mirror of https://github.com/vacp2p/nim-libp2p.git
Fix import bugs.
Add PublicKey and Signature types to daemonapi. Add more tests for crypto.nim
This commit is contained in:
parent
6321689c3c
commit
dc2d0538ff
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@ -8,11 +8,13 @@
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## those terms.
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## This module implements Public Key and Private Key interface for libp2p.
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import rsa, ecnist
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import ed25519/ed25519
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import ../protobuf/minprotobuf
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import rsa, ecnist, ed25519/ed25519
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import ../protobuf/minprotobuf, ../vbuffer
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import nimcrypto/[rijndael, blowfish, sha, sha2, hash, hmac, utils]
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# This is workaround for Nim's `import` bug
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export rijndael, blowfish, sha, sha2, hash, hmac, utils
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type
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PKScheme* = enum
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RSA = 0,
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@ -69,7 +71,11 @@ type
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macsize*: int
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data*: seq[byte]
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Signature* = object
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data*: seq[byte]
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P2pKeyError* = object of Exception
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P2pSigError* = object of Exception
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const
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SupportedSchemes* = {RSA, Ed25519, ECDSA}
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@ -192,6 +198,14 @@ proc toBytes*(key: PublicKey, data: var openarray[byte]): int =
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if len(data) >= result:
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copyMem(addr data[0], addr msg.buffer[0], len(msg.buffer))
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proc toBytes*(sig: Signature, data: var openarray[byte]): int =
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## Serialize signature ``sig`` and store it to ``data``.
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##
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## Returns number of bytes (octets) needed to store signature ``sig``.
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result = len(sig.data)
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if len(data) >= result:
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copyMem(addr data[0], unsafeAddr sig.data[0], len(sig.data))
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proc getBytes*(key: PrivateKey): seq[byte] =
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## Return private key ``key`` in binary form (using libp2p's protobuf
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## serialization).
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@ -210,6 +224,10 @@ proc getBytes*(key: PublicKey): seq[byte] =
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msg.finish()
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result = msg.buffer
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proc getBytes*(sig: Signature): seq[byte] =
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## Return signature ``sig`` in binary form.
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result = sig.data
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proc init*(key: var PrivateKey, data: openarray[byte]): bool =
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## Initialize private key ``key`` from libp2p's protobuf serialized raw
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## binary form.
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@ -264,6 +282,14 @@ proc init*(key: var PublicKey, data: openarray[byte]): bool =
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key = nkey
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result = true
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proc init*(sig: var Signature, data: openarray[byte]): bool =
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## Initialize signature ``sig`` from raw binary form.
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##
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## Returns ``true`` on success.
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if len(data) > 0:
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sig.data = @data
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result = true
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proc init*(key: var PrivateKey, data: string): bool =
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## Initialize private key ``key`` from libp2p's protobuf serialized
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## hexadecimal string representation.
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@ -278,6 +304,13 @@ proc init*(key: var PublicKey, data: string): bool =
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## Returns ``true`` on success.
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result = key.init(fromHex(data))
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proc init*(sig: var Signature, data: string): bool =
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## Initialize signature ``sig`` from serialized hexadecimal string
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## representation.
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##
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## Returns ``true`` on success.
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result = sig.init(fromHex(data))
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proc init*(t: typedesc[PrivateKey], data: openarray[byte]): PrivateKey =
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## Create new private key from libp2p's protobuf serialized binary form.
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if not result.init(data):
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@ -288,6 +321,11 @@ proc init*(t: typedesc[PublicKey], data: openarray[byte]): PublicKey =
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if not result.init(data):
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raise newException(P2pKeyError, "Incorrect binary form")
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proc init*(t: typedesc[Signature], data: openarray[byte]): Signature =
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## Create new public key from libp2p's protobuf serialized binary form.
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if not result.init(data):
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raise newException(P2pSigError, "Incorrect binary form")
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proc init*(t: typedesc[PrivateKey], data: string): PrivateKey =
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## Create new private key from libp2p's protobuf serialized hexadecimal string
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## form.
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@ -298,6 +336,10 @@ proc init*(t: typedesc[PublicKey], data: string): PublicKey =
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## form.
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result = t.init(fromHex(data))
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proc init*(t: typedesc[Signature], data: string): Signature =
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## Create new signature from serialized hexadecimal string form.
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result = t.init(fromHex(data))
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proc `==`*(key1, key2: PublicKey): bool =
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## Return ``true`` if two public keys ``key1`` and ``key2`` of the same
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## scheme and equal.
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@ -346,34 +388,38 @@ proc `$`*(key: PublicKey): string =
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result.add($(key.eckey))
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result.add(")")
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proc sign*(key: PrivateKey, data: openarray[byte]): seq[byte] =
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proc `$`*(sig: Signature): string =
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## Get string representation of signature ``sig``.
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result = toHex(sig.data)
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proc sign*(key: PrivateKey, data: openarray[byte]): Signature =
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## Sign message ``data`` using private key ``key`` and return generated
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## signature in raw binary form.
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if key.scheme == RSA:
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var sig = key.rsakey.sign(data)
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result = sig.getBytes()
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result.data = sig.getBytes()
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elif key.scheme == Ed25519:
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var sig = key.edkey.sign(data)
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result = sig.getBytes()
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result.data = sig.getBytes()
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elif key.scheme == ECDSA:
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var sig = key.eckey.sign(data)
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result = sig.getBytes()
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result.data = sig.getBytes()
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proc verify*(sig: openarray[byte], message: openarray[byte],
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proc verify*(sig: Signature, message: openarray[byte],
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key: PublicKey): bool =
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## Verify signature ``sig`` using message ``message`` and public key ``key``.
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## Return ``true`` if message signature is valid.
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if key.scheme == RSA:
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var signature: RsaSignature
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if signature.init(sig) == Asn1Status.Success:
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if signature.init(sig.data) == Asn1Status.Success:
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result = signature.verify(message, key.rsakey)
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elif key.scheme == Ed25519:
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var signature: EdSignature
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if signature.init(sig):
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if signature.init(sig.data):
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result = signature.verify(message, key.edkey)
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elif key.scheme == ECDSA:
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var signature: EcSignature
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if signature.init(sig) == Asn1Status.Success:
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if signature.init(sig.data) == Asn1Status.Success:
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result = signature.verify(message, key.eckey)
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template makeSecret(buffer, hmactype, secret, seed) =
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@ -485,3 +531,62 @@ proc makeSecret*(remoteEPublic: PublicKey, localEPrivate: PrivateKey,
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if remoteEPublic.scheme == ECDSA:
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if localEPrivate.scheme == remoteEPublic.scheme:
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result = toSecret(remoteEPublic.eckey, localEPrivate.eckey, data)
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## Serialization/Deserialization helpers
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proc write*(vb: var VBuffer, pubkey: PublicKey) {.inline.} =
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## Write PublicKey value ``pubkey`` to buffer ``vb``.
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vb.writeSeq(pubkey.getBytes())
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proc write*(vb: var VBuffer, seckey: PrivateKey) {.inline.} =
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## Write PrivateKey value ``seckey`` to buffer ``vb``.
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vb.writeSeq(seckey.getBytes())
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proc write*(vb: var VBuffer, sig: PrivateKey) {.inline.} =
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## Write Signature value ``sig`` to buffer ``vb``.
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vb.writeSeq(sig.getBytes())
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proc initProtoField*(index: int, pubkey: PublicKey): ProtoField =
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## Initialize ProtoField with PublicKey ``pubkey``.
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result = initProtoField(index, pubkey.getBytes())
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proc initProtoField*(index: int, seckey: PrivateKey): ProtoField =
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## Initialize ProtoField with PrivateKey ``seckey``.
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result = initProtoField(index, seckey.getBytes())
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proc initProtoField*(index: int, sig: Signature): ProtoField =
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## Initialize ProtoField with Signature ``sig``.
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result = initProtoField(index, sig.getBytes())
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proc getValue*(data: var ProtoBuffer, field: int, value: var PublicKey): int =
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## Read ``PublicKey`` from ProtoBuf's message and validate it.
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var buf: seq[byte]
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var key: PublicKey
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result = getLengthValue(data, field, buf)
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if result > 0:
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if not key.init(buf):
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result = -1
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else:
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value = key
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proc getValue*(data: var ProtoBuffer, field: int, value: var PrivateKey): int =
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## Read ``PrivateKey`` from ProtoBuf's message and validate it.
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var buf: seq[byte]
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var key: PrivateKey
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result = getLengthValue(data, field, buf)
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if result > 0:
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if not key.init(buf):
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result = -1
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else:
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value = key
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proc getValue*(data: var ProtoBuffer, field: int, value: var Signature): int =
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## Read ``Signature`` from ProtoBuf's message and validate it.
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var buf: seq[byte]
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var sig: Signature
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result = getLengthValue(data, field, buf)
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if result > 0:
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if not sig.init(buf):
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result = -1
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else:
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value = sig
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@ -14,7 +14,33 @@ import constants
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import nimcrypto/[hash, sha2, sysrand, utils]
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# This workaround needed because of some bugs in Nim Static[T].
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export sha2
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export hash, sha2
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const
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EdPrivateKeySize* = 64
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## Size in octets (bytes) of serialized ED25519 private key.
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EdPublicKeySize* = 32
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## Size in octets (bytes) of serialized ED25519 public key.
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EdSignatureSize* = 64
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## Size in octets (bytes) of serialized ED25519 signature.
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type
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EdPrivateKey* = object
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data*: array[EdPrivateKeySize, byte]
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EdPublicKey* = object
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data*: array[EdPublicKeySize, byte]
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EdSignature* = object
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data*: array[EdSignatureSize, byte]
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EdKeyPair* = object
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seckey*: EdPrivateKey
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pubkey*: EdPublicKey
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EdError* = object of Exception
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EdRngError* = object of EdError
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EdIncorrectError* = object of EdError
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proc `-`(x: uint32): uint32 {.inline.} =
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result = (0xFFFF_FFFF'u32 - x) + 1'u32
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c = -1
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result = NEQ(z, 0'u32) and LT0(c)
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const
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EdPrivateKeySize* = 64
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## Size in octets (bytes) of serialized ED25519 private key.
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EdPublicKeySize* = 32
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## Size in octets (bytes) of serialized ED25519 public key.
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EdSignatureSize* = 64
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## Size in octets (bytes) of serialized ED25519 signature.
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type
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EdPrivateKey* = object
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data*: array[EdPrivateKeySize, byte]
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EdPublicKey* = object
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data*: array[EdPublicKeySize, byte]
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EdSignature* = object
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data*: array[EdSignatureSize, byte]
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EdKeyPair* = object
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seckey*: EdPrivateKey
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pubkey*: EdPublicKey
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EdError* = object of Exception
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EdRngError* = object of EdError
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EdIncorrectError* = object of EdError
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proc random*(t: typedesc[EdPrivateKey]): EdPrivateKey =
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## Generate new random ED25519 private key using OS specific CSPRNG.
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var
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pk: array[EdPublicKeySize, byte]
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if randomBytes(result.data.toOpenArray(0, 31)) != 32:
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raise newException(EdRngError, "Could not generate random data")
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var hash = sha512.digest(result.data.toOpenArray(0, 31))
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hash.data[0] = hash.data[0] and 0xF8'u8
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hash.data[31] = hash.data[31] and 0x3F'u8
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hash.data[31] = hash.data[31] or 0x40'u8
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geScalarMultBase(point, hash.data)
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var hh = sha512.digest(result.data.toOpenArray(0, 31))
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hh.data[0] = hh.data[0] and 0xF8'u8
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hh.data[31] = hh.data[31] and 0x3F'u8
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hh.data[31] = hh.data[31] or 0x40'u8
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geScalarMultBase(point, hh.data)
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geP3ToBytes(pk, point)
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copyMem(addr result.data[32], addr pk[0], 32)
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var point: GeP3
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if randomBytes(result.seckey.data.toOpenArray(0, 31)) != 32:
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raise newException(EdRngError, "Could not generate random data")
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var hash = sha512.digest(result.seckey.data.toOpenArray(0, 31))
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hash.data[0] = hash.data[0] and 0xF8'u8
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hash.data[31] = hash.data[31] and 0x3F'u8
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hash.data[31] = hash.data[31] or 0x40'u8
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geScalarMultBase(point, hash.data)
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var hh = sha512.digest(result.seckey.data.toOpenArray(0, 31))
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hh.data[0] = hh.data[0] and 0xF8'u8
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hh.data[31] = hh.data[31] and 0x3F'u8
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hh.data[31] = hh.data[31] or 0x40'u8
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geScalarMultBase(point, hh.data)
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geP3ToBytes(result.pubkey.data, point)
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copyMem(addr result.seckey.data[32], addr result.pubkey.data[0], 32)
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@ -12,8 +12,9 @@ import os, osproc, strutils, tables, streams, strtabs
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import chronos
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import ../varint, ../multiaddress, ../multicodec, ../base58, ../cid, ../peer
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import ../wire, ../multihash, ../protobuf/minprotobuf
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import ../crypto/crypto
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export peer, multiaddress, multicodec, multihash, cid
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export peer, multiaddress, multicodec, multihash, cid, crypto
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when not defined(windows):
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import posix
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VALUE = 1,
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END = 2
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# PeerID* = seq[byte]
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MultiProtocol* = string
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LibP2PPublicKey* = seq[byte]
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DHTValue* = seq[byte]
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P2PStreamFlags* {.pure.} = enum
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data*: seq[byte]
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seqno*: seq[byte]
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topics*: seq[string]
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signature*: seq[byte]
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key*: seq[byte]
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signature*: Signature
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key*: PublicKey
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P2PStreamCallback* = proc(api: DaemonAPI,
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stream: P2PStream): Future[void] {.gcsafe.}
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@ -662,7 +661,7 @@ proc newDaemonApi*(flags: set[P2PDaemonFlags] = {},
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raise newException(DaemonLocalError, "Could not find daemon executable!")
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# Starting daemon process
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echo "Starting ", cmd, " ", args.join(" ")
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# echo "Starting ", cmd, " ", args.join(" ")
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api.process = startProcess(cmd, "", args, env, {poStdErrToStdOut})
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# Waiting until daemon will not be bound to control socket.
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while true:
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@ -928,6 +927,10 @@ proc dhtGetSingleValue(pb: var ProtoBuffer): seq[byte] =
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if pb.getLengthValue(3, result) == -1:
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raise newException(DaemonLocalError, "Missing field `value`!")
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proc dhtGetSinglePublicKey(pb: var ProtoBuffer): PublicKey =
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if pb.getValue(3, result) == -1:
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raise newException(DaemonLocalError, "Missing field `value`!")
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proc dhtGetSinglePeerID(pb: var ProtoBuffer): PeerID =
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if pb.getValue(3, result) == -1:
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raise newException(DaemonLocalError, "Missing field `value`!")
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@ -975,7 +978,7 @@ proc dhtFindPeer*(api: DaemonAPI, peer: PeerID,
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await api.closeConnection(transp)
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proc dhtGetPublicKey*(api: DaemonAPI, peer: PeerID,
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timeout = 0): Future[LibP2PPublicKey] {.async.} =
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timeout = 0): Future[PublicKey] {.async.} =
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## Get peer's public key from peer with id ``peer``.
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##
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## You can specify timeout for DHT request with ``timeout`` value. ``0`` value
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@ -985,7 +988,7 @@ proc dhtGetPublicKey*(api: DaemonAPI, peer: PeerID,
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var pb = await transp.transactMessage(requestDHTGetPublicKey(peer, timeout))
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withMessage(pb) do:
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pb.enterDhtMessage(DHTResponseType.VALUE)
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result = pb.dhtGetSingleValue()
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result = pb.dhtGetSinglePublicKey()
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finally:
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await api.closeConnection(transp)
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@ -1178,8 +1181,6 @@ proc pubsubPublish*(api: DaemonAPI, topic: string,
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proc getPubsubMessage*(pb: var ProtoBuffer): PubSubMessage =
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result.data = newSeq[byte]()
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result.seqno = newSeq[byte]()
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result.signature = newSeq[byte]()
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result.key = newSeq[byte]()
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discard pb.getValue(1, result.peer)
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discard pb.getBytes(2, result.data)
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discard pb.getBytes(3, result.seqno)
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@ -1193,8 +1194,8 @@ proc getPubsubMessage*(pb: var ProtoBuffer): PubSubMessage =
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result.topics = newSeq[string]()
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result.topics.add(stritem)
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item.setLen(0)
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discard pb.getBytes(5, result.signature)
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discard pb.getBytes(6, result.key)
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discard pb.getValue(5, result.signature)
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discard pb.getValue(6, result.key)
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proc pubsubLoop(api: DaemonAPI, ticket: PubsubTicket) {.async.} =
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while true:
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@ -24,6 +24,9 @@ import tables
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import nimcrypto/[sha, sha2, keccak, blake2, hash, utils]
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import varint, vbuffer, base58, multicodec, multibase
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# This is workaround for Nim `import` bug.
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export sha, sha2, keccak, blake2, hash, utils
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const
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MaxHashSize* = 128
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@ -342,9 +342,6 @@ const
|
|||
"FA5CB0689A1DFDBAE8618BC079D70E318377B0DA"
|
||||
]
|
||||
|
||||
|
||||
|
||||
|
||||
proc cmp(a, b: openarray[byte]): bool =
|
||||
result = (@a == @b)
|
||||
|
||||
|
@ -390,6 +387,70 @@ suite "Key interface test suite":
|
|||
toHex(checkseckey) == stripSpaces(PrivateKeys[i])
|
||||
toHex(checkpubkey) == stripSpaces(PublicKeys[i])
|
||||
|
||||
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)
|
||||
var pubkey = seckey.getKey()
|
||||
var pair = KeyPair.random(ECDSA)
|
||||
var sig1 = pair.seckey.sign(bmsg)
|
||||
var sig2 = seckey.sign(bmsg)
|
||||
var sersig1 = sig1.getBytes()
|
||||
var sersig2 = sig2.getBytes()
|
||||
var serpub1 = pair.pubkey.getBytes()
|
||||
var serpub2 = pubkey.getBytes()
|
||||
var recsig1 = Signature.init(sersig1)
|
||||
var recsig2 = Signature.init(sersig2)
|
||||
var recpub1 = PublicKey.init(serpub1)
|
||||
var recpub2 = PublicKey.init(serpub2)
|
||||
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)
|
||||
var pubkey = seckey.getKey()
|
||||
var pair = KeyPair.random(Ed25519)
|
||||
var sig1 = pair.seckey.sign(bmsg)
|
||||
var sig2 = seckey.sign(bmsg)
|
||||
var sersig1 = sig1.getBytes()
|
||||
var sersig2 = sig2.getBytes()
|
||||
var serpub1 = pair.pubkey.getBytes()
|
||||
var serpub2 = pubkey.getBytes()
|
||||
var recsig1 = Signature.init(sersig1)
|
||||
var recsig2 = Signature.init(sersig2)
|
||||
var recpub1 = PublicKey.init(serpub1)
|
||||
var recpub2 = PublicKey.init(serpub2)
|
||||
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(RSA, 512)
|
||||
var pubkey = seckey.getKey()
|
||||
var pair = KeyPair.random(RSA, 512)
|
||||
var sig1 = pair.seckey.sign(bmsg)
|
||||
var sig2 = seckey.sign(bmsg)
|
||||
var sersig1 = sig1.getBytes()
|
||||
var sersig2 = sig2.getBytes()
|
||||
var serpub1 = pair.pubkey.getBytes()
|
||||
var serpub2 = pubkey.getBytes()
|
||||
var recsig1 = Signature.init(sersig1)
|
||||
var recsig2 = Signature.init(sersig2)
|
||||
var recpub1 = PublicKey.init(serpub1)
|
||||
var recpub2 = PublicKey.init(serpub2)
|
||||
check:
|
||||
sig1.verify(bmsg, pair.pubkey) == true
|
||||
recsig1.verify(bmsg, recpub1) == true
|
||||
sig2.verify(bmsg, pubkey) == true
|
||||
recsig2.verify(bmsg, recpub2) == true
|
||||
|
||||
test "Go key stretch function AES128-SHA256 test vectors":
|
||||
check testStretcher(0, 4, Aes128, Sha256) == true
|
||||
test "Go key stretch function AES256-SHA512 test vectors":
|
||||
|
|
Loading…
Reference in New Issue