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7c9b2bf677
QemuEvents are used heavily by call_rcu. We do not want them to be slow, but the current implementation does a kernel call on every invocation of qemu_event_* and won't cut it. So, wrap a Win32 manual-reset event with a fast userspace path. The states and transitions are the same as for the futex and mutex/condvar implementations, but the slow path is different of course. The idea is to reset the Win32 event lazily, as part of a test-reset-test-wait sequence. Such a sequence is, indeed, how QemuEvents are used by RCU and other subsystems! The patch includes a formal model of the algorithm. Tested-by: Stefan Weil <sw@weilnetz.de> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com> Signed-off-by: Stefan Weil <sw@weilnetz.de>
99 lines
3.7 KiB
Promela
99 lines
3.7 KiB
Promela
/*
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* This model describes the implementation of QemuEvent in
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* util/qemu-thread-win32.c.
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*
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* Author: Paolo Bonzini <pbonzini@redhat.com>
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*
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* This file is in the public domain. If you really want a license,
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* the WTFPL will do.
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*
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* To verify it:
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* spin -a docs/event.promela
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* gcc -O2 pan.c -DSAFETY
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* ./a.out
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*/
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bool event;
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int value;
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/* Primitives for a Win32 event */
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#define RAW_RESET event = false
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#define RAW_SET event = true
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#define RAW_WAIT do :: event -> break; od
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#if 0
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/* Basic sanity checking: test the Win32 event primitives */
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#define RESET RAW_RESET
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#define SET RAW_SET
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#define WAIT RAW_WAIT
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#else
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/* Full model: layer a userspace-only fast path on top of the RAW_*
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* primitives. SET/RESET/WAIT have exactly the same semantics as
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* RAW_SET/RAW_RESET/RAW_WAIT, but try to avoid invoking them.
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*/
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#define EV_SET 0
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#define EV_FREE 1
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#define EV_BUSY -1
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int state = EV_FREE;
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int xchg_result;
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#define SET if :: state != EV_SET -> \
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atomic { /* xchg_result=xchg(state, EV_SET) */ \
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xchg_result = state; \
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state = EV_SET; \
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} \
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if :: xchg_result == EV_BUSY -> RAW_SET; \
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:: else -> skip; \
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fi; \
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:: else -> skip; \
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fi
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#define RESET if :: state == EV_SET -> atomic { state = state | EV_FREE; } \
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:: else -> skip; \
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fi
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int tmp1, tmp2;
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#define WAIT tmp1 = state; \
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if :: tmp1 != EV_SET -> \
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if :: tmp1 == EV_FREE -> \
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RAW_RESET; \
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atomic { /* tmp2=cas(state, EV_FREE, EV_BUSY) */ \
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tmp2 = state; \
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if :: tmp2 == EV_FREE -> state = EV_BUSY; \
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:: else -> skip; \
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fi; \
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} \
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if :: tmp2 == EV_SET -> tmp1 = EV_SET; \
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:: else -> tmp1 = EV_BUSY; \
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fi; \
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:: else -> skip; \
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fi; \
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assert(tmp1 != EV_FREE); \
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if :: tmp1 == EV_BUSY -> RAW_WAIT; \
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:: else -> skip; \
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fi; \
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:: else -> skip; \
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fi
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#endif
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active proctype waiter()
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{
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if
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:: !value ->
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RESET;
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if
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:: !value -> WAIT;
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:: else -> skip;
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fi;
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:: else -> skip;
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fi;
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assert(value);
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}
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active proctype notifier()
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{
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value = true;
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SET;
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}
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