# beacon_chain # Copyright (c) 2018-2021 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. {.push raises: [Defect].} import std/math, chronos, chronicles, ./spec/helpers from times import Time, getTime, fromUnix, `<`, `-`, inNanoseconds export chronos.Duration, Moment, now type BeaconClock* = object ## The beacon clock represents time as it passes on a beacon chain. Beacon ## time is locked to unix time, starting at a particular offset set during ## beacon chain instantiation. ## ## Time on the beacon chain determines what actions should be taken and ## which blocks are valid - in particular, blocks are not valid if they ## come from the future as seen from the local clock. ## ## https://github.com/ethereum/consensus-specs/blob/v1.1.8/specs/phase0/fork-choice.md#fork-choice ## # TODO consider NTP and network-adjusted timestamps as outlined here: # https://ethresear.ch/t/network-adjusted-timestamps/4187 genesis: Time BeaconTime* = distinct Duration ## Nanoseconds from beacon genesis time GetBeaconTimeFn* = proc(): BeaconTime {.gcsafe, raises: [Defect].} const # Offsets from the start of the slot to when the corresponding message should # be sent # https://github.com/ethereum/consensus-specs/blob/v1.1.8/specs/phase0/validator.md#attesting attestationSlotOffset* = seconds(SECONDS_PER_SLOT.int) div INTERVALS_PER_SLOT # https://github.com/ethereum/consensus-specs/blob/v1.1.8/specs/phase0/validator.md#broadcast-aggregate aggregateSlotOffset* = seconds(SECONDS_PER_SLOT.int) * 2 div INTERVALS_PER_SLOT # https://github.com/ethereum/consensus-specs/blob/v1.1.8/specs/altair/validator.md#prepare-sync-committee-message syncCommitteeMessageSlotOffset* = seconds(SECONDS_PER_SLOT.int) div INTERVALS_PER_SLOT # https://github.com/ethereum/consensus-specs/blob/v1.1.8/specs/altair/validator.md#broadcast-sync-committee-contribution syncContributionSlotOffset* = seconds(SECONDS_PER_SLOT.int) * 2 div INTERVALS_PER_SLOT proc init*(T: type BeaconClock, genesis_time: uint64): T = # ~290 billion years into the future doAssert genesis_time <= high(int64).uint64 let unixGenesis = fromUnix(genesis_time.int64) # GENESIS_SLOT offsets slot time, but to simplify calculations, we apply that # offset to genesis instead of applying it at every time conversion unixGenesisOffset = times.seconds(int(GENESIS_SLOT * SECONDS_PER_SLOT)) T(genesis: unixGenesis - unixGenesisOffset) template `<`*(a, b: BeaconTime): bool = Duration(a) < Duration(b) template `<=`*(a, b: BeaconTime): bool = Duration(a) <= Duration(b) template `+`*(t: BeaconTime, offset: Duration): BeaconTime = BeaconTime(Duration(t) + offset) template `-`*(t: BeaconTime, offset: Duration): BeaconTime = BeaconTime(nanoseconds(nanoseconds(Duration(t)) - nanoseconds(offset))) template `-`*(a, b: BeaconTime): Duration = nanoseconds(nanoseconds(Duration(a)) - nanoseconds(Duration(b))) func toSlot*(t: BeaconTime): tuple[afterGenesis: bool, slot: Slot] = let ti = seconds(Duration(t)) if ti >= 0: (true, Slot(uint64(ti) div SECONDS_PER_SLOT)) else: (false, Slot(uint64(-ti) div SECONDS_PER_SLOT)) func slotOrZero*(time: BeaconTime): Slot = let exSlot = time.toSlot if exSlot.afterGenesis: exSlot.slot else: Slot(0) func toBeaconTime*(c: BeaconClock, t: Time): BeaconTime = BeaconTime(nanoseconds(inNanoseconds(t - c.genesis))) func toSlot*(c: BeaconClock, t: Time): tuple[afterGenesis: bool, slot: Slot] = c.toBeaconTime(t).toSlot() func toBeaconTime*(s: Slot, offset = Duration()): BeaconTime = # BeaconTime/Duration stores nanoseconds, internally const maxSlot = (not 0'u64 div 2 div SECONDS_PER_SLOT div 1_000_000_000).Slot var slot = s if slot > maxSlot: slot = maxSlot BeaconTime(seconds(int64(uint64(slot) * SECONDS_PER_SLOT)) + offset) proc now*(c: BeaconClock): BeaconTime = ## Current time, in slots - this may end up being less than GENESIS_SLOT(!) toBeaconTime(c, getTime()) proc fromNow*(c: BeaconClock, t: BeaconTime): tuple[inFuture: bool, offset: Duration] = let now = c.now() if t > now: (true, t - now) else: (false, now - t) proc fromNow*(c: BeaconClock, slot: Slot): tuple[inFuture: bool, offset: Duration] = c.fromNow(slot.toBeaconTime()) proc durationToNextSlot*(c: BeaconClock): Duration = let (afterGenesis, slot) = c.now().toSlot() if afterGenesis: c.fromNow(slot + 1'u64).offset else: c.fromNow(Slot(0)).offset proc durationToNextEpoch*(c: BeaconClock): Duration = let (afterGenesis, slot) = c.now().toSlot() if afterGenesis: c.fromNow(compute_start_slot_at_epoch(slot.epoch() + 1'u64)).offset else: c.fromNow(compute_start_slot_at_epoch(Epoch(0))).offset func saturate*(d: tuple[inFuture: bool, offset: Duration]): Duration = if d.inFuture: d.offset else: seconds(0) proc addTimer*(fromNow: Duration, cb: CallbackFunc, udata: pointer = nil) = discard setTimer(Moment.now() + fromNow, cb, udata) func shortLog*(d: Duration): string = $d func toFloatSeconds*(d: Duration): float = float(milliseconds(d)) / 1000.0 func fromFloatSeconds*(T: type Duration, f: float): Duration = case classify(f) of fcNormal: if f >= float(int64.high() div 1_000_000_000): InfiniteDuration elif f <= 0: ZeroDuration else: nanoseconds(int64(f * 1_000_000_000)) of fcSubnormal, fcZero, fcNegZero, fcNan, fcNegInf: ZeroDuration of fcInf: InfiniteDuration func `$`*(v: BeaconTime): string = $(Duration v) func shortLog*(v: BeaconTime): string = $(Duration v) chronicles.formatIt Duration: $it chronicles.formatIt BeaconTime: $(Duration it)