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ea6ee1bac6
Code reorganization for the lock.cat file in tools/memory-model: Improve the efficiency by ruling out right at the start RU events (spin_is_locked() calls that return False) inside a critical section for the same lock. Improve the organization of the code for handling LF and RU events by pulling the definitions of the pair-to-relation macro out from two different complicated compound expressions, using a single standalone definition instead. Rewrite the calculations of the rf relation for LF and RU events, for greater clarity. Signed-off-by: Alan Stern <stern@rowland.harvard.edu> Tested-by: Andrea Parri <parri.andrea@gmail.com> Acked-by: Andrea Parri <parri.andrea@gmail.com> Signed-off-by: Paul E. McKenney <paulmck@kernel.org>
158 lines
5.1 KiB
Plaintext
158 lines
5.1 KiB
Plaintext
// SPDX-License-Identifier: GPL-2.0+
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(*
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* Copyright (C) 2016 Luc Maranget <luc.maranget@inria.fr> for Inria
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* Copyright (C) 2017 Alan Stern <stern@rowland.harvard.edu>
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*)
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(*
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* Generate coherence orders and handle lock operations
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*)
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include "cross.cat"
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(*
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* The lock-related events generated by herd7 are as follows:
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*
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* LKR Lock-Read: the read part of a spin_lock() or successful
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* spin_trylock() read-modify-write event pair
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* LKW Lock-Write: the write part of a spin_lock() or successful
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* spin_trylock() RMW event pair
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* UL Unlock: a spin_unlock() event
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* LF Lock-Fail: a failed spin_trylock() event
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* RL Read-Locked: a spin_is_locked() event which returns True
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* RU Read-Unlocked: a spin_is_locked() event which returns False
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*
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* LKR and LKW events always come paired, like all RMW event sequences.
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*
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* LKR, LF, RL, and RU are read events; LKR has Acquire ordering.
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* LKW and UL are write events; UL has Release ordering.
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* LKW, LF, RL, and RU have no ordering properties.
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*)
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(* Backward compatibility *)
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let RL = try RL with emptyset
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let RU = try RU with emptyset
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(* Treat RL as a kind of LF: a read with no ordering properties *)
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let LF = LF | RL
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(* There should be no ordinary R or W accesses to spinlocks or SRCU structs *)
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let ALL-LOCKS = LKR | LKW | UL | LF | RU | Srcu-lock | Srcu-unlock | Sync-srcu
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flag ~empty [M \ IW \ ALL-LOCKS] ; loc ; [ALL-LOCKS] as mixed-lock-accesses
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(* Link Lock-Reads to their RMW-partner Lock-Writes *)
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let lk-rmw = ([LKR] ; po-loc ; [LKW]) \ (po ; po)
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let rmw = rmw | lk-rmw
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(* The litmus test is invalid if an LKR/LKW event is not part of an RMW pair *)
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flag ~empty LKW \ range(lk-rmw) as unpaired-LKW
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flag ~empty LKR \ domain(lk-rmw) as unpaired-LKR
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(*
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* An LKR must always see an unlocked value; spin_lock() calls nested
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* inside a critical section (for the same lock) always deadlock.
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*)
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empty ([LKW] ; po-loc ; [LKR]) \ (po-loc ; [UL] ; po-loc) as lock-nest
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(*
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* In the same way, spin_is_locked() inside a critical section must always
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* return True (no RU events can be in a critical section for the same lock).
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*)
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empty ([LKW] ; po-loc ; [RU]) \ (po-loc ; [UL] ; po-loc) as nested-is-locked
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(* The final value of a spinlock should not be tested *)
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flag ~empty [FW] ; loc ; [ALL-LOCKS] as lock-final
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(*
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* Put lock operations in their appropriate classes, but leave UL out of W
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* until after the co relation has been generated.
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*)
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let R = R | LKR | LF | RU
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let W = W | LKW
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let Release = Release | UL
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let Acquire = Acquire | LKR
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(* Match LKW events to their corresponding UL events *)
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let critical = ([LKW] ; po-loc ; [UL]) \ (po-loc ; [LKW | UL] ; po-loc)
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flag ~empty UL \ range(critical) as unmatched-unlock
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(* Allow up to one unmatched LKW per location; more must deadlock *)
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let UNMATCHED-LKW = LKW \ domain(critical)
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empty ([UNMATCHED-LKW] ; loc ; [UNMATCHED-LKW]) \ id as unmatched-locks
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(* rfi for LF events: link each LKW to the LF events in its critical section *)
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let rfi-lf = ([LKW] ; po-loc ; [LF]) \ ([LKW] ; po-loc ; [UL] ; po-loc)
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(* Utility macro to convert a single pair to a single-edge relation *)
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let pair-to-relation p = p ++ 0
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(*
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* If a given LF event e is outside a critical section, it cannot read
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* internally but it may read from an LKW event in another thread.
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* Compute the relation containing these possible edges.
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*)
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let possible-rfe-noncrit-lf e = (LKW * {e}) & loc & ext
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(* Compute set of sets of possible rfe edges for LF events *)
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let all-possible-rfe-lf =
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(*
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* Convert the possible-rfe-noncrit-lf relation for e
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* to a set of single edges
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*)
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let set-of-singleton-rfe-lf e =
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map pair-to-relation (possible-rfe-noncrit-lf e)
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(* Do this for each LF event e that isn't in rfi-lf *)
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in map set-of-singleton-rfe-lf (LF \ range(rfi-lf))
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(* Generate all rf relations for LF events *)
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with rfe-lf from cross(all-possible-rfe-lf)
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let rf-lf = rfe-lf | rfi-lf
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(*
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* A given RU event e may read internally from the last po-previous UL,
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* or it may read from a UL event in another thread or the initial write.
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* Compute the relation containing these possible edges.
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*)
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let possible-rf-ru e = (((UL * {e}) & po-loc) \
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([UL] ; po-loc ; [UL] ; po-loc)) |
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(((UL | IW) * {e}) & loc & ext)
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(* Compute set of sets of possible rf edges for RU events *)
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let all-possible-rf-ru =
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(* Convert the possible-rf-ru relation for e to a set of single edges *)
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let set-of-singleton-rf-ru e =
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map pair-to-relation (possible-rf-ru e)
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(* Do this for each RU event e *)
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in map set-of-singleton-rf-ru RU
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(* Generate all rf relations for RU events *)
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with rf-ru from cross(all-possible-rf-ru)
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(* Final rf relation *)
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let rf = rf | rf-lf | rf-ru
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(* Generate all co relations, including LKW events but not UL *)
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let co0 = co0 | ([IW] ; loc ; [LKW]) |
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(([LKW] ; loc ; [UNMATCHED-LKW]) \ [UNMATCHED-LKW])
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include "cos-opt.cat"
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let W = W | UL
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let M = R | W
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(* Merge UL events into co *)
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let co = (co | critical | (critical^-1 ; co))+
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let coe = co & ext
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let coi = co & int
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(* Merge LKR events into rf *)
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let rf = rf | ([IW | UL] ; singlestep(co) ; lk-rmw^-1)
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let rfe = rf & ext
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let rfi = rf & int
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let fr = rf^-1 ; co
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let fre = fr & ext
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let fri = fr & int
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show co,rf,fr
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