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Re: [Qemu-block] [PATCH v2] live-block-ops.txt: Rename, rewrite, and imp
From: |
Stephen Finucane |
Subject: |
Re: [Qemu-block] [PATCH v2] live-block-ops.txt: Rename, rewrite, and improve it |
Date: |
Fri, 16 Jun 2017 16:41:20 +0100 |
On Fri, 2017-06-16 at 16:51 +0200, Kashyap Chamarthy wrote:
> This edition documents (including their QMP invocations) all four
> operations:
>
> - `block-stream`
> - `block-commit`
> - `drive-mirror` (& `blockdev-mirror`)
> - `drive-backup` (& `blockdev-backup`)
>
> Things considered while writing this document:
>
> - Use reStructuredText as markup language (with the goal of generating
> the HTML output using the Sphinx Documentation Generator). It is
> gentler on the eye, and can be trivially converted to different
> formats. (Another reason: upstream QEMU is considering to switch to
> Sphinx, which uses reStructuredText as its markup language.)
>
> - Raw QMP JSON output vs. 'qmp-shell'. I debated with myself whether
> to only show raw QMP JSON output (as that is the canonical
> representation), or use 'qmp-shell', which takes key-value pairs. I
> settled on the approach of: for the first occurence of a command,
> use raw JSON; for subsequent occurences, use 'qmp-shell', with an
> occasional exception.
>
> - Usage of `-blockdev` command-line.
>
> - Usage of 'node-name' vs. file path to refer to disks. While we have
> `blockdev-{mirror, backup}` as 'node-name'-alternatives for
> `drive-{mirror, backup}`, the `block-commit` command still operate
> on file names for parameters 'base' and 'top'. So I added a caveat
> at the beginning to that effect.
>
> Refer this related thread that I started (where I learnt
> `block-stream` was recently reworked to accept 'node-name' for 'top'
> and 'base' parameters):
> https://lists.nongnu.org/archive/html/qemu-devel/2017-05/msg06466.html
> "[RFC] Making 'block-stream', and 'block-commit' accept node-name"
>
> All commands showed in this document were tested while documenting.
As requested, a couple of rST pointers below that will help you if/when you
switch to Sphinx. I've only focused on the design aspect, not the content.
Stephen
> Thanks: Eric Blake for the section: "A note on points-in-time vs file
> names". This useful bit was originally articulated by Eric in his
> KVMForum 2015 presentation, so I included that specific bit in this
> document.
>
> Signed-off-by: Kashyap Chamarthy <address@hidden>
> ---
> * A Sphinx-rendered HTML version is here:
> https://kashyapc.fedorapeople.org/QEMU-docs/_build/html/docs/live-block-ope
> rations.html
>
> * Changes in v2 [address content feedback from Eric; styling changes
> from Stephen Finucane]:
> - [Styling] Remove the ToC, as the Sphinx, ".. contents::" will take
> auto-generate it as part of the rendered version
> - [Styling] Replace ".. code-block::" with "::" as it depends on the
> external 'pygments' library and the syntaxes available vary between
> different versions. [Thanks to Stephen Finucane, who this tip on
> IRC, from experience of doing Sphinx documentation for the Open
> vSwitch project]
> - [Styling] Remove all needless hyperlinks, since ToC will take care
> of them
> - Fix commit message typos
> - Add Copyright / License boilerplate text at the top
> - Reword sentences in "Disk image backing chain notation" section
> - Fix descriptions of `block-{stream, commit}`
> - Rework `block-stream` QMP invocations to take its 'node-name'
> parameter 'base-node'
> - Add 'file.node-name=file' to the '-blockdev' command-line
> - s/shall/will/g
> - Clarify throughout the document, where appropriate,
> that we're starting afresh with the original disk image chain
> - Address mistakes in "Live block commit (`block-commit`)" and
> "QMP invocation for `block-commit`" sections
> - Describe the case of "shallow mirroring" (synchronize only the
> contents of the *top*-most disk image -- "sync": "top") for
> `drive-mirror`, as it's part of an important use case: live storage
> migration without shared storage setup. (Add a new section: "QMP
> invocation for live storage migration with `drive-mirror` + NBD" as
> part of this)
> - Add QMP invocation example for `blockdev-{mirror, backup}`
>
> * TODO (after feedback from John Snow):
> - Eric Blake suggested to consider documenting incremental backup
> policies as part of the section: "Live disk backup ---
> `drive-backup` and `blockdev-backup`"
> ---
> docs/live-block-operations.rst | 1105
> ++++++++++++++++++++++++++++++++++++++++
> docs/live-block-ops.txt | 72 ---
> 2 files changed, 1105 insertions(+), 72 deletions(-)
> create mode 100644 docs/live-block-operations.rst
> delete mode 100644 docs/live-block-ops.txt
>
> diff --git a/docs/live-block-operations.rst b/docs/live-block-operations.rst
> new file mode 100644
> index 0000000..e1f5715
> --- /dev/null
> +++ b/docs/live-block-operations.rst
> @@ -0,0 +1,1105 @@
> +============================
> +Live Block Device Operations
> +============================
> +Copyright (C) 2017 Red Hat Inc.
> +
> +This work is licensed under the terms of the GNU GPL, version 2 or
> +later. See the COPYING file in the top-level directory.
> +
> +---
> +
This information doesn't need to be output in the web version, IMO. If write it
like a comment, it will only be visible in the source. See what we do in OVS
docs [1] for an example.
[1] https://raw.githubusercontent.com/openvswitch/ovs/master/Documentation/inde
x.rst
> +QEMU Block Layer currently (as of QEMU 2.9) supports four major kinds of
> +live block device jobs -- stream, commit, mirror, and backup. These can
> +be used to manipulate disk image chains to accomplish certain tasks,
> +namely: live copy data from backing files into overlays; shorten long
> +disk image chains by merging data from overlays into backing files; live
> +synchronize data from a disk image chain (including current active disk)
> +to another target image; point-in-time (and incremental) backups of a
> +block device. Below is a description of the said block (QMP)
> +primitives, and some (non-exhaustive list of) examples to illustrate
> +their use.
> +
> +NB: The file ``qapi/block-core.json`` in the QEMU source tree has the
> +canonical QEMU API (QAPI) schema documentation for the QMP primitives
> +discussed here.
> +
You might consider using admonitions here and elsewhere. This would make sense
as a 'note' or 'important' directive:
.. note::
The file ``qapi/block-core.json`` ...
> +
> +.. contents::
This can probably go if/when Sphinx is integrated - Sphinx includes a ToC in
the sidebar by default. Perhaps include a TODO to remove this?
.. TODO(kashyap): Remove this when Sphinx is integrated
> +Disk image backing chain notation
> +---------------------------------
> +
> +A simple disk image chain. (This can be created live, using QMP
> +``blockdev-snapshot-sync``, or offline, via ``qemu-img``):
> +
> +::
> +
> + (Live QEMU)
> + |
> + .
> + V
> +
> + [A] <----- [B]
> +
> + (backing file) (overlay)
> +
> +The arrow can be read as: Image [A] is the backing file of disk image
> +[B]. And live QEMU is currently writing to image [B], consequently, it
> +is also referred to as the "active layer".
> +
> +There are two kinds of terminology that are common when referring to
> +files in a disk image backing chain:
> +
> +(1) Directional: 'base' and 'top'. Given the simple disk image chain
> + above, image [A] can be referred to as 'base', and image [B] as
> + 'top'. (This terminology can be seen in in QAPI schema file,
> + block-core.json.)
This looks really like a definition list, which is rST are written like so:
term
Detailed description of the term here...
So this would become:
Directional
'base' and 'top'. Given...
> +
> +(2) Relational: 'backing file' and 'overlay'. Again, taking the same
> + simple disk image chain from the above, disk image [A] is referred
> + to as the backing file, and image [B] as overlay.
> +
> + Throughout this document, we will use the relational terminology.
> +
> +NB: The base disk image can be raw format; however, all the overlay
> +files must be of QCOW2 format.
.. important::
> +
> +
> +Brief overview of live block QMP primitives
> +-------------------------------------------
> +
> +The following are the four different kinds of live block operations that
> +QEMU block layer supports.
> +
> +- ``block-stream``: Live copy of data from backing files into overlay
> + files (with the optional goal of removing the backing file from the
> + chain).
> +
> +- ``block-commit``: Live merge of data from overlay files into backing
> + files (with the optional goal of removing the overlay file from the
> + chain). Since QEMU 2.0, this includes "active ``block-commit``" (i.e.
> + merge the current active layer into the base image).
> +
> +- ``drive-mirror`` (and ``blockdev-mirror``): Synchronize running disk
> + to another image.
> +
> +- ``drive-backup`` (and ``blockdev-backup``): Point-in-time (live) copy
> + of a block device to a destination.
Definition list?
> +
> +
> +.. _`Interacting with a QEMU instance`:
If you're not linking to this, you don't need to include this. The 'contents'
directive will automatically insert an anchor for each heading.
> +
> +Interacting with a QEMU instance
> +--------------------------------
> +
> +To show some example invocations of command-line, we will use the
> +following invocation of QEMU, with a QMP server running over UNIX
> +socket:
> +
> +::
> +
> + $ ./x86_64-softmmu/qemu-system-x86_64 -display none -nodefconfig \
> + -M q35 -nodefaults -m 512 \
> + -blockdev node-name=node-A,driver=qcow2,file.driver=file,file.node-
> name=file,file.filename=./a.qcow2 \
> + -device virtio-blk,drive=node-A,id=virtio0 \
> + -monitor stdio -qmp unix:/tmp/qmp-sock,server,nowait
> +
> +The ``-blockdev`` command-line option, used above, is available from
> +QEMU 2.9 onwards. In the above invocation, notice the 'node-name'
``node-name``?
> +parameter that is used to refer to the disk image a.qcow2 ('node-A') --
``a.qcow2``?
> +this is a cleaner way to refer to a disk image (as opposed to referring
> +to it by spelling out file paths). So, we will continue to designate a
> +'node-name' to each further disk image created (either via
> +``blockdev-snapshot-sync``, or ``blockdev-add``) as part of the disk
> +image chain, and continue to refer to the disks using their 'node-name'
> +(where possible, because ``block-stream``, and ``block-commit`` do not
> +yet, as of QEMU 2.9, take 'node-name' parameters) when performing
> +various block operations.
> +
> +To interact with the QEMU instance launched above, we will use the
> +``qmp-shell`` (located at: ``qemu/scripts/qmp``, as part of the QEMU
> +source directory) utility, which takes key-value pairs for QMP commands.
> +Invoke it as below (which will also print out the complete raw JSON
> +syntax for reference -- examples in the following sections).
> +
> +::
> +
> + $ ./qmp-shell -v -p /tmp/qmp-sock
> + (QEMU)
> +
> +NB: In the event we have to repeat a certain QMP command, we will: for
> +the first occurrence of it, show the the ``qmp-shell`` invocation,
> +*and* the corresponding raw JSON QMP syntax; but for subsequent
> +invocations, present just the ``qmp-shell`` syntax, and omit the
> +equivalent JSON output.
.. important::
> +
> +Example disk image chain
> +------------------------
> +
> +We will use the below disk image chain (and occasionally spelling it
> +out where appropriate) when discussing various primitives.
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +Where [A] is the original base image; [B] and [C] are intermediate
> +overlay images; image [D] is the active layer -- i.e. live QEMU is
> +writing to it. (The rule of thumb is: live QEMU will always be pointing
> +to the right-most image in a disk image chain.)
> +
> +The above image chain can be created by invoking
> +``blockdev-snapshot-sync`` command as following (which shows the
> +creation of overlay image [B]) using the ``qmp-shell`` (our invocation
> +also prints the raw JSON invocation of it):
> +
> +::
> +
> + (QEMU) blockdev-snapshot-sync node-name=node-A snapshot-file=b.qcow2
> snapshot-node-name=node-B format=qcow2
> + {
> + "execute": "blockdev-snapshot-sync",
> + "arguments": {
> + "node-name": "node-A",
> + "snapshot-file": "b.qcow2",
> + "format": "qcow2",
> + "snapshot-node-name": "node-B"
> + }
> + }
> +
> +Here, "node-A" is the name QEMU internally uses to refer to the base
> +image [A] -- it is the backing file, based on which the overlay image,
> +[B], is created.
I guess you should probably use ``[A]`` here to preserve formatting
> +
> +To create the rest of the two overlay images, [C], and [D] (omitted the
> +raw JSON output for brevity):
> +
> +::
> +
> + (QEMU) blockdev-snapshot-sync node-name=node-B snapshot-file=c.qcow2
> snapshot-node-name=node-C format=qcow2
> + (QEMU) blockdev-snapshot-sync node-name=node-C snapshot-file=d.qcow2
> snapshot-node-name=node-D format=qcow2
> +
> +
> +A note on points-in-time vs file names
> +--------------------------------------
> +
> +In our disk disk image chain:
> +
> +::
repeated word and no need for ':\n\n::' - you can just use '::'.
In our disk image chain::
ditto for the rest of the file
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +We have *three* points in time and an active layer:
> +
> +- Point 1: Guest state when [B] was created is contained in file [A]
> +- Point 2: Guest state when [C] was created is contained in [A] + [B]
> +- Point 3: Guest state when [D] was created is contained in
> + [A] + [B] + [C]
> +- Active layer: Current guest state is contained in [A] + [B] + [C] +
> + [D]
> +
> +Therefore, be aware with naming choices:
> +
> +- Naming a file after the time it is created is misleading -- the
> + guest data for that point in time is *not* contained in that file
> + (as explained earlier)
> +- Rather, think of files as a *delta* from the backing file
> +
> +
> +Live block streaming --- ``block-stream``
> +-----------------------------------------
> +
> +The ``block-stream`` command allows you to do live copy data from backing
> +files into overlay images.
> +
> +Given our original example disk image chain from earlier:
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +The disk image chain can be shortened in one of the following different
> +ways (not an exhaustive list).
> +
Maybe you should include an anchor here, so you can link to it below.
> +(1) Merge everything into the active layer: I.e. copy all contents from
> + the base image, [A], and overlay images, [B] and [C], into [D],
> + _while_ the guest is running. The resulting chain will be a
> + standalone image, [D] -- with contents from [A], [B] and [C] merged
> + into it (where live QEMU writes go to):
> +
> + ::
> +
> + [D]
> +
> +(2) Taking the same example disk image chain mentioned earlier, merge
> + only images [B] and [C] into [D], the active layer. The result will
> + be contents of images [B] and [C] will be copied into [D], and the
> + backing file pointer of image [D] will be adjusted to point to image
> + [A]. The resulting chain will be:
> +
> + ::
> +
> + [A] <-- [D]
> +
> +(3) Intermediate streaming (available since QEMU 2.8): Starting afresh
> + with the original example disk image chain, with a total of four
> + images, it is possible to copy contents from image [B] into image
> + [C]. Once the copy is finished, image [B] can now be (optionally)
> + discarded; and the backing file pointer of image [C] will be
> + adjusted to point to [A]. I.e. after performing "intermediate
> + streaming" of [B] into [C], the resulting image chain will be (where
> + live QEMU is writing to [D]):
> +
> + ::
> +
> + [A] <-- [C] <-- [D]
> +
> +
> +QMP invocation for ``block-stream``
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +For case (1), to merge contents of all the backing files into the active
> +layer, where 'node-D' is the current active image (by default
> +``block-stream`` will flatten the entire chain); ``qmp-shell`` (and its
> +corresponding JSON output):
> +
> +::
> +
> + (QEMU) block-stream device=node-D job-id=job0
> + {
> + "execute": "block-stream",
> + "arguments": {
> + "device": "node-D",
> + "job-id": "job0"
> + }
> + }
> +
> +For case (2), merge contents of the images [B] and [C] into [D], where
> +image [D] ends up referring to image [A] as its backing file:
> +
> +::
> +
> + (QEMU) block-stream device=node-D base-node=node-A job-id=job0
> +
> +And for case (3), of "intermediate" streaming", merge contents of images
> +[B] into [C], where [C] ends up referring to [A] as its backing image:
> +
> +::
> +
> + (QEMU) block-stream device=node-C base-node=node-A job-id=job0
> +
> +Progress of a ``block-stream`` operation can be monitored via the QMP
> +command:
> +
> +::
> +
> + (QEMU) query-block-jobs
> + {
> + "execute": "query-block-jobs",
> + "arguments": {}
> + }
> +
> +
> +Once the ``block-stream`` operation has completed, QEMU will emit an
> +event, ``BLOCK_JOB_COMPLETED``. The intermediate overlays remain valid,
> +and can now be (optionally) discarded, or retained to create further
> +overlays based on them. Finally, the ``block-stream`` jobs can be
> +restarted at anytime.
> +
> +
> +Live block commit --- ``block-commit``
> +--------------------------------------
> +
> +The ``block-commit`` command lets you to live merge data from overlay
> +images into backing file(s). Since QEMU 2.0, this includes "live active
> +commit" (i.e. it is possible to merge the "active layer", the right-most
> +image in a disk image chain where live QEMU will be writing to, into the
> +base image). This is analogous to ``block-stream``, but in opposite
> +direction.
> +
> +Again, starting afresh with our example disk image chain, where live
> +QEMU is writing to the right-most image in the chain, [D]:
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +The disk image chain can be shortened in one of the following ways:
> +
> +(1) Commit content from only image [B] into image [A]. The resulting
> + chain is the following, where image [C] is adjusted to point at [A]
> + as its new backing file:
> +
> + ::
> +
> + [A] <-- [C] <-- [D]
> +
> +(2) Commit content from images [B] and [C] into image [A]. The
> + resulting chain, where image [D] is adjusted to point to image [A]
> + as its new backing file:
> +
> + ::
> +
> + [A] <-- [D]
> +
> +(3) Commit content from images [B], [C], and the active layer [D] into
> + image [A]. The resulting chain (in this case, a consolidated single
> + image):
> +
> + ::
> +
> + [A]
> +
> +(4) Commit content from image only image [C] into image [B]. The
> + resulting chain:
> +
> + ::
> +
> + [A] <-- [B] <-- [D]
> +
> +(5) Commit content from image [C] and the active layer [D] into image
> + [B]. The resulting chain:
> +
> + ::
> +
> + [A] <-- [B]
> +
> +
> +QMP invocation for ``block-commit``
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +For case (1), from the previous section -- merge contents only from
> +image [B] into image [A], the invocation is as following:
> +
> +::
> +
> + (QEMU) block-commit device=node-D base=a.qcow2 top=b.qcow2 job-id=job0
> + {
> + "execute": "block-commit",
> + "arguments": {
> + "device": "node-D",
> + "job-id": "job0",
> + "top": "b.qcow2",
> + "base": "a.qcow2"
> + }
> + }
> +
> +Once the above ``block-commit`` operation has completed, a
> +``BLOCK_JOB_COMPLETED`` event will be issued, and no further action is
> +required. The end result being, the backing file of image [C] is
> +adjusted to point to image [A], and the original 4-image chain will end
> +up being transformed to:
> +
> +::
> +
> + [A] <-- [C] <-- [D]
> +
> +NB: The intermdiate image [B] is invalid (as in: no more further
> +overlays based on it can be created) and, therefore, should be dropped.
> +
> +
> +However, case (3), the "active ``block-commit``", is a *two-phase*
> +operation: in the first phase, the content from the active overlay,
> +along with the intermediate overlays, is copied into the backing file
> +(also called, the base image); in the second phase, adjust the said
> +backing file as the current active image -- possible via issuing the
> +command ``block-job-complete``. [Optionally, the operation can be
> +cancelled, by issuing the command ``block-job-cancel``, but be careful
> +when doing this.]
> +
> +Once the 'commit' operation (started by ``block-commit``) has completed,
> +the event ``BLOCK_JOB_READY`` is emitted, signalling the synchronization
> +has finished, and the job can be gracefully completed, by issuing
> +``block-job-complete``. (Until such a command is issued, the 'commit'
> +operation remains active.)
> +
> +So, the following is the flow for case (3), "active ``block-commit``" --
> +-- to convert a disk image chain such as this:
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +Into (where content from all the subsequent overlays, [B], and [C],
> +including the active layer, [D], is committed back to [A] -- which is
> +where live QEMU is performing all its current writes):
> +
> +::
> +
> + [A]
> +
> +Start the "active ``block-commit``" operation:
> +
> +::
> +
> + (QEMU) block-commit device=node-D base=a.qcow2 top=d.qcow2 job-id=job0
> + {
> + "execute": "block-commit",
> + "arguments": {
> + "device": "node-D",
> + "job-id": "job0",
> + "top": "d.qcow2",
> + "base": "a.qcow2"
> + }
> + }
> +
> +
> +Once the synchronization has completed, the event ``BLOCK_JOB_READY`` will
> +be emitted.
> +
> +Then, (optionally) query for the status of the active block operations
> +(we can see the 'commit' job is now ready to be completed, as indicated
> +by the line *"ready": true*):
> +
> +::
> +
> + (QEMU) query-block-jobs
> + {
> + "execute": "query-block-jobs",
> + "arguments": {}
> + }
> + {
> + "return": [
> + {
> + "busy": false,
> + "type": "commit",
> + "len": 1376256,
> + "paused": false,
> + "ready": true,
> + "io-status": "ok",
> + "offset": 1376256,
> + "device": "job0",
> + "speed": 0
> + }
> + ]
> + }
> +
> +Gracefully, complete the 'commit' block device job:
> +
> +::
> +
> + (QEMU) block-job-complete device=job0
> + {
> + "execute": "block-job-complete",
> + "arguments": {
> + "device": "job0"
> + }
> + }
> + {
> + "return": {}
> + }
> +
> +Finally, once the above job is completed, an event ``BLOCK_JOB_COMPLETED``
> +will be emitted.
> +
> +[The invocation for rest of the cases, discussed in the previous
> +section, is omitted for brevity.]
This looks like a:
.. note::
> +
> +
> +Live disk synchronization --- ``drive-mirror`` and ``blockdev-mirror``
> +----------------------------------------------------------------------
> +
> +Synchronize a running disk image chain (all or part of it) to a target
> +image.
> +
> +Again, given our familiar disk image chain:
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +The ``drive-mirror`` (and its newer equivalent ``blockdev-mirror``) allows
> +you to copy data from the entire chain into a single target image (which
> +can be located on a different host).
> +
> +Once a 'mirror' job has started, there are two possible actions when a
> +``drive-mirror`` job is active:
> +
> +(1) Issuing the command ``block-job-cancel``: will -- after completing
> + synchronization of the content from the disk image chain to the
> + target image, [E] -- create a point-in-time (which is at the time of
> + *triggering* the cancel command) copy, contained in image [E], of
> + the backing file.
> +
> +(2) Issuing the command ``block-job-complete``: will, after completing
> + synchronization of the content, adjust the guest device (i.e. live
> + QEMU) to point to the target image, and, causing all the new writes
> + from this point on to happen there. One use case for this is live
> + storage migration.
> +
> +
> +QMP invocation for ``drive-mirror``
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +To copy the contents of the entire disk image chain, from [A] all the
> +way to [D], to a new target (``drive-mirror`` will create the destination
> +file, if it doesn't already exist), call it [E]:
> +
> +::
> +
> + (QEMU) drive-mirror device=node-D target=e.qcow2 sync=full job-id=job0
> + {
> + "execute": "drive-mirror",
> + "arguments": {
> + "device": "node-D",
> + "job-id": "job0",
> + "target": "e.qcow2",
> + "sync": "full"
> + }
> + }
> +
> +The ``"sync": "full"``, from the above, means: copy the *entire* chain
> +to the destination.
> +
> +Following the above, querying for active block jobs will show that a
> +'mirror' job is "ready" to be completed (and QEMU will also emit an
> +event, ``BLOCK_JOB_READY``):
> +
> +::
> +
> + (QEMU) query-block-jobs
> + {
> + "execute": "query-block-jobs",
> + "arguments": {}
> + }
> + {
> + "return": [
> + {
> + "busy": false,
> + "type": "mirror",
> + "len": 21757952,
> + "paused": false,
> + "ready": true,
> + "io-status": "ok",
> + "offset": 21757952,
> + "device": "job0",
> + "speed": 0
> + }
> + ]
> + }
> +
> +And, as mentioned in the previous section, the two possible options can
> +be taken:
> +
> +(a) Create a point-in-time snapshot by ending the synchronization. The
> + point-in-time is at the time of *ending* the sync. (The result of
> + the following being: the target image, [E], will be populated with
> + content from the entire chain, [A] to [D].)
> +
> +::
> +
> + (QEMU) block-job-cancel device=job0
> + {
> + "execute": "block-job-cancel",
> + "arguments": {
> + "device": "job0"
> + }
> + }
> +
> +(b) Or, complete the operation and pivot the live QEMU to the target
> + copy:
> +
> +::
> +
> + (QEMU) block-job-complete device=job0
> +
> +In either of the above cases, if you once again run the
> +`query-block-jobs` command, there should not be any active block
> +operation.
> +
> +Comparing 'commit' and 'mirror': In both then cases, the overlay images
> +can be discarded. However, with 'commit', the *existing* base image
> +will be modified (by updating it with contents from overlays); while in
> +the case of 'mirror', a *new* target image is populated with the data
> +from the disk image chain.
> +
> +
> +QMP invocation for live storage migration with ``drive-mirror`` + NBD
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +Live storage migration (without shared storage setup) is one of the
> +common use-cases. I.e. given the disk image chain:
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +Instead of copying content from the entire chain, synchronize *only* the
> +contents of the *top*-most disk image (i.e. the active layer), [D], to a
> +target, say, [TargetDisk]. (**NB**: The destination must already have
> +the contents of the backing chain (involving images [A], [B], and [C])
> +visible via other means, whether by ``cp``, or ``rsync`` or by some
> +storage-array-specific command.) Sometimes, this is also referred to as
> +"shallow copy" (because: only the "active layer", and not the rest of
> +the image chain, is copied to the destiniation).
> +
> +The following is the sequence of QMP commands to achieve this setup.
> +
> +On the destination (for the sake of simplicity, we're using the same
> +local host as both, source and destination), we expect the contents
> +
> +::
> +
> + $ qemu-img create -f qcow2 -b ./Contents-of-A-B-C.qcow2 \
> + -F qcow2 ./target-disk.qcow2
> +
> +We need a destination QEMU (we already have a source QEMU running, that
> +was discussed in the section: `Interacting with a QEMU instance`_)
> +instance, with the following invocation. (For the sake of simplicity
> +we're using a destination QEMU on the same host, but it could be located
> +on a different host):
> +
> +::
> +
> + $ ./x86_64-softmmu/qemu-system-x86_64 -display none -nodefconfig \
> + -M q35 -nodefaults -m 512 \
> + -blockdev node-name=node-
> TargetDisk,driver=qcow2,file.driver=file,file.node-
> name=file,file.filename=./target-disk.qcow2 \
> + -device virtio-blk,drive=node-TargetDisk,id=virtio0 \
> + -S -monitor stdio -qmp unix:./qmp-sock2,server,nowait \
> + -incoming tcp:localhost:6666
> +
> +Given the disk image chain on source QEMU:
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +On the destination host, it is expected that the contents of the chain
> +"[A] <-- [B] <-- [C]" is *already* present, and therefore copy *only*
> +the contents of image [D].
> +
> +(1) [On *destination* QEMU] As part of the first step, start the built-in
> + NBD server on given host and port:
> +
> + ::
> +
> + (QEMU) nbd-server-start
> addr={"type":"inet","data":{"host":"::","port":"49153"}}
> + {
> + "execute": "nbd-server-start",
> + "arguments": {
> + "addr": {
> + "data": {
> + "host": "::",
> + "port": "49153"
> + },
> + "type": "inet"
> + }
> + }
> + }
> +
> +(2) [On *destination* QEMU] And export the destination disk image using
> + QEMU's built-in NBD server:
> +
> + ::
> +
> + (QEMU) nbd-server-add device=node-TargetDisk writable=true
> + {
> + "execute": "nbd-server-add",
> + "arguments": {
> + "device": "node-TargetDisk"
> + }
> + }
> +
> +(3) [On *source* QEMU] Then, invoke ``drive-mirror`` (NB: since we're runing
> + ``drive-mirror`` with ``mode=existing`` (meaning: synchronize to a
> + pre-created file, therefore 'existing', file on the target host),
> + with the synchronization mode as 'top' (``"sync: "top"``):
> +
> + ::
> +
> + (QEMU) drive-mirror device=node-D
> target=nbd:localhost:49153:exportname=node-TargetDisk sync=top mode=existing
> job-id=job0
> + {
> + "execute": "drive-mirror",
> + "arguments": {
> + "device": "node-D",
> + "mode": "existing",
> + "job-id": "job0",
> + "target": "nbd:localhost:49153:exportname=node-TargetDisk",
> + "sync": "top"
> + }
> + }
> +
> +(4) [On *source* QEMU] Once ``drive-mirror`` copies the entire data, and the
> + event ``BLOCK_JOB_READY`` is emitted, issue ``block-job-cancel`` to
> + gracefully end the synchronization, from source QEMU:
> +
> + ::
> +
> + (QEMU) block-job-cancel device=job0
> + {
> + "execute": "block-job-cancel",
> + "arguments": {
> + "device": "job0"
> + }
> + }
> +
> +(5) [On *destination* QEMU] Then, stop the NBD server:
> +
> + ::
> +
> + (QEMU) nbd-server-stop
> + {
> + "execute": "nbd-server-stop",
> + "arguments": {}
> + }
> +
> +(6) [On *destination* QEMU] Finally, resume the guest vCPUs by issuing the
> + QMP command `cont`:
> +
> + ::
> +
> + (QEMU) cont
> + {
> + "execute": "cont",
> + "arguments": {}
> + }
> +
> +
> +NOTE: Higher-level libraries (e.g. libvirt) automate the entire above
> +process.
> +
> +
> +Notes on ``blockdev-mirror``
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +The ``blockdev-mirror`` command is equivalent in core functionality to
> +``drive-mirror``, except that it operates at node-level in a BDS graph.
> +
> +Also: for ``blockdev-mirror``, the 'target' image needs to be explicitly
> +created (using ``qemu-img``) and attach it to live QEMU via
> +``blockdev-add``, which assigns a name to the to-be created target node.
> +
> +E.g. the sequence of actions to create a point-in-time backup of an
> +entire disk image chain, to a target, using ``blockdev-mirror`` would be:
> +
> +(0) Create the QCOW2 overlays, to arrive at a backing chain of desired
> + depth
> +
> +(1) Create the target image (using ``qemu-img``), say, backup.qcow2
> +
> +(2) Attach the above created backup.qcow2 file, run-time, using
> + ``blockdev-add`` to QEMU
> +
> +(3) Perform ``blockdev-mirror`` (use ``"sync": "full"`` to copy the
> + entire chain to the target). And observe for the event
> + ``BLOCK_JOB_READY``
> +
> +(4) Optionally, query for active block jobs, there should be a 'mirror'
> + job ready to be completed
> +
> +(5) Gracefully complete the 'mirror' block device job, and observe for
> + the event ``BLOCK_JOB_COMPLETED``
> +
> +(6) Shutdown the guest, by issuing the QMP ``quit`` command, so that
> + caches are flushed
> +
> +(7) Then, finally, compare the contents of the disk image chain, and
> + the target copy with ``qemu-img compare``. You should notice:
> + "Images are identical"
> +
> +
> +QMP invocation for ``blockdev-mirror``
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +Given the disk image chain:
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +To copy the contents of the entire disk image chain, from [A] all the
> +way to [D], to a new target, call it [E]. The following is the flow.
> +
> +Create the overlay images, [B], [C], and [D]:
> +
> +::
> +
> + (QEMU) blockdev-snapshot-sync node-name=node-A snapshot-file=b.qcow2
> snapshot-node-name=node-B format=qcow2
> + (QEMU) blockdev-snapshot-sync node-name=node-B snapshot-file=c.qcow2
> snapshot-node-name=node-C format=qcow2
> + (QEMU) blockdev-snapshot-sync node-name=node-C snapshot-file=d.qcow2
> snapshot-node-name=node-D format=qcow2
> +
> +Create the target image, [E]:
> +
> +::
> +
> + $ qemu-img create -f qcow2 e.qcow2 39M
> +
> +Add the above created target image to QEMU, via ``blockdev-add``:
> +
> +::
> +
> + (QEMU) blockdev-add driver=qcow2 node-name=node-E
> file={"driver":"file","filename":"e.qcow2"}
> + {
> + "execute": "blockdev-add",
> + "arguments": {
> + "node-name": "node-E",
> + "driver": "qcow2",
> + "file": {
> + "driver": "file",
> + "filename": "e.qcow2"
> + }
> + }
> + }
> +
> +Perform ``blockdev-mirror``, and observe for the event
> +``BLOCK_JOB_READY``:
> +
> +::
> +
> + (QEMU) blockdev-mirror device=node-B target=node-E sync=full job-id=job0
> + {
> + "execute": "blockdev-mirror",
> + "arguments": {
> + "device": "node-D",
> + "job-id": "job0",
> + "target": "node-E",
> + "sync": "full"
> + }
> + }
> +
> +Query for active block jobs, there should be a 'mirror' job ready:
> +
> +::
> +
> + (QEMU) query-block-jobs
> + {
> + "execute": "query-block-jobs",
> + "arguments": {}
> + }
> + {
> + "return": [
> + {
> + "busy": false,
> + "type": "mirror",
> + "len": 21561344,
> + "paused": false,
> + "ready": true,
> + "io-status": "ok",
> + "offset": 21561344,
> + "device": "job0",
> + "speed": 0
> + }
> + ]
> + }
> +
> +Gracefully complete the block device job operation, and observe for the
> +event ``BLOCK_JOB_COMPLETED``:
> +
> +::
> +
> + (QEMU) block-job-complete device=job0
> + {
> + "execute": "block-job-complete",
> + "arguments": {
> + "device": "job0"
> + }
> + }
> + {
> + "return": {}
> + }
> +
> +Shutdown the guest, by issuing the ``quit`` QMP command:
> +
> +::
> +
> + (QEMU) quit
> + {
> + "execute": "quit",
> + "arguments": {}
> + }
> +
> +
> +Live disk backup --- ``drive-backup`` and ``blockdev-backup``
> +-------------------------------------------------------------
> +
> +The ``drive-backup`` (and its newer equivalent ``blockdev-backup``) allows
> +you to create a point-in-time snapshot.
> +
> +In this case, the point-in-time is when you *start* the ``drive-backup``
> +(or its newer equivalent ``blockdev-backup``) command.
> +
> +
> +QMP invocation for ``drive-backup``
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +Yet again, starting afresh with our example disk image chain:
> +
> +::
> +
> + [A] <-- [B] <-- [C] <-- [D]
> +
> +To create a target image [E], with content populated from image [A] to
> +[D], from the above chain, the following is the syntax. (If the target
> +image does not exist, ``drive-backup`` will create it.)
> +
> +::
> +
> + (QEMU) drive-backup device=node-D sync=full target=e.qcow2 job-id=job0
> + {
> + "execute": "drive-backup",
> + "arguments": {
> + "device": "node-D",
> + "job-id": "job0",
> + "sync": "full",
> + "target": "copy-drive-backup.qcow2"
> + }
> + }
> +
> +Once the above ``drive-backup`` has completed, a ``BLOCK_JOB_COMPLETED``
> event
> +will be issued, indicating the live block device job operation has
> +completed, and no further action is required.
> +
> +
> +Notes on ``blockdev-backup``
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +The ``blockdev-backup`` command is equivalent in functionality to
> +``drive-backup``, except that it operates at node-level in a Block Driver
> +State (BDS) graph.
> +
> +E.g. the sequence of actions to create a point-in-time backup
> +of an entire disk image chain, to a target, using ``blockdev-backup``
> +would be:
> +
> +(0) Create the QCOW2 overlays, to arrive at a backing chain of desired
> + depth
> +
> +(1) Create the target image (using ``qemu-img``), say, backup.qcow2
> +
> +(2) Attach the above created backup.qcow2 file, run-time, using
> + ``blockdev-add`` to QEMU
> +
> +(3) Perform ``blockdev-backup`` (use ``"sync": "full"`` to copy the
> + entire chain to the target). And observe for the event
> + ``BLOCK_JOB_COMPLETED``
> +
> +(4) Shutdown the guest, by issuing the QMP ``quit`` command, so that
> + caches are flushed
> +
> +(5) Then, finally, compare the contents of the disk image chain, and
> + the target copy with ``qemu-img compare``. You should notice:
> + "Images are identical"
> +
> +The following section shows an example QMP invocation for
> +``blockdev-backup``.
> +
> +QMP invocation for ``blockdev-backup``
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +Given, a disk image chain of depth 1, where image [B] is the active
> +overlay (live QEMU is writing to it):
> +
> +::
> +
> + [A] <-- [B]
> +
> +The following is the procedure to copy the content from the entire chain
> +to a target image (say, [E]), which has the full content from [A] and
> +[B].
> +
> +Create the overlay, [B]:
> +
> +::
> +
> + (QEMU) blockdev-snapshot-sync node-name=node-A snapshot-file=b.qcow2
> snapshot-node-name=node-B format=qcow2
> + {
> + "execute": "blockdev-snapshot-sync",
> + "arguments": {
> + "node-name": "node-A",
> + "snapshot-file": "b.qcow2",
> + "format": "qcow2",
> + "snapshot-node-name": "node-B"
> + }
> + }
> +
> +
> +Create a target image, that will contain the copy:
> +
> +::
> +
> + $ qemu-img create -f qcow2 e.qcow2 39M
> +
> +Then, add it to QEMU via ``blockdev-add``:
> +
> +::
> +
> + (QEMU) blockdev-add driver=qcow2 node-name=node-E
> file={"driver":"file","filename":"e.qcow2"}
> + {
> + "execute": "blockdev-add",
> + "arguments": {
> + "node-name": "node-E",
> + "driver": "qcow2",
> + "file": {
> + "driver": "file",
> + "filename": "e.qcow2"
> + }
> + }
> + }
> +
> +Then, invoke ``blockdev-backup``, to copy the contents from the entire
> +image chain, consisting of images [A], and [B], to the target image
> +'e.qcow2':
> +
> +::
> +
> + (QEMU) blockdev-backup device=node-B target=node-E sync=full job-id=job0
> + {
> + "execute": "blockdev-backup",
> + "arguments": {
> + "device": "node-B",
> + "job-id": "job0",
> + "target": "node-E",
> + "sync": "full"
> + }
> + }
> +
> +Once the above 'backup' operation has completed, an event,
> +``BLOCK_JOB_COMPLETED``, will be emitted, signalling successful
> +completion.
> +
> +Next, query for any active block device jobs (there should be none):
> +
> +::
> +
> + (QEMU) query-block-jobs
> + {
> + "execute": "query-block-jobs",
> + "arguments": {}
> + }
> +
> +Shutdown the guest (**NB**: the following step is really important; if not
> +done, an error, "Failed to get shared "write" lock on e.qcow2", will be
> +thrown when you do ``qemu-img compare``):
> +
> +::
> +
> + (QEMU) quit
> + {
> + "execute": "quit",
> + "arguments": {}
> + }
> + "return": {}
> + }
> + (QEMU)
> + {u'timestamp': {u'seconds': 1496072942, u'microseconds': 685292},
> u'event': u'SHUTDOWN'}
> +
> +
> +The end result will be, the image 'e.qcow2' containing a
> +point-in-time backup of the disk image chain -- i.e. contents from
> +images [A], and [B] at the time the ``blockdev-backup`` command was
> +initiated.
> +
> +One way to confirm the backup disk image contains the identical content
> +with the disk image chain is to compare the backup, and the contents of
> +the chain, you should see "Images are identical". (NB: this is assuming
> +QEMU was launched with `-S` option, which will not start the CPUs at
> +guest boot up):
> +
> +::
> +
> + $ qemu-img compare b.qcow2 e.qcow2
> + Warning: Image size mismatch!
> + Images are identical.
> +
> +NOTE: The "Warning: Image size mismatch!" is expected, as we created the
> +target image (e.qcow2) with 39M size.
> diff --git a/docs/live-block-ops.txt b/docs/live-block-ops.txt
> deleted file mode 100644
> index 2211d14..0000000
> --- a/docs/live-block-ops.txt
> +++ /dev/null
> @@ -1,72 +0,0 @@
> -LIVE BLOCK OPERATIONS
> -=====================
> -
> -High level description of live block operations. Note these are not
> -supported for use with the raw format at the moment.
> -
> -Note also that this document is incomplete and it currently only
> -covers the 'stream' operation. Other operations supported by QEMU such
> -as 'commit', 'mirror' and 'backup' are not described here yet. Please
> -refer to the qapi/block-core.json file for an overview of those.
> -
> -Snapshot live merge
> -===================
> -
> -Given a snapshot chain, described in this document in the following
> -format:
> -
> -[A] <- [B] <- [C] <- [D] <- [E]
> -
> -Where the rightmost object ([E] in the example) described is the current
> -image which the guest OS has write access to. To the left of it is its base
> -image, and so on accordingly until the leftmost image, which has no
> -base.
> -
> -The snapshot live merge operation transforms such a chain into a
> -smaller one with fewer elements, such as this transformation relative
> -to the first example:
> -
> -[A] <- [E]
> -
> -Data is copied in the right direction with destination being the
> -rightmost image, but any other intermediate image can be specified
> -instead. In this example data is copied from [C] into [D], so [D] can
> -be backed by [B]:
> -
> -[A] <- [B] <- [D] <- [E]
> -
> -The operation is implemented in QEMU through image streaming facilities.
> -
> -The basic idea is to execute 'block_stream virtio0' while the guest is
> -running. Progress can be monitored using 'info block-jobs'. When the
> -streaming operation completes it raises a QMP event. 'block_stream'
> -copies data from the backing file(s) into the active image. When finished,
> -it adjusts the backing file pointer.
> -
> -The 'base' parameter specifies an image which data need not be
> -streamed from. This image will be used as the backing file for the
> -destination image when the operation is finished.
> -
> -In the first example above, the command would be:
> -
> -(qemu) block_stream virtio0 file-A.img
> -
> -In order to specify a destination image different from the active
> -(rightmost) one we can use its node name instead.
> -
> -In the second example above, the command would be:
> -
> -(qemu) block_stream node-D file-B.img
> -
> -Live block copy
> -===============
> -
> -To copy an in use image to another destination in the filesystem, one
> -should create a live snapshot in the desired destination, then stream
> -into that image. Example:
> -
> -(qemu) snapshot_blkdev ide0-hd0 /new-path/disk.img qcow2
> -
> -(qemu) block_stream ide0-hd0
> -
> -