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#!/usr/bin/env python
#
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.

"""
Reads a key specification from stdin or a file and outputs a
PKCS #8 file representing the (private) key. Also provides
methods for signing data and representing the key as a subject
public key info for use with pyasn1.

The key specification format is as follows:

default: a 2048-bit RSA key
alternate: a different 2048-bit RSA key
ev: a 2048-bit RSA key that, when combined with the right pycert
    specification, results in a certificate that is enabled for
    extended validation in debug Firefox (see ExtendedValidation.cpp).
evRSA2040: a 2040-bit RSA key that, when combined with the right pycert
           specification, results in a certificate that is enabled for
           extended validation in debug Firefox.
rsa2040: a 2040-bit RSA key
rsa1024: a 1024-bit RSA key
rsa1016: a 1016-bit RSA key
secp256k1: an ECC key on the curve secp256k1
secp244r1: an ECC key on the curve secp244r1
secp256r1: an ECC key on the curve secp256r1
secp384r1: an ECC key on the curve secp384r1
secp521r1: an ECC key on the curve secp521r1
"""

from pyasn1.codec.der import encoder
from pyasn1.type import univ, namedtype, tag
from pyasn1_modules import rfc2459
from ecc import encoding
from ecc import Key
import base64
import binascii
import mock
import rsa
import sys

# "constants" to make it easier for consumers to specify hash algorithms
HASH_MD5 = 'hash:md5'
HASH_SHA1 = 'hash:sha1'
HASH_SHA256 = 'hash:sha256'
HASH_SHA384 = 'hash:sha384'
HASH_SHA512 = 'hash:sha512'


def byteStringToHexifiedBitString(string):
    """Takes a string of bytes and returns a hex string representing
    those bytes for use with pyasn1.type.univ.BitString. It must be of
    the form "'<hex bytes>'H", where the trailing 'H' indicates to
    pyasn1 that the input is a hex string."""
    return "'%s'H" % binascii.hexlify(string)


class UnknownBaseError(Exception):
    """Base class for handling unexpected input in this module."""

    def __init__(self, value):
        super(UnknownBaseError, self).__init__()
        self.value = value
        self.category = 'input'

    def __str__(self):
        return 'Unknown %s type "%s"' % (self.category, repr(self.value))


class UnknownKeySpecificationError(UnknownBaseError):
    """Helper exception type to handle unknown key specifications."""

    def __init__(self, value):
        UnknownBaseError.__init__(self, value)
        self.category = 'key specification'


class UnknownHashAlgorithmError(UnknownBaseError):
    """Helper exception type to handle unknown key specifications."""

    def __init__(self, value):
        UnknownBaseError.__init__(self, value)
        self.category = 'hash algorithm'


class UnsupportedHashAlgorithmError(Exception):
    """Helper exception type for unsupported hash algorithms."""

    def __init__(self, value):
        super(UnsupportedHashAlgorithmError, self).__init__()
        self.value = value

    def __str__(self):
        return 'Unsupported hash algorithm "%s"' % repr(self.value)


class RSAPublicKey(univ.Sequence):
    """Helper type for encoding an RSA public key"""
    componentType = namedtype.NamedTypes(
        namedtype.NamedType('N', univ.Integer()),
        namedtype.NamedType('E', univ.Integer()))


class RSAPrivateKey(univ.Sequence):
    """Helper type for encoding an RSA private key"""
    componentType = namedtype.NamedTypes(
        namedtype.NamedType('version', univ.Integer()),
        namedtype.NamedType('modulus', univ.Integer()),
        namedtype.NamedType('publicExponent', univ.Integer()),
        namedtype.NamedType('privateExponent', univ.Integer()),
        namedtype.NamedType('prime1', univ.Integer()),
        namedtype.NamedType('prime2', univ.Integer()),
        namedtype.NamedType('exponent1', univ.Integer()),
        namedtype.NamedType('exponent2', univ.Integer()),
        namedtype.NamedType('coefficient', univ.Integer()),
    )


class ECPrivateKey(univ.Sequence):
    """Helper type for encoding an EC private key
        ECPrivateKey ::= SEQUENCE {
            version        INTEGER { ecPrivkeyVer1(1) } (ecPrivkeyVer1),
            privateKey     OCTET STRING,
            parameters [0] ECParameters {{ NamedCurve }} OPTIONAL,
                            (NOTE: parameters field is not supported)
            publicKey  [1] BIT STRING OPTIONAL
        }"""
    componentType = namedtype.NamedTypes(
        namedtype.NamedType('version', univ.Integer()),
        namedtype.NamedType('privateKey', univ.OctetString()),
        namedtype.OptionalNamedType('publicKey', univ.BitString().subtype(
            explicitTag=tag.Tag(tag.tagClassContext, tag.tagFormatSimple, 1)))
    )


class ECPoint(univ.Sequence):
    """Helper type for encoding a EC point"""
    componentType = namedtype.NamedTypes(
        namedtype.NamedType('x', univ.Integer()),
        namedtype.NamedType('y', univ.Integer())
    )


class PrivateKeyInfo(univ.Sequence):
    """Helper type for encoding a PKCS #8 private key info"""
    componentType = namedtype.NamedTypes(
        namedtype.NamedType('version', univ.Integer()),
        namedtype.NamedType('privateKeyAlgorithm', rfc2459.AlgorithmIdentifier()),
        namedtype.NamedType('privateKey', univ.OctetString())
    )


class RSAKey(object):
    # For reference, when encoded as a subject public key info, the
    # base64-encoded sha-256 hash of this key is
    # VCIlmPM9NkgFQtrs4Oa5TeFcDu6MWRTKSNdePEhOgD8=
    sharedRSA_N = long(
        '00ba8851a8448e16d641fd6eb6880636103d3c13d9eae4354ab4ecf56857'
        '6c247bc1c725a8e0d81fbdb19c069b6e1a86f26be2af5a756b6a6471087a'
        'a55aa74587f71cd5249c027ecd43fc1e69d038202993ab20c349e4dbb94c'
        'c26b6c0eed15820ff17ead691ab1d3023a8b2a41eea770e00f0d8dfd660b'
        '2bb02492a47db988617990b157903dd23bc5e0b8481fa837d38843ef2716'
        'd855b7665aaa7e02902f3a7b10800624cc1c6c97ad96615bb7e29612c075'
        '31a30c91ddb4caf7fcad1d25d309efb9170ea768e1b37b2f226f69e3b48a'
        '95611dee26d6259dab91084e36cb1c24042cbf168b2fe5f18f991731b8b3'
        'fe4923fa7251c431d503acda180a35ed8d', 16)
    sharedRSA_E = 65537L
    sharedRSA_D = long(
        '009ecbce3861a454ecb1e0fe8f85dd43c92f5825ce2e997884d0e1a949da'
        'a2c5ac559b240450e5ac9fe0c3e31c0eefa6525a65f0c22194004ee1ab46'
        '3dde9ee82287cc93e746a91929c5e6ac3d88753f6c25ba5979e73e5d8fb2'
        '39111a3cdab8a4b0cdf5f9cab05f1233a38335c64b5560525e7e3b92ad7c'
        '7504cf1dc7cb005788afcbe1e8f95df7402a151530d5808346864eb370aa'
        '79956a587862cb533791307f70d91c96d22d001a69009b923c683388c9f3'
        '6cb9b5ebe64302041c78d908206b87009cb8cabacad3dbdb2792fb911b2c'
        'f4db6603585be9ae0ca3b8e6417aa04b06e470ea1a3b581ca03a6781c931'
        '5b62b30e6011f224725946eec57c6d9441', 16)
    sharedRSA_P = long(
        '00dd6e1d4fffebf68d889c4d114cdaaa9caa63a59374286c8a5c29a717bb'
        'a60375644d5caa674c4b8bc7326358646220e4550d7608ac27d55b6db74f'
        '8d8127ef8fa09098b69147de065573447e183d22fe7d885aceb513d9581d'
        'd5e07c1a90f5ce0879de131371ecefc9ce72e9c43dc127d238190de81177'
        '3ca5d19301f48c742b', 16)
    sharedRSA_Q = long(
        '00d7a773d9ebc380a767d2fec0934ad4e8b5667240771acdebb5ad796f47'
        '8fec4d45985efbc9532968289c8d89102fadf21f34e2dd4940eba8c09d6d'
        '1f16dcc29729774c43275e9251ddbe4909e1fd3bf1e4bedf46a39b8b3833'
        '28ef4ae3b95b92f2070af26c9e7c5c9b587fedde05e8e7d86ca57886fb16'
        '5810a77b9845bc3127', 16)
    sharedRSA_exp1 = long(
        '0096472b41a610c0ade1af2266c1600e3671355ba42d4b5a0eb4e9d7eb35'
        '81400ba5dd132cdb1a5e9328c7bbc0bbb0155ea192972edf97d12751d8fc'
        'f6ae572a30b1ea309a8712dd4e33241db1ee455fc093f5bc9b592d756e66'
        '21474f32c07af22fb275d340792b32ba2590bbb261aefb95a258eea53765'
        '5315be9c24d191992d', 16)
    sharedRSA_exp2 = long(
        '28b450a7a75a856413b2bda6f7a63e3d964fb9ecf50e3823ef6cc8e8fa26'
        'ee413f8b9d1205540f12bbe7a0c76828b7ba65ad83cca4d0fe2a220114e1'
        'b35d03d5a85bfe2706bd50fce6cfcdd571b46ca621b8ed47d605bbe765b0'
        'aa4a0665ac25364da20154032e1204b8559d3e34fb5b177c9a56ff93510a'
        '5a4a6287c151de2d', 16)
    sharedRSA_coef = long(
        '28067b9355801d2ef52dfa96d8adb589673cf8ee8a9c6ff72aeeabe9ef6b'
        'e58a4f4abf05f788947dc851fdaa34542147a71a246bfb054ee76aa346ab'
        'cd2692cfc9e44c51e6f069c735e073ba019f6a7214961c91b26871caeabf'
        '8f064418a02690e39a8d5ff3067b7cdb7f50b1f53418a703966c4fc774bf'
        '7402af6c43247f43', 16)

    # For reference, when encoded as a subject public key info, the
    # base64-encoded sha-256 hash of this key is
    # MQj2tt1yGAfwFpWETYUCVrZxk2CD2705NKBQUlAaKJI=
    alternateRSA_N = long(
        '00c175c65266099f77082a6791f1b876c37f5ce538b06c4acd22b1cbd46f'
        'a65ada2add41c8c2498ac4a3b3c1f61487f41b698941bd80a51c3c120244'
        'c584a4c4483305e5138c0106cf08be9a862760bae6a2e8f36f23c5d98313'
        'b9dfaf378345dace51d4d6dcd2a6cb3cc706ebcd3070ec98cce40aa591d7'
        '295a7f71c5be66691d2b2dfec84944590bc5a3ea49fd93b1d753405f1773'
        '7699958666254797ed426908880811422069988a43fee48ce68781dd22b6'
        'a69cd28375131f932b128ce286fa7d251c062ad27ef016f187cdd54e832b'
        '35b8930f74ba90aa8bc76167242ab1fd6d62140d18c4c0b8c68fc3748457'
        '324ad7de86e6552f1d1e191d712168d3bb', 16)
    alternateRSA_E = 65537L
    alternateRSA_D = long(
        '7e3f6d7cb839ef66ae5d7dd92ff5410bb341dc14728d39034570e1a37079'
        '0f30f0681355fff41e2ad4e9a9d9fcebfbd127bdfab8c00affb1f3cea732'
        '7ead47aa1621f2ac1ee14ca02f04b3b2786017980b181a449d03b03e69d1'
        '12b83571e55434f012056575d2832ed6731dce799e37c83f6d51c55ab71e'
        'b58015af05e1af15c747603ef7f27d03a6ff049d96bbf854c1e4e50ef5b0'
        '58d0fb08180e0ac7f7be8f2ff1673d97fc9e55dba838077bbf8a7cff2962'
        '857785269cd9d5bad2b57469e4afcd33c4ca2d2f699f11e7c8fbdcd484f0'
        '8d8efb8a3cb8a972eb24bed972efaae4bb712093e48fe94a46eb629a8750'
        '78c4021a9a2c93c9a70390e9d0a54401', 16)
    alternateRSA_P = long(
        '00e63fc725a6ba76925a7ff8cb59c4f56dd7ec83fe85bf1f53e11cac9a81'
        '258bcfc0ae819077b0f2d1477aaf868de6a8ecbeaf7bb22b196f2a9ad82d'
        '3286f0d0cc29de719e5f2be8e509b7284d5963edd362f927887a4c4a8979'
        '9d340d51b301ac7601ab27179024fcaadd38bf6522af63eb16461ec02a7f'
        '27b06fe09ddda7c0a1', 16)
    alternateRSA_Q = long(
        '00d718b1fe9f8f99f00e832ae1fbdc6fe2ab27f34e049c498010fa0eb708'
        '4852182346083b5c96c3eee5592c014a410c6b930b165c13b5c26aa32eac'
        '6e7c925a8551c25134f2f4a72c6421f19a73148a0edfaba5d3a6888b35cb'
        'a18c00fd38ee5aaf0b545731d720761bbccdee744a52ca415e98e4de01cd'
        'fe764c1967b3e8cadb', 16)
    alternateRSA_exp1 = long(
        '01e5aca266c94a88d22e13c2b92ea247116c657a076817bdfd30db4b3a9d'
        '3095b9a4b6749647e2f84e7a784fc7838b08c85971cf7a036fa30e3b91c3'
        'c4d0df278f80c1b6e859d8456adb137defaa9f1f0ac5bac9a9184fd4ea27'
        '9d722ea626f160d78aad7bc83845ccb29df115c83f61b7622b99bd439c60'
        '9b5790a63c595181', 16)
    alternateRSA_exp2 = long(
        '0080cc45d10d2484ee0d1297fc07bf80b3beff461ea27e1f38f371789c3a'
        'f66b4a0edd2192c227791db4f1c77ae246bf342f31856b0f56581b58a95b'
        '1131c0c5396db2a8c3c6f39ea2e336bc205ae6a2a0b36869fca98cbba733'
        'cf01319a6f9bb26b7ca23d3017fc551cd8da8afdd17f6fa2e30d34868798'
        '1cd6234d571e90b7df', 16)
    alternateRSA_coef = long(
        '6f77c0c1f2ae7ac169561cca499c52bdfbe04cddccdbdc12aec5a85691e8'
        '594b7ee29908f30e7b96aa6254b80ed4aeec9b993782bdfc79b69d8d58c6'
        '8870fa4be1bc0c3527288c5c82bb4aebaf15edff110403fc78e6ace6a828'
        '27bf42f0cfa751e507651c5638db9393dd23dd1f6b295151de44b77fe55a'
        '7b0df271e19a65c0', 16)

    evRSA_N = long(
        '00b549895c9d00108d11a1f99f87a9e3d1a5db5dfaecf188da57bf641368'
        '8f2ce4722cff109038c17402c93a2a473dbd286aed3fdcd363cf5a291477'
        '01bdd818d7615bf9356bd5d3c8336aaa8c0971368a06c3cd4461b93e5142'
        '4e1744bb2eaad46aab38ce196821961f87714a1663693f09761cdf4d6ba1'
        '25eacec7be270d388f789f6cdf78ae3144ed28c45e79293863a7a22a4898'
        '0a36a40e72d579c9b925dff8c793362ffd6897a7c1754c5e97c967c3eadd'
        '1aae8aa2ccce348a0169b80e28a2d70c1a960c6f335f2da09b9b643f5abf'
        'ba49e8aaa981e960e27d87480bdd55dd9417fa18509fbb554ccf81a4397e'
        '8ba8128a34bdf27865c189e5734fb22905', 16)
    evRSA_E = 65537L
    evRSA_D = long(
        '00983d54f94d6f4c76eb23d6f93d78523530cf73b0d16254c6e781768d45'
        'f55681d1d02fb2bd2aac6abc1c389860935c52a0d8f41482010394778314'
        '1d864bff30803638a5c0152570ae9d18f3d8ca163efb475b0dddf32e7e16'
        'ec7565e6bb5e025c41c5c66e57a03cede554221f83045347a2c4c451c3dc'
        'e476b787ce0c057244be9e04ef13118dbbb3d5e0a6cc87029eafd4a69ed9'
        'b14759b15e39d8a9884e56f54d2f9ab013f0d15f318a9ab6b2f73d1ec3c9'
        'fe274ae89431a10640be7899b0011c5e5093a1834708689de100634dabde'
        '60fbd6aaefa3a33df34a1f36f60c043036b748d1c9ee98c4031a0afec60e'
        'fda0a990be524f5614eac4fdb34a52f951', 16)
    evRSA_P = long(
        '00eadc2cb33e5ff1ca376bbd95bd6a1777d2cf4fac47545e92d11a6209b9'
        'd5e4ded47834581c169b3c884742a09ea187505c1ca55414d8d25b497632'
        'd5ec2aaa05233430fad49892777a7d68e038f561a3b8969e60b0a263defb'
        'fda48a9b0ff39d95bc88b15267c8ade97b5107948e41e433249d87f7db10'
        '9d5d74584d86bcc1d7', 16)
    evRSA_Q = long(
        '00c59ae576a216470248d944a55b9e9bf93299da341ec56e558eba821abc'
        'e1bf57b79cf411d2904c774f9dba1f15185f607b0574a08205d6ec28b66a'
        '36d634232eaaf2fea37561abaf9d644b68db38c9964cb8c96ec0ac61eba6'
        '4d05b446542f423976f5acde4ecc95536d2df578954f93f0cfd9c58fb78b'
        'a2a76dd5ac284dc883', 16)
    evRSA_exp1 = long(
        '00c1d2ef3906331c52aca64811f9fe425beb2898322fb3db51032ce8d7e9'
        'fc32240be92019cf2480fcd5e329837127118b2a59a1bfe06c883e3a4447'
        'f3f031cd9aebd0b8d368fc79740d2cce8eadb324df7f091eafe1564361d5'
        '4920b01b0471230e5e47d93f8ed33963c517bc4fc78f6d8b1f9eba85bcce'
        'db7033026508db6285', 16)
    evRSA_exp2 = long(
        '008521b8db5694dfbe804a315f9efc9b65275c5490acf2a3456d65e6e610'
        'bf9f647fc67501d4f5772f232ac70ccdef9fc2a6dfa415c7c41b6afc7af9'
        'd07c3ca03f7ed93c09f0b99f2c304434322f1071709bbc1baa4c91575fa6'
        'a959e07d4996956d95e22b57938b6e47c8d51ffedfc9bf888ce0d1a3e42b'
        '65a89bed4b91d3e5f5', 16)
    evRSA_coef = long(
        '00dc497b06b920c8be0b0077b798e977eef744a90ec2c5d7e6cbb22448fa'
        'c72da81a33180e0d8a02e831460c7fc7fd3a612f7b9930b61b799f8e908e'
        '632e9ba0409b6aa70b03a3ba787426263b5bd5843df8476edb5d14f6a861'
        '3ebaf5b9cd5ca42f5fbd2802e08e4e49e5709f5151510caa5ab2c1c6eb3e'
        'fe9295d16e8c25c916', 16)

    evRSA2040_N = long(
        '00ca7020dc215f57914d343fae4a015111697af997a5ece91866499fc23f'
        '1b88a118cbd30b10d91c7b9a0d4ee8972fcae56caf57f25fc1275a2a4dbc'
        'b982428c32ef587bf2387410330a0ffb16b8029bd783969ef675f6de38c1'
        '8f67193cb6c072f8b23d0b3374112627a57b90055771d9e62603f53788d7'
        'f63afa724f5d108096df31f89f26b1eb5f7c4357980e008fcd55d827dd26'
        '2395ca2f526a07897cc40c593b38716ebc0caa596719c6f29ac9b73a7a94'
        '4748a3aa3e09e9eb4d461ea0027e540926614728b9d243975cf9a0541bef'
        'd25e76b51f951110b0e7644fc7e38441791b6d2227384cb8004e23342372'
        'b1cf5cc3e73e31b7bbefa160e6862ebb', 16)
    evRSA2040_E = 65537L
    evRSA2040_D = long(
        '00b2db74bce92362abf72955a638ae8720ba3033bb7f971caf39188d7542'
        'eaa1c1abb5d205b1e2111f4791c08911a2e141e8cfd7054702d23100b564'
        '2c06e1a31b118afd1f9a2f396cced425c501d91435ca8656766ced2b93bb'
        'b8669fce9bacd727d1dacb3dafabc3293e35389eef8ea0b58e1aeb1a20e6'
        'a61f9fcd453f7567fe31d123b616a26fef4df1d6c9f7490111d028eefd1d'
        '972045b1a242273dd7a67ebf111db2741a5a93c7b2289cc4a236f5a99a6e'
        'c7a8206fdae1c1d04bdbb1980d4a298c5a17dae4186474a5f7835d882bce'
        'f24aef4ed6f149f94d96c9f7d78e647fc778a9017ff208d3b4a1768b1821'
        '62102cdab032fabbab38d5200a324649', 16)
    evRSA2040_P = long(
        '0f3844d0d4d4d6a21acd76a6fc370b8550e1d7ec5a6234172e790f0029ae'
        '651f6d5c59330ab19802b9d7a207de7a1fb778e3774fdbdc411750633d8d'
        '1b3fe075006ffcfd1d10e763c7a9227d2d5f0c2dade1c9e659c350a159d3'
        '6bb986f12636d4f9942b288bc0fe21da8799477173144249ca2e389e6c5c'
        '25aa78c8cad7d4df', 16)
    evRSA2040_Q = long(
        '0d4d0bedd1962f07a1ead6b23a4ed67aeaf1270f052a6d29ba074945c636'
        '1a5c4f8f07bf859e067aed3f4e6e323ef2aa8a6acd340b0bdc7cfe4fd329'
        'e3c97f870c7f7735792c6aa9d0f7e7542a28ed6f01b0e55a2b8d9c24a65c'
        '6da314c95484f5c7c3954a81bb016b07ed17ee9b06039695bca059a79f8d'
        'c2423d328d5265a5', 16)
    evRSA2040_exp1 = long(
        '09f29a2ff05be8a96d614ba31b08935420a86c6bc42b99a6692ea0da5763'
        'f01e596959b7ddce73ef9c2e4f6e5b40710887500d44ba0c3cd3132cba27'
        '475f39c2df7552e2d123a2497a4f97064028769a48a3624657f72bf539f3'
        'd0de234feccd3be8a0aa90c6bf6e9b0bed43070a24d061ff3ed1751a3ef2'
        'ff7f6b90b9dbd5fb', 16)
    evRSA2040_exp2 = long(
        '01a659e170cac120a03be1cf8f9df1caa353b03593bd7476e5853bd874c2'
        '87388601c6c341ce9d1d284a5eef1a3a669d32b816a5eaecd8b7844fe070'
        '64b9bca0c2b318d540277b3f7f1510d386bb36e03b04771e5d229e88893e'
        '13b753bfb94518bb638e2404bd6e6a993c1668d93fc0b82ff08aaf34347d'
        '3fe8397108c87ca5', 16)
    evRSA2040_coef = long(
        '040257c0d4a21c0b9843297c65652db66304fb263773d728b6abfa06d37a'
        'c0ca62c628023e09e37dc0a901e4ce1224180e2582a3aa4b6a1a7b98e2bd'
        '70077aec14ac8ab66a755c71e0fc102471f9bbc1b46a95aa0b645f2c38e7'
        '6450289619ea3f5e8ae61037bffcf8249f22aa4e76e2a01909f3feb290ce'
        '93edf57b10ebe796', 16)

    rsa2040_N = long(
        '00bac0652fdfbc0055882ffbaeaceec88fa2d083c297dd5d40664dd3d90f'
        '52f9aa02bd8a50fba16e0fd991878ef475f9b350d9f8e3eb2abd717ce327'
        'b09788531f13df8e3e4e3b9d616bb8a41e5306eed2472163161051180127'
        '6a4eb66f07331b5cbc8bcae7016a8f9b3d4f2ac4553c624cf5263bcb348e'
        '8840de6612870960a792191b138fb217f765cec7bff8e94f16b39419bf75'
        '04c59a7e4f79bd6d173e9c7bf3d9d2a4e73cc180b0590a73d584fb7fc9b5'
        '4fa544607e53fc685c7a55fd44a81d4142b6af51ea6fa6cea52965a2e8c5'
        'd84f3ca024d6fbb9b005b9651ce5d9f2ecf40ed404981a9ffc02636e311b'
        '095c6332a0c87dc39271b5551481774b', 16)
    rsa2040_E = 65537L
    rsa2040_D = long(
        '603db267df97555cbed86b8df355034af28f1eb7f3e7829d239bcc273a7c'
        '7a69a10be8f21f1b6c4b02c6bae3731c3158b5bbff4605f57ab7b7b2a0cb'
        'a2ec005a2db5b1ea6e0aceea5bc745dcd2d0e9d6b80d7eb0ea2bc08127bc'
        'e35fa50c42cc411871ba591e23ba6a38484a33eff1347f907ee9a5a92a23'
        '11bb0b435510020f78e3bb00099db4d1182928096505fcba84f3ca1238fd'
        '1eba5eea1f391bbbcc5424b168063fc17e1ca6e1912ccba44f9d0292308a'
        '1fedb80612529b39f59d0a3f8180b5ba201132197f93a5815ded938df8e7'
        'd93c9b15766588f339bb59100afda494a7e452d7dd4c9a19ce2ec3a33a18'
        'b20f0b4dade172bee19f26f0dcbe41', 16)
    rsa2040_P = long(
        '0ec3869cb92d406caddf7a319ab29448bc505a05913707873361fc5b986a'
        '499fb65eeb815a7e37687d19f128087289d9bb8818e7bcca502c4900ad9a'
        'ece1179be12ff3e467d606fc820ea8f07ac9ebffe2236e38168412028822'
        '3e42dbe68dfd972a85a6447e51695f234da7911c67c9ab9531f33df3b994'
        '32d4ee88c9a4efbb', 16)
    rsa2040_Q = long(
        '0ca63934549e85feac8e0f5604303fd1849fe88af4b7f7e1213283bbc7a2'
        'c2a509f9273c428c68de3db93e6145f1b400bd6d4a262614e9043ad362d4'
        'eba4a6b995399c8934a399912199e841d8e8dbff0489f69e663796730b29'
        '80530b31cb70695a21625ea2adccc09d930516fa872211a91e22dd89fd9e'
        'b7da8574b72235b1', 16)
    rsa2040_exp1 = long(
        '0d7d3a75e17f65f8a658a485c4095c10a4f66979e2b73bca9cf8ef21253e'
        '1facac6d4791f58392ce8656f88f1240cc90c29653e3100c6d7a38ed44b1'
        '63b339e5f3b6e38912126c69b3ceff2e5192426d9649b6ffca1abb75d2ba'
        '2ed6d9a26aa383c5973d56216ff2edb90ccf887742a0f183ac92c94cf187'
        '657645c7772d9ad7', 16)
    rsa2040_exp2 = long(
        '03f550194c117f24bea285b209058032f42985ff55acebe88b16df9a3752'
        '7b4e61dc91a68dbc9a645134528ce5f248bda2893c96cb7be79ee73996c7'
        'c22577f6c2f790406f3472adb3b211b7e94494f32c5c6fcc0978839fe472'
        '4c31b06318a2489567b4fca0337acb1b841227aaa5f6c74800a2306929f0'
        '2ce038bad943df41', 16)
    rsa2040_coef = long(
        '080a7dbfa8c2584814c71664c56eb62ce4caf16afe88d4499159d674774a'
        '3a3ecddf1256c02fc91525c527692422d0aba94e5c41ee12dc71bb66f867'
        '9fa17e096f28080851ba046eb31885c1414e8985ade599d907af17453d1c'
        'caea2c0d06443f8367a6be154b125e390ee0d90f746f08801dd3f5367f59'
        'fba2e5a67c05f375', 16)

    rsa1024_N = long(
        '00d3a97440101eba8c5df9503e6f935eb52ffeb3ebe9d0dc5cace26f973c'
        'a94cbc0d9c31d66c0c013bce9c82d0d480328df05fb6bcd7990a5312ddae'
        '6152ad6ee61c8c1bdd8663c68bd36224a9882ae78e89f556dfdbe6f51da6'
        '112cbfc27c8a49336b41afdb75321b52b24a7344d1348e646351a551c757'
        '1ccda0b8fe35f61a75', 16)
    rsa1024_E = 65537L
    rsa1024_D = long(
        '5b6708e185548fc07ff062dba3792363e106ff9177d60ee3227162391024'
        '1813f958a318f26db8b6a801646863ebbc69190d6c2f5e7723433e99666d'
        '76b3987892cd568f1f18451e8dc05477c0607ee348380ebb7f4c98d0c036'
        'a0260bc67b2dab46cbaa4ce87636d839d8fddcbae2da3e02e8009a21225d'
        'd7e47aff2f82699d', 16)
    rsa1024_P = long(
        '00fcdee570323e8fc399dbfc63d8c1569546fb3cd6886c628668ab1e1d0f'
        'ca71058febdf76d702970ad6579d80ac2f9521075e40ef8f3f39983bd819'
        '07e898bad3', 16)
    rsa1024_Q = long(
        '00d64801c955b4eb75fbae230faa8b28c9cc5e258be63747ff5ac8d2af25'
        '3e9f6d6ce03ea2eb13ae0eb32572feb848c32ca00743635374338fedacd8'
        'c5885f7897', 16)
    rsa1024_exp1 = long(
        '76c0526d5b1b28368a75d5d42a01b9a086e20b9310241e2cd2d0b166a278'
        'c694ff1e9d25d9193d47789b52bb0fa194de1af0b77c09007f12afdfeef9'
        '58d108c3', 16)
    rsa1024_exp2 = long(
        '008a41898d8b14217c4d782cbd15ef95d0a660f45ed09a4884f4e170367b'
        '946d2f20398b907896890e88fe17b54bd7febe133ebc7720c86fe0649cca'
        '7ca121e05f', 16)
    rsa1024_coef = long(
        '22db133445f7442ea2a0f582031ee214ff5f661972986f172651d8d6b4ec'
        '3163e99bff1c82fe58ec3d075c6d8f26f277020edb77c3ba821b9ba3ae18'
        'ff8cb2cb', 16)

    rsa1016_N = long(
        '00d29bb12fb84fddcd29b3a519cb66c43b8d8f8be545ba79384ce663ed03'
        'df75991600eb920790d2530cece544db99a71f05896a3ed207165534aa99'
        '057e47c47e3bc81ada6fa1e12e37268b5046a55268f9dad7ccb485d81a2e'
        '19d50d4f0b6854acaf6d7be69d9a083136e15afa8f53c1c8c84fc6077279'
        'dd0e55d7369a5bdd', 16)
    rsa1016_E = 65537L
    rsa1016_D = long(
        '3c4965070bf390c251d5a2c5277c5b5fd0bdee85cad7fe2b27982bb28511'
        '4a507004036ae1cf8ae54b25e4db39215abd7e903f618c2d8b2f08cc6cd1'
        '2dbccd72205e4945b6b3df389e5e43de0a148bb2c84e2431fdbe5920b044'
        'bb272f45ecff0721b7dfb60397fc613a9ea35c22300530cae8f9159c534d'
        'f3bf0910951901', 16)
    rsa1016_P = long(
        '0f9f17597c85b8051b9c69afb55ef576c996dbd09047d0ccde5b9d60ea5c'
        '67fe4fac67be803f4b6ac5a3f050f76b966fb14f5cf105761e5ade6dd960'
        'b183ba55', 16)
    rsa1016_Q = long(
        '0d7b637112ce61a55168c0f9c9386fb279ab40cba0d549336bba65277263'
        'aac782611a2c81d9b635cf78c40018859e018c5e9006d12e3d2ee6f346e7'
        '9fa43369', 16)
    rsa1016_exp1 = long(
        '09fd6c9a3ea6e91ae32070f9fc1c210ff9352f97be5d1eeb951bb39681e9'
        'dc5b672a532221b3d8900c9a9d99b9d0a4e102dc450ca1b87b0b1389de65'
        '16c0ae0d', 16)
    rsa1016_exp2 = long(
        '0141b832491b7dd4a83308920024c79cae64bd447df883bb4c5672a96bab'
        '48b7123b34f26324452cdceb17f21e570e347cbe2fd4c2d8f9910eac2cb6'
        'd895b8c9', 16)
    rsa1016_coef = long(
        '0458dd6aee18c88b2f9b81f1bc3075ae20dc1f9973d20724f20b06043d61'
        '47c8789d4a07ae88bc82c8438c893e017b13947f62e0b18958a31eb664b1'
        '9e64d3e0', 16)

    def __init__(self, specification):
        if specification == 'default':
            self.RSA_N = self.sharedRSA_N
            self.RSA_E = self.sharedRSA_E
            self.RSA_D = self.sharedRSA_D
            self.RSA_P = self.sharedRSA_P
            self.RSA_Q = self.sharedRSA_Q
            self.RSA_exp1 = self.sharedRSA_exp1
            self.RSA_exp2 = self.sharedRSA_exp2
            self.RSA_coef = self.sharedRSA_coef
        elif specification == 'alternate':
            self.RSA_N = self.alternateRSA_N
            self.RSA_E = self.alternateRSA_E
            self.RSA_D = self.alternateRSA_D
            self.RSA_P = self.alternateRSA_P
            self.RSA_Q = self.alternateRSA_Q
            self.RSA_exp1 = self.alternateRSA_exp1
            self.RSA_exp2 = self.alternateRSA_exp2
            self.RSA_coef = self.alternateRSA_coef
        elif specification == 'ev':
            self.RSA_N = self.evRSA_N
            self.RSA_E = self.evRSA_E
            self.RSA_D = self.evRSA_D
            self.RSA_P = self.evRSA_P
            self.RSA_Q = self.evRSA_Q
            self.RSA_exp1 = self.evRSA_exp1
            self.RSA_exp2 = self.evRSA_exp2
            self.RSA_coef = self.evRSA_coef
        elif specification == 'evRSA2040':
            self.RSA_N = self.evRSA2040_N
            self.RSA_E = self.evRSA2040_E
            self.RSA_D = self.evRSA2040_D
            self.RSA_P = self.evRSA2040_P
            self.RSA_Q = self.evRSA2040_Q
            self.RSA_exp1 = self.evRSA2040_exp1
            self.RSA_exp2 = self.evRSA2040_exp2
            self.RSA_coef = self.evRSA2040_coef
        elif specification == 'rsa2040':
            self.RSA_N = self.rsa2040_N
            self.RSA_E = self.rsa2040_E
            self.RSA_D = self.rsa2040_D
            self.RSA_P = self.rsa2040_P
            self.RSA_Q = self.rsa2040_Q
            self.RSA_exp1 = self.rsa2040_exp1
            self.RSA_exp2 = self.rsa2040_exp2
            self.RSA_coef = self.rsa2040_coef
        elif specification == 'rsa1024':
            self.RSA_N = self.rsa1024_N
            self.RSA_E = self.rsa1024_E
            self.RSA_D = self.rsa1024_D
            self.RSA_P = self.rsa1024_P
            self.RSA_Q = self.rsa1024_Q
            self.RSA_exp1 = self.rsa1024_exp1
            self.RSA_exp2 = self.rsa1024_exp2
            self.RSA_coef = self.rsa1024_coef
        elif specification == 'rsa1016':
            self.RSA_N = self.rsa1016_N
            self.RSA_E = self.rsa1016_E
            self.RSA_D = self.rsa1016_D
            self.RSA_P = self.rsa1016_P
            self.RSA_Q = self.rsa1016_Q
            self.RSA_exp1 = self.rsa1016_exp1
            self.RSA_exp2 = self.rsa1016_exp2
            self.RSA_coef = self.rsa1016_coef
        else:
            raise UnknownKeySpecificationError(specification)

    def toDER(self):
        privateKeyInfo = PrivateKeyInfo()
        privateKeyInfo['version'] = 0
        algorithmIdentifier = rfc2459.AlgorithmIdentifier()
        algorithmIdentifier['algorithm'] = rfc2459.rsaEncryption
        # Directly setting parameters to univ.Null doesn't currently work.
        nullEncapsulated = encoder.encode(univ.Null())
        algorithmIdentifier['parameters'] = univ.Any(nullEncapsulated)
        privateKeyInfo['privateKeyAlgorithm'] = algorithmIdentifier
        rsaPrivateKey = RSAPrivateKey()
        rsaPrivateKey['version'] = 0
        rsaPrivateKey['modulus'] = self.RSA_N
        rsaPrivateKey['publicExponent'] = self.RSA_E
        rsaPrivateKey['privateExponent'] = self.RSA_D
        rsaPrivateKey['prime1'] = self.RSA_P
        rsaPrivateKey['prime2'] = self.RSA_Q
        rsaPrivateKey['exponent1'] = self.RSA_exp1
        rsaPrivateKey['exponent2'] = self.RSA_exp2
        rsaPrivateKey['coefficient'] = self.RSA_coef
        rsaPrivateKeyEncoded = encoder.encode(rsaPrivateKey)
        privateKeyInfo['privateKey'] = univ.OctetString(rsaPrivateKeyEncoded)
        return encoder.encode(privateKeyInfo)

    def toPEM(self):
        output = '-----BEGIN PRIVATE KEY-----'
        der = self.toDER()
        b64 = base64.b64encode(der)
        while b64:
            output += '\n' + b64[:64]
            b64 = b64[64:]
        output += '\n-----END PRIVATE KEY-----\n'
        return output

    def asSubjectPublicKeyInfo(self):
        """Returns a subject public key info representing
        this key for use by pyasn1."""
        algorithmIdentifier = rfc2459.AlgorithmIdentifier()
        algorithmIdentifier['algorithm'] = rfc2459.rsaEncryption
        # Directly setting parameters to univ.Null doesn't currently work.
        nullEncapsulated = encoder.encode(univ.Null())
        algorithmIdentifier['parameters'] = univ.Any(nullEncapsulated)
        spki = rfc2459.SubjectPublicKeyInfo()
        spki['algorithm'] = algorithmIdentifier
        rsaKey = RSAPublicKey()
        rsaKey['N'] = univ.Integer(self.RSA_N)
        rsaKey['E'] = univ.Integer(self.RSA_E)
        subjectPublicKey = univ.BitString(byteStringToHexifiedBitString(encoder.encode(rsaKey)))
        spki['subjectPublicKey'] = subjectPublicKey
        return spki

    def sign(self, data, hashAlgorithm):
        """Returns a hexified bit string representing a
        signature by this key over the specified data.
        Intended for use with pyasn1.type.univ.BitString"""
        hashAlgorithmName = None
        if hashAlgorithm == HASH_MD5:
            hashAlgorithmName = "MD5"
        elif hashAlgorithm == HASH_SHA1:
            hashAlgorithmName = "SHA-1"
        elif hashAlgorithm == HASH_SHA256:
            hashAlgorithmName = "SHA-256"
        elif hashAlgorithm == HASH_SHA384:
            hashAlgorithmName = "SHA-384"
        elif hashAlgorithm == HASH_SHA512:
            hashAlgorithmName = "SHA-512"
        else:
            raise UnknownHashAlgorithmError(hashAlgorithm)
        rsaPrivateKey = rsa.PrivateKey(self.RSA_N, self.RSA_E, self.RSA_D, self.RSA_P, self.RSA_Q)
        signature = rsa.sign(data, rsaPrivateKey, hashAlgorithmName)
        return byteStringToHexifiedBitString(signature)


ecPublicKey = univ.ObjectIdentifier('1.2.840.10045.2.1')
secp256k1 = univ.ObjectIdentifier('1.3.132.0.10')
secp224r1 = univ.ObjectIdentifier('1.3.132.0.33')
secp256r1 = univ.ObjectIdentifier('1.2.840.10045.3.1.7')
secp384r1 = univ.ObjectIdentifier('1.3.132.0.34')
secp521r1 = univ.ObjectIdentifier('1.3.132.0.35')

# ecc.curves.DOMAINS uses a 5-tuple to define curves.
# The first number is p where F_p is the finite field of the curve.
# The second number is the order n of the base point G.
# The third number is the parameter b of the definition of the curve
#   E: y^2 = x^3 + ax + b (a in this case is 0)
# The fourth and fifth numbers constitute the base point G.
secp256k1Params = (long('fffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f', 16),
                   long('fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141', 16),
                   7,
                   long('79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798', 16),
                   long('483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8', 16))


def longToEvenLengthHexString(val):
    h = format(val, 'x')
    if not len(h) % 2 == 0:
        h = '0' + h
    return h


def notRandom(n):
    return n * '\x04'


class ECCKey(object):
    secp256k1Encoded = str('08fd87b04fba98090100004035ee7c7289d8fef7a8'
                           '6afe5da66d8bc2ebb6a8543fd2fead089f45ce7acd0fa64382a9500c41dad'
                           '770ffd4b511bf4b492eb1238800c32c4f76c73a3f3294e7c5002067cebc20'
                           '8a5fa3df16ec2bb34acc59a42ab4abb0538575ca99b92b6a2149a04f')

    secp224r1Encoded = str('0ee5587c4d18526f00e00038668d72cca6fd6a1b35'
                           '57b5366104d84408ecb637f08e8c86bbff82cc00e88f0066d7af63c3298ba'
                           '377348a1202b03b37fd6b1ff415aa311e001c04389459926c3296c242b83e'
                           '10a6cd2011c8fe2dae1b772ea5b21067')

    secp256r1Encoded = str('cb872ac99cd31827010000404fbfbbbb61e0f8f9b1'
                           'a60a59ac8704e2ec050b423e3cf72e923f2c4f794b455c2a69d233456c36c'
                           '4119d0706e00eedc8d19390d7991b7b2d07a304eaa04aa6c000202191403d'
                           '5710bf15a265818cd42ed6fedf09add92d78b18e7a1e9feb95524702')

    secp384r1Encoded = str('d3103f5ac81741e801800060a1687243362b5c7b18'
                           '89f379154615a1c73fb48dee863e022915db608e252de4b7132da8ce98e83'
                           '1534e6a9c0c0b09c8d639ade83206e5ba813473a11fa330e05da8c96e4383'
                           'fe27873da97103be2888cff002f05af71a1fddcc8374aa6ea9ce0030035c7'
                           'a1b10d9fafe837b64ad92f22f5ced0789186538669b5c6d872cec3d926122'
                           'b393772b57602ff31365efe1393246')

    secp521r1Encoded = str('77f4b0ac81948ddc02090084014cdc9cacc4794109'
                           '6bc9cc66752ec27f597734fa66c62b792f88c519d6d37f0d16ea1c483a182'
                           '7a010b9128e3a08070ca33ef5f57835b7c1ba251f6cc3521dc42b01065345'
                           '1981b445d343eed3782a35d6cff0ff484f5a883d209f1b9042b726703568b'
                           '2f326e18b833bdd8aa0734392bcd19501e10d698a79f53e11e0a22bdd2aad'
                           '900042014f3284fa698dd9fe1118dd331851cdfaac5a3829278eb8994839d'
                           'e9471c940b858c69d2d05e8c01788a7d0b6e235aa5e783fc1bee807dcc386'
                           '5f920e12cf8f2d29')

    def __init__(self, specification=None):
        if specification == 'secp256k1':
            self.key = Key.Key.decode(binascii.unhexlify(self.secp256k1Encoded))
            self.keyOID = secp256k1
        elif specification == 'secp224r1':
            self.key = Key.Key.decode(binascii.unhexlify(self.secp224r1Encoded))
            self.keyOID = secp224r1
        elif specification == 'secp256r1':
            self.key = Key.Key.decode(binascii.unhexlify(self.secp256r1Encoded))
            self.keyOID = secp256r1
        elif specification == 'secp384r1':
            self.key = Key.Key.decode(binascii.unhexlify(self.secp384r1Encoded))
            self.keyOID = secp384r1
        elif specification == 'secp521r1':
            self.key = Key.Key.decode(binascii.unhexlify(self.secp521r1Encoded))
            self.keyOID = secp521r1
        else:
            raise UnknownKeySpecificationError(specification)

    def getPublicKeyHexifiedString(self):
        """Returns the EC public key as a hex string using the uncompressed
        point representation. This is intended to be used in the encoder
        functions, as it surrounds the value with ''H to indicate its type."""
        # We need to extract the point that represents this key.
        # The library encoding of the key is an 8-byte id, followed by 2
        # bytes for the key length in bits, followed by the point on the
        # curve (represented by two python longs). There appear to also
        # be 2 bytes indicating the length of the point as encoded, but
        # Decoder takes care of that.
        encoded = self.key.encode()
        _, _, points = encoding.Decoder(encoded).int(8).int(2).point(2).out()
        # '04' indicates that the points are in uncompressed form.
        return "'%s%s%s'H" % ('04', longToEvenLengthHexString(points[0]),
                              longToEvenLengthHexString(points[1]))

    def toPEM(self):
        """Return the EC private key in PEM-encoded form."""
        output = '-----BEGIN EC PRIVATE KEY-----'
        der = self.toDER()
        b64 = base64.b64encode(der)
        while b64:
            output += '\n' + b64[:64]
            b64 = b64[64:]
        output += '\n-----END EC PRIVATE KEY-----\n'
        return output

    def toDER(self):
        """Return the EC private key in DER-encoded form, encoded per SEC 1
        section C.4 format."""
        privateKeyInfo = PrivateKeyInfo()
        privateKeyInfo['version'] = 0
        algorithmIdentifier = rfc2459.AlgorithmIdentifier()
        algorithmIdentifier['algorithm'] = ecPublicKey
        algorithmIdentifier['parameters'] = self.keyOID
        privateKeyInfo['privateKeyAlgorithm'] = algorithmIdentifier
        ecPrivateKey = ECPrivateKey()
        ecPrivateKey['version'] = 1
        ecPrivateKey['privateKey'] = binascii.unhexlify(longToEvenLengthHexString(
                                                        self.key._priv[1]))
        ecPrivateKey['publicKey'] = univ.BitString(
                                        self.getPublicKeyHexifiedString()
                                                  ).subtype(
                                        explicitTag=tag.Tag(tag.tagClassContext,
                                                            tag.tagFormatSimple, 1)
                                                           )
        ecPrivateKeyEncoded = encoder.encode(ecPrivateKey)
        privateKeyInfo['privateKey'] = univ.OctetString(ecPrivateKeyEncoded)
        return encoder.encode(privateKeyInfo)

    def asSubjectPublicKeyInfo(self):
        """Returns a subject public key info representing
        this key for use by pyasn1."""
        algorithmIdentifier = rfc2459.AlgorithmIdentifier()
        algorithmIdentifier['algorithm'] = ecPublicKey
        algorithmIdentifier['parameters'] = self.keyOID
        spki = rfc2459.SubjectPublicKeyInfo()
        spki['algorithm'] = algorithmIdentifier
        spki['subjectPublicKey'] = univ.BitString(self.getPublicKeyHexifiedString())
        return spki

    def signRaw(self, data, hashAlgorithm):
        """Performs the ECDSA signature algorithm over the given data.
        The returned value is a string representing the bytes of the
        resulting point when encoded by left-padding each of (r, s) to
        the key size and concatenating them.
        """
        # There is some non-determinism in ECDSA signatures. Work around
        # this by patching ecc.ecdsa.urandom to not be random.
        with mock.patch('ecc.ecdsa.urandom', side_effect=notRandom):
            # Patch in secp256k1 if applicable.
            if self.keyOID == secp256k1:
                with mock.patch('ecc.curves.DOMAINS', {256: secp256k1Params}):
                    return self.key.sign(data, hashAlgorithm.split(':')[-1])
            else:
                return self.key.sign(data, hashAlgorithm.split(':')[-1])

    def sign(self, data, hashAlgorithm):
        """Returns a hexified bit string representing a
        signature by this key over the specified data.
        Intended for use with pyasn1.type.univ.BitString"""
        # ecc.Key.sign returns an encoded point, which is useful in some
        # situations. However, for signatures on X509 certificates, we
        # need to decode it so we can encode it as a BITSTRING
        # consisting of a SEQUENCE of two INTEGERs.
        x, y = encoding.dec_point(self.signRaw(data, hashAlgorithm))
        point = ECPoint()
        point['x'] = x
        point['y'] = y
        return byteStringToHexifiedBitString(encoder.encode(point))


def keyFromSpecification(specification):
    """Pass in a specification, get the appropriate key back."""
    if specification.startswith('secp'):
        return ECCKey(specification)
    else:
        return RSAKey(specification)

# The build harness will call this function with an output file-like
# object and a path to a file containing a specification. This will
# read the specification and output the key as ASCII-encoded PKCS #8.


def main(output, inputPath):
    with open(inputPath) as configStream:
        output.write(keyFromSpecification(configStream.read().strip()).toPEM())


# When run as a standalone program, this will read a specification from
# stdin and output the certificate as PEM to stdout.
if __name__ == '__main__':
    print keyFromSpecification(sys.stdin.read().strip()).toPEM()