372 lines
13 KiB
Nim
372 lines
13 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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# SSZ Serialization (simple serialize)
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# See https://github.com/ethereum/eth2.0-specs/blob/master/specs/simple-serialize.md
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import
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endians, typetraits, options, algorithm,
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eth_common, nimcrypto/blake2,
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./spec/[crypto, datatypes, digest]
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# ################### Helper functions ###################################
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# toBytesSSZ convert simple fixed-length types to their SSZ wire representation
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func toBytesSSZ(x: SomeInteger): array[sizeof(x), byte] =
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## Convert directly to bytes the size of the int. (e.g. ``uint16 = 2 bytes``)
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## All integers are serialized as **little endian**.
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when x.sizeof == 8: littleEndian64(result.addr, x.unsafeAddr)
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elif x.sizeof == 4: littleEndian32(result.addr, x.unsafeAddr)
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elif x.sizeof == 2: littleEndian16(result.addr, x.unsafeAddr)
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elif x.sizeof == 1: copyMem(result.addr, x.unsafeAddr, sizeof(result))
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else: {.fatal: "Unsupported type serialization: " & $(type(x)).name.}
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func toBytesSSZ(x: ValidatorIndex): array[3, byte] =
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## Integers are all encoded as little endian and not padded
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let v = x.uint32
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result[0] = byte(v and 0xff)
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result[1] = byte((v shr 8) and 0xff)
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result[2] = byte((v shr 16) and 0xff)
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func toBytesSSZ(x: bool): array[1, byte] =
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[if x: 1'u8 else: 0'u8]
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func toBytesSSZ(x: EthAddress): array[sizeof(x), byte] = x
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func toBytesSSZ(x: Eth2Digest): array[32, byte] = x.data
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# TODO these two are still being debated:
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# https://github.com/ethereum/eth2.0-specs/issues/308#issuecomment-447026815
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func toBytesSSZ(x: ValidatorPubKey|ValidatorSig): auto = x.getBytes()
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type
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TrivialTypes =
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# Types that serialize down to a fixed-length array - most importantly,
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# these values don't carry a length prefix in the final encoding. toBytesSSZ
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# provides the actual nim-type-to-bytes conversion.
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# TODO think about this for a bit - depends where the serialization of
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# validator keys ends up going..
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# TODO can't put ranges like ValidatorIndex in here:
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# https://github.com/nim-lang/Nim/issues/10027
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SomeInteger | EthAddress | Eth2Digest | ValidatorPubKey | ValidatorSig |
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bool
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func sszLen(v: TrivialTypes): int = toBytesSSZ(v).len
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func sszLen(v: ValidatorIndex): int = toBytesSSZ(v).len
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func sszLen(v: object | tuple): int =
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result = 4 # Length
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for field in v.fields:
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result += sszLen(type field)
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func sszLen(v: seq | array): int =
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result = 4 # Length
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for i in v:
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result += sszLen(i)
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# fromBytesSSZUnsafe copy wire representation to a Nim variable, assuming
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# there's enough data in the buffer
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func fromBytesSSZUnsafe(T: typedesc[SomeInteger], data: pointer): T =
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## Convert directly to bytes the size of the int. (e.g. ``uint16 = 2 bytes``)
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## All integers are serialized as **little endian**.
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## TODO: Assumes data points to a sufficiently large buffer
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# TODO: any better way to get a suitably aligned buffer in nim???
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# see also: https://github.com/nim-lang/Nim/issues/9206
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var tmp: uint64
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var alignedBuf = cast[ptr byte](tmp.addr)
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copyMem(alignedBuf, data, result.sizeof)
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when result.sizeof == 8: littleEndian64(result.addr, alignedBuf)
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elif result.sizeof == 4: littleEndian32(result.addr, alignedBuf)
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elif result.sizeof == 2: littleEndian16(result.addr, alignedBuf)
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elif result.sizeof == 1: copyMem(result.addr, alignedBuf, sizeof(result))
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else: {.fatal: "Unsupported type deserialization: " & $(type(result)).name.}
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func fromBytesSSZUnsafe(T: typedesc[bool], data: pointer): T =
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# TODO: spec doesn't say what to do if the value is >1 - we'll use the C
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# definition for now, but maybe this should be a parse error instead?
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fromBytesSSZUnsafe(uint8, data) != 0
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func fromBytesSSZUnsafe(T: typedesc[ValidatorIndex], data: pointer): T =
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## Integers are all encoded as littleendian and not padded
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var tmp: uint32
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let p = cast[ptr UncheckedArray[byte]](data)
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tmp = tmp or uint32(p[0])
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tmp = tmp or uint32(p[1]) shl 8
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tmp = tmp or uint32(p[2]) shl 16
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result = tmp.ValidatorIndex
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func fromBytesSSZUnsafe(T: typedesc[EthAddress], data: pointer): T =
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copyMem(result.addr, data, sizeof(result))
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func fromBytesSSZUnsafe(T: typedesc[Eth2Digest], data: pointer): T =
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copyMem(result.data.addr, data, sizeof(result.data))
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proc deserialize[T: TrivialTypes](
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dest: var T, offset: var int, data: openArray[byte]): bool =
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# TODO proc because milagro is problematic
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if offset + sszLen(dest) > data.len():
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false
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else:
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when T is (ValidatorPubKey|ValidatorSig):
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if dest.init(data[offset..data.len-1]):
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offset += sszLen(dest)
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true
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else:
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false
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else:
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dest = fromBytesSSZUnsafe(T, data[offset].unsafeAddr)
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offset += sszLen(dest)
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true
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func deserialize(
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dest: var ValidatorIndex, offset: var int, data: openArray[byte]): bool =
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if offset + sszLen(dest) > data.len():
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false
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else:
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dest = fromBytesSSZUnsafe(ValidatorIndex, data[offset].unsafeAddr)
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offset += sszLen(dest)
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true
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func deserialize[T: enum](dest: var T, offset: var int, data: openArray[byte]): bool =
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# TODO er, verify the size here, probably an uint64 but...
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var tmp: uint64
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if not deserialize(tmp, offset, data):
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false
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else:
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# TODO what to do with out-of-range values?? rejecting means breaking
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# forwards compatibility..
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dest = cast[T](tmp)
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true
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proc deserialize[T: not (enum|TrivialTypes|ValidatorIndex)](
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dest: var T, offset: var int, data: openArray[byte]): bool =
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# Length in bytes, followed by each item
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var totalLen: uint32
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if not deserialize(totalLen, offset, data): return false
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if offset + totalLen.int > data.len(): return false
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let itemEnd = offset + totalLen.int
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when T is seq:
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# Items are of homogenous type, but not necessarily homogenous length,
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# cannot pre-allocate item list generically
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while offset < itemEnd:
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dest.setLen dest.len + 1
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if not deserialize(dest[^1], offset, data): return false
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elif T is array:
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var i = 0
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while offset < itemEnd:
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if not deserialize(dest[i], offset, data): return false
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i += 1
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if i > dest.len: return false
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else:
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for field in dest.fields:
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if not deserialize(field, offset, data): return false
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if offset != itemEnd: return false
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true
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func serialize(dest: var seq[byte], src: TrivialTypes) =
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dest.add src.toBytesSSZ()
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func serialize(dest: var seq[byte], src: ValidatorIndex) =
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dest.add src.toBytesSSZ()
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func serialize(dest: var seq[byte], x: enum) =
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# TODO er, verify the size here, probably an uint64 but...
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serialize dest, uint64(x)
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func serialize[T: not enum](dest: var seq[byte], src: T) =
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let lenPos = dest.len()
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# Length is a prefix, so we'll put a dummy 0 here and fill it after
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# serializing
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dest.add toBytesSSZ(0'u32)
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when T is seq|array:
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# If you get an error here that looks like:
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# type mismatch: got <type range 0..8191(uint64)>
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# you just used an unsigned int for an array index thinking you'd get
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# away with it (surprise, surprise: you can't, uints are crippled!)
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# https://github.com/nim-lang/Nim/issues/9984
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for val in src:
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serialize dest, val
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else:
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when defined(debugFieldSizes) and T is (BeaconState | BeaconBlock):
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# for research/serialized_sizes, remove when appropriate
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for name, field in src.fieldPairs:
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let start = dest.len()
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serialize dest, field
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let sz = dest.len() - start
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debugEcho(name, ": ", sz)
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else:
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for field in src.fields:
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serialize dest, field
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# Write size (we only know it once we've serialized the object!)
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var objLen = dest.len() - lenPos - 4
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littleEndian32(dest[lenPos].addr, objLen.addr)
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# ################### Core functions ###################################
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proc deserialize*(data: openArray[byte],
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typ: typedesc): auto {.inline.} =
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# TODO: returns Option[typ]: https://github.com/nim-lang/Nim/issues/9195
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var ret: typ
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var offset: int
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if not deserialize(ret, offset, data): none(typ)
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else: some(ret)
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func serialize*(value: auto): seq[byte] =
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serialize(result, value)
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# ################### Hashing ###################################
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# Sample hash_tree_root implementation based on:
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# https://github.com/ethereum/eth2.0-specs/blob/a9328157a87451ee4f372df272ece158b386ec41/specs/simple-serialize.md
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# TODO Probably wrong - the spec is pretty bare-bones and no test vectors yet
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const CHUNK_SIZE = 128
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# ################### Hashing helpers ###################################
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# TODO varargs openarray, anyone?
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template withHash(body: untyped): array[32, byte] =
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let tmp = withEth2Hash: body
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toBytesSSZ tmp
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func hash(a: openArray[byte]): array[32, byte] =
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withHash:
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h.update(a)
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func hash(a, b: openArray[byte]): array[32, byte] =
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withHash:
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h.update(a)
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h.update(b)
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# TODO: er, how is this _actually_ done?
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# Mandatory bug: https://github.com/nim-lang/Nim/issues/9825
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func empty(T: typedesc): T = discard
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const emptyChunk = empty(array[CHUNK_SIZE, byte])
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func merkleHash[T](lst: openArray[T]): array[32, byte]
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# ################### Hashing interface ###################################
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func hash_tree_root*(x: SomeInteger | bool): array[sizeof(x), byte] =
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## Convert directly to bytes the size of the int. (e.g. ``uint16 = 2 bytes``)
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## All integers are serialized as **little endian**.
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toBytesSSZ(x)
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func hash_tree_root*(x: ValidatorIndex): array[3, byte] =
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## Convert directly to bytes the size of the int. (e.g. ``uint16 = 2 bytes``)
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## All integers are serialized as **little endian**.
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toBytesSSZ(x)
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func hash_tree_root*(x: EthAddress): array[sizeof(x), byte] =
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## Addresses copied as-is
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toBytesSSZ(x)
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func hash_tree_root*(x: Eth2Digest): array[32, byte] =
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## Hash32 copied as-is
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toBytesSSZ(x)
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func hash_tree_root*(x: openArray[byte]): array[32, byte] =
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## Blobs are hashed
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hash(x)
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func hash_tree_root*[T: seq|array](x: T): array[32, byte] =
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## Sequences are tree-hashed
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merkleHash(x)
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func hash_tree_root*[T: object|tuple](x: T): array[32, byte] =
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## Containers have their fields recursively hashed, concatenated and hashed
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withHash:
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for field in x.fields:
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h.update hash_tree_root(field)
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# #################################
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# hash_tree_root not part of official spec
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func hash_tree_root*(x: enum): array[8, byte] =
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## TODO - Warning ⚠️: not part of the spec
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## as of https://github.com/ethereum/beacon_chain/pull/133/files
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## This is a "stub" needed for BeaconBlock hashing
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static: assert x.sizeof == 1 # Check that the enum fits in 1 byte
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# TODO We've put enums where the spec uses `uint64` - maybe we should not be
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# using enums?
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hash_tree_root(uint64(x))
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func hash_tree_root*(x: ValidatorPubKey): array[32, byte] =
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## TODO - Warning ⚠️: not part of the spec
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## as of https://github.com/ethereum/beacon_chain/pull/133/files
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## This is a "stub" needed for BeaconBlock hashing
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x.getBytes().hash()
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func hash_tree_root*(x: ValidatorSig): array[32, byte] =
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## TODO - Warning ⚠️: not part of the spec
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## as of https://github.com/ethereum/beacon_chain/pull/133/files
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## This is a "stub" needed for BeaconBlock hashing
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x.getBytes().hash()
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func hash_tree_root_final*(x: object|tuple): Eth2Digest =
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# TODO suggested for spec:
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# https://github.com/ethereum/eth2.0-specs/issues/276
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# only for objects now, else the padding would have to be implemented - not
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# needed yet..
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Eth2Digest(data: hash_tree_root(x))
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# ################### Tree hash ###################################
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func merkleHash[T](lst: openArray[T]): array[32, byte] =
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## Merkle tree hash of a list of homogenous, non-empty items
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# TODO: the heap allocations here can be avoided by computing the merkle tree
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# recursively, but for now keep things simple and aligned with upstream
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# Store length of list (to compensate for non-bijectiveness of padding)
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var dataLen: array[32, byte]
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var lstLen = uint64(len(lst))
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littleEndian64(dataLen[32-8].addr, lstLen.addr)
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# Divide into chunks
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var chunkz: seq[seq[byte]]
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if len(lst) == 0:
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chunkz.add @emptyChunk
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elif sizeof(hash_tree_root(lst[0])) < CHUNK_SIZE:
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# See how many items fit in a chunk
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let itemsPerChunk = CHUNK_SIZE div sizeof(hash_tree_root(lst[0]))
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chunkz.setLen((len(lst) + itemsPerChunk - 1) div itemsPerChunk)
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# Build a list of chunks based on the number of items in the chunk
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for i in 0..<chunkz.len:
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for j in 0..<itemsPerChunk:
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if i == chunkz.len - 1:
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let idx = i * itemsPerChunk + j
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if idx >= lst.len: break # Last chunk may be partial!
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chunkz[i].add hash_tree_root(lst[i * itemsPerChunk + j])
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else:
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# Leave large items alone
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chunkz.setLen(len(lst))
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for i in 0..<len(lst):
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chunkz[i].add hash_tree_root(lst[i])
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while chunkz.len() > 1:
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if chunkz.len() mod 2 == 1:
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chunkz.add @emptyChunk
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for i in 0..<(chunkz.len div 2):
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# As tradition dictates - one feature, at least one nim bug:
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# https://github.com/nim-lang/Nim/issues/9684
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let tmp = @(hash(chunkz[i * 2], chunkz[i * 2 + 1]))
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chunkz[i] = tmp
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chunkz.setLen(chunkz.len div 2)
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hash(chunkz[0], dataLen)
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