using System;
namespace ICSharpCode.SharpZipLib.Zip
{
#region Enumerations
///
/// Determines how entries are tested to see if they should use Zip64 extensions or not.
///
public enum UseZip64
{
///
/// Zip64 will not be forced on entries during processing.
///
/// An entry can have this overridden if required
Off,
///
/// Zip64 should always be used.
///
On,
///
/// #ZipLib will determine use based on entry values when added to archive.
///
Dynamic,
}
///
/// The kind of compression used for an entry in an archive
///
public enum CompressionMethod
{
///
/// A direct copy of the file contents is held in the archive
///
Stored = 0,
///
/// Common Zip compression method using a sliding dictionary
/// of up to 32KB and secondary compression from Huffman/Shannon-Fano trees
///
Deflated = 8,
///
/// An extension to deflate with a 64KB window. Not supported by #Zip currently
///
Deflate64 = 9,
///
/// BZip2 compression. Not supported by #Zip.
///
BZip2 = 12,
///
/// LZMA compression. Not supported by #Zip.
///
LZMA = 14,
///
/// PPMd compression. Not supported by #Zip.
///
PPMd = 98,
///
/// WinZip special for AES encryption, Now supported by #Zip.
///
WinZipAES = 99,
}
///
/// Identifies the encryption algorithm used for an entry
///
public enum EncryptionAlgorithm
{
///
/// No encryption has been used.
///
None = 0,
///
/// Encrypted using PKZIP 2.0 or 'classic' encryption.
///
PkzipClassic = 1,
///
/// DES encryption has been used.
///
Des = 0x6601,
///
/// RC2 encryption has been used for encryption.
///
RC2 = 0x6602,
///
/// Triple DES encryption with 168 bit keys has been used for this entry.
///
TripleDes168 = 0x6603,
///
/// Triple DES with 112 bit keys has been used for this entry.
///
TripleDes112 = 0x6609,
///
/// AES 128 has been used for encryption.
///
Aes128 = 0x660e,
///
/// AES 192 has been used for encryption.
///
Aes192 = 0x660f,
///
/// AES 256 has been used for encryption.
///
Aes256 = 0x6610,
///
/// RC2 corrected has been used for encryption.
///
RC2Corrected = 0x6702,
///
/// Blowfish has been used for encryption.
///
Blowfish = 0x6720,
///
/// Twofish has been used for encryption.
///
Twofish = 0x6721,
///
/// RC4 has been used for encryption.
///
RC4 = 0x6801,
///
/// An unknown algorithm has been used for encryption.
///
Unknown = 0xffff
}
///
/// Defines the contents of the general bit flags field for an archive entry.
///
[Flags]
public enum GeneralBitFlags
{
///
/// Bit 0 if set indicates that the file is encrypted
///
Encrypted = 0x0001,
///
/// Bits 1 and 2 - Two bits defining the compression method (only for Method 6 Imploding and 8,9 Deflating)
///
Method = 0x0006,
///
/// Bit 3 if set indicates a trailing data descriptor is appended to the entry data
///
Descriptor = 0x0008,
///
/// Bit 4 is reserved for use with method 8 for enhanced deflation
///
ReservedPKware4 = 0x0010,
///
/// Bit 5 if set indicates the file contains Pkzip compressed patched data.
/// Requires version 2.7 or greater.
///
Patched = 0x0020,
///
/// Bit 6 if set indicates strong encryption has been used for this entry.
///
StrongEncryption = 0x0040,
///
/// Bit 7 is currently unused
///
Unused7 = 0x0080,
///
/// Bit 8 is currently unused
///
Unused8 = 0x0100,
///
/// Bit 9 is currently unused
///
Unused9 = 0x0200,
///
/// Bit 10 is currently unused
///
Unused10 = 0x0400,
///
/// Bit 11 if set indicates the filename and
/// comment fields for this file must be encoded using UTF-8.
///
UnicodeText = 0x0800,
///
/// Bit 12 is documented as being reserved by PKware for enhanced compression.
///
EnhancedCompress = 0x1000,
///
/// Bit 13 if set indicates that values in the local header are masked to hide
/// their actual values, and the central directory is encrypted.
///
///
/// Used when encrypting the central directory contents.
///
HeaderMasked = 0x2000,
///
/// Bit 14 is documented as being reserved for use by PKware
///
ReservedPkware14 = 0x4000,
///
/// Bit 15 is documented as being reserved for use by PKware
///
ReservedPkware15 = 0x8000
}
#endregion Enumerations
///
/// This class contains constants used for Zip format files
///
[System.Diagnostics.CodeAnalysis.SuppressMessage("Naming", "CA1707:Identifiers should not contain underscores", Justification = "kept for backwards compatibility")]
public static class ZipConstants
{
#region Versions
///
/// The version made by field for entries in the central header when created by this library
///
///
/// This is also the Zip version for the library when comparing against the version required to extract
/// for an entry. See .
///
public const int VersionMadeBy = 51; // was 45 before AES
///
/// The version made by field for entries in the central header when created by this library
///
///
/// This is also the Zip version for the library when comparing against the version required to extract
/// for an entry. See ZipInputStream.CanDecompressEntry.
///
[Obsolete("Use VersionMadeBy instead")]
public const int VERSION_MADE_BY = 51;
///
/// The minimum version required to support strong encryption
///
public const int VersionStrongEncryption = 50;
///
/// The minimum version required to support strong encryption
///
[Obsolete("Use VersionStrongEncryption instead")]
public const int VERSION_STRONG_ENCRYPTION = 50;
///
/// Version indicating AES encryption
///
public const int VERSION_AES = 51;
///
/// The version required for Zip64 extensions (4.5 or higher)
///
public const int VersionZip64 = 45;
///
/// The version required for BZip2 compression (4.6 or higher)
///
public const int VersionBZip2 = 46;
#endregion Versions
#region Header Sizes
///
/// Size of local entry header (excluding variable length fields at end)
///
public const int LocalHeaderBaseSize = 30;
///
/// Size of local entry header (excluding variable length fields at end)
///
[Obsolete("Use LocalHeaderBaseSize instead")]
public const int LOCHDR = 30;
///
/// Size of Zip64 data descriptor
///
public const int Zip64DataDescriptorSize = 24;
///
/// Size of data descriptor
///
public const int DataDescriptorSize = 16;
///
/// Size of data descriptor
///
[Obsolete("Use DataDescriptorSize instead")]
public const int EXTHDR = 16;
///
/// Size of central header entry (excluding variable fields)
///
public const int CentralHeaderBaseSize = 46;
///
/// Size of central header entry
///
[Obsolete("Use CentralHeaderBaseSize instead")]
public const int CENHDR = 46;
///
/// Size of end of central record (excluding variable fields)
///
public const int EndOfCentralRecordBaseSize = 22;
///
/// Size of end of central record (excluding variable fields)
///
[Obsolete("Use EndOfCentralRecordBaseSize instead")]
public const int ENDHDR = 22;
///
/// Size of 'classic' cryptographic header stored before any entry data
///
public const int CryptoHeaderSize = 12;
///
/// Size of cryptographic header stored before entry data
///
[Obsolete("Use CryptoHeaderSize instead")]
public const int CRYPTO_HEADER_SIZE = 12;
///
/// The size of the Zip64 central directory locator.
///
public const int Zip64EndOfCentralDirectoryLocatorSize = 20;
#endregion Header Sizes
#region Header Signatures
///
/// Signature for local entry header
///
public const int LocalHeaderSignature = 'P' | ('K' << 8) | (3 << 16) | (4 << 24);
///
/// Signature for local entry header
///
[Obsolete("Use LocalHeaderSignature instead")]
public const int LOCSIG = 'P' | ('K' << 8) | (3 << 16) | (4 << 24);
///
/// Signature for spanning entry
///
public const int SpanningSignature = 'P' | ('K' << 8) | (7 << 16) | (8 << 24);
///
/// Signature for spanning entry
///
[Obsolete("Use SpanningSignature instead")]
public const int SPANNINGSIG = 'P' | ('K' << 8) | (7 << 16) | (8 << 24);
///
/// Signature for temporary spanning entry
///
public const int SpanningTempSignature = 'P' | ('K' << 8) | ('0' << 16) | ('0' << 24);
///
/// Signature for temporary spanning entry
///
[Obsolete("Use SpanningTempSignature instead")]
public const int SPANTEMPSIG = 'P' | ('K' << 8) | ('0' << 16) | ('0' << 24);
///
/// Signature for data descriptor
///
///
/// This is only used where the length, Crc, or compressed size isnt known when the
/// entry is created and the output stream doesnt support seeking.
/// The local entry cannot be 'patched' with the correct values in this case
/// so the values are recorded after the data prefixed by this header, as well as in the central directory.
///
public const int DataDescriptorSignature = 'P' | ('K' << 8) | (7 << 16) | (8 << 24);
///
/// Signature for data descriptor
///
///
/// This is only used where the length, Crc, or compressed size isnt known when the
/// entry is created and the output stream doesnt support seeking.
/// The local entry cannot be 'patched' with the correct values in this case
/// so the values are recorded after the data prefixed by this header, as well as in the central directory.
///
[Obsolete("Use DataDescriptorSignature instead")]
public const int EXTSIG = 'P' | ('K' << 8) | (7 << 16) | (8 << 24);
///
/// Signature for central header
///
[Obsolete("Use CentralHeaderSignature instead")]
public const int CENSIG = 'P' | ('K' << 8) | (1 << 16) | (2 << 24);
///
/// Signature for central header
///
public const int CentralHeaderSignature = 'P' | ('K' << 8) | (1 << 16) | (2 << 24);
///
/// Signature for Zip64 central file header
///
public const int Zip64CentralFileHeaderSignature = 'P' | ('K' << 8) | (6 << 16) | (6 << 24);
///
/// Signature for Zip64 central file header
///
[Obsolete("Use Zip64CentralFileHeaderSignature instead")]
public const int CENSIG64 = 'P' | ('K' << 8) | (6 << 16) | (6 << 24);
///
/// Signature for Zip64 central directory locator
///
public const int Zip64CentralDirLocatorSignature = 'P' | ('K' << 8) | (6 << 16) | (7 << 24);
///
/// Signature for archive extra data signature (were headers are encrypted).
///
public const int ArchiveExtraDataSignature = 'P' | ('K' << 8) | (6 << 16) | (7 << 24);
///
/// Central header digital signature
///
public const int CentralHeaderDigitalSignature = 'P' | ('K' << 8) | (5 << 16) | (5 << 24);
///
/// Central header digital signature
///
[Obsolete("Use CentralHeaderDigitalSignaure instead")]
public const int CENDIGITALSIG = 'P' | ('K' << 8) | (5 << 16) | (5 << 24);
///
/// End of central directory record signature
///
public const int EndOfCentralDirectorySignature = 'P' | ('K' << 8) | (5 << 16) | (6 << 24);
///
/// End of central directory record signature
///
[Obsolete("Use EndOfCentralDirectorySignature instead")]
public const int ENDSIG = 'P' | ('K' << 8) | (5 << 16) | (6 << 24);
#endregion Header Signatures
///
/// Default encoding used for string conversion. 0 gives the default system OEM code page.
/// Using the default code page isnt the full solution necessarily
/// there are many variable factors, codepage 850 is often a good choice for
/// European users, however be careful about compatability.
///
[Obsolete("Use ZipStrings instead")]
public static int DefaultCodePage
{
get => ZipStrings.CodePage;
set => ZipStrings.CodePage = value;
}
/// Deprecated wrapper for
[Obsolete("Use ZipStrings.ConvertToString instead")]
public static string ConvertToString(byte[] data, int count)
=> ZipStrings.ConvertToString(data, count);
/// Deprecated wrapper for
[Obsolete("Use ZipStrings.ConvertToString instead")]
public static string ConvertToString(byte[] data)
=> ZipStrings.ConvertToString(data);
/// Deprecated wrapper for
[Obsolete("Use ZipStrings.ConvertToStringExt instead")]
public static string ConvertToStringExt(int flags, byte[] data, int count)
=> ZipStrings.ConvertToStringExt(flags, data, count);
/// Deprecated wrapper for
[Obsolete("Use ZipStrings.ConvertToStringExt instead")]
public static string ConvertToStringExt(int flags, byte[] data)
=> ZipStrings.ConvertToStringExt(flags, data);
/// Deprecated wrapper for
[Obsolete("Use ZipStrings.ConvertToArray instead")]
public static byte[] ConvertToArray(string str)
=> ZipStrings.ConvertToArray(str);
/// Deprecated wrapper for
[Obsolete("Use ZipStrings.ConvertToArray instead")]
public static byte[] ConvertToArray(int flags, string str)
=> ZipStrings.ConvertToArray(flags, str);
}
}