-include Diskimage_utils
-
-let partition_types = [
- "MBR", Diskimage_mbr.probe_mbr;
-]
-
-let filesystem_types = [
- "ext2", Diskimage_ext2.probe_ext2;
- "linux_swap", Diskimage_linux_swap.probe_swap;
-]
-
-let lvm_types = [
- "LVM", (Diskimage_lvm2.probe_pv, Diskimage_lvm2.list_lvs);
-]
-
-(* Probe a device for partitions. Returns [Some parts] or [None]. *)
-let probe_for_partitions dev =
- if !debug then eprintf "probing for partitions on %s ...\n%!" dev#name;
- let rec loop = function
- | [] -> None
- | (parts_name, probe_fn) :: rest ->
- try Some (probe_fn dev)
- with Not_found -> loop rest
- in
- let r = loop partition_types in
- if !debug then (
- match r with
- | None -> eprintf "no partitions found on %s\n%!" dev#name
- | Some { parts_name = name; parts = parts } ->
- eprintf "found %d %s partitions on %s:\n"
- (List.length parts) name dev#name;
- List.iter (fun p -> eprintf "\t%s\n%!" (string_of_partition p)) parts
- );
- r
-
-(* Probe a device for a filesystem. Returns [Some fs] or [None]. *)
-let probe_for_filesystem dev =
- if !debug then eprintf "probing for a filesystem on %s ...\n%!" dev#name;
- let rec loop = function
- | [] -> None
- | (fs_name, probe_fn) :: rest ->
- try Some (probe_fn dev)
- with Not_found -> loop rest
- in
- let r = loop filesystem_types in
- if !debug then (
- match r with
- | None -> eprintf "no filesystem found on %s\n%!" dev#name
- | Some fs ->
- eprintf "found a filesystem on %s:\n" dev#name;
- eprintf "\t%s\n%!" (string_of_filesystem fs)
- );
- r
-
-(* Probe a device for a PV. Returns [Some lvm_name] or [None]. *)
-let probe_for_pv dev =
- if !debug then eprintf "probing if %s is a PV ...\n%!" dev#name;
- let rec loop = function
- | [] -> None
- | (lvm_name, (probe_fn, _)) :: rest ->
- try Some (probe_fn lvm_name dev)
- with Not_found -> loop rest
- in
- let r = loop lvm_types in
- if !debug then (
- match r with
- | None -> eprintf "no PV found on %s\n%!" dev#name
- | Some { lvm_plugin_id = name } ->
- eprintf "%s contains a %s PV\n%!" dev#name name
- );
- r
-
-let list_lvs lvm_name devs =
- let _, list_lvs_fn = List.assoc lvm_name lvm_types in
- list_lvs_fn devs
-
-(* Create machine description. *)
-let open_machine name disks =
- let disks = List.map (
- fun (name, path) ->
- let dev = new block_device path in
- { d_name = name; d_dev = dev; d_content = `Unknown }
- ) disks in
- { m_name = name; m_disks = disks; m_lv_filesystems = [] }
-
-let close_machine { m_disks = m_disks } =
- (* Only close the disks, assume all other devices are derived from them. *)
- List.iter (fun { d_dev = d_dev } -> d_dev#close ()) m_disks
-
-let scan_machine ({ m_disks = m_disks } as machine) =
- let m_disks = List.map (
- fun ({ d_dev = dev } as disk) ->
- (* See if it is partitioned first. *)
- let parts = probe_for_partitions dev in
- match parts with
- | Some parts ->
- { disk with d_content = `Partitions parts }
- | None ->
- (* Not partitioned. Does it contain a filesystem? *)
- let fs = probe_for_filesystem dev in
- match fs with
- | Some fs ->
- { disk with d_content = `Filesystem fs }
- | None ->
- (* Not partitioned, no filesystem, is it a PV? *)
- let pv = probe_for_pv dev in
- match pv with
- | Some lvm_name ->
- { disk with d_content = `PhysicalVolume lvm_name }
- | None ->
- disk (* Spare/unknown. *)
- ) m_disks in
-
- (* Now we have either detected partitions or a filesystem on each
- * physical device (or perhaps neither). See what is on those
- * partitions.
- *)
- let m_disks = List.map (
- function
- | ({ d_dev = dev; d_content = `Partitions parts } as disk) ->
- let ps = List.map (
- fun p ->
- if p.part_status = Bootable || p.part_status = Nonbootable then (
- let fs = probe_for_filesystem p.part_dev in
- match fs with
- | Some fs ->
- { p with part_content = `Filesystem fs }
- | None ->
- (* Is it a PV? *)
- let pv = probe_for_pv p.part_dev in
- match pv with
- | Some lvm_name ->
- { p with part_content = `PhysicalVolume lvm_name }
- | None ->
- p (* Spare/unknown. *)
- ) else p
- ) parts.parts in
- let parts = { parts with parts = ps } in
- { disk with d_content = `Partitions parts }
- | disk -> disk
- ) m_disks in
-
- (* LVM filesystem detection
- *
- * Look for all disks/partitions which have been identified as PVs
- * and pass those back to the respective LVM plugin for LV detection.
- *
- * (Note - a two-stage process because an LV can be spread over
- * several PVs, so we have to detect all PVs belonging to a
- * domain first).
- *
- * XXX To deal with RAID (ie. md devices) we will need to loop
- * around here because RAID is like LVM except that they normally
- * present as block devices which can be used by LVM.
- *)
- (* First: LV detection.
- * Find all physical volumes, can be disks or partitions.
- *)
- let pvs_on_disks = List.filter_map (
- function
- | { d_dev = d_dev;
- d_content = `PhysicalVolume pv } -> Some (pv, d_dev)
- | _ -> None
- ) m_disks in
- let pvs_on_partitions = List.map (
- function
- | { d_content = `Partitions { parts = parts } } ->
- List.filter_map (
- function
- | { part_dev = part_dev;
- part_content = `PhysicalVolume pv } ->
- Some (pv, part_dev)
- | _ -> None
- ) parts
- | _ -> []
- ) m_disks in
- let lvs = List.concat (pvs_on_disks :: pvs_on_partitions) in
-
- (* Second: filesystem on LV detection.
- * Group the LVs by plug-in type.
- *)
- let cmp (a,_) (b,_) = compare a b in
- let lvs = List.sort ~cmp lvs in
- let lvs = group_by lvs in
-
- let lvs =
- List.map (fun (pv, devs) -> list_lvs pv.lvm_plugin_id devs) lvs in
- let lvs = List.concat lvs in
-
- (* lvs is a list of potential LV devices. Now run them through the
- * probes to see if any contain filesystems.
- *)
- let filesystems =
- List.filter_map (
- fun ({ lv_dev = dev } as lv) ->
- match probe_for_filesystem dev with
- | Some fs -> Some (lv, fs)
- | None -> None
- ) lvs in
-
- { machine with
- m_disks = m_disks;
- m_lv_filesystems = filesystems }