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/*-------------------------------------------------------------------------
*
* s_lock.c
* Hardware-dependent implementation of spinlocks.
*
*
* Portions Copyright (c) 1996-2003, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* $Header: /cvsroot/pgsql/src/backend/storage/lmgr/s_lock.c,v 1.16 2003/08/08 21:42:00 momjian Exp $
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <sys/time.h>
#include <unistd.h>
#include "storage/s_lock.h"
/*
* s_lock_stuck() - complain about a stuck spinlock
*/
static void
s_lock_stuck(volatile slock_t *lock, const char *file, int line)
{
#if defined(S_LOCK_TEST)
fprintf(stderr,
"\nStuck spinlock (%p) detected at %s:%d.\n",
lock, file, line);
exit(1);
#else
elog(PANIC, "stuck spinlock (%p) detected at %s:%d",
lock, file, line);
#endif
}
/*
* s_lock(lock) - platform-independent portion of waiting for a spinlock.
*/
void
s_lock(volatile slock_t *lock, const char *file, int line)
{
/*
* We loop tightly for awhile, then delay using select() and try
* again. Preferably, "awhile" should be a small multiple of the
* maximum time we expect a spinlock to be held. 100 iterations seems
* about right. In most multi-CPU scenarios, the spinlock is probably
* held by a process on another CPU and will be released before we
* finish 100 iterations. However, on a uniprocessor, the tight loop
* is just a waste of cycles, so don't iterate thousands of times.
*
* Once we do decide to block, we use randomly increasing select()
* delays. The first delay is 10 msec, then the delay randomly
* increases to about one second, after which we reset to 10 msec and
* start again. The idea here is that in the presence of heavy
* contention we need to increase the delay, else the spinlock holder
* may never get to run and release the lock. (Consider situation
* where spinlock holder has been nice'd down in priority by the
* scheduler --- it will not get scheduled until all would-be
* acquirers are sleeping, so if we always use a 10-msec sleep, there
* is a real possibility of starvation.) But we can't just clamp the
* delay to an upper bound, else it would take a long time to make a
* reasonable number of tries.
*
* We time out and declare error after NUM_DELAYS delays (thus, exactly
* that many tries). With the given settings, this will usually take
* 3 or so minutes. It seems better to fix the total number of tries
* (and thus the probability of unintended failure) than to fix the
* total time spent.
*
* The select() delays are measured in centiseconds (0.01 sec) because 10
* msec is a common resolution limit at the OS level.
*/
#define SPINS_PER_DELAY 100
#define NUM_DELAYS 1000
#define MIN_DELAY_CSEC 1
#define MAX_DELAY_CSEC 100
int spins = 0;
int delays = 0;
int cur_delay = MIN_DELAY_CSEC;
struct timeval delay;
while (TAS(lock))
{
if (++spins > SPINS_PER_DELAY)
{
if (++delays > NUM_DELAYS)
s_lock_stuck(lock, file, line);
delay.tv_sec = cur_delay / 100;
delay.tv_usec = (cur_delay % 100) * 10000;
(void) select(0, NULL, NULL, NULL, &delay);
#if defined(S_LOCK_TEST)
fprintf(stdout, "*");
fflush(stdout);
#endif
/* increase delay by a random fraction between 1X and 2X */
cur_delay += (int) (cur_delay *
(((double) random()) / ((double) MAX_RANDOM_VALUE)) + 0.5);
/* wrap back to minimum delay when max is exceeded */
if (cur_delay > MAX_DELAY_CSEC)
cur_delay = MIN_DELAY_CSEC;
spins = 0;
}
}
}
/*
* Various TAS implementations that cannot live in s_lock.h as no inline
* definition exists (yet).
* In the future, get rid of tas.[cso] and fold it into this file.
*/
#if defined(__GNUC__)
/*************************************************************************
* All the gcc flavors that are not inlined
*/
#if defined(__m68k__)
static void
tas_dummy() /* really means: extern int tas(slock_t
* **lock); */
{
__asm__ __volatile__(
"\
.global _tas \n\
_tas: \n\
movel sp@(0x4),a0 \n\
tas a0@ \n\
beq _success \n\
moveq #-128,d0 \n\
rts \n\
_success: \n\
moveq #0,d0 \n\
rts \n\
");
}
#endif /* __m68k__ */
#if defined(__mips__) && !defined(__sgi)
static void
tas_dummy()
{
__asm__ __volatile__(
"\
.global tas \n\
tas: \n\
.frame $sp, 0, $31 \n\
.set push \n\
.set mips2 \n\
ll $14, 0($4) \n\
or $15, $14, 1 \n\
sc $15, 0($4) \n\
.set pop \n\
beq $15, 0, fail\n\
bne $14, 0, fail\n\
li $2, 0 \n\
.livereg 0x2000FF0E,0x00000FFF \n\
j $31 \n\
fail: \n\
li $2, 1 \n\
j $31 \n\
");
}
#endif /* __mips__ && !__sgi */
#else /* not __GNUC__ */
/***************************************************************************
* All non gcc
*/
#if defined(sun3)
static void
tas_dummy() /* really means: extern int tas(slock_t
* *lock); */
{
asm("LLA0:");
asm(" .data");
asm(" .text");
asm("|#PROC# 04");
asm(" .globl _tas");
asm("_tas:");
asm("|#PROLOGUE# 1");
asm(" movel sp@(0x4),a0");
asm(" tas a0@");
asm(" beq LLA1");
asm(" moveq #-128,d0");
asm(" rts");
asm("LLA1:");
asm(" moveq #0,d0");
asm(" rts");
asm(" .data");
}
#endif /* sun3 */
#if defined(NEED_SPARC_TAS_ASM)
/*
* sparc machines not using gcc
*/
static void
tas_dummy() /* really means: extern int tas(slock_t
* *lock); */
{
asm(".seg \"data\"");
asm(".seg \"text\"");
asm("_tas:");
/*
* Sparc atomic test and set (sparc calls it "atomic load-store")
*/
asm("ldstub [%r8], %r8");
asm("retl");
asm("nop");
}
#endif /* NEED_SPARC_TAS_ASM */
#if defined(NEED_I386_TAS_ASM)
/* non gcc i386 based things */
#endif /* NEED_I386_TAS_ASM */
#endif /* not __GNUC__ */
/*****************************************************************************/
#if defined(S_LOCK_TEST)
/*
* test program for verifying a port's spinlock support.
*/
volatile slock_t test_lock;
int
main()
{
srandom((unsigned int) time(NULL));
S_INIT_LOCK(&test_lock);
if (!S_LOCK_FREE(&test_lock))
{
printf("S_LOCK_TEST: failed, lock not initialized\n");
return 1;
}
S_LOCK(&test_lock);
if (S_LOCK_FREE(&test_lock))
{
printf("S_LOCK_TEST: failed, lock not locked\n");
return 1;
}
S_UNLOCK(&test_lock);
if (!S_LOCK_FREE(&test_lock))
{
printf("S_LOCK_TEST: failed, lock not unlocked\n");
return 1;
}
S_LOCK(&test_lock);
if (S_LOCK_FREE(&test_lock))
{
printf("S_LOCK_TEST: failed, lock not re-locked\n");
return 1;
}
printf("S_LOCK_TEST: this will print %d stars and then\n", NUM_DELAYS);
printf(" exit with a 'stuck spinlock' message\n");
printf(" if S_LOCK() and TAS() are working.\n");
fflush(stdout);
s_lock(&test_lock, __FILE__, __LINE__);
printf("S_LOCK_TEST: failed, lock not locked\n");
return 1;
}
#endif /* S_LOCK_TEST */
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