(* (c) 2017 Hannes Mehnert, all rights reserved *) open Rresult (* bits copied over from Bos *) (*--------------------------------------------------------------------------- Copyright (c) 2014 Daniel C. Bünzli Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ---------------------------------------------------------------------------*) let pp_unix_error ppf e = Fmt.string ppf (Unix.error_message e) let err_empty_line = "no command, empty command line" let err_file f e = R.error_msgf "%a: %a" Fpath.pp f pp_unix_error e let rec openfile fn mode perm = try Unix.openfile fn mode perm with | Unix.Unix_error (Unix.EINTR, _, _) -> openfile fn mode perm let fd_for_file flag f = try Ok (openfile (Fpath.to_string f) flag 0o644) with Unix.Unix_error (e, _, _) -> err_file f e let read_fd_for_file = fd_for_file [Unix.O_RDONLY] let write_fd_for_file = fd_for_file [Unix.O_WRONLY ; Unix.O_APPEND] let null = match read_fd_for_file (Fpath.v "/dev/null") with | Ok fd -> fd | Error _ -> invalid_arg "cannot read /dev/null" let rec create_process prog args stdout stderr = try Unix.create_process prog args null stdout stderr with | Unix.Unix_error (Unix.EINTR, _, _) -> create_process prog args stdout stderr let rec close fd = try Unix.close fd with | Unix.Unix_error (Unix.EINTR, _, _) -> close fd let close_no_err fd = try close fd with e -> () (* own code starts here (c) 2017 Hannes Mehnert, all rights reserved *) open Vmm_core let rec mkfifo name = try Unix.mkfifo (Fpath.to_string name) 0o640 with | Unix.Unix_error (Unix.EINTR, _, _) -> mkfifo name let image_fn = Fpath.add_ext "img" let fifo_fn = Fpath.add_ext "fifo" let tmpfile vm = let random = let cs = Nocrypto.Rng.generate 8 in match Hex.of_cstruct cs with `Hex str -> str in let baseid = filename vm in Fpath.(v (Filename.get_temp_dir_name ()) / "albatross" + baseid + random) let rec fifo_exists file = try Ok (Unix.((stat @@ Fpath.to_string file).st_kind = S_FIFO)) with | Unix.Unix_error (Unix.ENOENT, _, _) -> Error (`Msg "noent") | Unix.Unix_error (Unix.EINTR, _, _) -> fifo_exists file | Unix.Unix_error (e, _, _) -> R.error_msgf "file %a exists: %s" Fpath.pp file (Unix.error_message e) let uname () = let cmd = Bos.Cmd.(v "uname" % "-s") in lazy Bos.OS.Cmd.(run_out cmd |> out_string) let create_tap bridge = Lazy.force (uname ()) >>= fun (sys, _) -> match sys with | x when x = "FreeBSD" -> let cmd = Bos.Cmd.(v "ifconfig" % "tap" % "create") in Bos.OS.Cmd.run_out cmd |> Bos.OS.Cmd.out_string >>= fun (name, _) -> Bos.OS.Cmd.run Bos.Cmd.(v "ifconfig" % bridge % "addm" % name) >>= fun () -> Ok name | x when x = "Linux" -> let prefix = "vmmtap" in let rec find_n x = let nam = prefix ^ string_of_int x in match Bos.OS.Cmd.run Bos.Cmd.(v "ifconfig" % nam) with | Error _ -> nam | Ok _ -> find_n (succ x) in let tap = find_n 0 in Bos.OS.Cmd.run Bos.Cmd.(v "ip" % "tuntap" % "add" % "mode" % "tap" % tap) >>= fun () -> Bos.OS.Cmd.run Bos.Cmd.(v "brctl" % "addif" % bridge % tap) >>= fun () -> Ok tap | x -> Error (`Msg ("unsupported operating system " ^ x)) let destroy_tap tapname = Lazy.force (uname ()) >>= fun (sys, _) -> match sys with | x when x = "FreeBSD" -> Bos.OS.Cmd.run Bos.Cmd.(v "ifconfig" % tapname % "destroy") | x when x = "Linux" -> Bos.OS.Cmd.run Bos.Cmd.(v "ip" % "tuntap" % "del" % "dev" % tapname % "mode" % "tap") | x -> Error (`Msg ("unsupported operating system " ^ x)) let create_bridge bname = Lazy.force (uname ()) >>= fun (sys, _) -> match sys with | x when x = "FreeBSD" -> let cmd = Bos.Cmd.(v "ifconfig" % "bridge" % "create") in Bos.OS.Cmd.run_out cmd |> Bos.OS.Cmd.out_string >>= fun (name, _) -> Bos.OS.Cmd.run Bos.Cmd.(v "ifconfig" % name % "name" % bname) | x when x = "Linux" -> Bos.OS.Cmd.run Bos.Cmd.(v "brctl" % "addbr" % bname) | x -> Error (`Msg ("unsupported operating system " ^ x)) let prepare vm = let tmpfile = tmpfile vm in (match vm.vmimage with | `Ukvm_amd64, blob -> Ok blob | _ -> Error (`Msg "no amd64 ukvm image found")) >>= fun image -> Bos.OS.File.write (image_fn tmpfile) (Cstruct.to_string image) >>= fun () -> let fifo = fifo_fn tmpfile in (match fifo_exists fifo with | Ok true -> Ok () | Ok false -> Error (`Msg ("file " ^ Fpath.to_string fifo ^ " exists and is not a fifo")) | Error _ -> try Ok (mkfifo fifo) with | Unix.Unix_error (e, f, _) -> Logs.err (fun m -> m "%a error in %s: %a" Fpath.pp fifo f pp_unix_error e) ; Error (`Msg "while creating fifo")) >>= fun () -> List.fold_left (fun acc b -> acc >>= fun acc -> create_tap b >>= fun tap -> Ok (tap :: acc)) (Ok []) vm.network >>= fun taps -> Ok (tmpfile, List.rev taps) let shutdown vm = (* same order as prepare! *) Bos.OS.File.delete (image_fn vm.tmpfile) >>= fun () -> Bos.OS.File.delete (fifo_fn vm.tmpfile) >>= fun () -> List.fold_left (fun r n -> r >>= fun () -> destroy_tap n) (Ok ()) vm.taps let cpuset cpu = Lazy.force (uname ()) >>= fun (sys, _) -> let cpustring = string_of_int cpu in match sys with | x when x = "FreeBSD" -> Ok ([ "cpuset" ; "-l" ; cpustring ]) | x when x = "Linux" -> Ok ([ "taskset" ; "-c" ; cpustring ]) | x -> Error (`Msg ("unsupported operating system " ^ x)) let exec dir vm tmpfile taps = (* TODO: --net-mac=xx *) let net = List.map (fun t -> "--net=" ^ t) taps in let argv = match vm.argv with None -> [] | Some xs -> xs in (match taps with | [] -> Ok Fpath.(dir / "ukvm-bin.none") | [_] -> Ok Fpath.(dir / "ukvm-bin.net") | _ -> Error (`Msg "cannot handle multiple network interfaces")) >>= fun bin -> cpuset vm.cpuid >>= fun cpuset -> let mem = "--mem=" ^ string_of_int vm.memory in let cmd = Bos.Cmd.(of_list cpuset % p bin % mem %% of_list net % "--" % p (image_fn tmpfile) %% of_list argv) in let line = Bos.Cmd.to_list cmd in let prog = try List.hd line with Failure _ -> failwith err_empty_line in let line = Array.of_list line in let fifo = fifo_fn tmpfile in Logs.debug (fun m -> m "write fd for fifo %a" Fpath.pp fifo); write_fd_for_file fifo >>= fun stdout -> Logs.debug (fun m -> m "opened file descriptor!"); try Logs.debug (fun m -> m "creating process"); let pid = create_process prog line stdout stdout in Logs.debug (fun m -> m "created process %d: %a" pid Bos.Cmd.pp cmd) ; (* on FreeBSD we need to chmod g+rw /dev/vmm/ukvm$pid to run bhyvectl --get-stats --vm=ukvm$pid as non-priviliged user *) (Lazy.force (uname ()) >>= fun (sys, _) -> match sys with | x when x = "FreeBSD" -> let dev = "/dev/vmm/ukvm" ^ string_of_int pid in Bos.OS.Cmd.run Bos.Cmd.(v "chmod" % "g+rw" % dev) | _ -> Ok ()) >>= fun () -> (* this should get rid of the vmimage from vmmd's memory! *) let config = { vm with vmimage = (fst vm.vmimage, Cstruct.create 0) } in Ok { config ; cmd ; pid ; taps ; stdout ; tmpfile } with Unix.Unix_error (e, _, _) -> close_no_err stdout; R.error_msgf "cmd %a exits: %a" Bos.Cmd.pp cmd pp_unix_error e let destroy vm = Unix.kill vm.pid 15 (* 15 is SIGTERM *)