nimbus-eth1/nrpc/nrpc.nim

332 lines
12 KiB
Nim

# Nimbus
# Copyright (c) 2024 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
# * MIT license ([LICENSE-MIT](LICENSE-MIT))
# at your option.
# This file may not be copied, modified, or distributed except according to
# those terms.
import
std/sequtils,
chronicles,
../nimbus/constants,
../nimbus/core/chain,
./config,
../nimbus/utils/era_helpers,
kzg4844/kzg,
web3,
web3/[engine_api, primitives, conversions],
beacon_chain/spec/digest,
beacon_chain/el/el_conf,
beacon_chain/el/el_manager,
beacon_chain/el/engine_api_conversions,
beacon_chain/spec/[forks, state_transition_block],
beacon_chain/spec/eth2_apis/[rest_types, rest_beacon_calls],
beacon_chain/networking/network_metadata,
eth/async_utils
var running* {.volatile.} = true
# Load the EL block, from CL ( either head or CL root )
template getCLBlockFromBeaconChain(
client: RestClientRef, blockIdent: BlockIdent, clConfig: RuntimeConfig
): (ForkedSignedBeaconBlock, bool) =
let clBlock =
try:
awaitWithTimeout(client.getBlockV2(blockIdent, clConfig), 30.seconds):
error "Failed to get CL head"
quit(QuitFailure)
except CatchableError as exc:
error "Error getting CL head", error = exc.msg
quit(QuitFailure)
# Constructing the EL block from the CL block
var blck: ForkedSignedBeaconBlock
if clBlock.isSome():
let blck = clBlock.get()[]
(blck, true)
else:
(blck, false)
# Load the EL block, from CL ( either head or CL root )
# Also returns the availability of the block as a boolean
template getELBlockFromBeaconChain(
client: RestClientRef, blockIdent: BlockIdent, clConfig: RuntimeConfig
): (EthBlock, bool) =
let (clBlock, isAvailable) = getCLBlockFromBeaconChain(client, blockIdent, clConfig)
# Constructing the EL block from the CL block
var eth1block: EthBlock
if isAvailable:
withBlck(clBlock.asTrusted()):
if not getEthBlock(forkyBlck.message, eth1Block):
error "Failed to get EL block from CL head"
quit(QuitFailure)
(eth1Block, true)
else:
(eth1Block, false)
# Load the network configuration based on the network id
template loadNetworkConfig(conf: NRpcConf): (RuntimeConfig, uint64, uint64) =
case conf.networkId
of MainNet:
(getMetadataForNetwork("mainnet").cfg, 15537393'u64, 4700013'u64)
of SepoliaNet:
(getMetadataForNetwork("sepolia").cfg, 1450408'u64, 115193'u64)
of HoleskyNet:
(getMetadataForNetwork("holesky").cfg, 0'u64, 0'u64)
else:
error "Unsupported network", network = conf.networkId
quit(QuitFailure)
# Slot Finding Mechanism
# First it sets the initial lower bound to `firstSlotAfterMerge` + number of blocks after Era1
# Then it iterates over the slots to find the current slot number, along with reducing the
# search space by calculating the difference between the `blockNumber` and the `block_number` from the executionPayload
# of the slot, then adding the difference to the importedSlot. This pushes the lower bound more,
# making the search way smaller
template findSlot(
client: RestClientRef,
currentBlockNumber: uint64,
lastEra1Block: uint64,
firstSlotAfterMerge: uint64,
): uint64 =
var importedSlot = (currentBlockNumber - lastEra1Block) + firstSlotAfterMerge
notice "Finding slot number corresponding to block", importedSlot = importedSlot
var clNum = 0'u64
while running and clNum < currentBlockNumber:
let (blk, stat) =
client.getELBlockFromBeaconChain(BlockIdent.init(Slot(importedSlot)), clConfig)
if not stat:
importedSlot += 1
continue
clNum = blk.header.number
# decreasing the lower bound with each iteration
importedSlot += currentBlockNumber - clNum
notice "Found the slot to start with", slot = importedSlot
importedSlot
# The main procedure to sync the EL with the help of CL
# Takes blocks from the CL and sends them to the EL via the engineAPI
proc syncToEngineApi(conf: NRpcConf) {.async.} =
let
# Load the network configuration, jwt secret and engine api url
(clConfig, lastEra1Block, firstSlotAfterMerge) = loadNetworkConfig(conf)
jwtSecret =
if conf.jwtSecret.isSome():
loadJwtSecret(Opt.some(conf.jwtSecret.get()))
else:
Opt.none(seq[byte])
engineUrl = EngineApiUrl.init(conf.elEngineApi, jwtSecret)
# Create the client for the engine api
# And exchange the capabilities for a test communication
web3 = await engineUrl.newWeb3()
rpcClient = web3.provider
try:
let data = await rpcClient.exchangeCapabilities(
@[
"engine_forkchoiceUpdatedV1", "engine_getPayloadBodiesByHash",
"engine_getPayloadBodiesByRangeV1", "engine_getPayloadV1", "engine_newPayloadV1",
]
)
notice "Communication with the EL Success", data = data
except CatchableError as exc:
error "Error connecting to the EL Engine API", error = exc.msg
quit(QuitFailure)
# Get the latest block number from the EL rest api
template elBlockNumber(): uint64 =
try:
uint64(await rpcClient.eth_blockNumber())
except CatchableError as exc:
error "Error getting block number", error = exc.msg
0'u64
# Load the EL state detials and create the beaconAPI client
var
currentBlockNumber = elBlockNumber() + 1
curBlck: ForkedSignedBeaconBlock
client = RestClientRef.new(conf.beaconApi).valueOr:
error "Cannot connect to Beacon Api", url = conf.beaconApi
quit(QuitFailure)
notice "Current block number", number = currentBlockNumber
# Check for pre-merge situation
if currentBlockNumber <= lastEra1Block:
notice "Pre-merge, nrpc syncer works post-merge",
blocknumber = currentBlockNumber, lastPoWBlock = lastEra1Block
quit(QuitSuccess)
# Load the latest state from the CL
var
(finalizedBlck, _) = client.getELBlockFromBeaconChain(
BlockIdent.init(BlockIdentType.Finalized), clConfig
)
(headBlck, _) =
client.getELBlockFromBeaconChain(BlockIdent.init(BlockIdentType.Head), clConfig)
# Check if the EL is already in sync or ahead of the CL
if headBlck.header.number <= currentBlockNumber:
notice "CL head is behind of EL head, or in sync", head = headBlck.header.number
quit(QuitSuccess)
var
importedSlot =
findSlot(client, currentBlockNumber, lastEra1Block, firstSlotAfterMerge)
finalizedHash = Eth2Digest.fromHex("0x00")
headHash: Eth2Digest
template sendFCU(clblk: ForkedSignedBeaconBlock) =
withBlck(clblk):
let
state = ForkchoiceStateV1(
headBlockHash: headHash.asBlockHash,
safeBlockHash: finalizedHash.asBlockHash,
finalizedBlockHash: finalizedHash.asBlockHash,
)
payloadAttributes =
when consensusFork <= ConsensusFork.Bellatrix:
Opt.none(PayloadAttributesV1)
elif consensusFork == ConsensusFork.Capella:
Opt.none(PayloadAttributesV2)
elif consensusFork == ConsensusFork.Deneb or
consensusFork == ConsensusFork.Electra or
consensusFork == ConsensusFork.Fulu:
Opt.none(PayloadAttributesV3)
else:
static: doAssert(false, "Unsupported consensus fork")
Opt.none(PayloadAttributesV3)
# Make the forkchoiceUpdated call based, after loading attributes based on the consensus fork
let fcuResponse = await rpcClient.forkchoiceUpdated(state, payloadAttributes)
debug "forkchoiceUpdated", state = state, response = fcuResponse
info "forkchoiceUpdated Request sent", response = fcuResponse.payloadStatus.status
while running and currentBlockNumber < headBlck.header.number:
var isAvailable = false
(curBlck, isAvailable) =
client.getCLBlockFromBeaconChain(BlockIdent.init(Slot(importedSlot)), clConfig)
if not isAvailable:
importedSlot += 1
continue
importedSlot += 1
withBlck(curBlck):
# Don't include blocks before bellatrix, as it doesn't have payload
when consensusFork >= ConsensusFork.Bellatrix:
# Load the execution payload for all blocks after the bellatrix upgrade
let payload = forkyBlck.message.body.asEngineExecutionPayload()
var payloadResponse: engine_api.PayloadStatusV1
# Make the newPayload call based on the consensus fork
# Before Deneb calls are made without versioned hashes
# Thus calls will be same for Bellatrix and Capella forks
# And for Deneb, we will pass the versioned hashes
when consensusFork <= ConsensusFork.Capella:
payloadResponse = await rpcClient.newPayload(payload)
debug "Payload status", response = payloadResponse, payload = payload
elif consensusFork == ConsensusFork.Deneb:
# Calculate the versioned hashes from the kzg commitments
let versioned_hashes = mapIt(
forkyBlck.message.body.blob_kzg_commitments,
engine_api.VersionedHash(kzg_commitment_to_versioned_hash(it)),
)
payloadResponse = await rpcClient.newPayload(
payload, versioned_hashes, forkyBlck.message.parent_root.to(Hash32)
)
debug "Payload status",
response = payloadResponse,
payload = payload,
versionedHashes = versioned_hashes
elif consensusFork == ConsensusFork.Electra or
consensusFork == ConsensusFork.Fulu:
# Calculate the versioned hashes from the kzg commitments
let versioned_hashes = mapIt(
forkyBlck.message.body.blob_kzg_commitments,
engine_api.VersionedHash(kzg_commitment_to_versioned_hash(it)),
)
# Execution Requests for Electra
let execution_requests = [
SSZ.encode(forkyBlck.message.body.execution_requests.deposits),
SSZ.encode(forkyBlck.message.body.execution_requests.withdrawals),
SSZ.encode(forkyBlck.message.body.execution_requests.consolidations),
]
# TODO: Update to `newPayload()` once nim-web3 is updated
payloadResponse = await rpcClient.engine_newPayloadV4(
payload,
versioned_hashes,
forkyBlck.message.parent_root.to(Hash32),
execution_requests,
)
debug "Payload status",
response = payloadResponse,
payload = payload,
versionedHashes = versioned_hashes,
executionRequests = execution_requests
else:
static: doAssert(false, "Unsupported consensus fork")
info "newPayload Request sent",
blockNumber = int(payload.blockNumber), response = payloadResponse.status
# Load the head hash from the execution payload, for forkchoice
headHash = forkyBlck.message.body.execution_payload.block_hash
# Update the finalized hash
# This is updated after the fcu call is made
# So that head - head mod 32 is maintained
# i.e finalized have to be mod slots per epoch == 0
let blknum = forkyBlck.message.body.execution_payload.block_number
if blknum < finalizedBlck.header.number and blknum mod 32 == 0:
finalizedHash = headHash
# Make the forkchoicestate based on the the last
# `new_payload` call and the state received from the EL JSON-RPC API
# And generate the PayloadAttributes based on the consensus fork
sendFCU(curBlck)
elif blknum >= finalizedBlck.header.number:
# If the real finalized block is crossed, then upate the finalized hash to the real one
(finalizedBlck, _) = client.getELBlockFromBeaconChain(
BlockIdent.init(BlockIdentType.Finalized), clConfig
)
finalizedHash = finalizedBlck.header.blockHash.asEth2Digest
# Update the current block number from EL rest api
# Shows that the fcu call has succeeded
currentBlockNumber = elBlockNumber()
(headBlck, _) =
client.getELBlockFromBeaconChain(BlockIdent.init(BlockIdentType.Head), clConfig)
# fcU call for the last remaining payloads
sendFCU(curBlck)
when isMainModule:
## Ctrl+C handling
proc controlCHandler() {.noconv.} =
when defined(windows):
# workaround for https://github.com/nim-lang/Nim/issues/4057
setupForeignThreadGc()
running = false
setControlCHook(controlCHandler)
## Show logs on stdout until we get the user's logging choice
discard defaultChroniclesStream.output.open(stdout)
## Processing command line arguments
let conf = makeConfig()
setLogLevel(conf.logLevel)
case conf.cmd
of NRpcCmd.`sync`:
waitFor syncToEngineApi(conf)