(* Copyright (C) 2015, Thomas Leonard See the README file for details. *) open Lwt.Infix open Fw_utils module Netback = Netchannel.Backend.Make(Netchannel.Xenstore.Make(OS.Xs)) module ClientEth = Ethernet.Make(Netback) let src = Logs.Src.create "client_net" ~doc:"Client networking" module Log = (val Logs.src_log src : Logs.LOG) let writev eth dst proto fillfn = Lwt.catch (fun () -> ClientEth.write eth dst proto fillfn >|= function | Ok () -> () | Error e -> Log.err (fun f -> f "error trying to send to client: @[%a@]" ClientEth.pp_error e); ) (fun ex -> (* Usually Netback_shutdown, because the client disconnected *) Log.err (fun f -> f "uncaught exception trying to send to client: @[%s@]" (Printexc.to_string ex)); Lwt.return () ) class client_iface eth ~domid ~gateway_ip ~client_ip client_mac : client_link = let log_header = Fmt.strf "dom%d:%a" domid Ipaddr.V4.pp client_ip in object val queue = FrameQ.create (Ipaddr.V4.to_string client_ip) method my_mac = ClientEth.mac eth method other_mac = client_mac method my_ip = gateway_ip method other_ip = client_ip method writev proto fillfn = FrameQ.send queue (fun () -> writev eth client_mac proto fillfn ) method log_header = log_header end let clients : Cleanup.t Dao.VifMap.t ref = ref Dao.VifMap.empty (** Handle an ARP message from the client. *) let input_arp ~fixed_arp ~iface request = match Arp_packet.decode request with | Error e -> Log.warn (fun f -> f "Ignored unknown ARP message: %a" Arp_packet.pp_error e); Lwt.return () | Ok arp -> match Client_eth.ARP.input fixed_arp arp with | None -> return () | Some response -> iface#writev `ARP (fun b -> Arp_packet.encode_into response b; Arp_packet.size) (** Handle an IPv4 packet from the client. *) let input_ipv4 ~client_ip ~router packet = match Nat_packet.of_ipv4_packet packet with | Error e -> Log.warn (fun f -> f "Ignored unknown IPv4 message: %a" Nat_packet.pp_error e); Lwt.return () | Ok packet -> let `IPv4 (ip, _) = packet in let src = ip.Ipv4_packet.src in if src = client_ip then Firewall.ipv4_from_client router packet else ( Log.warn (fun f -> f "Incorrect source IP %a in IP packet from %a (dropping)" Ipaddr.V4.pp src Ipaddr.V4.pp client_ip); return () ) (** Connect to a new client's interface and listen for incoming frames. *) let add_vif { Dao.ClientVif.domid; device_id } ~client_ip ~router ~cleanup_tasks = Netback.make ~domid ~device_id >>= fun backend -> Log.info (fun f -> f "Client %d (IP: %s) ready" domid (Ipaddr.V4.to_string client_ip)); ClientEth.connect backend >>= fun eth -> let client_mac = Netback.frontend_mac backend in let client_eth = router.Router.client_eth in let gateway_ip = Client_eth.client_gw client_eth in let iface = new client_iface eth ~domid ~gateway_ip ~client_ip client_mac in Router.add_client router iface >>= fun () -> Cleanup.on_cleanup cleanup_tasks (fun () -> Router.remove_client router iface); let fixed_arp = Client_eth.ARP.create ~net:client_eth iface in Netback.listen backend ~header_size:Ethernet_wire.sizeof_ethernet (fun frame -> match Ethernet_packet.Unmarshal.of_cstruct frame with | exception ex -> Log.err (fun f -> f "Error unmarshalling ethernet frame from client: %s@.%a" (Printexc.to_string ex) Cstruct.hexdump_pp frame ); Lwt.return_unit | Error err -> Log.warn (fun f -> f "Invalid Ethernet frame: %s" err); return () | Ok (eth, payload) -> match eth.Ethernet_packet.ethertype with | `ARP -> input_arp ~fixed_arp ~iface payload | `IPv4 -> input_ipv4 ~client_ip ~router payload | `IPv6 -> return () (* TODO: oh no! *) ) >|= or_raise "Listen on client interface" Netback.pp_error (** A new client VM has been found in XenStore. Find its interface and connect to it. *) let add_client ~router vif client_ip = let cleanup_tasks = Cleanup.create () in Log.info (fun f -> f "add client vif %a with IP %a" Dao.ClientVif.pp vif Ipaddr.V4.pp client_ip); Lwt.async (fun () -> Lwt.catch (fun () -> add_vif vif ~client_ip ~router ~cleanup_tasks ) (fun ex -> Log.warn (fun f -> f "Error with client %a: %s" Dao.ClientVif.pp vif (Printexc.to_string ex)); return () ) ); cleanup_tasks (** Watch XenStore for notifications of new clients. *) let listen router = Dao.watch_clients (fun new_set -> (* Check for removed clients *) !clients |> Dao.VifMap.iter (fun key cleanup -> if not (Dao.VifMap.mem key new_set) then ( clients := !clients |> Dao.VifMap.remove key; Log.info (fun f -> f "client %a has gone" Dao.ClientVif.pp key); Cleanup.cleanup cleanup ) ); (* Check for added clients *) new_set |> Dao.VifMap.iter (fun key ip_addr -> if not (Dao.VifMap.mem key !clients) then ( let cleanup = add_client ~router key ip_addr in clients := !clients |> Dao.VifMap.add key cleanup ) ) )