nim-libp2p/tests/testcrypto.nim

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{.used.}
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# Nim-Libp2p
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# Copyright (c) 2023 Status Research & Development GmbH
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# 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.
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## Test vectors was made using Go implementation
## https://github.com/libp2p/go-libp2p-crypto/blob/master/key.go
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from std/strutils import toUpper
import unittest2
import bearssl/hash
import nimcrypto/utils
Noise (#90) * Start ChaCha20Poly1305 integration (BearSSL) * Add Curve25519 (BearSSL) required operations for noise * Fix curve mulgen iterate/derive * Fix misleading header * Add chachapoly proper test * Curve25519 integration tests (failing, something is wrong) * Add few converters, finish c25519 integration tests * Remove implicit converters * removed internal globals * Start noise implementation * Fix public() using proper bear mulgen * Noise protocol WIP * Noise progress * Add a quick nim version of HKDF * Converted hkdf to iterator, useful for noise * Noise protocol implementation progress * Noise progress * XX handshake almost there * noise progress * Noise, testing handshake with test vectors * Noise handshake progress, still wrong somewhere! * Noise handshake success! * Full verified noise XX handshake completed * Fix and rewrite test to be similar to switch one * Start with connection upgrade * Switch chachapoly to CT implementations * Improve HKDF implementation * Use a type insted of tuple for HandshakeResult * Remove unnecessary Let * More cosmetic fixes * Properly check randomBytes result * Fix chachapoly signature * Noise full circle (altho dispatcher is nil cursed) * Allow nil aads in chachapoly routines * Noise implementation up to running full test * Use bearssl HKDF as well * Directly use bearssl rng for curve25519 keys * Add a (disabled/no CI) noise interop test server * WIP on fixing interop issues * More fixes in noise implementation for interop * bump chronos requirement (nimble) * Add a chachapoly test for very small size payloads * Noise, more tracing * Add 2 properly working noise tests * Fix payload packing, following the spec properly (and not go version but rather rust) * Sanity, replace discard with asyncCheck * Small fixes and optimization * Use stew endian2 rather then system endian module * Update nimble deps (chronos) * Minor cosmetic/code sanity fixes * Noise, handle Nonce max * Noise tests, make sure to close secured conns * More polish, improve code readability too * More polish and testing again which test fails * Further polishing * Restore noise tests * Remove useless Future[void] * Remove useless CipherState initializer * add a proper read wait future in second noise test * Remove noise generic secure implementation for now * Few fixes to run eth2 sim * Add more debug info in noise traces * Merge size + payload write in sendEncryptedMessage * Revert secure interface, add outgoing property directly in newNoise * remove sendEncrypted and receiveEncrypted * Use openarray in chachapoly and curve25519 helpers
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import ../libp2p/crypto/[crypto, chacha20poly1305, curve25519, hkdf]
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const
PrivateKeys = [
"""080012A809308204A40201000282010100C8B014EC01E135D635F7E246BA7D42
3E2B36F45B052F0B644DA6B1B6DD964696F279BB9BB5F5C41EE3204F74EF70C2
28C8CDD97E4F19094274EB01C292EC25055CB3CECD1A41E8919A0C111602B1B8
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2A43C932E124E9C8498E67BA323CC84A275ACCC20D586C04DAF54FE98018FF15
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0F5938B2E0B090CBDB9DEFBF8E7DA5A25C00A54449E7C919125264830C0D8263
096A755D6312F62ADFE29D0EDCDC9C8A31A8612FECF0289CA93BA3F30E10C05A
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D630846EAF4B1A0292A695CBE5001BA8A2E419881263576358295E8B7A61E0A2
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306F6A0C3741DDCD81CF090746DD217925D5BEAF30B7D174B83102818100E35A
50E392EF35CFFF9D24E0A71561E16E7CE99D13C3D9630305D74038F8F646D5CF
440FEC38DFB145BAB25FA875C6B0B93DEF43CEDA51C52FF97BB02039913CD5BB
36DB0D0B4DEAF0AF3A11D1DDD5991F18F6DDBEF4708B8B00DC6F99CC930E93D8
84BF118D204E9A83C7B2163252731813A67A4043459D943549D8AFAED7EF0281
8100E1F9A33FF755B1187302AD22B7C70FF2C6D4D5D8E765D337BECF3E417DDB
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4CBA45B8166269E5E64214EB23CAE8B1619F3B7910FFE343E88B4E6CDC57CE8A
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B32702818100A5CFB7D0D1D7DE624D659980B2BAF8810628D9E47286D2E3D04F
91364896E25EB50F0DEFA2F3B3C94136B162ECA4C0FD208CD8149727489DCCA8
629A085693E34F69D3CF1C8B530F76EC0528FBEB931DB2BD6D463A3F6259934E
54769C2FC44CCC6D0C1BA1BC5084A3525AF13A190762E37B695E1DC2326283B5
FD9EA83A974702818100C493B88AE5AB5AD2AD0210011AA40560A9CCEE76B0DD
687F9EF283F2CEFC67441A18535E17CC0011FC705834DF58C5256625E2B72020
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6CCBFA9E4293F3ED86FB4593B434D353BF609FBFCE25C57A5838F4BB522D0991
2EB40782B562EBAC37930281802E343D25B84AF8CAB1A298179FDE5F94D2EFF6
1E51EF4784E5BBE4DC230F17B884B0074CA4603416F72C10D9137D79E28967C4
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8A5336590F7B080805A46701B01C9F9919E3890CA1A0373D909373638B57FD0C
87627491C41F1BF1E9643DE7B4""",
"""080012E80D308206E40201000282018100F50BABF75636386F1C606950F495F5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CA9F856E166A8AA052C033F9FCFA70F9E5D65F4ADD1998CCD011283138F6CEC7
BFFBB32FF85A483C4796FA5E349C5F349C2B5EE9361604EDE527FD3FF087A570
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772A7967BDC76D877BF7FE9F42A969BEDF134A7E9D978CF42B2C180F81AF5C70
0D0492EF49F4CB0281C0139CD1ED6FAC7935CD49336A1321354E854D8AC5842D
0578546A559EFF547C1CED924D7BCB3D10743992909E495830948CEA2BE8B7D7
EE3EB5D08A918CE405D6D24FF231F5C616C11632E606EB992BE53E40E0A58898
C2E98C123E48C9ED9CFFF30C0EB76200EAC2C865B056E8425E84D62C913A566E
1F0983119F2FF2B990CA73C77E8FEB60296EE0372EB4FAB4A7D55D6923879C96
EA7E45C402A7C1265240FEAEF5CD03F6C1F148C6D31B9BD93D4724241507058B
4B6A3FFF9A908EADBA9B0281C07259AACD3FD4D7A3B62814F9F3ADD57972CF52
AD319505589E3E838F6A97D45F9965BD9B7A534C007A1B5BEA17D79971F4BCAE
ECCAF0283CEFBB81DCED9AB547221520E3D574746A7390303AD0C64F77657575
9D0D220B3269B739D2AD84501EAF84F819669AA926BA9F058C40BA1FCE327C38
1957F275AD7C6A832086438063A88F8502EC112D06726B9BF550B6E0720B8FDC
3DE36D24F6E1A123779CE59D2340A36E025D47E4B1F8B49BBEF1E0FEEB70AE42
8B86865554F05081A22BF3F399""",
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"""080012AD12308209290201000282020100E35735127777C52E66252B014E9650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0D028EE5F39CEF0C070418C3C8CEAE1243481417F2277FC9207E8F78841653AF
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239EC3344EC5088C3E4787480F876223BBFCF70E48F39A37C4B43B33000F1D7B
38128484865BC4E9614C3F8AB7FAB0829574ECFB30AAE5E954810282010100F9
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9E9DBD942C8C09BB8EBCB8F5E941055F75BCD2DB1337A93FE2D66B2D4F3F6741
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2F72DC29DF1FDA9BCE4467D13D0A7BA4A69E65B1205F443CB015533788B62919
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377F105F5A4B2B44FCACC4745C56B54ABAD14DF31ABF738861F032D48DDE5D02
82010100E8E1F25C4EDDF32B479E092C19C824DC02AF331570EE89A557F69936
F40567377C1CFA0C077716EE8289D7F0467FA6CF96D483B62AFFCE075A8911EE
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CAE48F9CB352452A6DDC1A8FA28AB85372F3E028C4CA44EE54EA61716F829FF9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""",
"""08031279307702010104202D19BABF4420E2F25F075A71DA9DA86E29596C6013
B8FD50D5999F98DF636226A00A06082A8648CE3D030107A14403420004AA407C
C163A2BFF807DAE1BB58A67A3C1A3C80CF83C31C9736607407137511F06812B6
F497BA747F5CA6CB69E21ADA2F291A6040D2D58BD254E1ECCB13B72999""",
"""08011240B9EA7F0357B5C1247E4FCB5AD09C46818ECB07318CA84711875F4C6C
E6B946186A4EB44E0D714B2A2D48263D75CF52D30BEF9D9AE2A9FEB7DAF1775F
E731065A""",
]
PublicKeys = [
"""080012A60230820122300D06092A864886F70D01010105000382010F00308201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""",
"""080012A603308201A2300D06092A864886F70D01010105000382018F00308201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""",
2019-03-02 19:19:41 +00:00
"""080012A60430820222300D06092A864886F70D01010105000382020F00308202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""",
"""0803125B3059301306072A8648CE3D020106082A8648CE3D03010703420004AA
407CC163A2BFF807DAE1BB58A67A3C1A3C80CF83C31C9736607407137511F068
12B6F497BA747F5CA6CB69E21ADA2F291A6040D2D58BD254E1ECCB13B72999""",
"""080112206A4EB44E0D714B2A2D48263D75CF52D30BEF9D9AE2A9FEB7DAF1775F
E731065A""",
]
# Key expanding test vectors obtained from Go implementation
# https://github.com/libp2p/go-libp2p-crypto/blob/master/key.go
Secrets = [
# AES-128 SHA-256
"4F13360145891C202B74FDCA838A85A37CBAEBF5E0774CC344BD6DABA9C4C86A",
"""4ED31DA5EEA36277CA9E1C198F3EBB89AE4A6B18B76E48CAE8AEC23A7D0D4E8F
700D6696AB01365278E5C45C2B4B1807""",
"""01D4FBB5104F9B8DEDA95B447C1401A35F995B6BEFE20DBEFF9F7A13B7DA2831
FB5A7EA194C4CE1ECE340B993C4C2C53FE641227DB7428B62BF4083686F6FF8F
BE8C""",
# Edge case (where Go implementation returns 65 bytes of secret)
# Nim implementation has leading `00`.
"""00691BB84462F460D603B3F5FA0031D8DE195234C65B8890CBB6F84456E9718D
4572749FC6040D0602698EEE6CCF6FB83101A26925D1A3AB40FB45BF98EAF06A
2693""",
# AES-256 SHA-512
"1F29EC3E0A07994D2ACCEA23A2F570DA9C7A7E39D5026FE6340C1E551E1ADAAF",
"""85C20386C1EA1575DD8D111111DBC8B43CA630BEE4BB9AD91658719FF307C0BE
0065935B8B849BE80E0D08A3D39098C3""",
"""01779213E2993A77F1E1BB3B4DB77B5900B53A3A31CDE95D352C695643879824
C8EE6501DC8679F5735869251256830A31357B34FF463B9292C02CD22CD30351
C44F""",
# Edge case (where Go implementation returns 65 bytes of secret)
# Nim implementation has leading `00`.
"""001CC33294544D898781010258C2FB81F02429D2DD54D0B59B8CD2335F57498F
D4E444BEC94DA7BE2BAF3E3796AFA8388F626AEB3178355991985EE5FFC9D1AA
CAD9""",
]
Ivs = [
"F643627AA8B91D40BA644B894C7F148E", "F1D6521E4EE59248F7CCFA6D6C916A32",
"937D77D24441858AF5040C9A81B3D178", "C7D6AE667F38A3E0C77F4AC96D82112F",
"735E51C37802A6E72277EE74C829A84D", "617BAEA342062AE87B7A5D5D9F99371C",
"B535FFA95043C90C5FEEF3654E846445", "3B2D2219A7EE18AB9164910821955C05",
"DACC23805C4ED233A7100A488AB5D68F", "C5BFA3F8BF0D8436840D1AAAF091BD69",
"54CA4A681AEB8B5793A450100244256F", "D1EB94C73D4C033EA4130B47669F4485",
"1F1ADF6BBDE1DFC5F922D672D2344F3A", "A828F6D249F38A917CD297F7BDDE7B70",
"54FC8070579A17F6DAD342174062D60A", "D33C7696183DA21C5CD40AB677BECE7C",
]
CipherKeys = [
"8C2964320284FAD935AFEC1AFEC9EEF7", "622A9292256B012F3EBE814C0DB22095",
"3171DCDBE794BB6CAADDDD71E1751F2C", "5E1519DFCABA2AF17AA4AA580CC1B76E",
"8B7AC311FF7B7EA7B4E55E37688DA2BD", "6BB6E06A3A92D5C300598023330712D4",
"D794A6B794C1E3501A24240D348B9A62", "45E2FFAC35B7647AD5045C8581F39BF0",
"B2F8CDBD11B158DC68120E10A6D04C0B272DC3F698EB56B18094275076307CEB",
"E0238BAA6B77646CD708DD00DE1FD17C6BB45F184348F512F4AE64E00CEA37B9",
"CE009DE8D1C76C2793540A8B24774E09B0F84590B583F1A0551AC0CF1E911BF9",
"ED5F14E36F4F2F80084571B24FD55C870B9C2AD937694B75B90E67D3591DC921",
"1607CC9FF2B19E8F0CDA902D5996948E8EA8CFFA03F956038497684088A88B2F",
"FC2797D1040FF162A90275EBA3FCC4330C2BDC28D23DA80B89842C2D7A6EFA06",
"B83698789ED8E3B44E48EAAEB291B3003AD95FAF344EBA1B9071F4FB46A4E4E9",
"5D90C579971B7B7F9ECDE55EBCE8921B807AAD45D61952228758BA80F4490E8F",
]
MacKeys = [
"2C812CB8425299B485CEE0BC97778F540380F14F",
"8AB685E8A66256480E794B0ADC09BCF4014883C8",
"C68EF3F3102D0CEFC0924FEF17D51FABC23EA54C",
"F177BD066555CF25327C32C807D2E44B7DAC3EFF",
"57176FF3103FA0F4EB58B9E49133C48B4DE9BDE6",
"0C9ECECB80DF43CA2720DD340DD992A80AAB56DB",
"028BCC3F5559CF43DA1B0C1A03E263C90D04DD77",
"02DAF3FF888999C6121CA50F1D49C10FF55F1ACF",
"6F015DDA49E0DFABD5532E6CB08709CE43F326EC",
"68C703B3867247723D21A8C58BA9109DDBB359EF",
"6C91DBB5FE99B94A11D0937D0F4E50F2BCB248F3",
"D5A856ECC5820D611111BE8CEAAD781E6E4E549D",
"9DCEB01D9657A69D40B1885C392FA850486E32B3",
"EE66A1579D732E99A8500F48595BF25289E722DB",
"E692EC73B0A2E68625221E1D01BA0E6B24BCB43F",
"8613E8F86D2DD1CF3CEDC52AD91423F2F31E0003",
]
2021-12-16 10:05:20 +00:00
proc cmp(a, b: openArray[byte]): bool =
2019-03-02 19:19:41 +00:00
result = (@a == @b)
proc testStretcher(s, e: int, cs: string, ds: string): bool =
2019-03-02 19:19:41 +00:00
for i in s ..< e:
var sharedsecret = fromHex(stripSpaces(Secrets[i]))
var secret = stretchKeys(cs, ds, sharedsecret)
var iv1 = fromHex(stripSpaces(Ivs[i * 2]))
var iv2 = fromHex(stripSpaces(Ivs[i * 2 + 1]))
var ckey1 = fromHex(stripSpaces(CipherKeys[i * 2]))
var ckey2 = fromHex(stripSpaces(CipherKeys[i * 2 + 1]))
var mkey1 = fromHex(stripSpaces(MacKeys[i * 2]))
var mkey2 = fromHex(stripSpaces(MacKeys[i * 2 + 1]))
var r1 = cmp(secret.ivOpenArray(0), iv1) == true
var r2 = cmp(secret.ivOpenArray(1), iv2) == true
var r3 = secret.iv(0) == iv1
var r4 = secret.iv(1) == iv2
var r5 = cmp(secret.keyOpenArray(0), ckey1) == true
var r6 = cmp(secret.keyOpenArray(1), ckey2) == true
var r7 = secret.key(0) == ckey1
var r8 = secret.key(1) == ckey2
var r9 = cmp(secret.macOpenArray(0), mkey1) == true
var rA = cmp(secret.macOpenArray(1), mkey2) == true
var rB = secret.mac(0) == mkey1
var rC = secret.mac(1) == mkey2
result =
r1 and r2 and r3 and r4 and r5 and r6 and r7 and r8 and r9 and rA and rB and rC
if not result:
break
let rng = newRng()
2019-03-02 19:19:41 +00:00
suite "Key interface test suite":
test "Go test vectors":
for i in 0 ..< len(PrivateKeys):
var seckey =
PrivateKey.init(fromHex(stripSpaces(PrivateKeys[i]))).expect("private key")
var pubkey =
PublicKey.init(fromHex(stripSpaces(PublicKeys[i]))).expect("public key")
var calckey = seckey.getPublicKey().expect("public key")
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check:
pubkey == calckey
var checkseckey = seckey.getBytes().expect("private key")
var checkpubkey = pubkey.getBytes().expect("public key")
2019-03-02 19:19:41 +00:00
check:
toHex(checkseckey) == stripSpaces(PrivateKeys[i])
toHex(checkpubkey) == stripSpaces(PublicKeys[i])
2023-08-01 13:28:38 +00:00
test "Spec test vectors":
# https://github.com/libp2p/specs/pull/537
const keys = [
(
private:
"08031279307702010104203E5B1FE9712E6C314942A750BD67485DE3C1EFE85B1BFB520AE8F9AE3DFA4A4CA00A06082A8648CE3D030107A14403420004DE3D300FA36AE0E8F5D530899D83ABAB44ABF3161F162A4BC901D8E6ECDA020E8B6D5F8DA30525E71D6851510C098E5C47C646A597FB4DCEC034E9F77C409E62",
public:
"0803125b3059301306072a8648ce3d020106082a8648ce3d03010703420004de3d300fa36ae0e8f5d530899d83abab44abf3161f162a4bc901d8e6ecda020e8b6d5f8da30525e71d6851510c098e5c47c646a597fb4dcec034e9f77c409e62",
),
(
private:
"080112407e0830617c4a7de83925dfb2694556b12936c477a0e1feb2e148ec9da60fee7d1ed1e8fae2c4a144b8be8fd4b47bf3d3b34b871c3cacf6010f0e42d474fce27e",
public:
"080112201ed1e8fae2c4a144b8be8fd4b47bf3d3b34b871c3cacf6010f0e42d474fce27e",
),
(
private:
"0802122053DADF1D5A164D6B4ACDB15E24AA4C5B1D3461BDBD42ABEDB0A4404D56CED8FB",
public:
"08021221037777e994e452c21604f91de093ce415f5432f701dd8cd1a7a6fea0e630bfca99",
),
(
private:
"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
public:
"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",
),
]
for (private, public) in keys:
var seckey = PrivateKey.init(fromHex(private)).expect("private key")
var pubkey = PublicKey.init(fromHex(public)).expect("public key")
var calckey = seckey.getPublicKey().expect("public key")
check:
pubkey == calckey
var checkseckey = seckey.getBytes().expect("private key")
var checkpubkey = pubkey.getBytes().expect("public key")
check:
toHex(checkseckey) == stripSpaces(private).toUpper()
toHex(checkpubkey) == stripSpaces(public).toUpper()
test "Generate/Sign/Serialize/Deserialize/Verify test":
var msg = "message to sign"
var bmsg = cast[seq[byte]](msg)
for i in 0 ..< 5:
var seckey = PrivateKey.random(ECDSA, rng[]).get()
var pubkey = seckey.getPublicKey().get()
var pair = KeyPair.random(ECDSA, rng[]).get()
var sig1 = pair.seckey.sign(bmsg).get()
var sig2 = seckey.sign(bmsg).get()
var sersig1 = sig1.getBytes()
var sersig2 = sig2.getBytes()
var serpub1 = pair.pubkey.getBytes().get()
var serpub2 = pubkey.getBytes().get()
var recsig1 = Signature.init(sersig1).get()
var recsig2 = Signature.init(sersig2).get()
var recpub1 = PublicKey.init(serpub1).get()
var recpub2 = PublicKey.init(serpub2).get()
check:
sig1.verify(bmsg, pair.pubkey) == true
recsig1.verify(bmsg, recpub1) == true
sig2.verify(bmsg, pubkey) == true
recsig2.verify(bmsg, recpub2) == true
for i in 0 ..< 5:
var seckey = PrivateKey.random(Ed25519, rng[]).get()
var pubkey = seckey.getPublicKey().get()
var pair = KeyPair.random(Ed25519, rng[]).get()
var sig1 = pair.seckey.sign(bmsg).get()
var sig2 = seckey.sign(bmsg).get()
var sersig1 = sig1.getBytes()
var sersig2 = sig2.getBytes()
var serpub1 = pair.pubkey.getBytes().get()
var serpub2 = pubkey.getBytes().get()
var recsig1 = Signature.init(sersig1).get()
var recsig2 = Signature.init(sersig2).get()
var recpub1 = PublicKey.init(serpub1).get()
var recpub2 = PublicKey.init(serpub2).get()
check:
sig1.verify(bmsg, pair.pubkey) == true
recsig1.verify(bmsg, recpub1) == true
sig2.verify(bmsg, pubkey) == true
recsig2.verify(bmsg, recpub2) == true
for i in 0 ..< 2:
var seckey = PrivateKey.random(RSA, rng[], 2048).get()
var pubkey = seckey.getPublicKey().get()
var pair = KeyPair.random(RSA, rng[], 2048).get()
var sig1 = pair.seckey.sign(bmsg).get()
var sig2 = seckey.sign(bmsg).get()
var sersig1 = sig1.getBytes()
var sersig2 = sig2.getBytes()
var serpub1 = pair.pubkey.getBytes().get()
var serpub2 = pubkey.getBytes().get()
var recsig1 = Signature.init(sersig1).get()
var recsig2 = Signature.init(sersig2).get()
var recpub1 = PublicKey.init(serpub1).get()
var recpub2 = PublicKey.init(serpub2).get()
check:
sig1.verify(bmsg, pair.pubkey) == true
recsig1.verify(bmsg, recpub1) == true
sig2.verify(bmsg, pubkey) == true
recsig2.verify(bmsg, recpub2) == true
2019-03-02 19:19:41 +00:00
test "Go key stretch function AES128-SHA256 test vectors":
check testStretcher(0, 4, "AES-128", "SHA256") == true
2019-03-02 19:19:41 +00:00
test "Go key stretch function AES256-SHA512 test vectors":
check testStretcher(4, 8, "AES-256", "SHA512") == true
2020-02-14 05:54:00 +00:00
test "ChaChaPoly":
# test data from:
# https://github.com/RustCrypto/AEADs/blob/0cf02f200c8f9404979b46356a8a7b67d7c35a96/chacha20poly1305/tests/lib.rs#L66
let
plain = cast[seq[byte]](@"Ladies and Gentlemen of the class of '99: If I could offer you only one tip for the future, sunscreen would be it.")
tag: ChaChaPolyTag = [
0x1a.byte, 0xe1, 0x0b, 0x59, 0x4f, 0x09, 0xe2, 0x6a, 0x7e, 0x90, 0x2e, 0xcb,
0xd0, 0x60, 0x06, 0x91,
]
var
key: ChaChaPolyKey = [
0x80.byte, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87, 0x88, 0x89, 0x8a, 0x8b,
0x8c, 0x8d, 0x8e, 0x8f, 0x90, 0x91, 0x92, 0x93, 0x94, 0x95, 0x96, 0x97, 0x98,
0x99, 0x9a, 0x9b, 0x9c, 0x9d, 0x9e, 0x9f,
]
nonce: ChaChaPolyNonce =
[0x07.byte, 0x00, 0x00, 0x00, 0x40, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47]
ntag: ChaChaPolyTag # empty
text = plain
cipher = [
0xd3.byte, 0x1a, 0x8d, 0x34, 0x64, 0x8e, 0x60, 0xdb, 0x7b, 0x86, 0xaf, 0xbc,
0x53, 0xef, 0x7e, 0xc2, 0xa4, 0xad, 0xed, 0x51, 0x29, 0x6e, 0x08, 0xfe, 0xa9,
0xe2, 0xb5, 0xa7, 0x36, 0xee, 0x62, 0xd6, 0x3d, 0xbe, 0xa4, 0x5e, 0x8c, 0xa9,
0x67, 0x12, 0x82, 0xfa, 0xfb, 0x69, 0xda, 0x92, 0x72, 0x8b, 0x1a, 0x71, 0xde,
0x0a, 0x9e, 0x06, 0x0b, 0x29, 0x05, 0xd6, 0xa5, 0xb6, 0x7e, 0xcd, 0x3b, 0x36,
0x92, 0xdd, 0xbd, 0x7f, 0x2d, 0x77, 0x8b, 0x8c, 0x98, 0x03, 0xae, 0xe3, 0x28,
0x09, 0x1b, 0x58, 0xfa, 0xb3, 0x24, 0xe4, 0xfa, 0xd6, 0x75, 0x94, 0x55, 0x85,
0x80, 0x8b, 0x48, 0x31, 0xd7, 0xbc, 0x3f, 0xf4, 0xde, 0xf0, 0x8e, 0x4b, 0x7a,
0x9d, 0xe5, 0x76, 0xd2, 0x65, 0x86, 0xce, 0xc6, 0x4b, 0x61, 0x16,
]
aed =
[0x50.byte, 0x51, 0x52, 0x53, 0xc0, 0xc1, 0xc2, 0xc3, 0xc4, 0xc5, 0xc6, 0xc7]
ChaChaPoly.encrypt(key, nonce, ntag, text, aed)
check text.toHex == cipher.toHex
check ntag.toHex == tag.toHex
2020-02-14 05:54:00 +00:00
ChaChaPoly.decrypt(key, nonce, ntag, text, aed)
check text.toHex == plain.toHex
Noise (#90) * Start ChaCha20Poly1305 integration (BearSSL) * Add Curve25519 (BearSSL) required operations for noise * Fix curve mulgen iterate/derive * Fix misleading header * Add chachapoly proper test * Curve25519 integration tests (failing, something is wrong) * Add few converters, finish c25519 integration tests * Remove implicit converters * removed internal globals * Start noise implementation * Fix public() using proper bear mulgen * Noise protocol WIP * Noise progress * Add a quick nim version of HKDF * Converted hkdf to iterator, useful for noise * Noise protocol implementation progress * Noise progress * XX handshake almost there * noise progress * Noise, testing handshake with test vectors * Noise handshake progress, still wrong somewhere! * Noise handshake success! * Full verified noise XX handshake completed * Fix and rewrite test to be similar to switch one * Start with connection upgrade * Switch chachapoly to CT implementations * Improve HKDF implementation * Use a type insted of tuple for HandshakeResult * Remove unnecessary Let * More cosmetic fixes * Properly check randomBytes result * Fix chachapoly signature * Noise full circle (altho dispatcher is nil cursed) * Allow nil aads in chachapoly routines * Noise implementation up to running full test * Use bearssl HKDF as well * Directly use bearssl rng for curve25519 keys * Add a (disabled/no CI) noise interop test server * WIP on fixing interop issues * More fixes in noise implementation for interop * bump chronos requirement (nimble) * Add a chachapoly test for very small size payloads * Noise, more tracing * Add 2 properly working noise tests * Fix payload packing, following the spec properly (and not go version but rather rust) * Sanity, replace discard with asyncCheck * Small fixes and optimization * Use stew endian2 rather then system endian module * Update nimble deps (chronos) * Minor cosmetic/code sanity fixes * Noise, handle Nonce max * Noise tests, make sure to close secured conns * More polish, improve code readability too * More polish and testing again which test fails * Further polishing * Restore noise tests * Remove useless Future[void] * Remove useless CipherState initializer * add a proper read wait future in second noise test * Remove noise generic secure implementation for now * Few fixes to run eth2 sim * Add more debug info in noise traces * Merge size + payload write in sendEncryptedMessage * Revert secure interface, add outgoing property directly in newNoise * remove sendEncrypted and receiveEncrypted * Use openarray in chachapoly and curve25519 helpers
2020-03-17 12:30:01 +00:00
check ntag.toHex == tag.toHex
# ensure even a 2 byte array works
var
smallPlain: array[2, byte]
btag: ChaChaPolyTag
noaed: array[0, byte]
ChaChaPoly.encrypt(key, nonce, btag, smallPlain, noaed)
ntag = btag
ChaChaPoly.decrypt(key, nonce, btag, smallPlain, noaed)
check ntag.toHex == btag.toHex
2020-02-14 05:54:00 +00:00
# ensure even a 0 byte array works
block:
var
emptyPlain: array[0, byte]
btag: ChaChaPolyTag
noaed: array[0, byte]
ChaChaPoly.encrypt(key, nonce, btag, emptyPlain, noaed)
ntag = btag
ChaChaPoly.decrypt(key, nonce, btag, emptyPlain, noaed)
check ntag.toHex == btag.toHex
test "Curve25519":
# from bearssl test_crypto.c
var
bearOp = fromHex(
"A546E36BF0527C9D3B16154B82465EDD62144C0AC1FC5A18506A2244BA449AC4"
)
.intoCurve25519Key()
bearIn = fromHex(
"E6DB6867583030DB3594C1A424B15F7C726624EC26B3353B10A903A6D0AB1C4C"
)
.intoCurve25519Key()
bearOut = fromHex(
"C3DA55379DE9C6908E94EA4DF28D084F32ECCF03491C71F754B4075577A28552"
)
.intoCurve25519Key()
Curve25519.mul(bearIn, bearOp)
check bearIn == bearOut
# from https://github.com/golang/crypto/blob/1d94cc7ab1c630336ab82ccb9c9cda72a875c382/curve25519/vectors_test.go#L26
var
private1: Curve25519Key = [
0x66.byte, 0x8f, 0xb9, 0xf7, 0x6a, 0xd9, 0x71, 0xc8, 0x1a, 0xc9, 0x0, 0x7, 0x1a,
0x15, 0x60, 0xbc, 0xe2, 0xca, 0x0, 0xca, 0xc7, 0xe6, 0x7a, 0xf9, 0x93, 0x48,
0x91, 0x37, 0x61, 0x43, 0x40, 0x14,
]
base: Curve25519Key = [
0xdb.byte, 0x5f, 0x32, 0xb7, 0xf8, 0x41, 0xe7, 0xa1, 0xa0, 0x9, 0x68, 0xef,
0xfd, 0xed, 0x12, 0x73, 0x5f, 0xc4, 0x7a, 0x3e, 0xb1, 0x3b, 0x57, 0x9a, 0xac,
0xad, 0xea, 0xe8, 0x9, 0x39, 0xa7, 0xdd,
]
public1Test: Curve25519Key = [
0x9.byte, 0xd, 0x85, 0xe5, 0x99, 0xea, 0x8e, 0x2b, 0xee, 0xb6, 0x13, 0x4, 0xd3,
0x7b, 0xe1, 0xe, 0xc5, 0xc9, 0x5, 0xf9, 0x92, 0x7d, 0x32, 0xf4, 0x2a, 0x9a, 0xa,
0xfb, 0x3e, 0xb, 0x40, 0x74,
]
Curve25519.mul(base, private1)
check base.toHex == public1Test.toHex
# RFC vectors
2020-02-16 15:54:53 +00:00
private1 = fromHex(
"a8abababababababababababababababababababababababababababababab6b"
).intoCurve25519Key
check private1.public().toHex ==
"E3712D851A0E5D79B831C5E34AB22B41A198171DE209B8B8FACA23A11C624859"
2020-02-16 15:54:53 +00:00
private1 = fromHex(
"c8cdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcdcd4d"
).intoCurve25519Key
check private1.public().toHex ==
"B5BEA823D9C9FF576091C54B7C596C0AE296884F0E150290E88455D7FBA6126F"
2020-02-16 15:54:53 +00:00
private1 = fromHex(
"77076d0a7318a57d3c16c17251b26645df4c2f87ebc0992ab177fba51db92c2a"
).intoCurve25519Key
var
2020-02-16 15:54:53 +00:00
private2 = fromHex(
"5dab087e624a8a4b79e17f8b83800ee66f3bb1292618b6fd1c2f8b27ff88e0eb"
).intoCurve25519Key
p1Pub = private1.public()
p2Pub = private2.public()
check p1Pub.toHex ==
"8520F0098930A754748B7DDCB43EF75A0DBF3A0D26381AF4EBA4A98EAA9B4E6A"
check p2Pub.toHex ==
"DE9EDB7D7B7DC1B4D35B61C2ECE435373F8343C85B78674DADFC7E146F882B4F"
var
secret1 = p2Pub
secret2 = p1Pub
Curve25519.mul(secret1, private1)
Curve25519.mul(secret2, private2)
check secret1.toHex == secret2.toHex
Noise (#90) * Start ChaCha20Poly1305 integration (BearSSL) * Add Curve25519 (BearSSL) required operations for noise * Fix curve mulgen iterate/derive * Fix misleading header * Add chachapoly proper test * Curve25519 integration tests (failing, something is wrong) * Add few converters, finish c25519 integration tests * Remove implicit converters * removed internal globals * Start noise implementation * Fix public() using proper bear mulgen * Noise protocol WIP * Noise progress * Add a quick nim version of HKDF * Converted hkdf to iterator, useful for noise * Noise protocol implementation progress * Noise progress * XX handshake almost there * noise progress * Noise, testing handshake with test vectors * Noise handshake progress, still wrong somewhere! * Noise handshake success! * Full verified noise XX handshake completed * Fix and rewrite test to be similar to switch one * Start with connection upgrade * Switch chachapoly to CT implementations * Improve HKDF implementation * Use a type insted of tuple for HandshakeResult * Remove unnecessary Let * More cosmetic fixes * Properly check randomBytes result * Fix chachapoly signature * Noise full circle (altho dispatcher is nil cursed) * Allow nil aads in chachapoly routines * Noise implementation up to running full test * Use bearssl HKDF as well * Directly use bearssl rng for curve25519 keys * Add a (disabled/no CI) noise interop test server * WIP on fixing interop issues * More fixes in noise implementation for interop * bump chronos requirement (nimble) * Add a chachapoly test for very small size payloads * Noise, more tracing * Add 2 properly working noise tests * Fix payload packing, following the spec properly (and not go version but rather rust) * Sanity, replace discard with asyncCheck * Small fixes and optimization * Use stew endian2 rather then system endian module * Update nimble deps (chronos) * Minor cosmetic/code sanity fixes * Noise, handle Nonce max * Noise tests, make sure to close secured conns * More polish, improve code readability too * More polish and testing again which test fails * Further polishing * Restore noise tests * Remove useless Future[void] * Remove useless CipherState initializer * add a proper read wait future in second noise test * Remove noise generic secure implementation for now * Few fixes to run eth2 sim * Add more debug info in noise traces * Merge size + payload write in sendEncryptedMessage * Revert secure interface, add outgoing property directly in newNoise * remove sendEncrypted and receiveEncrypted * Use openarray in chachapoly and curve25519 helpers
2020-03-17 12:30:01 +00:00
test "HKDF 1":
let
ikm = fromHex("0x0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b")
salt = fromHex("0x000102030405060708090a0b0c")
info = fromHex("0xf0f1f2f3f4f5f6f7f8f9")
truth =
"3cb25f25faacd57a90434f64d0362f2a2d2d0a90cf1a5a4c5db02d56ecc4c5bf34007208d5b887185865"
var output: array[1, array[42, byte]]
sha256.hkdf(salt, ikm, info, output)
check output[0].toHex(true) == truth
test "HKDF 2":
let
ikm = fromHex("0x0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b")
salt = fromHex("")
info = fromHex("")
truth =
"8da4e775a563c18f715f802a063c5a31b8a11f5c5ee1879ec3454e5f3c738d2d9d201395faa4b61a96c8"
var output: array[1, array[42, byte]]
sha256.hkdf(salt, ikm, info, output)
check output[0].toHex(true) == truth
test "shuffle":
var cards = ["Ace", "King", "Queen", "Jack", "Ten"]
var rng = (ref HmacDrbgContext)()
hmacDrbgInit(rng[], addr sha256Vtable, nil, 0)
rng.shuffle(cards)
check cards == ["King", "Ten", "Ace", "Queen", "Jack"]