# beacon_chain # Copyright (c) 2018 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at http://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at http://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. # Helper functions import ../datatypes, sequtils, nimcrypto, math func get_active_validator_indices(validators: seq[ValidatorRecord], dynasty: int64): seq[Uint24] = ## Select the active validators result = @[] for idx, val in validators: if val.start_dynasty <= dynasty and dynasty < val.end_dynasty: result.add idx.Uint24 func shuffle(validators: seq[Uint24], seed: Blake2_256_Digest): seq[Uint24] {.noInit.}= ## Pseudorandomly shuffles the validator set based on some seed const UpperBound = 2^24 # 16777216 assert validators.len <= UpperBound deepCopy(result, validators) var source = seed var i = 0 while i < validators.len: source = blake2_256.digest source.data for pos in countup(0, 29, 3): let remaining = validators.len - i if remaining == 0: break let m = source.data[pos].Uint24 shl 16 or source.data[pos+1].Uint24 shl 8 or source.data[pos+2].Uint24 let rand_max = Uint24 UpperBound - UpperBound mod remaining if m < randMax: let replacementPos = m mod remaining + i swap result[i], result[replacementPos] inc i func split[T](lst: seq[T], N: Positive): seq[seq[T]] = # TODO: implement as an iterator result = newSeq[seq[T]](N) for i in 0 ..< N: result[i] = lst[lst.len * i div N ..< lst.len * (i+1) div N] # TODO: avoid alloc via toOpenArray func get_new_shuffling*(seed: Blake2_256_Digest, validators: seq[ValidatorRecord], dynasty: int64, crosslinking_start_shard: int16): seq[seq[ShardAndCommittee]] {.noInit.} = ## Split up validators into groups at the start of every epoch, ## determining at what height they can make attestations and what shard they are making crosslinks for ## Implementation should do the following: http://vitalik.ca/files/ShuffleAndAssign.png let avs = get_active_validator_indices(validators, dynasty) var committees_per_slot, slots_per_committee: int16 if avs.len >= CYCLE_LENGTH * MIN_COMMITTEE_SIZE: committees_per_slot = int16 avs.len div CYCLE_LENGTH div (MIN_COMMITTEE_SIZE * 2) + 1 slots_per_committee = 1 else: committees_per_slot = 1 slots_per_committee = 1 while avs.len * slots_per_committee < CYCLE_LENGTH * MIN_COMMITTEE_SIZE and slots_per_committee < CYCLE_LENGTH: slots_per_committee *= 2 result = @[] for slot, height_indices in shuffle(avs, seed).split(CYCLE_LENGTH): let shard_indices = height_indices.split(committees_per_slot) var committees = newSeq[ShardAndCommittee](shard_indices.len) for j, indices in shard_indices: committees[j].shard_id = crosslinking_start_shard + slot.int16 * committees_per_slot div slots_per_committee + j.int16 committees[j].committee = indices result.add committees func get_indices_for_slot*(crystallized_state: CrystallizedState, slot: int64): seq[ShardAndCommittee] {.noInit.}= # TODO: Spec why is active_state an argument? let ifh_start = crystallized_state.last_state_recalc - CYCLE_LENGTH assert ifh_start <= slot assert slot < ifh_start + CYCLE_LENGTH * 2 result = crystallized_state.indices_for_slots[int slot - ifh_start] # TODO, slot is an int64 will be an issue on int32 arch. # Clarify with EF if light clients will need the beacon chain func get_block_hash*(active_state: ActiveState, beacon_block: BeaconBlock, slot: int64): Keccak256_Digest = # TODO: Spec uses crystallized_state as arg and activ_state.slot_number # which doesn't exist let sback = beacon_block.slot_number - CYCLE_LENGTH * 2 assert sback <= slot assert slot < sback + CYCLE_LENGTH * 2 result = active_state.recent_block_hashes[int slot - sback]