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460 lines
12 KiB
460 lines
12 KiB
///////////////////////////////////////////////////////////////////////////////
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//
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/// \file stream_decoder.c
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/// \brief Decodes .xz Streams
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//
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// Author: Lasse Collin
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//
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// This file has been put into the public domain.
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// You can do whatever you want with this file.
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//
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///////////////////////////////////////////////////////////////////////////////
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#include "stream_decoder.h"
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#include "block_decoder.h"
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struct lzma_coder_s {
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enum {
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SEQ_STREAM_HEADER,
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SEQ_BLOCK_HEADER,
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SEQ_BLOCK,
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SEQ_INDEX,
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SEQ_STREAM_FOOTER,
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SEQ_STREAM_PADDING,
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} sequence;
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/// Block or Metadata decoder. This takes little memory and the same
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/// data structure can be used to decode every Block Header, so it's
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/// a good idea to have a separate lzma_next_coder structure for it.
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lzma_next_coder block_decoder;
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/// Block options decoded by the Block Header decoder and used by
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/// the Block decoder.
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lzma_block block_options;
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/// Stream Flags from Stream Header
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lzma_stream_flags stream_flags;
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/// Index is hashed so that it can be compared to the sizes of Blocks
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/// with O(1) memory usage.
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lzma_index_hash *index_hash;
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/// Memory usage limit
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uint64_t memlimit;
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/// Amount of memory actually needed (only an estimate)
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uint64_t memusage;
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/// If true, LZMA_NO_CHECK is returned if the Stream has
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/// no integrity check.
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bool tell_no_check;
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/// If true, LZMA_UNSUPPORTED_CHECK is returned if the Stream has
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/// an integrity check that isn't supported by this liblzma build.
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bool tell_unsupported_check;
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/// If true, LZMA_GET_CHECK is returned after decoding Stream Header.
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bool tell_any_check;
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/// If true, we will decode concatenated Streams that possibly have
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/// Stream Padding between or after them. LZMA_STREAM_END is returned
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/// once the application isn't giving us any new input, and we aren't
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/// in the middle of a Stream, and possible Stream Padding is a
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/// multiple of four bytes.
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bool concatenated;
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/// When decoding concatenated Streams, this is true as long as we
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/// are decoding the first Stream. This is needed to avoid misleading
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/// LZMA_FORMAT_ERROR in case the later Streams don't have valid magic
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/// bytes.
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bool first_stream;
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/// Write position in buffer[] and position in Stream Padding
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size_t pos;
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/// Buffer to hold Stream Header, Block Header, and Stream Footer.
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/// Block Header has biggest maximum size.
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uint8_t buffer[LZMA_BLOCK_HEADER_SIZE_MAX];
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};
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static lzma_ret
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stream_decoder_reset(lzma_coder *coder, lzma_allocator *allocator)
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{
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// Initialize the Index hash used to verify the Index.
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coder->index_hash = lzma_index_hash_init(coder->index_hash, allocator);
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if (coder->index_hash == NULL)
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return LZMA_MEM_ERROR;
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// Reset the rest of the variables.
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coder->sequence = SEQ_STREAM_HEADER;
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coder->pos = 0;
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return LZMA_OK;
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}
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static lzma_ret
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stream_decode(lzma_coder *coder, lzma_allocator *allocator,
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const uint8_t *LZMA_RESTRICT in, size_t *LZMA_RESTRICT in_pos,
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size_t in_size, uint8_t *LZMA_RESTRICT out,
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size_t *LZMA_RESTRICT out_pos, size_t out_size, lzma_action action)
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{
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// When decoding the actual Block, it may be able to produce more
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// output even if we don't give it any new input.
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while (true)
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switch (coder->sequence) {
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case SEQ_STREAM_HEADER: {
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lzma_ret ret;
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// Copy the Stream Header to the internal buffer.
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lzma_bufcpy(in, in_pos, in_size, coder->buffer, &coder->pos,
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LZMA_STREAM_HEADER_SIZE);
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// Return if we didn't get the whole Stream Header yet.
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if (coder->pos < LZMA_STREAM_HEADER_SIZE)
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return LZMA_OK;
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coder->pos = 0;
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// Decode the Stream Header.
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ret = lzma_stream_header_decode(
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&coder->stream_flags, coder->buffer);
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if (ret != LZMA_OK)
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return ret == LZMA_FORMAT_ERROR && !coder->first_stream
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? LZMA_DATA_ERROR : ret;
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// If we are decoding concatenated Streams, and the later
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// Streams have invalid Header Magic Bytes, we give
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// LZMA_DATA_ERROR instead of LZMA_FORMAT_ERROR.
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coder->first_stream = false;
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// Copy the type of the Check so that Block Header and Block
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// decoders see it.
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coder->block_options.check = coder->stream_flags.check;
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// Even if we return LZMA_*_CHECK below, we want
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// to continue from Block Header decoding.
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coder->sequence = SEQ_BLOCK_HEADER;
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// Detect if there's no integrity check or if it is
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// unsupported if those were requested by the application.
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if (coder->tell_no_check && coder->stream_flags.check
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== LZMA_CHECK_NONE)
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return LZMA_NO_CHECK;
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if (coder->tell_unsupported_check
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&& !lzma_check_is_supported(
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coder->stream_flags.check))
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return LZMA_UNSUPPORTED_CHECK;
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if (coder->tell_any_check)
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return LZMA_GET_CHECK;
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}
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// Fall through
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case SEQ_BLOCK_HEADER: {
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lzma_filter filters[LZMA_FILTERS_MAX + 1];
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uint64_t memusage;
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lzma_ret ret;
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size_t i;
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if (*in_pos >= in_size)
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return LZMA_OK;
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if (coder->pos == 0) {
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// Detect if it's Index.
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if (in[*in_pos] == 0x00) {
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coder->sequence = SEQ_INDEX;
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break;
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}
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// Calculate the size of the Block Header. Note that
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// Block Header decoder wants to see this byte too
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// so don't advance *in_pos.
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coder->block_options.header_size
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= lzma_block_header_size_decode(
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in[*in_pos]);
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}
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// Copy the Block Header to the internal buffer.
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lzma_bufcpy(in, in_pos, in_size, coder->buffer, &coder->pos,
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coder->block_options.header_size);
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// Return if we didn't get the whole Block Header yet.
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if (coder->pos < coder->block_options.header_size)
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return LZMA_OK;
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coder->pos = 0;
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// Version 0 is currently the only possible version.
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coder->block_options.version = 0;
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// Set up a buffer to hold the filter chain. Block Header
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// decoder will initialize all members of this array so
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// we don't need to do it here.
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coder->block_options.filters = filters;
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// Decode the Block Header.
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return_if_error(lzma_block_header_decode(&coder->block_options,
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allocator, coder->buffer));
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// Check the memory usage limit.
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memusage = lzma_raw_decoder_memusage(filters);
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if (memusage == UINT64_MAX) {
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// One or more unknown Filter IDs.
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ret = LZMA_OPTIONS_ERROR;
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} else {
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// Now we can set coder->memusage since we know that
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// the filter chain is valid. We don't want
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// lzma_memusage() to return UINT64_MAX in case of
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// invalid filter chain.
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coder->memusage = memusage;
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if (memusage > coder->memlimit) {
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// The chain would need too much memory.
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ret = LZMA_MEMLIMIT_ERROR;
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} else {
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// Memory usage is OK.
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// Initialize the Block decoder.
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ret = lzma_block_decoder_init(
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&coder->block_decoder,
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allocator,
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&coder->block_options);
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}
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}
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// Free the allocated filter options since they are needed
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// only to initialize the Block decoder.
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for (i = 0; i < LZMA_FILTERS_MAX; ++i)
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lzma_free(filters[i].options, allocator);
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coder->block_options.filters = NULL;
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// Check if memory usage calculation and Block enocoder
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// initialization succeeded.
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if (ret != LZMA_OK)
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return ret;
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coder->sequence = SEQ_BLOCK;
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}
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// Fall through
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case SEQ_BLOCK: {
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const lzma_ret ret = coder->block_decoder.code(
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coder->block_decoder.coder, allocator,
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in, in_pos, in_size, out, out_pos, out_size,
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action);
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if (ret != LZMA_STREAM_END)
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return ret;
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// Block decoded successfully. Add the new size pair to
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// the Index hash.
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return_if_error(lzma_index_hash_append(coder->index_hash,
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lzma_block_unpadded_size(
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&coder->block_options),
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coder->block_options.uncompressed_size));
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coder->sequence = SEQ_BLOCK_HEADER;
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break;
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}
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case SEQ_INDEX: {
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lzma_ret ret;
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// If we don't have any input, don't call
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// lzma_index_hash_decode() since it would return
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// LZMA_BUF_ERROR, which we must not do here.
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if (*in_pos >= in_size)
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return LZMA_OK;
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// Decode the Index and compare it to the hash calculated
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// from the sizes of the Blocks (if any).
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ret = lzma_index_hash_decode(coder->index_hash,
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in, in_pos, in_size);
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if (ret != LZMA_STREAM_END)
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return ret;
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coder->sequence = SEQ_STREAM_FOOTER;
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}
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// Fall through
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case SEQ_STREAM_FOOTER: {
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lzma_stream_flags footer_flags;
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lzma_ret ret;
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// Copy the Stream Footer to the internal buffer.
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lzma_bufcpy(in, in_pos, in_size, coder->buffer, &coder->pos,
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LZMA_STREAM_HEADER_SIZE);
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// Return if we didn't get the whole Stream Footer yet.
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if (coder->pos < LZMA_STREAM_HEADER_SIZE)
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return LZMA_OK;
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coder->pos = 0;
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// Decode the Stream Footer. The decoder gives
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// LZMA_FORMAT_ERROR if the magic bytes don't match,
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// so convert that return code to LZMA_DATA_ERROR.
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ret = lzma_stream_footer_decode(
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&footer_flags, coder->buffer);
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if (ret != LZMA_OK)
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return ret == LZMA_FORMAT_ERROR
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? LZMA_DATA_ERROR : ret;
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// Check that Index Size stored in the Stream Footer matches
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// the real size of the Index field.
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if (lzma_index_hash_size(coder->index_hash)
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!= footer_flags.backward_size)
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return LZMA_DATA_ERROR;
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// Compare that the Stream Flags fields are identical in
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// both Stream Header and Stream Footer.
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return_if_error(lzma_stream_flags_compare(
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&coder->stream_flags, &footer_flags));
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if (!coder->concatenated)
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return LZMA_STREAM_END;
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coder->sequence = SEQ_STREAM_PADDING;
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}
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// Fall through
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case SEQ_STREAM_PADDING:
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assert(coder->concatenated);
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// Skip over possible Stream Padding.
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while (true) {
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if (*in_pos >= in_size) {
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// Unless LZMA_FINISH was used, we cannot
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// know if there's more input coming later.
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if (action != LZMA_FINISH)
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return LZMA_OK;
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// Stream Padding must be a multiple of
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// four bytes.
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return coder->pos == 0
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? LZMA_STREAM_END
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: LZMA_DATA_ERROR;
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}
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// If the byte is not zero, it probably indicates
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// beginning of a new Stream (or the file is corrupt).
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if (in[*in_pos] != 0x00)
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break;
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++*in_pos;
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coder->pos = (coder->pos + 1) & 3;
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}
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// Stream Padding must be a multiple of four bytes (empty
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// Stream Padding is OK).
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if (coder->pos != 0) {
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++*in_pos;
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return LZMA_DATA_ERROR;
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}
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// Prepare to decode the next Stream.
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return_if_error(stream_decoder_reset(coder, allocator));
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break;
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default:
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assert(0);
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return LZMA_PROG_ERROR;
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}
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// Never reached
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}
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static void
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stream_decoder_end(lzma_coder *coder, lzma_allocator *allocator)
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{
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lzma_next_end(&coder->block_decoder, allocator);
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lzma_index_hash_end(coder->index_hash, allocator);
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lzma_free(coder, allocator);
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return;
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}
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static lzma_check
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stream_decoder_get_check(const lzma_coder *coder)
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{
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return coder->stream_flags.check;
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}
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static lzma_ret
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stream_decoder_memconfig(lzma_coder *coder, uint64_t *memusage,
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uint64_t *old_memlimit, uint64_t new_memlimit)
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{
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*memusage = coder->memusage;
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*old_memlimit = coder->memlimit;
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if (new_memlimit != 0) {
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if (new_memlimit < coder->memusage)
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return LZMA_MEMLIMIT_ERROR;
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coder->memlimit = new_memlimit;
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}
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return LZMA_OK;
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}
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extern lzma_ret
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lzma_stream_decoder_init(lzma_next_coder *next, lzma_allocator *allocator,
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uint64_t memlimit, uint32_t flags)
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{
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lzma_next_coder_init(&lzma_stream_decoder_init, next, allocator);
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if (memlimit == 0)
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return LZMA_PROG_ERROR;
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if (flags & ~LZMA_SUPPORTED_FLAGS)
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return LZMA_OPTIONS_ERROR;
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if (next->coder == NULL) {
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next->coder = lzma_alloc(sizeof(lzma_coder), allocator);
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if (next->coder == NULL)
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return LZMA_MEM_ERROR;
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next->code = &stream_decode;
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next->end = &stream_decoder_end;
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next->get_check = &stream_decoder_get_check;
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next->memconfig = &stream_decoder_memconfig;
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next->coder->block_decoder = LZMA_NEXT_CODER_INIT;
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next->coder->index_hash = NULL;
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}
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next->coder->memlimit = memlimit;
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next->coder->memusage = LZMA_MEMUSAGE_BASE;
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next->coder->tell_no_check = (flags & LZMA_TELL_NO_CHECK) != 0;
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next->coder->tell_unsupported_check
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= (flags & LZMA_TELL_UNSUPPORTED_CHECK) != 0;
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next->coder->tell_any_check = (flags & LZMA_TELL_ANY_CHECK) != 0;
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next->coder->concatenated = (flags & LZMA_CONCATENATED) != 0;
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next->coder->first_stream = true;
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return stream_decoder_reset(next->coder, allocator);
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}
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extern LZMA_API(lzma_ret)
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lzma_stream_decoder(lzma_stream *strm, uint64_t memlimit, uint32_t flags)
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{
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lzma_next_strm_init2(lzma_stream_decoder_init, strm, memlimit, flags);
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strm->internal->supported_actions[LZMA_RUN] = true;
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strm->internal->supported_actions[LZMA_FINISH] = true;
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return LZMA_OK;
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}
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