Re: [Xen-devel] [PATCH] Blktap: Userspace file-based image support. (RFC)

[Anthony Liguori <aliguori@xxxxxxxxxx>]

Hi Andy,

> Performance is quite good, and we intend to focus on this a bit more
> over the next few weeks, releasing updated patches as they are
> available.  Bonnie results this morning are as follows (64-bit results
> compare against linux blkback+loopback file, Julian can follow up with
> loopback results for 32-bit later if anyone's interested):
>
>              -------Sequential Output-------- ---Sequential Input-- 
> --Random--
>              -Per Char- --Block--- -Rewrite-- -Per Char- --Block--- 
> --Seeks---
> Machine    MB K/sec %CPU K/sec %CPU K/sec %CPU K/sec %CPU K/sec %CPU  
> /sec %CPU
> 64-bit:
> xen0     4096 40115 93.4 41067 12.7 22757  1.2 32532 56.7 53724  0.4 
> 121.4  0.0
> img-sp   4096 20291 86.0 38091 18.1 19939  8.2 30854 69.0 47779  4.2  
> 95.3  0.4
> loop-sp  4096 33421 77.6 33663 13.1 18546  5.1 28606 59.2 46659  6.0  
> 85.2  0.1
> 32-Bit:
> xen0     1024 33857 94.0 45804 9.0  23269  0.0 25825 52.0 55628  0   
> 185.0  0.0
> img-sp   1448 32743 92.0 40703 8.0  23281  0.0 31139 75.0 56585  0   
> 208.1  0.0
What is img-sp?  Is this blktap + a physical device or is this blktap 
with something like qcow?
The numbers a tad worse than I'd expect them to be if it was a physical 
device.  Theoretically, linux-aio is inserting requests directly into 
the backend.  I expect there to be a certain amount of CPU overhead from 
context switching but since it's still zero-copy, I wouldn't expect less 
CPU usage and less throughput.
Any idea why this is or am I just totally misunderstanding how things 
should behave :-)
> Working in conjunction with the kernel blktap driver, all disk I/O
> requests from VMs are passed to the userspace deamon (using a shared
> memory interface) through a character device. Each active disk is
> mappd to an individual device node, allowing per-disk processes to
> implement individual block devices where desired.  The userspace
> drivers are implemented using asynchronous (Linux libaio),
> O_DIRECT-based calls to preserve the unbuffered, batched and
> asynchronous request dispatch achieved with the existing blockback
> code.  We provide a simple, asynchronous virtual disk interface that
> makes it quite easy to add new disk implementations.
A very much like the idea of a userspace block device backend.  Have you 
considered what it would take to completely replace blkback with a 
userspace backend?  I'm also curious why you choose a character device 
to interact with the ring queue instead of just attaching to the ring 
queue directly in userspace.
I think the whole discussion of COW support is orthogonal to a userspace 
backend FWIW so I'll save that part of the discussion for another thread :-)
Regards,

Anthony Liguori

> As of June 2006 the current supported disk formats are:
>
> - Raw Images (both on partitions and in image files)
> - File-backed Qcow disks (sparse qcow overlay on a raw image/patrition).
> - Standalone sparse Qcow disks (sparse disks, not backed by a parent 
> image).
> - Fast shareable RAM disk between VMs (requires some form of 
> cluster-based
>   filesystem support e.g. OCFS2 in the guest kernel)
> - Some VMDK images - your mileage may vary
>
> Raw and QCow images have asynchronous backends and so should perform
> fairly well.  VMDK is based directly on the qemu vmdk driver, which is
> synchronous (a.k.a. slow).
>
> The qcow backends support existing qcow disks.  There are also a set
> of tools to generate and convert qcow images.  With these tools (and
> driver support), we maintain the qcow file format but adjust
> parameters for higher performance with Xen -- using a larger segment
> size (4096 instead of 512) and more coarsely allocating metadata
> regions.  We are continuing to improve this work and expect qcow
> performance to improve a great deal over the newxt few weeks.
>
> Build and Installation Instructions
> ===================================
>
> You will need libaio >= 0.3.104 on your target system to build the
> tools (if you are installing RPMs, this means libaio and
> libaio-devel).
>
> Make to configure the blktap backend driver in your dom0 kernel.  It
> will cooperate fine with the existing backend driver, so you can
> experiment with tap disks without breaking existing VM configs.
>
> To build the tools separately, "make && make install" in
> tools/blktap_user.
>
>
> Using the Tools
> ===============
>
> Prepare the image for booting. For qcow files use the qcow utilities
> installed earlier. e.g. qcow-create generates a blank standalone image
> or a file-backed CoW image. img2qcow takes an existing image or
> partition and creates a sparse, standalone qcow-based file.
>
> Start the userspace disk agent either on system boot (e.g. via an init
> script) or manually => 'blktapctrl'
>
> Customise the VM config file to use the 'tap' handler, followed by the
> driver type. e.g. for a raw image such as a file or partition:
>
> disk = ['tap:aio:<FILENAME>,sda1,w']
>
> e.g. for a qcow image:
>
> disk = ['tap:qcow:<FILENAME>,sda1,w']
> ------------------------------------------------------------------------
>
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