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albatross/command-line/albatross_cli.ml

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(* (c) 2018 Hannes Mehnert, all rights reserved *)
open Astring
open Vmm_core
open Lwt.Infix
let process =
Metrics.field ~doc:"name of the process" "vm" Metrics.String
let init_influx name data =
match data with
| None -> ()
| Some (ip, port) ->
Logs.info (fun m -> m "stats connecting to %a:%d" Ipaddr.V4.pp ip port);
Metrics.enable_all ();
Metrics_lwt.init_periodic (fun () -> Lwt_unix.sleep 10.);
let get_cache, reporter = Metrics.cache_reporter () in
Metrics.set_reporter reporter;
let fd = ref None in
let rec report () =
let send () =
(match !fd with
| Some _ -> Lwt.return_unit
| None ->
let addr = Lwt_unix.ADDR_INET (Ipaddr_unix.V4.to_inet_addr ip, port) in
Vmm_lwt.connect Lwt_unix.PF_INET addr >|= function
| None -> Logs.err (fun m -> m "connection failure to stats")
| Some fd' -> fd := Some fd') >>= fun () ->
match !fd with
| None -> Lwt.return_unit
| Some socket ->
let tag = process name in
let datas = Metrics.SM.fold (fun src (tags, data) acc ->
let name = Metrics.Src.name src in
Metrics_influx.encode_line_protocol (tag :: tags) data name :: acc)
(get_cache ()) []
in
let datas = String.concat ~sep:"" datas in
Vmm_lwt.write_raw socket (Bytes.unsafe_of_string datas) >|= function
| Ok () -> ()
| Error `Exception ->
Logs.warn (fun m -> m "error on stats write");
fd := None
and sleep () = Lwt_unix.sleep 10.
in
Lwt.join [ send () ; sleep () ] >>= report
in
Lwt.async report
let print_result ((_, reply) as wire) =
match reply with
| `Success _ -> Logs.app (fun m -> m "%a" Vmm_commands.pp_wire wire)
| `Data _ -> Logs.app (fun m -> m "%a" Vmm_commands.pp_wire wire)
| `Failure _ -> Logs.warn (fun m -> m "%a" Vmm_commands.pp_wire wire)
| `Command _ -> Logs.err (fun m -> m "unexpected command %a" Vmm_commands.pp_wire wire)
let setup_log style_renderer level =
Fmt_tty.setup_std_outputs ?style_renderer ();
Logs.set_level level;
Logs.set_reporter (Logs_fmt.reporter ~dst:Format.std_formatter ())
let create_vm force image cpuid memory argv block_devices bridges compression restart_on_fail exit_codes =
let open Rresult.R.Infix in
Bos.OS.File.read (Fpath.v image) >>| fun image ->
let image, compressed = match compression with
| 0 -> Cstruct.of_string image, false
| level ->
let img = Vmm_compress.compress ~level image in
Cstruct.of_string img, true
and argv = match argv with [] -> None | xs -> Some xs
and fail_behaviour =
let exits = match exit_codes with [] -> None | xs -> Some (IS.of_list xs) in
if restart_on_fail then `Restart exits else `Quit
in
let config = Unikernel.{ typ = `Solo5 ; compressed ; image ; fail_behaviour ; cpuid ; memory ; block_devices ; bridges ; argv } in
if force then `Unikernel_force_create config else `Unikernel_create config
let policy vms memory cpus block bridges =
let bridges = String.Set.of_list bridges
and cpuids = IS.of_list cpus
in
Policy.{ vms ; cpuids ; memory ; block ; bridges }
open Cmdliner
let setup_log =
Term.(const setup_log
$ Fmt_cli.style_renderer ()
$ Logs_cli.level ())
let ip_port : (Ipaddr.V4.t * int) Arg.converter =
let default_port = 8094 in
let parse s =
match
match String.cut ~sep:":" s with
| None -> Ok (s, default_port)
| Some (ip, port) -> match int_of_string port with
| exception Failure _ -> Error "non-numeric port"
| port -> Ok (ip, port)
with
| Error msg -> `Error msg
| Ok (ip, port) -> match Ipaddr.V4.of_string ip with
| Ok ip -> `Ok (ip, port)
| Error `Msg msg -> `Error msg
in
parse, fun ppf (ip, port) -> Format.fprintf ppf "%a:%d" Ipaddr.V4.pp ip port
let influx =
let doc = "IP address and port (default: 8094) to report metrics to in influx line protocol" in
Arg.(value & opt (some ip_port) None & info [ "influx" ] ~doc ~docv:"INFLUXHOST[:PORT]")
let host_port : (string * int) Arg.converter =
let parse s =
match String.cut ~sep:":" s with
| None -> `Error "broken: no port specified"
| Some (hostname, port) ->
try
`Ok (hostname, int_of_string port)
with
Not_found -> `Error "failed to parse port"
in
parse, fun ppf (h, p) -> Format.fprintf ppf "%s:%d" h p
let vm_c =
let parse s = match Name.of_string s with
| Error (`Msg msg) -> `Error msg
| Ok name -> `Ok name
in
(parse, Name.pp)
let bridge_tap_c =
let parse s = match Astring.String.cut ~sep:":" s with
| None -> `Error "broken, format is bridge:tap"
| Some (bridge, tap) -> `Ok (bridge, tap)
in
(parse, fun ppf (bridge, tap) -> Format.fprintf ppf "%s:%s" bridge tap)
let bridge_taps =
let doc = "Bridge and tap device names" in
Arg.(value & opt_all bridge_tap_c [] & info [ "bridge" ] ~doc)
let pid_req1 =
let doc = "Process id" in
Arg.(required & pos 1 (some int) None & info [] ~doc ~docv:"PID")
let vmm_dev_req0 =
let doc = "VMM device name" in
Arg.(required & pos 0 (some string) None & info [] ~doc ~docv:"VMMDEV")
let opt_vm_name =
let doc = "name of virtual machine." in
Arg.(value & opt vm_c Name.root & info [ "n" ; "name"] ~doc)
let compress_level default =
let doc = "Compression level (0 for no compression, 1-3 fixed with static huffman, 4-9 dynamic with canonic huffman)" in
Arg.(value & opt int default & info [ "compression-level" ] ~doc)
let force =
let doc = "force VM creation." in
Arg.(value & flag & info [ "f" ; "force" ] ~doc)
let cpus =
let doc = "CPUids to allow" in
Arg.(value & opt_all int [] & info [ "cpu" ] ~doc)
let vms =
let doc = "Number of VMs to allow" in
Arg.(required & pos 1 (some int) None & info [] ~doc ~docv:"VMS")
let image =
let doc = "File of virtual machine image." in
Arg.(required & pos 1 (some file) None & info [] ~doc ~docv:"IMAGE")
let vm_name =
let doc = "Name virtual machine." in
Arg.(required & pos 0 (some vm_c) None & info [] ~doc ~docv:"VM")
let block_name =
let doc = "Name of block device." in
Arg.(required & pos 0 (some vm_c) None & info [] ~doc ~docv:"BLOCK")
let block_size =
let doc = "Block size in MB." in
Arg.(required & pos 1 (some int) None & info [] ~doc ~docv:"SIZE")
let opt_block_name =
let doc = "Name of block device." in
Arg.(value & opt vm_c Name.root & info [ "name" ] ~doc)
let opt_block_size =
let doc = "Block storage to allow in MB" in
Arg.(value & opt (some int) None & info [ "size" ] ~doc)
let mem =
let doc = "Memory to allow in MB" in
Arg.(value & opt int 512 & info [ "mem" ] ~doc)
let bridge =
let doc = "Bridges to allow" in
Arg.(value & opt_all string [] & info [ "bridge" ] ~doc)
let cpu =
let doc = "CPUid to use" in
Arg.(value & opt int 0 & info [ "cpu" ] ~doc)
let vm_mem =
let doc = "Assigned memory in MB" in
Arg.(value & opt int 32 & info [ "mem" ] ~doc)
let args =
let doc = "Boot arguments" in
Arg.(value & opt_all string [] & info [ "arg" ] ~doc)
let block =
let doc = "Block device name" in
Arg.(value & opt_all string [] & info [ "block" ] ~doc)
let net =
let doc = "Network device names" in
Arg.(value & opt_all string [] & info [ "net" ] ~doc)
let restart_on_fail =
let doc = "Restart on fail" in
Arg.(value & flag & info [ "restart-on-fail" ] ~doc)
let exit_code =
let doc = "Exit code to restart on" in
Arg.(value & opt_all int [] & info [ "exit-code" ] ~doc)
let timestamp_c =
let parse s = match Ptime.of_rfc3339 s with
| Ok (t, _, _) -> `Ok t
| Error _ ->
(* let's try to add T00:00:00-00:00 *)
match Ptime.of_rfc3339 (s ^ "T00:00:00-00:00") with
| Ok (t, _, _) -> `Ok t
| Error _ -> `Error "couldn't parse timestamp"
in
(parse, Ptime.pp_rfc3339 ())
let since =
let doc = "Receive data since a specified timestamp (RFC 3339 encoded)" in
Arg.(value & opt (some timestamp_c) None & info [ "since" ] ~doc)
let count =
let doc = "Receive N data records" in
Arg.(value & opt int 20 & info [ "count" ] ~doc)
let since_count since count = match since with
| None -> `Count count
| Some since -> `Since since
let version =
Fmt.strf "version %%VERSION%% protocol version %a"
Vmm_commands.pp_version Vmm_commands.current
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