(* (c) 2017 Hannes Mehnert, all rights reserved *) open Vmm_cli type stats = { start : Ptime.t ; vm_created : int ; vm_destroyed : int ; } let s = ref { start = Ptime_clock.now () ; vm_created = 0 ; vm_destroyed = 0 } let pp_stats ppf s = let diff = Ptime.(diff (Ptime_clock.now ()) s.start) in Fmt.pf ppf "up %a: %d vms created, %d vms destroyed, %d running" Ptime.Span.pp diff s.vm_created s.vm_destroyed (s.vm_created - s.vm_destroyed) open Lwt.Infix let version = `AV2 let state = ref (Vmm_vmmd.init version) let create process cont = let await, wakeme = Lwt.wait () in match cont !state await with | Error (`Msg msg) -> Logs.err (fun m -> m "create continuation failed %s" msg) ; Lwt.return_unit | Ok (state'', out, name, vm) -> state := state'' ; s := { !s with vm_created = succ !s.vm_created } ; Lwt.async (fun () -> Vmm_lwt.wait_and_clear vm.Vmm_core.pid vm.Vmm_core.stdout >>= fun r -> let state', out' = Vmm_vmmd.handle_shutdown !state name vm r in s := { !s with vm_destroyed = succ !s.vm_destroyed } ; state := state' ; (process "handle_shutdown" out' >|= fun _ -> ()) >|= fun () -> Lwt.wakeup wakeme ()) ; (process "setting up console" out >|= fun _ -> ()) >>= fun () -> let state', out = Vmm_vmmd.setup_stats !state name vm in state := state' ; process "setting up statistics" [ out ] >|= fun _ -> () let handle out fd addr = Logs.debug (fun m -> m "connection from %a" Vmm_lwt.pp_sockaddr addr) ; (* now we need to read a packet and handle it (1) (a) easy for info (look up name/prefix in resources) (b) destroy looks up vm in resources, executes kill (wait for pid will do the cleanup) logs "destroy issued" (c) create initiates the vm startup procedure: write image file, create fifo, create tap(s), send fifo to console -- Lwt effects happen (console) -- executes solo5-hvt + waiter, send stats pid and taps, inserts await into state, logs "created vm" -- Lwt effects happen (stats, logs, wait_and_clear) -- (2) goto (1) *) let process txt wires = Lwt_list.fold_left_s (fun r data -> match r, data with | Ok (), (#Vmm_vmmd.service_out as o) -> out o | Ok (), `Data wire -> (* rather: terminate connection *) Vmm_lwt.write_wire fd wire >|= fun _ -> Ok () | Error e, _ -> Lwt.return (Error e)) (Ok ()) wires >|= function | Ok () -> Ok () | Error (`Msg msg) -> Logs.err (fun m -> m "error in process %s: %s" txt msg) ; Error () in Logs.debug (fun m -> m "now reading") ; (Vmm_lwt.read_wire fd >>= function | Error _ -> Logs.err (fun m -> m "error while reading") ; Lwt.return_unit | Ok wire -> Logs.debug (fun m -> m "read sth") ; let state', data, next = Vmm_vmmd.handle_command !state wire in state := state' ; process "handle_command" data >>= function | Error () -> Lwt.return_unit | Ok () -> match next with | `End -> Lwt.return_unit | `Wait (task, out) -> task >>= fun () -> process "wait" [ out ] >|= fun _ -> () | `Wait_and_create (task, next) -> task >>= fun () -> let state', data, n = next !state in state := state' ; process "wait and create" data >>= fun _ -> (match n with | `End -> Lwt.return_unit | `Create cont -> create process cont) | `Create cont -> create process cont (* data contained a write to console, we need to wait for its reply first *) ) >>= fun () -> Vmm_lwt.safe_close fd let init_sock sock = let name = Vmm_core.socket_path sock in let c = Lwt_unix.(socket PF_UNIX SOCK_STREAM 0) in Lwt_unix.set_close_on_exec c ; Lwt.catch (fun () -> Lwt_unix.(connect c (ADDR_UNIX name)) >|= fun () -> Some c) (fun e -> Logs.warn (fun m -> m "error %s connecting to socket %s" (Printexc.to_string e) name) ; (Lwt.catch (fun () -> Lwt_unix.close c) (fun _ -> Lwt.return_unit)) >|= fun () -> None) let create_mbox sock = init_sock sock >|= function | None -> None | Some fd -> let mvar = Lwt_mvar.create_empty () in (* could be more elaborate: if fails, we can reconnect and spit our more log messages to the new socket if fails, all running VMs terminate, so we can terminate as well ;) if fails, we'd need to retransmit all VM info to stat (or stat has to ask at connect) *) let rec loop () = Lwt_mvar.take mvar >>= fun data -> Vmm_lwt.write_wire fd data >>= function | Ok () -> loop () | Error `Exception -> invalid_arg ("exception while writing to " ^ Fmt.to_to_string Vmm_core.pp_socket sock) ; in Lwt.async loop ; Some (mvar, fd) let server_socket sock = let name = Vmm_core.socket_path sock in (Lwt_unix.file_exists name >>= function | true -> Lwt_unix.unlink name | false -> Lwt.return_unit) >>= fun () -> let s = Lwt_unix.(socket PF_UNIX SOCK_STREAM 0) in Lwt_unix.set_close_on_exec s ; Lwt_unix.(bind s (ADDR_UNIX name)) >|= fun () -> Lwt_unix.listen s 1 ; s let rec stats_loop () = Logs.info (fun m -> m "%a" pp_stats !s) ; Lwt_unix.sleep 600. >>= fun () -> stats_loop () let jump _ = Sys.(set_signal sigpipe Signal_ignore) ; Lwt_main.run (server_socket `Vmmd >>= fun ss -> (create_mbox `Console >|= function | None -> invalid_arg "cannot connect to console socket" | Some c -> c) >>= fun (c, c_fd) -> create_mbox `Stats >>= fun s -> (create_mbox `Log >|= function | None -> invalid_arg "cannot connect to log socket" | Some l -> l) >>= fun (l, l_fd) -> let write_reply (header, cmd) mvar fd = Lwt_mvar.put mvar (header, cmd) >>= fun () -> Vmm_lwt.read_wire fd >|= function | Ok (header', reply) -> if not Vmm_commands.(version_eq header.version header'.version) then Error (`Msg "wrong version in reply") else if not Vmm_commands.(Int64.equal header.sequence header'.sequence) then Error (`Msg "wrong id in reply") else begin match reply with | `Success _ -> Ok () | `Failure msg -> Error (`Msg msg) | _ -> Error (`Msg "unexpected data") end | Error _ -> Error (`Msg "error in read") in let out = function | `Stat wire -> begin match s with | None -> Lwt.return (Ok ()) | Some (s, s_fd) -> write_reply wire s s_fd end | `Log wire -> write_reply wire l l_fd | `Cons wire -> write_reply wire c c_fd in Lwt.async stats_loop ; let rec loop () = Lwt_unix.accept ss >>= fun (fd, addr) -> Lwt_unix.set_close_on_exec fd ; Lwt.async (fun () -> handle out fd addr) ; loop () in loop ()) open Cmdliner let cmd = Term.(ret (const jump $ setup_log)), Term.info "vmmd" ~version:"%%VERSION_NUM%%" let () = match Term.eval cmd with `Ok () -> exit 0 | _ -> exit 1