{.push raises: [Exception, Defect].} import std/[options, sequtils, sets], json_rpc/rpcserver, libp2p/[peerinfo, switch], ../../protocol/waku_store/[waku_store_types, waku_store], ../../protocol/waku_swap/[waku_swap_types, waku_swap], ../../protocol/waku_filter/[waku_filter_types, waku_filter], ../../protocol/waku_relay, ../wakunode2, ../peer_manager, ./jsonrpc_types export jsonrpc_types const futTimeout* = 30.seconds # Max time to wait for futures proc constructMultiaddrStr*(wireaddr: MultiAddress, peerId: PeerId): string = # Constructs a multiaddress with both wire address and p2p identity $wireaddr & "/p2p/" & $peerId proc constructMultiaddrStr*(peerInfo: PeerInfo): string = # Constructs a multiaddress with both location (wire) address and p2p identity constructMultiaddrStr(peerInfo.addrs[0], peerInfo.peerId) proc installAdminApiHandlers*(node: WakuNode, rpcsrv: RpcServer) = ## Admin API version 1 definitions rpcsrv.rpc("post_waku_v2_admin_v1_peers") do(peers: seq[string]) -> bool: ## Connect to a list of peers debug "post_waku_v2_admin_v1_peers" if (await node.connectToNodes(peers).withTimeout(futTimeout)): # Successfully connected to peers return true else: # Failed to connect to peers raise newException(ValueError, "Failed to connect to peers: " & $peers) rpcsrv.rpc("get_waku_v2_admin_v1_peers") do() -> seq[WakuPeer]: ## Returns history for a list of content topics with optional paging debug "get_waku_v2_admin_v1_peers" # Create a single list of peers from mounted protocols. # @TODO since the switch does not expose its connections, retrieving the connected peers requires a peer store/peer management var wPeers: seq[WakuPeer] = @[] ## Managed peers if not node.wakuRelay.isNil: # Map managed peers to WakuPeers and add to return list wPeers.insert(node.peerManager.peers(WakuRelayCodec) .mapIt(WakuPeer(multiaddr: constructMultiaddrStr(toSeq(it.addrs.items)[0], it.peerId), protocol: WakuRelayCodec, connected: node.peerManager.connectedness(it.peerId) == Connectedness.Connected)), wPeers.len) # Append to the end of the sequence if not node.wakuFilter.isNil: # Map WakuFilter peers to WakuPeers and add to return list wPeers.insert(node.peerManager.peers(WakuFilterCodec) .mapIt(WakuPeer(multiaddr: constructMultiaddrStr(toSeq(it.addrs.items)[0], it.peerId), protocol: WakuFilterCodec, connected: node.peerManager.connectedness(it.peerId) == Connectedness.Connected)), wPeers.len) # Append to the end of the sequence if not node.wakuSwap.isNil: # Map WakuSwap peers to WakuPeers and add to return list wPeers.insert(node.peerManager.peers(WakuSwapCodec) .mapIt(WakuPeer(multiaddr: constructMultiaddrStr(toSeq(it.addrs.items)[0], it.peerId), protocol: WakuSwapCodec, connected: node.peerManager.connectedness(it.peerId) == Connectedness.Connected)), wPeers.len) # Append to the end of the sequence if not node.wakuStore.isNil: # Map WakuStore peers to WakuPeers and add to return list wPeers.insert(node.peerManager.peers(WakuStoreCodec) .mapIt(WakuPeer(multiaddr: constructMultiaddrStr(toSeq(it.addrs.items)[0], it.peerId), protocol: WakuStoreCodec, connected: node.peerManager.connectedness(it.peerId) == Connectedness.Connected)), wPeers.len) # Append to the end of the sequence # @TODO filter output on protocol/connected-status return wPeers