Re: [PATCH v4 0/2] System Generation ID driver and VMGENID backend

From: Michael S. Tsirkin
Date: Tue Feb 02 2021 - 09:48:21 EST


On Thu, Jan 28, 2021 at 01:58:12PM +0100, Alexander Graf wrote:
> Hey Michael!
>
> On 27.01.21 13:47, Michael S. Tsirkin wrote:
> >
> > On Thu, Jan 21, 2021 at 10:28:16AM +0000, Catangiu, Adrian Costin wrote:
> > > On 12/01/2021, 14:49, "Michael S. Tsirkin" <mst@xxxxxxxxxx> wrote:
> > >
> > > On Tue, Jan 12, 2021 at 02:15:58PM +0200, Adrian Catangiu wrote:
> > > > The first patch in the set implements a device driver which exposes a
> > > > read-only device /dev/sysgenid to userspace, which contains a
> > > > monotonically increasing u32 generation counter. Libraries and
> > > > applications are expected to open() the device, and then call read()
> > > > which blocks until the SysGenId changes. Following an update, read()
> > > > calls no longer block until the application acknowledges the new
> > > > SysGenId by write()ing it back to the device. Non-blocking read() calls
> > > > return EAGAIN when there is no new SysGenId available. Alternatively,
> > > > libraries can mmap() the device to get a single shared page which
> > > > contains the latest SysGenId at offset 0.
> > >
> > > Looking at some specifications, the gen ID might actually be located
> > > at an arbitrary address. How about instead of hard-coding the offset,
> > > we expose it e.g. in sysfs?
> > >
> > > The functionality is split between SysGenID which exposes an internal u32
> > > counter to userspace, and an (optional) VmGenID backend which drives
> > > SysGenID generation changes based on hw vmgenid updates.
> > >
> > > The hw UUID you're referring to (vmgenid) is not mmap-ed to userspace or
> > > otherwise exposed to userspace. It is only used internally by the vmgenid
> > > driver to find out about VM generation changes and drive the more generic
> > > SysGenID.
> > >
> > > The SysGenID u32 monotonic increasing counter is the one that is mmaped to
> > > userspace, but it is a software counter. I don't see any value in using a dynamic
> > > offset in the mmaped page. Offset 0 is fast and easy and most importantly it is
> > > static so no need to dynamically calculate or find it at runtime.
> >
> > Well you are burning a whole page on it, using an offset the page
> > can be shared with other functionality.
>
> Currently, the SysGenID lives is one page owned by Linux that we share out
> to multiple user space clients. So yes, we burn a single page of the system
> here.
>
> If we put more data in that same page, what data would you put there? Random
> other bits from other subsystems? At that point, we'd be reinventing vdso
> all over again, no? Probably with the same problems.
>
> Which gets me to the second alternative: Reuse VDSO. The problem there is
> that the VDSO is an extremely architecture specific mechanism. Any new
> architecture we'd want to support would need multiple layers of changes in
> multiple layers of both kernel and libc. I'd like to avoid that if we can
> :).
>
> So that leaves us with either wasting a page per system or not having an
> mmap() interface in the first place.
>
> The reason we have the mmap() interface is that it's be easier to consume
> for libraries, that are not hooked into the main event loop.
>
> So, uh, what are you suggesting? :)

I'd drop mmap at this point. I haven't seen a way to use it
that isn't racy.

>
> Alex
>
>
>
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