(* Copyright (C) 2016, Thomas Leonard See the README file for details. *) open Fw_utils open Lwt.Infix let src = Logs.Src.create "client_eth" ~doc:"Ethernet networks for NetVM clients" module Log = (val Logs.src_log src : Logs.LOG) type t = { mutable iface_of_ip : client_link IpMap.t; changed : unit Lwt_condition.t; (* Fires when [iface_of_ip] changes. *) client_gw : Ipaddr.V4.t; (* The IP that clients are given as their default gateway. *) } type host = [ `Client of client_link | `Client_gateway | `External of Ipaddr.t ] let create ~client_gw = let changed = Lwt_condition.create () in { iface_of_ip = IpMap.empty; client_gw; changed } let client_gw t = t.client_gw let add_client t iface = let ip = iface#other_ip in let rec aux () = if IpMap.mem ip t.iface_of_ip then ( (* Wait for old client to disappear before adding one with the same IP address. Otherwise, its [remove_client] call will remove the new client instead. *) Log.info (fun f -> f "Waiting for old client %a to go away before accepting new one" Ipaddr.V4.pp_hum ip); Lwt_condition.wait t.changed >>= aux ) else ( t.iface_of_ip <- t.iface_of_ip |> IpMap.add ip iface; Lwt_condition.broadcast t.changed (); Lwt.return_unit ) in aux () let remove_client t iface = let ip = iface#other_ip in assert (IpMap.mem ip t.iface_of_ip); t.iface_of_ip <- t.iface_of_ip |> IpMap.remove ip; Lwt_condition.broadcast t.changed () let lookup t ip = IpMap.find ip t.iface_of_ip let classify t ip = match ip with | Ipaddr.V6 _ -> `External ip | Ipaddr.V4 ip4 -> if ip4 = t.client_gw then `Client_gateway else match lookup t ip4 with | Some client_link -> `Client client_link | None -> `External ip let resolve t : host -> Ipaddr.t = function | `Client client_link -> Ipaddr.V4 client_link#other_ip | `Client_gateway -> Ipaddr.V4 t.client_gw | `External addr -> addr module ARP = struct type arp = { net : t; client_link : client_link; } let lookup t ip = if ip = t.net.client_gw then Some t.client_link#my_mac else None (* We're now treating client networks as point-to-point links, so we no longer respond on behalf of other clients. *) (* else match IpMap.find ip t.net.iface_of_ip with | Some client_iface -> Some client_iface#other_mac | None -> None *) let create ~net client_link = {net; client_link} let input_query t arp = let req_ipv4 = arp.Arpv4_packet.tpa in Log.info (fun f -> f "who-has %s?" (Ipaddr.V4.to_string req_ipv4)); if req_ipv4 = t.client_link#other_ip then ( Log.info (fun f -> f "ignoring request for client's own IP"); None ) else match lookup t req_ipv4 with | None -> Log.info (fun f -> f "unknown address; not responding"); None | Some req_mac -> Log.info (fun f -> f "responding to: who-has %s?" (Ipaddr.V4.to_string req_ipv4)); let req_spa = arp.Arpv4_packet.spa in let req_sha = arp.Arpv4_packet.sha in Some { Arpv4_packet. op = Arpv4_wire.Reply; (* The Target Hardware Address and IP are copied from the request *) tha = req_sha; tpa = req_spa; sha = req_mac; spa = req_ipv4; } let input_gratuitous t arp = let spa = arp.Arpv4_packet.spa in let sha = arp.Arpv4_packet.sha in match lookup t spa with | Some real_mac when Macaddr.compare sha real_mac = 0 -> Log.info (fun f -> f "client suggests updating %s -> %s (as expected)" (Ipaddr.V4.to_string spa) (Macaddr.to_string sha)); | Some other_mac -> Log.warn (fun f -> f "client suggests incorrect update %s -> %s (should be %s)" (Ipaddr.V4.to_string spa) (Macaddr.to_string sha) (Macaddr.to_string other_mac)); | None -> Log.warn (fun f -> f "client suggests incorrect update %s -> %s (unexpected IP)" (Ipaddr.V4.to_string spa) (Macaddr.to_string sha)) let input t arp = let op = arp.Arpv4_packet.op in match op with | Arpv4_wire.Request -> input_query t arp | Arpv4_wire.Reply -> input_gratuitous t arp; None end