Date:   Wed, 22 Feb 2023 11:50:51 -0800
From:   "Paul E. McKenney" <paulmck@kernel.org>
To:     Alan Stern <stern@rowland.harvard.edu>
Cc:     Joel Fernandes <joel@joelfernandes.org>,
        linux-kernel@vger.kernel.org, Boqun Feng <boqun.feng@gmail.com>,
        Jade Alglave <j.alglave@ucl.ac.uk>,
        Luc Maranget <luc.maranget@inria.fr>,
        Peter Zijlstra <peterz@infradead.org>,
        Will Deacon <will.deacon@arm.com>,
        Jonas Oberhauser <jonas.oberhauser@huaweicloud.com>,
        Akira Yokosawa <akiyks@gmail.com>,
        Andrea Parri <parri.andrea@gmail.com>,
        Daniel Lustig <dlustig@nvidia.com>,
        David Howells <dhowells@redhat.com>,
        Jonas Oberhauser <jonas.oberhauser@huawei.com>,
        linux-arch@vger.kernel.org, Nicholas Piggin <npiggin@gmail.com>,
        Paul =?iso-8859-1?Q?Heidekr=FCger?= <paul.heidekrueger@in.tum.de>,
        Will Deacon <will@kernel.org>
Subject: Re: [PATCH] tools/memory-model: Add details about SRCU read-side
 critical sections
Message-ID: <20230222195051.GT2948950@paulmck-ThinkPad-P17-Gen-1>
Reply-To: paulmck@kernel.org
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On Mon, Feb 20, 2023 at 04:06:13PM -0500, Alan Stern wrote:
> On Sun, Feb 19, 2023 at 12:13:14PM -0500, Joel Fernandes wrote:
> > On Sun, Feb 19, 2023 at 12:11 PM Joel Fernandes <joel@joelfernandes.org> wrote:
> > > Even though it may be redundant: would it be possible to also mention
> > > (after this paragraph) that this case forms an undesirable "->rf" link
> > > between B and C, which then causes us to link A and D as a result?
> > >
> > > A[srcu-lock] ->data B[once] ->rf C[once] ->data D[srcu-unlock].
> > 
> > Apologies, I meant here, care must be taken to avoid:
> > 
> > A[srcu-lock] ->data B[srcu-unlock] ->rf C[srcu-lock] ->data D[srcu-unlock].
> 
> Revised patch below.  I changed more than just this bit.  Mostly small 
> edits to improve readability, but I did add a little additional 
> material.

Looks good to me, thank you!

Would you like to send a formal patch, or are you thinking in terms
of making other changes first?

							Thanx, Paul

> Alan
> 
> 
> 
> --- usb-devel.orig/tools/memory-model/Documentation/explanation.txt
> +++ usb-devel/tools/memory-model/Documentation/explanation.txt
> @@ -28,9 +28,10 @@ Explanation of the Linux-Kernel Memory C
>    20. THE HAPPENS-BEFORE RELATION: hb
>    21. THE PROPAGATES-BEFORE RELATION: pb
>    22. RCU RELATIONS: rcu-link, rcu-gp, rcu-rscsi, rcu-order, rcu-fence, and rb
> -  23. LOCKING
> -  24. PLAIN ACCESSES AND DATA RACES
> -  25. ODDS AND ENDS
> +  23. SRCU READ-SIDE CRITICAL SECTIONS
> +  24. LOCKING
> +  25. PLAIN ACCESSES AND DATA RACES
> +  26. ODDS AND ENDS
>  
>  
>  
> @@ -1848,14 +1849,169 @@ section in P0 both starts before P1's gr
>  before it does, and the critical section in P2 both starts after P1's
>  grace period does and ends after it does.
>  
> -Addendum: The LKMM now supports SRCU (Sleepable Read-Copy-Update) in
> -addition to normal RCU.  The ideas involved are much the same as
> -above, with new relations srcu-gp and srcu-rscsi added to represent
> -SRCU grace periods and read-side critical sections.  There is a
> -restriction on the srcu-gp and srcu-rscsi links that can appear in an
> -rcu-order sequence (the srcu-rscsi links must be paired with srcu-gp
> -links having the same SRCU domain with proper nesting); the details
> -are relatively unimportant.
> +The LKMM supports SRCU (Sleepable Read-Copy-Update) in addition to
> +normal RCU.  The ideas involved are much the same as above, with new
> +relations srcu-gp and srcu-rscsi added to represent SRCU grace periods
> +and read-side critical sections.  However, there are some important
> +differences between RCU read-side critical sections and their SRCU
> +counterparts, as described in the next section.
> +
> +
> +SRCU READ-SIDE CRITICAL SECTIONS
> +--------------------------------
> +
> +The LKMM models uses the srcu-rscsi relation to model SRCU read-side
> +critical sections.  They are different from RCU read-side critical
> +sections in the following respects:
> +
> +1.	Unlike the analogous RCU primitives, synchronize_srcu(),
> +	srcu_read_lock(), and srcu_read_unlock() take a pointer to a
> +	struct srcu_struct as an argument.  This structure is called
> +	an SRCU domain, and calls linked by srcu-rscsi must have the
> +	same domain.  Read-side critical sections and grace periods
> +	associated with different domains are independent of one
> +	another; the SRCU version of the RCU Guarantee applies only
> +	to pairs of critical sections and grace periods having the
> +	same domain.
> +
> +2.	srcu_read_lock() returns a value, called the index, which must
> +	be passed to the matching srcu_read_unlock() call.  Unlike
> +	rcu_read_lock() and rcu_read_unlock(), an srcu_read_lock()
> +	call does not always have to match the next unpaired
> +	srcu_read_unlock().  In fact, it is possible for two SRCU
> +	read-side critical sections to overlap partially, as in the
> +	following example (where s is an srcu_struct and idx1 and idx2
> +	are integer variables):
> +
> +		idx1 = srcu_read_lock(&s);	// Start of first RSCS
> +		idx2 = srcu_read_lock(&s);	// Start of second RSCS
> +		srcu_read_unlock(&s, idx1);	// End of first RSCS
> +		srcu_read_unlock(&s, idx2);	// End of second RSCS
> +
> +	The matching is determined entirely by the domain pointer and
> +	index value.  By contrast, if the calls had been
> +	rcu_read_lock() and rcu_read_unlock() then they would have
> +	created two nested (fully overlapping) read-side critical
> +	sections: an inner one and an outer one.
> +
> +3.	The srcu_down_read() and srcu_up_read() primitives work
> +	exactly like srcu_read_lock() and srcu_read_unlock(), except
> +	that matching calls don't have to execute on the same CPU.
> +	(The names are meant to be suggestive of operations on
> +	semaphores.)  Since the matching is determined by the domain
> +	pointer and index value, these primitives make it possible for
> +	an SRCU read-side critical section to start on one CPU and end
> +	on another, so to speak.
> +
> +In order to account for these properties of SRCU, the LKMM models
> +srcu_read_lock() as a special type of load event (which is
> +appropriate, since it takes a memory location as argument and returns
> +a value, just as a load does) and srcu_read_unlock() as a special type
> +of store event (again appropriate, since it takes as arguments a
> +memory location and a value).  These loads and stores are annotated as
> +belonging to the "srcu-lock" and "srcu-unlock" event classes
> +respectively.
> +
> +This approach allows the LKMM to tell whether two events are
> +associated with the same SRCU domain, simply by checking whether they
> +access the same memory location (i.e., they are linked by the loc
> +relation).  It also gives a way to tell which unlock matches a
> +particular lock, by checking for the presence of a data dependency
> +from the load (srcu-lock) to the store (srcu-unlock).  For example,
> +given the situation outlined earlier (with statement labels added):
> +
> +	A: idx1 = srcu_read_lock(&s);
> +	B: idx2 = srcu_read_lock(&s);
> +	C: srcu_read_unlock(&s, idx1);
> +	D: srcu_read_unlock(&s, idx2);
> +
> +the LKMM will treat A and B as loads from s yielding values saved in
> +idx1 and idx2 respectively.  Similarly, it will treat C and D as
> +though they stored the values from idx1 and idx2 in s.  The end result
> +is much as if we had written:
> +
> +	A: idx1 = READ_ONCE(s);
> +	B: idx2 = READ_ONCE(s);
> +	C: WRITE_ONCE(s, idx1);
> +	D: WRITE_ONCE(s, idx2);
> +
> +except for the presence of the special srcu-lock and srcu-unlock
> +annotations.  You can see at once that we have A ->data C and
> +B ->data D.  These dependencies tell the LKMM that C is the
> +srcu-unlock event matching srcu-lock event A, and D is the
> +srcu-unlock event matching srcu-lock event B.
> +
> +This approach is admittedly a hack, and it has the potential to lead
> +to problems.  For example, in:
> +
> +	idx1 = srcu_read_lock(&s);
> +	srcu_read_unlock(&s, idx1);
> +	idx2 = srcu_read_lock(&s);
> +	srcu_read_unlock(&s, idx2);
> +
> +the LKMM will believe that idx2 must have the same value as idx1,
> +since it reads from the immediately preceding store of idx1 in s.
> +Fortunately this won't matter, assuming that litmus tests never do
> +anything with SRCU index values other than pass them to
> +srcu_read_unlock() or srcu_up_read() calls.
> +
> +However, sometimes it is necessary to store an index value in a
> +shared variable temporarily.  In fact, this is the only way for
> +srcu_down_read() to pass the index it gets to an srcu_up_read() call
> +on a different CPU.  In more detail, we might have soething like:
> +
> +	struct srcu_struct s;
> +	int x;
> +
> +	P0()
> +	{
> +		int r0;
> +
> +		A: r0 = srcu_down_read(&s);
> +		B: WRITE_ONCE(x, r0);
> +	}
> +
> +	P1()
> +	{
> +		int r1;
> +
> +		C: r1 = READ_ONCE(x);
> +		D: srcu_up_read(&s, r1);
> +	}
> +
> +Assuming that P1 executes after P0 and does read the index value
> +stored in x, we can write this (using brackets to represent event
> +annotations) as:
> +
> +	A[srcu-lock] ->data B[once] ->rf C[once] ->data D[srcu-unlock].
> +
> +The LKMM defines a carries-srcu-data relation to express this
> +pattern; it permits an arbitrarily long sequence of
> +
> +	data ; rf
> +
> +pairs (that is, a data link followed by an rf link) to occur between
> +an srcu-lock event and the final data dependency leading to the
> +matching srcu-unlock event.  carry-srcu-data is complicated by the
> +need to ensure that none of the intermediate store events in this
> +sequence are instances of srcu-unlock.  This is necessary because in a
> +pattern like the one above:
> +
> +	A: idx1 = srcu_read_lock(&s);
> +	B: srcu_read_unlock(&s, idx1);
> +	C: idx2 = srcu_read_lock(&s);
> +	D: srcu_read_unlock(&s, idx2);
> +
> +the LKMM treats B as a store to the variable s and C as a load from
> +that variable, creating an undesirable rf link from B to C:
> +
> +	A ->data B ->rf C ->data D.
> +
> +This would cause carry-srcu-data to mistakenly extend a data
> +dependency from A to D and give the impression that D was the
> +srcu-unlock event matching A's srcu-lock.  To avoid such problems,
> +carry-srcu-data does not accept sequences in which the ends of any of
> +the intermediate ->data links (B above) is an srcu-unlock event.
>  
>  
>  LOCKING
>