nimbus-eth2/ncli/ncli.nim

272 lines
9.0 KiB
Nim

# beacon_chain
# Copyright (c) 2020-2024 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: [].}
import
confutils, json_serialization,
snappy,
../beacon_chain/spec/eth2_apis/eth2_rest_serialization,
../beacon_chain/spec/[eth2_ssz_serialization, state_transition]
from std/os import splitFile
from std/stats import RunningStat
from std/strutils import cmpIgnoreCase
from stew/byteutils import toHex
from stew/io2 import readAllBytes
from ../beacon_chain/networking/network_metadata import getRuntimeConfig
from ../research/simutils import printTimers, withTimer, withTimerRet
type
Cmd* = enum
hash_tree_root = "Compute hash tree root of SSZ object"
pretty = "Pretty-print SSZ object"
transition = "Run state transition function"
slots = "Apply empty slots"
NcliConf* = object
eth2Network* {.
desc: "The Eth2 network preset to use"
name: "network" }: Option[string]
printTimes* {.
defaultValue: false # false to avoid polluting minimal output
name: "print-times"
desc: "Print timing information".}: bool
# TODO confutils argument pragma doesn't seem to do much; also, the cases
# are largely equivalent, but this helps create command line usage text
case cmd* {.command}: Cmd
of hash_tree_root:
htrKind* {.
argument
desc: "kind of SSZ object: attester_slashing, attestation, signed_block, block, block_body, block_header, deposit, deposit_data, eth1_data, state, proposer_slashing, or voluntary_exit"}: string
htrFile* {.
argument
desc: "filename of SSZ or JSON-encoded object of which to compute hash tree root"}: string
of pretty:
prettyKind* {.
argument
desc: "kind of SSZ object: attester_slashing, attestation, signed_block, block, block_body, block_header, deposit, deposit_data, eth1_data, state, proposer_slashing, or voluntary_exit"}: string
prettyFile* {.
argument
desc: "filename of SSZ or JSON-encoded object to pretty-print"}: string
of transition:
preState* {.
argument
desc: "State to which to apply specified block"}: string
blck* {.
argument
desc: "Block to apply to preState"}: string
postState* {.
argument
desc: "Filename of state resulting from applying blck to preState"}: string
verifyStateRoot* {.
argument
desc: "Verify state root (default true)"
defaultValue: true}: bool
of slots:
preState2* {.
argument
desc: "State to which to apply specified block"}: string
slot* {.
argument
desc: "Block to apply to preState"}: uint64
postState2* {.
argument
desc: "Filename of state resulting from applying blck to preState"}: string
template saveSSZFile(filename: string, value: ForkedHashedBeaconState) =
try:
case value.kind:
of ConsensusFork.Phase0: SSZ.saveFile(filename, value.phase0Data.data)
of ConsensusFork.Altair: SSZ.saveFile(filename, value.altairData.data)
of ConsensusFork.Bellatrix: SSZ.saveFile(filename, value.bellatrixData.data)
of ConsensusFork.Capella: SSZ.saveFile(filename, value.capellaData.data)
of ConsensusFork.Deneb: SSZ.saveFile(filename, value.denebData.data)
except IOError:
raiseAssert "error saving SSZ file"
proc loadFile(filename: string, bytes: openArray[byte], T: type): T =
let
ext = splitFile(filename).ext
try:
if cmpIgnoreCase(ext, ".ssz") == 0:
SSZ.decode(bytes, T)
elif cmpIgnoreCase(ext, ".ssz_snappy") == 0:
SSZ.decode(snappy.decode(bytes), T)
elif cmpIgnoreCase(ext, ".json") == 0:
# JSON.loadFile(file, t)
echo "TODO needs porting to RestJson"
quit 1
else:
echo "Unknown file type: ", ext
quit 1
except CatchableError:
echo "failed to load SSZ file"
quit 1
proc doTransition(conf: NcliConf) =
type
Timers = enum
tLoadState = "Load state from file"
tTransition = "Apply slot"
tSaveState = "Save state to file"
var timers: array[Timers, RunningStat]
let
cfg = getRuntimeConfig(conf.eth2Network)
stateY = withTimerRet(timers[tLoadState]):
try:
newClone(readSszForkedHashedBeaconState(
cfg, readAllBytes(conf.preState).tryGet()))
except CatchableError:
raiseAssert "error reading hashed beacon state"
blckX =
try:
readSszForkedSignedBeaconBlock(
cfg, readAllBytes(conf.blck).tryGet())
except CatchableError:
raiseAssert "error reading signed beacon block"
flags = if not conf.verifyStateRoot: {skipStateRootValidation} else: {}
var
cache = StateCache()
info = ForkedEpochInfo()
let res = withTimerRet(timers[tTransition]): withBlck(blckX):
state_transition(
cfg, stateY[], forkyBlck, cache, info, flags, noRollback)
if res.isErr():
error "State transition failed", error = res.error()
quit 1
else:
withTimer(timers[tSaveState]):
saveSSZFile(conf.postState, stateY[])
if conf.printTimes:
printTimers(false, timers)
proc doSlots(conf: NcliConf) =
type
Timers = enum
tLoadState = "Load state from file"
tApplySlot = "Apply slot"
tApplyEpochSlot = "Apply epoch slot"
tSaveState = "Save state to file"
var timers: array[Timers, RunningStat]
let
cfg = getRuntimeConfig(conf.eth2Network)
stateY = withTimerRet(timers[tLoadState]):
try:
newClone(readSszForkedHashedBeaconState(
cfg, readAllBytes(conf.preState2).tryGet()))
except CatchableError:
raiseAssert "error reading hashed beacon state"
var
cache = StateCache()
info = ForkedEpochInfo()
for i in 0'u64..<conf.slot:
let isEpoch = (getStateField(stateY[], slot) + 1).is_epoch
withTimer(timers[if isEpoch: tApplyEpochSlot else: tApplySlot]):
process_slots(
cfg, stateY[], getStateField(stateY[], slot) + 1,
cache, info, {}).expect("should be able to advance slot")
withTimer(timers[tSaveState]):
saveSSZFile(conf.postState2, stateY[])
if conf.printTimes:
printTimers(false, timers)
proc doSSZ(conf: NcliConf) =
type Timers = enum
tLoad = "Load file"
tCompute = "Compute"
var timers: array[Timers, RunningStat]
let (kind, file) =
case conf.cmd:
of hash_tree_root: (conf.htrKind, conf.htrFile)
of pretty: (conf.prettyKind, conf.prettyFile)
else:
raiseAssert "doSSZ() only implements hashTreeRoot and pretty commands"
let bytes = readAllBytes(file).expect("file exists")
template printit(t: untyped) {.dirty.} =
let v = withTimerRet(timers[tLoad]):
newClone(loadFile(file, bytes, t))
case conf.cmd:
of hash_tree_root:
let root = withTimerRet(timers[tCompute]):
when t is ForkySignedBeaconBlock:
hash_tree_root(v[].message)
else:
hash_tree_root(v[])
echo root.data.toHex()
of pretty:
echo RestJson.encode(v[], pretty = true)
else:
raiseAssert "doSSZ() only implements hashTreeRoot and pretty commands"
if conf.printTimes:
printTimers(false, timers)
case kind
of "attester_slashing": printit(AttesterSlashing)
of "attestation": printit(Attestation)
of "phase0_signed_block": printit(phase0.SignedBeaconBlock)
of "altair_signed_block": printit(altair.SignedBeaconBlock)
of "bellatrix_signed_block": printit(bellatrix.SignedBeaconBlock)
of "capella_signed_block": printit(capella.SignedBeaconBlock)
of "deneb_signed_block": printit(deneb.SignedBeaconBlock)
of "phase0_block": printit(phase0.BeaconBlock)
of "altair_block": printit(altair.BeaconBlock)
of "bellatrix_block": printit(bellatrix.BeaconBlock)
of "capella_block": printit(capella.BeaconBlock)
of "deneb_block": printit(deneb.BeaconBlock)
of "phase0_block_body": printit(phase0.BeaconBlockBody)
of "altair_block_body": printit(altair.BeaconBlockBody)
of "bellatrix_block_body": printit(bellatrix.BeaconBlockBody)
of "capella_block_body": printit(capella.BeaconBlockBody)
of "deneb_block_body": printit(deneb.BeaconBlockBody)
of "block_header": printit(BeaconBlockHeader)
of "deposit": printit(Deposit)
of "deposit_data": printit(DepositData)
of "eth1_data": printit(Eth1Data)
of "phase0_state": printit(phase0.BeaconState)
of "altair_state": printit(altair.BeaconState)
of "bellatrix_state": printit(bellatrix.BeaconState)
of "capella_state": printit(capella.BeaconState)
of "deneb_state": printit(deneb.BeaconState)
of "proposer_slashing": printit(ProposerSlashing)
of "voluntary_exit": printit(VoluntaryExit)
when isMainModule:
let
conf = NcliConf.load()
case conf.cmd:
of hash_tree_root: doSSZ(conf)
of pretty: doSSZ(conf)
of transition: doTransition(conf)
of slots: doSlots(conf)