENTRY | SECONDARY_TABLE_ENTRY; + secondary_table_len += 8; + } + } + } + assert!(secondary_table_len <= 0x7ff); + compression.secondary_table = vec![0; secondary_table_len as usize]; + for i in 0..hlit { + let code = codes[i]; + let length = lengths[i]; + if length > 12 { + let j = (codes[i] & 0xfff) as usize; + let k = (compression.litlen_table[j] >> 16) as usize; + + let mut s = code >> 12; + while s < 8 { + debug_assert_eq!(compression.secondary_table[k + s as usize], 0); + compression.secondary_table[k + s as usize] = + ((i as u16) << 4) | (length as u16); + s += 1 << (length - 12); + } + } + } + debug_assert!(compression + .secondary_table + .iter() + .all(|&x| x != 0 && (x & 0xf) > 12)); + + // Build the distance code table. + let lengths = &code_lengths[288..320]; + if lengths == [0; 32] { + compression.dist_symbol_masks = [0; 30]; + compression.dist_symbol_codes = [0xffff; 30]; + compression.dist_table.fill(0); + } else { + let codes: [u16; 32] = match crate::compute_codes(&lengths.try_into().unwrap()) { + Some(codes) => codes, + None => { + if lengths.iter().filter(|&&l| l != 0).count() != 1 { + return Err(DecompressionError::BadDistanceHuffmanTree); + } + [0; 32] + } + }; + + compression.dist_symbol_codes.copy_from_slice(&codes[..30]); + compression + .dist_symbol_lengths + .copy_from_slice(&lengths[..30]); + compression.dist_table.fill(0); + for i in 0..30 { + let length = lengths[i]; + let code = codes[i]; + if length == 0 { + compression.dist_symbol_masks[i] = 0; + compression.dist_symbol_codes[i] = 0xffff; + } else { + compression.dist_symbol_masks[i] = (1 << lengths[i]) - 1; + if lengths[i] <= 9 { + let mut j = code; + while j < 512 { + compression.dist_table[j as usize] = (DIST_SYM_TO_DIST_BASE[i] as u32) + << 16 + | (DIST_SYM_TO_DIST_EXTRA[i] as u32) << 8 + | length as u32; + j += 1 << lengths[i]; + } + } + } + } + } + + Ok(()) + } + + fn read_compressed( + &mut self, + remaining_input: &mut &[u8], + output: &mut [u8], + mut output_index: usize, + ) -> Result { + while let State::CompressedData = self.state { + self.fill_buffer(remaining_input); + if output_index == output.len() { + break; + } + + let mut bits = self.buffer; + let litlen_entry = self.compression.litlen_table[(bits & 0xfff) as usize]; + let litlen_code_bits = litlen_entry as u8; + + if litlen_entry & LITERAL_ENTRY != 0 { + // Ultra-fast path: do 3 more consecutive table lookups and bail if any of them need the slow path. + if self.nbits >= 48 { + let litlen_entry2 = + self.compression.litlen_table[(bits >> litlen_code_bits & 0xfff) as usize]; + let litlen_code_bits2 = litlen_entry2 as u8; + let litlen_entry3 = self.compression.litlen_table + [(bits >> (litlen_code_bits + litlen_code_bits2) & 0xfff) as usize]; + let litlen_code_bits3 = litlen_entry3 as u8; + let litlen_entry4 = self.compression.litlen_table[(bits + >> (litlen_code_bits + litlen_code_bits2 + litlen_code_bits3) + & 0xfff) + as usize]; + let litlen_code_bits4 = litlen_entry4 as u8; + if litlen_entry2 & litlen_entry3 & litlen_entry4 & LITERAL_ENTRY != 0 { + let advance_output_bytes = ((litlen_entry & 0xf00) >> 8) as usize; + let advance_output_bytes2 = ((litlen_entry2 & 0xf00) >> 8) as usize; + let advance_output_bytes3 = ((litlen_entry3 & 0xf00) >> 8) as usize; + let advance_output_bytes4 = ((litlen_entry4 & 0xf00) >> 8) as usize; + if output_index + + advance_output_bytes + + advance_output_bytes2 + + advance_output_bytes3 + + advance_output_bytes4 + < output.len() + { + self.consume_bits( + litlen_code_bits + + litlen_code_bits2 + + litlen_code_bits3 + + litlen_code_bits4, + ); + + output[output_index] = (litlen_entry >> 16) as u8; + output[output_index + 1] = (litlen_entry >> 24) as u8; + output_index += advance_output_bytes; + output[output_index] = (litlen_entry2 >> 16) as u8; + output[output_index + 1] = (litlen_entry2 >> 24) as u8; + output_index += advance_output_bytes2; + output[output_index] = (litlen_entry3 >> 16) as u8; + output[output_index + 1] = (litlen_entry3 >> 24) as u8; + output_index += advance_output_bytes3; + output[output_index] = (litlen_entry4 >> 16) as u8; + output[output_index + 1] = (litlen_entry4 >> 24) as u8; + output_index += advance_output_bytes4; + continue; + } + } + } + + // Fast path: the next symbol is <= 12 bits and a literal, the table specifies the + // output bytes and we can directly write them to the output buffer. + let advance_output_bytes = ((litlen_entry & 0xf00) >> 8) as usize; + + // match advance_output_bytes { + // 1 => println!("[{output_index}] LIT1 {}", litlen_entry >> 16), + // 2 => println!( + // "[{output_index}] LIT2 {} {} {}", + // (litlen_entry >> 16) as u8, + // litlen_entry >> 24, + // bits & 0xfff + // ), + // n => println!( + // "[{output_index}] LIT{n} {} {}", + // (litlen_entry >> 16) as u8, + // litlen_entry >> 24, + // ), + // } + + if self.nbits < litlen_code_bits { + break; + } else if output_index + 1 < output.len() { + output[output_index] = (litlen_entry >> 16) as u8; + output[output_index + 1] = (litlen_entry >> 24) as u8; + output_index += advance_output_bytes; + self.consume_bits(litlen_code_bits); + continue; + } else if output_index + advance_output_bytes == output.len() { + debug_assert_eq!(advance_output_bytes, 1); + output[output_index] = (litlen_entry >> 16) as u8; + output_index += 1; + self.consume_bits(litlen_code_bits); + break; + } else { + debug_assert_eq!(advance_output_bytes, 2); + output[output_index] = (litlen_entry >> 16) as u8; + self.queued_rle = Some(((litlen_entry >> 24) as u8, 1)); + output_index += 1; + self.consume_bits(litlen_code_bits); + break; + } + } + + let (length_base, length_extra_bits, litlen_code_bits) = + if litlen_entry & EXCEPTIONAL_ENTRY == 0 { + ( + litlen_entry >> 16, + (litlen_entry >> 8) as u8, + litlen_code_bits, + ) + } else if litlen_entry & SECONDARY_TABLE_ENTRY != 0 { + let secondary_index = litlen_entry >> 16; + let secondary_entry = self.compression.secondary_table + [secondary_index as usize + ((bits >> 12) & 0x7) as usize]; + let litlen_symbol = secondary_entry >> 4; + let litlen_code_bits = (secondary_entry & 0xf) as u8; + + if self.nbits < litlen_code_bits { + break; + } else if litlen_symbol < 256 { + // println!("[{output_index}] LIT1b {} (val={:04x})", litlen_symbol, self.peak_bits(15)); + + self.consume_bits(litlen_code_bits); + output[output_index] = litlen_symbol as u8; + output_index += 1; + continue; + } else if litlen_symbol == 256 { + // println!("[{output_index}] EOF"); + self.consume_bits(litlen_code_bits); + self.state = match self.last_block { + true => State::Checksum, + false => State::BlockHeader, + }; + break; + } + + ( + LEN_SYM_TO_LEN_BASE[litlen_symbol as usize - 257] as u32, + LEN_SYM_TO_LEN_EXTRA[litlen_symbol as usize - 257], + litlen_code_bits, + ) + } else if litlen_code_bits == 0 { + return Err(DecompressionError::InvalidLiteralLengthCode); + } else { + if self.nbits < litlen_code_bits { + break; + } + // println!("[{output_index}] EOF"); + self.consume_bits(litlen_code_bits); + self.state = match self.last_block { + true => State::Checksum, + false => State::BlockHeader, + }; + break; + }; + bits >>= litlen_code_bits; + + let length_extra_mask = (1 << length_extra_bits) - 1; + let length = length_base as usize + (bits & length_extra_mask) as usize; + bits >>= length_extra_bits; + + let dist_entry = self.compression.dist_table[(bits & 0x1ff) as usize]; + let (dist_base, dist_extra_bits, dist_code_bits) = if dist_entry != 0 { + ( + (dist_entry >> 16) as u16, + (dist_entry >> 8) as u8, + dist_entry as u8, + ) + } else { + let mut dist_extra_bits = 0; + let mut dist_base = 0; + let mut dist_advance_bits = 0; + for i in 0..self.compression.dist_symbol_lengths.len() { + if bits as u16 & self.compression.dist_symbol_masks[i] + == self.compression.dist_symbol_codes[i] + { + dist_extra_bits = DIST_SYM_TO_DIST_EXTRA[i]; + dist_base = DIST_SYM_TO_DIST_BASE[i]; + dist_advance_bits = self.compression.dist_symbol_lengths[i]; + break; + } + } + if dist_advance_bits == 0 { + return Err(DecompressionError::InvalidDistanceCode); + } + (dist_base, dist_extra_bits, dist_advance_bits) + }; + bits >>= dist_code_bits; + + let dist = dist_base as usize + (bits & ((1 << dist_extra_bits) - 1)) as usize; + let total_bits = + litlen_code_bits + length_extra_bits + dist_code_bits + dist_extra_bits; + + if self.nbits < total_bits { + break; + } else if dist > output_index { + return Err(DecompressionError::DistanceTooFarBack); + } + + // println!("[{output_index}] BACKREF len={} dist={} {:x}", length, dist, dist_entry); + self.consume_bits(total_bits); + + let copy_length = length.min(output.len() - output_index); + if dist == 1 { + let last = output[output_index - 1]; + output[output_index..][..copy_length].fill(last); + + if copy_length < length { + self.queued_rle = Some((last, length - copy_length)); + output_index = output.len(); + break; + } + } else if output_index + length + 15 <= output.len() { + let start = output_index - dist; + output.copy_within(start..start + 16, output_index); + + if length > 16 || dist < 16 { + for i in (0..length).step_by(dist.min(16)).skip(1) { + output.copy_within(start + i..start + i + 16, output_index + i); + } + } + } else { + if dist < copy_length { + for i in 0..copy_length { + output[output_index + i] = output[output_index + i - dist]; + } + } else { + output.copy_within( + output_index - dist..output_index + copy_length - dist, + output_index, + ) + } + + if copy_length < length { + self.queued_backref = Some((dist, length - copy_length)); + output_index = output.len(); + break; + } + } + output_index += copy_length; + } + + if self.state == State::CompressedData + && self.queued_backref.is_none() + && self.queued_rle.is_none() + && self.nbits >= 15 + && self.peak_bits(15) as u16 & self.compression.eof_mask == self.compression.eof_code + { + self.consume_bits(self.compression.eof_bits); + self.state = match self.last_block { + true => State::Checksum, + false => State::BlockHeader, + }; + } + + Ok(output_index) + } + + /// Decompresses a chunk of data. + /// + /// Returns the number of bytes read from `input` and the number of bytes written to `output`, + /// or an error if the deflate stream is not valid. `input` is the compressed data. `output` is + /// the buffer to write the decompressed data to, starting at index `output_position`. + /// `end_of_input` indicates whether more data may be available in the future. + /// + /// The contents of `output` after `output_position` are ignored. However, this function may + /// write additional data to `output` past what is indicated by the return value. + /// + /// When this function returns `Ok`, at least one of the following is true: + /// - The input is fully consumed. + /// - The output is full but there are more bytes to output. + /// - The deflate stream is complete (and `is_done` will return true). + /// + /// # Panics + /// + /// This function will panic if `output_position` is out of bounds. + pub fn read( + &mut self, + input: &[u8], + output: &mut [u8], + output_position: usize, + end_of_input: bool, + ) -> Result<(usize, usize), DecompressionError> { + if let State::Done = self.state { + return Ok((0, 0)); + } + + assert!(output_position <= output.len()); + + let mut remaining_input = input; + let mut output_index = output_position; + + if let Some((data, len)) = self.queued_rle.take() { + let n = len.min(output.len() - output_index); + output[output_index..][..n].fill(data); + output_index += n; + if n < len { + self.queued_rle = Some((data, len - n)); + return Ok((0, n)); + } + } + if let Some((dist, len)) = self.queued_backref.take() { + let n = len.min(output.len() - output_index); + for i in 0..n { + output[output_index + i] = output[output_index + i - dist]; + } + output_index += n; + if n < len { + self.queued_backref = Some((dist, len - n)); + return Ok((0, n)); + } + } + + // Main decoding state machine. + let mut last_state = None; + while last_state != Some(self.state) { + last_state = Some(self.state); + match self.state { + State::ZlibHeader => { + self.fill_buffer(&mut remaining_input); + if self.nbits < 16 { + break; + } + + let input0 = self.peak_bits(8); + let input1 = self.peak_bits(16) >> 8 & 0xff; + if input0 & 0x0f != 0x08 + || (input0 & 0xf0) > 0x70 + || input1 & 0x20 != 0 + || (input0 << 8 | input1) % 31 != 0 + { + return Err(DecompressionError::BadZlibHeader); + } + + self.consume_bits(16); + self.state = State::BlockHeader; + } + State::BlockHeader => { + self.read_block_header(&mut remaining_input)?; + } + State::CodeLengthCodes => { + self.read_code_length_codes(&mut remaining_input)?; + } + State::CodeLengths => { + self.read_code_lengths(&mut remaining_input)?; + } + State::CompressedData => { + output_index = + self.read_compressed(&mut remaining_input, output, output_index)? + } + State::UncompressedData => { + // Drain any bytes from our buffer. + debug_assert_eq!(self.nbits % 8, 0); + while self.nbits > 0 + && self.uncompressed_bytes_left > 0 + && output_index < output.len() + { + output[output_index] = self.peak_bits(8) as u8; + self.consume_bits(8); + output_index += 1; + self.uncompressed_bytes_left -= 1; + } + // Buffer may contain one additional byte. Clear it to avoid confusion. + if self.nbits == 0 { + self.buffer = 0; + } + + // Copy subsequent bytes directly from the input. + let copy_bytes = (self.uncompressed_bytes_left as usize) + .min(remaining_input.len()) + .min(output.len() - output_index); + output[output_index..][..copy_bytes] + .copy_from_slice(&remaining_input[..copy_bytes]); + remaining_input = &remaining_input[copy_bytes..]; + output_index += copy_bytes; + self.uncompressed_bytes_left -= copy_bytes as u16; + + if self.uncompressed_bytes_left == 0 { + self.state = if self.last_block { + State::Checksum + } else { + State::BlockHeader + }; + } + } + State::Checksum => { + self.fill_buffer(&mut remaining_input); + + let align_bits = self.nbits % 8; + if self.nbits >= 32 + align_bits { + self.checksum.write(&output[output_position..output_index]); + if align_bits != 0 { + self.consume_bits(align_bits); + } + #[cfg(not(fuzzing))] + if !self.ignore_adler32 + && (self.peak_bits(32) as u32).swap_bytes() != self.checksum.finish() + { + return Err(DecompressionError::WrongChecksum); + } + self.state = State::Done; + self.consume_bits(32); + break; + } + } + State::Done => unreachable!(), + } + } + + if !self.ignore_adler32 && self.state != State::Done { + self.checksum.write(&output[output_position..output_index]); + } + + if self.state == State::Done || !end_of_input || output_index >= output.len() - 1 { + let input_left = remaining_input.len(); + Ok((input.len() - input_left, output_index - output_position)) + } else { + Err(DecompressionError::InsufficientInput) + } + } + + /// Returns true if the decompressor has finished decompressing the input. + pub fn is_done(&self) -> bool { + self.state == State::Done + } +} + +/// Decompress the given data. +pub fn decompress_to_vec(input: &[u8]) -> Result, DecompressionError> { + match decompress_to_vec_bounded(input, usize::MAX) { + Ok(output) => Ok(output), + Err(BoundedDecompressionError::DecompressionError { inner }) => Err(inner), + Err(BoundedDecompressionError::OutputTooLarge { .. }) => { + unreachable!("Impossible to allocate more than isize::MAX bytes") + } + } +} + +/// An error encountered while decompressing a deflate stream given a bounded maximum output. +pub enum BoundedDecompressionError { + /// The input is not a valid deflate stream. + DecompressionError { + /// The underlying error. + inner: DecompressionError, + }, + + /// The output is too large. + OutputTooLarge { + /// The output decoded so far. + partial_output: Vec, + }, +} +impl From for BoundedDecompressionError { + fn from(inner: DecompressionError) -> Self { + BoundedDecompressionError::DecompressionError { inner } + } +} + +/// Decompress the given data, returning an error if the output is larger than +/// `maxlen` bytes. +pub fn decompress_to_vec_bounded( + input: &[u8], + maxlen: usize, +) -> Result, BoundedDecompressionError> { + let mut decoder = Decompressor::new(); + let mut output = vec![0; 1024.min(maxlen)]; + let mut input_index = 0; + let mut output_index = 0; + loop { + let (consumed, produced) = + decoder.read(&input[input_index..], &mut output, output_index, true)?; + input_index += consumed; + output_index += produced; + if decoder.is_done() || output_index == maxlen { + break; + } + output.resize((output_index + 32 * 1024).min(maxlen), 0); + } + output.resize(output_index, 0); + + if decoder.is_done() { + Ok(output) + } else { + Err(BoundedDecompressionError::OutputTooLarge { + partial_output: output, + }) + } +} + +#[cfg(test)] +mod tests { + use crate::tables::{self, LENGTH_TO_LEN_EXTRA, LENGTH_TO_SYMBOL}; + + use super::*; + use rand::Rng; + + fn roundtrip(data: &[u8]) { + let compressed = crate::compress_to_vec(data); + let decompressed = decompress_to_vec(&compressed).unwrap(); + assert_eq!(&decompressed, data); + } + + fn roundtrip_miniz_oxide(data: &[u8]) { + let compressed = miniz_oxide::deflate::compress_to_vec_zlib(data, 3); + let decompressed = decompress_to_vec(&compressed).unwrap(); + assert_eq!(decompressed.len(), data.len()); + for (i, (a, b)) in decompressed.chunks(1).zip(data.chunks(1)).enumerate() { + assert_eq!(a, b, "chunk {}..{}", i * 1, i * 1 + 1); + } + assert_eq!(&decompressed, data); + } + + #[allow(unused)] + fn compare_decompression(data: &[u8]) { + // let decompressed0 = flate2::read::ZlibDecoder::new(std::io::Cursor::new(&data)) + // .bytes() + // .collect::, _>>() + // .unwrap(); + let decompressed = decompress_to_vec(&data).unwrap(); + let decompressed2 = miniz_oxide::inflate::decompress_to_vec_zlib(&data).unwrap(); + for i in 0..decompressed.len().min(decompressed2.len()) { + if decompressed[i] != decompressed2[i] { + panic!( + "mismatch at index {} {:?} {:?}", + i, + &decompressed[i.saturating_sub(1)..(i + 16).min(decompressed.len())], + &decompressed2[i.saturating_sub(1)..(i + 16).min(decompressed2.len())] + ); + } + } + if decompressed != decompressed2 { + panic!( + "length mismatch {} {} {:x?}", + decompressed.len(), + decompressed2.len(), + &decompressed2[decompressed.len()..][..16] + ); + } + //assert_eq!(decompressed, decompressed2); + } + + #[test] + fn tables() { + for (i, &bits) in LEN_SYM_TO_LEN_EXTRA.iter().enumerate() { + let len_base = LEN_SYM_TO_LEN_BASE[i]; + for j in 0..(1 << bits) { + if i == 27 && j == 31 { + continue; + } + assert_eq!(LENGTH_TO_LEN_EXTRA[len_base + j - 3], bits, "{} {}", i, j); + assert_eq!( + LENGTH_TO_SYMBOL[len_base + j - 3], + i as u16 + 257, + "{} {}", + i, + j + ); + } + } + } + + #[test] + fn fdeflate_table() { + let mut compression = CompressedBlock { + litlen_table: [0; 4096], + dist_table: [0; 512], + dist_symbol_lengths: [0; 30], + dist_symbol_masks: [0; 30], + dist_symbol_codes: [0; 30], + secondary_table: Vec::new(), + eof_code: 0, + eof_mask: 0, + eof_bits: 0, + }; + let mut lengths = tables::HUFFMAN_LENGTHS.to_vec(); + lengths.resize(288, 0); + lengths.push(1); + lengths.resize(320, 0); + Decompressor::build_tables(286, &lengths, &mut compression, 11).unwrap(); + + assert_eq!( + compression, FDEFLATE_COMPRESSED_BLOCK, + "{:#x?}", + compression + ); + } + + #[test] + fn it_works() { + roundtrip(b"Hello world!"); + } + + #[test] + fn constant() { + roundtrip_miniz_oxide(&vec![0; 50]); + roundtrip_miniz_oxide(&vec![5; 2048]); + roundtrip_miniz_oxide(&vec![128; 2048]); + roundtrip_miniz_oxide(&vec![254; 2048]); + } + + #[test] + fn random() { + let mut rng = rand::thread_rng(); + let mut data = vec![0; 50000]; + for _ in 0..10 { + for byte in &mut data { + *byte = rng.gen::() % 5; + } + println!("Random data: {:?}", data); + roundtrip_miniz_oxide(&data); + } + } + + #[test] + fn ignore_adler32() { + let mut compressed = crate::compress_to_vec(b"Hello world!"); + let last_byte = compressed.len() - 1; + compressed[last_byte] = compressed[last_byte].wrapping_add(1); + + match decompress_to_vec(&compressed) { + Err(DecompressionError::WrongChecksum) => {} + r => panic!("expected WrongChecksum, got {:?}", r), + } + + let mut decompressor = Decompressor::new(); + decompressor.ignore_adler32(); + let mut decompressed = vec![0; 1024]; + let decompressed_len = decompressor + .read(&compressed, &mut decompressed, 0, true) + .unwrap() + .1; + assert_eq!(&decompressed[..decompressed_len], b"Hello world!"); + } + + #[test] + fn checksum_after_eof() { + let input = b"Hello world!"; + let compressed = crate::compress_to_vec(input); + + let mut decompressor = Decompressor::new(); + let mut decompressed = vec![0; 1024]; + let (input_consumed, output_written) = decompressor + .read( + &compressed[..compressed.len() - 1], + &mut decompressed, + 0, + false, + ) + .unwrap(); + assert_eq!(output_written, input.len()); + assert_eq!(input_consumed, compressed.len() - 1); + + let (input_consumed, output_written) = decompressor + .read( + &compressed[input_consumed..], + &mut decompressed[..output_written], + output_written, + true, + ) + .unwrap(); + assert!(decompressor.is_done()); + assert_eq!(input_consumed, 1); + assert_eq!(output_written, 0); + + assert_eq!(&decompressed[..input.len()], input); + } + + #[test] + fn zero_length() { + let mut compressed = crate::compress_to_vec(b"").to_vec(); + + // Splice in zero-length non-compressed blocks. + for _ in 0..10 { + println!("compressed len: {}", compressed.len()); + compressed.splice(2..2, [0u8, 0, 0, 0xff, 0xff].into_iter()); + } + + // Ensure that the full input is decompressed, regardless of whether + // `end_of_input` is set. + for end_of_input in [true, false] { + let mut decompressor = Decompressor::new(); + let (input_consumed, output_written) = decompressor + .read(&compressed, &mut [], 0, end_of_input) + .unwrap(); + + assert!(decompressor.is_done()); + assert_eq!(input_consumed, compressed.len()); + assert_eq!(output_written, 0); + } + } +} diff --git a/vendor/fdeflate/src/lib.rs b/vendor/fdeflate/src/lib.rs new file mode 100644 index 0000000..569c872 --- /dev/null +++ b/vendor/fdeflate/src/lib.rs @@ -0,0 +1,123 @@ +//! A fast deflate implementation. +//! +//! This crate contains an optimized implementation of the deflate algorithm tuned to compress PNG +//! images. It is compatible with standard zlib, but make a bunch of simplifying assumptions that +//! drastically improve encoding performance: +//! +//! - Exactly one block per deflate stream. +//! - No distance codes except for run length encoding of zeros. +//! - A single fixed huffman tree trained on a large corpus of PNG images. +//! - All huffman codes are 12 bits or less. +//! +//! It also contains a fast decompressor that supports arbitrary zlib streams but does especially +//! well on streams that meet the above assumptions. +//! +//! # Inspiration +//! +//! The algorithms in this crate take inspiration from multiple sources: +//! * [fpnge](https://github.com/veluca93/fpnge) +//! * [zune-inflate](https://github.com/etemesi254/zune-image/tree/main/zune-inflate) +//! * [RealTime Data Compression blog](https://fastcompression.blogspot.com/2015/10/huffman-revisited-part-4-multi-bytes.html) +#![forbid(unsafe_code)] +#![warn(missing_docs)] + +mod compress; +mod decompress; +mod tables; + +pub use compress::{compress_to_vec, Compressor, StoredOnlyCompressor}; +pub use decompress::{ + decompress_to_vec, decompress_to_vec_bounded, BoundedDecompressionError, DecompressionError, + Decompressor, +}; + +/// Build a length limited huffman tree. +/// +/// Dynamic programming algorithm from fpnge. +#[doc(hidden)] +pub fn compute_code_lengths( + freqs: &[u64], + min_limit: &[u8], + max_limit: &[u8], + calculated_nbits: &mut [u8], +) { + debug_assert_eq!(freqs.len(), min_limit.len()); + debug_assert_eq!(freqs.len(), max_limit.len()); + debug_assert_eq!(freqs.len(), calculated_nbits.len()); + let len = freqs.len(); + + for i in 0..len { + debug_assert!(min_limit[i] >= 1); + debug_assert!(min_limit[i] <= max_limit[i]); + } + + let precision = *max_limit.iter().max().unwrap(); + let num_patterns = 1 << precision; + + let mut dynp = vec![u64::MAX; (num_patterns + 1) * (len + 1)]; + let index = |sym: usize, off: usize| sym * (num_patterns + 1) + off; + + dynp[index(0, 0)] = 0; + for sym in 0..len { + for bits in min_limit[sym]..=max_limit[sym] { + let off_delta = 1 << (precision - bits); + for off in 0..=num_patterns.saturating_sub(off_delta) { + dynp[index(sym + 1, off + off_delta)] = dynp[index(sym, off)] + .saturating_add(freqs[sym] * u64::from(bits)) + .min(dynp[index(sym + 1, off + off_delta)]); + } + } + } + + let mut sym = len; + let mut off = num_patterns; + + while sym > 0 { + sym -= 1; + assert!(off > 0); + + for bits in min_limit[sym]..=max_limit[sym] { + let off_delta = 1 << (precision - bits); + if off_delta <= off + && dynp[index(sym + 1, off)] + == dynp[index(sym, off - off_delta)] + .saturating_add(freqs[sym] * u64::from(bits)) + { + off -= off_delta; + calculated_nbits[sym] = bits; + break; + } + } + } + + for i in 0..len { + debug_assert!(calculated_nbits[i] >= min_limit[i]); + debug_assert!(calculated_nbits[i] <= max_limit[i]); + } +} + +const fn compute_codes(lengths: &[u8; NSYMS]) -> Option<[u16; NSYMS]> { + let mut codes = [0u16; NSYMS]; + + let mut code = 0u32; + + let mut len = 1; + while len <= 16 { + let mut i = 0; + while i < lengths.len() { + if lengths[i] == len { + codes[i] = (code as u16).reverse_bits() >> (16 - len); + code += 1; + } + i += 1; + } + code <<= 1; + len += 1; + } + + if code == 2 << 16 { + Some(codes) + } else { + None + } +} diff --git a/vendor/fdeflate/src/tables.rs b/vendor/fdeflate/src/tables.rs new file mode 100644 index 0000000..8b233c8 --- /dev/null +++ b/vendor/fdeflate/src/tables.rs @@ -0,0 +1,635 @@ +/// Hard-coded Huffman codes used regardless of the input. +/// +/// These values work well for PNGs with some form of filtering enabled, but will likely make most +/// other inputs worse. +pub(crate) const HUFFMAN_LENGTHS: [u8; 286] = [ + 2, 3, 4, 5, 5, 6, 6, 7, 7, 7, 8, 8, 8, 8, 8, 9, 9, 9, 9, 9, 9, 9, 10, 10, 10, 10, 10, 10, 10, + 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, + 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, + 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, + 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, + 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, + 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, + 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, + 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 11, 11, 11, 11, 11, 11, 11, + 11, 11, 11, 10, 11, 10, 10, 10, 10, 10, 10, 10, 10, 10, 9, 9, 9, 9, 9, 8, 9, 8, 8, 8, 8, 8, 7, + 7, 7, 6, 6, 6, 5, 4, 3, 12, 12, 12, 9, 9, 11, 10, 11, 11, 10, 11, 11, 11, 11, 11, 11, 12, 11, + 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 9, +]; + +pub(crate) const HUFFMAN_CODES: [u16; 286] = match crate::compute_codes(&HUFFMAN_LENGTHS) { + Some(codes) => codes, + None => panic!("HUFFMAN_LENGTHS is invalid"), +}; + +/// Length code for length values (derived from deflate spec). +pub(crate) const LENGTH_TO_SYMBOL: [u16; 256] = [ + 257, 258, 259, 260, 261, 262, 263, 264, 265, 265, 266, 266, 267, 267, 268, 268, 269, 269, 269, + 269, 270, 270, 270, 270, 271, 271, 271, 271, 272, 272, 272, 272, 273, 273, 273, 273, 273, 273, + 273, 273, 274, 274, 274, 274, 274, 274, 274, 274, 275, 275, 275, 275, 275, 275, 275, 275, 276, + 276, 276, 276, 276, 276, 276, 276, 277, 277, 277, 277, 277, 277, 277, 277, 277, 277, 277, 277, + 277, 277, 277, 277, 278, 278, 278, 278, 278, 278, 278, 278, 278, 278, 278, 278, 278, 278, 278, + 278, 279, 279, 279, 279, 279, 279, 279, 279, 279, 279, 279, 279, 279, 279, 279, 279, 280, 280, + 280, 280, 280, 280, 280, 280, 280, 280, 280, 280, 280, 280, 280, 280, 281, 281, 281, 281, 281, + 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, 281, + 281, 281, 281, 281, 281, 281, 281, 281, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, + 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, 282, + 282, 282, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, + 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 283, 284, 284, 284, 284, + 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, 284, + 284, 284, 284, 284, 284, 284, 284, 284, 285, +]; + +/// Number of extra bits for length values (derived from deflate spec). +pub(crate) const LENGTH_TO_LEN_EXTRA: [u8; 256] = [ + 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, + 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, + 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, + 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, + 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, + 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, + 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, + 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 0, +]; + +pub(crate) const BITMASKS: [u32; 17] = [ + 0x0000, 0x0001, 0x0003, 0x0007, 0x000F, 0x001F, 0x003F, 0x007F, 0x00FF, 0x01FF, 0x03FF, 0x07FF, + 0x0FFF, 0x1FFF, 0x3FFF, 0x7FFF, 0xFFFF, +]; + +/// Order of the length code length alphabet (derived from deflate spec). +pub(crate) const CLCL_ORDER: [usize; 19] = [ + 16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15, +]; + +/// Number of extra bits for each length code (derived from deflate spec). +pub(crate) const LEN_SYM_TO_LEN_EXTRA: [u8; 29] = [ + 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, +]; + +/// The base length for each length code (derived from deflate spec). +pub(crate) const LEN_SYM_TO_LEN_BASE: [usize; 29] = [ + 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31, 35, 43, 51, 59, 67, 83, 99, 115, 131, + 163, 195, 227, 258, +]; + +/// Number of extra bits for each distance code (derived from deflate spec.) +pub(crate) const DIST_SYM_TO_DIST_EXTRA: [u8; 30] = [ + 0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, + 13, +]; + +/// The base distance for each distance code (derived from deflate spec). +pub(crate) const DIST_SYM_TO_DIST_BASE: [u16; 30] = [ + 1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193, 257, 385, 513, 769, 1025, 1537, + 2049, 3073, 4097, 6145, 8193, 12289, 16385, 24577, +]; + +pub(crate) const FDEFLATE_LITLEN_DECODE_TABLE: [u32; 4096] = [ + 0x8204, 0x28206, 0x18205, 0xfa8208, 0x2008206, 0x38207, 0xff8205, 0xf4820a, 0x1008205, + 0xfe8206, 0x2018207, 0x98209, 0xfa008208, 0xfd8207, 0x2ff8207, 0xb010a, 0x8204, 0x2028208, + 0x1018206, 0xfc8208, 0x3008207, 0x48207, 0x1ff8206, 0xee820b, 0xff008205, 0x2fe8208, + 0xfa018209, 0xa820a, 0xf400820a, 0x58208, 0xfaff8209, 0x65810c, 0x8204, 0x1028207, 0x18205, + 0xfb8208, 0xfe008206, 0x2038209, 0xff8205, 0x11820b, 0x1008205, 0x1fe8207, 0x3018208, 0xf88209, + 0x9008209, 0x2fd8209, 0x3ff8208, 0x17020b, 0x8204, 0xfa02820a, 0xff018206, 0x78209, 0xfd008207, + 0x2048209, 0xffff8206, 0x1a820c, 0xff008205, 0xfafe820a, 0xf401820b, 0xe820a, 0x8102, 0x68208, + 0xf4ff820b, 0xa5810c, 0x8204, 0x28206, 0x18205, 0x2fa820a, 0x2008206, 0x1038208, 0xff8205, + 0xf6820a, 0x1008205, 0xfe8206, 0xfe018207, 0xf78209, 0xfc008208, 0x1fd8208, 0xfeff8207, + 0xd8810b, 0x8204, 0x3028209, 0x1018206, 0x2fc820a, 0x4008207, 0x1048208, 0x1ff8206, 0x60009, + 0xff008205, 0x3fe8209, 0x901820a, 0xc820a, 0xee00820b, 0x205820a, 0x9ff820a, 0x85810c, 0x8204, + 0xff028207, 0x18205, 0x2fb820a, 0xfe008206, 0xfa03820b, 0xff8205, 0x15820b, 0x1008205, + 0xfffe8207, 0xfd018208, 0xf98209, 0xa00820a, 0xfafd820b, 0xfdff8208, 0x45810c, 0x8204, + 0xf402820c, 0xff018206, 0x88209, 0x5008208, 0xfa04820b, 0xffff8206, 0xe4820c, 0xff008205, + 0xf4fe820c, 0x18103, 0xf2820a, 0x8102, 0x206820a, 0xff8103, 0xc5810c, 0x8204, 0x28206, 0x18205, + 0x1fa8209, 0x2008206, 0x38207, 0xff8205, 0xf5820a, 0x1008205, 0xfe8206, 0x2018207, 0x209820b, + 0xfb008208, 0xfd8207, 0x2ff8207, 0x25810b, 0x8204, 0xfe028208, 0x1018206, 0x1fc8209, 0x3008207, + 0x48207, 0x1ff8206, 0xf1820b, 0xff008205, 0xfefe8208, 0xfc018209, 0xb820a, 0x1100820b, + 0x1058209, 0xfcff8209, 0x75810c, 0x8204, 0x1028207, 0x18205, 0x1fb8209, 0xfe008206, 0x303820a, + 0xff8205, 0x13820b, 0x1008205, 0x1fe8207, 0x4018208, 0x2f8820b, 0xf8008209, 0x3fd820a, + 0x4ff8208, 0x35810c, 0x8204, 0x902820b, 0xff018206, 0x207820b, 0xfd008207, 0x304820a, + 0xffff8206, 0x1e820c, 0xff008205, 0x9fe820b, 0xee01820c, 0xf0820a, 0x8102, 0x1068209, + 0xeeff820c, 0xb5810c, 0x8204, 0x28206, 0x18205, 0xfafa820c, 0x2008206, 0xff038208, 0xff8205, + 0xf820b, 0x1008205, 0xfe8206, 0xfe018207, 0x2f7820b, 0x7008209, 0xfffd8208, 0xfeff8207, + 0xe1810b, 0x8204, 0xfd028209, 0x1018206, 0xfafc820c, 0x4008207, 0xff048208, 0x1ff8206, + 0x16820c, 0xff008205, 0xfdfe8209, 0xa01820b, 0xd820a, 0x1a00820c, 0xfa05820c, 0xaff820b, + 0x95810c, 0x8204, 0xff028207, 0x18205, 0xfafb820c, 0xfe008206, 0x38105, 0xff8205, 0xec820b, + 0x1008205, 0xfffe8207, 0x5018209, 0x2f9820b, 0xe00820a, 0xfd8105, 0x5ff8209, 0x55810c, 0x8204, + 0x28104, 0xff018206, 0x208820b, 0x6008208, 0x48105, 0xffff8206, 0xe8820c, 0xff008205, 0xfe8104, + 0x18103, 0xf3820a, 0x8102, 0xfa06820c, 0xff8103, 0xd5810c, 0x8204, 0x28206, 0x18205, 0xfa8208, + 0x2008206, 0x38207, 0xff8205, 0x2f4820c, 0x1008205, 0xfe8206, 0x2018207, 0x109820a, 0xfa008208, + 0xfd8207, 0x2ff8207, 0x21810b, 0x8204, 0x2028208, 0x1018206, 0xfc8208, 0x3008207, 0x48207, + 0x1ff8206, 0xef820b, 0xff008205, 0x2fe8208, 0xfb018209, 0x20a820c, 0xf600820a, 0x58208, + 0xfbff8209, 0x6d810c, 0x8204, 0x1028207, 0x18205, 0xfb8208, 0xfe008206, 0xfe038209, 0xff8205, + 0x12820b, 0x1008205, 0x1fe8207, 0x3018208, 0x1f8820a, 0xf7008209, 0xfefd8209, 0x3ff8208, + 0x2d810c, 0x8204, 0xfc02820a, 0xff018206, 0x107820a, 0xfd008207, 0xfe048209, 0xffff8206, + 0x1c820c, 0xff008205, 0xfcfe820a, 0x1101820c, 0x20e820c, 0x8102, 0x68208, 0x11ff820c, 0xad810c, + 0x8204, 0x28206, 0x18205, 0x3fa820b, 0x2008206, 0x1038208, 0xff8205, 0x2f6820c, 0x1008205, + 0xfe8206, 0xfe018207, 0x1f7820a, 0xfc008208, 0x1fd8208, 0xfeff8207, 0xdc810b, 0x8204, + 0x4028209, 0x1018206, 0x3fc820b, 0x4008207, 0x1048208, 0x1ff8206, 0x1020009, 0xff008205, + 0x4fe8209, 0xf801820a, 0x20c820c, 0x8102, 0x305820b, 0xf8ff820a, 0x8d810c, 0x8204, 0xff028207, + 0x18205, 0x3fb820b, 0xfe008206, 0x903820c, 0xff8205, 0xeb820b, 0x1008205, 0xfffe8207, + 0xfd018208, 0x1f9820a, 0xc00820a, 0x9fd820c, 0xfdff8208, 0x4d810c, 0x8204, 0x28104, 0xff018206, + 0x108820a, 0x5008208, 0x904820c, 0xffff8206, 0xe6820c, 0xff008205, 0xfe8104, 0x18103, + 0x2f2820c, 0x8102, 0x306820b, 0xff8103, 0xcd810c, 0x8204, 0x28206, 0x18205, 0xfffa8209, + 0x2008206, 0x38207, 0xff8205, 0x2f5820c, 0x1008205, 0xfe8206, 0x2018207, 0x98107, 0xfb008208, + 0xfd8207, 0x2ff8207, 0x29810b, 0x8204, 0xfe028208, 0x1018206, 0xfffc8209, 0x3008207, 0x48207, + 0x1ff8206, 0x50009, 0xff008205, 0xfefe8208, 0x701820a, 0x20b820c, 0x1500820b, 0xff058209, + 0x7ff820a, 0x7d810c, 0x8204, 0x1028207, 0x18205, 0xfffb8209, 0xfe008206, 0xfd03820a, 0xff8205, + 0x14820b, 0x1008205, 0x1fe8207, 0x4018208, 0xf88107, 0xf9008209, 0xfdfd820a, 0x4ff8208, + 0x3d810c, 0x8204, 0xa02820c, 0xff018206, 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0x68106, 0xff8103, 0x73040c, 0x8204, + 0x28206, 0x18205, 0xfa8208, 0x2008206, 0x38207, 0xff8205, 0xfff4820b, 0x1008205, 0xfe8206, + 0x2018207, 0x98209, 0xfa008208, 0xfd8207, 0x2ff8207, 0x20810b, 0x8204, 0x2028208, 0x1018206, + 0xfc8208, 0x3008207, 0x48207, 0x1ff8206, 0xee8109, 0xff008205, 0x2fe8208, 0xfa018209, + 0xff0a820b, 0xf500820a, 0x58208, 0xfaff8209, 0x6c810c, 0x8204, 0x1028207, 0x18205, 0xfb8208, + 0xfe008206, 0x2038209, 0xff8205, 0x118109, 0x1008205, 0x1fe8207, 0x3018208, 0xf88209, + 0x9008209, 0x2fd8209, 0x3ff8208, 0x2c810c, 0x8204, 0xfb02820a, 0xff018206, 0x78209, 0xfd008207, + 0x2048209, 0xffff8206, 0x1b810a, 0xff008205, 0xfbfe820a, 0x1001820c, 0xff0e820b, 0x8102, + 0x68208, 0x10ff820c, 0xac810c, 0x8204, 0x28206, 0x18205, 0xfefa820a, 0x2008206, 0x1038208, + 0xff8205, 0xfff6820b, 0x1008205, 0xfe8206, 0xfe018207, 0xf78209, 0xfc008208, 0x1fd8208, + 0xfeff8207, 0xdb810b, 0x8204, 0x3028209, 0x1018206, 0xfefc820a, 0x4008207, 0x1048208, + 0x1ff8206, 0x60009, 0xff008205, 0x3fe8209, 0xf701820a, 0xff0c820b, 0x8102, 0xfe05820a, + 0xf7ff820a, 0x8c810c, 0x8204, 0xff028207, 0x18205, 0xfefb820a, 0xfe008206, 0x803820c, 0xff8205, + 0x158109, 0x1008205, 0xfffe8207, 0xfd018208, 0xf98209, 0xb00820a, 0x8fd820c, 0xfdff8208, + 0x4c810c, 0x8204, 0x28104, 0xff018206, 0x88209, 0x5008208, 0x804820c, 0xffff8206, 0xe5810a, + 0xff008205, 0xfe8104, 0x18103, 0xfff2820b, 0x8102, 0xfe06820a, 0xff8103, 0xcc810c, 0x8204, + 0x28206, 0x18205, 0x1fa8209, 0x2008206, 0x38207, 0xff8205, 0xfff5820b, 0x1008205, 0xfe8206, + 0x2018207, 0x98107, 0xfb008208, 0xfd8207, 0x2ff8207, 0x28810b, 0x8204, 0xfe028208, 0x1018206, + 0x1fc8209, 0x3008207, 0x48207, 0x1ff8206, 0xf18109, 0xff008205, 0xfefe8208, 0xfc018209, + 0xff0b820b, 0x1400820b, 0x1058209, 0xfcff8209, 0x7c810c, 0x8204, 0x1028207, 0x18205, 0x1fb8209, + 0xfe008206, 0x403820a, 0xff8205, 0x138109, 0x1008205, 0x1fe8207, 0x4018208, 0xf88107, + 0xf8008209, 0x4fd820a, 0x4ff8208, 0x3c810c, 0x8204, 0xf902820b, 0xff018206, 0x78107, + 0xfd008207, 0x404820a, 0xffff8206, 0xe0810a, 0xff008205, 0xf9fe820b, 0x18103, 0xfff0820b, + 0x8102, 0x1068209, 0xff8103, 0xbc810c, 0x8204, 0x28206, 0x18205, 0xfa8106, 0x2008206, + 0xff038208, 0xff8205, 0xf8109, 0x1008205, 0xfe8206, 0xfe018207, 0xf78107, 0x7008209, + 0xfffd8208, 0xfeff8207, 0xa000b, 0x8204, 0xfd028209, 0x1018206, 0xfc8106, 0x4008207, + 0xff048208, 0x1ff8206, 0x17810a, 0xff008205, 0xfdfe8209, 0xd01820b, 0xff0d820b, 0xe300820c, + 0x58106, 0xdff820b, 0x9c810c, 0x8204, 0xff028207, 0x18205, 0xfb8106, 0xfe008206, 0x38105, + 0xff8205, 0xec8109, 0x1008205, 0xfffe8207, 0x5018209, 0xf98107, 0xf000820a, 0xfd8105, + 0x5ff8209, 0x5c810c, 0x8204, 0x28104, 0xff018206, 0x88107, 0x6008208, 0x48105, 0xffff8206, + 0xe9810a, 0xff008205, 0xfe8104, 0x18103, 0xfff3820b, 0x8102, 0x68106, 0xff8103, 0x3b030c, + 0x8204, 0x28206, 0x18205, 0xfa8208, 0x2008206, 0x38207, 0xff8205, 0xf48108, 0x1008205, + 0xfe8206, 0x2018207, 0xff09820a, 0xfa008208, 0xfd8207, 0x2ff8207, 0x24810b, 0x8204, 0x2028208, + 0x1018206, 0xfc8208, 0x3008207, 0x48207, 0x1ff8206, 0xef8109, 0xff008205, 0x2fe8208, + 0xfb018209, 0xa8108, 0x1000820b, 0x58208, 0xfbff8209, 0x74810c, 0x8204, 0x1028207, 0x18205, + 0xfb8208, 0xfe008206, 0xfe038209, 0xff8205, 0x128109, 0x1008205, 0x1fe8207, 0x3018208, + 0xfff8820a, 0xf7008209, 0xfefd8209, 0x3ff8208, 0x34810c, 0x8204, 0x802820b, 0xff018206, + 0xff07820a, 0xfd008207, 0xfe048209, 0xffff8206, 0x1d810a, 0xff008205, 0x8fe820b, 0xed01820c, + 0xe8108, 0x8102, 0x68208, 0xedff820c, 0xb4810c, 0x8204, 0x28206, 0x18205, 0x6fa820c, 0x2008206, + 0x1038208, 0xff8205, 0xf68108, 0x1008205, 0xfe8206, 0xfe018207, 0xfff7820a, 0xfc008208, + 0x1fd8208, 0xfeff8207, 0xdf810b, 0x8204, 0x4028209, 0x1018206, 0x6fc820c, 0x4008207, 0x1048208, + 0x1ff8206, 0x1020009, 0xff008205, 0x4fe8209, 0xf901820a, 0xc8108, 0x1900820c, 0x605820c, + 0xf9ff820a, 0x94810c, 0x8204, 0xff028207, 0x18205, 0x6fb820c, 0xfe008206, 0x38105, 0xff8205, + 0xeb8109, 0x1008205, 0xfffe8207, 0xfd018208, 0xfff9820a, 0xd00820a, 0xfd8105, 0xfdff8208, + 0x54810c, 0x8204, 0x28104, 0xff018206, 0xff08820a, 0x5008208, 0x48105, 0xffff8206, 0xe7810a, + 0xff008205, 0xfe8104, 0x18103, 0xf28108, 0x8102, 0x606820c, 0xff8103, 0xd4810c, 0x8204, + 0x28206, 0x18205, 0xfffa8209, 0x2008206, 0x38207, 0xff8205, 0xf58108, 0x1008205, 0xfe8206, + 0x2018207, 0x98107, 0xfb008208, 0xfd8207, 0x2ff8207, 0xd7810b, 0x8204, 0xfe028208, 0x1018206, + 0xfffc8209, 0x3008207, 0x48207, 0x1ff8206, 0x50009, 0xff008205, 0xfefe8208, 0x801820a, 0xb8108, + 0xed00820b, 0xff058209, 0x8ff820a, 0x84810c, 0x8204, 0x1028207, 0x18205, 0xfffb8209, + 0xfe008206, 0x603820b, 0xff8205, 0x148109, 0x1008205, 0x1fe8207, 0x4018208, 0xf88107, + 0xf9008209, 0x6fd820b, 0x4ff8208, 0x44810c, 0x8204, 0xf302820c, 0xff018206, 0x78107, + 0xfd008207, 0x604820b, 0xffff8206, 0xe3810a, 0xff008205, 0xf3fe820c, 0x18103, 0xf08108, 0x8102, + 0xff068209, 0xff8103, 0xc4810c, 0x8204, 0x28206, 0x18205, 0xfa8106, 0x2008206, 0xff038208, + 0xff8205, 0x108109, 0x1008205, 0xfe8206, 0xfe018207, 0xf78107, 0x8008209, 0xfffd8208, + 0xfeff8207, 0x13020b, 0x8204, 0x602820a, 0x1018206, 0xfc8106, 0x4008207, 0xff048208, 0x1ff8206, + 0x19810a, 0xff008205, 0x6fe820a, 0xf301820b, 0xd8108, 0x8102, 0x58106, 0xf3ff820b, 0xa4810c, + 0x8204, 0xff028207, 0x18205, 0xfb8106, 0xfe008206, 0x38105, 0xff8205, 0xed8109, 0x1008205, + 0xfffe8207, 0x6018209, 0xf98107, 0xf300820a, 0xfd8105, 0x6ff8209, 0x64810c, 0x8204, 0x28104, + 0xff018206, 0x88107, 0x6008208, 0x48105, 0xffff8206, 0x8000a, 0xff008205, 0xfe8104, 0x18103, + 0xf38108, 0x8102, 0x68106, 0xff8103, 0xe3050c, +]; + +pub(crate) const FDEFLATE_DIST_DECODE_TABLE: [u32; 512] = [ + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, + 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, 0x0, 0x10001, + 0x0, 0x10001, 0x0, 0x10001, 0x0, +]; + +pub(crate) const FIXED_CODE_LENGTHS: [u8; 320] = make_fixed_code_lengths(); +const fn make_fixed_code_lengths() -> [u8; 320] { + let mut i = 0; + let mut lengths = [0; 320]; + while i < 144 { + lengths[i] = 8; + i += 1; + } + while i < 256 { + lengths[i] = 9; + i += 1; + } + while i < 280 { + lengths[i] = 7; + i += 1; + } + while i < 288 { + lengths[i] = 8; + i += 1; + } + while i < 320 { + lengths[i] = 5; + i += 1; + } + lengths +} -- cgit v1.2.3