nim-libp2p/tests/testpkifilter.nim

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2022-07-01 18:19:57 +00:00
# Nim-Libp2p
2023-01-20 14:47:40 +00:00
# Copyright (c) 2023 Status Research & Development GmbH
2022-07-01 18:19:57 +00:00
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
# * MIT license ([LICENSE-MIT](LICENSE-MIT))
# at your option.
# This file may not be copied, modified, or distributed except according to
# those terms.
when defined(nimHasUsed):
{.used.}
import unittest2
import ../libp2p/crypto/crypto
import nimcrypto/utils
let rng = newRng()
const ECDSA_PrivateKey =
"""
080312793077020101042070896381749FF6B30381C045F627C68C3062749BB53CB13
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3A56DB224EDCD36E51076F43A63203F8936D868EF18
"""
const ECDSA_PublicKey =
"""
0803125B3059301306072A8648CE3D020106082A8648CE3D03010703420004B17DAFF
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"""
const SECP256k1_PrivateKey =
"""
080212209A0F994F5022D9D7B67ACEB26AA4D9F29B2628DBDCC28597469CB0049B6AB
348
"""
const SECP256k1_PublicKey =
"""
08021221039111FA29B374FE94B885408C45DF4647D09438C6E1F91F9B277A96CADD0
8A2B8
"""
const ED25519_PrivateKey =
"""
08011240E1BFE38E35F9669CE77F6BE1A551560896B59A3F510537205F3AC1EDAD421
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"""
const ED25519_PublicKey =
"""
08011220C9D5C25AA2FC61B950976D6E5EC26425F8D4BFFE17169A4DE5A246B7154CB
2B5
"""
const RSA_PrivateKey =
"""
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"""
const RSA_PublicKey =
"""
080012A603308201A2300D06092A864886F70D01010105000382018F003082018A028
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"""
const
RSATestMessage =
"RSA " & (when supported(PKScheme.RSA): "(enabled)" else: "(disabled)") & " test"
EcdsaTestMessage =
"ECDSA " & (when supported(PKScheme.ECDSA): "(enabled)" else: "(disabled)") & " test"
EdTestMessage =
"ED25519 " & (when supported(PKScheme.Ed25519): "(enabled)" else: "(disabled)") &
" test"
SecpTestMessage =
"SECP256k1 " & (when supported(PKScheme.Secp256k1): "(enabled)" else: "(disabled)") &
" test"
suite "Public key infrastructure filtering test suite":
test RSATestMessage:
when not (supported(PKScheme.RSA)):
let sk2048 = PrivateKey.random(PKScheme.RSA, rng[], 2048)
let sk3072 = PrivateKey.random(PKScheme.RSA, rng[], 3072)
let sk4096 = PrivateKey.random(PKScheme.RSA, rng[], 4096)
let kp2048 = KeyPair.random(PKScheme.RSA, rng[], 2048)
let kp3072 = KeyPair.random(PKScheme.RSA, rng[], 3072)
let kp4096 = KeyPair.random(PKScheme.RSA, rng[], 4096)
let sk = PrivateKey.init(fromHex(stripSpaces(RSA_PrivateKey)))
let pk = PublicKey.init(fromHex(stripSpaces(RSA_PublicKey)))
check:
sk2048.isErr() == true
sk3072.isErr() == true
sk4096.isErr() == true
kp2048.isErr() == true
kp3072.isErr() == true
kp4096.isErr() == true
sk2048.error == CryptoError.SchemeError
sk3072.error == CryptoError.SchemeError
sk4096.error == CryptoError.SchemeError
kp2048.error == CryptoError.SchemeError
kp3072.error == CryptoError.SchemeError
kp4096.error == CryptoError.SchemeError
sk.isErr() == true
pk.isErr() == true
sk.error == CryptoError.KeyError
pk.error == CryptoError.KeyError
else:
let sk2048 = PrivateKey.random(PKScheme.RSA, rng[], 2048)
let kp2048 = KeyPair.random(PKScheme.RSA, rng[], 2048)
let sk = PrivateKey.init(fromHex(stripSpaces(RSA_PrivateKey)))
let pk = PublicKey.init(fromHex(stripSpaces(RSA_PublicKey)))
check:
sk2048.isOk() == true
kp2048.isOk() == true
sk.isOk() == true
pk.isOk() == true
test EcdsaTestMessage:
when not (supported(PKScheme.ECDSA)):
let rsk = PrivateKey.random(PKScheme.ECDSA, rng[])
let rkp = KeyPair.random(PKScheme.ECDSA, rng[])
let sk = PrivateKey.init(fromHex(stripSpaces(ECDSA_PrivateKey)))
let pk = PublicKey.init(fromHex(stripSpaces(ECDSA_PublicKey)))
check:
rsk.isErr() == true
rkp.isErr() == true
rsk.error == CryptoError.SchemeError
rkp.error == CryptoError.SchemeError
sk.isErr() == true
pk.isErr() == true
sk.error == CryptoError.KeyError
pk.error == CryptoError.KeyError
else:
let rsk = PrivateKey.random(PKScheme.ECDSA, rng[])
let rkp = KeyPair.random(PKScheme.ECDSA, rng[])
let sk = PrivateKey.init(fromHex(stripSpaces(ECDSA_PrivateKey)))
let pk = PublicKey.init(fromHex(stripSpaces(ECDSA_PublicKey)))
check:
rsk.isOk() == true
rkp.isOk() == true
sk.isOk() == true
pk.isOk() == true
test EdTestMessage:
when not (supported(PKScheme.Ed25519)):
let rsk = PrivateKey.random(PKScheme.Ed25519, rng[])
let rkp = KeyPair.random(PKScheme.Ed25519, rng[])
let sk = PrivateKey.init(fromHex(stripSpaces(ED25519_PrivateKey)))
let pk = PublicKey.init(fromHex(stripSpaces(ED25519_PublicKey)))
check:
rsk.isErr() == true
rkp.isErr() == true
rsk.error == CryptoError.SchemeError
rkp.error == CryptoError.SchemeError
sk.isErr() == true
pk.isErr() == true
sk.error == CryptoError.KeyError
pk.error == CryptoError.KeyError
else:
let rsk = PrivateKey.random(PKScheme.Ed25519, rng[])
let rkp = KeyPair.random(PKScheme.Ed25519, rng[])
let sk = PrivateKey.init(fromHex(stripSpaces(ED25519_PrivateKey)))
let pk = PublicKey.init(fromHex(stripSpaces(ED25519_PublicKey)))
check:
rsk.isOk() == true
rkp.isOk() == true
sk.isOk() == true
pk.isOk() == true
test SecpTestMessage:
when not (supported(PKScheme.Secp256k1)):
let rsk = PrivateKey.random(PKScheme.Secp256k1, rng[])
let rkp = KeyPair.random(PKScheme.Secp256k1, rng[])
let sk = PrivateKey.init(fromHex(stripSpaces(SECP256k1_PrivateKey)))
let pk = PublicKey.init(fromHex(stripSpaces(SECP256k1_PublicKey)))
check:
rsk.isErr() == true
rkp.isErr() == true
rsk.error == CryptoError.SchemeError
rkp.error == CryptoError.SchemeError
sk.isErr() == true
pk.isErr() == true
sk.error == CryptoError.KeyError
pk.error == CryptoError.KeyError
else:
let rsk = PrivateKey.random(PKScheme.Secp256k1, rng[])
let rkp = KeyPair.random(PKScheme.Secp256k1, rng[])
let sk = PrivateKey.init(fromHex(stripSpaces(SECP256k1_PrivateKey)))
let pk = PublicKey.init(fromHex(stripSpaces(SECP256k1_PublicKey)))
check:
rsk.isOk() == true
rkp.isOk() == true
sk.isOk() == true
pk.isOk() == true