199 lines
6.7 KiB
OCaml
199 lines
6.7 KiB
OCaml
(* (c) 2017 Hannes Mehnert, all rights reserved *)
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(* the process responsible for event log *)
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(* communication channel is a single unix domain socket shared between vmmd and
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vmm_log. There are two commands from vmmd to vmm_log, history and data. *)
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(* internally, a ring buffer for the last N events is preserved in memory
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each new event is directly written to disk! *)
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open Lwt.Infix
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let broadcast prefix wire t =
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Lwt_list.fold_left_s (fun t (id, (version, s)) ->
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let hdr = Vmm_commands.header ~version prefix in
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Vmm_lwt.write_wire s (hdr, wire) >|= function
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| Ok () -> t
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| Error `Exception -> Vmm_trie.remove id t)
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t (Vmm_trie.collect prefix t)
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let write_complete s cs =
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let l = Cstruct.len cs in
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let b = Cstruct.to_bytes cs in
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let rec w off =
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let len = l - off in
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Lwt_unix.write s b off len >>= fun n ->
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if n = len then Lwt.return_unit else w (off + n)
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in
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w 0
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let read_from_file file =
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Vmm_lwt.read_from_file file >|= fun data ->
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let logs = Vmm_asn.logs_of_disk data in
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List.rev logs
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let write_to_file mvar file =
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let get_fd () =
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Lwt_unix.openfile file Lwt_unix.[O_APPEND;O_CREAT;O_WRONLY] 0o600
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in
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let rec loop ?(retry = true) ?log_entry fd =
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(match log_entry with
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| Some l -> Lwt.return l
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| None -> Lwt_mvar.take mvar >>= function
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| `Hup ->
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Vmm_lwt.safe_close fd >>= fun () ->
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get_fd () >>= fun fd ->
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loop ~log_entry:(Ptime_clock.now (), `Hup) fd
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| `Entry log_entry -> Lwt.return log_entry) >>= fun log_entry ->
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let data = Vmm_asn.log_to_disk log_entry in
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Lwt.catch
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(fun () ->
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write_complete fd data >>= fun () ->
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loop fd)
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(fun e ->
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Logs.err (fun m -> m "exception %s while writing" (Printexc.to_string e)) ;
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Vmm_lwt.safe_close fd >>= fun () ->
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if retry then
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get_fd () >>= fun fd ->
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loop ~retry:false ~log_entry fd
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else begin
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Logs.err (fun m -> m "retry is false, exiting") ;
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Lwt.return log_entry
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end)
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in
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get_fd () >>= fun fd ->
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loop fd >|= fun _ ->
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()
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let send_history s version ring id what =
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let tst event =
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let sub = Vmm_core.Log.name event in
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Vmm_core.Name.is_sub ~super:id ~sub
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in
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let elements =
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match what with
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| `Since since -> Vmm_ring.read_history ~tst ring since
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| `Count n -> Vmm_ring.read_last ~tst ring n
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in
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(* just need a wrapper in tag = Log.Data, id = reqid *)
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Lwt_list.fold_left_s (fun r (ts, event) ->
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match r with
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| Ok () ->
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let header = Vmm_commands.header ~version id in
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Vmm_lwt.write_wire s (header, `Data (`Log_data (ts, event)))
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| Error e -> Lwt.return (Error e))
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(Ok ()) elements
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let tree = ref Vmm_trie.empty
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let handle_data s mvar ring hdr entry =
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Vmm_lwt.write_wire s (hdr, `Success `Empty) >>= fun _ ->
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Vmm_ring.write ring entry ;
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Lwt_mvar.put mvar (`Entry entry) >>= fun () ->
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let data' = `Data (`Log_data entry) in
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broadcast hdr.Vmm_commands.name data' !tree >|= fun tree' ->
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tree := tree'
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let read_data mvar ring s =
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let rec loop () =
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Vmm_lwt.read_wire s >>= 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, `Data (`Log_data entry)) ->
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handle_data s mvar ring hdr entry >>= fun () ->
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loop ()
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| Ok wire ->
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Logs.warn (fun m -> m "unexpected wire %a" Vmm_commands.pp_wire wire) ;
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Lwt.return_unit
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in
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loop ()
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let handle mvar ring s addr =
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Logs.info (fun m -> m "handling connection from %a" Vmm_lwt.pp_sockaddr addr) ;
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Vmm_lwt.read_wire s >>= begin 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, `Data `Log_data entry) ->
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handle_data s mvar ring hdr entry >>= fun () ->
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read_data mvar ring s
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| Ok (hdr, `Command `Log_cmd `Log_subscribe ts) ->
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let tree', ret =
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Vmm_trie.insert hdr.Vmm_commands.name (hdr.Vmm_commands.version, s) !tree
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in
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tree := tree' ;
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(match ret with
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| None -> Lwt.return_unit
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| Some (_, s') -> Vmm_lwt.safe_close s') >>= fun () ->
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let out = `Success `Empty in
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begin
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Vmm_lwt.write_wire s (hdr, out) >>= function
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| Error _ -> Logs.err (fun m -> m "error while sending reply for subscribe") ;
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Lwt.return_unit
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| Ok () ->
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send_history s hdr.Vmm_commands.version ring hdr.Vmm_commands.name ts >>= function
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| Error _ -> Logs.err (fun m -> m "error while sending history") ; Lwt.return_unit
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| Ok () ->
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(* command processing is finished, but we leave the socket open
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until read returns (either with a message we ignore or a failure from the closed connection) *)
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Vmm_lwt.read_wire s >|= fun _ -> ()
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end
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| Ok wire ->
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Logs.warn (fun m -> m "ignoring %a" Vmm_commands.pp_wire wire);
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Lwt.return_unit
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end >>= fun () ->
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Vmm_lwt.safe_close s
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let m = Vmm_core.conn_metrics "unix"
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let jump _ systemd file read_only influx tmpdir =
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Sys.(set_signal sigpipe Signal_ignore) ;
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Albatross_cli.set_tmpdir tmpdir;
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Lwt_main.run
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(read_from_file file >>= fun entries ->
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Logs.app (fun m -> m "read %d entries from disk" (List.length entries)) ;
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if read_only then begin
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List.iteri (fun i e ->
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Logs.app (fun m -> m "entry %d: %a" i Vmm_core.Log.pp e))
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entries;
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Lwt.return_unit
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end else begin
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Albatross_cli.init_influx "albatross_log" influx;
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Vmm_lwt.server_socket ~systemd `Log >>= fun s ->
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let ring = Vmm_ring.create `Startup () in
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List.iter (Vmm_ring.write ring) entries ;
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let mvar = Lwt_mvar.create_empty () in
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Sys.(set_signal sighup (Signal_handle (fun _ ->
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Lwt.async (fun () -> Lwt_mvar.put mvar `Hup)))) ;
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Lwt.async (fun () -> write_to_file mvar file) ;
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let start = Ptime_clock.now (), `Startup in
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Lwt_mvar.put mvar (`Entry start) >>= fun () ->
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Vmm_ring.write ring start ;
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let rec loop () =
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Lwt_unix.accept s >>= fun (cs, addr) ->
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m `Open;
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Lwt.async (fun () -> handle mvar ring cs addr >|= fun () -> m `Close) ;
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loop ()
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in
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loop ()
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end)
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open Cmdliner
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open Albatross_cli
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let file =
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let doc = "File to write the log to" in
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Arg.(value & opt string "/var/log/albatross" & info [ "logfile" ] ~doc)
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let read_only =
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let doc = "Only read log file and present entries" in
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Arg.(value & flag & info [ "read-only" ] ~doc)
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let cmd =
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Term.(const jump $ setup_log $ systemd_socket_activation $ file $ read_only $ influx $ tmpdir),
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Term.info "albatross_log" ~version
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let () = match Term.eval cmd with `Ok () -> exit 0 | _ -> exit 1
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