public static string getServerHash(string serverID, byte[] PublicKey, byte[] SecretKey)
{
byte[] serverid_raw = Encoding.GetEncoding("iso-8859-1").GetBytes(serverID);
byte[] serverhash;
using (SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider())
{
sha1.TransformBlock(serverid_raw, 0, serverid_raw.Length, serverid_raw, 0);
sha1.TransformBlock(PublicKey, 0, PublicKey.Length, PublicKey, 0);
sha1.TransformBlock(SecretKey, 0, SecretKey.Length, SecretKey, 0);
sha1.TransformFinalBlock(new byte[] { }, 0, 0);
serverhash = sha1.Hash;
}
bool negative = (serverhash[0] & 0x80) == 0x80;
if (negative)
{
serverhash = TwosCompliment(serverhash);
}
string digest = GetHexString(serverhash).TrimStart('0');
if (negative)
{
digest = "-" + digest;
}
return(digest);
}
static UInt64 CalculateHashForType(Type type)
{
using (SHA1 sha = new SHA1CryptoServiceProvider()) {
foreach (var f in type.GetFields())
{
byte[] fieldNameBytes = System.Text.UTF8Encoding.UTF8.GetBytes(f.Name);
byte[] fieldTypeNameBytes = System.Text.UTF8Encoding.UTF8.GetBytes(f.FieldType.FullName);
sha.TransformBlock(fieldNameBytes, 0, fieldNameBytes.Length, fieldNameBytes, 0);
sha.TransformBlock(fieldTypeNameBytes, 0, fieldTypeNameBytes.Length, fieldTypeNameBytes, 0);
}
foreach (var p in type.GetProperties())
{
byte[] fieldNameBytes = System.Text.UTF8Encoding.UTF8.GetBytes(p.Name);
byte[] fieldTypeNameBytes = System.Text.UTF8Encoding.UTF8.GetBytes(p.PropertyType.FullName);
sha.TransformBlock(fieldNameBytes, 0, fieldNameBytes.Length, fieldNameBytes, 0);
sha.TransformBlock(fieldTypeNameBytes, 0, fieldTypeNameBytes.Length, fieldTypeNameBytes, 0);
}
byte[] typeNameBytes = System.Text.UTF8Encoding.UTF8.GetBytes(type.FullName);
sha.TransformFinalBlock(typeNameBytes, 0, typeNameBytes.Length);
byte[] hash = sha.Hash;
for (uint i = 8; i < hash.Length; ++i)
{
hash[i & 7] %= hash[i];
}
return(BitConverter.ToUInt64(hash, 0));
}
}
public static byte[] ComputeHash(byte[] data)
{
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
sha1.TransformBlock(_salt, 0, _salt.Length, _salt, 0);
sha1.TransformFinalBlock(data, 0, data.Length);
return(sha1.Hash);
}
public Navicat11Cipher(string CustomUserKey)
{
byte[] UserKey = Encoding.UTF8.GetBytes(CustomUserKey);
var sha1 = new SHA1CryptoServiceProvider();
byte[] UserKeyHash = sha1.TransformFinalBlock(UserKey, 0, 8);
blowfishCipher = new Blowfish(UserKeyHash);
}
public Navicat11Cipher()
{
byte[] UserKey = Encoding.UTF8.GetBytes("3DC5CA39");
var sha1 = new SHA1CryptoServiceProvider();
sha1.TransformFinalBlock(UserKey, 0, UserKey.Length);
blowfishCipher = new Blowfish(sha1.Hash);
}
byte[] GenKey(byte[] key)
{
for (int x = 0; x < 10000; x++)
{
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
sha1.TransformBlock(key, 0, key.Length, key, 0);
key = sha1.TransformFinalBlock(ASCIIEncoding.ASCII.GetBytes("fuckoff"), 0, 7);
sha1.Clear();
}
return(key);
}
/// <summary>
/// Generate a SHA-1 hash using several byte arrays
/// </summary>
/// <param name="tohash">array of byte arrays to hash</param>
/// <returns>Returns the hashed data</returns>
private static byte[] digest(byte[][] tohash)
{
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
for (int i = 0; i < tohash.Length; i++)
{
sha1.TransformBlock(tohash[i], 0, tohash[i].Length, tohash[i], 0);
}
sha1.TransformFinalBlock(new byte[] { }, 0, 0);
return(sha1.Hash);
}
private static byte[] PuTTYPassphraseToKey(string passphrase)
{
const int HASH_SIZE = 20;
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
byte[] pp = Encoding.UTF8.GetBytes(passphrase);
byte[] buf = new byte[HASH_SIZE * 2];
sha1.TransformBlock(new byte[] { 0, 0, 0, 0 }, 0, 4, null, 0);
sha1.TransformFinalBlock(pp, 0, pp.Length);
Buffer.BlockCopy(sha1.Hash, 0, buf, 0, HASH_SIZE);
sha1.Initialize();
sha1.TransformBlock(new byte[] { 0, 0, 0, 1 }, 0, 4, null, 0);
sha1.TransformFinalBlock(pp, 0, pp.Length);
Buffer.BlockCopy(sha1.Hash, 0, buf, HASH_SIZE, HASH_SIZE);
sha1.Clear();
byte[] key = new byte[32];
Buffer.BlockCopy(buf, 0, key, 0, key.Length);
return(key);
}
public static void UInt8(SHA1CryptoServiceProvider sha, uint word, bool isFinal = false)
{
gUInt64Buffer[0] = (byte)(word >> 0);
if (isFinal)
{
sha.TransformFinalBlock(gUInt64Buffer, 0, sizeof(byte));
}
else
{
sha.TransformBlock(gUInt64Buffer, 0, sizeof(byte), null, 0);
}
}
private static byte[] GetSha1Digest(byte[][] hash)
{
//叠叠乐?把所有byte叠一起然后算出hash
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
for (int i = 0; i < hash.Length; i++)
{
sha1.TransformBlock(hash[i], 0, hash[i].Length, hash[i], 0);
}
//看不懂这行是什么意思
sha1.TransformFinalBlock(new byte[] { }, 0, 0);
return(sha1.Hash);
}
private bool Verify(int version, string privateMac, string privateHash,
string passphrase, string keyTypeName, string encryptionName, string comment, byte[] publicBlob, byte[] privateBlob)
{
byte[] macData;
using (MemoryStream macDataBuff = new MemoryStream())
{
if (version == 1)
{
WriteMacData(macDataBuff, privateBlob);
}
else
{
WriteMacData(macDataBuff, keyTypeName);
WriteMacData(macDataBuff, encryptionName);
WriteMacData(macDataBuff, comment);
WriteMacData(macDataBuff, publicBlob);
WriteMacData(macDataBuff, privateBlob);
}
macDataBuff.Close();
macData = macDataBuff.ToArray();
}
if (privateMac != null)
{
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
byte[] a = Encoding.ASCII.GetBytes("putty-private-key-file-mac-key");
sha1.TransformBlock(a, 0, a.Length, null, 0);
byte[] b = Encoding.UTF8.GetBytes(passphrase);
sha1.TransformFinalBlock(b, 0, b.Length);
byte[] key = sha1.Hash;
sha1.Clear();
System.Security.Cryptography.HMACSHA1 hmacsha1 = new System.Security.Cryptography.HMACSHA1(key);
byte[] hash = hmacsha1.ComputeHash(macData);
hmacsha1.Clear();
string mac = BinToHex(hash);
return(mac == privateMac);
}
else if (privateHash != null)
{
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
byte[] hash = sha1.ComputeHash(macData);
sha1.Clear();
string mac = BinToHex(hash);
return(mac == privateHash);
}
else
{
return(true);
}
}
private byte[] GetMsgHashed(Stream stream)
{
using (HashAlgorithm sha = new SHA1CryptoServiceProvider())
{
int read = 0;
byte[] buff = new byte[8192];
while ((read = stream.Read(buff, 0, 8192)) > 0)
{
sha.TransformBlock(buff, 0, read, buff, 0);
}
sha.TransformFinalBlock(buff, 0, 0);
return(sha.Hash);
}
}
//
// Summary:
// When overridden in a derived class, finalizes the hash computation after
// the last data is processed by the cryptographic stream object.
//
// Returns:
// The computed hash code.
protected override byte[] HashFinal()
{
byte[] hash = new byte[36];
_md5.TransformFinalBlock(hash, 0, 0);
_sha1.TransformFinalBlock(hash, 0, 0);
var md5Hash = _md5.Hash;
var sha1Hash = _sha1.Hash;
Buffer.BlockCopy(md5Hash, 0, hash, 0, 16);
Buffer.BlockCopy(sha1Hash, 0, hash, 16, 20);
Array.Clear(md5Hash, 0, 16);
Array.Clear(sha1Hash, 0, 20);
HashValue = hash;
return(hash);
}
public static byte[] ComputeHashToBA(byte[] byteArr, bool useSalt = false)
{
if (useSalt)
{
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
sha1.TransformBlock(_salt, 0, _salt.Length, _salt, 0);
sha1.TransformFinalBlock(byteArr, 0, byteArr.Length);
return(sha1.Hash);
}
else
{
SHA1 sha1 = new SHA1CryptoServiceProvider();
return(sha1.ComputeHash(byteArr));
}
}
private byte[] GetMsgHashed(PdfSignatureAppearance sap)
{
HashAlgorithm sha = new SHA1CryptoServiceProvider();
Stream s = sap.RangeStream;
int read = 0;
byte[] buff = new byte[8192];
while ((read = s.Read(buff, 0, 8192)) > 0)
{
sha.TransformBlock(buff, 0, read, buff, 0);
}
sha.TransformFinalBlock(buff, 0, 0);
return(sha.Hash);
}
public static void Test1(byte[] data)
{
var sha1 = new SHA1CryptoServiceProvider();
for (int x = 0; x < 10; x++)
{
sha1.Initialize();
for (int i = 0; i < 10; i++)
{
sha1.TransformBlock(data, i * 10, 10, data, i * 10);
}
sha1.TransformFinalBlock(data, 100, 0);
Console.WriteLine(BytesToStr(sha1.Hash));
}
}
public static void UInt64(SHA1CryptoServiceProvider sha, ulong word, bool isFinal = false)
{
Bitwise.ByteSwap.ReplaceBytes(gUInt64Buffer, 0, word);
if (BitConverter.IsLittleEndian)
{
Bitwise.ByteSwap.SwapUInt64(gUInt64Buffer, 0);
}
if (isFinal)
{
sha.TransformFinalBlock(gUInt64Buffer, 0, sizeof(ulong));
}
else
{
sha.TransformBlock(gUInt64Buffer, 0, sizeof(ulong), null, 0);
}
}
/// <summary>Encrypts password using IBM's flavor of SHA1 algorithm</summary>
/// <param name="userName">User name in ASCII</param>
/// <param name="password">Password in ASCII</param>
/// <param name="serverSeed">Server's seed</param>
/// <param name="clientSeed">Client's seed</param>
/// <returns>Encrypted password as EBCDIC byte stream</returns>
public static byte[] EncryptPasswordSHA1(string userName, string password, ulong serverSeed, ulong clientSeed)
{
SHA1 sha = new SHA1CryptoServiceProvider();
byte[] token = sha.ComputeHash(Encoding.BigEndianUnicode.GetBytes(userName.ToUpper().PadRight(10) + password));
byte[] serverSeedBytes = Converters.UInt64ToBigEndian(serverSeed);
byte[] clientSeedBytes = Converters.UInt64ToBigEndian(clientSeed);
byte[] userNameUnicodeBytes = Encoding.BigEndianUnicode.GetBytes(userName.ToUpper().PadRight(10));
byte[] sequenceBytes = Converters.UInt64ToBigEndian(1);
sha = new SHA1CryptoServiceProvider();
sha.TransformBlock(token, 0, token.Length, token, 0);
sha.TransformBlock(serverSeedBytes, 0, serverSeedBytes.Length, serverSeedBytes, 0);
sha.TransformBlock(clientSeedBytes, 0, clientSeedBytes.Length, clientSeedBytes, 0);
sha.TransformBlock(userNameUnicodeBytes, 0, userNameUnicodeBytes.Length, userNameUnicodeBytes, 0);
sha.TransformFinalBlock(sequenceBytes, 0, sequenceBytes.Length);
return(sha.Hash);
}
public static void Stream(SHA1CryptoServiceProvider sha
, System.IO.Stream inputStream
, long inputOffset
, long inputLength
, bool isFinal = false)
{
const int k_read_block_size = 4096;
Contract.Requires(inputStream != null);
Contract.Requires(inputStream.CanSeek && inputStream.CanRead);
Contract.Requires(inputOffset >= 0);
Contract.Requires(inputLength > 0);
var scratch_buffer = new byte[k_read_block_size];
using (new IO.StreamPositionContext(inputStream))
{
inputStream.Seek(inputOffset, System.IO.SeekOrigin.Begin);
for (long input_bytes_read = 0; input_bytes_read < inputLength;)
{
long bytes_remaining = inputLength - input_bytes_read;
int read_block_length = System.Math.Min((int)bytes_remaining, scratch_buffer.Length);
Array.Clear(scratch_buffer, 0, scratch_buffer.Length);
for (int actual_bytes_read = 0; actual_bytes_read < read_block_length;)
{
int sub_block_offset = actual_bytes_read;
int sub_block_length = read_block_length - sub_block_offset;
actual_bytes_read += inputStream.Read(scratch_buffer, sub_block_offset, sub_block_length);
}
sha.TransformBlock(
scratch_buffer, 0, read_block_length,
null, 0);
input_bytes_read += read_block_length;
}
}
if (isFinal)
{
sha.TransformFinalBlock(scratch_buffer, 0, 0);
}
}
public void ComputeHashes()
{
try
{
SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider();
this.CRC32 = 0;
long totalSamples = this.audioSource.Length;
long processedSamples = 0;
AudioBuffer buffer = new AudioBuffer(this.audioSource.PCM, 44100);
while (this.audioSource.Read(buffer, 44100) > 0)
{
byte[] bufferBytes = buffer.Bytes;
if (this.audioSource.Position == this.audioSource.Length)
{
sha1.TransformFinalBlock(bufferBytes, 0, buffer.ByteLength);
}
else
{
sha1.TransformBlock(bufferBytes, 0, buffer.ByteLength, null, 0);
}
this.CRC32 = Crc32.ComputeChecksum(this.CRC32, buffer.Bytes, 0, buffer.ByteLength);
processedSamples += buffer.Length;
ProgressChangedEventArgs eventArgs = new ProgressChangedEventArgs((double)processedSamples / totalSamples);
this.OnProgressChanged(eventArgs);
if (eventArgs.Cancel)
{
return;
}
}
this.SHA1 = sha1.Hash;
}
finally
{
this.audioSource.Close();
}
}
private static void SetSigCryptoFromX509(PdfSignatureAppearance sigAppearance, X509Certificate2 card, X509Certificate[] chain)
{
sigAppearance.SetCrypto(null, chain, null, PdfSignatureAppearance.WINCER_SIGNED);
var dic = new PdfSignature(PdfName.ADOBE_PPKMS, PdfName.ADBE_PKCS7_SHA1)
{
Date = new PdfDate(sigAppearance.SignDate),
Name = PdfPKCS7.GetSubjectFields(chain[0]).GetField("CN"),
Reason = sigAppearance.Reason,
Location = sigAppearance.Location
};
sigAppearance.CryptoDictionary = dic;
const int csize = 4000;
var exc = new Dictionary <PdfName, int> {
{ PdfName.CONTENTS, csize * 2 + 2 }
};
sigAppearance.PreClose(exc);
HashAlgorithm sha = new SHA1CryptoServiceProvider();
var s = sigAppearance.RangeStream;
int read;
var buff = new byte[8192];
while ((read = s.Read(buff, 0, 8192)) > 0)
{
sha.TransformBlock(buff, 0, read, buff, 0);
}
sha.TransformFinalBlock(buff, 0, 0);
var pk = SignMsg(sha.Hash, card, false);
var outc = new byte[csize];
var dic2 = new PdfDictionary();
Array.Copy(pk, 0, outc, 0, pk.Length);
dic2.Put(PdfName.CONTENTS, new PdfString(outc).SetHexWriting(true));
sigAppearance.Close(dic2);
}
private byte[] ComputeSignature()
{
using (SHA1CryptoServiceProvider sha1 = new SHA1CryptoServiceProvider())
{
foreach (DictionaryEntry entry in _templates)
{
var keyBytes = Encoding.UTF8.GetBytes((string)entry.Key);
var valueBytes = Encoding.UTF8.GetBytes((string)entry.Value);
sha1.TransformBlock(keyBytes, 0, keyBytes.Length, keyBytes, 0);
sha1.TransformBlock(_valueSeparator, 0, _valueSeparator.Length, _valueSeparator, 0);
sha1.TransformBlock(valueBytes, 0, valueBytes.Length, valueBytes, 0);
sha1.TransformBlock(_recordSeparator, 0, _recordSeparator.Length, _recordSeparator, 0);
}
var fallbackSignatureBytes = _fallback != null?_fallback.ComputeSignature() : new byte[0];
sha1.TransformFinalBlock(fallbackSignatureBytes, 0, fallbackSignatureBytes.Length);
return(sha1.Hash);
}
}
public static string GetServerHash(byte[] serverId, byte[] secretKey, byte[] publicKey)
{
using var sha = new SHA1CryptoServiceProvider();
sha.TransformBlock(serverId, 0, serverId.Length, serverId, 0);
sha.TransformBlock(secretKey, 0, secretKey.Length, secretKey, 0);
sha.TransformBlock(publicKey, 0, publicKey.Length, publicKey, 0);
sha.TransformFinalBlock(new byte[0], 0, 0);
var hash = sha.Hash;
var negative = (hash[0] & 0x80) == 0x80;
if (negative)
{
int i;
var carry = true;
for (i = hash.Length - 1; i >= 0; i--)
{
hash[i] = (byte)~hash[i];
if (!carry)
{
continue;
}
carry = hash[i] == 0xFF;
hash[i]++;
}
}
var result = hash
.Aggregate(string.Empty, (current, t) => current + t.ToString("x2", CultureInfo.InvariantCulture))
.TrimStart('0');
if (negative)
{
result = "-" + result;
}
return(result);
}
/// <summary>
/// Firma un documento
/// </summary>
/// <param name="Source">Documento origen</param>
/// <param name="Target">Documento destino</param>
/// <param name="Certificate">Certificado a utilizar</param>
/// <param name="Reason">Razón de la firma</param>
/// <param name="Location">Ubicación</param>
/// <param name="AddVisibleSign">Establece si hay que agregar la firma visible al documento</param>
public void SignHashed(string Source, string Target, SysX509.X509Certificate2 Certificate, string Reason, string Location, bool AddVisibleSign, DatosPersonales datos)
{
X509CertificateParser objCP = new X509CertificateParser();
Org.BouncyCastle.X509.X509Certificate[] objChain = new Org.BouncyCastle.X509.X509Certificate[] { objCP.ReadCertificate(Certificate.RawData) };
PdfReader objReader = new PdfReader(Source);
PdfStamper objStamper = PdfStamper.CreateSignature(objReader, new FileStream(Target, FileMode.Create), '\0', null, true);
PdfSignatureAppearance objSA = objStamper.SignatureAppearance;
if (AddVisibleSign)
{
objSA.SetVisibleSignature(new Rectangle(100f, objReader.XrefSize, 500, 100), 1, null);
}
objSA.SignDate = DateTime.Now;
objSA.SetCrypto(null, objChain, null, null);
objSA.Reason = Reason;
objSA.Location = Location;
objSA.Acro6Layers = true;
objSA.Render = PdfSignatureAppearance.SignatureRender.NameAndDescription;
PdfSignature objSignature = new PdfSignature(PdfName.ADOBE_PPKMS, PdfName.ADBE_PKCS7_SHA1);
objSignature.Date = new PdfDate(objSA.SignDate);
objSignature.Name = PdfPKCS7.GetSubjectFields(objChain[0]).GetField("CN");
if (objSA.Reason != null)
{
objSignature.Reason = objSA.Reason;
}
if (objSA.Location != null)
{
objSignature.Location = objSA.Location;
}
objSA.CryptoDictionary = objSignature;
int intCSize = 4000;
// Hashtable objTable = new Hashtable();
// objTable[PdfName.CONTENTS] = intCSize * 2 + 2;
Dictionary <PdfName, int> objTable = new Dictionary <PdfName, int>();
PdfName pdfname = new PdfName("firma");
// Add some elements to the dictionary. There are no
// duplicate keys, but some of the values are duplicates.
objTable.Add(pdfname, intCSize * 2 + 2);
objSA.PreClose(objTable);
HashAlgorithm objSHA1 = new SHA1CryptoServiceProvider();
Stream objStream = objSA.RangeStream;
int intRead = 0;
byte[] bytBuffer = new byte[8192];
while ((intRead = objStream.Read(bytBuffer, 0, 8192)) > 0)
{
objSHA1.TransformBlock(bytBuffer, 0, intRead, bytBuffer, 0);
}
objSHA1.TransformFinalBlock(bytBuffer, 0, 0);
byte[] bytPK = SignMsg(objSHA1.Hash, Certificate, false);
byte[] bytOut = new byte[intCSize];
PdfDictionary objDict = new PdfDictionary();
Array.Copy(bytPK, 0, bytOut, 0, bytPK.Length);
objDict.Put(pdfname, new PdfString(bytOut).SetHexWriting(true));
try
{
objSA.Close(objDict);
}
catch (Exception ex)
{
}
}
public bool FirmarPDF(string pdfOriginal, string pdfFirmado, SysX509.X509Certificate2 certificado, string imagenFirma, bool firmaVisible, float puntoEsquinaInferiorIzquierdaX, float puntoEsquinaInferiorIzquierdaY, float puntoEsquinaSuperiorDerechaX, float puntoEsquinaSuperiorDerechaY, eTipoPagina paginaFirma, int pagina)
{
int numPagina = 0;
try
{
X509CertificateParser objCP = new X509CertificateParser();
Org.BouncyCastle.X509.X509Certificate[] objChain = new Org.BouncyCastle.X509.X509Certificate[] { objCP.ReadCertificate(certificado.RawData) };
PdfReader objReader = new PdfReader(pdfOriginal);
PdfStamper objStamper = PdfStamper.CreateSignature(objReader, new FileStream(pdfFirmado, FileMode.Create), '\0');
PdfSignatureAppearance objSA = objStamper.SignatureAppearance;
if (paginaFirma == eTipoPagina.Ultima)
{
numPagina = objReader.NumberOfPages;
}
else
{
if (pagina <= objReader.NumberOfPages)
{
numPagina = pagina;
}
else if (pagina > objReader.NumberOfPages)
{
numPagina = objReader.NumberOfPages;
}
else if (pagina < 1)
{
numPagina = 1;
}
}
if (firmaVisible)
{
Rectangle rect = new Rectangle(puntoEsquinaInferiorIzquierdaX, puntoEsquinaInferiorIzquierdaY, puntoEsquinaSuperiorDerechaX, puntoEsquinaSuperiorDerechaY);
objSA.SetVisibleSignature(rect, numPagina, null);
}
objSA.CertificationLevel = PdfSignatureAppearance.CERTIFIED_NO_CHANGES_ALLOWED;
objSA.SignDate = DateTime.Now;
objSA.SetCrypto(null, objChain, null, null);
objSA.Acro6Layers = true;
objSA.Render = PdfSignatureAppearance.SignatureRender.NameAndDescription;
//objSA.SignatureGraphic = iTextSharp.text.Image.GetInstance(imagenFirma); //
PdfSignature objSignature = new PdfSignature(PdfName.ADOBE_PPKMS, PdfName.ADBE_PKCS7_SHA1);
objSignature.Date = new PdfDate(objSA.SignDate);
objSignature.Name = PdfPKCS7.GetSubjectFields(objChain[0]).GetField("CN");
if (objSA.Reason != null)
{
objSignature.Reason = objSA.Reason;
}
if (objSA.Location != null)
{
objSignature.Location = objSA.Location;
}
if (objSA.Contact != null)
{
objSignature.Contact = objSA.Contact;
}
objSA.CryptoDictionary = objSignature;
int intCSize = 4000;
Dictionary <PdfName, int> objTable = new Dictionary <PdfName, int>();
objTable[PdfName.CONTENTS] = intCSize * 2 + 2;
objSA.PreClose(objTable);
HashAlgorithm objSHA1 = new SHA1CryptoServiceProvider();
Stream objStream = objSA.RangeStream;
int intRead = 0;
byte[] bytBuffer = new byte[8192];
while ((intRead = objStream.Read(bytBuffer, 0, 8192)) > 0)
{
objSHA1.TransformBlock(bytBuffer, 0, intRead, bytBuffer, 0);
}
objSHA1.TransformFinalBlock(bytBuffer, 0, 0);
byte[] bytPK = GenerarFirmar(objSHA1.Hash, certificado, false);
byte[] bytOut = new byte[intCSize];
PdfDictionary objDict = new PdfDictionary();
Array.Copy(bytPK, 0, bytOut, 0, bytPK.Length);
objDict.Put(PdfName.CONTENTS, new PdfString(bytOut).SetHexWriting(true));
objSA.Close(objDict);
return(true);
}
catch
{
throw;
}
}
/// <summary>
/// Firma un documento
/// </summary>
/// <param name="Source">Documento origen</param>
/// <param name="Target">Documento destino</param>
/// <param name="Certificate">Certificado a utilizar</param>
/// <param name="Reason">Razón de la firma</param>
/// <param name="Location">Ubicación</param>
/// <param name="AddVisibleSign">Establece si hay que agregar la firma visible al documento</param>
public static void SignHashed(string Source, string Target, SysX509.X509Certificate2 Certificate, string Reason, string Location, bool AddVisibleSign)
{
X509CertificateParser objCP = new X509CertificateParser();
X509Certificate[] objChain = new X509Certificate[] { objCP.ReadCertificate(Certificate.RawData) };
PdfReader objReader = new PdfReader(Source);
PdfStamper objStamper = PdfStamper.CreateSignature(objReader, new FileStream(Target, FileMode.Create), '\0');
PdfSignatureAppearance objSA = objStamper.SignatureAppearance;
if (AddVisibleSign)
{
objSA.SetVisibleSignature(new Rectangle(50, 50, 150, 100), 2, null);
}
objSA.SignDate = DateTime.Now;
objSA.SetCrypto(null, objChain, null, null);
objSA.Reason = Reason;
objSA.Location = Location;
objSA.Acro6Layers = true;
objSA.Render = PdfSignatureAppearance.SignatureRender.NameAndDescription;
PdfSignature objSignature = new PdfSignature(PdfName.ADOBE_PPKMS, PdfName.ADBE_PKCS7_SHA1);
objSignature.Date = new PdfDate(objSA.SignDate);
objSignature.Name = PdfPKCS7.GetSubjectFields(objChain[0]).GetField("CN");
if (objSA.Reason != null)
{
objSignature.Reason = objSA.Reason;
}
if (objSA.Location != null)
{
objSignature.Location = objSA.Location;
}
objSA.CryptoDictionary = objSignature;
int intCSize = 4000;
Hashtable objTable = new Hashtable();
objTable[PdfName.CONTENTS] = intCSize * 2 + 2;
objSA.PreClose(objTable);
HashAlgorithm objSHA1 = new SHA1CryptoServiceProvider();
Stream objStream = objSA.RangeStream;
int intRead = 0;
byte[] bytBuffer = new byte[8192];
while ((intRead = objStream.Read(bytBuffer, 0, 8192)) > 0)
{
objSHA1.TransformBlock(bytBuffer, 0, intRead, bytBuffer, 0);
}
objSHA1.TransformFinalBlock(bytBuffer, 0, 0);
byte[] bytPK = SignMsg(objSHA1.Hash, Certificate, false);
byte[] bytOut = new byte[intCSize];
PdfDictionary objDict = new PdfDictionary();
Array.Copy(bytPK, 0, bytOut, 0, bytPK.Length);
objDict.Put(PdfName.CONTENTS, new PdfString(bytOut).SetHexWriting(true));
objSA.Close(objDict);
}
public PdfDictionary GetEncryptionDictionary()
{
var dic = new PdfDictionary();
if (PublicKeyHandler.GetRecipientsSize() > 0)
{
PdfArray recipients = null;
dic.Put(PdfName.Filter, PdfName.Pubsec);
dic.Put(PdfName.R, new PdfNumber(_revision));
recipients = PublicKeyHandler.GetEncodedRecipients();
if (_revision == STANDARD_ENCRYPTION_40)
{
dic.Put(PdfName.V, new PdfNumber(1));
dic.Put(PdfName.Subfilter, PdfName.AdbePkcs7S4);
dic.Put(PdfName.Recipients, recipients);
}
else if (_revision == STANDARD_ENCRYPTION_128 && _encryptMetadata)
{
dic.Put(PdfName.V, new PdfNumber(2));
dic.Put(PdfName.LENGTH, new PdfNumber(128));
dic.Put(PdfName.Subfilter, PdfName.AdbePkcs7S4);
dic.Put(PdfName.Recipients, recipients);
}
else
{
dic.Put(PdfName.R, new PdfNumber(AES_128));
dic.Put(PdfName.V, new PdfNumber(4));
dic.Put(PdfName.Subfilter, PdfName.AdbePkcs7S5);
var stdcf = new PdfDictionary();
stdcf.Put(PdfName.Recipients, recipients);
if (!_encryptMetadata)
{
stdcf.Put(PdfName.Encryptmetadata, PdfBoolean.Pdffalse);
}
if (_revision == AES_128)
{
stdcf.Put(PdfName.Cfm, PdfName.Aesv2);
}
else
{
stdcf.Put(PdfName.Cfm, PdfName.V2);
}
var cf = new PdfDictionary();
cf.Put(PdfName.Defaultcryptfilter, stdcf);
dic.Put(PdfName.Cf, cf);
if (_embeddedFilesOnly)
{
dic.Put(PdfName.Eff, PdfName.Defaultcryptfilter);
dic.Put(PdfName.Strf, PdfName.Identity);
dic.Put(PdfName.Stmf, PdfName.Identity);
}
else
{
dic.Put(PdfName.Strf, PdfName.Defaultcryptfilter);
dic.Put(PdfName.Stmf, PdfName.Defaultcryptfilter);
}
}
#if NET40
SHA1 sh = new SHA1CryptoServiceProvider();
byte[] encodedRecipient = null;
var seed = PublicKeyHandler.GetSeed();
sh.TransformBlock(seed, 0, seed.Length, seed, 0);
for (var i = 0; i < PublicKeyHandler.GetRecipientsSize(); i++)
{
encodedRecipient = PublicKeyHandler.GetEncodedRecipient(i);
sh.TransformBlock(encodedRecipient, 0, encodedRecipient.Length, encodedRecipient, 0);
}
if (!_encryptMetadata)
{
sh.TransformBlock(MetadataPad, 0, MetadataPad.Length, MetadataPad, 0);
}
sh.TransformFinalBlock(seed, 0, 0);
var mdResult = sh.Hash;
#else
byte[] mdResult;
using (var sh = IncrementalHash.CreateHash(HashAlgorithmName.SHA1))
{
var seed = PublicKeyHandler.GetSeed();
sh.AppendData(seed, 0, seed.Length);
for (var i = 0; i < PublicKeyHandler.GetRecipientsSize(); i++)
{
var encodedRecipient = PublicKeyHandler.GetEncodedRecipient(i);
sh.AppendData(encodedRecipient, 0, encodedRecipient.Length);
}
if (!_encryptMetadata)
{
sh.AppendData(MetadataPad, 0, MetadataPad.Length);
}
mdResult = sh.GetHashAndReset();
}
#endif
SetupByEncryptionKey(mdResult, _keyLength);
}
else
{
dic.Put(PdfName.Filter, PdfName.Standard);
dic.Put(PdfName.O, new PdfLiteral(PdfContentByte.EscapeString(OwnerKey)));
dic.Put(PdfName.U, new PdfLiteral(PdfContentByte.EscapeString(UserKey)));
dic.Put(PdfName.P, new PdfNumber(Permissions));
dic.Put(PdfName.R, new PdfNumber(_revision));
if (_revision == STANDARD_ENCRYPTION_40)
{
dic.Put(PdfName.V, new PdfNumber(1));
}
else if (_revision == STANDARD_ENCRYPTION_128 && _encryptMetadata)
{
dic.Put(PdfName.V, new PdfNumber(2));
dic.Put(PdfName.LENGTH, new PdfNumber(128));
}
else
{
if (!_encryptMetadata)
{
dic.Put(PdfName.Encryptmetadata, PdfBoolean.Pdffalse);
}
dic.Put(PdfName.R, new PdfNumber(AES_128));
dic.Put(PdfName.V, new PdfNumber(4));
dic.Put(PdfName.LENGTH, new PdfNumber(128));
var stdcf = new PdfDictionary();
stdcf.Put(PdfName.LENGTH, new PdfNumber(16));
if (_embeddedFilesOnly)
{
stdcf.Put(PdfName.Authevent, PdfName.Efopen);
dic.Put(PdfName.Eff, PdfName.Stdcf);
dic.Put(PdfName.Strf, PdfName.Identity);
dic.Put(PdfName.Stmf, PdfName.Identity);
}
else
{
stdcf.Put(PdfName.Authevent, PdfName.Docopen);
dic.Put(PdfName.Strf, PdfName.Stdcf);
dic.Put(PdfName.Stmf, PdfName.Stdcf);
}
if (_revision == AES_128)
{
stdcf.Put(PdfName.Cfm, PdfName.Aesv2);
}
else
{
stdcf.Put(PdfName.Cfm, PdfName.V2);
}
var cf = new PdfDictionary();
cf.Put(PdfName.Stdcf, stdcf);
dic.Put(PdfName.Cf, cf);
}
}
return(dic);
}
/// <summary>
/// 将文件利用AES进行静态解密
/// </summary>
/// <param name="inputFile">输入的文件路径</param>
/// <param name="outputFile">输出的文件路径</param>
/// <param name="aesKey">AES密钥</param>
/// <param name="aesIV">AES初始向量</param>
public static void DecryptFile(string inputFile, string outputFile, byte[] aesKey, byte[] aesIV, StatusCallback callback = null)
{
if (string.IsNullOrEmpty(inputFile))
{
throw new ArgumentNullException("inputFile");
}
if (string.IsNullOrEmpty(outputFile))
{
throw new ArgumentNullException("outputFile");
}
if (!File.Exists(inputFile))
{
throw new ArgumentException("inputFile not exists");
}
if (aesKey == null)
{
throw new ArgumentNullException("aesKey");
}
if (aesIV == null)
{
throw new ArgumentNullException("aesIV");
}
FileStream fs_in = null, fs_out = null;
try
{
fs_in = new FileStream(inputFile, FileMode.Open, FileAccess.Read, FileShare.Read);
fs_out = new FileStream(outputFile, FileMode.Create, FileAccess.Write, FileShare.None);
var file_length = fs_in.Length;
var proceeded_length = 3;
int type = fs_in.ReadByte();
if (type != FLG_STATIC_KEY)
{
fs_in.Close();
fs_out.Close();
throw new InvalidDataException("格式错误:该文件不是采用静态加密的文件");
}
var preserved = util.ReadBytes(fs_in, 2); //preserved for latter usage
var decrypted_stream = Crypto.AES_StreamDecrypt(fs_in, aesKey, CipherMode.CFB, aesIV);
int nread = 0;
const int buffer_size = 4096;
var buffer = new byte[buffer_size];
var sha1 = new SHA1CryptoServiceProvider();
byte[] SHA1 = util.ReadBytes(decrypted_stream, 20);
do
{
nread = decrypted_stream.Read(buffer, 0, buffer_size);
proceeded_length += nread;
fs_out.Write(buffer, 0, nread);
sha1.TransformBlock(buffer, 0, nread, buffer, 0);
callback?.Invoke(inputFile, outputFile, proceeded_length, file_length);
} while (nread != 0);
sha1.TransformFinalBlock(buffer, 0, 0);
var cur_sha1 = sha1.Hash;
fs_out.Close();
decrypted_stream.Close();
var sha1_empty = new byte[20];
if (util.Hex(cur_sha1) != util.Hex(SHA1) && util.Hex(SHA1) != util.Hex(sha1_empty))
{
throw new InvalidDataException("SHA1检验不匹配:解密失败");
}
}
catch (Exception)
{
throw;
}
finally
{
fs_in?.Close();
fs_out?.Close();
}
}
/// <inheritdoc/>
protected override void Run()
{
Wizard.TryInvoke((Action)(() => Wizard.TaskCount++));
try
{
var propertyUpdater = new DispatcherTimer(
new TimeSpan(0, 0, 0, 1),
DispatcherPriority.Normal,
(object sender, EventArgs e) => _ShowLog?.RaiseCanExecuteChanged(),
Wizard.Dispatcher);
propertyUpdater.Start();
try
{
// Get a random TCP port for openvpn.exe management interface.
var mgmtServer = new TcpListener(IPAddress.Loopback, 0);
mgmtServer.Start();
try
{
byte[] ovpn;
var mgmtEndpoint = mgmtServer.LocalEndpoint as IPEndPoint;
var mgmtPassword = Membership.GeneratePassword(16, 6);
try
{
// Prepare OpenVPN configuration.
var fs = new MemoryStream();
using (fs)
using (var sw = new StreamWriter(fs))
{
if (Properties.SettingsEx.Default.OpenVPNRemoveOptions is StringCollection openVPNRemoveOptions)
{
// Remove options on the OpenVPNRemoveOptions list on the fly.
using (var sr = new StringReader(ProfileConfig.Value))
{
string inlineTerm = null;
var inlineRemove = false;
for (; ;)
{
var line = sr.ReadLine();
if (line == null)
{
break;
}
var trimmedLine = line.Trim();
if (!string.IsNullOrEmpty(trimmedLine))
{
// Not an empty line.
if (inlineTerm == null)
{
// Not inside an inline option block = Regular parsing mode.
if (!trimmedLine.StartsWith("#") &&
!trimmedLine.StartsWith(";"))
{
// Not a comment.
var option = Configuration.ParseParams(trimmedLine);
if (option.Count > 0)
{
if (option[0].StartsWith("<") && !option[0].StartsWith("</") && option[0].EndsWith(">"))
{
// Start of an inline option.
var o = option[0].Substring(1, option[0].Length - 2);
inlineTerm = "</" + o + ">";
inlineRemove = openVPNRemoveOptions.Contains(o);
if (inlineRemove)
{
sw.WriteLine("# Commented by OpenVPNRemoveOptions setting:");
line = "# " + line;
}
}
else if (openVPNRemoveOptions.Contains(option[0]))
{
sw.WriteLine("# Commented by OpenVPNRemoveOptions setting:");
line = "# " + line;
}
}
}
}
else
{
// Inside an inline option block.
if (inlineRemove)
{
// Remove the inline option content.
line = "# " + line;
}
if (trimmedLine == inlineTerm)
{
// Inline option terminator found. Returning to regular parsing mode.
inlineTerm = null;
}
}
}
sw.WriteLine(line);
}
}
}
else
{
sw.Write(ProfileConfig.Value);
}
// Append eduVPN Client specific configuration directives.
sw.WriteLine();
sw.WriteLine();
sw.WriteLine("# eduVPN Client for Windows");
// Introduce ourself (to OpenVPN server).
var assembly = Assembly.GetExecutingAssembly();
var assemblyTitleAttribute = Attribute.GetCustomAttributes(assembly, typeof(AssemblyTitleAttribute)).SingleOrDefault() as AssemblyTitleAttribute;
var assemblyVersion = assembly?.GetName()?.Version;
sw.WriteLine("setenv IV_GUI_VER " + Configuration.EscapeParamValue(assemblyTitleAttribute?.Title + " " + assemblyVersion?.ToString()));
// Configure log file (relative to WorkingFolder).
sw.WriteLine("log-append " + Configuration.EscapeParamValue(ConnectionId + ".txt"));
// Configure interaction between us and openvpn.exe.
sw.WriteLine("management " + Configuration.EscapeParamValue(mgmtEndpoint.Address.ToString()) + " " + Configuration.EscapeParamValue(mgmtEndpoint.Port.ToString()));
sw.WriteLine("<management-client-pass>");
sw.WriteLine(mgmtPassword);
sw.WriteLine("</management-client-pass>");
sw.WriteLine("management-hold"); // Wait for our signal to start connecting.
sw.WriteLine("management-signal"); // Raise SIGUSR1 if our client dies/closes management interface.
sw.WriteLine("remap-usr1 SIGTERM"); // SIGUSR1 (reconnect) => SIGTERM (disconnect)
sw.WriteLine("management-query-passwords");
// Ask when username/password is denied.
sw.WriteLine("auth-retry interact");
sw.WriteLine("auth-nocache");
// Set Wintun interface to be used.
sw.Write("windows-driver wintun\n");
var hash = new SHA1CryptoServiceProvider(); // https://datatracker.ietf.org/doc/html/rfc4122#section-4.3
byte[] bufferPrefix = { 0x6b, 0xa7, 0xb8, 0x11, 0x9d, 0xad, 0x11, 0xd1, 0x80, 0xb4, 0x00, 0xc0, 0x4f, 0xd4, 0x30, 0xc8 }; // https://datatracker.ietf.org/doc/html/rfc4122#appendix-C in network byte order
hash.TransformBlock(bufferPrefix, 0, bufferPrefix.Length, bufferPrefix, 0);
var bufferUri = Encoding.UTF8.GetBytes(new Uri(ConnectingProfile.Server.Base, ConnectingProfile.Id).AbsoluteUri);
hash.TransformFinalBlock(bufferUri, 0, bufferUri.Length);
var guid = new Guid(
((uint)hash.Hash[0] << 24) | ((uint)hash.Hash[1] << 16) | ((uint)hash.Hash[2] << 8) | hash.Hash[3], // time_low
(ushort)(((uint)hash.Hash[4] << 8) | hash.Hash[5]), // time_mid
(ushort)(((((uint)hash.Hash[6] << 8) | hash.Hash[7]) & 0x0fff) | 0x5000), // time_hi_and_version
(byte)(((uint)hash.Hash[8] & 0x3f) | 0x80), // clock_seq_hi_and_reserved
hash.Hash[9], // clock_seq_low
hash.Hash[10], hash.Hash[11], hash.Hash[12], hash.Hash[13], hash.Hash[14], hash.Hash[15]); // node[0-5]
sw.Write("dev-node {" + guid + "}\n");
#if DEBUG
// Renegotiate data channel every 5 minutes in debug versions.
sw.WriteLine("reneg-sec 300");
#endif
if (Environment.OSVersion.Version < new Version(6, 2))
{
// Windows 7 is using tiny 8kB send/receive socket buffers by default.
// Increase to 64kB which is default from Windows 8 on.
sw.WriteLine("sndbuf 65536");
sw.WriteLine("rcvbuf 65536");
}
var openVPNAddOptions = Properties.SettingsEx.Default.OpenVPNAddOptions;
if (!string.IsNullOrWhiteSpace(openVPNAddOptions))
{
sw.WriteLine();
sw.WriteLine();
sw.WriteLine("# Added by OpenVPNAddOptions setting:");
sw.WriteLine(openVPNAddOptions);
}
}
ovpn = fs.ToArray();
}
catch (OperationCanceledException) { throw; }
catch (Exception ex) { throw new AggregateException(string.Format(Resources.Strings.ErrorSavingProfileConfiguration, ConfigurationPath), ex); }
retry:
// Connect to OpenVPN Interactive Service to launch the openvpn.exe.
using (var openvpnInteractiveServiceConnection = new eduOpenVPN.InteractiveService.Session())
{
// Release TCP port for openvpn.exe management interface.
mgmtServer.Stop();
try
{
openvpnInteractiveServiceConnection.Connect(
string.Format("openvpn{0}\\service", Properties.SettingsEx.Default.OpenVPNInteractiveServiceInstance),
WorkingFolder,
new string[] { "--config", "stdin", },
Encoding.UTF8.GetString(ovpn),
3000,
Window.Abort.Token);
}
catch (OperationCanceledException) { throw; }
catch (Exception ex) { throw new AggregateException(Resources.Strings.ErrorInteractiveService, ex); }
try
{
// Connect to the openvpn.exe management interface.
var mgmtClient = new TcpClient();
var reconnectCount = 0;
reconnect:
var mgmtClientTask = mgmtClient.ConnectAsync(mgmtEndpoint.Address, mgmtEndpoint.Port);
try { mgmtClientTask.Wait(30000, Window.Abort.Token); }
catch (AggregateException ex)
{
if (ex.InnerException is SocketException ex2 && ex2.SocketErrorCode == SocketError.ConnectionRefused &&
++reconnectCount < 30 && !Window.Abort.Token.WaitHandle.WaitOne(1000))
{
Trace.TraceWarning("Failed to connect to openvpn.exe");
goto reconnect;
}
throw ex.InnerException;
}
try
{
// Create and start the management session.
ManagementSession = new eduOpenVPN.Management.Session();
ManagementSession.ByteCountReported += ManagementSession_ByteCountReported;
ManagementSession.FatalErrorReported += ManagementSession_FatalErrorReported;
ManagementSession.HoldReported += ManagementSession_HoldReported;
ManagementSession.StateReported += ManagementSession_StateReported;
ManagementSession.Start(mgmtClient.GetStream(), mgmtPassword, Window.Abort.Token);
// Initialize session and release openvpn.exe to get started.
ManagementSession.SetVersion(3, Window.Abort.Token);
ManagementSession.ReplayAndEnableState(Window.Abort.Token);
ManagementSession.ReplayAndEnableEcho(Window.Abort.Token);
ManagementSession.SetByteCount(5, Window.Abort.Token);
ManagementSession.ReleaseHold(Window.Abort.Token);
Wizard.TryInvoke((Action)(() =>
{
_Renew?.RaiseCanExecuteChanged();
_Disconnect?.RaiseCanExecuteChanged();
Wizard.TaskCount--;
}));
try
{
// Wait for the session to end gracefully.
ManagementSession.Monitor.Join();
if (!(ManagementSession.Error is OperationCanceledException) && !DisconnectInProgress)
{
goto retry;
}
}
finally { Wizard.TryInvoke((Action)(() => Wizard.TaskCount++)); }
}
finally { mgmtClient.Close(); }
}
finally
{
Wizard.TryInvoke((Action)(() =>
{
// Cleanup status properties.
State = SessionStatusType.Disconnecting;
StateDescription = Resources.Strings.OpenVPNStateTypeExiting;
TunnelAddress = null;
IPv6TunnelAddress = null;
ConnectedAt = null;
BytesIn = null;
BytesOut = null;
}));
// Wait for openvpn.exe to finish. Maximum 30s.
try { Process.GetProcessById(openvpnInteractiveServiceConnection.ProcessId)?.WaitForExit(30000); }
catch (ArgumentException) { }
}
}
}
finally { mgmtServer.Stop(); }
}
finally { propertyUpdater.Stop(); }
}
finally { Wizard.TryInvoke((Action)(() => Wizard.TaskCount--)); }
}
/// <summary>
/// Configura la informacion del certificado digital
/// </summary>
/// <param name="origen"></param>
/// <param name="destino"></param>
/// <param name="rutaCertificado"></param>
/// <param name="pass"></param>
public bool infoCertificado(string origen, string destino, string rutaCertificado, string pass)
{
bool resultado = false;
try
{
//SAPbouiCOM.Framework.Application.SBO_Application.MessageBox("origen " + origen);
//SAPbouiCOM.Framework.Application.SBO_Application.MessageBox("destino " + destino);
//SAPbouiCOM.Framework.Application.SBO_Application.MessageBox("rutaCertificado " + rutaCertificado);
//SAPbouiCOM.Framework.Application.SBO_Application.MessageBox("clave " + pass);
//Se obtiene el certficado
x509.X509Certificate2 certificado = new x509.X509Certificate2(rutaCertificado, pass);
X509CertificateParser objCP = new X509CertificateParser();
Org.BouncyCastle.X509.X509Certificate[] objChain = new
Org.BouncyCastle.X509.X509Certificate[] { objCP.ReadCertificate(certificado.RawData) };
//Objeto de tipo documento pdf
PdfReader objReader = new PdfReader(origen);
//Crea el objeto para la firma digital
PdfStamper objStamper = PdfStamper.CreateSignature(objReader,
new FileStream(destino, FileMode.Create), '\0');
PdfSignatureAppearance objSA = objStamper.SignatureAppearance;
//Configuracion de informacion para la firma digital
objSA.SignDate = DateTime.Now;
objSA.SetCrypto(null, objChain, null, null);
objSA.Reason = "Comprobante Generado";
objSA.Location = "Uruguay";
objSA.Acro6Layers = true;
objSA.Render = PdfSignatureAppearance.SignatureRender.NameAndDescription;
PdfSignature objSignature = new PdfSignature(PdfName.ADOBE_PPKMS,
PdfName.ADBE_PKCS7_SHA1);
objSignature.Date = new PdfDate(objSA.SignDate);
objSignature.Name = PdfPKCS7.GetSubjectFields(objChain[0]).GetField("CN");
if (objSA.Reason != null)
{
objSignature.Reason = objSA.Reason;
}
if (objSA.Location != null)
{
objSignature.Location = objSA.Location;
}
objSA.CryptoDictionary = objSignature;
int intCSize = 4000;
Hashtable objTable = new Hashtable();
objTable[PdfName.CONTENTS] = intCSize * 2 + 2;
objSA.PreClose(objTable);
Stream objStream = objSA.RangeStream;
HashAlgorithm objSHA1 = new SHA1CryptoServiceProvider();
int intRead = 0;
byte[] bytBuffer = new byte[8192];
while ((intRead = objStream.Read(bytBuffer, 0, 8192)) > 0)
{
objSHA1.TransformBlock(bytBuffer, 0, intRead, bytBuffer, 0);
}
objSHA1.TransformFinalBlock(bytBuffer, 0, 0);
byte[] bytPK = firmarDocumento(objSHA1.Hash, certificado);
byte[] bytOut = new byte[intCSize];
PdfDictionary objDict = new PdfDictionary();
Array.Copy(bytPK, 0, bytOut, 0, bytPK.Length);
objDict.Put(PdfName.CONTENTS, new PdfString(bytOut).SetHexWriting(true));
objStream.Close();
objSA.Close(objDict);
resultado = true;
}
catch (Exception ex)
{
SAPbouiCOM.Framework.Application.SBO_Application.MessageBox("ERROR: " + ex.ToString());
}
return(resultado);
}