# Nimbus - Ethereum Snap Protocol (SNAP), version 1 # # Copyright (c) 2021-2024 Status Research & Development GmbH # Licensed under either of # * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or # http://www.apache.org/licenses/LICENSE-2.0) # * MIT license ([LICENSE-MIT](LICENSE-MIT) or # http://opensource.org/licenses/MIT) # at your option. This file may not be copied, modified, or distributed # except according to those terms. ## This module implements Ethereum Snapshot Protocol version 1, `snap/1`. ## Specification: ## `snap/1 `_ ## ## Use NIM command line optipn `-d:p2pProtocolDebug` for dumping the ## generated driver code (just to have it stored somewhere lest one forgets.) import std/options, chronicles, chronos, eth/[common, p2p, p2p/private/p2p_types], ./snap/snap_types, ../../constants export snap_types logScope: topics = "snap1" const snapVersion* = 1 prettySnapProtoName* = "[snap/" & $snapVersion & "]" # Pickeled tracer texts trSnapRecvReceived* = "<< " & prettySnapProtoName & " Received " trSnapRecvProtocolViolation* = "<< " & prettySnapProtoName & " Protocol violation, " trSnapRecvError* = "<< " & prettySnapProtoName & " Error " trSnapRecvTimeoutWaiting* = "<< " & prettySnapProtoName & " Timeout waiting " trSnapSendSending* = ">> " & prettySnapProtoName & " Sending " trSnapSendReplying* = ">> " & prettySnapProtoName & " Replying " proc read(rlp: var Rlp, t: var SnapAccount, T: type Account): T = ## RLP mixin, decoding rlp.snapRead T proc read(rlp: var Rlp; T: type SnapProofNodes): T = ## RLP mixin, decoding rlp.snapRead T proc read(rlp: var Rlp; T: type SnapTriePaths): T = ## RLP mixin, decoding rlp.snapRead T proc append(writer: var RlpWriter, t: SnapAccount, account: Account) = ## RLP mixin, encoding writer.snapAppend account proc append(writer: var RlpWriter; spn: SnapProofNodes) = ## RLP mixin, encoding writer.snapAppend spn proc append(writer: var RlpWriter; stn: SnapTriePaths) = ## RLP mixin, encoding writer.snapAppend stn template handleHandlerError(x: untyped) = if x.isErr: raise newException(EthP2PError, x.error) p2pProtocol snap1(version = snapVersion, rlpxName = "snap", peerState = SnapPeerState, networkState = SnapWireBase, useRequestIds = true): requestResponse: # User message 0x00: GetAccountRange. proc getAccountRange( peer: Peer; root: Hash256; origin: openArray[byte]; limit: openArray[byte]; replySizeMax: uint64; ) = trace trSnapRecvReceived & "GetAccountRange (0x00)", peer, root, nOrigin=origin.len, nLimit=limit.len, replySizeMax let ctx = peer.networkState() res = ctx.getAccountRange( root, origin, limit, replySizeMax) handleHandlerError(res) let (accounts, proof) = res.get # For logging only nAccounts = accounts.len nProof = proof.nodes.len if nAccounts == 0 and nProof == 0: trace trSnapSendReplying & "EMPTY AccountRange (0x01)", peer else: trace trSnapSendReplying & "AccountRange (0x01)", peer, nAccounts, nProof await response.send(accounts, proof) # User message 0x01: AccountRange. proc accountRange( peer: Peer; accounts: openArray[SnapAccount]; proof: SnapProofNodes) requestResponse: # User message 0x02: GetStorageRanges. proc getStorageRanges( peer: Peer; root: Hash256; accounts: openArray[Hash256]; origin: openArray[byte]; limit: openArray[byte]; replySizeMax: uint64; ) = trace trSnapRecvReceived & "GetStorageRanges (0x02)", peer, root, nAccounts=accounts.len, nOrigin=origin.len, nLimit=limit.len, replySizeMax let ctx = peer.networkState() res = ctx.getStorageRanges( root, accounts, origin, limit, replySizeMax) handleHandlerError(res) let (slots, proof) = res.get # For logging only nSlots = slots.len nProof = proof.nodes.len if nSlots == 0 and nProof == 0: trace trSnapSendReplying & "EMPTY StorageRanges (0x03)", peer else: trace trSnapSendReplying & "StorageRanges (0x03)", peer, nSlots, nProof await response.send(slots, proof) # User message 0x03: StorageRanges. # Note: See comments in this file for a list of Geth quirks to expect. proc storageRanges( peer: Peer; slotLists: openArray[seq[SnapStorage]]; proof: SnapProofNodes) requestResponse: # User message 0x04: GetByteCodes. proc getByteCodes( peer: Peer; nodes: openArray[Hash256]; replySizeMax: uint64; ) = trace trSnapRecvReceived & "GetByteCodes (0x04)", peer, nNodes=nodes.len, replySizeMax let ctx = peer.networkState() codes = ctx.getByteCodes(nodes, replySizeMax) handleHandlerError(codes) let # For logging only nCodes = codes.get.len if nCodes == 0: trace trSnapSendReplying & "EMPTY ByteCodes (0x05)", peer else: trace trSnapSendReplying & "ByteCodes (0x05)", peer, nCodes await response.send(codes.get) # User message 0x05: ByteCodes. proc byteCodes( peer: Peer; codes: openArray[Blob]) requestResponse: # User message 0x06: GetTrieNodes. proc getTrieNodes( peer: Peer; root: Hash256; pathGroups: openArray[SnapTriePaths]; replySizeMax: uint64; ) = trace trSnapRecvReceived & "GetTrieNodes (0x06)", peer, root, nPathGroups=pathGroups.len, replySizeMax let ctx = peer.networkState() nodes = ctx.getTrieNodes(root, pathGroups, replySizeMax) handleHandlerError(nodes) let # For logging only nNodes = nodes.get.len if nNodes == 0: trace trSnapSendReplying & "EMPTY TrieNodes (0x07)", peer else: trace trSnapSendReplying & "TrieNodes (0x07)", peer, nNodes await response.send(nodes.get) # User message 0x07: TrieNodes. proc trieNodes( peer: Peer; nodes: openArray[Blob]) # End