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Currently, herdtools version information appears no fewer than three times in the LKMM source, which is difficult to maintain. This commit therefore places the required version in one place, namely the tools/memory-model/README file. Signed-off-by: Andrea Parri <andrea.parri@amarulasolutions.com> Signed-off-by: Paul E. McKenney <paulmck@linux.ibm.com> Acked-by: Alan Stern <stern@rowland.harvard.edu>
144 lines
4.5 KiB
Plaintext
144 lines
4.5 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 herd 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 *)
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let ALL-LOCKS = LKR | LKW | UL | LF | RU
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flag ~empty [M \ IW] ; 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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(* 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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(* rfe for LF events *)
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let all-possible-rfe-lf =
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(*
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* Given an LF event r, compute the possible rfe edges for that event
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* (all those starting from LKW events in other threads),
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* and then convert that relation to a set of single-edge relations.
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*)
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let possible-rfe-lf r =
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let pair-to-relation p = p ++ 0
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in map pair-to-relation ((LKW * {r}) & loc & ext)
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(* Do this for each LF event r that isn't in rfi-lf *)
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in map possible-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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* RU, i.e., spin_is_locked() returning False, is slightly different.
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* We rely on the memory model to rule out cases where spin_is_locked()
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* within one of the lock's critical sections returns False.
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*)
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(* rfi for RU events: an RU may read from the last po-previous UL *)
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let rfi-ru = ([UL] ; po-loc ; [RU]) \ ([UL] ; po-loc ; [LKW] ; po-loc)
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(* rfe for RU events: an RU may read from an external UL or the initial write *)
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let all-possible-rfe-ru =
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let possible-rfe-ru r =
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let pair-to-relation p = p ++ 0
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in map pair-to-relation (((UL | IW) * {r}) & loc & ext)
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in map possible-rfe-ru RU
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(* Generate all rf relations for RU events *)
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with rfe-ru from cross(all-possible-rfe-ru)
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let rf-ru = rfe-ru | rfi-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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