205 lines
8 KiB
OCaml
205 lines
8 KiB
OCaml
(* (c) 2017 Hannes Mehnert, all rights reserved *)
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open Albatross_cli
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open Vmm_core
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open Lwt.Infix
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let state = ref (Vmm_vmmd.init ())
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let stub_data_out _ = Lwt.return_unit
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let create_lock = Lwt_mutex.create ()
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(* the global lock held during execution of create -- and also while
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Vmm_vmmd.handle is getting called, and while communicating via log /
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console / stat socket communication. *)
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let rec create stat_out log_out cons_out data_out name config =
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(match Vmm_vmmd.handle_create !state name config with
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| Error `Msg msg ->
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Logs.err (fun m -> m "failed to create %a: %s" Name.pp name msg) ;
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Lwt.return (None, `Failure msg)
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| Ok (state', (cons, succ_cont, fail_cont)) ->
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state := state';
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cons_out "create" cons >>= function
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| Error () -> Lwt.return (None, fail_cont ())
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| Ok () -> match succ_cont !state with
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| Error (`Msg msg) ->
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Logs.err (fun m -> m "create (exec) failed %s" msg) ;
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Lwt.return (None, fail_cont ())
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| Ok (state', stat, log, data, name, vm) ->
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state := state';
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(if Unikernel.restart_handler config then
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match Vmm_vmmd.register_restart !state name Lwt.task with
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| None -> ()
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| Some (state', task) ->
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state := state';
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Lwt.async (fun () ->
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task >>= fun r ->
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if should_restart config name r then
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Lwt_mutex.with_lock create_lock (fun () ->
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create stat_out log_out cons_out stub_data_out
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name vm.Unikernel.config)
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else
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Lwt.return_unit));
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stat_out "setting up stat" stat >>= fun () ->
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log_out "setting up log" log >|= fun () ->
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(Some vm, data)) >>= fun (started, data) ->
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(match started with
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| None -> ()
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| Some vm ->
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Lwt.async (fun () ->
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Vmm_lwt.wait_and_clear vm.Unikernel.pid >>= fun r ->
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Lwt_mutex.with_lock create_lock (fun () ->
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let state', stat', log' = Vmm_vmmd.handle_shutdown !state name vm r in
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state := state';
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stat_out "handle shutdown stat" stat' >>= fun () ->
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log_out "handle shutdown log" log' >|= fun () ->
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let state', waiter_opt = Vmm_vmmd.waiter !state name in
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state := state';
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waiter_opt) >|= function
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| None -> ()
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| Some wakeme -> Lwt.wakeup wakeme r));
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data_out data
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let handle log_out cons_out stat_out fd addr =
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Logs.debug (fun m -> m "connection from %a" Vmm_lwt.pp_sockaddr addr) ;
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let rec loop () =
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Logs.debug (fun m -> m "now reading") ;
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Vmm_lwt.read_wire fd >>= function
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| Error _ ->
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Logs.err (fun m -> m "error while reading") ;
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Lwt.return_unit
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| Ok (hdr, wire) ->
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let out wire' =
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(* TODO should we terminate the connection on write failure? *)
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Vmm_lwt.write_wire fd (hdr, wire') >|= fun _ -> ()
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in
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Logs.debug (fun m -> m "read %a" Vmm_commands.pp_wire (hdr, wire));
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Lwt_mutex.lock create_lock >>= fun () ->
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match Vmm_vmmd.handle_command !state (hdr, wire) with
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| Error wire' -> Lwt_mutex.unlock create_lock; out wire'
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| Ok (state', next) ->
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state := state' ;
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match next with
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| `Loop wire -> Lwt_mutex.unlock create_lock; out wire >>= loop
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| `End wire -> Lwt_mutex.unlock create_lock; out wire
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| `Create (id, vm) ->
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create stat_out log_out cons_out out id vm >|= fun () ->
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Lwt_mutex.unlock create_lock
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| `Wait (who, data) ->
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let state', task = Vmm_vmmd.register !state who Lwt.task in
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state := state';
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Lwt_mutex.unlock create_lock;
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task >>= fun r ->
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out (data r)
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| `Wait_and_create (who, (id, vm)) ->
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let state', task = Vmm_vmmd.register !state who Lwt.task in
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state := state';
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Lwt_mutex.unlock create_lock;
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task >>= fun r ->
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Logs.info (fun m -> m "wait returned %a" pp_process_exit r);
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Lwt_mutex.with_lock create_lock (fun () ->
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create stat_out log_out cons_out out id vm)
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in
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loop () >>= fun () ->
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Vmm_lwt.safe_close fd
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let write_reply name fd txt (hdr, cmd) =
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Vmm_lwt.write_wire fd (hdr, cmd) >>= function
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| Error `Exception ->
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invalid_arg ("exception during " ^ txt ^ " while writing to " ^ name)
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| Ok () ->
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Vmm_lwt.read_wire fd >|= function
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| Ok (hdr', reply) ->
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if not Vmm_commands.(Int64.equal hdr.sequence hdr'.sequence) then begin
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Logs.err (fun m -> m "%s: wrong id %Lu (expected %Lu) in reply from %s"
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txt hdr'.Vmm_commands.sequence hdr.Vmm_commands.sequence name) ;
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invalid_arg "wrong sequence number received"
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end else begin
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Logs.debug (fun m -> m "%s: received valid reply from %s %a (request %a)"
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txt name Vmm_commands.pp_wire (hdr', reply) Vmm_commands.pp_wire (hdr, cmd)) ;
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match reply with
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| `Success _ -> Ok ()
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| `Failure msg ->
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Logs.err (fun m -> m "%s: received failure %s from %s" txt msg name) ;
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Error ()
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| _ ->
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Logs.err (fun m -> m "%s: unexpected data from %s" txt name) ;
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invalid_arg "unexpected data"
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end
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| Error _ ->
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Logs.err (fun m -> m "error in read from %s" name) ;
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invalid_arg "communication failure"
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let m = conn_metrics "unix"
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let jump _ influx =
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Sys.(set_signal sigpipe Signal_ignore);
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Rresult.R.error_msg_to_invalid_arg
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(Vmm_unix.check_commands ());
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match Vmm_vmmd.restore_unikernels () with
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| Error (`Msg msg) -> Logs.err (fun m -> m "bailing out: %s" msg)
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| Ok old_unikernels ->
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Lwt_main.run
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(let unix_connect s =
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Vmm_lwt.connect Lwt_unix.PF_UNIX (Lwt_unix.ADDR_UNIX (socket_path s))
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in
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init_influx "albatross" influx;
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Vmm_lwt.server_socket `Vmmd >>= fun ss ->
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(unix_connect `Log >|= function
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| None -> invalid_arg "cannot connect to log socket"
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| Some l -> l) >>= fun l ->
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let self_destruct_mutex = Lwt_mutex.create () in
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let self_destruct () =
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Lwt_mutex.with_lock self_destruct_mutex (fun () ->
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(if Vmm_vmmd.killall !state then
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(* not too happy about the sleep here, but cleaning up resources
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is really important (fifos, vm images, tap devices) - which
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is done asynchronously (in the task waitpid() on the pid) *)
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Lwt_unix.sleep 1.
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else
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Lwt.return_unit) >>= fun () ->
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Vmm_lwt.safe_close ss)
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in
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Sys.(set_signal sigterm (Signal_handle (fun _ -> Lwt.async self_destruct)));
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(unix_connect `Console >|= function
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| None -> invalid_arg "cannot connect to console socket"
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| Some c -> c) >>= fun c ->
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unix_connect `Stats >>= fun s ->
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let log_out txt wire = write_reply "log" l txt wire >|= fun _ -> ()
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and cons_out = write_reply "cons" c
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and stat_out txt wire = match s with
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| None -> Logs.info (fun m -> m "ignoring stat %s %a" txt Vmm_commands.pp_wire wire) ; Lwt.return_unit
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| Some s -> write_reply "stat" s txt wire >|= fun _ -> ()
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in
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Lwt_list.iter_s (fun (name, config) ->
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create stat_out log_out cons_out stub_data_out name config)
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(Vmm_trie.all old_unikernels) >>= fun () ->
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Lwt.catch (fun () ->
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let rec loop () =
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Lwt_unix.accept ss >>= fun (fd, addr) ->
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Lwt_unix.set_close_on_exec fd ;
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m `Open;
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Lwt.async (fun () ->
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handle log_out cons_out stat_out fd addr >|= fun () ->
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m `Close) ;
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loop ()
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in
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loop ())
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(fun e ->
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Logs.err (fun m -> m "exception %s, shutting down" (Printexc.to_string e));
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self_destruct ()))
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open Cmdliner
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let cmd =
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Term.(const jump $ setup_log $ influx),
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Term.info "albatrossd" ~version:Albatross_cli.version
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let () = match Term.eval cmd with `Ok () -> exit 0 | _ -> exit 1
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