224 lines
5.6 KiB
C
224 lines
5.6 KiB
C
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///////////////////////////////////////////////////////////////////////////////
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//
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/// \file block_encoder.c
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/// \brief Encodes .xz Blocks
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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 "block_encoder.h"
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#include "filter_encoder.h"
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#include "check.h"
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typedef struct {
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/// The filters in the chain; initialized with lzma_raw_decoder_init().
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lzma_next_coder next;
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/// Encoding options; we also write Unpadded Size, Compressed Size,
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/// and Uncompressed Size back to this structure when the encoding
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/// has been finished.
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lzma_block *block;
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enum {
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SEQ_CODE,
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SEQ_PADDING,
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SEQ_CHECK,
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} sequence;
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/// Compressed Size calculated while encoding
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lzma_vli compressed_size;
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/// Uncompressed Size calculated while encoding
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lzma_vli uncompressed_size;
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/// Position in the Check field
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size_t pos;
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/// Check of the uncompressed data
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lzma_check_state check;
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} lzma_block_coder;
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static lzma_ret
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block_encode(void *coder_ptr, const lzma_allocator *allocator,
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const uint8_t *restrict in, size_t *restrict in_pos,
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size_t in_size, uint8_t *restrict out,
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size_t *restrict out_pos, size_t out_size, lzma_action action)
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{
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lzma_block_coder *coder = coder_ptr;
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// Check that our amount of input stays in proper limits.
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if (LZMA_VLI_MAX - coder->uncompressed_size < in_size - *in_pos)
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return LZMA_DATA_ERROR;
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switch (coder->sequence) {
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case SEQ_CODE: {
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const size_t in_start = *in_pos;
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const size_t out_start = *out_pos;
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const lzma_ret ret = coder->next.code(coder->next.coder,
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allocator, in, in_pos, in_size,
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out, out_pos, out_size, action);
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const size_t in_used = *in_pos - in_start;
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const size_t out_used = *out_pos - out_start;
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if (COMPRESSED_SIZE_MAX - coder->compressed_size < out_used)
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return LZMA_DATA_ERROR;
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coder->compressed_size += out_used;
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// No need to check for overflow because we have already
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// checked it at the beginning of this function.
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coder->uncompressed_size += in_used;
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lzma_check_update(&coder->check, coder->block->check,
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in + in_start, in_used);
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if (ret != LZMA_STREAM_END || action == LZMA_SYNC_FLUSH)
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return ret;
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assert(*in_pos == in_size);
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assert(action == LZMA_FINISH);
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// Copy the values into coder->block. The caller
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// may use this information to construct Index.
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coder->block->compressed_size = coder->compressed_size;
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coder->block->uncompressed_size = coder->uncompressed_size;
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coder->sequence = SEQ_PADDING;
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}
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// Fall through
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case SEQ_PADDING:
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// Pad Compressed Data to a multiple of four bytes. We can
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// use coder->compressed_size for this since we don't need
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// it for anything else anymore.
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while (coder->compressed_size & 3) {
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if (*out_pos >= out_size)
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return LZMA_OK;
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out[*out_pos] = 0x00;
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++*out_pos;
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++coder->compressed_size;
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}
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if (coder->block->check == LZMA_CHECK_NONE)
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return LZMA_STREAM_END;
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lzma_check_finish(&coder->check, coder->block->check);
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coder->sequence = SEQ_CHECK;
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// Fall through
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case SEQ_CHECK: {
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const size_t check_size = lzma_check_size(coder->block->check);
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lzma_bufcpy(coder->check.buffer.u8, &coder->pos, check_size,
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out, out_pos, out_size);
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if (coder->pos < check_size)
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return LZMA_OK;
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memcpy(coder->block->raw_check, coder->check.buffer.u8,
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check_size);
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return LZMA_STREAM_END;
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}
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}
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return LZMA_PROG_ERROR;
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}
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static void
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block_encoder_end(void *coder_ptr, const lzma_allocator *allocator)
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{
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lzma_block_coder *coder = coder_ptr;
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lzma_next_end(&coder->next, allocator);
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lzma_free(coder, allocator);
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return;
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}
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static lzma_ret
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block_encoder_update(void *coder_ptr, const lzma_allocator *allocator,
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const lzma_filter *filters lzma_attribute((__unused__)),
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const lzma_filter *reversed_filters)
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{
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lzma_block_coder *coder = coder_ptr;
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if (coder->sequence != SEQ_CODE)
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return LZMA_PROG_ERROR;
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return lzma_next_filter_update(
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&coder->next, allocator, reversed_filters);
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}
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extern lzma_ret
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lzma_block_encoder_init(lzma_next_coder *next, const lzma_allocator *allocator,
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lzma_block *block)
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{
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lzma_next_coder_init(&lzma_block_encoder_init, next, allocator);
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if (block == NULL)
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return LZMA_PROG_ERROR;
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// The contents of the structure may depend on the version so
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// check the version first.
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if (block->version > 1)
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return LZMA_OPTIONS_ERROR;
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// If the Check ID is not supported, we cannot calculate the check and
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// thus not create a proper Block.
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if ((unsigned int)(block->check) > LZMA_CHECK_ID_MAX)
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return LZMA_PROG_ERROR;
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if (!lzma_check_is_supported(block->check))
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return LZMA_UNSUPPORTED_CHECK;
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// Allocate and initialize *next->coder if needed.
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lzma_block_coder *coder = next->coder;
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if (coder == NULL) {
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coder = lzma_alloc(sizeof(lzma_block_coder), allocator);
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if (coder == NULL)
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return LZMA_MEM_ERROR;
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next->coder = coder;
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next->code = &block_encode;
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next->end = &block_encoder_end;
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next->update = &block_encoder_update;
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coder->next = LZMA_NEXT_CODER_INIT;
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}
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// Basic initializations
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coder->sequence = SEQ_CODE;
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coder->block = block;
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coder->compressed_size = 0;
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coder->uncompressed_size = 0;
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coder->pos = 0;
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// Initialize the check
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lzma_check_init(&coder->check, block->check);
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// Initialize the requested filters.
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return lzma_raw_encoder_init(&coder->next, allocator, block->filters);
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}
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extern LZMA_API(lzma_ret)
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lzma_block_encoder(lzma_stream *strm, lzma_block *block)
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{
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lzma_next_strm_init(lzma_block_encoder_init, strm, block);
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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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