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create_ovf.ml
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(* virt-v2v
* Copyright (C) 2009-2020 Red Hat Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*)
(* Create OVF and related files for RHV. *)
open Unix
open Printf
open Std_utils
open Tools_utils
open Common_gettext.Gettext
open Types
open Utils
open DOM
type ovf_flavour =
| OVirt
| RHVExportStorageDomain
let ovf_flavours = ["ovirt"; "rhvexp"]
let ovf_flavour_of_string = function
| "ovirt" -> OVirt
| "rhvexp" -> RHVExportStorageDomain
| flav -> invalid_arg flav
let ovf_flavour_to_string = function
| OVirt -> "ovirt"
| RHVExportStorageDomain -> "rhvexp"
(* We set the creation time to be the same for all dates in
* all metadata files. All dates in OVF are UTC.
*)
let time = time ()
let iso_time =
let tm = gmtime time in
sprintf "%04d/%02d/%02d %02d:%02d:%02d"
(tm.tm_year + 1900) (tm.tm_mon + 1) tm.tm_mday
tm.tm_hour tm.tm_min tm.tm_sec
(* Guess vmtype based on the guest inspection data. *)
let get_vmtype = function
(* Special cases for RHEL 3 & RHEL 4. *)
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = (3|4);
i_product_name = product }
when String.find product "ES" >= 0 ->
`Server
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = (3|4);
i_product_name = product }
when String.find product "AS" >= 0 ->
`Server
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = (3|4) } ->
`Desktop
(* For Windows (and maybe Linux in future, but it is not set now),
* use the i_product_variant field.
*)
| { i_product_variant = ("Server"|"Server Core"|"Embedded") } -> `Server
| { i_product_variant = "Client" } -> `Desktop
(* If the product name has "Server" or "Desktop" in it, use that. *)
| { i_product_name = product } when String.find product "Server" >= 0 ->
`Server
| { i_product_name = product } when String.find product "Desktop" >= 0 ->
`Desktop
(* Otherwise return server, a safe choice. *)
| _ -> `Server
(* Determine the ovf:OperatingSystemSection_Type from libguestfs
* inspection. See ovirt-engine sources, file:
* packaging/conf/osinfo-defaults.properties
* and also:
* https://bugzilla.redhat.com/show_bug.cgi?id=1219857#c9
*)
and get_ostype = function
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = v;
i_arch = "i386" } when v <= 6 ->
sprintf "RHEL%d" v
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = v;
i_arch = "x86_64" } when v <= 6 ->
sprintf "RHEL%dx64" v
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = v;
i_arch = "x86_64" } (* when v >= 7 *) ->
sprintf "rhel_%dx64" v
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 6;
i_minor_version = min; i_arch = ("ppc64"|"ppc64le") } when min >= 9 ->
"rhel_6_9_plus_ppc64"
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 6;
i_arch = ("ppc64"|"ppc64le") } ->
"rhel_6_ppc64"
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 7;
i_arch = "ppc64" | "ppc64le" } ->
"rhel_7_ppc64"
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 7;
i_arch = "s390x" } ->
"rhel_7_s390x"
| { i_type = "linux"; i_distro = "sles"; i_major_version = maj;
i_arch = "x86_64" } when maj >= 11 ->
"sles_11"
| { i_type = "linux"; i_distro = "sles"; i_major_version = maj;
i_arch = ("ppc64"|"ppc64le") } when maj >= 11 ->
"sles_11_ppc64"
| { i_type = "linux"; i_distro = "sles"; i_major_version = maj;
i_arch = "s390x" } when maj >= 12 ->
"sles_12_s390x"
(* Only Debian 7 is available, so use it for any 7+ version. *)
| { i_type = "linux"; i_distro = "debian"; i_major_version = v }
when v >= 7 ->
"debian_7"
(* Only Ubuntu 12.04 to 14.04 are available, so use them starting
* from 12.04, and 14.04 for anything after it.
*)
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = v;
i_arch = "ppc64" | "ppc64le" } when v >= 14 ->
"ubuntu_14_04_ppc64"
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = maj;
i_arch = "s390x" } when maj >= 16 ->
"ubuntu_16_04_s390x"
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = v }
when v >= 14 ->
"ubuntu_14_04"
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = maj;
i_minor_version = min } when maj >= 12 ->
sprintf "ubuntu_%d_%02d" maj min
| { i_type = "linux"; i_arch = ("ppc64"|"ppc64le") } ->
"other_linux_ppc64"
| { i_type = "linux"; i_arch = "s390x" } ->
"other_linux_s390x"
| { i_type = "linux" } -> "OtherLinux"
| { i_type = "windows"; i_major_version = 5; i_minor_version = 1 } ->
"WindowsXP" (* no architecture differentiation of XP on RHV *)
| { i_type = "windows"; i_major_version = 5; i_minor_version = 2;
i_product_name = product } when String.find product "XP" >= 0 ->
"WindowsXP" (* no architecture differentiation of XP on RHV *)
| { i_type = "windows"; i_major_version = 5; i_minor_version = 2;
i_arch = "i386" } ->
"Windows2003"
| { i_type = "windows"; i_major_version = 5; i_minor_version = 2;
i_arch = "x86_64" } ->
"Windows2003x64"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 0;
i_arch = "i386" } ->
"Windows2008"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 0;
i_arch = "x86_64" } ->
"Windows2008x64"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 1;
i_arch = "i386" } ->
"Windows7"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 1;
i_arch = "x86_64"; i_product_variant = "Client" } ->
"Windows7x64"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 1;
i_arch = "x86_64" } ->
"Windows2008R2x64"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 2;
i_arch = "i386" } ->
"windows_8"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 2;
i_arch = "x86_64"; i_product_variant = "Client" } ->
"windows_8x64"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 2;
i_arch = "x86_64" } ->
"windows_2012x64"
(* Treat Windows 8.1 client like Windows 8. See:
* https://bugzilla.redhat.com/show_bug.cgi?id=1309580#c4
*)
| { i_type = "windows"; i_major_version = 6; i_minor_version = 3;
i_arch = "i386"; i_product_variant = "Client" } ->
"windows_8"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 3;
i_arch = "x86_64"; i_product_variant = "Client" } ->
"windows_8x64"
| { i_type = "windows"; i_major_version = 6; i_minor_version = 3;
i_arch = "x86_64" } ->
"windows_2012R2x64"
| { i_type = "windows"; i_major_version = 10; i_minor_version = 0;
i_arch = "i386" } ->
"windows_10"
| { i_type = "windows"; i_major_version = 10; i_minor_version = 0;
i_arch = "x86_64"; i_product_variant = "Client" } ->
"windows_10x64"
| { i_type = "windows"; i_major_version = 10; i_minor_version = 0;
i_arch = "x86_64" } ->
"windows_2016x64"
| { i_type = typ; i_distro = distro;
i_major_version = major; i_minor_version = minor; i_arch = arch;
i_product_name = product } ->
warning (f_"unknown guest operating system: %s %s %d.%d %s (%s)")
typ distro major minor arch product;
"Unassigned"
(* Determine the ovirt:id attribute from libguestfs inspection.
* See ovirt-engine sources, file:
* packaging/conf/osinfo-defaults.properties
* and also:
* https://bugzilla.redhat.com/show_bug.cgi?id=1219857#c9
*)
and get_ovirt_osid = function
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 3;
i_arch = "i386" } ->
9
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 3;
i_arch = "x86_64" } ->
15
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 4;
i_arch = "i386" } ->
8
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 4;
i_arch = "x86_64" } ->
14
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 5;
i_arch = "i386" } ->
7
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 5;
i_arch = "x86_64" } ->
13
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 6;
i_arch = "i386" } ->
18
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 6;
i_arch = "x86_64" } ->
19
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 6;
i_minor_version = min; i_arch = ("ppc64"|"ppc64le") } when min >= 9 ->
1007
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 6;
i_arch = ("ppc64"|"ppc64le") } ->
1003
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 7;
i_arch = "x86_64" } ->
24
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 7;
i_arch = ("ppc64"|"ppc64le") } ->
1006
| { i_type = "linux"; i_distro = ("rhel"|"centos"); i_major_version = 7;
i_arch = "s390x" } ->
2003
| { i_type = "linux"; i_distro = "sles"; i_major_version = maj;
i_arch = "x86_64" } when maj >= 11 ->
1193
| { i_type = "linux"; i_distro = "sles"; i_major_version = maj;
i_arch = ("ppc64"|"ppc64le") } when maj >= 11 ->
1004
| { i_type = "linux"; i_distro = "sles"; i_major_version = maj;
i_arch = "s390x" } when maj >= 12 ->
2004
(* Only Debian 7 is available, so use it for any 7+ version. *)
| { i_type = "linux"; i_distro = "debian"; i_major_version = v }
when v >= 7 ->
1300
(* Only Ubuntu 12.04 to 14.04 are available, so use them starting
* from 12.04, and 14.04 for anything after it.
*)
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = v;
i_arch = ("ppc64"|"ppc64le") } when v >= 14 ->
1005
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = v;
i_arch = "s390x" } when v >= 16 ->
2005
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = v }
when v >= 14 ->
1256
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = 12;
i_minor_version = 4 } ->
1252
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = 12;
i_minor_version = 10 } ->
1253
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = 13;
i_minor_version = 4 } ->
1254
| { i_type = "linux"; i_distro = "ubuntu"; i_major_version = 13;
i_minor_version = 10 } ->
1255
| { i_type = "linux"; i_arch = ("ppc64"|"ppc64le") } ->
1002
| { i_type = "linux"; i_arch = "s390x" } ->
2002
| { i_type = "linux" } ->
5
| { i_type = "windows"; i_major_version = 5; i_minor_version = 1 } ->
1 (* no architecture differentiation of XP on RHV *)
| { i_type = "windows"; i_major_version = 5; i_minor_version = 2;
i_product_name = product } when String.find product "XP" >= 0 ->
1 (* no architecture differentiation of XP on RHV *)
| { i_type = "windows"; i_major_version = 5; i_minor_version = 2;
i_arch = "i386" } ->
3
| { i_type = "windows"; i_major_version = 5; i_minor_version = 2;
i_arch = "x86_64" } ->
10
| { i_type = "windows"; i_major_version = 6; i_minor_version = 0;
i_arch = "i386" } ->
4
| { i_type = "windows"; i_major_version = 6; i_minor_version = 0;
i_arch = "x86_64" } ->
16
| { i_type = "windows"; i_major_version = 6; i_minor_version = 1;
i_arch = "i386" } ->
11
| { i_type = "windows"; i_major_version = 6; i_minor_version = 1;
i_arch = "x86_64"; i_product_variant = "Client" } ->
12
| { i_type = "windows"; i_major_version = 6; i_minor_version = 1;
i_arch = "x86_64" } ->
17
| { i_type = "windows"; i_major_version = 6; i_minor_version = 2;
i_arch = "i386" } ->
20
| { i_type = "windows"; i_major_version = 6; i_minor_version = 2;
i_arch = "x86_64"; i_product_variant = "Client" } ->
21
| { i_type = "windows"; i_major_version = 6; i_minor_version = 2;
i_arch = "x86_64" } ->
23
(* Treat Windows 8.1 client like Windows 8. See:
* https://bugzilla.redhat.com/show_bug.cgi?id=1309580#c4
*)
| { i_type = "windows"; i_major_version = 6; i_minor_version = 3;
i_arch = "i386"; i_product_variant = "Client" } ->
20
| { i_type = "windows"; i_major_version = 6; i_minor_version = 3;
i_arch = "x86_64"; i_product_variant = "Client" } ->
21
| { i_type = "windows"; i_major_version = 6; i_minor_version = 3;
i_arch = "x86_64" } ->
25
| { i_type = "windows"; i_major_version = 10; i_minor_version = 0;
i_arch = "i386" } ->
26
| { i_type = "windows"; i_major_version = 10; i_minor_version = 0;
i_arch = "x86_64"; i_product_variant = "Client" } ->
27
| { i_type = "windows"; i_major_version = 10; i_minor_version = 0;
i_arch = "x86_64" } ->
29
| { i_type = typ; i_distro = distro;
i_major_version = major; i_minor_version = minor; i_arch = arch;
i_product_name = product } ->
warning (f_"unknown guest operating system: %s %s %d.%d %s (%s)")
typ distro major minor arch product;
0
(* Set the <Origin/> element based on the source hypervisor.
* https://bugzilla.redhat.com/show_bug.cgi?id=1342398#c6
* https://gerrit.ovirt.org/#/c/59147/
* ovirt-engine.git: backend/manager/modules/common/src/main/java/org/ovirt/engine/core/common/businessentities/OriginType.java
*)
let origin_of_source_hypervisor = function
| VMware -> Some 1
| Xen -> Some 2
| QEmu | KVM -> Some 7
| Physical -> Some 8
| HyperV -> Some 9
(* Anything else is mapped to None, which causes the <Origin/>
* element to be omitted from the OVF output, which causes oVirt
* to select 0 as the source (which happens to display as "RHEV"
* in the UI).
*)
| _ -> None
(* Set the <BiosType> element.
* The internal numbers are:
* https://github.com/oVirt/ovirt-engine/blob/master/backend/manager/modules/common/src/main/java/org/ovirt/engine/core/common/businessentities/BiosType.java#L10
* BUT the values in <BiosType> are adjusted by adding 1:
* https://www.redhat.com/archives/libguestfs/2020-December/msg00005.html
* So the actual mapping in the OVF is:
* 0 => i440fx + SeaBIOS
* 1 => Q35 + SeaBIOS
* 2 => Q35 + UEFI
* 3 => Q35 + UEFI + SecureBoot
* All non-x86 arches should use 0
*)
let get_ovirt_biostype arch machine firmware =
if arch <> "x86_64" then
Some 0
else
match machine, firmware with
| I440FX, TargetBIOS -> Some 0 (* i440fx + SeaBIOS *)
| Q35, TargetBIOS -> Some 1 (* q35 + SeaBIOS *)
| Q35, TargetUEFI -> Some 2 (* q35 + UEFI *)
| _ -> None (* who knows! try cluster default *)
(* Generate the .meta file associated with each volume. *)
let create_meta_files output_alloc output_format sd_uuid image_uuids sizes =
(* Note: Upper case in the .meta, mixed case in the OVF. *)
let output_alloc_for_rhv =
match output_alloc with
| Sparse -> "SPARSE"
| Preallocated -> "PREALLOCATED" in
let format_for_rhv =
match output_format with
| "raw" -> "RAW"
| "qcow2" -> "COW"
| _ ->
error (f_"RHV does not support the output format ‘%s’, only raw or qcow2") output_format in
List.mapi (
fun i (virtual_size, image_uuid) ->
let size_in_sectors =
if virtual_size &^ 511L <> 0L then
error (f_"the virtual size of the input disk %d is not an exact multiple of 512 bytes. The virtual size is: %Ld.\n\nThis probably means something unexpected is going on, so please file a bug about this issue.")
i virtual_size;
virtual_size /^ 512L in
let buf = Buffer.create 256 in
let bpf fs = bprintf buf fs in
bpf "DOMAIN=%s\n" sd_uuid; (* "Domain" as in Storage Domain *)
bpf "VOLTYPE=LEAF\n";
bpf "CTIME=%.0f\n" time;
bpf "MTIME=%.0f\n" time;
bpf "IMAGE=%s\n" image_uuid;
bpf "DISKTYPE=2\n";
bpf "PUUID=00000000-0000-0000-0000-000000000000\n";
bpf "LEGALITY=LEGAL\n";
bpf "POOL_UUID=\n";
bpf "SIZE=%Ld\n" size_in_sectors;
bpf "FORMAT=%s\n" format_for_rhv;
bpf "TYPE=%s\n" output_alloc_for_rhv;
bpf "DESCRIPTION=%s\n" (String.replace generated_by "=" "_");
bpf "EOF\n";
Buffer.contents buf
) (List.combine sizes image_uuids)
(* Create the OVF file. *)
let rec create_ovf source inspect
{ output_name; guestcaps; target_firmware; target_nics }
sizes
output_alloc output_format
sd_uuid image_uuids vol_uuids vm_uuid ovf_flavour =
assert (List.length sizes = List.length vol_uuids);
let memsize_mb = source.s_memory /^ 1024L /^ 1024L in
let vmtype = get_vmtype inspect in
let vmtype = match vmtype with `Desktop -> "0" | `Server -> "1" in
let ostype = get_ostype inspect in
let biostype =
get_ovirt_biostype guestcaps.gcaps_arch guestcaps.gcaps_machine
target_firmware in
let ovf : doc =
doc "ovf:Envelope" [
"xmlns:rasd", "http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_ResourceAllocationSettingData";
"xmlns:vssd", "http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/CIM_VirtualSystemSettingData";
"xmlns:xsi", "http://www.w3.org/2001/XMLSchema-instance";
"xmlns:ovf", "http://schemas.dmtf.org/ovf/envelope/1/";
"xmlns:ovirt", "http://www.ovirt.org/ovf";
"ovf:version", "0.9"
] [
Comment generated_by;
e "References" [] [];
(match ovf_flavour with
| OVirt ->
e "NetworkSection" [] [
e "Info" [] [PCData "List of networks"]
]
| RHVExportStorageDomain ->
e "Section" ["xsi:type", "ovf:NetworkSection_Type"] [
e "Info" [] [PCData "List of networks"]
]
);
(match ovf_flavour with
| OVirt ->
e "DiskSection" [] [
e "Info" [] [PCData "List of Virtual Disks"]
]
| RHVExportStorageDomain ->
e "Section" ["xsi:type", "ovf:DiskSection_Type"] [
e "Info" [] [PCData "List of Virtual Disks"]
]
);
let content_subnodes = ref [
e "Name" [] [PCData output_name];
e "TemplateId" [] [PCData "00000000-0000-0000-0000-000000000000"];
e "TemplateName" [] [PCData "Blank"];
e "Description" [] [PCData generated_by];
e "Domain" [] [];
e "CreationDate" [] [PCData iso_time];
e "IsInitilized" (* sic *) [] [PCData "True"];
e "IsAutoSuspend" [] [PCData "False"];
e "TimeZone" [] [];
e "IsStateless" [] [PCData "False"];
e "VmType" [] [PCData vmtype];
(* See https://bugzilla.redhat.com/show_bug.cgi?id=1260590#c17 *)
e "DefaultDisplayType" [] [PCData "1"];
] in
(match biostype with
| None ->
(* omitting <BiosType> means use the cluster default *)
()
| Some biostype ->
List.push_back content_subnodes
(e "BiosType" [] [PCData (string_of_int biostype)])
);
(match source.s_cpu_model with
| None -> ()
| Some model ->
List.push_back content_subnodes (e "CustomCpuName" [] [PCData model])
);
(* Add the <Origin/> element if we can. *)
(match origin_of_source_hypervisor source.s_hypervisor with
| None -> ()
| Some origin ->
List.push_back content_subnodes
(e "Origin" [] [PCData (string_of_int origin)])
);
List.push_back content_subnodes (
let osinfo_subnodes = [
e "Info" [] [PCData inspect.i_product_name];
e "Description" [] [PCData ostype];
] in
(match ovf_flavour with
| OVirt ->
let ovirt_osid = get_ovirt_osid inspect in
e "OperatingSystemSection" ["ovf:id", vm_uuid;
"ovf:required", "false";
"ovirt:id", string_of_int ovirt_osid]
osinfo_subnodes
| RHVExportStorageDomain ->
e "Section" ["ovf:id", vm_uuid; "ovf:required", "false";
"xsi:type", "ovf:OperatingSystemSection_Type"]
osinfo_subnodes
)
);
let virtual_hardware_section_items = ref [
e "Info" [] [PCData (sprintf "%d CPU, %Ld Memory"
source.s_vcpu memsize_mb)]
] in
List.push_back virtual_hardware_section_items (
e "Item" [] ([
e "rasd:Caption" [] [PCData (sprintf "%d virtual cpu" source.s_vcpu)];
e "rasd:Description" [] [PCData "Number of virtual CPU"];
e "rasd:InstanceId" [] [PCData "1"];
e "rasd:ResourceType" [] [PCData "3"]
] @
(match source.s_cpu_topology with
| None ->
[ e "rasd:num_of_sockets" [] [PCData "1"];
e "rasd:cpu_per_socket"[] [PCData (string_of_int source.s_vcpu)] ]
| Some { s_cpu_sockets = sockets; s_cpu_cores = cores;
s_cpu_threads = threads } ->
[ e "rasd:num_of_sockets" [] [PCData (string_of_int sockets)];
e "rasd:cpu_per_socket"[] [PCData (string_of_int cores)];
e "rasd:threads_per_cpu"[] [PCData (string_of_int threads)] ]
)
)
);
List.push_back_list virtual_hardware_section_items [
e "Item" [] [
e "rasd:Caption" [] [PCData (sprintf "%Ld MB of memory" memsize_mb)];
e "rasd:Description" [] [PCData "Memory Size"];
e "rasd:InstanceId" [] [PCData "2"];
e "rasd:ResourceType" [] [PCData "4"];
e "rasd:AllocationUnits" [] [PCData "MegaBytes"];
e "rasd:VirtualQuantity" [] [PCData (Int64.to_string memsize_mb)];
];
e "Item" [] [
e "rasd:Caption" [] [PCData "USB Controller"];
e "rasd:InstanceId" [] [PCData "3"];
e "rasd:ResourceType" [] [PCData "23"];
e "rasd:UsbPolicy" [] [PCData "Disabled"];
];
(* We always add a qxl device when outputting to RHV.
* See RHBZ#1213701 and RHBZ#1211231 for the reasoning
* behind that.
*)
let qxl_resourcetype =
match ovf_flavour with
| OVirt -> 32768 (* RHBZ#1598715 *)
| RHVExportStorageDomain -> 20 in
e "Item" [] [
e "rasd:Caption" [] [PCData "Graphical Controller"];
e "rasd:InstanceId" [] [PCData (uuidgen ())];
e "rasd:ResourceType" [] [PCData (string_of_int qxl_resourcetype)];
e "Type" [] [PCData "video"];
e "rasd:VirtualQuantity" [] [PCData "1"];
e "rasd:Device" [] [PCData "qxl"];
]
];
(* Add the miscellaneous KVM devices. *)
if guestcaps.gcaps_virtio_rng then
List.push_back virtual_hardware_section_items (
e "Item" [] [
e "rasd:Caption" [] [PCData "RNG Device"];
e "rasd:InstanceId" [] [PCData (uuidgen ())];
e "rasd:ResourceType" [] [PCData "0"];
e "Type" [] [PCData "rng"];
e "Device" [] [PCData "virtio"];
e "SpecParams" [] [
e "source" [] [PCData "urandom"]
]
]
);
if guestcaps.gcaps_virtio_balloon then
List.push_back virtual_hardware_section_items (
e "Item" [] [
e "rasd:Caption" [] [PCData "Memory Ballooning Device"];
e "rasd:InstanceId" [] [PCData (uuidgen ())];
e "rasd:ResourceType" [] [PCData "0"];
e "Type" [] [PCData "balloon"];
e "Device" [] [PCData "memballoon"];
e "SpecParams" [] [
e "model" [] [PCData "virtio"]
]
]
);
List.push_back content_subnodes (
match ovf_flavour with
| OVirt ->
e "VirtualHardwareSection" [] !virtual_hardware_section_items
| RHVExportStorageDomain ->
e "Section" ["xsi:type", "ovf:VirtualHardwareSection_Type"]
!virtual_hardware_section_items
);
(match ovf_flavour with
| OVirt ->
e "VirtualSystem" ["ovf:id", vm_uuid] !content_subnodes
| RHVExportStorageDomain ->
e "Content" ["ovf:id", "out"; "xsi:type", "ovf:VirtualSystem_Type"]
!content_subnodes
)
] in
(* Add disks to the OVF XML. *)
add_disks sizes guestcaps output_alloc output_format
sd_uuid image_uuids vol_uuids ovf_flavour ovf;
(* Old virt-v2v ignored removable media. XXX *)
(* Add networks to the OVF XML. *)
add_networks target_nics guestcaps ovf_flavour ovf;
(* Add sound card to the OVF XML. *)
add_sound_card source.s_sound ovf_flavour ovf;
(* Old virt-v2v didn't really look at the video and display
* metadata, instead just adding a single standard display (see
* above). However it did warn if there was a password on the
* display of the old guest.
*)
(match source with
| { s_display = Some { s_password = Some _ } } ->
warning (f_"This guest required a password for connection to its display, but this is not supported by RHV. Therefore the converted guest’s display will not require a separate password to connect.");
| _ -> ());
if verbose () then (
eprintf "OVF:\n";
doc_to_chan Stdlib.stderr ovf
);
(* Return the OVF document. *)
ovf
(* Find appropriate section depending on the OVF flavour being generated.
*
* For example normal disk section is in node <DiskSection> whereas in case of
* RHV export storage domain it is <Section xsi:type="ovf:DiskSection_Type">.
*)
and get_flavoured_section ovf ovirt_path rhv_path rhv_path_attr = function
| OVirt ->
let nodes = path_to_nodes ovf ovirt_path in
(match nodes with
| [node] -> node
| [] | _::_::_ -> assert false)
| RHVExportStorageDomain ->
let nodes = path_to_nodes ovf rhv_path in
try find_node_by_attr nodes rhv_path_attr
with Not_found -> assert false
(* This modifies the OVF DOM, adding a section for each disk. *)
and add_disks sizes guestcaps output_alloc output_format
sd_uuid image_uuids vol_uuids ovf_flavour ovf =
let references =
let nodes = path_to_nodes ovf ["ovf:Envelope"; "References"] in
match nodes with
| [] | _::_::_ -> assert false
| [node] -> node in
let disk_section =
get_flavoured_section ovf
["ovf:Envelope"; "DiskSection"]
["ovf:Envelope"; "Section"]
("xsi:type", "ovf:DiskSection_Type")
ovf_flavour in
let virtualhardware_section =
get_flavoured_section ovf
["ovf:Envelope"; "VirtualSystem";
"VirtualHardwareSection"]
["ovf:Envelope"; "Content"; "Section"]
("xsi:type", "ovf:VirtualHardwareSection_Type")
ovf_flavour in
(* Iterate over the disks, adding them to the OVF document. *)
List.iteri (
fun i (size, image_uuid, vol_uuid) ->
(* This sets the boot order to boot the first disk first. This
* isn't generally correct. We should copy over the boot order
* from the source hypervisor. See long discussion in
* https://bugzilla.redhat.com/show_bug.cgi?id=1308535 for
* what we should be doing. (XXX)
*)
let is_bootable_drive = i == 0 in
let boot_order = i+1 in
let fileref =
match ovf_flavour with
| OVirt ->
vol_uuid
| RHVExportStorageDomain ->
sprintf "%s/%s" image_uuid vol_uuid in
(* ovf:size and ovf:actual_size fields are integer GBs. If you
* use floating point numbers then RHV will fail to parse them.
* In case the size is just below a gigabyte boundary, round up.
*)
let bytes_to_gb b =
let b = roundup64 b 1073741824L in
b /^ 1073741824L
in
let size_gb = bytes_to_gb size in
(* virt-v2v 1.4x used to try to collect the actual size of the
* sparse disk. It would be possible to get this information
* accurately now by reading the extent map of the output disk
* (this function is called during finalization), but we don't
* yet do that. XXX
*)
let actual_size_gb = None in
let format_for_rhv =
match output_format with
| "raw" -> "RAW"
| "qcow2" -> "COW"
| _ ->
error (f_"RHV does not support the output format ‘%s’, only raw or qcow2") output_format in
(* Note: Upper case in the .meta, mixed case in the OVF. *)
let output_alloc_for_rhv =
match output_alloc with
| Sparse -> "Sparse"
| Preallocated -> "Preallocated" in
(* Add disk to <References/> node. *)
let disk =
let attrs = ref [
"ovf:href", fileref;
"ovf:id", vol_uuid;
"ovf:description", generated_by;
] in
(* See note above about actual_size_gb
(match t.target_overlay.ov_stats.target_actual_size with
| None -> ()
| Some actual_size ->
List.push_back attrs ("ovf:size", Int64.to_string actual_size)
);
*)
e "File" !attrs [] in
append_child disk references;
(* Add disk to DiskSection. *)
let disk =
let attrs = ref [
"ovf:diskId",
(match ovf_flavour with
| OVirt -> image_uuid
| RHVExportStorageDomain -> vol_uuid);
"ovf:size", Int64.to_string size_gb;
"ovf:capacity", Int64.to_string size;
"ovf:fileRef", fileref;
"ovf:parentRef", "";
"ovf:vm_snapshot_id", uuidgen ();
"ovf:volume-format", format_for_rhv;
"ovf:volume-type", output_alloc_for_rhv;
"ovf:format", "http://en.wikipedia.org/wiki/Byte"; (* wtf? *)
"ovf:disk-interface",
(match guestcaps.gcaps_block_bus with
| Virtio_blk -> "VirtIO"
| IDE -> "IDE");
"ovf:disk-type", "System"; (* RHBZ#744538 *)
"ovf:boot", if is_bootable_drive then "True" else "False";
] in
(match actual_size_gb with
| None -> ()
| Some actual_size_gb ->
List.push_back attrs ("ovf:actual_size", Int64.to_string actual_size_gb)
);
e "Disk" !attrs [] in
append_child disk disk_section;
(* Add disk to VirtualHardware. *)
let item =
(* This text MUST begin with the string "Drive " or the file
* will not parse.
*)
let caption = sprintf "Drive %d" (i+1) in
let item_subnodes = ref [
e "rasd:Caption" [] [PCData caption];
e "rasd:InstanceId" [] [PCData vol_uuid];
e "rasd:ResourceType" [] [PCData "17"];
e "Type" [] [PCData "disk"];
e "rasd:HostResource" [] [PCData fileref];
e "rasd:Parent" [] [PCData "00000000-0000-0000-0000-000000000000"];
e "rasd:Template" [] [PCData "00000000-0000-0000-0000-000000000000"];
e "rasd:ApplicationList" [] [];
e "rasd:StorageId" [] [PCData sd_uuid];
e "rasd:StoragePoolId" [] [PCData "00000000-0000-0000-0000-000000000000"];
e "rasd:CreationDate" [] [PCData iso_time];
e "rasd:LastModified" [] [PCData iso_time];
e "rasd:last_modified_date" [] [PCData iso_time];
] in
if is_bootable_drive then
List.push_back item_subnodes
(e "BootOrder" [] [PCData (string_of_int boot_order)]);
e "Item" [] !item_subnodes in
append_child item virtualhardware_section;
) (List.combine3 sizes image_uuids vol_uuids)
(* This modifies the OVF DOM, adding a section for each NIC. *)
and add_networks nics guestcaps ovf_flavour ovf =
let network_section =
get_flavoured_section ovf
["ovf:Envelope"; "NetworkSection"]
["ovf:Envelope"; "Section"]
("xsi:type", "ovf:NetworkSection_Type")
ovf_flavour in
let virtualhardware_section =
get_flavoured_section ovf
["ovf:Envelope"; "VirtualSystem";
"VirtualHardwareSection"]
["ovf:Envelope"; "Content"; "Section"]
("xsi:type", "ovf:VirtualHardwareSection_Type")
ovf_flavour in
(* Iterate over the NICs, adding them to the OVF document. *)
List.iteri (
fun i { s_mac = mac; s_vnet_type = vnet_type; s_vnet = vnet } ->
let dev = sprintf "eth%d" i in
let model =
match guestcaps.gcaps_net_bus with
| RTL8139 -> "1"
| E1000 -> "2"
| Virtio_net -> "3"
(*| bus ->
warning (f_"unknown NIC model %s for ethernet device %s. This NIC will be imported as rtl8139 instead.")
bus dev;
"1" *) in
let network = e "Network" ["ovf:name", vnet] [] in
append_child network network_section;
let item =
let item_subnodes = ref [
e "rasd:InstanceId" [] [PCData (uuidgen ())];
e "rasd:Caption" [] [PCData (sprintf "Ethernet adapter on %s" vnet)];
e "rasd:ResourceType" [] [PCData "10"];
e "rasd:ResourceSubType" [] [PCData model];
e "Type" [] [PCData "interface"];
e "rasd:Connection" [] [PCData vnet];
e "rasd:Name" [] [PCData dev];
] in
(match mac with
| None -> ()
| Some mac ->
List.push_back item_subnodes
(e "rasd:MACAddress" [] [PCData mac])
);
e "Item" [] !item_subnodes in
append_child item virtualhardware_section;
) nics
(* This modifies the OVF DOM, adding a sound card, if oVirt can emulate it. *)
and add_sound_card sound ovf_flavour ovf =
let device =
match sound with
| None -> None
| Some { s_sound_model = AC97 } -> Some "ac97"
| Some { s_sound_model = ICH6 } -> Some "ich6"
| Some { s_sound_model = model } ->
warning (f_"oVirt cannot emulate ‘%s’ sound cards. This sound card will be dropped from the output.")
(string_of_source_sound_model model);
None in