608 lines
22 KiB
Nim
608 lines
22 KiB
Nim
# Nimbus
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# Copyright (c) 2023-2024 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 https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at https://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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## The beacon_lc_bridge is a "standalone" bridge, which means that it requires
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## only a Portal client to inject content into the Portal network, but retrieves
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## the content via p2p protocols only (no private / centralized full node access
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## required).
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## The bridge allows to follow the head of the beacon chain and inject the latest
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## execution block headers and bodies into the Portal history network.
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## It can, optionally, inject the beacon LC content into the Portal beacon network.
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##
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## The bridge does consensus light client sync and follows beacon block gossip.
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## Once it is synced, the execution payload of new beacon blocks will be
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## extracted and injected in the Portal network as execution headers and blocks.
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##
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## The injection into the Portal network is done via the `portal_historyGossip`
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## JSON-RPC endpoint of a running Fluffy node.
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##
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## Actions that this type of bridge (currently?) cannot perform:
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## 1. Inject block receipts into the portal network
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## 2. Inject epoch accumulators into the portal network
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## 3. Backfill headers and blocks
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## 4. Provide proofs for the headers
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##
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## - To provide 1., it would require devp2p/eth access for the bridge to remain
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## standalone.
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## - To provide 2., it could use Era1 files.
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## - To provide 3. and 4, it could use Era1 files pre-merge, and Era files
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## post-merge. To backfill without Era or Era1 files, it could use libp2p and
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## devp2p for access to the blocks, however it would not be possible to (easily)
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## build the proofs for the headers.
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{.push raises: [].}
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import
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std/[os, strutils, options],
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chronicles,
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chronos,
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confutils,
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eth/[keys, rlp, trie, trie/db],
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# Need to rename this because of web3 ethtypes and ambigious indentifier mess
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# for `BlockHeader`.
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eth/common/eth_types as etypes,
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eth/common/eth_types_rlp,
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beacon_chain/el/el_manager,
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beacon_chain/gossip_processing/optimistic_processor,
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beacon_chain/networking/topic_params,
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beacon_chain/spec/beaconstate,
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beacon_chain/spec/datatypes/[phase0, altair, bellatrix],
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beacon_chain/[light_client, nimbus_binary_common],
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# Weirdness. Need to import this to be able to do errors.ValidationResult as
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# else we get an ambiguous identifier, ValidationResult from eth & libp2p.
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libp2p/protocols/pubsub/errors,
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../../rpc/portal_rpc_client,
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../../network/history/[history_content, history_network],
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../../network/beacon/beacon_content,
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../../common/common_types,
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./beacon_lc_bridge_conf
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from stew/objects import checkedEnumAssign
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from stew/byteutils import readHexChar
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from web3/primitives as web3types import BlockHash
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from beacon_chain/gossip_processing/block_processor import newExecutionPayload
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from beacon_chain/gossip_processing/eth2_processor import toValidationResult
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type Hash256 = etypes.Hash256
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template asEthHash(hash: web3types.BlockHash): Hash256 =
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Hash256(data: distinctBase(hash))
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# TODO: Ugh why isn't gasLimit and gasUsed a uint64 in nim-eth / nimbus-eth1 :(
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template unsafeQuantityToInt64(q: Quantity): int64 =
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int64 q
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proc calculateTransactionData(
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items: openArray[TypedTransaction]
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): Hash256 {.raises: [].} =
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var tr = initHexaryTrie(newMemoryDB(), isPruning = false)
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for i, t in items:
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try:
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let tx = distinctBase(t)
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tr.put(rlp.encode(i), tx)
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except CatchableError as e:
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# tr.put interface can raise exception
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raiseAssert(e.msg)
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return tr.rootHash()
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# TODO: Since Capella we can also access ExecutionPayloadHeader and thus
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# could get the Roots through there instead.
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proc calculateWithdrawalsRoot(items: openArray[WithdrawalV1]): Hash256 {.raises: [].} =
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var tr = initHexaryTrie(newMemoryDB(), isPruning = false)
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for i, w in items:
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try:
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let withdrawal = etypes.Withdrawal(
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index: distinctBase(w.index),
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validatorIndex: distinctBase(w.validatorIndex),
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address: distinctBase(w.address),
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amount: distinctBase(w.amount),
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)
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tr.put(rlp.encode(i), rlp.encode(withdrawal))
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except CatchableError as e:
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raiseAssert(e.msg)
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return tr.rootHash()
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proc asPortalBlockData*(
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payload: ExecutionPayloadV1
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): (common_types.BlockHash, BlockHeaderWithProof, PortalBlockBodyLegacy) =
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let
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txRoot = calculateTransactionData(payload.transactions)
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withdrawalsRoot = options.none(Hash256)
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header = etypes.BlockHeader(
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parentHash: payload.parentHash.asEthHash,
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ommersHash: EMPTY_UNCLE_HASH,
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coinbase: EthAddress payload.feeRecipient,
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stateRoot: payload.stateRoot.asEthHash,
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txRoot: txRoot,
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receiptRoot: payload.receiptsRoot.asEthHash,
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bloom: distinctBase(payload.logsBloom),
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difficulty: default(DifficultyInt),
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blockNumber: payload.blockNumber.distinctBase.u256,
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gasLimit: payload.gasLimit.unsafeQuantityToInt64,
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gasUsed: payload.gasUsed.unsafeQuantityToInt64,
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timestamp: payload.timestamp.EthTime,
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extraData: bytes payload.extraData,
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mixDigest: payload.prevRandao.asEthHash,
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nonce: default(BlockNonce),
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fee: some(payload.baseFeePerGas),
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withdrawalsRoot: withdrawalsRoot,
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blobGasUsed: options.none(uint64),
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excessBlobGas: options.none(uint64),
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)
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headerWithProof = BlockHeaderWithProof(
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header: ByteList(rlp.encode(header)), proof: BlockHeaderProof.init()
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)
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var transactions: Transactions
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for tx in payload.transactions:
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discard transactions.add(TransactionByteList(distinctBase(tx)))
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let body =
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PortalBlockBodyLegacy(transactions: transactions, uncles: Uncles(@[byte 0xc0]))
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let hash = common_types.BlockHash(data: distinctBase(payload.blockHash))
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(hash, headerWithProof, body)
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proc asPortalBlockData*(
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payload: ExecutionPayloadV2 | ExecutionPayloadV3
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): (common_types.BlockHash, BlockHeaderWithProof, PortalBlockBodyShanghai) =
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let
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txRoot = calculateTransactionData(payload.transactions)
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withdrawalsRoot = some(calculateWithdrawalsRoot(payload.withdrawals))
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# TODO: adjust blobGasUsed & excessBlobGas according to deneb fork!
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header = etypes.BlockHeader(
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parentHash: payload.parentHash.asEthHash,
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ommersHash: EMPTY_UNCLE_HASH,
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coinbase: EthAddress payload.feeRecipient,
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stateRoot: payload.stateRoot.asEthHash,
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txRoot: txRoot,
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receiptRoot: payload.receiptsRoot.asEthHash,
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bloom: distinctBase(payload.logsBloom),
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difficulty: default(DifficultyInt),
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blockNumber: payload.blockNumber.distinctBase.u256,
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gasLimit: payload.gasLimit.unsafeQuantityToInt64,
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gasUsed: payload.gasUsed.unsafeQuantityToInt64,
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timestamp: payload.timestamp.EthTime,
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extraData: bytes payload.extraData,
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mixDigest: payload.prevRandao.asEthHash,
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nonce: default(BlockNonce),
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fee: some(payload.baseFeePerGas),
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withdrawalsRoot: withdrawalsRoot,
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blobGasUsed: options.none(uint64),
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excessBlobGas: options.none(uint64),
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)
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headerWithProof = BlockHeaderWithProof(
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header: ByteList(rlp.encode(header)), proof: BlockHeaderProof.init()
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)
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var transactions: Transactions
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for tx in payload.transactions:
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discard transactions.add(TransactionByteList(distinctBase(tx)))
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func toWithdrawal(x: WithdrawalV1): Withdrawal =
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Withdrawal(
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index: x.index.uint64,
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validatorIndex: x.validatorIndex.uint64,
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address: x.address.EthAddress,
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amount: x.amount.uint64,
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)
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var withdrawals: Withdrawals
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for w in payload.withdrawals:
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discard withdrawals.add(WithdrawalByteList(rlp.encode(toWithdrawal(w))))
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let body = PortalBlockBodyShanghai(
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transactions: transactions, uncles: Uncles(@[byte 0xc0]), withdrawals: withdrawals
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)
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let hash = common_types.BlockHash(data: distinctBase(payload.blockHash))
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(hash, headerWithProof, body)
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proc run(config: BeaconBridgeConf) {.raises: [CatchableError].} =
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# Required as both Eth2Node and LightClient requires correct config type
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var lcConfig = config.asLightClientConf()
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setupLogging(config.logLevel, config.logStdout, none(OutFile))
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notice "Launching fluffy beacon chain light bridge",
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cmdParams = commandLineParams(), config
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let metadata = loadEth2Network(config.eth2Network)
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for node in metadata.bootstrapNodes:
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lcConfig.bootstrapNodes.add node
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template cfg(): auto =
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metadata.cfg
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let
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genesisState =
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try:
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template genesisData(): auto =
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metadata.genesis.bakedBytes
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newClone(
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readSszForkedHashedBeaconState(
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cfg, genesisData.toOpenArray(genesisData.low, genesisData.high)
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)
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)
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except CatchableError as err:
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raiseAssert "Invalid baked-in state: " & err.msg
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genesisTime = getStateField(genesisState[], genesis_time)
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beaconClock = BeaconClock.init(genesisTime).valueOr:
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error "Invalid genesis time in state", genesisTime
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quit QuitFailure
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getBeaconTime = beaconClock.getBeaconTimeFn()
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genesis_validators_root = getStateField(genesisState[], genesis_validators_root)
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forkDigests = newClone ForkDigests.init(cfg, genesis_validators_root)
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genesisBlockRoot = get_initial_beacon_block(genesisState[]).root
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rng = keys.newRng()
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netKeys = getRandomNetKeys(rng[])
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network = createEth2Node(
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rng, lcConfig, netKeys, cfg, forkDigests, getBeaconTime, genesis_validators_root
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)
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portalRpcClient = newRpcHttpClient()
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optimisticHandler = proc(
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signedBlock: ForkedMsgTrustedSignedBeaconBlock
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): Future[void] {.async: (raises: [CancelledError]).} =
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# TODO: Should not be gossiping optimistic blocks, but instead store them
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# in a cache and only gossip them after they are confirmed due to an LC
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# finalized header.
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notice "New LC optimistic block",
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opt = signedBlock.toBlockId(), wallSlot = getBeaconTime().slotOrZero
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withBlck(signedBlock):
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when consensusFork >= ConsensusFork.Bellatrix:
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if forkyBlck.message.is_execution_block:
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template payload(): auto =
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forkyBlck.message.body.execution_payload
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# TODO: Get rid of the asEngineExecutionPayload step?
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let executionPayload = payload.asEngineExecutionPayload()
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let (hash, headerWithProof, body) = asPortalBlockData(executionPayload)
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logScope:
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blockhash = history_content.`$` hash
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block: # gossip header
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let contentKey = history_content.ContentKey.init(blockHeader, hash)
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let encodedContentKey = contentKey.encode.asSeq()
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try:
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let peers = await portalRpcClient.portal_historyGossip(
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toHex(encodedContentKey), SSZ.encode(headerWithProof).toHex()
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)
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info "Block header gossiped",
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peers, contentKey = encodedContentKey.toHex()
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except CatchableError as e:
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error "JSON-RPC error", error = $e.msg
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# TODO: clean-up when json-rpc gets async raises annotations
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try:
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await portalRpcClient.close()
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except CatchableError:
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discard
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# For bodies to get verified, the header needs to be available on
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# the network. Wait a little to get the headers propagated through
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# the network.
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await sleepAsync(2.seconds)
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block: # gossip block
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let contentKey = history_content.ContentKey.init(blockBody, hash)
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let encodedContentKey = contentKey.encode.asSeq()
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try:
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let peers = await portalRpcClient.portal_historyGossip(
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encodedContentKey.toHex(), SSZ.encode(body).toHex()
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)
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info "Block body gossiped",
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peers, contentKey = encodedContentKey.toHex()
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except CatchableError as e:
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error "JSON-RPC error", error = $e.msg
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# TODO: clean-up when json-rpc gets async raises annotations
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try:
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await portalRpcClient.close()
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except CatchableError:
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discard
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return
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optimisticProcessor = initOptimisticProcessor(getBeaconTime, optimisticHandler)
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lightClient = createLightClient(
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network, rng, lcConfig, cfg, forkDigests, getBeaconTime, genesis_validators_root,
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LightClientFinalizationMode.Optimistic,
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)
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### Beacon Light Client content bridging specific callbacks
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proc onBootstrap(lightClient: LightClient, bootstrap: ForkedLightClientBootstrap) =
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withForkyObject(bootstrap):
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when lcDataFork > LightClientDataFork.None:
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info "New Beacon LC bootstrap",
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forkyObject, slot = forkyObject.header.beacon.slot
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let
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root = hash_tree_root(forkyObject.header)
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contentKey = encode(bootstrapContentKey(root))
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forkDigest =
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forkDigestAtEpoch(forkDigests[], epoch(forkyObject.header.beacon.slot), cfg)
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content = encodeBootstrapForked(forkDigest, bootstrap)
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proc GossipRpcAndClose() {.async.} =
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try:
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let
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contentKeyHex = contentKey.asSeq().toHex()
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peers = await portalRpcClient.portal_beaconGossip(
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contentKeyHex, content.toHex()
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)
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info "Beacon LC bootstrap gossiped", peers, contentKey = contentKeyHex
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except CatchableError as e:
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error "JSON-RPC error", error = $e.msg
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await portalRpcClient.close()
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asyncSpawn(GossipRpcAndClose())
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proc onUpdate(lightClient: LightClient, update: ForkedLightClientUpdate) =
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withForkyObject(update):
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when lcDataFork > LightClientDataFork.None:
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info "New Beacon LC update",
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update, slot = forkyObject.attested_header.beacon.slot
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let
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period = forkyObject.attested_header.beacon.slot.sync_committee_period
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contentKey = encode(updateContentKey(period.uint64, uint64(1)))
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forkDigest = forkDigestAtEpoch(
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forkDigests[], epoch(forkyObject.attested_header.beacon.slot), cfg
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)
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content = encodeLightClientUpdatesForked(forkDigest, @[update])
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proc GossipRpcAndClose() {.async.} =
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try:
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let
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contentKeyHex = contentKey.asSeq().toHex()
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peers = await portalRpcClient.portal_beaconGossip(
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contentKeyHex, content.toHex()
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)
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info "Beacon LC bootstrap gossiped", peers, contentKey = contentKeyHex
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except CatchableError as e:
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error "JSON-RPC error", error = $e.msg
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await portalRpcClient.close()
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asyncSpawn(GossipRpcAndClose())
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proc onOptimisticUpdate(
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lightClient: LightClient, update: ForkedLightClientOptimisticUpdate
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) =
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withForkyObject(update):
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when lcDataFork > LightClientDataFork.None:
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info "New Beacon LC optimistic update",
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update, slot = forkyObject.attested_header.beacon.slot
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let
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slot = forkyObject.signature_slot
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contentKey = encode(optimisticUpdateContentKey(slot.uint64))
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forkDigest = forkDigestAtEpoch(
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forkDigests[], epoch(forkyObject.attested_header.beacon.slot), cfg
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)
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content = encodeOptimisticUpdateForked(forkDigest, update)
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proc GossipRpcAndClose() {.async.} =
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try:
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let
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contentKeyHex = contentKey.asSeq().toHex()
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peers = await portalRpcClient.portal_beaconGossip(
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contentKeyHex, content.toHex()
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)
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info "Beacon LC bootstrap gossiped", peers, contentKey = contentKeyHex
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except CatchableError as e:
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error "JSON-RPC error", error = $e.msg
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await portalRpcClient.close()
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asyncSpawn(GossipRpcAndClose())
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proc onFinalityUpdate(
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lightClient: LightClient, update: ForkedLightClientFinalityUpdate
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) =
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withForkyObject(update):
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when lcDataFork > LightClientDataFork.None:
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info "New Beacon LC finality update",
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update, slot = forkyObject.attested_header.beacon.slot
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let
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finalizedSlot = forkyObject.finalized_header.beacon.slot
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contentKey = encode(finalityUpdateContentKey(finalizedSlot.uint64))
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forkDigest = forkDigestAtEpoch(
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forkDigests[], epoch(forkyObject.attested_header.beacon.slot), cfg
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)
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content = encodeFinalityUpdateForked(forkDigest, update)
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proc GossipRpcAndClose() {.async.} =
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try:
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let
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contentKeyHex = contentKey.asSeq().toHex()
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peers = await portalRpcClient.portal_beaconGossip(
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contentKeyHex, content.toHex()
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)
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info "Beacon LC bootstrap gossiped", peers, contentKey = contentKeyHex
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except CatchableError as e:
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error "JSON-RPC error", error = $e.msg
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await portalRpcClient.close()
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asyncSpawn(GossipRpcAndClose())
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###
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waitFor portalRpcClient.connect(config.rpcAddress, Port(config.rpcPort), false)
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info "Listening to incoming network requests"
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network.registerProtocol(
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PeerSync,
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PeerSync.NetworkState.init(cfg, forkDigests, genesisBlockRoot, getBeaconTime),
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)
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network.addValidator(
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getBeaconBlocksTopic(forkDigests.phase0),
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proc(signedBlock: phase0.SignedBeaconBlock): errors.ValidationResult =
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toValidationResult(optimisticProcessor.processSignedBeaconBlock(signedBlock))
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,
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)
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network.addValidator(
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getBeaconBlocksTopic(forkDigests.altair),
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proc(signedBlock: altair.SignedBeaconBlock): errors.ValidationResult =
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toValidationResult(optimisticProcessor.processSignedBeaconBlock(signedBlock))
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,
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)
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network.addValidator(
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getBeaconBlocksTopic(forkDigests.bellatrix),
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proc(signedBlock: bellatrix.SignedBeaconBlock): errors.ValidationResult =
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toValidationResult(optimisticProcessor.processSignedBeaconBlock(signedBlock))
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,
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)
|
|
network.addValidator(
|
|
getBeaconBlocksTopic(forkDigests.capella),
|
|
proc(signedBlock: capella.SignedBeaconBlock): errors.ValidationResult =
|
|
toValidationResult(optimisticProcessor.processSignedBeaconBlock(signedBlock))
|
|
,
|
|
)
|
|
network.addValidator(
|
|
getBeaconBlocksTopic(forkDigests.deneb),
|
|
proc(signedBlock: deneb.SignedBeaconBlock): errors.ValidationResult =
|
|
toValidationResult(optimisticProcessor.processSignedBeaconBlock(signedBlock))
|
|
,
|
|
)
|
|
lightClient.installMessageValidators()
|
|
|
|
waitFor network.startListening()
|
|
waitFor network.start()
|
|
|
|
proc onFinalizedHeader(
|
|
lightClient: LightClient, finalizedHeader: ForkedLightClientHeader
|
|
) =
|
|
withForkyHeader(finalizedHeader):
|
|
when lcDataFork > LightClientDataFork.None:
|
|
info "New LC finalized header", finalized_header = shortLog(forkyHeader)
|
|
|
|
proc onOptimisticHeader(
|
|
lightClient: LightClient, optimisticHeader: ForkedLightClientHeader
|
|
) =
|
|
withForkyHeader(optimisticHeader):
|
|
when lcDataFork > LightClientDataFork.None:
|
|
info "New LC optimistic header", optimistic_header = shortLog(forkyHeader)
|
|
optimisticProcessor.setOptimisticHeader(forkyHeader.beacon)
|
|
|
|
lightClient.onFinalizedHeader = onFinalizedHeader
|
|
lightClient.onOptimisticHeader = onOptimisticHeader
|
|
lightClient.trustedBlockRoot = some config.trustedBlockRoot
|
|
|
|
if config.beaconLightClient:
|
|
lightClient.bootstrapObserver = onBootstrap
|
|
lightClient.updateObserver = onUpdate
|
|
lightClient.finalityUpdateObserver = onFinalityUpdate
|
|
lightClient.optimisticUpdateObserver = onOptimisticUpdate
|
|
|
|
func shouldSyncOptimistically(wallSlot: Slot): bool =
|
|
let optimisticHeader = lightClient.optimisticHeader
|
|
withForkyHeader(optimisticHeader):
|
|
when lcDataFork > LightClientDataFork.None:
|
|
# Check whether light client has synced sufficiently close to wall slot
|
|
const maxAge = 2 * SLOTS_PER_EPOCH
|
|
forkyHeader.beacon.slot >= max(wallSlot, maxAge.Slot) - maxAge
|
|
else:
|
|
false
|
|
|
|
var blocksGossipState: GossipState = {}
|
|
proc updateBlocksGossipStatus(slot: Slot) =
|
|
let
|
|
isBehind = not shouldSyncOptimistically(slot)
|
|
|
|
targetGossipState = getTargetGossipState(
|
|
slot.epoch, cfg.ALTAIR_FORK_EPOCH, cfg.BELLATRIX_FORK_EPOCH,
|
|
cfg.CAPELLA_FORK_EPOCH, cfg.DENEB_FORK_EPOCH, isBehind,
|
|
)
|
|
|
|
template currentGossipState(): auto =
|
|
blocksGossipState
|
|
|
|
if currentGossipState == targetGossipState:
|
|
return
|
|
|
|
if currentGossipState.card == 0 and targetGossipState.card > 0:
|
|
debug "Enabling blocks topic subscriptions", wallSlot = slot, targetGossipState
|
|
elif currentGossipState.card > 0 and targetGossipState.card == 0:
|
|
debug "Disabling blocks topic subscriptions", wallSlot = slot
|
|
else:
|
|
# Individual forks added / removed
|
|
discard
|
|
|
|
let
|
|
newGossipForks = targetGossipState - currentGossipState
|
|
oldGossipForks = currentGossipState - targetGossipState
|
|
|
|
for gossipFork in oldGossipForks:
|
|
let forkDigest = forkDigests[].atConsensusFork(gossipFork)
|
|
network.unsubscribe(getBeaconBlocksTopic(forkDigest))
|
|
|
|
for gossipFork in newGossipForks:
|
|
let forkDigest = forkDigests[].atConsensusFork(gossipFork)
|
|
network.subscribe(
|
|
getBeaconBlocksTopic(forkDigest), blocksTopicParams, enableTopicMetrics = true
|
|
)
|
|
|
|
blocksGossipState = targetGossipState
|
|
|
|
proc onSecond(time: Moment) =
|
|
let wallSlot = getBeaconTime().slotOrZero()
|
|
updateBlocksGossipStatus(wallSlot + 1)
|
|
lightClient.updateGossipStatus(wallSlot + 1)
|
|
|
|
proc runOnSecondLoop() {.async.} =
|
|
let sleepTime = chronos.seconds(1)
|
|
while true:
|
|
let start = chronos.now(chronos.Moment)
|
|
await chronos.sleepAsync(sleepTime)
|
|
let afterSleep = chronos.now(chronos.Moment)
|
|
let sleepTime = afterSleep - start
|
|
onSecond(start)
|
|
let finished = chronos.now(chronos.Moment)
|
|
let processingTime = finished - afterSleep
|
|
trace "onSecond task completed", sleepTime, processingTime
|
|
|
|
onSecond(Moment.now())
|
|
lightClient.start()
|
|
|
|
asyncSpawn runOnSecondLoop()
|
|
while true:
|
|
poll()
|
|
|
|
when isMainModule:
|
|
{.pop.}
|
|
var config = makeBannerAndConfig("Nimbus beacon chain bridge", BeaconBridgeConf)
|
|
{.push raises: [].}
|
|
|
|
run(config)
|