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nim-libp2p-experimental
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nim-libp2p-experimental/tests/testrsa.nim

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Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
## Nim-Libp2p
## Copyright (c) 2018 Status Research & Development GmbH
## 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.
import unittest
import nimcrypto/utils
import ../libp2p/crypto/rsa
Fix overflow problem. Fix compilation warnings.
2019-10-29 18:51:48 +00:00
when defined(nimHasUsed): {.used.}
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
const
TestsCount = 20 # number of random tests
PrivateKeys = [
"""3082013902010002410093405660EDBF5DADAF93DD91E1B38F1EF086A3A0C6EA
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BF63EA847A3A682242AC73F3F3B4A232FA0BFC2D2892B7D8AA24958C4C""",
"""3082025D02010002818100BDB0E9A7AF9865E318C8890A883D185F6D9F88868A
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F5""",
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1FDDD3DE4C9F51A9""",
"""30820928020100028202010099EBDD4A8DBFD112966F0242CD0D0DFEE9A48572
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]
PublicKeys = [
"""305C300D06092A864886F70D0101010500034B00304802410093405660EDBF5D
ADAF93DD91E1B38F1EF086A3A0C6EA38011E58E08D27B163A9506AB837F4AF5C
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030CCBAE19E972D16338201B7C11E00364FE7D613CB3367BB6CF2C3BE5020301
0001""",
"""30820122300D06092A864886F70D01010105000382010F003082010A02820101
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"""30820222300D06092A864886F70D01010105000382020F003082020A02820201
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750203010001"""
]
Messages = [
"sample", "test", "sample", "test", "sample", "test", "sample", "test"
]
Signatures = [
"""2E597258C445FC802E502E23E9ECC711F22A2264F661C2A738032A62408FA74B
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"""8CA474B07CFB229D530E9A1955D30058D3589DFCF44B442DA9F3D5362F1D36CD
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"""7B5311FED58881F5684343E030011A376563A7264C72553C66A5B2EA5D203127
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"""8C8D7F3E30F8E8D9171F38BFFE2D80A8CF1F9CFC40BED7E530B650149BD395EF
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"""30768DB2A850D5F3F9044D2C7545C3E3D30B03B6F8159D305F19B1CF939C1336
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]
suite "RSA 512/1024/2048/4096 test suite":
test "[rsa512] Private key serialize/deserialize test":
for i in 0..<TestsCount:
var rkey1, rkey2: RsaPrivateKey
var skey2 = newSeq[byte](4096)
var key = RsaPrivateKey.random(512)
var skey1 = key.getBytes()
check key.toBytes(skey2) > 0
check:
rkey1.init(skey1) == Asn1Status.Success
rkey2.init(skey2) == Asn1Status.Success
var rkey3 = RsaPrivateKey.init(skey1)
var rkey4 = RsaPrivateKey.init(skey2)
check:
rkey1 == key
rkey2 == key
rkey3 == key
rkey4 == key
test "[rsa1024] Private key serialize/deserialize test":
for i in 0..<TestsCount:
var rkey1, rkey2: RsaPrivateKey
var skey2 = newSeq[byte](4096)
var key = RsaPrivateKey.random(1024)
var skey1 = key.getBytes()
check key.toBytes(skey2) > 0
check:
rkey1.init(skey1) == Asn1Status.Success
rkey2.init(skey2) == Asn1Status.Success
var rkey3 = RsaPrivateKey.init(skey1)
var rkey4 = RsaPrivateKey.init(skey2)
check:
rkey1 == key
rkey2 == key
rkey3 == key
rkey4 == key
test "[rsa2048] Private key serialize/deserialize test":
var rkey1, rkey2: RsaPrivateKey
var skey2 = newSeq[byte](4096)
var key = RsaPrivateKey.random(2048)
var skey1 = key.getBytes()
check key.toBytes(skey2) > 0
check:
rkey1.init(skey1) == Asn1Status.Success
rkey2.init(skey2) == Asn1Status.Success
var rkey3 = RsaPrivateKey.init(skey1)
var rkey4 = RsaPrivateKey.init(skey2)
check:
rkey1 == key
rkey2 == key
rkey3 == key
rkey4 == key
test "[rsa4096] Private key serialize/deserialize test":
# This test is too slow to run in debug mode.
when defined(release):
var rkey1, rkey2: RsaPrivateKey
var skey2 = newSeq[byte](4096)
var key = RsaPrivateKey.random(4096)
var skey1 = key.getBytes()
check key.toBytes(skey2) > 0
check:
rkey1.init(skey1) == Asn1Status.Success
rkey2.init(skey2) == Asn1Status.Success
var rkey3 = RsaPrivateKey.init(skey1)
var rkey4 = RsaPrivateKey.init(skey2)
check:
rkey1 == key
rkey2 == key
rkey3 == key
rkey4 == key
test "[rsa512] Public key serialize/deserialize test":
for i in 0..<TestsCount:
var rkey1, rkey2: RsaPublicKey
var skey2 = newSeq[byte](4096)
var pair = RsaKeyPair.random(512)
var skey1 = pair.pubkey().getBytes()
check:
pair.pubkey.toBytes(skey2) > 0
rkey1.init(skey1) == Asn1Status.Success
rkey2.init(skey2) == Asn1Status.Success
var rkey3 = RsaPublicKey.init(skey1)
var rkey4 = RsaPublicKey.init(skey2)
check:
rkey1 == pair.pubkey
rkey2 == pair.pubkey
rkey3 == pair.pubkey
rkey4 == pair.pubkey
test "[rsa1024] Public key serialize/deserialize test":
for i in 0..<TestsCount:
var rkey1, rkey2: RsaPublicKey
var skey2 = newSeq[byte](4096)
var pair = RsaKeyPair.random(1024)
var skey1 = pair.pubkey.getBytes()
check:
pair.pubkey.toBytes(skey2) > 0
rkey1.init(skey1) == Asn1Status.Success
rkey2.init(skey2) == Asn1Status.Success
var rkey3 = RsaPublicKey.init(skey1)
var rkey4 = RsaPublicKey.init(skey2)
check:
rkey1 == pair.pubkey
rkey2 == pair.pubkey
rkey3 == pair.pubkey
rkey4 == pair.pubkey
test "[rsa2048] Public key serialize/deserialize test":
var rkey1, rkey2: RsaPublicKey
var skey2 = newSeq[byte](4096)
var pair = RsaKeyPair.random(2048)
var skey1 = pair.pubkey.getBytes()
check:
pair.pubkey.toBytes(skey2) > 0
rkey1.init(skey1) == Asn1Status.Success
rkey2.init(skey2) == Asn1Status.Success
var rkey3 = RsaPublicKey.init(skey1)
var rkey4 = RsaPublicKey.init(skey2)
check:
rkey1 == pair.pubkey
rkey2 == pair.pubkey
rkey3 == pair.pubkey
rkey4 == pair.pubkey
test "[rsa4096] Public key serialize/deserialize test":
when defined(release):
var rkey1, rkey2: RsaPublicKey
var skey2 = newSeq[byte](4096)
var pair = RsaKeyPair.random(4096)
var skey1 = pair.pubkey.getBytes()
check:
pair.pubkey.toBytes(skey2) > 0
rkey1.init(skey1) == Asn1Status.Success
rkey2.init(skey2) == Asn1Status.Success
var rkey3 = RsaPublicKey.init(skey1)
var rkey4 = RsaPublicKey.init(skey2)
check:
rkey1 == pair.pubkey
rkey2 == pair.pubkey
rkey3 == pair.pubkey
rkey4 == pair.pubkey
test "[rsa512] Generate/Sign/Serialize/Deserialize/Verify test":
var message = "message to sign"
for i in 0..<TestsCount:
var kp = RsaKeyPair.random(512)
var sig = kp.seckey.sign(message)
var sersk = kp.seckey.getBytes()
var serpk = kp.pubkey.getBytes()
var sersig = sig.getBytes()
Fix overflow problem. Fix compilation warnings.
2019-10-29 18:51:48 +00:00
discard RsaPrivateKey.init(sersk)
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
var pubkey = RsaPublicKey.init(serpk)
var csig = RsaSignature.init(sersig)
check csig.verify(message, pubkey) == true
Fix fail verification tests.
2019-02-25 09:06:50 +00:00
let error = len(csig.buffer) - 1
csig.buffer[error] = not(csig.buffer[error])
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
check csig.verify(message, pubkey) == false
test "[rsa1024] Generate/Sign/Serialize/Deserialize/Verify test":
var message = "message to sign"
for i in 0..<TestsCount:
var kp = RsaKeyPair.random(1024)
var sig = kp.seckey.sign(message)
var sersk = kp.seckey.getBytes()
var serpk = kp.pubkey.getBytes()
var sersig = sig.getBytes()
Fix overflow problem. Fix compilation warnings.
2019-10-29 18:51:48 +00:00
discard RsaPrivateKey.init(sersk)
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
var pubkey = RsaPublicKey.init(serpk)
var csig = RsaSignature.init(sersig)
check csig.verify(message, pubkey) == true
Fix fail verification tests.
2019-02-25 09:06:50 +00:00
let error = len(csig.buffer) - 1
csig.buffer[error] = not(csig.buffer[error])
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
check csig.verify(message, pubkey) == false
test "[rsa2048] Generate/Sign/Serialize/Deserialize/Verify test":
var message = "message to sign"
var kp = RsaKeyPair.random(2048)
var sig = kp.seckey.sign(message)
var sersk = kp.seckey.getBytes()
var serpk = kp.pubkey.getBytes()
var sersig = sig.getBytes()
Fix overflow problem. Fix compilation warnings.
2019-10-29 18:51:48 +00:00
discard RsaPrivateKey.init(sersk)
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
var pubkey = RsaPublicKey.init(serpk)
var csig = RsaSignature.init(sersig)
check csig.verify(message, pubkey) == true
Fix fail verification tests.
2019-02-25 09:06:50 +00:00
let error = len(csig.buffer) - 1
csig.buffer[error] = not(csig.buffer[error])
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
check csig.verify(message, pubkey) == false
test "[rsa4096] Generate/Sign/Serialize/Deserialize/Verify test":
when defined(release):
var message = "message to sign"
var kp = RsaKeyPair.random(2048)
var sig = kp.seckey.sign(message)
var sersk = kp.seckey.getBytes()
var serpk = kp.pubkey.getBytes()
var sersig = sig.getBytes()
Fix overflow problem. Fix compilation warnings.
2019-10-29 18:51:48 +00:00
discard RsaPrivateKey.init(sersk)
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
var pubkey = RsaPublicKey.init(serpk)
var csig = RsaSignature.init(sersig)
check csig.verify(message, pubkey) == true
Fix fail verification tests.
2019-02-25 09:06:50 +00:00
let error = len(csig.buffer) - 1
csig.buffer[error] = not(csig.buffer[error])
Final RSA changes. Add RSA tests and test vectors.
2019-02-24 00:07:13 +00:00
check csig.verify(message, pubkey) == false
test "[rsa512] Test vectors":
var prvser = fromHex(stripSpaces(PrivateKeys[0]))
var pubser = fromHex(stripSpaces(PublicKeys[0]))
var seckey = RsaPrivateKey.init(prvser)
var pubkey = RsaPublicKey.init(pubser)
check:
seckey.getBytes() == prvser
var cpubkey = seckey.getKey()
check:
pubkey == cpubkey
pubkey.getBytes() == cpubkey.getBytes()
pubkey.getBytes() == pubser
for i in 0..1:
var sigser = fromHex(stripSpaces(Signatures[i]))
var sig = RsaSignature.init(sigser)
var csig = seckey.sign(Messages[i])
check:
sig == csig
sig.getBytes() == csig.getBytes()
csig.verify(Messages[i], pubkey) == true
csig.verify(Messages[(i + 1) mod 2], pubkey) == false
test "[rsa1024] Test vectors":
var prvser = fromHex(stripSpaces(PrivateKeys[1]))
var pubser = fromHex(stripSpaces(PublicKeys[1]))
var seckey = RsaPrivateKey.init(prvser)
var pubkey = RsaPublicKey.init(pubser)
check:
seckey.getBytes() == prvser
var cpubkey = seckey.getKey()
check:
pubkey == cpubkey
pubkey.getBytes() == cpubkey.getBytes()
pubkey.getBytes() == pubser
for i in 0..1:
var sigser = fromHex(stripSpaces(Signatures[2 + i]))
var sig = RsaSignature.init(sigser)
var csig = seckey.sign(Messages[2 + i])
check:
sig == csig
sig.getBytes() == csig.getBytes()
csig.verify(Messages[2 + i], pubkey) == true
csig.verify(Messages[2 + (i + 1) mod 2], pubkey) == false
test "[rsa2048] Test vectors":
var prvser = fromHex(stripSpaces(PrivateKeys[2]))
var pubser = fromHex(stripSpaces(PublicKeys[2]))
var seckey = RsaPrivateKey.init(prvser)
var pubkey = RsaPublicKey.init(pubser)
check:
seckey.getBytes() == prvser
var cpubkey = seckey.getKey()
check:
pubkey == cpubkey
pubkey.getBytes() == cpubkey.getBytes()
pubkey.getBytes() == pubser
for i in 0..1:
var sigser = fromHex(stripSpaces(Signatures[4 + i]))
var sig = RsaSignature.init(sigser)
var csig = seckey.sign(Messages[4 + i])
check:
sig == csig
sig.getBytes() == csig.getBytes()
csig.verify(Messages[4 + i], pubkey) == true
csig.verify(Messages[4 + (i + 1) mod 2], pubkey) == false
test "[rsa4096] Test vectors":
var prvser = fromHex(stripSpaces(PrivateKeys[3]))
var pubser = fromHex(stripSpaces(PublicKeys[3]))
var seckey = RsaPrivateKey.init(prvser)
var pubkey = RsaPublicKey.init(pubser)
check:
seckey.getBytes() == prvser
var cpubkey = seckey.getKey()
check:
pubkey == cpubkey
pubkey.getBytes() == cpubkey.getBytes()
pubkey.getBytes() == pubser
for i in 0..1:
var sigser = fromHex(stripSpaces(Signatures[6 + i]))
var sig = RsaSignature.init(sigser)
var csig = seckey.sign(Messages[6 + i])
check:
sig == csig
sig.getBytes() == csig.getBytes()
csig.verify(Messages[6 + i], pubkey) == true
csig.verify(Messages[6 + (i + 1) mod 2], pubkey) == false