Don't use BMConfigParser in highlevelcrypto, instead use digestAlg kwarg,
both in .sign() and .verify(), extend TestHighlevelcrypto.test_signatures().
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@ -50,6 +50,8 @@ class singleWorker(StoppableThread):
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def __init__(self):
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super(singleWorker, self).__init__(name="singleWorker")
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self.digestAlg = config.safeGet(
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'bitmessagesettings', 'digestalg', 'sha256')
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proofofwork.init()
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def stopThread(self):
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@ -368,7 +370,8 @@ class singleWorker(StoppableThread):
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payload += encodeVarint(config.getint(
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myAddress, 'payloadlengthextrabytes'))
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signature = highlevelcrypto.sign(payload, privSigningKeyHex)
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signature = highlevelcrypto.sign(
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payload, privSigningKeyHex, self.digestAlg)
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payload += encodeVarint(len(signature))
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payload += signature
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@ -455,8 +458,7 @@ class singleWorker(StoppableThread):
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).digest()).digest()
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payload += doubleHashOfAddressData[32:] # the tag
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signature = highlevelcrypto.sign(
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payload + dataToEncrypt, privSigningKeyHex
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)
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payload + dataToEncrypt, privSigningKeyHex, self.digestAlg)
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dataToEncrypt += encodeVarint(len(signature))
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dataToEncrypt += signature
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@ -641,7 +643,7 @@ class singleWorker(StoppableThread):
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dataToSign = payload + dataToEncrypt
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signature = highlevelcrypto.sign(
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dataToSign, privSigningKeyHex)
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dataToSign, privSigningKeyHex, self.digestAlg)
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dataToEncrypt += encodeVarint(len(signature))
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dataToEncrypt += signature
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@ -1223,7 +1225,8 @@ class singleWorker(StoppableThread):
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payload += fullAckPayload
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dataToSign = pack('>Q', embeddedTime) + '\x00\x00\x00\x02' + \
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encodeVarint(1) + encodeVarint(toStreamNumber) + payload
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signature = highlevelcrypto.sign(dataToSign, privSigningKeyHex)
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signature = highlevelcrypto.sign(
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dataToSign, privSigningKeyHex, self.digestAlg)
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payload += encodeVarint(len(signature))
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payload += signature
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@ -13,7 +13,6 @@ import pyelliptic
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from pyelliptic import OpenSSL
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from pyelliptic import arithmetic as a
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from bmconfigparser import config
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__all__ = ['encrypt', 'makeCryptor', 'pointMult', 'privToPub', 'sign', 'verify']
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@ -64,43 +63,44 @@ def decryptFast(msg, cryptor):
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return cryptor.decrypt(msg)
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def sign(msg, hexPrivkey):
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def _choose_digest_alg(name):
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"""
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Choose openssl digest constant by name raises ValueError if not appropriate
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"""
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if name not in ("sha1", "sha256"):
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raise ValueError("Unknown digest algorithm %s" % name)
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return (
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# SHA1, this will eventually be deprecated
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OpenSSL.digest_ecdsa_sha1 if name == "sha1" else OpenSSL.EVP_sha256)
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def sign(msg, hexPrivkey, digestAlg="sha256"):
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"""
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Signs with hex private key using SHA1 or SHA256 depending on
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"digestalg" setting
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*digestAlg* keyword.
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"""
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digestAlg = config.safeGet(
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'bitmessagesettings', 'digestalg', 'sha256')
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if digestAlg == "sha1":
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# SHA1, this will eventually be deprecated
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return makeCryptor(hexPrivkey).sign(
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msg, digest_alg=OpenSSL.digest_ecdsa_sha1)
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elif digestAlg == "sha256":
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# SHA256. Eventually this will become the default
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return makeCryptor(hexPrivkey).sign(msg, digest_alg=OpenSSL.EVP_sha256)
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else:
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raise ValueError("Unknown digest algorithm %s" % digestAlg)
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msg, digest_alg=_choose_digest_alg(digestAlg))
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def verify(msg, sig, hexPubkey):
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def verify(msg, sig, hexPubkey, digestAlg=None):
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"""Verifies with hex public key using SHA1 or SHA256"""
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# As mentioned above, we must upgrade gracefully to use SHA256. So
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# let us check the signature using both SHA1 and SHA256 and if one
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# of them passes then we will be satisfied. Eventually this can
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# be simplified and we'll only check with SHA256.
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try:
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if digestAlg is None:
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# old SHA1 algorithm.
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sigVerifyPassed = makePubCryptor(hexPubkey).verify(
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sig, msg, digest_alg=OpenSSL.digest_ecdsa_sha1)
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except:
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sigVerifyPassed = False
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sigVerifyPassed = verify(msg, sig, hexPubkey, "sha1")
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if sigVerifyPassed:
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# The signature check passed using SHA1
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return True
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# The signature check using SHA1 failed. Let us try it with SHA256.
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return verify(msg, sig, hexPubkey, "sha256")
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try:
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return makePubCryptor(hexPubkey).verify(
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sig, msg, digest_alg=OpenSSL.EVP_sha256)
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sig, msg, digest_alg=_choose_digest_alg(digestAlg))
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except:
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return False
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@ -70,12 +70,21 @@ class TestHighlevelcrypto(unittest.TestCase):
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"""Verify sample signatures and newly generated ones"""
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pubkey_hex = hexlify(sample_pubsigningkey)
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# pregenerated signatures
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self.assertTrue(highlevelcrypto.verify(
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sample_msg, sample_sig, pubkey_hex, "sha256"))
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self.assertFalse(highlevelcrypto.verify(
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sample_msg, sample_sig, pubkey_hex, "sha1"))
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self.assertTrue(highlevelcrypto.verify(
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sample_msg, sample_sig_sha1, pubkey_hex, "sha1"))
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self.assertTrue(highlevelcrypto.verify(
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sample_msg, sample_sig_sha1, pubkey_hex))
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# new signatures
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sig256 = highlevelcrypto.sign(sample_msg, sample_privsigningkey)
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sig1 = highlevelcrypto.sign(sample_msg, sample_privsigningkey, "sha1")
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self.assertTrue(
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highlevelcrypto.verify(sample_msg, sample_sig, pubkey_hex))
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highlevelcrypto.verify(sample_msg, sig256, pubkey_hex))
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self.assertTrue(
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highlevelcrypto.verify(sample_msg, sample_sig_sha1, pubkey_hex))
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# new signature
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sig1 = highlevelcrypto.sign(sample_msg, sample_privsigningkey)
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highlevelcrypto.verify(sample_msg, sig256, pubkey_hex, "sha256"))
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self.assertTrue(
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highlevelcrypto.verify(sample_msg, sig1, pubkey_hex))
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