import std/options, json_rpc/rpcserver, nimcrypto/[sysrand, hmac, sha2], eth/[common, rlp, keys, p2p], ../../../protocol/v2/waku_relay, ../waku_types # Instead of using rlpx waku_protocol here, lets do mock waku2_protocol # This should wrap GossipSub, not use EthereumNode here # In Waku0/1 we use node.protocolState(Waku) a lot to get information # Also keys to get priate key, etc # Where is the equivalent in Waku/2? # TODO: Extend to get access to protocol state and keys #proc setupWakuRPC*(node: EthereumNode, keys: KeyStorage, rpcsrv: RpcServer) = proc setupWakuRPC*(node: WakuNode, rpcsrv: RpcServer) = # Seems easy enough, lets try to get this first rpcsrv.rpc("waku_version") do() -> string: ## Returns string of the current Waku protocol version. result = WakuRelayCodec # TODO: Implement symkey etc logic rpcsrv.rpc("waku_publish") do(topic: string, payload: seq[byte]) -> bool: # XXX Why is casting necessary here but not in Nim node API? let wakuRelay = cast[WakuRelay](node.switch.pubSub.get()) # XXX also future return type # TODO: Shouldn't we really be doing WakuNode publish here? discard wakuRelay.publish(topic, payload) return true #if not result: # raise newException(ValueError, "Message could not be posted") # TODO: Handler / Identifier logic rpcsrv.rpc("waku_subscribe") do(topic: string) -> bool: let wakuRelay = cast[WakuRelay](node.switch.pubSub.get()) # XXX: Hacky in-line handler proc handler(topic: string, data: seq[byte]) {.async, gcsafe.} = info "Hit subscribe handler", topic=topic, data=data # TODO: Shouldn't we really be doing WakuNode subscribe here? discard wakuRelay.subscribe(topic, handler) return true #if not result: # raise newException(ValueError, "Message could not be posted")