# Nimbus # Copyright (c) 2021-2022 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. {.push raises: [Defect].} import std/sequtils, json_rpc/[rpcproxy, rpcserver], stew/byteutils, eth/p2p/discoveryv5/nodes_verification, ../network/wire/portal_protocol, ./rpc_types export rpcserver # Note: # Using a string for the network parameter will give an error in the rpc macro: # Error: Invalid node kind nnkInfix for macros.`$` # Using a static string works but some sandwich problem seems to be happening, # as the proc becomes generic, where the rpc macro from router.nim can no longer # be found, which is why we export rpcserver which should export router. proc installPortalApiHandlers*( rpcServer: RpcServer|RpcProxy, p: PortalProtocol, network: static string) {.raises: [Defect, CatchableError].} = ## Portal routing table and portal wire json-rpc API is not yet defined but ## will look something similar as what exists here now: ## https://github.com/ethereum/portal-network-specs/pull/88 rpcServer.rpc("portal_" & network & "NodeInfo") do() -> NodeInfo: return p.routingTable.getNodeInfo() rpcServer.rpc("portal_" & network & "RoutingTableInfo") do() -> RoutingTableInfo: return getRoutingTableInfo(p.routingTable) rpcServer.rpc("portal_" & network & "AddEnr") do(enr: Record) -> bool: let node = newNode(enr).valueOr: raise newException(ValueError, "Failed creating Node from ENR") let addResult = p.addNode(node) p.routingTable.setJustSeen(node) return addResult == Added rpcServer.rpc("portal_" & network & "AddEnrs") do(enrs: seq[Record]) -> bool: # Note: unspecified RPC, but useful for our local testnet test for enr in enrs: let nodeRes = newNode(enr) if nodeRes.isOk(): let node = nodeRes.get() discard p.addNode(node) p.routingTable.setJustSeen(node) return true rpcServer.rpc("portal_" & network & "GetEnr") do(nodeId: NodeId) -> Record: let node = p.getNode(nodeId) if node.isSome(): return node.get().record else: raise newException(ValueError, "Record not in local routing table.") rpcServer.rpc("portal_" & network & "DeleteEnr") do(nodeId: NodeId) -> bool: # TODO: Adjust `removeNode` to accept NodeId as param and to return bool. let node = p.getNode(nodeId) if node.isSome(): p.routingTable.removeNode(node.get()) return true else: raise newException(ValueError, "Record not in local routing table.") rpcServer.rpc("portal_" & network & "LookupEnr") do(nodeId: NodeId) -> Record: # TODO: Not fully according to spec, missing optional enrSeq # Can add `enrSeq: Option[uint64]` as parameter but Option appears to be # not implemented as an option parameter in nim-json-rpc? let lookup = await p.resolve(nodeId) if lookup.isSome(): return lookup.get().record else: raise newException(ValueError, "Record not found in DHT lookup.") rpcServer.rpc("portal_" & network & "Ping") do( enr: Record) -> tuple[enrSeq: uint64, customPayload: string]: # TODO: Not fully according to spec: # - missing optional dataRadius # - customPayload instead of dataRadius returned let node = toNodeWithAddress(enr) pong = await p.ping(node) if pong.isErr(): raise newException(ValueError, $pong.error) else: let p = pong.get() return (p.enrSeq, p.customPayload.asSeq().toHex()) rpcServer.rpc("portal_" & network & "FindNodes") do( enr: Record, distances: seq[uint16]) -> seq[Record]: let node = toNodeWithAddress(enr) nodes = await p.findNodes(node, distances) if nodes.isErr(): raise newException(ValueError, $nodes.error) else: return nodes.get().map(proc(n: Node): Record = n.record) # TODO: This returns null values for the `none`s. Not sure what it should be # according to spec, no k:v pair at all? rpcServer.rpc("portal_" & network & "FindContent") do( enr: Record, contentKey: string) -> tuple[ connectionId: Option[string], content: Option[string], enrs: Option[seq[Record]]]: let node = toNodeWithAddress(enr) res = await p.findContentImpl( node, ByteList.init(hexToSeqByte(contentKey))) if res.isErr(): raise newException(ValueError, $res.error) let contentMessage = res.get() case contentMessage.contentMessageType: of connectionIdType: return ( some("0x" & contentMessage.connectionId.toHex()), none(string), none(seq[Record])) of contentType: return ( none(string), some("0x" & contentMessage.content.asSeq().toHex()), none(seq[Record])) of enrsType: let records = recordsFromBytes(contentMessage.enrs) if records.isErr(): raise newException(ValueError, $records.error) else: return ( none(string), none(string), # Note: Could also pass not verified nodes some(verifyNodesRecords( records.get(), node, enrsResultLimit).map( proc(n: Node): Record = n.record))) rpcServer.rpc("portal_" & network & "FindContentFull") do( enr: Record, contentKey: string) -> tuple[ content: Option[string], enrs: Option[seq[Record]]]: # Note: unspecified RPC, but useful as we can get content from uTP also let node = toNodeWithAddress(enr) foundContentResult = await p.findContent( node, ByteList.init(hexToSeqByte(contentKey))) if foundContentResult.isErr(): raise newException(ValueError, $foundContentResult.error) else: let foundContent = foundContentResult.get() case foundContent.kind: of Content: return ( some("0x" & foundContent.content.toHex()), none(seq[Record])) of Nodes: return ( none(string), some(foundContent.nodes.map(proc(n: Node): Record = n.record))) rpcServer.rpc("portal_" & network & "OfferReal") do( enr: Record, contentKey: string, contentValue: string) -> bool: # Note: unspecified RPC, but the spec took over the Offer call to actually # do gossip. This should be adjusted. let node = toNodeWithAddress(enr) key = hexToSeqByte(contentKey) content = hexToSeqByte(contentValue) contentInfo = ContentInfo(contentKey: ByteList.init(key), content: content) res = await p.offer(node, @[contentInfo]) if res.isOk(): return true else: raise newException(ValueError, $res.error) rpcServer.rpc("portal_" & network & "Offer") do( contentKey: string, contentValue: string) -> int: let key = hexToSeqByte(contentKey) content = hexToSeqByte(contentValue) contentKeys = ContentKeysList(@[ByteList.init(key)]) numberOfPeers = await p.neighborhoodGossip(contentKeys, @[content]) return numberOfPeers rpcServer.rpc("portal_" & network & "RecursiveFindNodes") do( nodeId: NodeId) -> seq[Record]: let discovered = await p.lookup(nodeId) return discovered.map(proc(n: Node): Record = n.record) rpcServer.rpc("portal_" & network & "RecursiveFindContent") do( contentKey: string) -> string: let key = ByteList.init(hexToSeqByte(contentKey)) contentId = p.toContentId(key).valueOr: raise newException(ValueError, "Invalid content key") contentResult = (await p.contentLookup(key, contentId)).valueOr: raise newException(ValueError, "Content not found") return contentResult.content.toHex() rpcServer.rpc("portal_" & network & "Store") do( contentKey: string, contentValue: string) -> bool: let key = ByteList.init(hexToSeqByte(contentKey)) let contentId = p.toContentId(key) if contentId.isSome(): p.storeContent(key, contentId.get(), hexToSeqByte(contentValue)) return true else: raise newException(ValueError, "Invalid content key") rpcServer.rpc("portal_" & network & "LocalContent") do( contentKey: string) -> string: let key = ByteList.init(hexToSeqByte(contentKey)) contentId = p.toContentId(key).valueOr: raise newException(ValueError, "Invalid content key") let contentResult = p.dbGet(key, contentId) if contentResult.isOk(): return contentResult.get().toHex() else: return "0x0"