albatross/app/vmmc.ml

357 lines
12 KiB
OCaml

(* (c) 2017, 2018 Hannes Mehnert, all rights reserved *)
open Lwt.Infix
open Vmm_core
let my_version = `WV2
let my_command = 1L
let process fd =
Vmm_lwt.read_wire fd >|= function
| Error _ -> Error ()
| Ok (hdr, data) ->
if not (Vmm_wire.version_eq hdr.Vmm_wire.version my_version) then begin
Logs.err (fun m -> m "unknown wire protocol version") ;
Error ()
end else begin
if Vmm_wire.is_fail hdr then begin
let msg = match Vmm_wire.decode_string data with
| Ok (msg, _) -> Some msg
| Error _ -> None
in
Logs.err (fun m -> m "command failed %a" Fmt.(option ~none:(unit "") string) msg) ;
Error ()
end else if Vmm_wire.is_reply hdr && hdr.Vmm_wire.id = my_command then
Ok data
else begin
Logs.err (fun m -> m "received unexpected data") ;
Error ()
end
end
let socket t = function
| Some x -> x
| None -> Vmm_core.socket_path t
let connect socket_path =
let c = Lwt_unix.(socket PF_UNIX SOCK_STREAM 0) in
Lwt_unix.set_close_on_exec c ;
Lwt_unix.connect c (Lwt_unix.ADDR_UNIX socket_path) >|= fun () ->
c
let info_ _ opt_socket name =
Lwt_main.run (
connect (socket `Vmmd opt_socket) >>= fun fd ->
let info = Vmm_wire.Vm.info my_command my_version name in
(Vmm_lwt.write_wire fd info >>= function
| Ok () ->
(process fd >|= function
| Error () -> ()
| Ok data ->
match Vmm_wire.Vm.decode_vms data with
| Ok (vms, _) ->
List.iter (fun (id, memory, cmd, pid, taps) ->
Logs.app (fun m -> m "VM %a %dMB command %s pid %d taps %a"
pp_id id memory cmd pid Fmt.(list ~sep:(unit ", ") string) taps))
vms
| Error (`Msg msg) ->
Logs.err (fun m -> m "error %s while decoding vms" msg))
| Error `Exception -> Lwt.return_unit) >>= fun () ->
Vmm_lwt.safe_close fd
) ;
`Ok ()
let really_destroy opt_socket name =
connect (socket `Vmmd opt_socket) >>= fun fd ->
let cmd = Vmm_wire.Vm.destroy my_command my_version name in
(Vmm_lwt.write_wire fd cmd >>= function
| Ok () ->
(process fd >|= function
| Error () -> ()
| Ok _ -> Logs.app (fun m -> m "destroyed VM"))
| Error `Exception -> Lwt.return_unit) >>= fun () ->
Vmm_lwt.safe_close fd
let destroy _ opt_socket name =
Lwt_main.run (really_destroy opt_socket name) ;
`Ok ()
let create _ opt_socket force name image cpuid requested_memory boot_params block_device network =
let image' = match Bos.OS.File.read (Fpath.v image) with
| Ok data -> data
| Error (`Msg s) -> invalid_arg s
in
let prefix, vname = match List.rev name with
| [ name ] -> [], name
| name::tl -> List.rev tl, name
| [] -> assert false
and argv = match boot_params with
| [] -> None
| xs -> Some xs
(* TODO we could do the compression btw *)
and vmimage = `Ukvm_amd64, Cstruct.of_string image'
in
let vm_config = {
prefix ; vname ; cpuid ; requested_memory ; block_device ; network ;
vmimage ; argv
} in
Lwt_main.run (
(if force then
really_destroy opt_socket name
else
Lwt.return_unit) >>= fun () ->
connect (socket `Vmmd opt_socket) >>= fun fd ->
let vm = Vmm_wire.Vm.create my_command my_version vm_config in
(Vmm_lwt.write_wire fd vm >>= function
| Error `Exception -> Lwt.return_unit
| Ok () -> process fd >|= function
| Ok _ -> Logs.app (fun m -> m "successfully started VM")
| Error () -> ()) >>= fun () ->
Vmm_lwt.safe_close fd
) ;
`Ok ()
let console _ opt_socket name =
Lwt_main.run (
connect (socket `Console opt_socket) >>= fun fd ->
let cmd = Vmm_wire.Console.attach my_command my_version name in
(Vmm_lwt.write_wire fd cmd >>= function
| Error `Exception ->
Logs.err (fun m -> m "couldn't write to socket") ;
Lwt.return_unit
| Ok () ->
(* now we busy read and process console output *)
let rec loop () =
Vmm_lwt.read_wire fd >>= function
| Error (`Msg msg) -> Logs.err (fun m -> m "error while reading %s" msg) ; loop ()
| Error _ -> Logs.err (fun m -> m "exception while reading") ; Lwt.return_unit
| Ok (hdr, data) ->
Logs.debug (fun m -> m "received %a" Cstruct.hexdump_pp data) ;
if Vmm_wire.is_fail hdr then
let msg = match Vmm_wire.decode_string data with
| Error _ -> None
| Ok (m, _) -> Some m
in
Logs.err (fun m -> m "operation failed: %a" Fmt.(option ~none:(unit "") string) msg) ;
Lwt.return_unit
else if Vmm_wire.is_reply hdr then
let msg = match Vmm_wire.decode_string data with
| Error _ -> None
| Ok (m, _) -> Some m
in
Logs.app (fun m -> m "operation succeeded: %a" Fmt.(option ~none:(unit "") string) msg) ;
loop ()
else
let r =
let open Rresult.R.Infix in
match Vmm_wire.Console.int_to_op hdr.Vmm_wire.tag with
| Some Vmm_wire.Console.Data ->
Vmm_wire.decode_id_ts data >>= fun ((name, ts), off) ->
Vmm_wire.decode_string (Cstruct.shift data off) >>= fun (msg, _) ->
Logs.app (fun m -> m "%a %a: %s" Ptime.pp ts Vmm_core.pp_id name msg) ;
Ok ()
| _ ->
Error (`Msg (Printf.sprintf "unknown operation %lx" hdr.Vmm_wire.tag))
in
match r with
| Ok () -> loop ()
| Error (`Msg msg) ->
Logs.err (fun m -> m "%s" msg) ;
Lwt.return_unit
in
loop ()) >>= fun () ->
Vmm_lwt.safe_close fd) ;
`Ok ()
let stats _ opt_socket vms =
Lwt_main.run (
connect (socket `Stats opt_socket) >>= fun fd ->
let count = ref 0L in
Lwt_list.iter_s (fun name ->
let cmd = Vmm_wire.Stats.stat !count my_version name in
count := Int64.succ !count ;
Vmm_lwt.write_wire fd cmd >>= function
| Error `Exception -> Lwt.fail_with "write error"
| Ok () -> Lwt.return_unit) vms >>= fun () ->
(* now we busy read and process stat output *)
let rec loop () =
Vmm_lwt.read_wire fd >>= function
| Error (`Msg msg) -> Logs.err (fun m -> m "error while reading %s" msg) ; loop ()
| Error _ -> Logs.err (fun m -> m "exception while reading") ; Lwt.return_unit
| Ok (hdr, data) ->
if Vmm_wire.is_fail hdr then
let msg = match Vmm_wire.decode_string data with
| Error _ -> None
| Ok (m, _) -> Some m
in
Logs.err (fun m -> m "operation failed: %a" Fmt.(option ~none:(unit "") string) msg) ;
Lwt.return_unit
else if Vmm_wire.is_reply hdr then
let msg = match Vmm_wire.decode_string data with
| Error _ -> None
| Ok (m, _) -> Some m
in
Logs.app (fun m -> m "operation succeeded: %a" Fmt.(option ~none:(unit "") string) msg) ;
loop ()
else
let r =
let open Rresult.R.Infix in
match Vmm_wire.Stats.int_to_op hdr.Vmm_wire.tag with
| Some Vmm_wire.Stats.Data ->
Vmm_wire.decode_strings data >>= fun (id, off) ->
Vmm_wire.Stats.decode_stats (Cstruct.shift data off) >>| fun stats ->
(Astring.String.concat ~sep:"." id, stats)
| _ ->
Error (`Msg (Printf.sprintf "unknown operation %lx" hdr.Vmm_wire.tag))
in
match r with
| Ok (name, (ru, vmm, ifs)) ->
Logs.app (fun m -> m "stats %s: %a %a %a"
name Vmm_core.pp_rusage ru
Fmt.(list ~sep:(unit "@.") (pair ~sep:(unit ": ") string int64)) vmm
Fmt.(list ~sep:(unit "@.") Vmm_core.pp_ifdata) ifs) ;
loop ()
| Error (`Msg msg) ->
Logs.err (fun m -> m "%s" msg) ;
Lwt.return_unit
in
loop () >>= fun () ->
Vmm_lwt.safe_close fd) ;
`Ok ()
let help _ _ man_format cmds = function
| None -> `Help (`Pager, None)
| Some t when List.mem t cmds -> `Help (man_format, Some t)
| Some _ -> List.iter print_endline cmds; `Ok ()
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 ())
open Cmdliner
let setup_log =
Term.(const setup_log
$ Fmt_cli.style_renderer ()
$ Logs_cli.level ())
let socket =
let doc = "Socket to connect to" in
Arg.(value & opt (some string) None & info [ "s" ; "socket" ] ~doc)
let force =
let doc = "force VM creation." in
Arg.(value & flag & info [ "f" ; "force" ] ~doc)
let image =
let doc = "File of virtual machine image." in
Arg.(required & pos 1 (some file) None & info [] ~doc)
let vm_c =
let parse s = `Ok (Vmm_core.id_of_string s)
in
(parse, Vmm_core.pp_id)
let vm_name =
let doc = "Name virtual machine." in
Arg.(required & pos 0 (some vm_c) None & info [] ~doc)
let destroy_cmd =
let doc = "destroys a virtual machine" in
let man =
[`S "DESCRIPTION";
`P "Destroy a virtual machine."]
in
Term.(ret (const destroy $ setup_log $ socket $ vm_name)),
Term.info "destroy" ~doc ~man
let info_cmd =
let doc = "information about VMs" in
let man =
[`S "DESCRIPTION";
`P "Shows information about VMs."]
in
Term.(ret (const info_ $ setup_log $ socket $ vm_name)),
Term.info "info" ~doc ~man
let cpu =
let doc = "CPUid" in
Arg.(value & opt int 0 & info [ "cpu" ] ~doc)
let mem =
let doc = "Memory to provision" in
Arg.(value & opt int 512 & 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 (some string) None & info [ "block" ] ~doc)
let net =
let doc = "Network device" in
Arg.(value & opt_all string [] & info [ "net" ] ~doc)
let create_cmd =
let doc = "creates a virtual machine" in
let man =
[`S "DESCRIPTION";
`P "Creates a virtual machine."]
in
Term.(ret (const create $ setup_log $ socket $ force $ vm_name $ image $ cpu $ mem $ args $ block $ net)),
Term.info "create" ~doc ~man
let console_cmd =
let doc = "console of a VM" in
let man =
[`S "DESCRIPTION";
`P "Shows console output of a VM."]
in
Term.(ret (const console $ setup_log $ socket $ vm_name)),
Term.info "console" ~doc ~man
let vm_names =
let doc = "Name virtual machine." in
Arg.(value & opt_all vm_c [] & info [ "n" ; "name" ] ~doc)
let stats_cmd =
let doc = "statistics of VMs" in
let man =
[`S "DESCRIPTION";
`P "Shows statistics of VMs."]
in
Term.(ret (const stats $ setup_log $ socket $ vm_names)),
Term.info "stats" ~doc ~man
let help_cmd =
let topic =
let doc = "The topic to get help on. `topics' lists the topics." in
Arg.(value & pos 0 (some string) None & info [] ~docv:"TOPIC" ~doc)
in
let doc = "display help about vmmc" in
let man =
[`S "DESCRIPTION";
`P "Prints help about conex commands and subcommands"]
in
Term.(ret (const help $ setup_log $ socket $ Term.man_format $ Term.choice_names $ topic)),
Term.info "help" ~doc ~man
let default_cmd =
let doc = "VMM client" in
let man = [
`S "DESCRIPTION" ;
`P "$(tname) connects to vmmd via a local socket" ]
in
Term.(ret (const help $ setup_log $ socket $ Term.man_format $ Term.choice_names $ Term.pure None)),
Term.info "vmmc" ~version:"%%VERSION_NUM%%" ~doc ~man
let cmds = [ help_cmd ; info_cmd ; destroy_cmd ; create_cmd ; console_cmd ; stats_cmd ]
let () =
match Term.eval_choice default_cmd cmds
with `Ok () -> exit 0 | _ -> exit 1