301 lines
10 KiB
Nim
301 lines
10 KiB
Nim
# beacon_chain
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# Copyright (c) 2018-2019 Status Research & Development GmbH
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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# At the time of writing, the exact definitions of what should be used for
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# cryptography in the spec is in flux, with sizes and test vectors still being
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# hashed out. This layer helps isolate those chagnes.
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# BLS signatures can be combined such that multiple signatures are aggregated.
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# Each time a new signature is added, the corresponding public key must be
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# added to the verification key as well - if a key signs twice, it must be added
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# twice to the verification key. Aggregated signatures can be combined
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# arbitrarily (like addition) as long as public keys are aggregated in the same
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# way.
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#
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# In eth2, we use a single bit to record which keys have signed, thus we cannot
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# combined overlapping aggregates - ie if we have an aggregate of signatures of
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# A, B and C, and another with B, C and D, we cannot practically combine them
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# even if in theory it is possible to allow this in BLS.
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import
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stew/[endians2, objects, byteutils], hashes, nimcrypto/utils,
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blscurve, json_serialization,
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../version, digest,
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chronicles
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export
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json_serialization
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export
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blscurve.init, blscurve.getBytes, blscurve.combine,
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blscurve.`$`, blscurve.`==`,
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blscurve.Signature
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type
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BlsValueType* = enum
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Real
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OpaqueBlob
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BlsValue*[T] = object
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# TODO This is a temporary type needed until we sort out the
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# issues with invalid BLS values appearing in the SSZ test suites.
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case kind*: BlsValueType
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of Real:
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blsValue*: T
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of OpaqueBlob:
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when T is blscurve.Signature:
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blob*: array[96, byte]
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else:
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blob*: array[48, byte]
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ValidatorPubKey* = BlsValue[blscurve.VerKey]
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# ValidatorPubKey* = blscurve.VerKey
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# ValidatorPubKey* = array[48, byte]
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# The use of byte arrays proved to be a dead end pretty quickly.
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# Plenty of code needs to be modified for a successful build and
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# the changes will negatively affect the performance.
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# ValidatorPrivKey* = BlsValue[blscurve.SigKey]
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ValidatorPrivKey* = blscurve.SigKey
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ValidatorSig* = BlsValue[blscurve.Signature]
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BlsCurveType* = VerKey|SigKey|Signature
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ValidatorPKI* = ValidatorPrivKey|ValidatorPubKey|ValidatorSig
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proc init*[T](BLS: type BlsValue[T], val: auto): BLS =
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result.kind = BlsValueType.Real
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result.blsValue = init(T, val)
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func `$`*(x: BlsValue): string =
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if x.kind == Real:
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$x.blsValue
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else:
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# r: is short for random. The prefix must be short
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# due to the mechanics of the `shortLog` function.
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"r:" & toHex(x.blob, true)
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func `==`*(a, b: BlsValue): bool =
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if a.kind != b.kind: return false
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if a.kind == Real:
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return a.blsValue == b.blsValue
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else:
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return a.blob == b.blob
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func getBytes*(x: BlsValue): auto =
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if x.kind == Real:
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getBytes x.blsValue
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else:
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x.blob
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func shortLog*(x: BlsValue): string =
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($x)[0..7]
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func shortLog*(x: BlsCurveType): string =
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($x)[0..7]
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func hash*(x: BlsValue): Hash {.inline.} =
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if x.kind == Real:
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hash x.blsValue.getBytes()
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else:
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hash x.blob
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template hash*(x: BlsCurveType): Hash =
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hash(getBytes(x))
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template `==`*[T](a: BlsValue[T], b: T): bool =
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a.blsValue == b
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template `==`*[T](a: T, b: BlsValue[T]): bool =
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a == b.blsValue
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func pubKey*(pk: ValidatorPrivKey): ValidatorPubKey =
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when ValidatorPubKey is BlsValue:
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ValidatorPubKey(kind: Real, blsValue: pk.getKey())
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elif ValidatorPubKey is array:
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pk.getKey.getBytes
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else:
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pk.getKey
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func init(T: type VerKey): VerKey =
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result.point.inf()
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func init(T: type SigKey): SigKey =
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result.point.inf()
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func init(T: type Signature): Signature =
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result.point.inf()
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func combine*[T](values: openarray[BlsValue[T]]): BlsValue[T] =
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result = BlsValue[T](kind: Real, blsValue: T.init())
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for value in values:
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result.blsValue.combine(value.blsValue)
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func combine*[T](x: var BlsValue[T], other: BlsValue[T]) =
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doAssert x.kind == Real and other.kind == Real
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x.blsValue.combine(other.blsValue)
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# https://github.com/ethereum/eth2.0-specs/blob/v0.9.2/specs/bls_signature.md#bls_aggregate_pubkeys
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func bls_aggregate_pubkeys*(keys: openArray[ValidatorPubKey]): ValidatorPubKey =
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keys.combine()
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# https://github.com/ethereum/eth2.0-specs/blob/v0.9.2/specs/bls_signature.md#bls_aggregate_signatures
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func bls_aggregate_signatures*(keys: openArray[ValidatorSig]): ValidatorSig =
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keys.combine()
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# https://github.com/ethereum/eth2.0-specs/blob/v0.9.2/specs/bls_signature.md#bls_verify
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func bls_verify*(
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pubkey: ValidatorPubKey, msg: openArray[byte], sig: ValidatorSig,
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domain: Domain): bool =
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# name from spec!
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if sig.kind != Real:
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# Invalid signatures are possible in deposits (discussed with Danny)
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return false
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when ValidatorPubKey is BlsValue:
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if sig.kind != Real or pubkey.kind != Real:
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# TODO: chronicles warning
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return false
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# TODO bls_verify_multiple(...) used to have this workaround, and now it
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# lives here. No matter the signature, there's also no meaningful way to
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# verify it -- it's a kind of vacuous truth. No pubkey/sig pairs.
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if pubkey == default(ValidatorPubKey):
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return true
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sig.blsValue.verify(msg, domain, pubkey.blsValue)
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else:
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sig.verify(msg, domain, pubkey)
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when ValidatorPrivKey is BlsValue:
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func bls_sign*(key: ValidatorPrivKey, msg: openarray[byte],
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domain: Domain): ValidatorSig =
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# name from spec!
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if key.kind == Real:
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ValidatorSig(kind: Real, blsValue: key.blsValue.sign(domain, msg))
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else:
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ValidatorSig(kind: OpaqueBlob)
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else:
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func bls_sign*(key: ValidatorPrivKey, msg: openarray[byte],
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domain: Domain): ValidatorSig =
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# name from spec!
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ValidatorSig(kind: Real, blsValue: key.sign(domain, msg))
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func fromBytes*[T](R: type BlsValue[T], bytes: openarray[byte]): R =
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# This is a workaround, so that we can deserialize the serialization of a
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# default-initialized BlsValue without raising an exception
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when defined(ssz_testing):
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# Only for SSZ parsing tests, everything is an opaque blob
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R(kind: OpaqueBlob, blob: toArray(result.blob.len, bytes))
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else:
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# Try if valid BLS value
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# TODO: address the side-effects in nim-blscurve
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{.noSideEffect.}:
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let success = init(result.blsValue, bytes)
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if not success:
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# TODO: chronicles trace
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result = R(kind: OpaqueBlob)
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doAssert result.blob.len == bytes.len
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result.blob[result.blob.low .. result.blob.high] = bytes
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func fromHex*[T](R: type BlsValue[T], hexStr: string): R =
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fromBytes(R, hexToSeqByte(hexStr))
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func initFromBytes*[T](val: var BlsValue[T], bytes: openarray[byte]) =
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val = fromBytes(BlsValue[T], bytes)
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func initFromBytes*(val: var BlsCurveType, bytes: openarray[byte]) =
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val = init(type(val), bytes)
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proc writeValue*(writer: var JsonWriter, value: ValidatorPubKey) {.inline.} =
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when value is BlsValue:
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doAssert value.kind == Real
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writer.writeValue($value.blsValue)
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else:
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writer.writeValue($value)
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proc readValue*(reader: var JsonReader, value: var ValidatorPubKey) {.inline.} =
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value.initFromBytes(fromHex reader.readValue(string))
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proc writeValue*(writer: var JsonWriter, value: ValidatorSig) {.inline.} =
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when value is BlsValue:
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if value.kind == Real:
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writer.writeValue($value.blsValue)
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else:
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# Workaround: https://github.com/status-im/nim-beacon-chain/issues/374
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let asHex = toHex(value.blob, true)
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# echo "[Warning] writing raw opaque signature: ", asHex
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writer.writeValue(asHex)
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else:
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writer.writeValue($value)
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proc readValue*(reader: var JsonReader, value: var ValidatorSig) {.inline.} =
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value.initFromBytes(fromHex reader.readValue(string))
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proc writeValue*(writer: var JsonWriter, value: ValidatorPrivKey) {.inline.} =
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when value is BlsValue:
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doAssert value.kind == Real
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writer.writeValue($value.blsValue)
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else:
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writer.writeValue($value)
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proc readValue*(reader: var JsonReader, value: var ValidatorPrivKey) {.inline.} =
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value.initFromBytes(fromHex reader.readValue(string))
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when ValidatorPrivKey is BlsValue:
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proc newPrivKey*(): ValidatorPrivKey =
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ValidatorPrivKey(kind: Real, blsValue: SigKey.random())
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else:
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proc newPrivKey*(): ValidatorPrivKey =
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SigKey.random()
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when networkBackend == rlpx:
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import eth/rlp
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when ValidatorPubKey is BlsValue:
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proc append*(writer: var RlpWriter, value: ValidatorPubKey) =
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writer.append if value.kind == Real: value.blsValue.getBytes()
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else: value.blob
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else:
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proc append*(writer: var RlpWriter, value: ValidatorPubKey) =
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writer.append value.getBytes()
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proc read*(rlp: var Rlp, T: type ValidatorPubKey): T {.inline.} =
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result.initFromBytes rlp.toBytes.toOpenArray
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when ValidatorSig is BlsValue:
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proc append*(writer: var RlpWriter, value: ValidatorSig) =
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writer.append if value.kind == Real: value.blsValue.getBytes()
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else: value.blob
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else:
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proc append*(writer: var RlpWriter, value: ValidatorSig) =
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writer.append value.getBytes()
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proc read*(rlp: var Rlp, T: type ValidatorSig): T {.inline.} =
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result.initFromBytes rlp.toBytes.toOpenArray
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proc writeValue*(writer: var JsonWriter, value: VerKey) {.inline.} =
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writer.writeValue($value)
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proc readValue*(reader: var JsonReader, value: var VerKey) {.inline.} =
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value = VerKey.init(reader.readValue(string))
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proc writeValue*(writer: var JsonWriter, value: Signature) {.inline.} =
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writer.writeValue($value)
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proc readValue*(reader: var JsonReader, value: var Signature) {.inline.} =
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value = Signature.init(reader.readValue(string))
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proc toGaugeValue*(hash: Eth2Digest): int64 =
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# Only the last 8 bytes are taken into consideration in accordance
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# to the ETH2 metrics spec:
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# https://github.com/ethereum/eth2.0-metrics/blob/6a79914cb31f7d54858c7dd57eee75b6162ec737/metrics.md#interop-metrics
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cast[int64](uint64.fromBytesLE(hash.data[24..31]))
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template fromSszBytes*(T: type BlsValue, bytes: openarray[byte]): auto =
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fromBytes(T, bytes)
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