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https://github.com/LongSoft/UEFITool.git
synced 2024-11-22 07:58:22 +08:00
Import legacy bugfixes found over time
- Fix mishandling empty microcode entries - Fix mishandling TE image base - Fix Intel legacy LZMA support
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@ -125,14 +125,14 @@ typedef ptrdiff_t INTN;
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#define EFI_ERROR(X) (X)
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// Compression algorithms
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#define COMPRESSION_ALGORITHM_UNKNOWN 0
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#define COMPRESSION_ALGORITHM_NONE 1
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#define COMPRESSION_ALGORITHM_EFI11 2
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#define COMPRESSION_ALGORITHM_TIANO 3
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#define COMPRESSION_ALGORITHM_UNDECIDED 4
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#define COMPRESSION_ALGORITHM_LZMA 5
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#define COMPRESSION_ALGORITHM_IMLZMA 6
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#define COMPRESSION_ALGORITHM_GZIP 7
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#define COMPRESSION_ALGORITHM_UNKNOWN 0
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#define COMPRESSION_ALGORITHM_NONE 1
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#define COMPRESSION_ALGORITHM_EFI11 2
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#define COMPRESSION_ALGORITHM_TIANO 3
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#define COMPRESSION_ALGORITHM_UNDECIDED 4
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#define COMPRESSION_ALGORITHM_LZMA 5
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#define COMPRESSION_ALGORITHM_LZMA_INTEL_LEGACY 6
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#define COMPRESSION_ALGORITHM_GZIP 7
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// Item create modes
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#define CREATE_MODE_APPEND 0
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@ -1312,10 +1312,13 @@ USTATUS FfsParser::findNextRawAreaItem(const UModelIndex & index, const UINT32 l
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// Check microcode header candidate
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const INTEL_MICROCODE_HEADER* ucodeHeader = (const INTEL_MICROCODE_HEADER*)currentPos;
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if (FALSE == microcodeHeaderValid(ucodeHeader)) {
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continue;
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}
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// Check size candidate
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if (ucodeHeader->TotalSize == 0)
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continue;
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// All checks passed, microcode found
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nextItemType = Types::Microcode;
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@ -1399,8 +1402,9 @@ USTATUS FfsParser::findNextRawAreaItem(const UModelIndex & index, const UINT32 l
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}
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// No more stores found
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if (offset >= dataSize - sizeof(UINT32))
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if (offset >= dataSize - sizeof(UINT32)) {
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return U_STORES_NOT_FOUND;
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}
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return U_SUCCESS;
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}
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@ -2683,7 +2687,7 @@ USTATUS FfsParser::parseCompressedSectionBody(const UModelIndex & index)
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// Add info
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model->addInfo(index, UString("\nCompression algorithm: ") + compressionTypeToUString(algorithm));
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if (algorithm == COMPRESSION_ALGORITHM_LZMA || algorithm == COMPRESSION_ALGORITHM_IMLZMA) {
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if (algorithm == COMPRESSION_ALGORITHM_LZMA || algorithm == COMPRESSION_ALGORITHM_LZMA_INTEL_LEGACY) {
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model->addInfo(index, usprintf("\nLZMA dictionary size: %Xh", dictionarySize));
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}
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@ -3146,7 +3150,7 @@ USTATUS FfsParser::parseTeImageSectionBody(const UModelIndex & index)
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// Update parsing data
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TE_IMAGE_SECTION_PARSING_DATA pdata;
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pdata.imageBaseType = EFI_IMAGE_TE_BASE_OTHER; // Will be determined later
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pdata.imageBase = (UINT32)teHeader->ImageBase;
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pdata.originalImageBase = (UINT32)teHeader->ImageBase;
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pdata.adjustedImageBase = (UINT32)(teHeader->ImageBase + teHeader->StrippedSize - sizeof(EFI_IMAGE_TE_HEADER));
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model->setParsingData(index, UByteArray((const char*)&pdata, sizeof(pdata)));
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@ -3236,16 +3240,16 @@ USTATUS FfsParser::checkTeImageBase(const UModelIndex & index)
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if (model->hasEmptyParsingData(index) == false) {
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UByteArray data = model->parsingData(index);
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const TE_IMAGE_SECTION_PARSING_DATA* pdata = (const TE_IMAGE_SECTION_PARSING_DATA*)data.constData();
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originalImageBase = readUnaligned(pdata).imageBase;
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originalImageBase = readUnaligned(pdata).originalImageBase;
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adjustedImageBase = readUnaligned(pdata).adjustedImageBase;
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}
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if (imageBase != 0) {
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// Check data memory address to be equal to either ImageBase or AdjustedImageBase
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if (originalImageBase != 0 || adjustedImageBase != 0) {
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// Check data memory address to be equal to either OriginalImageBase or AdjustedImageBase
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UINT64 address = addressDiff + model->base(index);
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UINT32 base = (UINT32)address + model->header(index).size();
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if (imageBase == base) {
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if (originalImageBase == base) {
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imageBaseType = EFI_IMAGE_TE_BASE_ORIGINAL;
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}
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else if (adjustedImageBase == base) {
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@ -3253,7 +3257,7 @@ USTATUS FfsParser::checkTeImageBase(const UModelIndex & index)
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}
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else {
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// Check for one-bit difference
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UINT32 xored = base ^ imageBase; // XOR result can't be zero
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UINT32 xored = base ^ originalImageBase; // XOR result can't be zero
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if ((xored & (xored - 1)) == 0) { // Check that XOR result is a power of 2, i.e. has exactly one bit set
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imageBaseType = EFI_IMAGE_TE_BASE_ORIGINAL;
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}
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@ -3266,13 +3270,14 @@ USTATUS FfsParser::checkTeImageBase(const UModelIndex & index)
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}
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// Show message if imageBaseType is still unknown
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if (imageBaseType == EFI_IMAGE_TE_BASE_OTHER)
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if (imageBaseType == EFI_IMAGE_TE_BASE_OTHER) {
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msg(usprintf("%s: TE image base is neither zero, nor original, nor adjusted, nor top-swapped", __FUNCTION__), index);
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}
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// Update parsing data
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TE_IMAGE_SECTION_PARSING_DATA pdata;
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pdata.imageBaseType = imageBaseType;
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pdata.imageBase = originalImageBase;
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pdata.originalImageBase = originalImageBase;
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pdata.adjustedImageBase = adjustedImageBase;
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model->setParsingData(index, UByteArray((const char*)&pdata, sizeof(pdata)));
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}
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@ -54,7 +54,7 @@ typedef struct COMPRESSED_SECTION_PARSING_DATA_ {
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} COMPRESSED_SECTION_PARSING_DATA;
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typedef struct TE_IMAGE_SECTION_PARSING_DATA_ {
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UINT32 imageBase;
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UINT32 originalImageBase;
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UINT32 adjustedImageBase;
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UINT8 imageBaseType;
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} TE_IMAGE_SECTION_PARSING_DATA;
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@ -174,12 +174,12 @@ UString itemSubtypeToUString(const UINT8 type, const UINT8 subtype)
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UString compressionTypeToUString(const UINT8 algorithm)
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{
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switch (algorithm) {
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case COMPRESSION_ALGORITHM_NONE: return UString("None");
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case COMPRESSION_ALGORITHM_EFI11: return UString("EFI 1.1");
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case COMPRESSION_ALGORITHM_TIANO: return UString("Tiano");
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case COMPRESSION_ALGORITHM_UNDECIDED: return UString("Undecided Tiano/EFI 1.1");
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case COMPRESSION_ALGORITHM_LZMA: return UString("LZMA");
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case COMPRESSION_ALGORITHM_IMLZMA: return UString("Intel LZMA");
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case COMPRESSION_ALGORITHM_NONE: return UString("None");
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case COMPRESSION_ALGORITHM_EFI11: return UString("EFI 1.1");
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case COMPRESSION_ALGORITHM_TIANO: return UString("Tiano");
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case COMPRESSION_ALGORITHM_UNDECIDED: return UString("Undecided Tiano/EFI 1.1");
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case COMPRESSION_ALGORITHM_LZMA: return UString("LZMA");
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case COMPRESSION_ALGORITHM_LZMA_INTEL_LEGACY: return UString("Intel legacy LZMA");
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}
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return UString("Unknown");
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@ -235,56 +235,39 @@ USTATUS decompress(const UByteArray & compressedData, const UINT8 compressionTyp
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data = (const UINT8*)compressedData.constData();
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dataSize = compressedData.size();
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// Get info
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if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize))
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return U_CUSTOMIZED_DECOMPRESSION_FAILED;
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// Get info as normal LZMA section
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if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) {
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// Get info as Intel legacy LZMA section
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data += sizeof(UINT32);
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if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) {
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return U_CUSTOMIZED_DECOMPRESSION_FAILED;
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}
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else {
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algorithm = COMPRESSION_ALGORITHM_LZMA_INTEL_LEGACY;
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}
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}
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else {
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algorithm = COMPRESSION_ALGORITHM_LZMA;
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}
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// Allocate memory
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decompressed = (UINT8*)malloc(decompressedSize);
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if (!decompressed) {
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return U_STANDARD_DECOMPRESSION_FAILED;
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return U_OUT_OF_MEMORY;
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}
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// Decompress section data
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if (U_SUCCESS != LzmaDecompress(data, dataSize, decompressed)) {
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// Intel modified LZMA workaround
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// Decompress section data once again
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// VERIFY: might be wrong assumption, 0.2x had a different code here
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// See: https://github.com/LongSoft/UEFITool/blob/4bee991c949b458739ffa96b88dbc589192c7689/ffsengine.cpp#L2814-L2823
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data += sizeof(UINT32);
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// Get info again
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if (U_SUCCESS != LzmaGetInfo(data, dataSize, &decompressedSize)) {
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free(decompressed);
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return U_CUSTOMIZED_DECOMPRESSION_FAILED;
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}
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// Decompress section data again
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if (U_SUCCESS != LzmaDecompress(data, dataSize, decompressed)) {
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free(decompressed);
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return U_CUSTOMIZED_DECOMPRESSION_FAILED;
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}
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else {
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if (decompressedSize > INT32_MAX) {
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free(decompressed);
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return U_CUSTOMIZED_DECOMPRESSION_FAILED;
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}
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algorithm = COMPRESSION_ALGORITHM_IMLZMA;
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dictionarySize = readUnaligned((UINT32*)(data + 1)); // LZMA dictionary size is stored in bytes 1-4 of LZMA properties header
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decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
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}
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}
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else {
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if (decompressedSize > INT32_MAX) {
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free(decompressed);
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return U_CUSTOMIZED_DECOMPRESSION_FAILED;
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}
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algorithm = COMPRESSION_ALGORITHM_LZMA;
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dictionarySize = readUnaligned((UINT32*)(data + 1)); // LZMA dictionary size is stored in bytes 1-4 of LZMA properties header
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decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
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return U_CUSTOMIZED_DECOMPRESSION_FAILED;
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}
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if (decompressedSize > INT32_MAX) {
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free(decompressed);
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return U_CUSTOMIZED_DECOMPRESSION_FAILED;
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}
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dictionarySize = readUnaligned((UINT32*)(data + 1)); // LZMA dictionary size is stored in bytes 1-4 of LZMA properties header
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decompressedData = UByteArray((const char*)decompressed, (int)decompressedSize);
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free(decompressed);
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return U_SUCCESS;
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default:
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