Re: [patch 3/3] PTP: add kvm PTP driver
From: Radim Krcmar
Date: Fri Jan 20 2017 - 09:28:31 EST
2017-01-18 13:28-0200, Marcelo Tosatti:
> On Wed, Jan 18, 2017 at 04:20:33PM +0100, Radim Krcmar wrote:
>> 2017-01-18 12:53-0200, Marcelo Tosatti:
>> > GOn Wed, Jan 18, 2017 at 12:37:25PM -0200, Marcelo Tosatti wrote:
>> > > On Wed, Jan 18, 2017 at 01:46:58PM +0100, Paolo Bonzini wrote:
>> > > >
>> > > >
>> > > > On 18/01/2017 13:24, Marcelo Tosatti wrote:
>> > > > > On Wed, Jan 18, 2017 at 10:17:38AM -0200, Marcelo Tosatti wrote:
>> > > > >> On Tue, Jan 17, 2017 at 04:36:21PM +0100, Radim Krcmar wrote:
>> > > > >>> 2017-01-17 09:30-0200, Marcelo Tosatti:
>> > > > >>>> On Tue, Jan 17, 2017 at 09:03:27AM +0100, Miroslav Lichvar wrote:
>> > > > >>>>> Users of the PTP_SYS_OFFSET ioctl assume that (ts[0]+ts[2])/2
>> > > > >>>>> corresponds to ts[1], (ts[2]+ts[4])/2 corresponds to ts[3], and so on.
>> > > > >>>>>
>> > > > >>>>> ts[1] ts[3]
>> > > > >>>>> Host time ---------+---------+........
>> > > > >>>>> | |
>> > > > >>>>> | |
>> > > > >>>>> Guest time ----+---------+---------+......
>> > > > >>>>> ts[0] ts[2] ts[4]
>> > > > >>>
>> > > > >>> KVM PTP delay moves host ts[i] to be close to guest ts[i+1] and makes
>> > > > >>> the offset very consistent, so the graph would look like:
>> > > > >>>
>> > > > >>> ts[1] ts[3]
>> > > > >>> Host time -------------+---------+........
>> > > > >>> | |
>> > > > >>> | |
>> > > > >>> Guest time ----+---------+---------+......
>> > > > >>> ts[0] ts[2] ts[4]
>> > > > >>>
>> > > > >>> which doesn't sound good if users assume that the host reading is in the
>> > > > >>> middle -- the guest time would be ahead of the host time.
>> > > > >>
>> > > > >> Testcase: run a guest and a loop sending SIGUSR1 to vcpu0 (emulating
>> > > > >> intense interrupts). Follows results:
>> > > > >>
>> > > > >> Without TSC delta calculation:
>> > > > >> =============================
>> > > > >>
>> > > > >> #* PHC0 0 3 377 2 -99ns[ +206ns] +/- 116ns
>> > > > >> #* PHC0 0 3 377 8 +202ns[ +249ns] +/- 111ns
>> > > > >> #* PHC0 0 3 377 8 -213ns[ +683ns] +/- 88ns
>> > > > >> #* PHC0 0 3 377 6 +77ns[ +319ns] +/- 56ns
>> > > > >> #* PHC0 0 3 377 4 -771ns[-1029ns] +/- 93ns
>> > > > >> #* PHC0 0 3 377 10 -49ns[ -58ns] +/- 121ns
>> > > > >> #* PHC0 0 3 377 9 +562ns[ +703ns] +/- 107ns
>> > > > >> #* PHC0 0 3 377 6 -2ns[ -3ns] +/- 94ns
>> > > > >> #* PHC0 0 3 377 4 +451ns[ +494ns] +/- 138ns
>> > > > >> #* PHC0 0 3 377 11 -67ns[ -74ns] +/- 113ns
>> > > > >> #* PHC0 0 3 377 8 +244ns[ +264ns] +/- 119ns
>> > > > >> #* PHC0 0 3 377 7 -696ns[ -890ns] +/- 89ns
>> > > > >> #* PHC0 0 3 377 4 +468ns[ +560ns] +/- 110ns
>> > > > >> #* PHC0 0 3 377 11 -310ns[ -430ns] +/- 72ns
>> > > > >> #* PHC0 0 3 377 9 +189ns[ +298ns] +/- 54ns
>> > > > >> #* PHC0 0 3 377 7 +594ns[ +473ns] +/- 96ns
>> > > > >> #* PHC0 0 3 377 5 +151ns[ +280ns] +/- 71ns
>> > > > >> #* PHC0 0 3 377 10 -590ns[ -696ns] +/- 94ns
>> > > > >> #* PHC0 0 3 377 8 +415ns[ +526ns] +/- 74ns
>> > > > >> #* PHC0 0 3 377 6 +1381ns[+1469ns] +/- 101ns
>> > > > >> #* PHC0 0 3 377 4 +571ns[+1304ns] +/- 54ns
>> > > > >> #* PHC0 0 3 377 8 -5ns[ +71ns] +/- 139ns
>> > > > >> #* PHC0 0 3 377 7 -247ns[ -502ns] +/- 69ns
>> > > > >> #* PHC0 0 3 377 5 -283ns[ +879ns] +/- 73ns
>> > > > >> #* PHC0 0 3 377 3 +148ns[ -109ns] +/- 61ns
>> > > > >>
>> > > > >> With TSC delta calculation:
>> > > > >> ============================
>> > > > >>
>> > > > >> #* PHC0 0 3 377 7 +379ns[ +432ns] +/- 53ns
>> > > > >> #* PHC0 0 3 377 9 +106ns[ +420ns] +/- 42ns
>> > > > >> #* PHC0 0 3 377 7 -58ns[ -136ns] +/- 62ns
>> > > > >> #* PHC0 0 3 377 12 +93ns[ -38ns] +/- 64ns
>> > > > >> #* PHC0 0 3 377 8 +84ns[ +107ns] +/- 69ns
>> > > > >> #* PHC0 0 3 377 3 -76ns[ -103ns] +/- 52ns
>> > > > >> #* PHC0 0 3 377 7 +52ns[ +63ns] +/- 50ns
>> > > > >> #* PHC0 0 3 377 11 +29ns[ +31ns] +/- 70ns
>> > > > >> #* PHC0 0 3 377 7 -47ns[ -56ns] +/- 42ns
>> > > > >> #* PHC0 0 3 377 10 -35ns[ -42ns] +/- 33ns
>> > > > >> #* PHC0 0 3 377 7 -32ns[ -34ns] +/- 42ns
>> > > > >> #* PHC0 0 3 377 11 -172ns[ -173ns] +/- 118ns
>> > > > >> #* PHC0 0 3 377 6 +65ns[ +76ns] +/- 23ns
>> > > > >> #* PHC0 0 3 377 9 +18ns[ +23ns] +/- 37ns
>> > > > >> #* PHC0 0 3 377 6 +41ns[ -60ns] +/- 30ns
>> > > > >> #* PHC0 0 3 377 10 +39ns[ +183ns] +/- 42ns
>> > > > >> #* PHC0 0 3 377 6 +50ns[ +102ns] +/- 86ns
>> > > > >> #* PHC0 0 3 377 11 +50ns[ +75ns] +/- 52ns
>> > > > >> #* PHC0 0 3 377 6 +50ns[ +116ns] +/- 100ns
>> > > > >> #* PHC0 0 3 377 10 +46ns[ +65ns] +/- 79ns
>> > > > >> #* PHC0 0 3 377 7 -38ns[ -51ns] +/- 29ns
>> > > > >> #* PHC0 0 3 377 10 -11ns[ -12ns] +/- 32ns
>> > > > >> #* PHC0 0 3 377 7 -31ns[ -32ns] +/- 99ns
>> > > > >> #* PHC0 0 3 377 10 +222ns[ +238ns] +/- 58ns
>> > > > >> #* PHC0 0 3 377 6 +185ns[ +207ns] +/- 39ns
>> > > > >> #* PHC0 0 3 377 10 -392ns[ -394ns] +/- 118ns
>> > > > >> #* PHC0 0 3 377 6 -9ns[ -50ns] +/- 35ns
>> > > > >> #* PHC0 0 3 377 10 -346ns[ -355ns] +/- 111ns
>> > > > >>
>> > > > >>
>> > > > >> Do you still want to drop it in favour of simplicity?
>> > > > >
>> > > > > This is the output of "chronyc sources". See section "Time sources"
>> > > > > of https://chrony.tuxfamily.org/doc/2.4/chronyc.html.
>> > > >
>> > > > It's just that it's not obvious why you get better results with biased
>> > > > host timestamps. What makes the biased host timestamp more precise?
>> > > >
>> > > > I'd rather use PTP_SYS_OFFSET_PRECISE instead, but unfortunately chrony
>> > > > does not support it---but I would still prefer you to support
>> > > > PTP_SYS_OFFSET_PRECISE as well.
>> > >
>> > > A single TSC read could be used to implement the PRECISE ioctl, but if
>> > > a timer interrupt takes place on either the host or the guest, and that
>> > > timer interrupt "adds" the TSC delta to xtime.nsec/xtime.sec, then that
>> > > single TSC read cannot be used.
>> > >
>> > > So you would have to stop timer interrupts (in guest and host) for the duration of the
>> > > PRECISE ioctl in the guest to avoid that situation, which seems a bit
>> > > overkill to me.
>> > >
>> > > Any other ideas?
>> >
>> > Could have a hypercall that disables host timer interrupts for
>> > a specified amount of time... But that does not scale with multiple VMs.
>>
>> No need to disable interrupts on guest nor host as both protect the time
>> by a seqlock.
>
> Still not scalable with multiple VMs... so need a different solution.
What doesn't scale?
The VM hypercall takes read on the tk_core.seq, which doesn't block
other VMs from doing the same.