106 lines
3.9 KiB
Nim
106 lines
3.9 KiB
Nim
# beacon_chain
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# Copyright (c) 2018 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 http://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at http://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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# Useful conversation about BLS signatures (TODO: condense this)
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#
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# I can probably google this somehow, but bls signatures, anyone knows off the
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# top of their head if they have to be combined one by one, or can two group
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# signatures be combined? what happens to overlap then?
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# Danny Ryan
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# @djrtwo
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# Dec 21 12:00
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# Yeah, you can do any linear combination of signatures. but you have to
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# remember the linear combination of pubkeys that constructed
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# if you have two instances of a signature from pubkey p, then you need 2*p in
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# the group pubkey
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# because the attestation bitfield is only 1 bit per pubkey right now,
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# attestations do not support this
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# it could be extended to support N overlaps up to N times per pubkey if we
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# had N bits per validator instead of 1
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# We are shying away from this for the time being. If there end up being
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# substantial difficulties in network layer aggregation, then adding bits
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# to aid in supporting overlaps is one potential solution
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# Jacek Sieka
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# @arnetheduck
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# Dec 21 12:02
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# ah nice, you anticipated my followup question there :) so it's not a
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# straight-off set union operation
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# Danny Ryan
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# @djrtwo
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# Dec 21 12:02
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# depending on the particular network level troubles we run into
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# right
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# aggregatng sigs and pubkeys are both just ec adds
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# https://github.com/ethereum/py-evm/blob/d82b10ae361cde6abbac62f171fcea7809c4e3cf/eth/_utils/bls.py#L191-L202
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# subtractions work too (i suppose this is obvious). You can linearly combine
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# sigs or pubs in any way
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import
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hashes,
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blscurve, json_serialization
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export
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json_serialization
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export blscurve.init, blscurve.getBytes, blscurve.combine
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type
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ValidatorPubKey* = blscurve.VerKey
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ValidatorPrivKey* = blscurve.SigKey
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ValidatorSig* = blscurve.Signature
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ValidatorPKI* = ValidatorPrivKey|ValidatorPubKey|ValidatorSig
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template hash*(k: ValidatorPubKey|ValidatorPrivKey): Hash =
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hash(k.getBytes())
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func pubKey*(pk: ValidatorPrivKey): ValidatorPubKey = pk.getKey()
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func bls_aggregate_pubkeys*(keys: openArray[ValidatorPubKey]): ValidatorPubKey =
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var empty = true
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for key in keys:
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if empty:
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result = key
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empty = false
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else:
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result.combine(key)
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func bls_verify*(
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pubkey: ValidatorPubKey, msg: openArray[byte], sig: ValidatorSig,
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domain: uint64): bool =
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# name from spec!
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sig.verify(msg, domain, pubkey)
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func bls_sign*(key: ValidatorPrivKey,
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msg: openarray[byte], domain: uint64): ValidatorSig =
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# name from spec!
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key.sign(domain, msg)
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proc writeValue*(writer: var JsonWriter, value: ValidatorPubKey) {.inline.} =
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writer.writeValue($value)
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proc readValue*(reader: var JsonReader, value: var ValidatorPubKey) {.inline.} =
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value = VerKey.init(reader.readValue(string))
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proc writeValue*(writer: var JsonWriter, value: ValidatorSig) {.inline.} =
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writer.writeValue($value)
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proc readValue*(reader: var JsonReader, value: var ValidatorSig) {.inline.} =
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value = Signature.init(reader.readValue(string))
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proc writeValue*(writer: var JsonWriter, value: ValidatorPrivKey) {.inline.} =
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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 = SigKey.init(reader.readValue(string))
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proc newPrivKey*(): ValidatorPrivKey = SigKey.random()
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