705 lines
22 KiB
Nim
705 lines
22 KiB
Nim
# Nimbus
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# Copyright (c) 2021-2022 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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{.push raises: [Defect].}
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import
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stew/results, chronos, chronicles,
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eth/[common/eth_types_rlp, rlp, trie, trie/db],
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eth/p2p/discoveryv5/[protocol, enr],
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../../content_db,
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../../../nimbus/constants,
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../wire/[portal_protocol, portal_stream, portal_protocol_config],
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"."/[history_content, accumulator]
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logScope:
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topics = "portal_hist"
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export accumulator
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const
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historyProtocolId* = [byte 0x50, 0x0B]
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type
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HistoryNetwork* = ref object
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portalProtocol*: PortalProtocol
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contentDB*: ContentDB
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contentQueue*: AsyncQueue[(ContentKeysList, seq[seq[byte]])]
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accumulator*: FinishedAccumulator
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processContentLoop: Future[void]
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Block* = (BlockHeader, BlockBody)
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func toContentIdHandler(contentKey: ByteList): results.Opt[ContentId] =
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ok(toContentId(contentKey))
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func decodeRlp*(input: openArray[byte], T: type): Result[T, string] =
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try:
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ok(rlp.decode(input, T))
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except RlpError as e:
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err(e.msg)
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func decodeSsz*(input: openArray[byte], T: type): Result[T, string] =
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try:
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ok(SSZ.decode(input, T))
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except SszError as e:
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err(e.msg)
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## Calls to go from SSZ decoded types to RLP fully decoded types
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func fromPortalBlockBody(
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T: type BlockBody, body: BlockBodySSZ): Result[T, string] =
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## Get the full decoded BlockBody from the SSZ-decoded `PortalBlockBody`.
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try:
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var transactions: seq[Transaction]
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for tx in body.transactions:
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transactions.add(rlp.decode(tx.asSeq(), Transaction))
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let uncles = rlp.decode(body.uncles.asSeq(), seq[BlockHeader])
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ok(BlockBody(transactions: transactions, uncles: uncles))
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except RlpError as e:
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err("RLP decoding failed: " & e.msg)
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func fromReceipts(
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T: type seq[Receipt], receipts: ReceiptsSSZ): Result[T, string] =
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## Get the full decoded seq[Receipt] from the SSZ-decoded `Receipts`.
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try:
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var res: seq[Receipt]
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for receipt in receipts:
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res.add(rlp.decode(receipt.asSeq(), Receipt))
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ok(res)
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except RlpError as e:
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err("RLP decoding failed: " & e.msg)
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## Calls to encode Block types to the SSZ types.
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func fromBlockBody(T: type BlockBodySSZ, body: BlockBody): T =
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var transactions: Transactions
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for tx in body.transactions:
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discard transactions.add(TransactionByteList(rlp.encode(tx)))
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let uncles = Uncles(rlp.encode(body.uncles))
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BlockBodySSZ(transactions: transactions, uncles: uncles)
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func fromReceipts(T: type ReceiptsSSZ, receipts: seq[Receipt]): T =
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var receiptsSSZ: ReceiptsSSZ
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for receipt in receipts:
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discard receiptsSSZ.add(ReceiptByteList(rlp.encode(receipt)))
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receiptsSSZ
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func encode*(blockBody: BlockBody): seq[byte] =
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let portalBlockBody = BlockBodySSZ.fromBlockBody(blockBody)
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SSZ.encode(portalBlockBody)
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func encode*(receipts: seq[Receipt]): seq[byte] =
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let portalReceipts = ReceiptsSSZ.fromReceipts(receipts)
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SSZ.encode(portalReceipts)
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## Calls and helper calls to do validation of block header, body and receipts
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# TODO: Failures on validation and perhaps deserialisation should be punished
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# for if/when peer scoring/banning is added.
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proc calcRootHash(items: Transactions | ReceiptsSSZ): Hash256 =
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var tr = initHexaryTrie(newMemoryDB())
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for i, t in items:
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try:
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tr.put(rlp.encode(i), t.asSeq())
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except RlpError as e:
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# TODO: Investigate this RlpError as it doesn't sound like this is
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# something that can actually occur.
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raiseAssert(e.msg)
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return tr.rootHash
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template calcTxsRoot*(transactions: Transactions): Hash256 =
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calcRootHash(transactions)
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template calcReceiptsRoot*(receipts: ReceiptsSSZ): Hash256 =
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calcRootHash(receipts)
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func validateBlockHeaderBytes*(
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bytes: openArray[byte], hash: BlockHash): Result[BlockHeader, string] =
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let header = ? decodeRlp(bytes, BlockHeader)
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if header.excessDataGas.isSome:
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return err("EIP-4844 not yet implemented")
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if header.withdrawalsRoot.isSome:
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return err("Withdrawals not yet implemented")
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if not (header.blockHash() == hash):
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err("Block header hash does not match")
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else:
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ok(header)
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proc validateBlockBody(
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body: BlockBodySSZ, txsRoot, ommersHash: KeccakHash):
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Result[void, string] =
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## Validate the block body against the txRoot amd ommersHash from the header.
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let calculatedOmmersHash = keccakHash(body.uncles.asSeq())
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if calculatedOmmersHash != ommersHash:
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return err("Invalid ommers hash")
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let calculatedTxsRoot = calcTxsRoot(body.transactions)
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if calculatedTxsRoot != txsRoot:
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return err("Invalid transactions root")
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ok()
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proc validateBlockBodyBytes*(
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bytes: openArray[byte], txRoot, ommersHash: KeccakHash):
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Result[BlockBody, string] =
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## Fully decode the SSZ Block Body and validate it against the header.
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let body = ? decodeSsz(bytes, BlockBodySSZ)
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? validateBlockBody(body, txRoot, ommersHash)
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BlockBody.fromPortalBlockBody(body)
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proc validateReceipts(
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receipts: ReceiptsSSZ, receiptsRoot: KeccakHash): Result[void, string] =
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let calculatedReceiptsRoot = calcReceiptsRoot(receipts)
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if calculatedReceiptsRoot != receiptsRoot:
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return err("Unexpected receipt root")
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else:
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return ok()
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proc validateReceiptsBytes*(
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bytes: openArray[byte],
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receiptsRoot: KeccakHash): Result[seq[Receipt], string] =
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## Fully decode the SSZ Block Body and validate it against the header.
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let receipts = ? decodeSsz(bytes, ReceiptsSSZ)
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? validateReceipts(receipts, receiptsRoot)
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seq[Receipt].fromReceipts(receipts)
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## ContentDB helper calls for specific history network types
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proc get(db: ContentDB, T: type BlockHeader, contentId: ContentId): Opt[T] =
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let contentFromDB = db.get(contentId)
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if contentFromDB.isSome():
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let headerWithProof =
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try:
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SSZ.decode(contentFromDB.get(), BlockHeaderWithProof)
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except SszError as e:
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raiseAssert(e.msg)
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let res = decodeRlp(headerWithProof.header.asSeq(), T)
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if res.isErr():
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raiseAssert(res.error)
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else:
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Opt.some(res.get())
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else:
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Opt.none(T)
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proc get(db: ContentDB, T: type BlockBody, contentId: ContentId): Opt[T] =
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let contentFromDB = db.getSszDecoded(contentId, BlockBodySSZ)
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if contentFromDB.isSome():
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let res = T.fromPortalBlockBody(contentFromDB.get())
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if res.isErr():
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raiseAssert(res.error)
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else:
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Opt.some(res.get())
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else:
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Opt.none(T)
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proc get(db: ContentDB, T: type seq[Receipt], contentId: ContentId): Opt[T] =
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let contentFromDB = db.getSszDecoded(contentId, ReceiptsSSZ)
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if contentFromDB.isSome():
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let res = T.fromReceipts(contentFromDB.get())
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if res.isErr():
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raiseAssert(res.error)
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else:
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Opt.some(res.get())
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else:
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Opt.none(T)
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proc get(
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db: ContentDB, T: type EpochAccumulator, contentId: ContentId): Opt[T] =
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db.getSszDecoded(contentId, T)
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proc getContentFromDb(
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n: HistoryNetwork, T: type, contentId: ContentId): Opt[T] =
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if n.portalProtocol.inRange(contentId):
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n.contentDB.get(T, contentId)
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else:
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Opt.none(T)
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## Public API to get the history network specific types, either from database
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## or through a lookup on the Portal Network
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const requestRetries = 4
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# TODO: Currently doing 4 retries on lookups but only when the validation fails.
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# This is to avoid nodes that provide garbage from blocking us with getting the
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# requested data. Might want to also do that on a failed lookup, as perhaps this
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# could occur when being really unlucky with nodes timing out on requests.
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# Additionally, more improvements could be done with the lookup, as currently
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# ongoing requests are cancelled after the receival of the first response,
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# however that response is not yet validated at that moment.
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func verifyHeader(
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n: HistoryNetwork, header: BlockHeader, proof: BlockHeaderProof):
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Result[void, string] =
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verifyHeader(n.accumulator, header, proof)
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proc getVerifiedBlockHeader*(
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n: HistoryNetwork, hash: BlockHash):
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Future[Opt[BlockHeader]] {.async.} =
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let
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contentKey = ContentKey.init(blockHeaderWithProof, hash).encode()
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contentId = contentKey.toContentId()
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logScope:
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hash
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contentKey
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# Note: This still requests a BlockHeaderWithProof from the database, as that
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# is what is stored. But the proof doesn't need to be verified as it gets
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# gets verified before storing.
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let headerFromDb = n.getContentFromDb(BlockHeader, contentId)
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if headerFromDb.isSome():
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info "Fetched block header from database"
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return headerFromDb
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for i in 0..<requestRetries:
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let
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headerContent = (await n.portalProtocol.contentLookup(
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contentKey, contentId)).valueOr:
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warn "Failed fetching block header with proof from the network"
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return Opt.none(BlockHeader)
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headerWithProof = decodeSsz(
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headerContent.content, BlockHeaderWithProof).valueOr:
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warn "Failed decoding header with proof", error
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continue
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header = validateBlockHeaderBytes(
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headerWithProof.header.asSeq(), hash).valueOr:
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warn "Validation of block header failed", error
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continue
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if (let r = n.verifyHeader(header, headerWithProof.proof); r.isErr):
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warn "Verification of block header failed", error = r.error
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continue
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info "Fetched valid block header from the network"
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# Content is valid, it can be stored and propagated to interested peers
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n.portalProtocol.storeContent(contentKey, contentId, headerContent.content)
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n.portalProtocol.triggerPoke(
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headerContent.nodesInterestedInContent,
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contentKey,
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headerContent.content
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)
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return Opt.some(header)
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# Headers were requested `requestRetries` times and all failed on validation
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return Opt.none(BlockHeader)
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# TODO: To be deprecated or not? Should there be the case for requesting a
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# block header without proofs?
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proc getBlockHeader*(
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n: HistoryNetwork, hash: BlockHash):
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Future[Opt[BlockHeader]] {.async.} =
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let
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contentKey = ContentKey.init(blockHeader, hash).encode()
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contentId = contentKey.toContentId()
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logScope:
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hash
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contentKey
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let headerFromDb = n.getContentFromDb(BlockHeader, contentId)
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if headerFromDb.isSome():
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info "Fetched block header from database"
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return headerFromDb
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for i in 0..<requestRetries:
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let
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headerContent = (await n.portalProtocol.contentLookup(
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contentKey, contentId)).valueOr:
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warn "Failed fetching block header from the network"
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return Opt.none(BlockHeader)
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header = validateBlockHeaderBytes(headerContent.content, hash).valueOr:
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warn "Validation of block header failed", error
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continue
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info "Fetched valid block header from the network"
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# Content is valid, it can be stored and propagated to interested peers
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n.portalProtocol.storeContent(contentKey, contentId, headerContent.content)
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n.portalProtocol.triggerPoke(
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headerContent.nodesInterestedInContent,
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contentKey,
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headerContent.content
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)
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return Opt.some(header)
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# Headers were requested `requestRetries` times and all failed on validation
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return Opt.none(BlockHeader)
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proc getBlockBody*(
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n: HistoryNetwork, hash: BlockHash, header: BlockHeader):
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Future[Opt[BlockBody]] {.async.} =
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if header.txRoot == EMPTY_ROOT_HASH and header.ommersHash == EMPTY_UNCLE_HASH:
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# Short path for empty body indicated by txRoot and ommersHash
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return Opt.some(BlockBody(transactions: @[], uncles: @[]))
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let
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contentKey = ContentKey.init(blockBody, hash).encode()
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contentId = contentKey.toContentId()
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logScope:
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hash
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contentKey
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let bodyFromDb = n.getContentFromDb(BlockBody, contentId)
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if bodyFromDb.isSome():
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info "Fetched block body from database"
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return bodyFromDb
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for i in 0..<requestRetries:
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let
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bodyContent = (await n.portalProtocol.contentLookup(
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contentKey, contentId)).valueOr:
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warn "Failed fetching block body from the network"
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return Opt.none(BlockBody)
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body = validateBlockBodyBytes(
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bodyContent.content, header.txRoot, header.ommersHash).valueOr:
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warn "Validation of block body failed", error
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continue
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info "Fetched block body from the network"
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# Content is valid, it can be stored and propagated to interested peers
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n.portalProtocol.storeContent(contentKey, contentId, bodyContent.content)
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n.portalProtocol.triggerPoke(
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bodyContent.nodesInterestedInContent,
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contentKey,
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bodyContent.content
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)
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return Opt.some(body)
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# Bodies were requested `requestRetries` times and all failed on validation
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return Opt.none(BlockBody)
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proc getBlock*(
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n: HistoryNetwork, hash: BlockHash):
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Future[Opt[Block]] {.async.} =
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debug "Trying to retrieve block with hash", hash
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# Note: Using `getVerifiedBlockHeader` instead of getBlockHeader even though
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# proofs are not necessiarly needed, in order to avoid having to inject
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# also the original type into the network.
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let
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header = (await n.getVerifiedBlockHeader(hash)).valueOr:
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warn "Failed to get header when getting block", hash
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return Opt.none(Block)
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body = (await n.getBlockBody(hash, header)).valueOr:
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warn "Failed to get body when getting block", hash
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return Opt.none(Block)
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return Opt.some((header, body))
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proc getReceipts*(
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n: HistoryNetwork,
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hash: BlockHash,
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header: BlockHeader): Future[Opt[seq[Receipt]]] {.async.} =
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if header.receiptRoot == EMPTY_ROOT_HASH:
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# Short path for empty receipts indicated by receipts root
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return Opt.some(newSeq[Receipt]())
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let
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contentKey = ContentKey.init(receipts, hash).encode()
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contentId = contentKey.toContentId()
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logScope:
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hash
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contentKey
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let receiptsFromDb = n.getContentFromDb(seq[Receipt], contentId)
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if receiptsFromDb.isSome():
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info "Fetched receipts from database"
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return receiptsFromDb
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for i in 0..<requestRetries:
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let
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receiptsContent = (await n.portalProtocol.contentLookup(
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contentKey, contentId)).valueOr:
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warn "Failed fetching receipts from the network"
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return Opt.none(seq[Receipt])
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receipts = validateReceiptsBytes(
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receiptsContent.content, header.receiptRoot).valueOr:
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warn "Validation of receipts failed", error
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continue
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info "Fetched receipts from the network"
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# Content is valid, it can be stored and propagated to interested peers
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n.portalProtocol.storeContent(contentKey, contentId, receiptsContent.content)
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n.portalProtocol.triggerPoke(
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receiptsContent.nodesInterestedInContent,
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contentKey,
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receiptsContent.content
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)
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return Opt.some(receipts)
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proc getEpochAccumulator(
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n: HistoryNetwork, epochHash: Digest):
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Future[Opt[EpochAccumulator]] {.async.} =
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let
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contentKey = ContentKey.init(epochAccumulator, epochHash).encode()
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contentId = contentKey.toContentId()
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logScope:
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epochHash
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contentKey
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let accumulatorFromDb = n.getContentFromDb(EpochAccumulator, contentId)
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if accumulatorFromDb.isSome():
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info "Fetched epoch accumulator from database"
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return accumulatorFromDb
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for i in 0..<requestRetries:
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let
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accumulatorContent = (await n.portalProtocol.contentLookup(
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contentKey, contentId)).valueOr:
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warn "Failed fetching epoch accumulator from the network"
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return Opt.none(EpochAccumulator)
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epochAccumulator =
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try:
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SSZ.decode(accumulatorContent.content, EpochAccumulator)
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except SszError:
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continue
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let hash = hash_tree_root(epochAccumulator)
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if hash == epochHash:
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info "Fetched epoch accumulator from the network"
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n.portalProtocol.storeContent(contentKey, contentId, accumulatorContent.content)
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n.portalProtocol.triggerPoke(
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accumulatorContent.nodesInterestedInContent,
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contentKey,
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accumulatorContent.content
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)
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return Opt.some(epochAccumulator)
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else:
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warn "Validation of epoch accumulator failed", resultedEpochHash = hash
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return Opt.none(EpochAccumulator)
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proc getBlock*(
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n: HistoryNetwork, bn: UInt256):
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Future[Result[Opt[Block], string]] {.async.} =
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let
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epochData = n.accumulator.getBlockEpochDataForBlockNumber(bn).valueOr:
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return err(error)
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digest = Digest(data: epochData.epochHash)
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epoch = (await n.getEpochAccumulator(digest)).valueOr:
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return err("Cannot retrieve epoch accumulator for given block number")
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blockHash = epoch[epochData.blockRelativeIndex].blockHash
|
|
|
|
maybeBlock = await n.getBlock(blockHash)
|
|
|
|
return ok(maybeBlock)
|
|
|
|
proc validateContent(
|
|
n: HistoryNetwork, content: seq[byte], contentKey: ByteList):
|
|
Future[bool] {.async.} =
|
|
let key = contentKey.decode().valueOr:
|
|
return false
|
|
|
|
case key.contentType:
|
|
of blockHeader:
|
|
# Note: For now we still accept regular block header type to remain
|
|
# compatible with the current specs. However, a verification is done by
|
|
# basically requesting the header with proofs from somewhere else.
|
|
# This all doesn't make much sense aside from compatibility and should
|
|
# eventually be removed.
|
|
let header = validateBlockHeaderBytes(
|
|
content, key.blockHeaderKey.blockHash).valueOr:
|
|
warn "Invalid block header offered", error
|
|
return false
|
|
|
|
let res = await n.getVerifiedBlockHeader(key.blockHeaderKey.blockHash)
|
|
if res.isNone():
|
|
warn "Block header failed canonical verification"
|
|
return false
|
|
else:
|
|
return true
|
|
|
|
of blockBody:
|
|
let header = (await n.getVerifiedBlockHeader(
|
|
key.blockBodyKey.blockHash)).valueOr:
|
|
warn "Failed getting canonical header for block"
|
|
return false
|
|
|
|
let res = validateBlockBodyBytes(content, header.txRoot, header.ommersHash)
|
|
if res.isErr():
|
|
warn "Failed validating block body", error = res.error
|
|
return false
|
|
else:
|
|
return true
|
|
|
|
of receipts:
|
|
let header = (await n.getVerifiedBlockHeader(
|
|
key.receiptsKey.blockHash)).valueOr:
|
|
warn "Failed getting canonical header for receipts"
|
|
return false
|
|
|
|
let res = validateReceiptsBytes(content, header.receiptRoot)
|
|
if res.isErr():
|
|
warn "Failed validating receipts", error = res.error
|
|
return false
|
|
else:
|
|
return true
|
|
|
|
of epochAccumulator:
|
|
# Check first if epochHash is part of master accumulator
|
|
let epochHash = key.epochAccumulatorKey.epochHash
|
|
if not n.accumulator.historicalEpochs.contains(epochHash.data):
|
|
warn "Offered epoch accumulator is not part of master accumulator",
|
|
epochHash
|
|
return false
|
|
|
|
let epochAccumulator =
|
|
try:
|
|
SSZ.decode(content, EpochAccumulator)
|
|
except SszError:
|
|
warn "Failed decoding epoch accumulator"
|
|
return false
|
|
|
|
# Next check the hash tree root, as this is probably more expensive
|
|
let hash = hash_tree_root(epochAccumulator)
|
|
if hash != epochHash:
|
|
warn "Epoch accumulator has invalid root hash"
|
|
return false
|
|
else:
|
|
return true
|
|
|
|
of blockHeaderWithProof:
|
|
let
|
|
headerWithProof = decodeSsz(content, BlockHeaderWithProof).valueOr:
|
|
warn "Failed decoding header with proof", error
|
|
return false
|
|
header = validateBlockHeaderBytes(
|
|
headerWithProof.header.asSeq(),
|
|
key.blockHeaderWithProofKey.blockHash).valueOr:
|
|
warn "Invalid block header offered", error
|
|
return false
|
|
|
|
let res = n.verifyHeader(header, headerWithProof.proof)
|
|
if res.isErr():
|
|
warn "Failed on check if header is part of canonical chain",
|
|
error = res.error
|
|
return false
|
|
else:
|
|
return true
|
|
|
|
proc new*(
|
|
T: type HistoryNetwork,
|
|
baseProtocol: protocol.Protocol,
|
|
contentDB: ContentDB,
|
|
streamManager: StreamManager,
|
|
accumulator: FinishedAccumulator,
|
|
bootstrapRecords: openArray[Record] = [],
|
|
portalConfig: PortalProtocolConfig = defaultPortalProtocolConfig): T =
|
|
let
|
|
contentQueue = newAsyncQueue[(ContentKeysList, seq[seq[byte]])](50)
|
|
|
|
stream = streamManager.registerNewStream(contentQueue)
|
|
|
|
portalProtocol = PortalProtocol.new(
|
|
baseProtocol, historyProtocolId,
|
|
toContentIdHandler, createGetHandler(contentDB), stream, bootstrapRecords,
|
|
config = portalConfig)
|
|
|
|
portalProtocol.dbPut = createStoreHandler(contentDB, portalConfig.radiusConfig, portalProtocol)
|
|
|
|
HistoryNetwork(
|
|
portalProtocol: portalProtocol,
|
|
contentDB: contentDB,
|
|
contentQueue: contentQueue,
|
|
accumulator: accumulator
|
|
)
|
|
|
|
proc validateContent(
|
|
n: HistoryNetwork,
|
|
contentKeys: ContentKeysList,
|
|
contentItems: seq[seq[byte]]): Future[bool] {.async.} =
|
|
# content passed here can have less items then contentKeys, but not more.
|
|
for i, contentItem in contentItems:
|
|
let contentKey = contentKeys[i]
|
|
if await n.validateContent(contentItem, contentKey):
|
|
let contentIdOpt = n.portalProtocol.toContentId(contentKey)
|
|
if contentIdOpt.isNone():
|
|
error "Received offered content with invalid content key", contentKey
|
|
return false
|
|
|
|
let contentId = contentIdOpt.get()
|
|
|
|
n.portalProtocol.storeContent(contentKey, contentId, contentItem)
|
|
|
|
info "Received offered content validated successfully", contentKey
|
|
|
|
else:
|
|
error "Received offered content failed validation", contentKey
|
|
return false
|
|
|
|
return true
|
|
|
|
proc neighborhoodGossipDiscardPeers(
|
|
p: PortalProtocol,
|
|
contentKeys: ContentKeysList,
|
|
content: seq[seq[byte]]): Future[void] {.async.} =
|
|
discard await p.neighborhoodGossip(contentKeys, content)
|
|
|
|
proc processContentLoop(n: HistoryNetwork) {.async.} =
|
|
try:
|
|
while true:
|
|
let (contentKeys, contentItems) =
|
|
await n.contentQueue.popFirst()
|
|
|
|
# When there is one invalid content item, all other content items are
|
|
# dropped and not gossiped around.
|
|
# TODO: Differentiate between failures due to invalid data and failures
|
|
# due to missing network data for validation.
|
|
if await n.validateContent(contentKeys, contentItems):
|
|
asyncSpawn n.portalProtocol.neighborhoodGossipDiscardPeers(
|
|
contentKeys, contentItems
|
|
)
|
|
|
|
except CancelledError:
|
|
trace "processContentLoop canceled"
|
|
|
|
proc start*(n: HistoryNetwork) =
|
|
info "Starting Portal execution history network",
|
|
protocolId = n.portalProtocol.protocolId,
|
|
accumulatorRoot = hash_tree_root(n.accumulator)
|
|
n.portalProtocol.start()
|
|
|
|
n.processContentLoop = processContentLoop(n)
|
|
|
|
proc stop*(n: HistoryNetwork) =
|
|
n.portalProtocol.stop()
|
|
|
|
if not n.processContentLoop.isNil:
|
|
n.processContentLoop.cancel()
|