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<html><head><title>Python: module gdata.tlslite.utils.PyCrypto_RSAKey</title>
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<font color="#ffffff" face="helvetica, arial"> <br><big><big><strong><a href="gdata.html"><font color="#ffffff">gdata</font></a>.<a href="gdata.tlslite.html"><font color="#ffffff">tlslite</font></a>.<a href="gdata.tlslite.utils.html"><font color="#ffffff">utils</font></a>.PyCrypto_RSAKey</strong></big></big></font></td
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><font color="#ffffff" face="helvetica, arial"><a href=".">index</a><br><a href="file:/usr/local/lib/python2.6/dist-packages/gdata/tlslite/utils/PyCrypto_RSAKey.py">/usr/local/lib/python2.6/dist-packages/gdata/tlslite/utils/PyCrypto_RSAKey.py</a></font></td></tr></table>
<p><tt>PyCrypto RSA implementation.</tt></p>
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<font color="#ffffff" face="helvetica, arial"><big><strong>Modules</strong></big></font></td></tr>
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<td width="100%"><table width="100%" summary="list"><tr><td width="25%" valign=top><a href="Crypto.html">Crypto</a><br>
<a href="Crypto.PublicKey.RSA.html">Crypto.PublicKey.RSA</a><br>
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<td width="100%"><dl>
<dt><font face="helvetica, arial"><a href="gdata.tlslite.utils.RSAKey.html#RSAKey">gdata.tlslite.utils.RSAKey.RSAKey</a>
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<dt><font face="helvetica, arial"><a href="gdata.tlslite.utils.PyCrypto_RSAKey.html#PyCrypto_RSAKey">PyCrypto_RSAKey</a>
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<font color="#000000" face="helvetica, arial"><a name="PyCrypto_RSAKey">class <strong>PyCrypto_RSAKey</strong></a>(<a href="gdata.tlslite.utils.RSAKey.html#RSAKey">gdata.tlslite.utils.RSAKey.RSAKey</a>)</font></td></tr>
<tr><td bgcolor="#ffc8d8"><tt> </tt></td><td> </td>
<td width="100%">Methods defined here:<br>
<dl><dt><a name="PyCrypto_RSAKey-__getattr__"><strong>__getattr__</strong></a>(self, name)</dt></dl>
<dl><dt><a name="PyCrypto_RSAKey-__init__"><strong>__init__</strong></a>(self, n<font color="#909090">=0</font>, e<font color="#909090">=0</font>, d<font color="#909090">=0</font>, p<font color="#909090">=0</font>, q<font color="#909090">=0</font>, dP<font color="#909090">=0</font>, dQ<font color="#909090">=0</font>, qInv<font color="#909090">=0</font>)</dt></dl>
<dl><dt><a name="PyCrypto_RSAKey-hasPrivateKey"><strong>hasPrivateKey</strong></a>(self)</dt></dl>
<dl><dt><a name="PyCrypto_RSAKey-hash"><strong>hash</strong></a>(self)</dt></dl>
<dl><dt><a name="PyCrypto_RSAKey-writeXMLPublicKey"><strong>writeXMLPublicKey</strong></a>(self, indent<font color="#909090">=''</font>)</dt></dl>
<hr>
Static methods defined here:<br>
<dl><dt><a name="PyCrypto_RSAKey-generate"><strong>generate</strong></a>(bits)</dt></dl>
<hr>
Methods inherited from <a href="gdata.tlslite.utils.RSAKey.html#RSAKey">gdata.tlslite.utils.RSAKey.RSAKey</a>:<br>
<dl><dt><a name="PyCrypto_RSAKey-__len__"><strong>__len__</strong></a>(self)</dt><dd><tt>Return the length of this key in bits.<br>
<br>
@rtype: int</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-acceptsPassword"><strong>acceptsPassword</strong></a>(self)</dt><dd><tt>Return True if the <a href="#PyCrypto_RSAKey-write">write</a>() method accepts a password for use<br>
in encrypting the private key.<br>
<br>
@rtype: bool</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-decrypt"><strong>decrypt</strong></a>(self, encBytes)</dt><dd><tt>Decrypt the passed-in bytes.<br>
<br>
This requires the key to have a private component. It performs<br>
PKCS1 decryption of the passed-in data.<br>
<br>
@type encBytes: L{array.array} of unsigned bytes<br>
@param encBytes: The value which will be decrypted.<br>
<br>
@rtype: L{array.array} of unsigned bytes or None.<br>
@return: A PKCS1 decryption of the passed-in data or None if<br>
the data is not properly formatted.</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-encrypt"><strong>encrypt</strong></a>(self, bytes)</dt><dd><tt>Encrypt the passed-in bytes.<br>
<br>
This performs PKCS1 encryption of the passed-in data.<br>
<br>
@type bytes: L{array.array} of unsigned bytes<br>
@param bytes: The value which will be encrypted.<br>
<br>
@rtype: L{array.array} of unsigned bytes.<br>
@return: A PKCS1 encryption of the passed-in data.</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-getSigningAlgorithm"><strong>getSigningAlgorithm</strong></a>(self)</dt><dd><tt>Return the cryptoID sigAlgo value corresponding to this key.<br>
<br>
@rtype: str</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-hashAndSign"><strong>hashAndSign</strong></a>(self, bytes)</dt><dd><tt>Hash and sign the passed-in bytes.<br>
<br>
This requires the key to have a private component. It performs<br>
a PKCS1-SHA1 signature on the passed-in data.<br>
<br>
@type bytes: str or L{array.array} of unsigned bytes<br>
@param bytes: The value which will be hashed and signed.<br>
<br>
@rtype: L{array.array} of unsigned bytes.<br>
@return: A PKCS1-SHA1 signature on the passed-in data.</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-hashAndVerify"><strong>hashAndVerify</strong></a>(self, sigBytes, bytes)</dt><dd><tt>Hash and verify the passed-in bytes with the signature.<br>
<br>
This verifies a PKCS1-SHA1 signature on the passed-in data.<br>
<br>
@type sigBytes: L{array.array} of unsigned bytes<br>
@param sigBytes: A PKCS1-SHA1 signature.<br>
<br>
@type bytes: str or L{array.array} of unsigned bytes<br>
@param bytes: The value which will be hashed and verified.<br>
<br>
@rtype: bool<br>
@return: Whether the signature matches the passed-in data.</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-sign"><strong>sign</strong></a>(self, bytes)</dt><dd><tt>Sign the passed-in bytes.<br>
<br>
This requires the key to have a private component. It performs<br>
a PKCS1 signature on the passed-in data.<br>
<br>
@type bytes: L{array.array} of unsigned bytes<br>
@param bytes: The value which will be signed.<br>
<br>
@rtype: L{array.array} of unsigned bytes.<br>
@return: A PKCS1 signature on the passed-in data.</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-verify"><strong>verify</strong></a>(self, sigBytes, bytes)</dt><dd><tt>Verify the passed-in bytes with the signature.<br>
<br>
This verifies a PKCS1 signature on the passed-in data.<br>
<br>
@type sigBytes: L{array.array} of unsigned bytes<br>
@param sigBytes: A PKCS1 signature.<br>
<br>
@type bytes: L{array.array} of unsigned bytes<br>
@param bytes: The value which will be verified.<br>
<br>
@rtype: bool<br>
@return: Whether the signature matches the passed-in data.</tt></dd></dl>
<dl><dt><a name="PyCrypto_RSAKey-write"><strong>write</strong></a>(self, password<font color="#909090">=None</font>)</dt><dd><tt>Return a string containing the key.<br>
<br>
@rtype: str<br>
@return: A string describing the key, in whichever format (PEM<br>
or XML) is native to the implementation.</tt></dd></dl>
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<font color="#ffffff" face="helvetica, arial"><big><strong>Functions</strong></big></font></td></tr>
<tr><td bgcolor="#eeaa77"><tt> </tt></td><td> </td>
<td width="100%"><dl><dt><a name="-sha1"><strong>sha1</strong></a> = openssl_sha1(...)</dt><dd><tt>Returns a sha1 hash object; optionally initialized with a string</tt></dd></dl>
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<font color="#ffffff" face="helvetica, arial"><big><strong>Data</strong></big></font></td></tr>
<tr><td bgcolor="#55aa55"><tt> </tt></td><td> </td>
<td width="100%"><strong>cryptlibpyLoaded</strong> = False<br>
<strong>gmpyLoaded</strong> = False<br>
<strong>m2cryptoLoaded</strong> = False<br>
<strong>prngName</strong> = 'os.urandom'<br>
<strong>pycryptoLoaded</strong> = True<br>
<strong>sieve</strong> = [2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, ...]</td></tr></table>
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