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xenops.ml
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(*
* Copyright (C) 2006-2009 Citrix Systems Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation; version 2.1 only. with the special
* exception on linking described in file LICENSE.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*)
open Printf
open Pervasiveext
open Stringext
open Device_common
open Xenops_helpers
open Xenstore
open Xenops_task
let tasks = Xenops_task.empty ()
let task = Xenops_task.add tasks "xenops" (fun _ -> None)
let print_xen_dmesg ~xc =
let s = Xenctrl.readconsolering xc in
printf "%s\n" s
let print_xen_physinfo ~xc =
let open Xenctrl.Phys_info in
let physinfo = Xenctrl.physinfo xc in
let totalmib = Xenctrl.pages_to_mib (Int64.of_nativeint physinfo.total_pages)
and freemib = Xenctrl.pages_to_mib (Int64.of_nativeint physinfo.free_pages)
and scrubmib = Xenctrl.pages_to_mib (Int64.of_nativeint physinfo.scrub_pages) in
printf "nr_cpus = %d\n" physinfo.nr_cpus;
printf "threads_per_core = %d\n" physinfo.threads_per_core;
printf "cores_per_socket = %d\n" physinfo.cores_per_socket;
(*printf "sockets_per_node = %d\n" physinfo.sockets_per_node;*)
(*printf "nr_nodes = %d\n" physinfo.nr_nodes;*)
printf "cpu_khz = %d\n" physinfo.cpu_khz;
printf "total_pages = %s (%Ld Mb)\n" (Nativeint.to_string physinfo.total_pages) totalmib;
printf "free_pages = %s (%Ld Mb)\n" (Nativeint.to_string physinfo.free_pages) freemib;
printf "scrub_pages = %s (%Ld Mb)\n" (Nativeint.to_string physinfo.scrub_pages) scrubmib
let print_pcpus_info ~xc =
let physinfo = Xenctrl.physinfo xc in
let infos = Xenctrl.pcpu_info xc (physinfo.Xenctrl.Phys_info.nr_cpus) in
Array.iteri (fun i info -> printf "cpu: %d usage: %Ld\n" i info) infos
let debugkeys ~xc args =
List.iter (fun arg ->
try Xenctrl.send_debug_keys xc arg
with exn ->
printf "sending key \"%s\" failed: %s" arg (Printexc.to_string exn);
) args
let is_hvm ~xc domid =
(Xenctrl.domain_getinfo xc domid).Xenctrl.Domain_info.hvm_guest
let create_domain ~xc ~xs ~hvm =
let uuid = Uuid.make_uuid () in
let info = {
Domain.ssidref = 0l;
Domain.hvm = hvm;
Domain.hap = hvm;
Domain.name = "";
Domain.xsdata = [];
Domain.platformdata = [];
Domain.bios_strings = [];
} in
let domid = Domain.make ~xc ~xs info uuid in
printf "%u\n" domid
let default_xenguest = "/opt/xensource/libexec/xenguest"
let build_domain ~xc ~xs ~kernel ?(ramdisk=None) ~cmdline ~domid ~vcpus ~static_max_kib ~target_kib =
let (_: Domain.domarch) = Domain.build_linux task xc xs static_max_kib target_kib
kernel cmdline ramdisk vcpus default_xenguest domid in
printf "built domain: %u\n" domid
let build_hvm ~xc ~xs ~kernel ~domid ~vcpus ~static_max_kib ~target_kib =
let (_: Domain.domarch) = Domain.build_hvm task xc xs static_max_kib target_kib 1.
vcpus kernel "" 4 default_xenguest domid in
printf "built hvm domain: %u\n" domid
let clean_shutdown_domain ~xal ~domid ~reason ~sync =
failwith "Use 'xn' instead"
let hard_shutdown_domain ~xc ~domid ~reason = Domain.hard_shutdown ~xc domid reason
let sysrq_domain ~xs ~domid ~sysrq =
Domain.sysrq ~xs domid sysrq
let pause_domain ~xc ~domid =
Domain.pause ~xc domid;
printf "paused domain: %u\n" domid
let unpause_domain ~xc ~domid =
Domain.unpause ~xc domid;
printf "unpaused domain: %u\n" domid
let destroy_domain ~xc ~xs ~domid =
Domain.destroy task ~xc ~xs ~qemu_domid:0 domid
let suspend_domain ~xc ~xs ~domid ~file =
let suspendfct () =
let path = xs.Xs.getdomainpath domid in
xs.Xs.write (Printf.sprintf "%s/control/shutdown" path) "suspend";
Unix.sleep 1
in
let hvm = is_hvm ~xc domid in
let fd = Unix.openfile file [ Unix.O_WRONLY; Unix.O_CREAT; Unix.O_EXCL ] 0o600 in
Domain.suspend task ~xc ~xs ~hvm ~qemu_domid:0 default_xenguest domid fd [] suspendfct;
Unix.close fd
let suspend_domain_and_resume ~xc ~xs ~domid ~file ~cooperative =
suspend_domain ~xc ~xs ~domid ~file;
Domain.resume task ~xc ~xs ~cooperative ~hvm:(is_hvm ~xc domid) ~qemu_domid:0 domid
let suspend_domain_and_destroy ~xc ~xs ~domid ~file =
suspend_domain ~xc ~xs ~domid ~file;
Domain.destroy task ~xc ~xs ~qemu_domid:0 domid
let restore_domain ~xc ~xs ~domid ~vcpus ~static_max_kib ~target_kib ~file =
let fd = Unix.openfile file [ Unix.O_RDONLY ] 0o400 in
Domain.pv_restore task ~xc ~xs default_xenguest domid ~static_max_kib ~target_kib ~vcpus fd;
Unix.close fd
let balloon_domain ~xs ~domid ~mem_mib =
if mem_mib <= 16L then
failwith (sprintf "cannot balloon domain below 16Mb: %Ld requested" mem_mib);
Domain.set_memory_target ~xs domid (Int64.mul mem_mib 1024L)
let domain_get_uuid ~xc ~domid =
try
let h = Xenctrl.domain_getinfo xc domid in
let uuid = Uuid.to_string (Uuid.uuid_of_int_array h.Xenctrl.Domain_info.handle) in
printf "%s\n" uuid
with _ ->
()
let print_table (rows: string list list) =
let widths = Table.compute_col_widths rows in
let sll = List.map (List.map2 Table.right widths) rows in
List.iter (fun line -> print_endline (String.concat " | " line)) sll
let list_domains ~xc ~verbose =
let header () =
if verbose then
[ "id"; "state"; "shutdown code"; "total MiB"; "max MiB";
"sif"; "cpu time"; "vcpus online"; "max vcpu id"; "ssidref";
"uuid" ]
else
[ "id"; "state"; "cpu_time"; "uuid" ]
in
let open Xenctrl.Domain_info in
let sl_of_domaininfo (x : Xenctrl.Domain_info.t) : string list =
let page_to_mib pages =
Nativeint.to_string (Nativeint.div pages (Nativeint.of_int 256)) in
let int = string_of_int and int64 = Int64.to_string and int32 = Int32.to_string in
let domid = int x.domid in
(* Can more than one flag be true at a time? *)
let state =
let bool ch = function true -> ch | _ -> " " in
(bool "D" x.dying) ^ (bool "S" x.shutdown) ^
(bool "P" x.paused) ^ (bool "B" x.blocked) ^
(bool "R" x.running) ^ (bool "H" x.hvm_guest) in
let shutdown_code = int x.shutdown_code in
let tot_memory_mib = page_to_mib x.total_memory_pages in
let max_memory_mib = page_to_mib x.max_memory_pages in
let shared_info_frame = int64 x.shared_info_frame in
let cpu_time = int64 x.cpu_time in
let nr_online_vcpus = int x.nr_online_vcpus in
let max_vcpu_id = int x.max_vcpu_id in
let ssidref = int32 x.ssidref in
let handle = Uuid.to_string (Uuid.uuid_of_int_array x.handle) in
if verbose then
[ domid; state; shutdown_code; tot_memory_mib; max_memory_mib;
shared_info_frame; cpu_time; nr_online_vcpus; max_vcpu_id;
ssidref; handle ]
else
[ domid; state; cpu_time; handle ]
in
let l = Xenctrl.domain_getinfolist xc 0 in
let header = header () in
let infos = List.map sl_of_domaininfo l in
print_table (header :: infos)
(*
backend frontend
---------------------------------------------------------------
domain domstate ty devid state -> domain domstate ty devid state
where domstate = R | S | D | ?
state = 1 | 2 | 3 | 4 | 5 | 6 | ?
*)
type device_stat = {
device: device;
backend_proto: string; (* blk or net *)
backend_device: string; (* physical device eg. fd:2 *)
backend_state: string; (* 1...6 *)
frontend_type: string; (* cdrom or hd *)
frontend_device: string; (* linux device name *)
frontend_state: string; (* 1..6 *)
}
let device_state_to_sl ds =
let int = string_of_int in
[ int ds.device.backend.domid; ds.backend_proto; ds.backend_device; ds.backend_state; "->"; ds.frontend_state; ds.frontend_type; ds.frontend_device; int ds.device.frontend.domid; ]
let stat ~xs d =
let frontend_state = try xs.Xs.read (sprintf "%s/state" (frontend_path_of_device ~xs d)) with Xenbus.Xb.Noent -> "??" in
let backend_state = try xs.Xs.read (sprintf "%s/state" (backend_path_of_device ~xs d)) with Xenbus.Xb.Noent -> "??" in
(* The params string can be very long, truncate to a more reasonable width *)
let truncate params =
let limit = 10 in
let dots = "..." in
let len = String.length params in
if len <= limit
then params
else
let take = limit - (String.length dots) in
dots ^ (String.sub params (len - take) take) in
let backend_proto = match d.backend.kind with
| Vbd | Tap -> "blk"
| Vif -> "net"
| x -> string_of_kind x in
let frontend_type = match d.frontend.kind with
| Vbd | Tap ->
let be = frontend_path_of_device ~xs d in
(try if xs.Xs.read (sprintf "%s/device-type" be) = "cdrom" then "cdrom" else "disk" with _ -> "??")
| x -> string_of_kind x in
let backend_device = match d.backend.kind with
| Vbd | Tap ->
let be = backend_path_of_device ~xs d in
(try xs.Xs.read (sprintf "%s/physical-device" be)
with Xenbus.Xb.Noent ->
(try truncate (xs.Xs.read (sprintf "%s/params" be))
with Xenbus.Xb.Noent -> "??"))
| Vif -> "-"
| _ -> string_of_int d.backend.devid in
let frontend_device = match d.frontend.kind with
| Vbd | Tap -> Device_number.to_linux_device (Device_number.of_xenstore_key d.frontend.devid)
| _ -> string_of_int d.frontend.devid in
{ device = d; frontend_state = frontend_state; backend_state = backend_state; frontend_device = frontend_device; frontend_type = frontend_type; backend_proto = backend_proto; backend_device = backend_device }
let list_devices ~xc ~xs =
let header = [ "be"; "proto"; "dev"; "state"; "->"; "state"; "kind"; "dev"; "fe" ] in
let of_device (d: device) : string list =
device_state_to_sl (stat ~xs d) in
let l = Xenctrl.domain_getinfolist xc 0 in
let domids = List.map (fun x -> x.Xenctrl.Domain_info.domid) l in
let devices =
Listext.List.setify (
List.concat (
List.map
(fun domid ->
list_backends ~xs domid @ (list_frontends ~xs domid)
) domids
)
) in
let infos = List.map of_device devices in
print_table (header :: infos)
let find_device ~xs (frontend: endpoint) (backend: endpoint) =
let all = list_devices_between ~xs backend.domid frontend.domid in
match List.filter (fun x -> x.frontend = frontend) all with
| [ d ] -> d
| _ -> failwith "failed to find device"
let del_vbd ~xs ~domid ~backend_domid ~device_number ~phystype =
let devid = Device_number.to_xenstore_key device_number in
let frontend = { domid = domid; kind = Vbd; devid = devid } in
let backend = { domid = backend_domid; kind = Vbd; devid = devid } in
let device = find_device ~xs frontend backend in
Device.clean_shutdown task ~xs device
let add_vif ~xs ~domid ~netty ~devid ~mac ~backend_domid =
ignore(Device.Vif.add task ~xs ~devid ~netty ~mac ~carrier:true ~backend_domid domid)
let del_vif ~xs ~domid ~backend_domid ~devid =
let frontend = { domid = domid; kind = Vif; devid = devid } in
let backend = { domid = backend_domid; kind = Vif; devid = devid } in
let device = find_device ~xs frontend backend in
Device.clean_shutdown task ~xs device
let pci_of_string x = Scanf.sscanf x "%04x:%02x:%02x.%1x" (fun a b c d -> (a, b, c, d))
let add_pci ~xc ~xs ~hvm ~domid ~devid ~pci =
Printf.printf "pci: %s\n" pci;
let pcidevs = List.map pci_of_string (String.split ',' pci) in
Device.PCI.add ~xc ~xs ~hvm ~msitranslate:0 ~pci_power_mgmt:0 pcidevs domid devid;
()
let plug_pci ~xc ~xs ~domid ~devid ~pci =
let pcidev = pci_of_string pci in
Device.PCI.plug task ~xc ~xs pcidev domid
let unplug_pci ~xc ~xs ~domid ~devid ~pci =
let pcidev = pci_of_string pci in
Device.PCI.unplug task ~xc ~xs pcidev domid
let del_pci ~xc ~xs ~hvm ~domid ~devid ~pci =
let pcidevs = List.map (fun d ->
Scanf.sscanf d "%04x:%02x:%02x.%1x" (fun a b c d -> (a, b, c, d))
) (String.split ',' pci) in
Device.PCI.release ~xc ~xs ~hvm pcidevs domid devid;
()
let bind_pci ~pci =
let pcidevs = List.map (fun d ->
Scanf.sscanf d "%04x:%02x:%02x.%1x" (fun a b c d -> (a, b, c, d))
) (String.split ',' pci) in
Device.PCI.bind pcidevs
let list_pci ~xc ~xs ~domid =
let pcidevs = Device.PCI.list ~xc ~xs domid in
List.iter (fun (id, (domain, bus, dev, func)) ->
Printf.printf "dev-%d %04x:%02x:%02x.%1x\n" id domain bus dev func
) pcidevs
let add_dm ~xs ~domid ~static_max_kib ~vcpus ~boot =
let dmpath = Filename.concat Fhs.libexecdir "qemu-dm-wrapper" in
let info = {
Device.Dm.memory = static_max_kib;
Device.Dm.boot = boot;
Device.Dm.serial = Some "pty";
Device.Dm.monitor = Some "null";
Device.Dm.vcpus = vcpus;
Device.Dm.nics = [];
Device.Dm.disks = [];
Device.Dm.pci_emulations = [];
Device.Dm.pci_passthrough = false;
Device.Dm.usb = Device.Dm.Disabled;
Device.Dm.parallel = None;
Device.Dm.acpi = true;
Device.Dm.disp = Device.Dm.NONE;
Device.Dm.vgpu = None;
Device.Dm.xenclient_enabled=false;
Device.Dm.hvm=false;
Device.Dm.sound=None;
Device.Dm.power_mgmt=None;
Device.Dm.oem_features=None;
Device.Dm.inject_sci=None;
Device.Dm.video_mib=0;
Device.Dm.extras = []
} in
Device.Dm.start task ~xs ~dmpath info domid
let add_ioport ~xc ~domid ~ioport_start ~ioport_end =
Domain.add_ioport ~xc domid ioport_start ioport_end
let del_ioport ~xc ~domid ~ioport_start ~ioport_end =
Domain.del_ioport ~xc domid ioport_start ioport_end
let add_iomem ~xc ~domid ~iomem_start ~iomem_end =
Domain.add_iomem ~xc domid iomem_start iomem_end
let del_iomem ~xc ~domid ~iomem_start ~iomem_end =
Domain.del_iomem ~xc domid iomem_start iomem_end
let add_irq ~xc ~domid ~irq =
Domain.add_irq ~xc domid irq
let del_irq ~xc ~domid ~irq =
Domain.del_irq ~xc domid irq
let sched_domain ~xc ~domid ~weight ~cap =
let open Xenctrl.Sched_control in
if Xenctrl.sched_id xc <> 5 then
failwith "not using credit scheduler";
match weight, cap with
| Some weight, Some cap ->
Xenctrl.sched_credit_domain_set xc domid
{ weight ; cap }
| None, Some cap ->
let old = Xenctrl.sched_credit_domain_get xc domid in
Xenctrl.sched_credit_domain_set xc domid
{ old with cap }
| Some weight, None ->
let old = Xenctrl.sched_credit_domain_get xc domid in
Xenctrl.sched_credit_domain_set xc domid
{ old with weight }
| None, None -> ()
let sched_domain_get ~xc ~domid =
let open Xenctrl.Sched_control in
if Xenctrl.sched_id xc <> 5 then
failwith "not using credit scheduler";
let params = Xenctrl.sched_credit_domain_get xc domid in
params.weight, params.cap
let affinity_set ~xc ~domid ~vcpu ~bitmap =
let init_fct i =
match bitmap.[i] with
| '0' -> false
| '1' -> true
| c -> failwith (sprintf "Unknown character '%c' in bitmap" c) in
let cpumap = Array.init (String.length bitmap) init_fct in
Domain.vcpu_affinity_set ~xc domid vcpu cpumap
let affinity_get ~xc ~domid ~vcpu =
let cpumap = Domain.vcpu_affinity_get ~xc domid vcpu in
let s = String.make (Array.length cpumap) '0' in
Array.iteri (fun i b -> s.[i] <- if b then '1' else '0') cpumap;
printf "%s\n" s
let cmd_alias cmd =
match cmd with
| "init" -> "create_domain"
| "shutdown" -> "shutdown_domain"
| "sysrq" -> "sysrq_domain"
| "pause" -> "pause_domain"
| "unpause" -> "unpause_domain"
| "list" | "li" -> "list_domains"
| "destroy" | "del" -> "destroy_domain"
| "chkpoint" | "checkpoint" -> "chkpoint_domain"
| "restore" -> "restore_domain"
| "build" -> "build_domain"
| "hvmbuild" -> "build_hvm"
| "suspend" -> "save_domain"
| "disk-add" -> "add_vbd"
| "pci-bind" -> "bind_pci"
| "getuuid_domain" -> "dom-uuid"
| _ -> cmd
let usage subcmd allcommands =
let usage_all () =
let l = List.map (fun (cmd, _) -> "\t" ^ cmd) allcommands in
sprintf "%s\n" (String.concat "\n" ("usage:" :: l)) in
(* Unfortunately we can not reuse Arg.usage since it always output to stdout *)
let usage_sub c =
let spec = List.assoc c allcommands in
let l = List.map (fun (opt, _, doc) -> sprintf " %s %s" opt doc) spec in
sprintf "%s\n" (String.concat "\n" (c :: l)) in
match subcmd with
| None -> Arg.Help (usage_all ())
| Some c ->
try Arg.Help (usage_sub c)
with Not_found ->
Arg.Bad (sprintf "Unknown subcommand: %s\n%s" c (usage_all ()))
let do_cmd_parsing subcmd init_pos =
let domid = ref (-1)
and backend_domid = ref (0)
and hvm = ref false
and vcpus = ref 0
and vcpu = ref (-1)
and kernel = ref "/boot/vmlinuz-2.6-xenU"
and ramdisk = ref None
and cmdline = ref "root=/dev/sda1 ro"
and mem_max_kib = ref 262144
and mem_mib = ref 0
and pae = ref false
and acpi = ref false
and apic = ref false
and nx = ref false
and viridian = ref false
and verbose = ref false
and file = ref ""
and mode = ref ""
and phystype = ref ""
and params = ref ""
and device_number = ref None
and dev_type = ref "disk"
and devid = ref 0
and reason = ref None
and script = ref "/etc/xen/scripts/vif"
and sync = ref false
and netty = ref (Netman.Bridge "xenbr0")
and weight = ref None
and cap = ref None
and bitmap = ref ""
and cooperative = ref true
and boot = ref "cd"
and sysrq = ref '\000'
and mac = ref ""
and pci = ref ""
and ioport_start = ref (-1)
and ioport_end = ref (-1)
and iomem_start = ref (-1L)
and iomem_end = ref (-1L)
and irq = ref (-1)
and otherargs = ref []
and slot = ref (-1)
and timeout = ref (-1l) in
let set_int64 r s =
try r := Int64.of_string s
with _ -> eprintf "cannot parse %s at integer\n" s
in
let set_netty s =
match String.split ':' s with
| "DriverDomain" :: [] -> netty := Netman.DriverDomain
| "bridge" :: bname :: [] -> netty := Netman.Bridge bname
| _ -> eprintf "not a valid network type: %s\n" s
in
let common = [
"-domid", Arg.Set_int domid, "Domain ID to be built";
]
and setmaxmem_args = [
"-memory", Arg.Set_int mem_max_kib, "memory in kilobytes";
]
and common_build = [
"-vcpus", Arg.Set_int vcpus, "vcpus available";
"-memory", Arg.Set_int mem_max_kib, "memory in kilobytes";
]
and hvm_build = [
"-kernel", Arg.Set_string kernel, "kernel to build with";
]
and normal_build = [
"-kernel", Arg.Set_string kernel, "kernel to build with";
"-cmdline", Arg.Set_string cmdline, "Set kernel command line";
"-ramdisk", Arg.String (fun x -> ramdisk := Some x), "Set ramdisk to use (leave blank for none)";
]
and create = [
"-hvm", Arg.Set hvm, "specify to create hvm domain";
]
and common_suspend = [
"-file", Arg.Set_string file, "Suspend/Restore file";
]
and resume_args = [
"-uncooperative", Arg.Clear cooperative, "Set that the VM is cooperative in resume";
]
and vbd_args = [
"-mode", Arg.Set_string mode, "Vbd Mode";
"-phystype", Arg.Set_string phystype, "Vbd set physical type (file|phy)";
"-params", Arg.Set_string params, "Vbd set params (i.e. block device)";
"-virtual-device", Arg.String (fun x -> device_number := Some (Device_number.of_string false x)), "Expose as this virtual device in the guest (default autodetect)";
"-devtype", Arg.Set_string dev_type, "Vbd dev type";
]
and vif_args = [
"-devid", Arg.Set_int devid, "Vif dev id";
"-mac", Arg.Set_string mac, "Vif mac address (mandatory)";
"-netty", Arg.String set_netty, "type of network";
]
and dm_args = [
"-boot", Arg.Set_string boot, "Set boot string of device model";
]
and balloon_args = [
"-memory", Arg.Set_int mem_mib, "memory in megabytes";
]
and list_args = [
"-v", Arg.Set verbose, "activate verbose";
]
and sched_args = [
"-weight", Arg.Int (fun i -> weight := Some i), "Set scheduler weight";
"-cap", Arg.Int (fun i -> cap := Some i), "Set scheduler cap";
]
and affinity_args = [
"-vcpu", Arg.Set_int vcpu, "vcpu number";
]
and affinity_set_args = [
"-bitmap", Arg.Set_string bitmap, "affinity bitmap";
]
and shutdown_args = [
"-poweroff", Arg.Unit (fun () -> reason := Some Domain.PowerOff), "Poweroff guest";
"-reboot", Arg.Unit (fun () -> reason := Some Domain.Reboot), "Reboot guest";
"-suspend", Arg.Unit (fun () -> reason := Some Domain.Suspend), "Suspend guest";
"-halt", Arg.Unit (fun () -> reason := Some Domain.Halt), "Halt guest";
"-sync", Arg.Set sync, "Wait operation to complete";
]
and sysrq_args = [
"-key", Arg.String (fun s -> if String.length s = 1 then sysrq := s.[0]), "sysrq key";
]
and pci_args = [
"-pci", Arg.Set_string pci, "Pci address (format: 0000:00:00.0)";
"-devid", Arg.Set_int devid, "Pci dev id";
]
and ioport_args = [
"-start", Arg.Set_int ioport_start, "Start port";
"-end", Arg.Set_int ioport_end, "End port";
]
and iomem_args = [
"-start", Arg.String (set_int64 iomem_start), "Start address";
"-end", Arg.String (set_int64 iomem_end), "End address";
]
and irq_args = [
"-irq", Arg.Set_int irq, "irq";
]
and watchdog_args = [
"-slot", Arg.Set_int slot, "slot";
"-timeout", Arg.String (fun x -> timeout := Int32.of_string x), "timeout";
]
and backend_args = [
"-backend-domid", Arg.Set_int backend_domid, "Domain ID of backend domain (default: 0)";
] in
let allcommands = [
("create_domain" , create);
("destroy_domain" , common);
("build_domain" , common @ common_build @ normal_build);
("build_hvm" , common @ common_build @ hvm_build);
("setmaxmem" , common @ setmaxmem_args);
("save_domain" , common @ common_suspend);
("restore_domain" , common @ common_suspend @ common_build);
("chkpoint_domain", common @ common_suspend @ resume_args);
("shutdown_domain", common @ shutdown_args);
("hard_shutdown_domain", common @ shutdown_args);
("sysrq_domain" , common @ sysrq_args);
("pause_domain" , common);
("unpause_domain" , common);
("sched_domain" , common @ sched_args);
("sched_get" , common);
("affinity_set" , common @ affinity_args @ affinity_set_args);
("affinity_get" , common @ affinity_args);
("list_domains" , list_args);
("list_devices" , []);
("add_vbd" , common @ vbd_args @ backend_args);
("del_vbd" , common @ vbd_args @ backend_args);
("add_vif" , common @ vif_args @ backend_args);
("del_vif" , common @ vif_args @ backend_args);
("add_pci" , common @ pci_args);
("del_pci" , common @ pci_args);
("bind_pci" , pci_args);
("plug_pci" , common @ pci_args);
("unplug_pci" , common @ pci_args);
("list_pci" , common);
("add_dm" , common @ common_build @ dm_args);
("add_ioport" , common @ ioport_args);
("del_ioport" , common @ ioport_args);
("add_iomem" , common @ iomem_args);
("del_iomem" , common @ iomem_args);
("add_irq" , common @ irq_args);
("del_irq" , common @ irq_args);
("balloon" , common @ balloon_args);
("dom-uuid" , common);
("squeeze" , balloon_args);
("balance" , []);
("watchdog" , watchdog_args);
("send-s3resume" , common);
("trigger-power" , common);
("trigger-sleep" , common);
("dmesg" , []);
("debugkeys" , []);
("physinfo" , []);
("pcpuinfo" , []);
("help" , []);
] in
let () =
let () =
match usage (Some subcmd) allcommands with
| Arg.Help _ -> () | e -> raise e in
let spec = List.assoc subcmd allcommands in
Arg.current := init_pos;
Arg.parse_argv Sys.argv spec
(fun x ->
if x.[0] = '-' then
eprintf "Warning, ignoring unknown argument: %s\n" x
else
otherargs := x :: !otherargs
) subcmd in
!domid, !backend_domid, !hvm, !vcpus, !vcpu, !kernel,
!ramdisk, !cmdline, Int64.of_int !mem_max_kib, Int64.of_int !mem_mib,
!pae, !apic, !acpi, !nx, !viridian, !verbose, !file,
!mode, !phystype, !params, !device_number, !dev_type, !devid, !mac, !pci,
!reason, !sysrq, !script, !sync, !netty, !weight, !cap, !bitmap, !cooperative,
!boot, !ioport_start, !ioport_end, !iomem_start, !iomem_end, !irq,
!slot, !timeout, List.rev !otherargs, allcommands
let _ = try
let subcmd, init_pos =
let cmd = Filename.basename Sys.argv.(0) in
if cmd <> "xenops" then cmd, 0
else if Array.length Sys.argv > 1 then Sys.argv.(1), 1
else "help", 0 in
let subcmd = cmd_alias subcmd in
let domid, backend_domid, hvm, vcpus, vcpu, kernel, ramdisk, cmdline,
max_kib, mem_mib, pae, apic, acpi, nx, viridian, verbose, file, mode,
phystype, params, device_number, dev_type, devid, mac, pci, reason, sysrq,
script, sync, netty, weight, cap, bitmap, cooperative,
boot, ioport_start, ioport_end, iomem_start, iomem_end, irq,
slot, timeout, otherargs, allcommands = do_cmd_parsing subcmd init_pos in
let is_domain_hvm xc domid = (Xenctrl.domain_getinfo xc domid).Xenctrl.Domain_info.hvm_guest in
(* Aliases *)
let target_kib = max_kib in
let static_max_kib = max_kib in
let error s = eprintf "error: \"%s\" argument is not valid\n" s; exit 1 in
let assert_domid () = if domid < 0 then error "domid"
and assert_vcpus () = if vcpus <= 0 then error "vcpus"
and assert_vcpu () = if vcpu < 0 then error "vcpu"
and assert_file () = if file = "" then error "file"
and assert_bitmap () = if bitmap = "" then error "bitmap"
in
match subcmd with
| "create_domain" ->
with_xc_and_xs (fun xc xs -> create_domain ~xc ~xs ~hvm)
| "destroy_domain" ->
assert_domid ();
with_xc_and_xs (fun xc xs -> destroy_domain ~xc ~xs ~domid)
| "build_domain" ->
assert_domid (); assert_vcpus ();
with_xc_and_xs (fun xc xs ->
build_domain ~xc ~xs ~kernel ~ramdisk ~cmdline ~vcpus ~static_max_kib ~target_kib ~domid)
| "build_hvm" ->
assert_domid (); assert_vcpus ();
with_xc_and_xs (fun xc xs -> build_hvm ~xc ~xs ~kernel ~vcpus ~static_max_kib ~target_kib ~domid)
| "setmaxmem" ->
assert_domid ();
with_xc (fun xc -> Xenctrl.domain_setmaxmem xc domid max_kib) (* call takes pages *)
| "save_domain" ->
assert_domid (); assert_file ();
with_xc_and_xs (fun xc xs -> suspend_domain_and_destroy ~xc ~xs ~domid ~file)
| "restore_domain" ->
assert_domid (); assert_vcpus ();
with_xc_and_xs (fun xc xs -> restore_domain ~xc ~xs ~domid ~vcpus ~static_max_kib ~target_kib ~file)
| "chkpoint_domain" ->
assert_domid (); assert_file ();
with_xc_and_xs (fun xc xs -> suspend_domain_and_resume ~xc ~xs ~domid ~file ~cooperative)
| "shutdown_domain" -> (
assert_domid ();
match reason with
| None -> error "no shutdown reason specified"
| Some reason ->
failwith "use 'xn' instead"
)
| "hard_shutdown_domain" -> (
assert_domid ();
match reason with
| None -> error "no shutdown reason specified"
| Some reason ->
with_xc (fun xc -> hard_shutdown_domain ~xc ~domid ~reason)
)
| "sysrq_domain" ->
assert_domid ();
with_xs (fun xs -> sysrq_domain ~xs ~domid ~sysrq)
| "pause_domain" ->
assert_domid ();
with_xc (fun xc -> pause_domain ~xc ~domid)
| "unpause_domain" ->
assert_domid ();
with_xc (fun xc -> unpause_domain ~xc ~domid)
| "list_domains" ->
with_xc (fun xc -> list_domains ~xc ~verbose)
| "list_devices" ->
with_xc_and_xs (fun xc xs -> list_devices ~xc ~xs)
| "sched_domain" ->
assert_domid ();
with_xc (fun xc -> sched_domain ~xc ~domid ~weight ~cap)
| "sched_get" ->
assert_domid ();
let w, c = with_xc (fun xc -> sched_domain_get ~xc ~domid) in
printf "%d %d\n" w c
| "affinity_set" ->
assert_domid ();
assert_vcpu ();
assert_bitmap ();
with_xc (fun xc -> affinity_set ~xc ~domid ~vcpu ~bitmap);
| "affinity_get" ->
assert_domid ();
assert_vcpu ();
with_xc (fun xc -> affinity_get ~xc ~domid ~vcpu);
| "add_vbd" ->
assert_domid ();
with_xc_and_xs (fun xc xs ->
let hvm = is_domain_hvm xc domid in
let vbd = {
Device.Vbd.mode = Device.Vbd.mode_of_string mode;
device_number = device_number;
phystype = Device.Vbd.physty_of_string phystype;
params = params;
dev_type = Device.Vbd.devty_of_string dev_type;
unpluggable = true;
protocol = None;
extra_backend_keys = [];
extra_private_keys = [];
backend_domid = backend_domid
} in
let (_: device) = Device.Vbd.add task ~xs ~hvm vbd domid in
()
)
| "del_vbd" ->
assert_domid ();
let device_number = Opt.unbox device_number in
with_xs (fun xs -> del_vbd ~xs ~domid ~backend_domid ~device_number ~phystype)
| "add_vif" ->
assert_domid ();
with_xs (fun xs -> add_vif ~xs ~domid ~netty ~devid ~mac ~backend_domid)
| "del_vif" ->
assert_domid ();
with_xs (fun xs -> del_vif ~xs ~domid ~backend_domid ~devid)
| "add_pci" ->
assert_domid ();
with_xc_and_xs (fun xc xs -> add_pci ~xc ~xs ~hvm:(is_domain_hvm xc domid) ~domid ~devid ~pci)
| "del_pci" ->
assert_domid ();
with_xc_and_xs (fun xc xs -> del_pci ~xc ~xs ~hvm:(is_domain_hvm xc domid) ~domid ~devid ~pci)
| "plug_pci" ->
assert_domid ();
with_xc_and_xs (fun xc xs -> plug_pci ~xc ~xs ~domid ~devid ~pci)
| "unplug_pci" ->
assert_domid ();
with_xc_and_xs (fun xc xs -> unplug_pci ~xc ~xs ~domid ~devid ~pci)
| "bind_pci" ->
bind_pci ~pci
| "list_pci" ->
assert_domid ();
with_xc_and_xs (fun xc xs -> list_pci ~xc ~xs ~domid)
| "add_ioport" ->
assert_domid ();
with_xc (fun xc -> add_ioport ~xc ~domid ~ioport_start ~ioport_end)
| "del_ioport" ->
assert_domid ();
with_xc (fun xc -> del_ioport ~xc ~domid ~ioport_start ~ioport_end)
| "add_iomem" ->
assert_domid ();
with_xc (fun xc -> add_iomem ~xc ~domid ~iomem_start ~iomem_end)
| "del_iomem" ->
assert_domid ();
with_xc (fun xc -> del_iomem ~xc ~domid ~iomem_start ~iomem_end)
| "add_irq" ->
assert_domid ();
with_xc (fun xc -> add_irq ~xc ~domid ~irq)
| "del_irq" ->
assert_domid ();
with_xc (fun xc -> del_irq ~xc ~domid ~irq)
| "add_dm" ->
assert_domid ();
with_xs (fun xs ->
add_dm ~xs ~domid ~static_max_kib ~vcpus ~boot
)
| "balloon" ->
assert_domid ();
with_xs (fun xs -> balloon_domain ~xs ~domid ~mem_mib)
| "squeeze" ->
let mem_kib = Int64.mul mem_mib 1024L in
with_xc (fun xc -> with_xs (fun xs -> Squeeze_xen.free_memory ~xc ~xs mem_kib))
| "balance" ->
with_xc (fun xc -> with_xs (fun xs -> Squeeze_xen.balance_memory ~xc ~xs))
| "dom-uuid" ->
assert_domid ();
with_xc (fun xc -> domain_get_uuid ~xc ~domid);
| "watchdog" ->
if slot < 0 then error "slot";
if timeout = -1l then error "timeout";
Printf.printf "%d\n" (with_xc (fun xc -> Xenctrl.watchdog xc slot timeout))
| "send-s3resume" ->
assert_domid ();
with_xc (fun xc -> Domain.send_s3resume ~xc domid);
| "trigger-power" ->
assert_domid ();
with_xc (fun xc -> Domain.trigger_power ~xc domid);
| "trigger-sleep" ->
assert_domid ();
with_xc (fun xc -> Domain.trigger_sleep ~xc domid);
| "dmesg" ->
with_xc (fun xc -> print_xen_dmesg ~xc);
| "debugkeys" ->
with_xc (fun xc -> debugkeys ~xc otherargs);
| "physinfo" ->
with_xc (fun xc -> print_xen_physinfo ~xc);
| "pcpuinfo" ->
with_xc (fun xc -> print_pcpus_info ~xc);
| "capabilities" ->
with_xc (fun xc -> print_endline (Xenctrl.version_capabilities xc))
| "help" ->
raise (usage (try Some (List.hd otherargs) with _ -> None) allcommands)
| s ->
raise (usage (Some s) allcommands)
with
| Arg.Help msg -> printf "%s\n" msg; exit 0
| Arg.Bad msg -> eprintf "%s\n" msg; exit 1