/// <exception cref="NSch.JSchException"></exception>
public static NSch.KeyPair GenKeyPair(JSch jsch, int type, int key_size)
{
NSch.KeyPair kpair = null;
if (type == DSA)
{
kpair = new KeyPairDSA(jsch);
}
else
{
if (type == RSA)
{
kpair = new KeyPairRSA(jsch);
}
}
if (kpair != null)
{
kpair.Generate(key_size);
}
return(kpair);
}
/// <exception cref="NSch.JSchException"></exception>
public static NSch.KeyPair GenKeyPair(JSch jsch, int type, int key_size)
{
NSch.KeyPair kpair = null;
if (type == DSA)
{
kpair = new KeyPairDSA(jsch);
}
else
{
if (type == RSA)
{
kpair = new KeyPairRSA(jsch);
}
}
if (kpair != null)
{
kpair.Generate(key_size);
}
return kpair;
}
/// <exception cref="NSch.JSchException"></exception>
public static NSch.KeyPair Load(JSch jsch, string prvkey, string pubkey)
{
byte[] iv = new byte[8];
// 8
bool encrypted = true;
byte[] data = null;
byte[] publickeyblob = null;
int type = ERROR;
int vendor = VENDOR_OPENSSH;
string publicKeyComment = string.Empty;
NSch.Cipher cipher = null;
try
{
FilePath file = new FilePath(prvkey);
FileInputStream fis = new FileInputStream(prvkey);
byte[] buf = new byte[(int)(file.Length())];
int len = 0;
while (true)
{
int i = fis.Read(buf, len, buf.Length - len);
if (i <= 0)
{
break;
}
len += i;
}
fis.Close();
int i_1 = 0;
while (i_1 < len)
{
if (buf[i_1] == '-' && i_1 + 4 < len && buf[i_1 + 1] == '-' && buf[i_1 + 2] == '-' &&
buf[i_1 + 3] == '-' && buf[i_1 + 4] == '-')
{
break;
}
i_1++;
}
while (i_1 < len)
{
if (buf[i_1] == 'B' && i_1 + 3 < len && buf[i_1 + 1] == 'E' && buf[i_1 + 2] == 'G' &&
buf[i_1 + 3] == 'I')
{
i_1 += 6;
if (buf[i_1] == 'D' && buf[i_1 + 1] == 'S' && buf[i_1 + 2] == 'A')
{
type = DSA;
}
else
{
if (buf[i_1] == 'R' && buf[i_1 + 1] == 'S' && buf[i_1 + 2] == 'A')
{
type = RSA;
}
else
{
if (buf[i_1] == 'S' && buf[i_1 + 1] == 'S' && buf[i_1 + 2] == 'H')
{
// FSecure
type = UNKNOWN;
vendor = VENDOR_FSECURE;
}
else
{
throw new JSchException("invalid privatekey: " + prvkey);
}
}
}
i_1 += 3;
continue;
}
if (buf[i_1] == 'A' && i_1 + 7 < len && buf[i_1 + 1] == 'E' && buf[i_1 + 2] == 'S' &&
buf[i_1 + 3] == '-' && buf[i_1 + 4] == '2' && buf[i_1 + 5] == '5' && buf[i_1
+ 6] == '6' && buf[i_1 + 7] == '-')
{
i_1 += 8;
if (Session.CheckCipher((string)JSch.GetConfig("aes256-cbc")))
{
Type c = Sharpen.Runtime.GetType((string)JSch.GetConfig("aes256-cbc"));
cipher = (NSch.Cipher)(System.Activator.CreateInstance(c));
// key=new byte[cipher.getBlockSize()];
iv = new byte[cipher.GetIVSize()];
}
else
{
throw new JSchException("privatekey: aes256-cbc is not available " + prvkey);
}
continue;
}
if (buf[i_1] == 'A' && i_1 + 7 < len && buf[i_1 + 1] == 'E' && buf[i_1 + 2] == 'S' &&
buf[i_1 + 3] == '-' && buf[i_1 + 4] == '1' && buf[i_1 + 5] == '9' && buf[i_1
+ 6] == '2' && buf[i_1 + 7] == '-')
{
i_1 += 8;
if (Session.CheckCipher((string)JSch.GetConfig("aes192-cbc")))
{
Type c = Sharpen.Runtime.GetType((string)JSch.GetConfig("aes192-cbc"));
cipher = (NSch.Cipher)(System.Activator.CreateInstance(c));
// key=new byte[cipher.getBlockSize()];
iv = new byte[cipher.GetIVSize()];
}
else
{
throw new JSchException("privatekey: aes192-cbc is not available " + prvkey);
}
continue;
}
if (buf[i_1] == 'A' && i_1 + 7 < len && buf[i_1 + 1] == 'E' && buf[i_1 + 2] == 'S' &&
buf[i_1 + 3] == '-' && buf[i_1 + 4] == '1' && buf[i_1 + 5] == '2' && buf[i_1
+ 6] == '8' && buf[i_1 + 7] == '-')
{
i_1 += 8;
if (Session.CheckCipher((string)JSch.GetConfig("aes128-cbc")))
{
Type c = Sharpen.Runtime.GetType((string)JSch.GetConfig("aes128-cbc"));
cipher = (NSch.Cipher)(System.Activator.CreateInstance(c));
// key=new byte[cipher.getBlockSize()];
iv = new byte[cipher.GetIVSize()];
}
else
{
throw new JSchException("privatekey: aes128-cbc is not available " + prvkey);
}
continue;
}
if (buf[i_1] == 'C' && i_1 + 3 < len && buf[i_1 + 1] == 'B' && buf[i_1 + 2] == 'C' &&
buf[i_1 + 3] == ',')
{
i_1 += 4;
for (int ii = 0; ii < iv.Length; ii++)
{
iv[ii] = unchecked ((byte)(((A2b(buf[i_1++]) << 4) & unchecked ((int)(0xf0))) + (A2b
(buf[i_1++]) & unchecked ((int)(0xf)))));
}
continue;
}
if (buf[i_1] == unchecked ((int)(0x0d)) && i_1 + 1 < buf.Length && buf[i_1 + 1] ==
unchecked ((int)(0x0a)))
{
i_1++;
continue;
}
if (buf[i_1] == unchecked ((int)(0x0a)) && i_1 + 1 < buf.Length)
{
if (buf[i_1 + 1] == unchecked ((int)(0x0a)))
{
i_1 += 2;
break;
}
if (buf[i_1 + 1] == unchecked ((int)(0x0d)) && i_1 + 2 < buf.Length && buf[i_1 + 2
] == unchecked ((int)(0x0a)))
{
i_1 += 3;
break;
}
bool inheader = false;
for (int j = i_1 + 1; j < buf.Length; j++)
{
if (buf[j] == unchecked ((int)(0x0a)))
{
break;
}
//if(buf[j]==0x0d) break;
if (buf[j] == ':')
{
inheader = true;
break;
}
}
if (!inheader)
{
i_1++;
encrypted = false;
// no passphrase
break;
}
}
i_1++;
}
if (type == ERROR)
{
throw new JSchException("invalid privatekey: " + prvkey);
}
int start = i_1;
while (i_1 < len)
{
if (buf[i_1] == unchecked ((int)(0x0a)))
{
bool xd = (buf[i_1 - 1] == unchecked ((int)(0x0d)));
System.Array.Copy(buf, i_1 + 1, buf, i_1 - (xd ? 1 : 0), len - i_1 - 1 - (xd ? 1 :
0));
if (xd)
{
len--;
}
len--;
continue;
}
if (buf[i_1] == '-')
{
break;
}
i_1++;
}
data = Util.FromBase64(buf, start, i_1 - start);
if (data.Length > 4 && data[0] == unchecked ((byte)unchecked ((int)(0x3f))) && data
[1] == unchecked ((byte)unchecked ((int)(0x6f))) && data[2] == unchecked ((byte)unchecked (
(int)(0xf9))) && data[3] == unchecked ((byte)unchecked ((int)(0xeb))))
{
// FSecure
Buffer _buf = new Buffer(data);
_buf.GetInt();
// 0x3f6ff9be
_buf.GetInt();
byte[] _type = _buf.GetString();
//System.err.println("type: "+new String(_type));
string _cipher = Util.Byte2str(_buf.GetString());
//System.err.println("cipher: "+_cipher);
if (_cipher.Equals("3des-cbc"))
{
_buf.GetInt();
byte[] foo = new byte[data.Length - _buf.GetOffSet()];
_buf.GetByte(foo);
data = foo;
encrypted = true;
throw new JSchException("unknown privatekey format: " + prvkey);
}
else
{
if (_cipher.Equals("none"))
{
_buf.GetInt();
_buf.GetInt();
encrypted = false;
byte[] foo = new byte[data.Length - _buf.GetOffSet()];
_buf.GetByte(foo);
data = foo;
}
}
}
if (pubkey != null)
{
try
{
file = new FilePath(pubkey);
fis = new FileInputStream(pubkey);
buf = new byte[(int)(file.Length())];
len = 0;
while (true)
{
i_1 = fis.Read(buf, len, buf.Length - len);
if (i_1 <= 0)
{
break;
}
len += i_1;
}
fis.Close();
if (buf.Length > 4 && buf[0] == '-' && buf[1] == '-' && buf[2] == '-' && buf[3] ==
'-')
{
// FSecure's public key
bool valid = true;
i_1 = 0;
do
{
i_1++;
}while (buf.Length > i_1 && buf[i_1] != unchecked ((int)(0x0a)));
if (buf.Length <= i_1)
{
valid = false;
}
while (valid)
{
if (buf[i_1] == unchecked ((int)(0x0a)))
{
bool inheader = false;
for (int j = i_1 + 1; j < buf.Length; j++)
{
if (buf[j] == unchecked ((int)(0x0a)))
{
break;
}
if (buf[j] == ':')
{
inheader = true;
break;
}
}
if (!inheader)
{
i_1++;
break;
}
}
i_1++;
}
if (buf.Length <= i_1)
{
valid = false;
}
start = i_1;
while (valid && i_1 < len)
{
if (buf[i_1] == unchecked ((int)(0x0a)))
{
System.Array.Copy(buf, i_1 + 1, buf, i_1, len - i_1 - 1);
len--;
continue;
}
if (buf[i_1] == '-')
{
break;
}
i_1++;
}
if (valid)
{
publickeyblob = Util.FromBase64(buf, start, i_1 - start);
if (type == UNKNOWN)
{
if (publickeyblob[8] == 'd')
{
type = DSA;
}
else
{
if (publickeyblob[8] == 'r')
{
type = RSA;
}
}
}
}
}
else
{
if (buf[0] == 's' && buf[1] == 's' && buf[2] == 'h' && buf[3] == '-')
{
i_1 = 0;
while (i_1 < len)
{
if (buf[i_1] == ' ')
{
break;
}
i_1++;
}
i_1++;
if (i_1 < len)
{
start = i_1;
while (i_1 < len)
{
if (buf[i_1] == ' ')
{
break;
}
i_1++;
}
publickeyblob = Util.FromBase64(buf, start, i_1 - start);
}
if (i_1++ < len)
{
int s = i_1;
while (i_1 < len)
{
if (buf[i_1] == '\n')
{
break;
}
i_1++;
}
if (i_1 < len)
{
publicKeyComment = Sharpen.Runtime.GetStringForBytes(buf, s, i_1 - s);
}
}
}
}
}
catch (Exception)
{
}
}
}
catch (Exception e)
{
if (e is JSchException)
{
throw (JSchException)e;
}
if (e is Exception)
{
throw new JSchException(e.ToString(), (Exception)e);
}
throw new JSchException(e.ToString());
}
NSch.KeyPair kpair = null;
if (type == DSA)
{
kpair = new KeyPairDSA(jsch);
}
else
{
if (type == RSA)
{
kpair = new KeyPairRSA(jsch);
}
}
if (kpair != null)
{
kpair.encrypted = encrypted;
kpair.publickeyblob = publickeyblob;
kpair.vendor = vendor;
kpair.publicKeyComment = publicKeyComment;
kpair.cipher = cipher;
if (encrypted)
{
kpair.iv = iv;
kpair.data = data;
}
else
{
if (kpair.Parse(data))
{
return(kpair);
}
else
{
throw new JSchException("invalid privatekey: " + prvkey);
}
}
}
return(kpair);
}
/// <exception cref="NSch.JSchException"></exception>
public static NSch.KeyPair Load(JSch jsch, string prvkey, string pubkey)
{
byte[] iv = new byte[8];
// 8
bool encrypted = true;
byte[] data = null;
byte[] publickeyblob = null;
int type = ERROR;
int vendor = VENDOR_OPENSSH;
try
{
FilePath file = new FilePath(prvkey);
FileInputStream fis = new FileInputStream(prvkey);
byte[] buf = new byte[(int)(file.Length())];
int len = 0;
while (true)
{
int i = fis.Read(buf, len, buf.Length - len);
if (i <= 0)
{
break;
}
len += i;
}
fis.Close();
int i_1 = 0;
while (i_1 < len)
{
if (buf[i_1] == 'B' && buf[i_1 + 1] == 'E' && buf[i_1 + 2] == 'G' && buf[i_1 + 3]
== 'I')
{
i_1 += 6;
if (buf[i_1] == 'D' && buf[i_1 + 1] == 'S' && buf[i_1 + 2] == 'A')
{
type = DSA;
}
else
{
if (buf[i_1] == 'R' && buf[i_1 + 1] == 'S' && buf[i_1 + 2] == 'A')
{
type = RSA;
}
else
{
if (buf[i_1] == 'S' && buf[i_1 + 1] == 'S' && buf[i_1 + 2] == 'H')
{
// FSecure
type = UNKNOWN;
vendor = VENDOR_FSECURE;
}
else
{
//System.err.println("invalid format: "+identity);
throw new JSchException("invalid privatekey: " + prvkey);
}
}
}
i_1 += 3;
continue;
}
if (buf[i_1] == 'C' && buf[i_1 + 1] == 'B' && buf[i_1 + 2] == 'C' && buf[i_1 + 3]
== ',')
{
i_1 += 4;
for (int ii = 0; ii < iv.Length; ii++)
{
iv[ii] = unchecked((byte)(((A2b(buf[i_1++]) << 4) & unchecked((int)(0xf0))) + (A2b
(buf[i_1++]) & unchecked((int)(0xf)))));
}
continue;
}
if (buf[i_1] == unchecked((int)(0x0d)) && i_1 + 1 < buf.Length && buf[i_1 + 1] ==
unchecked((int)(0x0a)))
{
i_1++;
continue;
}
if (buf[i_1] == unchecked((int)(0x0a)) && i_1 + 1 < buf.Length)
{
if (buf[i_1 + 1] == unchecked((int)(0x0a)))
{
i_1 += 2;
break;
}
if (buf[i_1 + 1] == unchecked((int)(0x0d)) && i_1 + 2 < buf.Length && buf[i_1 + 2
] == unchecked((int)(0x0a)))
{
i_1 += 3;
break;
}
bool inheader = false;
for (int j = i_1 + 1; j < buf.Length; j++)
{
if (buf[j] == unchecked((int)(0x0a)))
{
break;
}
//if(buf[j]==0x0d) break;
if (buf[j] == ':')
{
inheader = true;
break;
}
}
if (!inheader)
{
i_1++;
encrypted = false;
// no passphrase
break;
}
}
i_1++;
}
if (type == ERROR)
{
throw new JSchException("invalid privatekey: " + prvkey);
}
int start = i_1;
while (i_1 < len)
{
if (buf[i_1] == unchecked((int)(0x0a)))
{
bool xd = (buf[i_1 - 1] == unchecked((int)(0x0d)));
System.Array.Copy(buf, i_1 + 1, buf, i_1 - (xd ? 1 : 0), len - i_1 - 1 - (xd ? 1 :
0));
if (xd)
{
len--;
}
len--;
continue;
}
if (buf[i_1] == '-')
{
break;
}
i_1++;
}
data = Util.FromBase64(buf, start, i_1 - start);
if (data.Length > 4 && data[0] == unchecked((byte)unchecked((int)(0x3f))) && data
[1] == unchecked((byte)unchecked((int)(0x6f))) && data[2] == unchecked((byte)unchecked(
(int)(0xf9))) && data[3] == unchecked((byte)unchecked((int)(0xeb))))
{
// FSecure
Buffer _buf = new Buffer(data);
_buf.GetInt();
// 0x3f6ff9be
_buf.GetInt();
byte[] _type = _buf.GetString();
//System.err.println("type: "+new String(_type));
byte[] _cipher = _buf.GetString();
string cipher = Util.Byte2str(_cipher);
//System.err.println("cipher: "+cipher);
if (cipher.Equals("3des-cbc"))
{
_buf.GetInt();
byte[] foo = new byte[data.Length - _buf.GetOffSet()];
_buf.GetByte(foo);
data = foo;
encrypted = true;
throw new JSchException("unknown privatekey format: " + prvkey);
}
else
{
if (cipher.Equals("none"))
{
_buf.GetInt();
_buf.GetInt();
encrypted = false;
byte[] foo = new byte[data.Length - _buf.GetOffSet()];
_buf.GetByte(foo);
data = foo;
}
}
}
if (pubkey != null)
{
try
{
file = new FilePath(pubkey);
fis = new FileInputStream(pubkey);
buf = new byte[(int)(file.Length())];
len = 0;
while (true)
{
i_1 = fis.Read(buf, len, buf.Length - len);
if (i_1 <= 0)
{
break;
}
len += i_1;
}
fis.Close();
if (buf.Length > 4 && buf[0] == '-' && buf[1] == '-' && buf[2] == '-' && buf[3] ==
'-')
{
// FSecure's public key
bool valid = true;
i_1 = 0;
do
{
i_1++;
}
while (buf.Length > i_1 && buf[i_1] != unchecked((int)(0x0a)));
if (buf.Length <= i_1)
{
valid = false;
}
while (valid)
{
if (buf[i_1] == unchecked((int)(0x0a)))
{
bool inheader = false;
for (int j = i_1 + 1; j < buf.Length; j++)
{
if (buf[j] == unchecked((int)(0x0a)))
{
break;
}
if (buf[j] == ':')
{
inheader = true;
break;
}
}
if (!inheader)
{
i_1++;
break;
}
}
i_1++;
}
if (buf.Length <= i_1)
{
valid = false;
}
start = i_1;
while (valid && i_1 < len)
{
if (buf[i_1] == unchecked((int)(0x0a)))
{
System.Array.Copy(buf, i_1 + 1, buf, i_1, len - i_1 - 1);
len--;
continue;
}
if (buf[i_1] == '-')
{
break;
}
i_1++;
}
if (valid)
{
publickeyblob = Util.FromBase64(buf, start, i_1 - start);
if (type == UNKNOWN)
{
if (publickeyblob[8] == 'd')
{
type = DSA;
}
else
{
if (publickeyblob[8] == 'r')
{
type = RSA;
}
}
}
}
}
else
{
if (buf[0] == 's' && buf[1] == 's' && buf[2] == 'h' && buf[3] == '-')
{
i_1 = 0;
while (i_1 < len)
{
if (buf[i_1] == ' ')
{
break;
}
i_1++;
}
i_1++;
if (i_1 < len)
{
start = i_1;
while (i_1 < len)
{
if (buf[i_1] == ' ')
{
break;
}
i_1++;
}
publickeyblob = Util.FromBase64(buf, start, i_1 - start);
}
}
}
}
catch (Exception)
{
}
}
}
catch (Exception e)
{
if (e is JSchException)
{
throw (JSchException)e;
}
if (e is Exception)
{
throw new JSchException(e.ToString(), (Exception)e);
}
throw new JSchException(e.ToString());
}
NSch.KeyPair kpair = null;
if (type == DSA)
{
kpair = new KeyPairDSA(jsch);
}
else
{
if (type == RSA)
{
kpair = new KeyPairRSA(jsch);
}
}
if (kpair != null)
{
kpair.encrypted = encrypted;
kpair.publickeyblob = publickeyblob;
kpair.vendor = vendor;
if (encrypted)
{
kpair.iv = iv;
kpair.data = data;
}
else
{
if (kpair.Parse(data))
{
return kpair;
}
else
{
throw new JSchException("invalid privatekey: " + prvkey);
}
}
}
return kpair;
}