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SubjectRe: XDP socket rings, and LKMM litmus tests
On Tue, Mar 02, 2021 at 11:57:58AM -0800, Paul E. McKenney wrote:
> On Tue, Mar 02, 2021 at 07:46:27PM +0100, Björn Töpel wrote:
> > Hi!
> >
> > Firstly; The long Cc-list is to reach the LKMM-folks.
> >
> > Some background; the XDP sockets use a ring-buffer to communicate
> > between the kernel and userland. It's a
> > single-consumer/single-producer ring, and described in
> > net/xdp/xsk_queue.h.
> >
> > --8<---
> > /* The structure of the shared state of the rings are the same as the
> > * ring buffer in kernel/events/ring_buffer.c. For the Rx and completion
> > * ring, the kernel is the producer and user space is the consumer. For
> > * the Tx and fill rings, the kernel is the consumer and user space is
> > * the producer.
> > *
> > * producer consumer
> > *
> > * if (LOAD ->consumer) { LOAD ->producer
> > * (A) smp_rmb() (C)
> > * STORE $data LOAD $data
> > * smp_wmb() (B) smp_mb() (D)
> > * STORE ->producer STORE ->consumer
> > * }
> > *
> > * (A) pairs with (D), and (B) pairs with (C).
> > ...
> > -->8---
> >
> > I'd like to replace the smp_{r,w,}mb() barriers with acquire-release
> > semantics [1], without breaking existing userspace applications.
> >
> > So, I figured I'd use herd7 and the LKMM model to build a litmus test
> > for the barrier version, then for the acquire-release version, and
> > finally permutations of both.
> >
> > The idea is to use a one element ring, with a state machine outlined
> > in the litmus test.
> >
> > The basic test for the existing smp_{r,w,}mb() barriers looks like:
> >
> > $ cat spsc-rb+1p1c.litmus
> > C spsc-rb+1p1c
> >
> > // Stupid one entry ring:
> > // prod cons allowed action prod cons
> > // 0 0 => prod => 1 0
> > // 0 1 => cons => 0 0
> > // 1 0 => cons => 1 1
> > // 1 1 => prod => 0 1
> >
> > { prod = 1; }
> >
> > // Here, we start at prod==1,cons==0, data==0, i.e. producer has
> > // written data=0, so from here only the consumer can start, and should
> > // consume data==0. Afterwards, producer can continue and write 1 to
> > // data. Can we enter state prod==0, cons==1, but consumer observerd
> > // the write of 1?
> >
> > P0(int *prod, int *cons, int *data)
> > {
> > int p;
> > int c;
> > int cond = 0;
> >
> > p = READ_ONCE(*prod);
> > c = READ_ONCE(*cons);
> > if (p == 0)
> > if (c == 0)
> > cond = 1;
> > if (p == 1)
> > if (c == 1)
> > cond = 1;
> >
> > if (cond) {
> > smp_mb();
> > WRITE_ONCE(*data, 1);
> > smp_wmb();
> > WRITE_ONCE(*prod, p ^ 1);
> > }
> > }
> >
> > P1(int *prod, int *cons, int *data)
> > {
> > int p;
> > int c;
> > int d = -1;
> > int cond = 0;
> >
> > p = READ_ONCE(*prod);
> > c = READ_ONCE(*cons);
> > if (p == 1)
> > if (c == 0)
> > cond = 1;
> > if (p == 0)
> > if (c == 1)
> > cond = 1;
> >
> > if (cond == 1) {
> > smp_rmb();
> > d = READ_ONCE(*data);
> > smp_mb();
> > WRITE_ONCE(*cons, c ^ 1);
> > }
> > }
>
> Before digging in too deeply, does the following simplification
> still capture your intent?
>
> P0(int *prod, int *cons, int *data)
> {
> int p;
> int cond = 0;
>
> p = READ_ONCE(*prod);
> if (p == READ_ONCE(*cons))
> cond = 1;
> if (cond) {
> smp_mb();
> WRITE_ONCE(*data, 1);
> smp_wmb();
> WRITE_ONCE(*prod, p ^ 1);
> }
> }
>
> P1(int *prod, int *cons, int *data)
> {
> int c;
> int d = -1;
> int cond = 0;
>
> c = READ_ONCE(*cons);
> if (READ_ONCE(*prod) == c)
> cond = 1;
>
> if (cond == 1) {
> smp_rmb();
> d = READ_ONCE(*data);
> smp_mb();
> WRITE_ONCE(*cons, c ^ 1);
> }
> }

And if the answer is "yes", how about this one?

P0(int *prod, int *cons, int *data)
{
int p;

p = READ_ONCE(*prod);
if (p == READ_ONCE(*cons)) {
WRITE_ONCE(*data, 1);
smp_wmb();
WRITE_ONCE(*prod, p ^ 1);
}
}

P1(int *prod, int *cons, int *data)
{
int c;
int d = -1;

c = READ_ONCE(*cons);
if (READ_ONCE(*prod) == c) {
smp_rmb();
d = READ_ONCE(*data);
smp_mb();
WRITE_ONCE(*cons, c ^ 1);
}
}

Thanx, Paul

> > exists( 1:d=1 /\ prod=0 /\ cons=1 );
> >
> > --
> >
> > The weird state changing if-statements is because that I didn't get
> > '&&' and '||' to work with herd.
> >
> > When this is run:
> >
> > $ herd7 -conf linux-kernel.cfg litmus-tests/spsc-rb+1p1c.litmus
> > Test spsc-rb+1p1c Allowed
> > States 2
> > 1:d=0; cons=1; prod=0;
> > 1:d=0; cons=1; prod=1;
> > No
> > Witnesses
> > Positive: 0 Negative: 2
> > Condition exists (1:d=1 /\ prod=0 /\ cons=1)
> > Observation spsc-rb+1p1c Never 0 2
> > Time spsc-rb+1p1c 0.04
> > Hash=b399756d6a1301ca5bda042f32130791
> >
> > Now to my question; In P0 there's an smp_mb(). Without that, the d==1
> > can be observed from P1 (consumer):
> >
> > $ herd7 -conf linux-kernel.cfg litmus-tests/spsc-rb+1p1c.litmus
> > Test spsc-rb+1p1c Allowed
> > States 3
> > 1:d=0; cons=1; prod=0;
> > 1:d=0; cons=1; prod=1;
> > 1:d=1; cons=1; prod=0;
> > Ok
> > Witnesses
> > Positive: 1 Negative: 2
> > Condition exists (1:d=1 /\ prod=0 /\ cons=1)
> > Observation spsc-rb+1p1c Sometimes 1 2
> > Time spsc-rb+1p1c 0.04
> > Hash=0047fc21fa77da9a9aee15e35ec367ef
> >
> > In commit c7f2e3cd6c1f ("perf: Optimize ring-buffer write by depending
> > on control dependencies") removes the corresponding smp_mb(), and also
> > the circular buffer in circular-buffers.txt (pre commit 6c43c091bdc5
> > ("documentation: Update circular buffer for
> > load-acquire/store-release")) is missing the smp_mb() at the
> > producer-side.
> >
> > I'm trying to wrap my head around why it's OK to remove the smp_mb()
> > in the cases above? I'm worried that the current XDP socket ring
> > implementation (which is missing smp_mb()) might be broken.
> >
> >
> > If you read this far, thanks! :-)
> > Björn
> >
> >
> > [1] https://lore.kernel.org/bpf/20210301104318.263262-2-bjorn.topel@gmail.com/

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