mirror of
https://github.com/webmproject/libwebp.git
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Fix OOB write in BuildHuffmanTable.
First, BuildHuffmanTable is called to check if the data is valid. If it is and the table is not big enough, more memory is allocated. This will make sure that valid (but unoptimized because of unbalanced codes) streams are still decodable. Bug: chromium:1479274 Change-Id: I31c36dbf3aa78d35ecf38706b50464fd3d375741 (cherry picked from commit902bc91903
) (cherry picked from commit2af26267cd
)
This commit is contained in:
parent
6a319d4da3
commit
4619a48fc3
@ -253,11 +253,11 @@ static int ReadHuffmanCodeLengths(
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int symbol;
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int symbol;
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int max_symbol;
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int max_symbol;
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int prev_code_len = DEFAULT_CODE_LENGTH;
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int prev_code_len = DEFAULT_CODE_LENGTH;
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HuffmanCode table[1 << LENGTHS_TABLE_BITS];
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HuffmanTables tables;
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if (!VP8LBuildHuffmanTable(table, LENGTHS_TABLE_BITS,
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if (!VP8LHuffmanTablesAllocate(1 << LENGTHS_TABLE_BITS, &tables) ||
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code_length_code_lengths,
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!VP8LBuildHuffmanTable(&tables, LENGTHS_TABLE_BITS,
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NUM_CODE_LENGTH_CODES)) {
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code_length_code_lengths, NUM_CODE_LENGTH_CODES)) {
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goto End;
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goto End;
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}
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}
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@ -277,7 +277,7 @@ static int ReadHuffmanCodeLengths(
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int code_len;
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int code_len;
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if (max_symbol-- == 0) break;
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if (max_symbol-- == 0) break;
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VP8LFillBitWindow(br);
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VP8LFillBitWindow(br);
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p = &table[VP8LPrefetchBits(br) & LENGTHS_TABLE_MASK];
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p = &tables.curr_segment->start[VP8LPrefetchBits(br) & LENGTHS_TABLE_MASK];
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VP8LSetBitPos(br, br->bit_pos_ + p->bits);
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VP8LSetBitPos(br, br->bit_pos_ + p->bits);
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code_len = p->value;
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code_len = p->value;
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if (code_len < kCodeLengthLiterals) {
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if (code_len < kCodeLengthLiterals) {
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@ -300,6 +300,7 @@ static int ReadHuffmanCodeLengths(
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ok = 1;
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ok = 1;
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End:
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End:
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VP8LHuffmanTablesDeallocate(&tables);
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if (!ok) dec->status_ = VP8_STATUS_BITSTREAM_ERROR;
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if (!ok) dec->status_ = VP8_STATUS_BITSTREAM_ERROR;
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return ok;
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return ok;
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}
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}
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@ -307,7 +308,8 @@ static int ReadHuffmanCodeLengths(
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// 'code_lengths' is pre-allocated temporary buffer, used for creating Huffman
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// 'code_lengths' is pre-allocated temporary buffer, used for creating Huffman
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// tree.
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// tree.
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static int ReadHuffmanCode(int alphabet_size, VP8LDecoder* const dec,
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static int ReadHuffmanCode(int alphabet_size, VP8LDecoder* const dec,
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int* const code_lengths, HuffmanCode* const table) {
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int* const code_lengths,
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HuffmanTables* const table) {
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int ok = 0;
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int ok = 0;
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int size = 0;
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int size = 0;
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VP8LBitReader* const br = &dec->br_;
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VP8LBitReader* const br = &dec->br_;
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@ -362,8 +364,7 @@ static int ReadHuffmanCodes(VP8LDecoder* const dec, int xsize, int ysize,
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VP8LMetadata* const hdr = &dec->hdr_;
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VP8LMetadata* const hdr = &dec->hdr_;
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uint32_t* huffman_image = NULL;
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uint32_t* huffman_image = NULL;
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HTreeGroup* htree_groups = NULL;
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HTreeGroup* htree_groups = NULL;
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HuffmanCode* huffman_tables = NULL;
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HuffmanTables* huffman_tables = &hdr->huffman_tables_;
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HuffmanCode* huffman_table = NULL;
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int num_htree_groups = 1;
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int num_htree_groups = 1;
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int num_htree_groups_max = 1;
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int num_htree_groups_max = 1;
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int max_alphabet_size = 0;
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int max_alphabet_size = 0;
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@ -372,6 +373,10 @@ static int ReadHuffmanCodes(VP8LDecoder* const dec, int xsize, int ysize,
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int* mapping = NULL;
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int* mapping = NULL;
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int ok = 0;
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int ok = 0;
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// Check the table has been 0 initialized (through InitMetadata).
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assert(huffman_tables->root.start == NULL);
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assert(huffman_tables->curr_segment == NULL);
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if (allow_recursion && VP8LReadBits(br, 1)) {
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if (allow_recursion && VP8LReadBits(br, 1)) {
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// use meta Huffman codes.
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// use meta Huffman codes.
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const int huffman_precision = VP8LReadBits(br, 3) + 2;
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const int huffman_precision = VP8LReadBits(br, 3) + 2;
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@ -434,16 +439,15 @@ static int ReadHuffmanCodes(VP8LDecoder* const dec, int xsize, int ysize,
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code_lengths = (int*)WebPSafeCalloc((uint64_t)max_alphabet_size,
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code_lengths = (int*)WebPSafeCalloc((uint64_t)max_alphabet_size,
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sizeof(*code_lengths));
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sizeof(*code_lengths));
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huffman_tables = (HuffmanCode*)WebPSafeMalloc(num_htree_groups * table_size,
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sizeof(*huffman_tables));
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htree_groups = VP8LHtreeGroupsNew(num_htree_groups);
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htree_groups = VP8LHtreeGroupsNew(num_htree_groups);
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if (htree_groups == NULL || code_lengths == NULL || huffman_tables == NULL) {
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if (htree_groups == NULL || code_lengths == NULL ||
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!VP8LHuffmanTablesAllocate(num_htree_groups * table_size,
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huffman_tables)) {
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dec->status_ = VP8_STATUS_OUT_OF_MEMORY;
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dec->status_ = VP8_STATUS_OUT_OF_MEMORY;
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goto Error;
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goto Error;
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}
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}
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huffman_table = huffman_tables;
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for (i = 0; i < num_htree_groups_max; ++i) {
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for (i = 0; i < num_htree_groups_max; ++i) {
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// If the index "i" is unused in the Huffman image, just make sure the
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// If the index "i" is unused in the Huffman image, just make sure the
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// coefficients are valid but do not store them.
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// coefficients are valid but do not store them.
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@ -468,19 +472,20 @@ static int ReadHuffmanCodes(VP8LDecoder* const dec, int xsize, int ysize,
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int max_bits = 0;
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int max_bits = 0;
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for (j = 0; j < HUFFMAN_CODES_PER_META_CODE; ++j) {
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for (j = 0; j < HUFFMAN_CODES_PER_META_CODE; ++j) {
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int alphabet_size = kAlphabetSize[j];
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int alphabet_size = kAlphabetSize[j];
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htrees[j] = huffman_table;
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if (j == 0 && color_cache_bits > 0) {
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if (j == 0 && color_cache_bits > 0) {
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alphabet_size += (1 << color_cache_bits);
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alphabet_size += (1 << color_cache_bits);
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}
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}
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size = ReadHuffmanCode(alphabet_size, dec, code_lengths, huffman_table);
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size =
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ReadHuffmanCode(alphabet_size, dec, code_lengths, huffman_tables);
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htrees[j] = huffman_tables->curr_segment->curr_table;
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if (size == 0) {
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if (size == 0) {
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goto Error;
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goto Error;
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}
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}
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if (is_trivial_literal && kLiteralMap[j] == 1) {
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if (is_trivial_literal && kLiteralMap[j] == 1) {
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is_trivial_literal = (huffman_table->bits == 0);
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is_trivial_literal = (htrees[j]->bits == 0);
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}
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}
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total_size += huffman_table->bits;
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total_size += htrees[j]->bits;
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huffman_table += size;
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huffman_tables->curr_segment->curr_table += size;
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if (j <= ALPHA) {
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if (j <= ALPHA) {
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int local_max_bits = code_lengths[0];
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int local_max_bits = code_lengths[0];
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int k;
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int k;
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@ -515,14 +520,13 @@ static int ReadHuffmanCodes(VP8LDecoder* const dec, int xsize, int ysize,
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hdr->huffman_image_ = huffman_image;
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hdr->huffman_image_ = huffman_image;
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hdr->num_htree_groups_ = num_htree_groups;
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hdr->num_htree_groups_ = num_htree_groups;
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hdr->htree_groups_ = htree_groups;
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hdr->htree_groups_ = htree_groups;
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hdr->huffman_tables_ = huffman_tables;
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Error:
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Error:
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WebPSafeFree(code_lengths);
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WebPSafeFree(code_lengths);
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WebPSafeFree(mapping);
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WebPSafeFree(mapping);
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if (!ok) {
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if (!ok) {
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WebPSafeFree(huffman_image);
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WebPSafeFree(huffman_image);
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WebPSafeFree(huffman_tables);
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VP8LHuffmanTablesDeallocate(huffman_tables);
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VP8LHtreeGroupsFree(htree_groups);
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VP8LHtreeGroupsFree(htree_groups);
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}
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}
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return ok;
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return ok;
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@ -1358,7 +1362,7 @@ static void ClearMetadata(VP8LMetadata* const hdr) {
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assert(hdr != NULL);
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assert(hdr != NULL);
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WebPSafeFree(hdr->huffman_image_);
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WebPSafeFree(hdr->huffman_image_);
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WebPSafeFree(hdr->huffman_tables_);
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VP8LHuffmanTablesDeallocate(&hdr->huffman_tables_);
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VP8LHtreeGroupsFree(hdr->htree_groups_);
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VP8LHtreeGroupsFree(hdr->htree_groups_);
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VP8LColorCacheClear(&hdr->color_cache_);
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VP8LColorCacheClear(&hdr->color_cache_);
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VP8LColorCacheClear(&hdr->saved_color_cache_);
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VP8LColorCacheClear(&hdr->saved_color_cache_);
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@ -1673,7 +1677,7 @@ int VP8LDecodeImage(VP8LDecoder* const dec) {
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if (dec == NULL) return 0;
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if (dec == NULL) return 0;
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assert(dec->hdr_.huffman_tables_ != NULL);
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assert(dec->hdr_.huffman_tables_.root.start != NULL);
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assert(dec->hdr_.htree_groups_ != NULL);
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assert(dec->hdr_.htree_groups_ != NULL);
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assert(dec->hdr_.num_htree_groups_ > 0);
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assert(dec->hdr_.num_htree_groups_ > 0);
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@ -51,7 +51,7 @@ typedef struct {
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uint32_t* huffman_image_;
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uint32_t* huffman_image_;
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int num_htree_groups_;
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int num_htree_groups_;
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HTreeGroup* htree_groups_;
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HTreeGroup* htree_groups_;
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HuffmanCode* huffman_tables_;
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HuffmanTables huffman_tables_;
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} VP8LMetadata;
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} VP8LMetadata;
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typedef struct VP8LDecoder VP8LDecoder;
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typedef struct VP8LDecoder VP8LDecoder;
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@ -177,21 +177,24 @@ static int BuildHuffmanTable(HuffmanCode* const root_table, int root_bits,
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if (num_open < 0) {
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if (num_open < 0) {
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return 0;
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return 0;
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}
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}
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if (root_table == NULL) continue;
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for (; count[len] > 0; --count[len]) {
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for (; count[len] > 0; --count[len]) {
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HuffmanCode code;
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HuffmanCode code;
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if ((key & mask) != low) {
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if ((key & mask) != low) {
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table += table_size;
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if (root_table != NULL) table += table_size;
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table_bits = NextTableBitSize(count, len, root_bits);
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table_bits = NextTableBitSize(count, len, root_bits);
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table_size = 1 << table_bits;
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table_size = 1 << table_bits;
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total_size += table_size;
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total_size += table_size;
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low = key & mask;
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low = key & mask;
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root_table[low].bits = (uint8_t)(table_bits + root_bits);
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if (root_table != NULL) {
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root_table[low].value = (uint16_t)((table - root_table) - low);
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root_table[low].bits = (uint8_t)(table_bits + root_bits);
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root_table[low].value = (uint16_t)((table - root_table) - low);
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}
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}
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if (root_table != NULL) {
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code.bits = (uint8_t)(len - root_bits);
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code.value = (uint16_t)sorted[symbol++];
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ReplicateValue(&table[key >> root_bits], step, table_size, code);
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}
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}
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code.bits = (uint8_t)(len - root_bits);
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code.value = (uint16_t)sorted[symbol++];
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ReplicateValue(&table[key >> root_bits], step, table_size, code);
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key = GetNextKey(key, len);
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key = GetNextKey(key, len);
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}
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}
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}
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}
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@ -211,25 +214,83 @@ static int BuildHuffmanTable(HuffmanCode* const root_table, int root_bits,
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((1 << MAX_CACHE_BITS) + NUM_LITERAL_CODES + NUM_LENGTH_CODES)
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((1 << MAX_CACHE_BITS) + NUM_LITERAL_CODES + NUM_LENGTH_CODES)
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// Cut-off value for switching between heap and stack allocation.
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// Cut-off value for switching between heap and stack allocation.
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#define SORTED_SIZE_CUTOFF 512
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#define SORTED_SIZE_CUTOFF 512
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int VP8LBuildHuffmanTable(HuffmanCode* const root_table, int root_bits,
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int VP8LBuildHuffmanTable(HuffmanTables* const root_table, int root_bits,
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const int code_lengths[], int code_lengths_size) {
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const int code_lengths[], int code_lengths_size) {
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int total_size;
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const int total_size =
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BuildHuffmanTable(NULL, root_bits, code_lengths, code_lengths_size, NULL);
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assert(code_lengths_size <= MAX_CODE_LENGTHS_SIZE);
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assert(code_lengths_size <= MAX_CODE_LENGTHS_SIZE);
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if (root_table == NULL) {
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if (total_size == 0 || root_table == NULL) return total_size;
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total_size = BuildHuffmanTable(NULL, root_bits,
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code_lengths, code_lengths_size, NULL);
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if (root_table->curr_segment->curr_table + total_size >=
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} else if (code_lengths_size <= SORTED_SIZE_CUTOFF) {
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root_table->curr_segment->start + root_table->curr_segment->size) {
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// If 'root_table' does not have enough memory, allocate a new segment.
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// The available part of root_table->curr_segment is left unused because we
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// need a contiguous buffer.
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const int segment_size = root_table->curr_segment->size;
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struct HuffmanTablesSegment* next =
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(HuffmanTablesSegment*)WebPSafeMalloc(1, sizeof(*next));
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if (next == NULL) return 0;
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// Fill the new segment.
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// We need at least 'total_size' but if that value is small, it is better to
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// allocate a big chunk to prevent more allocations later. 'segment_size' is
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// therefore chosen (any other arbitrary value could be chosen).
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next->size = total_size > segment_size ? total_size : segment_size;
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next->start =
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(HuffmanCode*)WebPSafeMalloc(next->size, sizeof(*next->start));
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if (next->start == NULL) {
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WebPSafeFree(next);
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return 0;
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}
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next->curr_table = next->start;
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next->next = NULL;
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// Point to the new segment.
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root_table->curr_segment->next = next;
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root_table->curr_segment = next;
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}
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if (code_lengths_size <= SORTED_SIZE_CUTOFF) {
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// use local stack-allocated array.
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// use local stack-allocated array.
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uint16_t sorted[SORTED_SIZE_CUTOFF];
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uint16_t sorted[SORTED_SIZE_CUTOFF];
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total_size = BuildHuffmanTable(root_table, root_bits,
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BuildHuffmanTable(root_table->curr_segment->curr_table, root_bits,
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code_lengths, code_lengths_size, sorted);
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code_lengths, code_lengths_size, sorted);
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} else { // rare case. Use heap allocation.
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} else { // rare case. Use heap allocation.
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uint16_t* const sorted =
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uint16_t* const sorted =
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(uint16_t*)WebPSafeMalloc(code_lengths_size, sizeof(*sorted));
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(uint16_t*)WebPSafeMalloc(code_lengths_size, sizeof(*sorted));
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if (sorted == NULL) return 0;
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if (sorted == NULL) return 0;
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total_size = BuildHuffmanTable(root_table, root_bits,
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BuildHuffmanTable(root_table->curr_segment->curr_table, root_bits,
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code_lengths, code_lengths_size, sorted);
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code_lengths, code_lengths_size, sorted);
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WebPSafeFree(sorted);
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WebPSafeFree(sorted);
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}
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}
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return total_size;
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return total_size;
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}
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}
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int VP8LHuffmanTablesAllocate(int size, HuffmanTables* huffman_tables) {
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// Have 'segment' point to the first segment for now, 'root'.
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HuffmanTablesSegment* const root = &huffman_tables->root;
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huffman_tables->curr_segment = root;
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// Allocate root.
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root->start = (HuffmanCode*)WebPSafeMalloc(size, sizeof(*root->start));
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if (root->start == NULL) return 0;
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root->curr_table = root->start;
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root->next = NULL;
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root->size = size;
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return 1;
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}
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void VP8LHuffmanTablesDeallocate(HuffmanTables* const huffman_tables) {
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HuffmanTablesSegment *current, *next;
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if (huffman_tables == NULL) return;
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// Free the root node.
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current = &huffman_tables->root;
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next = current->next;
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WebPSafeFree(current->start);
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current->start = NULL;
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current->next = NULL;
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current = next;
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// Free the following nodes.
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while (current != NULL) {
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next = current->next;
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WebPSafeFree(current->start);
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WebPSafeFree(current);
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current = next;
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}
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}
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@ -43,6 +43,29 @@ typedef struct {
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// or non-literal symbol otherwise
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// or non-literal symbol otherwise
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} HuffmanCode32;
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} HuffmanCode32;
|
||||||
|
|
||||||
|
// Contiguous memory segment of HuffmanCodes.
|
||||||
|
typedef struct HuffmanTablesSegment {
|
||||||
|
HuffmanCode* start;
|
||||||
|
// Pointer to where we are writing into the segment. Starts at 'start' and
|
||||||
|
// cannot go beyond 'start' + 'size'.
|
||||||
|
HuffmanCode* curr_table;
|
||||||
|
// Pointer to the next segment in the chain.
|
||||||
|
struct HuffmanTablesSegment* next;
|
||||||
|
int size;
|
||||||
|
} HuffmanTablesSegment;
|
||||||
|
|
||||||
|
// Chained memory segments of HuffmanCodes.
|
||||||
|
typedef struct HuffmanTables {
|
||||||
|
HuffmanTablesSegment root;
|
||||||
|
// Currently processed segment. At first, this is 'root'.
|
||||||
|
HuffmanTablesSegment* curr_segment;
|
||||||
|
} HuffmanTables;
|
||||||
|
|
||||||
|
// Allocates a HuffmanTables with 'size' contiguous HuffmanCodes. Returns 0 on
|
||||||
|
// memory allocation error, 1 otherwise.
|
||||||
|
int VP8LHuffmanTablesAllocate(int size, HuffmanTables* huffman_tables);
|
||||||
|
void VP8LHuffmanTablesDeallocate(HuffmanTables* const huffman_tables);
|
||||||
|
|
||||||
#define HUFFMAN_PACKED_BITS 6
|
#define HUFFMAN_PACKED_BITS 6
|
||||||
#define HUFFMAN_PACKED_TABLE_SIZE (1u << HUFFMAN_PACKED_BITS)
|
#define HUFFMAN_PACKED_TABLE_SIZE (1u << HUFFMAN_PACKED_BITS)
|
||||||
|
|
||||||
@ -78,9 +101,7 @@ void VP8LHtreeGroupsFree(HTreeGroup* const htree_groups);
|
|||||||
// the huffman table.
|
// the huffman table.
|
||||||
// Returns built table size or 0 in case of error (invalid tree or
|
// Returns built table size or 0 in case of error (invalid tree or
|
||||||
// memory error).
|
// memory error).
|
||||||
// If root_table is NULL, it returns 0 if a lookup cannot be built, something
|
int VP8LBuildHuffmanTable(HuffmanTables* const root_table, int root_bits,
|
||||||
// > 0 otherwise (but not the table size).
|
|
||||||
int VP8LBuildHuffmanTable(HuffmanCode* const root_table, int root_bits,
|
|
||||||
const int code_lengths[], int code_lengths_size);
|
const int code_lengths[], int code_lengths_size);
|
||||||
|
|
||||||
#ifdef __cplusplus
|
#ifdef __cplusplus
|
||||||
|
Loading…
Reference in New Issue
Block a user