On Tue, Jan 26, 2016 at 11:44:46AM -0800, Linus Torvalds wrote: > On Tue, Jan 26, 2016 at 9:22 AM, Peter Zijlstra <peterz@xxxxxxxxxxxxx> wrote: > > > > This is distinct from: > > That may be distinct, but: > > > struct foo *x = READ_ONCE(*ptr); > > smp_read_barrier_depends(); > > x->bar = 5; > > This case is complete BS. Stop perpetuating it. I already removed a > number of bogus cases of it, and I removed the incorrect documentation > that had this crap. If I understand your objection correctly, you want the above pattern expressed either like this: struct foo *x = rcu_dereference(*ptr); x->bar = 5; Or like this: struct foo *x = lockless_dereference(*ptr); x->bar = 5; Or am I missing your point? > It's called "smp_READ_barrier_depends()" for a reason. > > Alpha is the only one that needs it, and alpha needs it only for > dependent READS. > > It's not called smp_read_write_barrier_depends(). It's not called > "smp_mb_depends()". It's a weaker form of "smp_rmb()", nothing else. > > So alpha does have an implied dependency chain from a read to a > subsequent dependent write, and does not need any extra barriers. > > Alpha does *not* have a dependency chain from a read to a subsequent > read, which is why we need that horrible crappy > smp_read_barrier_depends(). But it's the only reason. > > This is the alpha reference manual wrt read-to-write dependency: > > 5.6.1.7 Definition of Dependence Constraint > > The depends relation (DP) is defined as follows. Given u and v > issued by processor Pi, where u > is a read or an instruction fetch and v is a write, u precedes v > in DP order (written u DP v, that > is, v depends on u) in either of the following situations: > > • u determines the execution of v, the location accessed by v, or > the value written by v. > • u determines the execution or address or value of another > memory access z that precedes > > v or might precede v (that is, would precede v in some execution > path depending > on the value read by u) by processor issue constraint (see Section 5.6.1.3). > > Note that the dependence barrier honors not only control flow, but > address and data values too. This is a different syntax than we use, > but 'u' is the READ_ONCE, and 'v' is the write. Any data, address or > conditional dependency between the two implies an ordering. > > So no, "smp_read_barrier_depends()" is *ONLY* about two reads, where > the second read is data-dependent on the first. Nothing else. > > So if you _ever_ see a "smp_read_barrier_depends()" that isn't about a > barrier between two reads, then that is a bug. And the smp_read_barrier_depends() in both rcu_dereference() and in lockless_dereference() is ordering the read-to-read case and the underlying hardware is ordering the read-to-write case on weakly ordered hardware. Or, again, am I missing your point? Thanx, Paul > The above code is crap. It's exactly as much crap as > > a = READ_ONCE(x); > smp_rmb(); > WRITE_ONCE(b, y); > > because a "rmb()" simply doesn't have anything to do with > read-vs-subsequent-write ordering. > > Linus > _______________________________________________ Virtualization mailing list Virtualization@xxxxxxxxxxxxxxxxxxxxxxxxxx https://lists.linuxfoundation.org/mailman/listinfo/virtualization