Blame SOURCES/0035-v2v-Allow-output-to-block-devices-RHBZ-1868690.patch

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From 704e86cb3bd4ddc3b7c207967f0413b4637be1f3 Mon Sep 17 00:00:00 2001
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From: "Richard W.M. Jones" <rjones@redhat.com>
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Date: Tue, 1 Sep 2020 14:44:17 +0100
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Subject: [PATCH] v2v: Allow output to block devices (RHBZ#1868690).
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We previously implicitly supported writing to block devices instead of
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local files, but there were several problems:
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* Block devices could be deleted, especially if virt-v2v failed during
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  a conversion.
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* Block devices could be overwritten by a file with the same name,
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  although I believe this is just an observed consequence of the
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  previous point, or at least I was not able to reproduce this until
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  virt-v2v failed for another reason and then I noticed that because
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  the block device was deleted, the next run overwrote it with a file.
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* It was not documented anywhere how to do it.
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This commit makes the small code change needed to allow virt-v2v to
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write to a block device, only for existing outputs which write to
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local files (ie. using TargetFile).  Also it avoids deleting block
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devices accidentally on failure.
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Note this commit intentionally does not prevent you from writing qcow2
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to a block device.  RHV uses this so it is a thing that people do.
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(cherry picked from commit 9a5974fa3bc038e5e5dbb9605a6db77d06e7bf77)
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---
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 docs/virt-v2v.pod | 33 ++++++++++++++++++++++++++++++
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 v2v/v2v.ml        | 51 ++++++++++++++++++++++++++++-------------------
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 2 files changed, 63 insertions(+), 21 deletions(-)
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diff --git a/docs/virt-v2v.pod b/docs/virt-v2v.pod
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index af69d633..50b0bc8e 100644
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--- a/docs/virt-v2v.pod
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+++ b/docs/virt-v2v.pod
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@@ -1378,8 +1378,41 @@ require either a special user and/or for you to source a script that
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 sets authentication environment variables.  Consult the Glance
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 documentation.
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+=item Writing to block devices
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+
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+This normally requires root.  See the next section.
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+
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 =back
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+=head2 Writing to block devices
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+
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+Some output modes write to local files.  In general these modes also
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+let you write to block devices, but before you run virt-v2v you may
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+have to arrange for symbolic links to the desired block devices in the
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+output directory.
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+
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+For example if using I<-o local -os /dir> then virt-v2v would normally
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+create files called:
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+
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+ /dir/name-sda     # first disk
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+ /dir/name-sdb     # second disk
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+ ...
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+ /dir/name.xml     # metadata
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+
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+If you wish the disks to be written to block devices then you would
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+need to create F</dir/I<name>-sda> (etc) as symlinks to the block
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+devices:
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+
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+ # lvcreate -L 10G -n VolumeForDiskA VG
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+ # lvcreate -L 6G -n VolumeForDiskB VG
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+ # ln -sf /dev/VG/VolumeForDiskA /dir/name-sda
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+ # ln -sf /dev/VG/VolumeForDiskB /dir/name-sdb
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+
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+Note that you must precreate the correct number of block devices of
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+the correct size.  Typically I<-of raw> has to be used too, but other
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+formats such as qcow2 can be useful occasionally so virt-v2v does not
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+force you to use raw on block devices.
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+
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 =head2 Minimal XML for -i libvirtxml option
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 When using the I<-i libvirtxml> option, you have to supply some
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diff --git a/v2v/v2v.ml b/v2v/v2v.ml
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index a58ff433..1f8d0138 100644
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--- a/v2v/v2v.ml
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+++ b/v2v/v2v.ml
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@@ -681,7 +681,10 @@ and copy_targets cmdline targets input output =
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         fun t ->
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           match t.target_file with
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           | TargetURI _ -> ()
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-          | TargetFile s -> try unlink s with _ -> ()
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+          | TargetFile filename ->
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+             if not (is_block_device filename) then (
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+               try unlink filename with _ -> ()
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+             )
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       ) targets
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     )
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   );
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@@ -711,27 +714,33 @@ and copy_targets cmdline targets input output =
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       (match t.target_file with
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        | TargetFile filename ->
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-          (* It turns out that libguestfs's disk creation code is
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-           * considerably more flexible and easier to use than
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-           * qemu-img, so create the disk explicitly using libguestfs
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-           * then pass the 'qemu-img convert -n' option so qemu reuses
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-           * the disk.
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-           *
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-           * Also we allow the output mode to actually create the disk
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-           * image.  This lets the output mode set ownership and
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-           * permissions correctly if required.
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+          (* As a special case, allow output to a block device or
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+           * symlink to a block device.  In this case we don't
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+           * create/overwrite the block device.  (RHBZ#1868690).
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            *)
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-          (* What output preallocation mode should we use? *)
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-          let preallocation =
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-            match t.target_format, cmdline.output_alloc with
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-            | ("raw"|"qcow2"), Sparse -> Some "sparse"
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-            | ("raw"|"qcow2"), Preallocated -> Some "full"
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-            | _ -> None (* ignore -oa flag for other formats *) in
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-          let compat =
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-            match t.target_format with "qcow2" -> Some "1.1" | _ -> None in
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-          output#disk_create filename t.target_format
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-                             t.target_overlay.ov_virtual_size
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-                             ?preallocation ?compat
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+          if not (is_block_device filename) then (
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+            (* It turns out that libguestfs's disk creation code is
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+             * considerably more flexible and easier to use than
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+             * qemu-img, so create the disk explicitly using libguestfs
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+             * then pass the 'qemu-img convert -n' option so qemu reuses
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+             * the disk.
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+             *
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+             * Also we allow the output mode to actually create the disk
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+             * image.  This lets the output mode set ownership and
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+             * permissions correctly if required.
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+             *)
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+            (* What output preallocation mode should we use? *)
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+            let preallocation =
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+              match t.target_format, cmdline.output_alloc with
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+              | ("raw"|"qcow2"), Sparse -> Some "sparse"
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+              | ("raw"|"qcow2"), Preallocated -> Some "full"
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+              | _ -> None (* ignore -oa flag for other formats *) in
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+            let compat =
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+              match t.target_format with "qcow2" -> Some "1.1" | _ -> None in
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+            output#disk_create filename t.target_format
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+                               t.target_overlay.ov_virtual_size
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+                               ?preallocation ?compat
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+          )
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        | TargetURI _ ->
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           (* XXX For the moment we assume that qemu URI outputs
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-- 
8984ae
2.31.1
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