コード例 #1
0
ファイル: 7zIn.cpp プロジェクト: bks/qz7
void CInArchive::ReadHashDigests(int numItems,
                                 CRecordVector<bool> &digestsDefined,
                                 CRecordVector<UInt32> &digests)
{
    ReadBoolVector2(numItems, digestsDefined);
    digests.Clear();
    digests.Reserve(numItems);
    for (int i = 0; i < numItems; i++)
    {
        UInt32 crc = 0;
        if (digestsDefined[i])
            crc = ReadUInt32();
        digests.Add(crc);
    }
}
コード例 #2
0
ファイル: atomstts.cpp プロジェクト: OpenQCam/qcam
bool AtomSTTS::ReadData() {
	uint32_t entryCount;
	if (!ReadUInt32(entryCount)) {
		FATAL("Unable to read entry count");
		return false;
	}

	for (uint32_t i = 0; i < entryCount; i++) {
		STTSEntry entry;

		if (!ReadUInt32(entry.count)) {
			FATAL("Unable to read count");
			return false;
		}

		if (!ReadUInt32(entry.delta)) {
			FATAL("Unable to read delta");
			return false;
		}

		ADD_VECTOR_END(_sttsEntries, entry);
	}
	return true;
}
コード例 #3
0
ファイル: EXIF.cpp プロジェクト: AOSC-Dev/Pale-Moon
/////////////////////////////////////////////////////////
// Parse the entries in IFD0. (Section 4.6.2)
/////////////////////////////////////////////////////////
bool
EXIFParser::ParseIFD0(Orientation& aOrientationOut)
{
  uint16_t entryCount;
  if (!ReadUInt16(entryCount)) {
    return false;
  }

  for (uint16_t entry = 0 ; entry < entryCount ; ++entry) {
    // Read the fields of the entry.
    uint16_t tag;
    if (!ReadUInt16(tag)) {
      return false;
    }

    // Right now, we only care about orientation, so we immediately skip to the
    // next entry if we find anything else.
    if (tag != OrientationTag) {
      Advance(10);
      continue;
    }

    uint16_t type;
    if (!ReadUInt16(type)) {
      return false;
    }

    uint32_t count;
    if (!ReadUInt32(count)) {
      return false;
    }

    // We should have an orientation value here; go ahead and parse it.
    if (!ParseOrientation(type, count, aOrientationOut)) {
      return false;
    }

    // Since the orientation is all we care about, we're done.
    return true;
  }

  // We didn't find an orientation field in the IFD. That's OK; we assume the
  // default orientation in that case.
  aOrientationOut = Orientation();
  return true;
}
コード例 #4
0
ファイル: SafeFile.cpp プロジェクト: 0vermind/hmule
wxString CFileDataIO::ReadString(bool bOptUTF8, uint8 SizeLen, bool SafeRead) const
{
	uint32 readLen;
	switch (SizeLen) {
		case sizeof(uint16):	readLen = ReadUInt16();	break;
		case sizeof(uint32):	readLen = ReadUInt32();	break;
			
		default:
			MULE_VALIDATE_PARAMS(false, wxT("Invalid SizeLen value in ReadString"));
	}	

	if (SafeRead) {
		readLen = std::min<uint64>(readLen, GetLength() - GetPosition());
	}
	
	return ReadOnlyString(bOptUTF8, readLen);
}
コード例 #5
0
ファイル: RarIn.cpp プロジェクト: Ando02/wubiuefi
bool CInArchive::ReadMarkerAndArchiveHeader(const UInt64 *searchHeaderSizeLimit)
{
  if (!FindAndReadMarker(searchHeaderSizeLimit))
    return false;

  Byte buf[NHeader::NArchive::kArchiveHeaderSize];
  UInt32 processedSize;
  ReadBytes(buf, sizeof(buf), &processedSize);
  if (processedSize != sizeof(buf))
    return false;
  m_CurData = buf;
  m_CurPos  = 0;
  m_PosLimit = sizeof(buf);

  m_ArchiveHeader.CRC = ReadUInt16();
  m_ArchiveHeader.Type = ReadByte();
  m_ArchiveHeader.Flags = ReadUInt16();
  m_ArchiveHeader.Size = ReadUInt16();
  m_ArchiveHeader.Reserved1 = ReadUInt16();
  m_ArchiveHeader.Reserved2 = ReadUInt32();
  m_ArchiveHeader.EncryptVersion = 0;

  UInt32 crc = CRC_INIT_VAL;
  crc = CRC_UPDATE_BYTE(crc, m_ArchiveHeader.Type);
  crc = CrcUpdateUInt16(crc, m_ArchiveHeader.Flags);
  crc = CrcUpdateUInt16(crc, m_ArchiveHeader.Size);
  crc = CrcUpdateUInt16(crc, m_ArchiveHeader.Reserved1);
  crc = CrcUpdateUInt32(crc, m_ArchiveHeader.Reserved2);

  if (m_ArchiveHeader.IsThereEncryptVer() && m_ArchiveHeader.Size > NHeader::NArchive::kArchiveHeaderSize)
  {
    ReadBytes(&m_ArchiveHeader.EncryptVersion, 1, &processedSize);
    if (processedSize != 1)
      return false;
    crc = CRC_UPDATE_BYTE(crc, m_ArchiveHeader.EncryptVersion);
  }

  if(m_ArchiveHeader.CRC != (CRC_GET_DIGEST(crc) & 0xFFFF))
    ThrowExceptionWithCode(CInArchiveException::kArchiveHeaderCRCError);
  if (m_ArchiveHeader.Type != NHeader::NBlockType::kArchiveHeader)
    return false;
  m_ArchiveCommentPosition = m_Position;
  m_SeekOnArchiveComment = true;
  return true;
}
コード例 #6
0
ファイル: ZipIn.cpp プロジェクト: borneq/bind7z
HRESULT CInArchive::TryReadCd(CObjectVector<CItemEx> &items, UInt64 cdOffset, UInt64 cdSize, CProgressVirt *progress)
{
  items.Clear();
  RINOK(Stream->Seek(cdOffset, STREAM_SEEK_SET, &m_Position));
  if (m_Position != cdOffset)
    return S_FALSE;

  _inBuffer.Init();
  _inBufMode = true;

  while (m_Position - cdOffset < cdSize)
  {
    if (ReadUInt32() != NSignature::kCentralFileHeader)
      return S_FALSE;
    CItemEx cdItem;
    RINOK(ReadCdItem(cdItem));
    items.Add(cdItem);
    if (progress && items.Size() % 1 == 0)
      RINOK(progress->SetCompletedCD(items.Size()));
  }
  return (m_Position - cdOffset == cdSize) ? S_OK : S_FALSE;
}
コード例 #7
0
ファイル: ClassicObjStream.cpp プロジェクト: espes/hoverrace
MR_UInt32 ClassicObjStream::ReadStringLength()
{
	MR_UInt8 b;
	ReadUInt8(b);
	if (b < 0xff) return b;

	MR_UInt16 w;
	ReadUInt16(w);
	if (w == 0xfffe) {
		// Unicode (length follows).
		ASSERT(FALSE);
		throw std::exception();
	}
	else if (w == 0xffff) {
		MR_UInt32 dw;
		ReadUInt32(dw);
		return dw;
	}
	else {
		return w;
	}
}
コード例 #8
0
ファイル: EXIF.cpp プロジェクト: Andrel322/gecko-dev
/////////////////////////////////////////////////////////
// Parse the TIFF header. (Section 4.5.2, Table 1)
/////////////////////////////////////////////////////////
bool
EXIFParser::ParseTIFFHeader(uint32_t& aIFD0OffsetOut)
{
  // Determine byte order.
  if (MatchString("MM\0*", 4))
    mByteOrder = ByteOrder::BigEndian;
  else if (MatchString("II*\0", 4))
    mByteOrder = ByteOrder::LittleEndian;
  else
    return false;

  // Determine offset of the 0th IFD. (It shouldn't be greater than 64k, which
  // is the maximum size of the entry APP1 segment.)
  uint32_t ifd0Offset;
  if (!ReadUInt32(ifd0Offset) || ifd0Offset > 64 * 1024)
    return false;

  // The IFD offset is relative to the beginning of the TIFF header, which
  // begins after the EXIF header, so we need to increase the offset
  // appropriately.
  aIFD0OffsetOut = ifd0Offset + EXIFHeaderLength;
  return true;
}
コード例 #9
0
ファイル: ZipIn.cpp プロジェクト: borneq/bind7z
HRESULT CInArchive::ReadLocalItemAfterCdItem(CItemEx &item)
{
  if (item.FromLocal)
    return S_OK;
  try
  {
    UInt64 offset = ArcInfo.Base + item.LocalHeaderPos;
    if (ArcInfo.Base < 0 && (Int64)offset < 0)
      return S_FALSE;
    RINOK(Seek(offset));
    CItemEx localItem;
    if (ReadUInt32() != NSignature::kLocalFileHeader)
      return S_FALSE;
    ReadLocalItem(localItem);
    if (!AreItemsEqual(localItem, item))
      return S_FALSE;
    item.LocalFullHeaderSize = localItem.LocalFullHeaderSize;
    item.LocalExtra = localItem.LocalExtra;
    item.FromLocal = true;
  }
  catch(...) { return S_FALSE; }
  return S_OK;
}
コード例 #10
0
ファイル: ZipIn.cpp プロジェクト: borneq/bind7z
HRESULT CInArchive::ReadLocals(
    CObjectVector<CItemEx> &items, CProgressVirt *progress)
{
  items.Clear();
  while (m_Signature == NSignature::kLocalFileHeader)
  {
    CItemEx item;
    item.LocalHeaderPos = m_Position - 4 - ArcInfo.MarkerPos;
    // we write ralative LocalHeaderPos here. Later we can correct it to real Base.
    try
    {
      ReadLocalItem(item);
      item.FromLocal = true;
      if (item.HasDescriptor())
        ReadLocalItemDescriptor(item);
      else
      {
        RINOK(IncreaseRealPosition(item.PackSize));
      }
      items.Add(item);
      m_Signature = ReadUInt32();
    }
    catch (CUnexpectEnd &)
    {
      if (items.IsEmpty() || items.Size() == 1 && IsStrangeItem(items[0]))
        return S_FALSE;
      throw;
    }
    if (progress && items.Size() % 1 == 0)
      RINOK(progress->SetCompletedLocal(items.Size(), item.LocalHeaderPos));
  }

  if (items.Size() == 1 && m_Signature != NSignature::kCentralFileHeader)
    if (IsStrangeItem(items[0]))
      return S_FALSE;
  return S_OK;
}
コード例 #11
0
ファイル: 7zIn.cpp プロジェクト: 0963682490/omaha
HRESULT CInArchive::ReadHeader(
    DECL_EXTERNAL_CODECS_LOC_VARS
    CArchiveDatabaseEx &db
    #ifndef _NO_CRYPTO
    , ICryptoGetTextPassword *getTextPassword, bool &passwordIsDefined
    #endif
    )
{
  UInt64 type = ReadID();

  if (type == NID::kArchiveProperties)
  {
    ReadArchiveProperties(db.ArchiveInfo);
    type = ReadID();
  }
 
  CObjectVector<CByteBuffer> dataVector;
  
  if (type == NID::kAdditionalStreamsInfo)
  {
    HRESULT result = ReadAndDecodePackedStreams(
        EXTERNAL_CODECS_LOC_VARS
        db.ArchiveInfo.StartPositionAfterHeader,
        db.ArchiveInfo.DataStartPosition2,
        dataVector
        #ifndef _NO_CRYPTO
        , getTextPassword, passwordIsDefined
        #endif
        );
    RINOK(result);
    db.ArchiveInfo.DataStartPosition2 += db.ArchiveInfo.StartPositionAfterHeader;
    type = ReadID();
  }

  CRecordVector<UInt64> unpackSizes;
  CBoolVector digestsDefined;
  CRecordVector<UInt32> digests;
  
  if (type == NID::kMainStreamsInfo)
  {
    ReadStreamsInfo(&dataVector,
        db.ArchiveInfo.DataStartPosition,
        db.PackSizes,
        db.PackCRCsDefined,
        db.PackCRCs,
        db.Folders,
        db.NumUnpackStreamsVector,
        unpackSizes,
        digestsDefined,
        digests);
    db.ArchiveInfo.DataStartPosition += db.ArchiveInfo.StartPositionAfterHeader;
    type = ReadID();
  }
  else
  {
    for (int i = 0; i < db.Folders.Size(); i++)
    {
      db.NumUnpackStreamsVector.Add(1);
      CFolder &folder = db.Folders[i];
      unpackSizes.Add(folder.GetUnpackSize());
      digestsDefined.Add(folder.UnpackCRCDefined);
      digests.Add(folder.UnpackCRC);
    }
  }

  db.Files.Clear();

  if (type == NID::kEnd)
    return S_OK;
  if (type != NID::kFilesInfo)
    ThrowIncorrect();
  
  CNum numFiles = ReadNum();
  db.Files.Reserve(numFiles);
  CNum i;
  for (i = 0; i < numFiles; i++)
    db.Files.Add(CFileItem());

  db.ArchiveInfo.FileInfoPopIDs.Add(NID::kSize);
  if (!db.PackSizes.IsEmpty())
    db.ArchiveInfo.FileInfoPopIDs.Add(NID::kPackInfo);
  if (numFiles > 0  && !digests.IsEmpty())
    db.ArchiveInfo.FileInfoPopIDs.Add(NID::kCRC);

  CBoolVector emptyStreamVector;
  BoolVector_Fill_False(emptyStreamVector, (int)numFiles);
  CBoolVector emptyFileVector;
  CBoolVector antiFileVector;
  CNum numEmptyStreams = 0;

  for (;;)
  {
    UInt64 type = ReadID();
    if (type == NID::kEnd)
      break;
    UInt64 size = ReadNumber();
    size_t ppp = _inByteBack->_pos;
    bool addPropIdToList = true;
    bool isKnownType = true;
    if (type > ((UInt32)1 << 30))
      isKnownType = false;
    else switch((UInt32)type)
    {
      case NID::kName:
      {
        CStreamSwitch streamSwitch;
        streamSwitch.Set(this, &dataVector);
        for (int i = 0; i < db.Files.Size(); i++)
          _inByteBack->ReadString(db.Files[i].Name);
        break;
      }
      case NID::kWinAttributes:
      {
        CBoolVector boolVector;
        ReadBoolVector2(db.Files.Size(), boolVector);
        CStreamSwitch streamSwitch;
        streamSwitch.Set(this, &dataVector);
        for (i = 0; i < numFiles; i++)
        {
          CFileItem &file = db.Files[i];
          file.AttribDefined = boolVector[i];
          if (file.AttribDefined)
            file.Attrib = ReadUInt32();
        }
        break;
      }
      case NID::kEmptyStream:
      {
        ReadBoolVector(numFiles, emptyStreamVector);
        for (i = 0; i < (CNum)emptyStreamVector.Size(); i++)
          if (emptyStreamVector[i])
            numEmptyStreams++;

        BoolVector_Fill_False(emptyFileVector, numEmptyStreams);
        BoolVector_Fill_False(antiFileVector, numEmptyStreams);

        break;
      }
      case NID::kEmptyFile:  ReadBoolVector(numEmptyStreams, emptyFileVector); break;
      case NID::kAnti:  ReadBoolVector(numEmptyStreams, antiFileVector); break;
      case NID::kStartPos:  ReadUInt64DefVector(dataVector, db.StartPos, (int)numFiles); break;
      case NID::kCTime:  ReadUInt64DefVector(dataVector, db.CTime, (int)numFiles); break;
      case NID::kATime:  ReadUInt64DefVector(dataVector, db.ATime, (int)numFiles); break;
      case NID::kMTime:  ReadUInt64DefVector(dataVector, db.MTime, (int)numFiles); break;
      case NID::kDummy:
      {
        for (UInt64 j = 0; j < size; j++)
          if (ReadByte() != 0)
            ThrowIncorrect();
        addPropIdToList = false;
        break;
      }
      default:
        addPropIdToList = isKnownType = false;
    }
    if (isKnownType)
    {
      if(addPropIdToList)
        db.ArchiveInfo.FileInfoPopIDs.Add(type);
    }
    else
      SkipData(size);
    bool checkRecordsSize = (db.ArchiveInfo.Version.Major > 0 ||
        db.ArchiveInfo.Version.Minor > 2);
    if (checkRecordsSize && _inByteBack->_pos - ppp != size)
      ThrowIncorrect();
  }

  CNum emptyFileIndex = 0;
  CNum sizeIndex = 0;

  CNum numAntiItems = 0;
  for (i = 0; i < numEmptyStreams; i++)
    if (antiFileVector[i])
      numAntiItems++;
    
  for (i = 0; i < numFiles; i++)
  {
    CFileItem &file = db.Files[i];
    bool isAnti;
    file.HasStream = !emptyStreamVector[i];
    if (file.HasStream)
    {
      file.IsDir = false;
      isAnti = false;
      file.Size = unpackSizes[sizeIndex];
      file.Crc = digests[sizeIndex];
      file.CrcDefined = digestsDefined[sizeIndex];
      sizeIndex++;
    }
    else
    {
      file.IsDir = !emptyFileVector[emptyFileIndex];
      isAnti = antiFileVector[emptyFileIndex];
      emptyFileIndex++;
      file.Size = 0;
      file.CrcDefined = false;
    }
    if (numAntiItems != 0)
      db.IsAnti.Add(isAnti);
  }
  return S_OK;
}
コード例 #12
0
ファイル: atomdata.cpp プロジェクト: OpenQCam/qcam
bool AtomDATA::Read() {
	//1. Read the type
	if (!ReadUInt32(_type)) {
		FATAL("Unable to read type");
		return false;
	}

	//2. Read unknown 4 bytes
	if (!ReadUInt32(_unknown)) {
		FATAL("Unable to read type");
		return false;
	}

	switch (_type) {
		case 1:
		{
			//Single string
			if (!ReadString(_dataString, GetSize() - 8 - 8)) {
				FATAL("Unable to read string");
				return false;
			}
			return true;
		}
		case 0:
		{
			//many uint16_t
			uint64_t count = (GetSize() - 8 - 8) / 2;
			for (uint64_t i = 0; i < count; i++) {
				uint16_t val;
				if (!ReadUInt16(val)) {
					FATAL("Unable to read value");
					return false;
				}
				ADD_VECTOR_END(_dataUI16, val);
			}
			return true;
		}
		case 21:
		{
			//many uint8_t
			uint64_t count = GetSize() - 8 - 8;
			for (uint64_t i = 0; i < count; i++) {
				uint8_t val;
				if (!ReadUInt8(val)) {
					FATAL("Unable to read value");
					return false;
				}
				ADD_VECTOR_END(_dataUI8, val);
			}
			return true;
		}
		case 14:
		case 15:
		{
			if (!ReadString(_dataImg, GetSize() - 8 - 8)) {
				FATAL("Unable to read data");
				return false;
			}
			return true;
		}
		default:
		{
			FATAL("Type %u not yet implemented", _type);
			return false;
		}
	}
}
コード例 #13
0
ファイル: ChmIn.cpp プロジェクト: mcmilk/7-Zip-zstd
HRESULT CInArchive::OpenHelp2(IInStream *inStream, CDatabase &database)
{
  if (ReadUInt32() != 1) // version
    return S_FALSE;
  if (ReadUInt32() != 0x28) // Location of header section table
    return S_FALSE;
  UInt32 numHeaderSections = ReadUInt32();
  const unsigned kNumHeaderSectionsMax = 5;
  if (numHeaderSections != kNumHeaderSectionsMax)
    return S_FALSE;

  IsArc = true;

  ReadUInt32(); // Len of post-header table
  Byte g[16];
  ReadGUID(g);  // {0A9007C1-4076-11D3-8789-0000F8105754}

  // header section table
  UInt64 sectionOffsets[kNumHeaderSectionsMax];
  UInt64 sectionSizes[kNumHeaderSectionsMax];
  UInt32 i;
  for (i = 0; i < numHeaderSections; i++)
  {
    sectionOffsets[i] = ReadUInt64();
    sectionSizes[i] = ReadUInt64();
    UInt64 end = sectionOffsets[i] + sectionSizes[i];
    database.UpdatePhySize(end);
  }
  
  // Post-Header
  ReadUInt32(); // 2
  ReadUInt32(); // 0x98: offset to CAOL from beginning of post-header)
  // ----- Directory information
  ReadUInt64(); // Chunk number of top-level AOLI chunk in directory, or -1
  ReadUInt64(); // Chunk number of first AOLL chunk in directory
  ReadUInt64(); // Chunk number of last AOLL chunk in directory
  ReadUInt64(); // 0 (unknown)
  ReadUInt32(); // $2000 (Directory chunk size of directory)
  ReadUInt32(); // Quickref density for main directory, usually 2
  ReadUInt32(); // 0 (unknown)
  ReadUInt32(); // Depth of main directory index tree
                // 1 there is no index, 2 if there is one level of AOLI chunks.
  ReadUInt64(); // 0 (unknown)
  UInt64 numDirEntries = ReadUInt64(); // Number of directory entries
  // ----- Directory Index Information
  ReadUInt64(); // -1 (unknown, probably chunk number of top-level AOLI in directory index)
  ReadUInt64(); // Chunk number of first AOLL chunk in directory index
  ReadUInt64(); // Chunk number of last AOLL chunk in directory index
  ReadUInt64(); // 0 (unknown)
  ReadUInt32(); // $200 (Directory chunk size of directory index)
  ReadUInt32(); // Quickref density for directory index, usually 2
  ReadUInt32(); // 0 (unknown)
  ReadUInt32(); // Depth of directory index index tree.
  ReadUInt64(); // Possibly flags -- sometimes 1, sometimes 0.
  ReadUInt64(); // Number of directory index entries (same as number of AOLL
               // chunks in main directory)
  
  // (The obvious guess for the following two fields, which recur in a number
  // of places, is they are maximum sizes for the directory and directory index.
  // However, I have seen no direct evidence that this is the case.)

  ReadUInt32(); // $100000 (Same as field following chunk size in directory)
  ReadUInt32(); // $20000 (Same as field following chunk size in directory index)

  ReadUInt64(); // 0 (unknown)
  if (ReadUInt32() != kSignature_CAOL)
    return S_FALSE;
  if (ReadUInt32() != 2) // (Most likely a version number)
    return S_FALSE;
  UInt32 caolLength = ReadUInt32(); // $50 (Len of the CAOL section, which includes the ITSF section)
  if (caolLength >= 0x2C)
  {
    /* UInt32 c7 = */ ReadUInt16(); // Unknown.  Remains the same when identical files are built.
              // Does not appear to be a checksum.  Many files have
              // 'HH' (HTML Help?) here, indicating this may be a compiler ID
              //  field.  But at least one ITOL/ITLS compiler does not set this
              // field to a constant value.
    ReadUInt16(); // 0 (Unknown.  Possibly part of 00A4 field)
    ReadUInt32(); // Unknown.  Two values have been seen -- $43ED, and 0.
    ReadUInt32(); // $2000 (Directory chunk size of directory)
    ReadUInt32(); // $200 (Directory chunk size of directory index)
    ReadUInt32(); // $100000 (Same as field following chunk size in directory)
    ReadUInt32(); // $20000 (Same as field following chunk size in directory index)
    ReadUInt32(); // 0 (unknown)
    ReadUInt32(); // 0 (Unknown)
    if (caolLength == 0x2C)
    {
      // fprintf(stdout, "\n !!!NewFormat\n");
      // fflush(stdout);
      database.ContentOffset = 0; // maybe we must add database.StartPosition here?
      database.NewFormat = true;
    }
    else if (caolLength == 0x50)
    {
      ReadUInt32(); // 0 (Unknown)
      if (ReadUInt32() != kSignature_ITSF)
        return S_FALSE;
      if (ReadUInt32() != 4) // $4 (Version number -- CHM uses 3)
        return S_FALSE;
      if (ReadUInt32() != 0x20) // $20 (length of ITSF)
        return S_FALSE;
      UInt32 unknown = ReadUInt32();
      if (unknown != 0 && unknown != 1) // = 0 for some HxW files, 1 in other cases;
        return S_FALSE;
      database.ContentOffset = database.StartPosition + ReadUInt64();
      /* UInt32 timeStamp = */ ReadUInt32();
          // A timestamp of some sort.
          // Considered as a big-endian DWORD, it appears to contain
          // seconds (MSB) and fractional seconds (second byte).
          // The third and fourth bytes may contain even more fractional
          // bits.  The 4 least significant bits in the last byte are constant.
      /* UInt32 lang = */ ReadUInt32(); // BE?
    }
    else
      return S_FALSE;
  }

  // Section 0
  ReadChunk(inStream, database.StartPosition + sectionOffsets[0], sectionSizes[0]);
  if (sectionSizes[0] < 0x18)
    return S_FALSE;
  if (ReadUInt32() != 0x01FE)
    return S_FALSE;
  ReadUInt32(); // unknown:  0
  UInt64 fileSize = ReadUInt64();
  database.UpdatePhySize(fileSize);
  ReadUInt32(); // unknown:  0
  ReadUInt32(); // unknown:  0

  // Section 1: The Directory Listing
  ReadChunk(inStream, database.StartPosition + sectionOffsets[1], sectionSizes[1]);
  if (ReadUInt32() != kSignature_IFCM)
    return S_FALSE;
  if (ReadUInt32() != 1) // (probably a version number)
    return S_FALSE;
  UInt32 dirChunkSize = ReadUInt32(); // $2000
  if (dirChunkSize < 64)
    return S_FALSE;
  ReadUInt32(); // $100000  (unknown)
  ReadUInt32(); // -1 (unknown)
  ReadUInt32(); // -1 (unknown)
  UInt32 numDirChunks = ReadUInt32();
  ReadUInt32(); // 0 (unknown, probably high word of above)

  for (UInt32 ci = 0; ci < numDirChunks; ci++)
  {
    UInt64 chunkPos = _inBuffer.GetProcessedSize();
    if (ReadUInt32() == kSignature_AOLL)
    {
      UInt32 quickrefLength = ReadUInt32(); // Len of quickref area at end of directory chunk
      if (quickrefLength > dirChunkSize || quickrefLength < 2)
        return S_FALSE;
      ReadUInt64(); // Directory chunk number
            // This must match physical position in file, that is
            // the chunk size times the chunk number must be the
            // offset from the end of the directory header.
      ReadUInt64(); // Chunk number of previous listing chunk when reading
                    // directory in sequence (-1 if first listing chunk)
      ReadUInt64(); // Chunk number of next listing chunk when reading
                    // directory in sequence (-1 if last listing chunk)
      ReadUInt64(); // Number of first listing entry in this chunk
      ReadUInt32(); // 1 (unknown -- other values have also been seen here)
      ReadUInt32(); // 0 (unknown)
      
      unsigned numItems = 0;
      for (;;)
      {
        UInt64 offset = _inBuffer.GetProcessedSize() - chunkPos;
        UInt32 offsetLimit = dirChunkSize - quickrefLength;
        if (offset > offsetLimit)
          return S_FALSE;
        if (offset == offsetLimit)
          break;
        if (database.NewFormat)
        {
          UInt16 nameLen = ReadUInt16();
          if (nameLen == 0)
            return S_FALSE;
          UString name;
          ReadUString((unsigned)nameLen, name);
          AString s;
          ConvertUnicodeToUTF8(name, s);
          Byte b = ReadByte();
          s.Add_Space();
          PrintByte(b, s);
          s.Add_Space();
          UInt64 len = ReadEncInt();
          // then number of items ?
          // then length ?
          // then some data (binary encoding?)
          while (len-- != 0)
          {
            b = ReadByte();
            PrintByte(b, s);
          }
          database.NewFormatString += s;
          database.NewFormatString += "\r\n";
        }
        else
        {
          RINOK(ReadDirEntry(database));
        }
        numItems++;
      }
      Skip(quickrefLength - 2);
      if (ReadUInt16() != numItems)
        return S_FALSE;
      if (numItems > numDirEntries)
        return S_FALSE;
      numDirEntries -= numItems;
    }
    else
      Skip(dirChunkSize - 4);
  }
  return numDirEntries == 0 ? S_OK : S_FALSE;
}
コード例 #14
0
ファイル: ChmIn.cpp プロジェクト: mcmilk/7-Zip-zstd
HRESULT CInArchive::OpenChm(IInStream *inStream, CDatabase &database)
{
  UInt32 headerSize = ReadUInt32();
  if (headerSize != 0x60)
    return S_FALSE;
  database.PhySize = headerSize;

  UInt32 unknown1 = ReadUInt32();
  if (unknown1 != 0 && unknown1 != 1) // it's 0 in one .sll file
    return S_FALSE;

  IsArc = true;

  /* UInt32 timeStamp = */ ReadUInt32();
      // Considered as a big-endian DWORD, it appears to contain seconds (MSB) and
      // fractional seconds (second byte).
      // The third and fourth bytes may contain even more fractional bits.
      // The 4 least significant bits in the last byte are constant.
  /* UInt32 lang = */ ReadUInt32();
  Byte g[16];
  ReadGUID(g); // {7C01FD10-7BAA-11D0-9E0C-00A0-C922-E6EC}
  ReadGUID(g); // {7C01FD11-7BAA-11D0-9E0C-00A0-C922-E6EC}
  const unsigned kNumSections = 2;
  UInt64 sectionOffsets[kNumSections];
  UInt64 sectionSizes[kNumSections];
  unsigned i;
  for (i = 0; i < kNumSections; i++)
  {
    sectionOffsets[i] = ReadUInt64();
    sectionSizes[i] = ReadUInt64();
    UInt64 end = sectionOffsets[i] + sectionSizes[i];
    database.UpdatePhySize(end);
  }
  // if (chmVersion == 3)
    database.ContentOffset = ReadUInt64();
  /*
  else
    database.ContentOffset = database.StartPosition + 0x58
  */

  // Section 0
  ReadChunk(inStream, sectionOffsets[0], sectionSizes[0]);
  if (sectionSizes[0] < 0x18)
    return S_FALSE;
  if (ReadUInt32() != 0x01FE)
    return S_FALSE;
  ReadUInt32(); // unknown:  0
  UInt64 fileSize = ReadUInt64();
  database.UpdatePhySize(fileSize);
  ReadUInt32(); // unknown:  0
  ReadUInt32(); // unknown:  0

  // Section 1: The Directory Listing
  ReadChunk(inStream, sectionOffsets[1], sectionSizes[1]);
  if (ReadUInt32() != kSignature_ITSP)
    return S_FALSE;
  if (ReadUInt32() != 1) // version
    return S_FALSE;
  /* UInt32 dirHeaderSize = */ ReadUInt32();
  ReadUInt32(); // 0x0A (unknown)
  UInt32 dirChunkSize = ReadUInt32(); // $1000
  if (dirChunkSize < 32)
    return S_FALSE;
  /* UInt32 density = */ ReadUInt32(); //  "Density" of quickref section, usually 2.
  /* UInt32 depth = */ ReadUInt32(); //  Depth of the index tree: 1 there is no index,
                               // 2 if there is one level of PMGI chunks.

  /* UInt32 chunkNumber = */ ReadUInt32(); //  Chunk number of root index chunk, -1 if there is none
                                     // (though at least one file has 0 despite there being no
                                     // index chunk, probably a bug.)
  /* UInt32 firstPmglChunkNumber = */ ReadUInt32(); // Chunk number of first PMGL (listing) chunk
  /* UInt32 lastPmglChunkNumber = */ ReadUInt32();  // Chunk number of last PMGL (listing) chunk
  ReadUInt32(); // -1 (unknown)
  UInt32 numDirChunks = ReadUInt32(); // Number of directory chunks (total)
  /* UInt32 windowsLangId = */ ReadUInt32();
  ReadGUID(g);  // {5D02926A-212E-11D0-9DF9-00A0C922E6EC}
  ReadUInt32(); // 0x54 (This is the length again)
  ReadUInt32(); // -1 (unknown)
  ReadUInt32(); // -1 (unknown)
  ReadUInt32(); // -1 (unknown)

  for (UInt32 ci = 0; ci < numDirChunks; ci++)
  {
    UInt64 chunkPos = _inBuffer.GetProcessedSize();
    if (ReadUInt32() == kSignature_PMGL)
    {
      // The quickref area is written backwards from the end of the chunk.
      // One quickref entry exists for every n entries in the file, where n
      // is calculated as 1 + (1 << quickref density). So for density = 2, n = 5.

      UInt32 quickrefLength = ReadUInt32(); // Len of free space and/or quickref area at end of directory chunk
      if (quickrefLength > dirChunkSize || quickrefLength < 2)
        return S_FALSE;
      ReadUInt32(); // Always 0
      ReadUInt32(); // Chunk number of previous listing chunk when reading
                    // directory in sequence (-1 if this is the first listing chunk)
      ReadUInt32(); // Chunk number of next  listing chunk when reading
                    // directory in sequence (-1 if this is the last listing chunk)
      unsigned numItems = 0;
      
      for (;;)
      {
        UInt64 offset = _inBuffer.GetProcessedSize() - chunkPos;
        UInt32 offsetLimit = dirChunkSize - quickrefLength;
        if (offset > offsetLimit)
          return S_FALSE;
        if (offset == offsetLimit)
          break;
        RINOK(ReadDirEntry(database));
        numItems++;
      }
      
      Skip(quickrefLength - 2);
      
      unsigned rrr = ReadUInt16();
      if (rrr != numItems)
      {
        // Lazarus 9-26-2 chm contains 0 here.
        if (rrr != 0)
          return S_FALSE;
      }
    }
    else
      Skip(dirChunkSize - 4);
  }
  return S_OK;
}
コード例 #15
0
ファイル: atommp4a.cpp プロジェクト: OpenQCam/qcam
bool AtomMP4A::ReadData() {
	//qtff.pdf: General StructureofaSampleDescription (76/304)

	//TODO: there seems to be 2 kinds of DISTINCT mp4a atoms. If the size
	// of the atom is 0x0c (size+'mp4a'+4 zeros) we should ignore it for now...
	if (_size == 0x0c) {
		WARN("Another strange mp4a atom....");
		return true;
	}

	//1. Skip reserved 6 bytes. Actually, slip the next 2, because the prev 4
	//are already skipped by the versioned atom
	if (!SkipBytes(2)) {
		FATAL("Unable to skip 2 bytes");
		return false;
	}

	if (!ReadUInt16(_dataReferenceIndex)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt16(_innerVersion)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt16(_revisionLevel)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt32(_vendor)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt16(_numberOfChannels)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt16(_sampleSizeInBits)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadInt16(_compressionId)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt16(_packetSize)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt32(_sampleRate)) {
		FATAL("Unable to read count");
		return false;
	}

	if (_innerVersion == 0) {
		return true;
	}


	if (!ReadUInt32(_samplesPerPacket)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt32(_bytesPerPacket)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt32(_bytesPerFrame)) {
		FATAL("Unable to read count");
		return false;
	}

	if (!ReadUInt32(_bytesPerSample)) {
		FATAL("Unable to read count");
		return false;
	}

	return true;
}
コード例 #16
0
ファイル: SafeFile.cpp プロジェクト: 0vermind/hmule
CTag *CFileDataIO::ReadTag(bool bOptACP) const
{
	CTag *retVal = NULL;
	wxString name;
	byte type = 0;
	try {
		type = ReadUInt8();
		name = ReadString(false);

		switch (type)
		{
			// NOTE: This tag data type is accepted and stored only to give us the possibility to upgrade 
			// the net in some months.
			//
			// And still.. it doesnt't work this way without breaking backward compatibility. To properly
			// do this without messing up the network the following would have to be done:
			//	 -	those tag types have to be ignored by any client, otherwise those tags would also be sent (and 
			//		that's really the problem)
			//
			//	 -	ignoring means, each client has to read and right throw away those tags, so those tags get
			//		get never stored in any tag list which might be sent by that client to some other client.
			//
			//	 -	all calling functions have to be changed to deal with the 'nr. of tags' attribute (which was 
			//		already parsed) correctly.. just ignoring those tags here is not enough, any taglists have to 
			//		be built with the knowledge that the 'nr. of tags' attribute may get decreased during the tag 
			//		reading..
			// 
			// If those new tags would just be stored and sent to remote clients, any malicious or just bugged
			// client could let send a lot of nodes "corrupted" packets...
			//
			case TAGTYPE_HASH16:
			{
				retVal = new CTagHash(name, ReadHash());
				break;
			}

			case TAGTYPE_STRING:
				retVal = new CTagString(name, ReadString(bOptACP));
				break;

			case TAGTYPE_UINT64:
				retVal = new CTagInt64(name, ReadUInt64());
				break;

			case TAGTYPE_UINT32:
				retVal = new CTagInt32(name, ReadUInt32());
				break;

			case TAGTYPE_UINT16:
				retVal = new CTagInt16(name, ReadUInt16());
				break;

			case TAGTYPE_UINT8:
				retVal = new CTagInt8(name, ReadUInt8());
				break;

			case TAGTYPE_FLOAT32:
				retVal = new CTagFloat(name, ReadFloat());
				break;

			// NOTE: This tag data type is accepted and stored only to give us the possibility to upgrade 
			// the net in some months.
			//
			// And still.. it doesnt't work this way without breaking backward compatibility
			case TAGTYPE_BSOB:
			{
				uint8 size = 0;
				CScopedArray<unsigned char> value(ReadBsob(&size));
				
				retVal = new CTagBsob(name, value.get(), size);
				break;
			}

			default:
				throw wxString(CFormat(wxT("Invalid Kad tag type; type=0x%02x name=%s\n")) % type % name);
		}
	} catch(const CMuleException& e) {
		AddLogLineN(e.what());
		delete retVal;
		throw;
	} catch(const wxString& e) {
		AddLogLineN(e);
		throw;
	}
	
	return retVal;
}
コード例 #17
0
ファイル: XBTFReader.cpp プロジェクト: 0xheart0/xbmc
bool CXBTFReader::Open(const std::string& path)
{
  if (path.empty())
    return false;

  m_path = path;

#ifdef TARGET_WINDOWS
  std::wstring strPathW;
  g_charsetConverter.utf8ToW(CSpecialProtocol::TranslatePath(m_path), strPathW, false);
  m_file = _wfopen(strPathW.c_str(), L"rb");
#else
  m_file = fopen(m_path.c_str(), "rb");
#endif
  if (m_file == nullptr)
    return false;

  // read the magic word
  char magic[4];
  if (!ReadString(m_file, magic, sizeof(magic)))
    return false;

  if (strncmp(XBTF_MAGIC.c_str(), magic, sizeof(magic)) != 0)
    return false;

  // read the version
  char version[1];
  if (!ReadString(m_file, version, sizeof(version)))
    return false;

  if (strncmp(XBTF_VERSION.c_str(), version, sizeof(version)) != 0)
    return false;

  unsigned int nofFiles;
  if (!ReadUInt32(m_file, nofFiles))
    return false;

  for (uint32_t i = 0; i < nofFiles; i++)
  {
    CXBTFFile xbtfFile;
    uint32_t u32;
    uint64_t u64;

    char path[CXBTFFile::MaximumPathLength];
    memset(path, 0, sizeof(path));
    if (!ReadString(m_file, path, sizeof(path)))
      return false;
    xbtfFile.SetPath(path);

    if (!ReadUInt32(m_file, u32))
      return false;
    xbtfFile.SetLoop(u32);

    unsigned int nofFrames;
    if (!ReadUInt32(m_file, nofFrames))
      return false;

    for (uint32_t j = 0; j < nofFrames; j++)
    {
      CXBTFFrame frame;

      if (!ReadUInt32(m_file, u32))
        return false;
      frame.SetWidth(u32);

      if (!ReadUInt32(m_file, u32))
        return false;
      frame.SetHeight(u32);

      if (!ReadUInt32(m_file, u32))
        return false;
      frame.SetFormat(u32);

      if (!ReadUInt64(m_file, u64))
        return false;
      frame.SetPackedSize(u64);

      if (!ReadUInt64(m_file, u64))
        return false;
      frame.SetUnpackedSize(u64);

      if (!ReadUInt32(m_file, u32))
        return false;
      frame.SetDuration(u32);

      if (!ReadUInt64(m_file, u64))
        return false;
      frame.SetOffset(u64);

      xbtfFile.GetFrames().push_back(frame);
    }

    AddFile(xbtfFile);
  }

  // Sanity check
  uint64_t pos = static_cast<uint64_t>(ftell(m_file));
  if (pos != GetHeaderSize())
    return false;

  return true;
}
コード例 #18
0
ファイル: serialize.cpp プロジェクト: jewalky/srvmgr
float BinaryStream::ReadFloat()
{
    float d;
    *(uint32_t*)(&d) = ReadUInt32();
    return d;
}
コード例 #19
0
ファイル: LzhIn.cpp プロジェクト: AlcatrazTr/vba-rerecording
HRESULT CInArchive::GetNextItem(bool &filled, CItemEx &item)
{
  filled = false;

  UInt32 processedSize;
  Byte startHeader[2];
  RINOK(ReadBytes(startHeader, 2, processedSize))
  if (processedSize == 0)
    return S_OK;
  if (processedSize == 1)
    return (startHeader[0] == 0) ? S_OK: S_FALSE;
  if (startHeader[0] == 0 && startHeader[1] == 0)
    return S_OK;

  Byte header[256];
  const UInt32 kBasicPartSize = 22;
  RINOK(ReadBytes(header, kBasicPartSize, processedSize));
  if (processedSize != kBasicPartSize)
    return (startHeader[0] == 0) ? S_OK: S_FALSE;

  const Byte *p = header;
  memmove(item.Method, p, kMethodIdSize);
  if (!item.IsValidMethod())
    return S_OK;
  p += kMethodIdSize;
  p = ReadUInt32(p, item.PackSize);
  p = ReadUInt32(p, item.Size);
  p = ReadUInt32(p, item.ModifiedTime);
  item.Attributes = *p++;
  item.Level = *p++;
  if (item.Level > 2)
    return S_FALSE;
  UInt32 headerSize;
  if (item.Level < 2)
  {
    headerSize = startHeader[0];
    if (headerSize < kBasicPartSize)
      return S_FALSE;
    UInt32 remain = headerSize - kBasicPartSize;
    RINOK(CheckReadBytes(header + kBasicPartSize, remain));
    if (startHeader[1] != CalcSum(header, headerSize))
      return S_FALSE;
    size_t nameLength = *p++;
    if ((p - header) + nameLength + 2 > headerSize)
      return S_FALSE;
    p = ReadString(p, nameLength, item.Name);
  }
  else
   headerSize = startHeader[0] | ((UInt32)startHeader[1] << 8);
  p = ReadUInt16(p, item.CRC);
  if (item.Level != 0)
  {
    if (item.Level == 2)
    {
      RINOK(CheckReadBytes(header + kBasicPartSize, 2));
    }
    if ((size_t)(p - header) + 3 > headerSize)
      return S_FALSE;
    item.OsId = *p++;
    UInt16 nextSize;
    p = ReadUInt16(p, nextSize);
    while (nextSize != 0)
    {
      if (nextSize < 3)
        return S_FALSE;
      if (item.Level == 1)
      {
        if (item.PackSize < nextSize)
          return S_FALSE;
        item.PackSize -= nextSize;
      }
      CExtension ext;
      RINOK(CheckReadBytes(&ext.Type, 1))
      nextSize -= 3;
      ext.Data.SetCapacity(nextSize);
      RINOK(CheckReadBytes((Byte *)ext.Data, nextSize))
      item.Extensions.Add(ext);
      Byte hdr2[2];
      RINOK(CheckReadBytes(hdr2, 2));
      ReadUInt16(hdr2, nextSize);
    }
  }
  item.DataPosition = m_Position;
  filled = true;
  return S_OK;
}
コード例 #20
0
ファイル: ZipIn.cpp プロジェクト: borneq/bind7z
bool CInArchive::ReadExtra(unsigned extraSize, CExtraBlock &extraBlock,
    UInt64 &unpackSize, UInt64 &packSize, UInt64 &localHeaderOffset, UInt32 &diskStartNumber)
{
  extraBlock.Clear();
  UInt32 remain = extraSize;
  while (remain >= 4)
  {
    CExtraSubBlock subBlock;
    subBlock.ID = ReadUInt16();
    unsigned dataSize = ReadUInt16();
    remain -= 4;
    if (dataSize > remain) // it's bug
    {
      HeadersWarning = true;
      Skip(remain);
      return false;
    }
    if (subBlock.ID == NFileHeader::NExtraID::kZip64)
    {
      if (unpackSize == 0xFFFFFFFF)
      {
        if (dataSize < 8)
        {
          HeadersWarning = true;
          Skip(remain);
          return false;
        }
        unpackSize = ReadUInt64();
        remain -= 8;
        dataSize -= 8;
      }
      if (packSize == 0xFFFFFFFF)
      {
        if (dataSize < 8)
          break;
        packSize = ReadUInt64();
        remain -= 8;
        dataSize -= 8;
      }
      if (localHeaderOffset == 0xFFFFFFFF)
      {
        if (dataSize < 8)
          break;
        localHeaderOffset = ReadUInt64();
        remain -= 8;
        dataSize -= 8;
      }
      if (diskStartNumber == 0xFFFF)
      {
        if (dataSize < 4)
          break;
        diskStartNumber = ReadUInt32();
        remain -= 4;
        dataSize -= 4;
      }
      Skip(dataSize);
    }
    else
    {
      ReadBuffer(subBlock.Data, dataSize);
      extraBlock.SubBlocks.Add(subBlock);
    }
    remain -= dataSize;
  }
  if (remain != 0)
  {
    ExtraMinorError = true;
    // 7-Zip before 9.31 created incorrect WsAES Extra in folder's local headers.
    // so we don't return false, but just set warning flag
    // return false;
  }
  Skip(remain);
  return true;
}
コード例 #21
0
ファイル: ZipIn.cpp プロジェクト: borneq/bind7z
HRESULT CInArchive::ReadHeaders2(CObjectVector<CItemEx> &items, CProgressVirt *progress)
{
  items.Clear();

  // m_Signature must be kLocalFileHeader or kEcd
  // m_Position points to next byte after signature
  RINOK(Stream->Seek(m_Position, STREAM_SEEK_SET, NULL));

  if (!_inBuffer.Create(1 << 15))
    return E_OUTOFMEMORY;
  _inBuffer.SetStream(Stream);

  bool needReadCd = true;
  bool localsWereRead = false;
  if (m_Signature == NSignature::kEcd)
  {
    // It must be empty archive or backware archive
    // we don't support backware archive still

    const unsigned kBufSize = kEcdSize - 4;
    Byte buf[kBufSize];
    SafeReadBytes(buf, kBufSize);
    CEcd ecd;
    ecd.Parse(buf);
    // if (ecd.cdSize != 0)
    // Do we need also to support the case where empty zip archive with PK00 uses cdOffset = 4 ??
    if (!ecd.IsEmptyArc())
      return S_FALSE;

    ArcInfo.Base = ArcInfo.MarkerPos;
    needReadCd = false;
    IsArc = true; // check it: we need more tests?
    RINOK(Stream->Seek(ArcInfo.MarkerPos2 + 4, STREAM_SEEK_SET, &m_Position));
  }

  UInt64 cdSize = 0, cdRelatOffset = 0, cdAbsOffset = 0;
  HRESULT res = S_OK;

  if (needReadCd)
  {
    CItemEx firstItem;
    // try
    {
      try
      {
        if (!ReadLocalItem(firstItem))
          return S_FALSE;
      }
      catch(CUnexpectEnd &)
      {
        return S_FALSE;
      }

      IsArc = true;
      res = ReadCd(items, cdRelatOffset, cdSize, progress);
      if (res == S_OK)
        m_Signature = ReadUInt32();
    }
    // catch() { res = S_FALSE; }
    if (res != S_FALSE && res != S_OK)
      return res;

    if (res == S_OK && items.Size() == 0)
      res = S_FALSE;

    if (res == S_OK)
    {
      // we can't read local items here to keep _inBufMode state
      firstItem.LocalHeaderPos = ArcInfo.MarkerPos2 - ArcInfo.Base;
      int index = FindItem(items, firstItem.LocalHeaderPos);
      if (index == -1)
        res = S_FALSE;
      else if (!AreItemsEqual(firstItem, items[index]))
        res = S_FALSE;
      ArcInfo.CdWasRead = true;
      ArcInfo.FirstItemRelatOffset = items[0].LocalHeaderPos;
    }
  }

  CObjectVector<CItemEx> cdItems;

  bool needSetBase = false;
  unsigned numCdItems = items.Size();

  if (res == S_FALSE)
  {
    // CD doesn't match firstItem so we clear items and read Locals.
    items.Clear();
    localsWereRead = true;
    _inBufMode = false;
    ArcInfo.Base = ArcInfo.MarkerPos;
    RINOK(Stream->Seek(ArcInfo.MarkerPos2, STREAM_SEEK_SET, &m_Position));
    m_Signature = ReadUInt32();

    RINOK(ReadLocals(items, progress));

    if (m_Signature != NSignature::kCentralFileHeader)
    {
      m_Position -= 4;
      NoCentralDir = true;
      HeadersError = true;
      return S_OK;
    }
    _inBufMode = true;
    _inBuffer.Init();
    cdAbsOffset = m_Position - 4;
    for (;;)
    {
      CItemEx cdItem;
      RINOK(ReadCdItem(cdItem));
      cdItems.Add(cdItem);
      if (progress && cdItems.Size() % 1 == 0)
        RINOK(progress->SetCompletedCD(items.Size()));
      m_Signature = ReadUInt32();
      if (m_Signature != NSignature::kCentralFileHeader)
        break;
    }

    cdSize = (m_Position - 4) - cdAbsOffset;
    needSetBase = true;
    numCdItems = cdItems.Size();

    if (!cdItems.IsEmpty())
    {
      ArcInfo.CdWasRead = true;
      ArcInfo.FirstItemRelatOffset = cdItems[0].LocalHeaderPos;
    }
  }

  CEcd64 ecd64;
  bool isZip64 = false;
  UInt64 ecd64AbsOffset = m_Position - 4;
  if (m_Signature == NSignature::kEcd64)
  {
    IsZip64 = isZip64 = true;
    UInt64 recordSize = ReadUInt64();

    const unsigned kBufSize = kEcd64_MainSize;
    Byte buf[kBufSize];
    SafeReadBytes(buf, kBufSize);
    ecd64.Parse(buf);

    Skip64(recordSize - kEcd64_MainSize);
    m_Signature = ReadUInt32();

    if (ecd64.thisDiskNumber != 0 || ecd64.startCDDiskNumber != 0)
      return E_NOTIMPL;

    if (needSetBase)
    {
      ArcInfo.Base = cdAbsOffset - ecd64.cdStartOffset;
      cdRelatOffset = ecd64.cdStartOffset;
      needSetBase = false;
    }

    if (ecd64.numEntriesInCDOnThisDisk != numCdItems ||
        ecd64.numEntriesInCD != numCdItems ||
        ecd64.cdSize != cdSize ||
        (ecd64.cdStartOffset != cdRelatOffset &&
        (!items.IsEmpty())))
      return S_FALSE;
  }
  if (m_Signature == NSignature::kEcd64Locator)
  {
    if (!isZip64)
      return S_FALSE;
    /* UInt32 startEndCDDiskNumber = */ ReadUInt32();
    UInt64 ecd64RelatOffset = ReadUInt64();
    /* UInt32 numberOfDisks = */ ReadUInt32();
    if (ecd64AbsOffset != ArcInfo.Base + ecd64RelatOffset)
      return S_FALSE;
    m_Signature = ReadUInt32();
  }
  if (m_Signature != NSignature::kEcd)
    return S_FALSE;

  const unsigned kBufSize = kEcdSize - 4;
  Byte buf[kBufSize];
  SafeReadBytes(buf, kBufSize);
  CEcd ecd;
  ecd.Parse(buf);

  COPY_ECD_ITEM_16(thisDiskNumber);
  COPY_ECD_ITEM_16(startCDDiskNumber);
  COPY_ECD_ITEM_16(numEntriesInCDOnThisDisk);
  COPY_ECD_ITEM_16(numEntriesInCD);
  COPY_ECD_ITEM_32(cdSize);
  COPY_ECD_ITEM_32(cdStartOffset);

  if (needSetBase)
  {
    ArcInfo.Base = cdAbsOffset - ecd64.cdStartOffset;
    cdRelatOffset = ecd64.cdStartOffset;
    needSetBase = false;
  }

  if (localsWereRead && (UInt64)ArcInfo.Base != ArcInfo.MarkerPos)
  {
    UInt64 delta = ArcInfo.MarkerPos - ArcInfo.Base;
    for (unsigned i = 0; i < items.Size(); i++)
      items[i].LocalHeaderPos += delta;
  }


  // ---------- merge Central Directory Items ----------

  if (!cdItems.IsEmpty())
  {
    for (unsigned i = 0; i < cdItems.Size(); i++)
    {
      const CItemEx &cdItem = cdItems[i];
      int index = FindItem(items, cdItem.LocalHeaderPos);
      if (index == -1)
      {
        items.Add(cdItem);
        continue;
      }
      CItemEx &item = items[index];
      if (item.Name != cdItem.Name
          // || item.Name.Len() != cdItem.Name.Len()
          || item.PackSize != cdItem.PackSize
          || item.Size != cdItem.Size
          // item.ExtractVersion != cdItem.ExtractVersion
          || !FlagsAreSame(item, cdItem)
          || item.Crc != cdItem.Crc)
        continue;

      // item.LocalHeaderPos = cdItem.LocalHeaderPos;
      // item.Name = cdItem.Name;
      item.MadeByVersion = cdItem.MadeByVersion;
      item.CentralExtra = cdItem.CentralExtra;
      item.InternalAttrib = cdItem.InternalAttrib;
      item.ExternalAttrib = cdItem.ExternalAttrib;
      item.Comment = cdItem.Comment;
      item.FromCentral = cdItem.FromCentral;
    }
  }

  if (ecd64.thisDiskNumber != 0 || ecd64.startCDDiskNumber != 0)
    return E_NOTIMPL;

  if (isZip64)
  {
    if (ecd64.numEntriesInCDOnThisDisk != items.Size())
      HeadersError = true;
  }
  else
  {
    // old 7-zip could store 32-bit number of CD items to 16-bit field.
    if ((UInt16)ecd64.numEntriesInCDOnThisDisk != (UInt16)numCdItems ||
        (UInt16)ecd64.numEntriesInCDOnThisDisk != (UInt16)items.Size())
      HeadersError = true;
  }

  ReadBuffer(ArcInfo.Comment, ecd.commentSize);
  _inBufMode = false;
  _inBuffer.Free();

  if (
      (UInt16)ecd64.numEntriesInCD != ((UInt16)numCdItems) ||
      (UInt32)ecd64.cdSize != (UInt32)cdSize ||
      ((UInt32)(ecd64.cdStartOffset) != (UInt32)cdRelatOffset &&
        (!items.IsEmpty())))
    return S_FALSE;

  // printf("\nOpen OK");
  return S_OK;
}
コード例 #22
0
ファイル: atommvhd.cpp プロジェクト: 9aa5/crtmpserver
bool AtomMVHD::ReadData() {
	if (_version == 1) {
		if (!ReadUInt64(_creationTime)) {
			FATAL("Unable to read creation time");
			return false;
		}

		if (!ReadUInt64(_modificationTime)) {
			FATAL("Unable to read modification time");
			return false;
		}
	} else {
		uint32_t temp;
		if (!ReadUInt32(temp)) {
			FATAL("Unable to read creation time");
			return false;
		}
		_creationTime = temp;

		if (!ReadUInt32(temp)) {
			FATAL("Unable to read modification time");
			return false;
		}
		_modificationTime = temp;
	}

	if (!ReadUInt32(_timeScale)) {
		FATAL("Unable to read time scale");
		return false;
	}
	if (_version == 1) {
		if (!ReadUInt64(_duration)) {
			FATAL("Unable to read duration");
			return false;
		}
	} else {
		uint32_t temp;
		if (!ReadUInt32(temp)) {
			FATAL("Unable to read duration");
			return false;
		}
		_duration = temp;
	}

	if (!ReadUInt32(_preferredRate)) {
		FATAL("Unable to read preferred rate");
		return false;
	}

	if (!ReadUInt16(_preferredVolume)) {
		FATAL("Unable to read preferred volume");
		return false;
	}

	if (!ReadArray(_reserved, 10)) {
		FATAL("Unable to read reserved");
		return false;
	}

	if (!ReadArray((uint8_t *) _matrixStructure, 36)) {
		FATAL("Unable to read matrix structure");
		return false;
	}

	if (!ReadUInt32(_previewTime)) {
		FATAL("Unable to read preview time");
		return false;
	}

	if (!ReadUInt32(_previewDuration)) {
		FATAL("Unable to read preview duration");
		return false;
	}

	if (!ReadUInt32(_posterTime)) {
		FATAL("Unable to read poster time");
		return false;
	}

	if (!ReadUInt32(_selectionTime)) {
		FATAL("Unable to read selection time");
		return false;
	}

	if (!ReadUInt32(_selectionDuration)) {
		FATAL("Unable to read selection duration");
		return false;
	}

	if (!ReadUInt32(_currentTime)) {
		FATAL("Unable to read current time");
		return false;
	}

	if (!ReadUInt32(_nextTrakId)) {
		FATAL("Unable to read next track ID");
		return false;
	}

	return true;
}
コード例 #23
0
HRESULT CInArchive::Open2(IInStream *stream,
    const UInt64 *searchHeaderSizeLimit,
    CDatabase &database)
{
  database.Clear();
  RINOK(stream->Seek(0, STREAM_SEEK_SET, &database.StartPosition));

  RINOK(FindSignatureInStream(stream, NHeader::kMarker, NHeader::kMarkerSize,
      searchHeaderSizeLimit, database.StartPosition));

  RINOK(stream->Seek(database.StartPosition + NHeader::kMarkerSize, STREAM_SEEK_SET, NULL));
  if (!inBuffer.Create(1 << 17))
    return E_OUTOFMEMORY;
  inBuffer.SetStream(stream);
  inBuffer.Init();

  CInArchiveInfo &ai = database.ArchiveInfo;

  ai.Size = ReadUInt32();
  if (ReadUInt32() != 0)
    return S_FALSE;
  ai.FileHeadersOffset = ReadUInt32();
  if (ReadUInt32() != 0)
    return S_FALSE;

  ai.VersionMinor = ReadByte();
  ai.VersionMajor = ReadByte();
  ai.NumFolders = ReadUInt16();
  ai.NumFiles = ReadUInt16();
  ai.Flags = ReadUInt16();
  if (ai.Flags > 7)
    return S_FALSE;
  ai.SetID = ReadUInt16();
  ai.CabinetNumber = ReadUInt16();

  if (ai.ReserveBlockPresent())
  {
    ai.PerCabinetAreaSize = ReadUInt16();
    ai.PerFolderAreaSize = ReadByte();
    ai.PerDataBlockAreaSize = ReadByte();

    Skip(ai.PerCabinetAreaSize);
  }

  {
    if (ai.IsTherePrev())
      ReadOtherArchive(ai.PreviousArchive);
    if (ai.IsThereNext())
      ReadOtherArchive(ai.NextArchive);
  }
  
  int i;
  for (i = 0; i < ai.NumFolders; i++)
  {
    CFolder folder;

    folder.DataStart = ReadUInt32();
    folder.NumDataBlocks = ReadUInt16();
    folder.CompressionTypeMajor = ReadByte();
    folder.CompressionTypeMinor = ReadByte();

    Skip(ai.PerFolderAreaSize);
    database.Folders.Add(folder);
  }
  
  RINOK(stream->Seek(database.StartPosition + ai.FileHeadersOffset, STREAM_SEEK_SET, NULL));

  inBuffer.SetStream(stream);
  inBuffer.Init();
  for (i = 0; i < ai.NumFiles; i++)
  {
    CItem item;
    item.Size = ReadUInt32();
    item.Offset = ReadUInt32();
    item.FolderIndex = ReadUInt16();
    UInt16 pureDate = ReadUInt16();
    UInt16 pureTime = ReadUInt16();
    item.Time = ((UInt32(pureDate) << 16)) | pureTime;
    item.Attributes = ReadUInt16();
    item.Name = SafeReadName();
    int folderIndex = item.GetFolderIndex(database.Folders.Size());
    if (folderIndex >= database.Folders.Size())
      return S_FALSE;
    database.Items.Add(item);
  }
  return S_OK;
}
コード例 #24
0
ファイル: BinaryReader.cpp プロジェクト: NickABoen/Awe
int32_t BinaryReader::ReadInt32()
{
    return (int32_t)ReadUInt32();
}
コード例 #25
0
ファイル: BinaryReader.cpp プロジェクト: NickABoen/Awe
float BinaryReader::ReadSingle()
{
    uint32_t value = ReadUInt32();

    return *(float*)&value;
}
コード例 #26
0
ファイル: serialize.hpp プロジェクト: jewalky/srvmgr
 int32_t ReadInt32() { return (int32_t)ReadUInt32(); }
コード例 #27
0
ファイル: Binary.cpp プロジェクト: anhlehoang410/G3D
int BinaryFP::ReadInt32() { return (int)ReadUInt32(); }
コード例 #28
0
void FTextureManager::AddTexturesLump (const void *lumpdata, int lumpsize, int deflumpnum, int patcheslump, int firstdup, bool texture1)
{
	FPatchLookup *patchlookup = NULL;
	int i;
	uint32_t numpatches;

	if (firstdup == 0)
	{
		firstdup = (int)Textures.Size();
	}

	{
		auto pnames = Wads.OpenLumpReader(patcheslump);
		numpatches = pnames.ReadUInt32();

		// Check whether the amount of names reported is correct.
		if ((signed)numpatches < 0)
		{
			Printf("Corrupt PNAMES lump found (negative amount of entries reported)\n");
			return;
		}

		// Check whether the amount of names reported is correct.
		int lumplength = Wads.LumpLength(patcheslump);
		if (numpatches > uint32_t((lumplength-4)/8))
		{
			Printf("PNAMES lump is shorter than required (%u entries reported but only %d bytes (%d entries) long\n",
				numpatches, lumplength, (lumplength-4)/8);
			// Truncate but continue reading. Who knows how many such lumps exist?
			numpatches = (lumplength-4)/8;
		}

		// Catalog the patches these textures use so we know which
		// textures they represent.
		patchlookup = new FPatchLookup[numpatches];
		for (uint32_t i = 0; i < numpatches; ++i)
		{
			char pname[9];
			pnames.Read(pname, 8);
			pname[8] = '\0';
			patchlookup[i].Name = pname;
		}
	}

	bool isStrife = false;
	const uint32_t *maptex, *directory;
	uint32_t maxoff;
	int numtextures;
	uint32_t offset = 0;   // Shut up, GCC!

	maptex = (const uint32_t *)lumpdata;
	numtextures = LittleLong(*maptex);
	maxoff = lumpsize;

	if (maxoff < uint32_t(numtextures+1)*4)
	{
		Printf ("Texture directory is too short\n");
		delete[] patchlookup;
		return;
	}

	// Scan the texture lump to decide if it contains Doom or Strife textures
	for (i = 0, directory = maptex+1; i < numtextures; ++i)
	{
		offset = LittleLong(directory[i]);
		if (offset > maxoff)
		{
			Printf ("Bad texture directory\n");
			delete[] patchlookup;
			return;
		}

		maptexture_t *tex = (maptexture_t *)((uint8_t *)maptex + offset);

		// There is bizzarely a Doom editing tool that writes to the
		// first two elements of columndirectory, so I can't check those.
		if (SAFESHORT(tex->patchcount) < 0 ||
			tex->columndirectory[2] != 0 ||
			tex->columndirectory[3] != 0)
		{
			isStrife = true;
			break;
		}
	}


	// Textures defined earlier in the lump take precedence over those defined later,
	// but later TEXTUREx lumps take precedence over earlier ones.
	for (i = 1, directory = maptex; i <= numtextures; ++i)
	{
		if (i == 1 && texture1)
		{
			// The very first texture is just a dummy. Copy its dimensions to texture 0.
			// It still needs to be created in case someone uses it by name.
			offset = LittleLong(directory[1]);
			const maptexture_t *tex = (const maptexture_t *)((const uint8_t *)maptex + offset);
			FDummyTexture *tex0 = static_cast<FDummyTexture *>(Textures[0].Texture);
			tex0->SetSize (SAFESHORT(tex->width), SAFESHORT(tex->height));
		}

		offset = LittleLong(directory[i]);
		if (offset > maxoff)
		{
			Printf ("Bad texture directory\n");
			delete[] patchlookup;
			return;
		}

		// If this texture was defined already in this lump, skip it
		// This could cause problems with animations that use the same name for intermediate
		// textures. Should I be worried?
		int j;
		for (j = (int)Textures.Size() - 1; j >= firstdup; --j)
		{
			if (strnicmp (Textures[j].Texture->Name, (const char *)maptex + offset, 8) == 0)
				break;
		}
		if (j + 1 == firstdup)
		{
			FMultiPatchTexture *tex = new FMultiPatchTexture ((const uint8_t *)maptex + offset, patchlookup, numpatches, isStrife, deflumpnum);
			if (i == 1 && texture1)
			{
				tex->UseType = ETextureType::FirstDefined;
			}
			TexMan.AddTexture (tex);
			StartScreen->Progress();
		}
	}
	delete[] patchlookup;
}
コード例 #29
0
ファイル: CabIn.cpp プロジェクト: bks/qz7
HRESULT CInArchive::Open2(IInStream *stream,
    const UInt64 *searchHeaderSizeLimit,
    CDatabase &database)
{
  database.Clear();
  RINOK(stream->Seek(0, STREAM_SEEK_SET, &database.StartPosition));

  RINOK(FindSignatureInStream(stream, NHeader::kMarker, NHeader::kMarkerSize,
      searchHeaderSizeLimit, database.StartPosition));

  RINOK(stream->Seek(database.StartPosition + NHeader::kMarkerSize, STREAM_SEEK_SET, NULL));
  if (!inBuffer.Create(1 << 17))
    return E_OUTOFMEMORY;
  inBuffer.SetStream(stream);
  inBuffer.Init();

  CInArchiveInfo &archiveInfo = database.ArchiveInfo;

  archiveInfo.Size = ReadUInt32(); // size of this cabinet file in bytes
  if (ReadUInt32() != 0)
    return S_FALSE;
  archiveInfo.FileHeadersOffset = ReadUInt32(); // offset of the first CFFILE entry
  if (ReadUInt32() != 0)
    return S_FALSE;

  archiveInfo.VersionMinor = ReadByte(); // cabinet file format version, minor
  archiveInfo.VersionMajor = ReadByte(); // cabinet file format version, major
  archiveInfo.NumFolders = ReadUInt16(); // number of CFFOLDER entries in this cabinet
  archiveInfo.NumFiles  = ReadUInt16(); // number of CFFILE entries in this cabinet
  archiveInfo.Flags = ReadUInt16();
  if (archiveInfo.Flags > 7)
    return S_FALSE;
  archiveInfo.SetID = ReadUInt16(); // must be the same for all cabinets in a set
  archiveInfo.CabinetNumber = ReadUInt16(); // number of this cabinet file in a set

  if (archiveInfo.ReserveBlockPresent())
  {
    archiveInfo.PerCabinetAreaSize = ReadUInt16(); // (optional) size of per-cabinet reserved area
    archiveInfo.PerFolderAreaSize = ReadByte(); // (optional) size of per-folder reserved area
    archiveInfo.PerDataBlockAreaSize = ReadByte(); // (optional) size of per-datablock reserved area

    Skeep(archiveInfo.PerCabinetAreaSize);
  }

  {
    if (archiveInfo.IsTherePrev())
      ReadOtherArchive(archiveInfo.PreviousArchive);
    if (archiveInfo.IsThereNext())
      ReadOtherArchive(archiveInfo.NextArchive);
  }
  
  int i;
  for(i = 0; i < archiveInfo.NumFolders; i++)
  {
    CFolder folder;

    folder.DataStart = ReadUInt32();
    folder.NumDataBlocks = ReadUInt16();
    folder.CompressionTypeMajor = ReadByte();
    folder.CompressionTypeMinor = ReadByte();

    Skeep(archiveInfo.PerFolderAreaSize);
    database.Folders.Add(folder);
  }
  
  RINOK(stream->Seek(database.StartPosition + archiveInfo.FileHeadersOffset, STREAM_SEEK_SET, NULL));

  inBuffer.SetStream(stream);
  inBuffer.Init();
  for(i = 0; i < archiveInfo.NumFiles; i++)
  {
    CItem item;
    item.Size = ReadUInt32();
    item.Offset = ReadUInt32();
    item.FolderIndex = ReadUInt16();
    UInt16 pureDate = ReadUInt16();
    UInt16 pureTime = ReadUInt16();
    item.Time = ((UInt32(pureDate) << 16)) | pureTime;
    item.Attributes = ReadUInt16();
    item.Name = SafeReadName();
    int folderIndex = item.GetFolderIndex(database.Folders.Size());
    if (folderIndex >= database.Folders.Size())
      return S_FALSE;
    database.Items.Add(item);
  }
  return S_OK;
}
コード例 #30
0
ファイル: ContentReader.cpp プロジェクト: jlyonsmith/ParseXnb
// Reads the XNB file header (version number, size, etc.).
uint32_t ContentReader::ReadHeader()
{
    uint32_t startPosition = FilePosition();

    // Magic number.
    uint8_t magic1 = ReadByte();
    uint8_t magic2 = ReadByte();
    uint8_t magic3 = ReadByte();

    if (magic1 != 'X' ||
        magic2 != 'N' ||
        magic3 != 'B')
    {
        throw app_exception("Not an XNB file.");
    }

    // Target platform.
    uint8_t targetPlatform = ReadByte();

    switch (targetPlatform)
    {
        case 'w': Log.WriteLine("Target platform: Windows");                   break;
        case 'm': Log.WriteLine("Target platform: Windows Phone");             break;
        case 'x': Log.WriteLine("Target platform: Xbox 360");                  break;
        default:  Log.WriteLine("Unknown target platform %d", targetPlatform); break;
    }

    // Format version.
    uint8_t formatVersion = ReadByte();

    if (formatVersion != 5)
    {
        Log.WriteLine("Warning: not an XNA Game Studio version 4.0 XNB file. Parsing may fail unexpectedly.");
    }

    // Flags.
    uint8_t flags = ReadByte();

    if (flags & 1)
    {
        Log.WriteLine("Graphics profile: HiDef");
    }
    else
    {
        Log.WriteLine("Graphics profile: Reach");
    }

    bool isCompressed = (flags & 0x80) != 0;

    // File size.
    uint32_t sizeOnDisk = ReadUInt32();

    if (startPosition + sizeOnDisk > FileSize())
    {
        throw app_exception("XNB file has been truncated.");
    }

    if (isCompressed)
    {
        uint32_t decompressedSize = ReadUInt32();
        uint32_t compressedSize = startPosition + sizeOnDisk - FilePosition();

        Log.WriteLine("%d bytes of asset data are compressed into %d", decompressedSize, compressedSize);

        throw app_exception("Don't support reading the contents of compressed XNB files.");
    }

    return startPosition + sizeOnDisk;
}