nim-libp2p/tests/testsecp256k1.nim

{.used.}

# Nim-Libp2p
# Copyright (c) 2023 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 unittest2
import ../libp2p/crypto/[crypto, secp]

let rng = newRng()

suite "Secp256k1 testing suite":
  const TestsCount = 20

  test "Private key serialize/deserialize test":
    for i in 0 ..< TestsCount:
      var rkey1, rkey2: SkPrivateKey
      var skey2 = newSeq[byte](256)
      var key = SkPrivateKey.random(rng[])
      var skey1 = key.getBytes()
      check:
        key.toBytes(skey2).expect("bytes len") > 0
      check:
        rkey1.init(skey1).isOk == true
        rkey2.init(skey2).isOk == true
      var rkey3 = SkPrivateKey.init(skey1).expect("private key")
      var rkey4 = SkPrivateKey.init(skey2).expect("private key")
      check:
        rkey1 == key
        rkey2 == key
        rkey3 == key
        rkey4 == key
  test "Public key serialize/deserialize test":
    for i in 0 ..< TestsCount:
      var rkey1, rkey2: SkPublicKey
      var skey2 = newSeq[byte](256)
      var pair = SkKeyPair.random(rng[])
      var skey1 = pair.pubkey.getBytes()
      check:
        pair.pubkey.toBytes(skey2).expect("bytes len") > 0
        rkey1.init(skey1).isOk == true
        rkey2.init(skey2).isOk == true
      var rkey3 = SkPublicKey.init(skey1).expect("public key")
      var rkey4 = SkPublicKey.init(skey2).expect("public key")
      check:
        rkey1 == pair.pubkey
        rkey2 == pair.pubkey
        rkey3 == pair.pubkey
        rkey4 == pair.pubkey
  test "Generate/Sign/Serialize/Deserialize/Verify test":
    var message = "message to sign"
    for i in 0 ..< TestsCount:
      var kp = SkKeyPair.random(rng[])
      var sig = kp.seckey.sign(message)
      var sersk = kp.seckey.getBytes()
      var serpk = kp.pubkey.getBytes()
      var sersig = sig.getBytes()
      discard SkPrivateKey.init(sersk).expect("private key")
      var pubkey = SkPublicKey.init(serpk).expect("public key")
      var csig = SkSignature.init(sersig).expect("signature")
      check csig.verify(message, pubkey) == true
      var error = csig.getBytes()
      error[^1] = not error[^1]
      csig = SkSignature.init(error).expect("signature")
      check csig.verify(message, pubkey) == false
Less warnings (#813) Co-authored-by: Diego <diego@status.im> 2023-05-18 10:24:17 +02:00			`{.used.}`

Documentation (#716) 2022-07-01 20:19:57 +02:00			`# Nim-Libp2p`
Happy new year! (#847) 2023-01-20 15:47:40 +01:00			`# Copyright (c) 2023 Status Research & Development GmbH`
Documentation (#716) 2022-07-01 20:19:57 +02:00			`# 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.`
Less warnings (#813) Co-authored-by: Diego <diego@status.im> 2023-05-18 10:24:17 +02:00
Remove Br prefix from BearSSL (#728) ref status-im/nim-bearssl#27 2022-06-16 10:08:52 +02:00			`import unittest2`
reuse single RNG instance for all crypto key generation (#249) * reuse single RNG instance for all crypto key generation * use foolproof rng * initRng -> newRng (because it's ref) * fix test * imports/exports, chat fix * fix rsa * imports and exports * work around threadvar issue * fixup * mac workaround test 2020-07-07 13:14:11 +02:00			`import ../libp2p/crypto/[crypto, secp]`
Fix overflow problem. Fix compilation warnings. 2019-10-29 20:51:48 +02:00
reuse single RNG instance for all crypto key generation (#249) * reuse single RNG instance for all crypto key generation * use foolproof rng * initRng -> newRng (because it's ref) * fix test * imports/exports, chat fix * fix rsa * imports and exports * work around threadvar issue * fixup * mac workaround test 2020-07-07 13:14:11 +02:00			`let rng = newRng()`

Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`suite "Secp256k1 testing suite":`
			`const TestsCount = 20`
reuse single RNG instance for all crypto key generation (#249) * reuse single RNG instance for all crypto key generation * use foolproof rng * initRng -> newRng (because it's ref) * fix test * imports/exports, chat fix * fix rsa * imports and exports * work around threadvar issue * fixup * mac workaround test 2020-07-07 13:14:11 +02:00
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`test "Private key serialize/deserialize test":`
			`for i in 0 ..< TestsCount:`
			`var rkey1, rkey2: SkPrivateKey`
			`var skey2 = newSeq[byte](256)`
reuse single RNG instance for all crypto key generation (#249) * reuse single RNG instance for all crypto key generation * use foolproof rng * initRng -> newRng (because it's ref) * fix test * imports/exports, chat fix * fix rsa * imports and exports * work around threadvar issue * fixup * mac workaround test 2020-07-07 13:14:11 +02:00			`var key = SkPrivateKey.random(rng[])`
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`var skey1 = key.getBytes()`
			`check:`
Crypto utilities resultification (#150) 2020-05-18 14:25:55 +09:00			`key.toBytes(skey2).expect("bytes len") > 0`
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`check:`
Crypto utilities resultification (#150) 2020-05-18 14:25:55 +09:00			`rkey1.init(skey1).isOk == true`
			`rkey2.init(skey2).isOk == true`
			`var rkey3 = SkPrivateKey.init(skey1).expect("private key")`
			`var rkey4 = SkPrivateKey.init(skey2).expect("private key")`
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`check:`
			`rkey1 == key`
			`rkey2 == key`
			`rkey3 == key`
			`rkey4 == key`
			`test "Public key serialize/deserialize test":`
			`for i in 0 ..< TestsCount:`
			`var rkey1, rkey2: SkPublicKey`
			`var skey2 = newSeq[byte](256)`
reuse single RNG instance for all crypto key generation (#249) * reuse single RNG instance for all crypto key generation * use foolproof rng * initRng -> newRng (because it's ref) * fix test * imports/exports, chat fix * fix rsa * imports and exports * work around threadvar issue * fixup * mac workaround test 2020-07-07 13:14:11 +02:00			`var pair = SkKeyPair.random(rng[])`
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`var skey1 = pair.pubkey.getBytes()`
			`check:`
Crypto utilities resultification (#150) 2020-05-18 14:25:55 +09:00			`pair.pubkey.toBytes(skey2).expect("bytes len") > 0`
			`rkey1.init(skey1).isOk == true`
			`rkey2.init(skey2).isOk == true`
			`var rkey3 = SkPublicKey.init(skey1).expect("public key")`
			`var rkey4 = SkPublicKey.init(skey2).expect("public key")`
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`check:`
			`rkey1 == pair.pubkey`
			`rkey2 == pair.pubkey`
			`rkey3 == pair.pubkey`
			`rkey4 == pair.pubkey`
			`test "Generate/Sign/Serialize/Deserialize/Verify test":`
			`var message = "message to sign"`
			`for i in 0 ..< TestsCount:`
reuse single RNG instance for all crypto key generation (#249) * reuse single RNG instance for all crypto key generation * use foolproof rng * initRng -> newRng (because it's ref) * fix test * imports/exports, chat fix * fix rsa * imports and exports * work around threadvar issue * fixup * mac workaround test 2020-07-07 13:14:11 +02:00			`var kp = SkKeyPair.random(rng[])`
secp: requiresInit updates (#237) * secp: requiresInit updates * fix 2020-06-22 19:03:15 +02:00			`var sig = kp.seckey.sign(message)`
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`var sersk = kp.seckey.getBytes()`
			`var serpk = kp.pubkey.getBytes()`
			`var sersig = sig.getBytes()`
Crypto utilities resultification (#150) 2020-05-18 14:25:55 +09:00			`discard SkPrivateKey.init(sersk).expect("private key")`
			`var pubkey = SkPublicKey.init(serpk).expect("public key")`
			`var csig = SkSignature.init(sersig).expect("signature")`
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`check csig.verify(message, pubkey) == true`
secp: use upstream secp convenience api (#141) * secp: use upstream secp convenience api 2020-04-17 12:51:13 +02:00			`var error = csig.getBytes()`
			`error[^1] = not error[^1]`
Crypto utilities resultification (#150) 2020-05-18 14:25:55 +09:00			`csig = SkSignature.init(error).expect("signature")`
Add secp256k1 curve support and tests for it. 2019-09-02 21:55:42 +03:00			`check csig.verify(message, pubkey) == false`