/**************************************************************** * * * Copyright 2001, 2012 Fidelity Information Services, Inc * * * * This source code contains the intellectual property * * of its copyright holder(s), and is made available * * under a license. If you do not know the terms of * * the license, please stop and do not read further. * * * ****************************************************************/ #ifndef SLEEP_CNT_H_INCLUDED #define SLEEP_CNT_H_INCLUDED #include "min_max.h" /* Note: GT.M code *MUST*NOT* make use of the sleep() function because use of the sleep() function causes problems with GT.M's timers on some platforms. Specifically, the sleep() function causes the SIGARLM handler to be silently deleted on Solaris systems (through Solaris 9 at least). This leads to lost timer pops and has the potential for system hangs. The proper long sleep mechanism is hiber_start which can be accessed through the LONG_SLEEP macro defined in mdef.h. */ /* It has been found that on some platforms wcs_sleep(1msec) takes a lot longer than 1 msec to return. We think * this is because the frequency of the kernel's timer interrupt is a lot lower in older kernels at least in Linux. * Therefore we should never use MINSLPTIME (1msec) in sleep loops as it will result in a total loop sleep time * that is potentially an order of magnitude higher than the desired total sleep time. 10msec seems to work a lot * more effectively so use that for now until all unix kernels can support 1msec sleep granularity more accurately. */ #define MINSLPTIME 1 /* min (millisec) sleep possible thru wcs_sleep. See comment above about loop usage */ #define MAXSLPTIME 10 /* max (millisec) sleep possible thru wcs_sleep */ #define SLEEP_ONE_MIN 6000 /* # of wcs_sleep iterations (each max MAXSLPTIME msec) needed to wait 1 minute */ #define MAXWTSTARTWAIT SLEEP_ONE_MIN #define BUF_OWNER_STUCK SLEEP_ONE_MIN #define UNIX_GETSPACEWAIT (BUF_OWNER_STUCK * 2) #define MAXGETSPACEWAIT SLEEP_ONE_MIN #define MAX_CRIT_TRY SLEEP_ONE_MIN #define MAX_BACKUP_FLUSH_TRY 650 #define MAX_OPEN_RETRY SLEEP_ONE_MIN /* vms only: for dbfilop and others trying to open the db file */ #define JNL_MAX_FLUSH_TRIES SLEEP_ONE_MIN #define JNL_FLUSH_PROG_FACTOR 2 #define JNL_FLUSH_PROG_TRIES (JNL_MAX_FLUSH_TRIES * JNL_FLUSH_PROG_FACTOR) #define MAX_LCK_TRIES SLEEP_ONE_MIN /* vms only: wait in mu_rndwn_file */ #define MAX_FSYNC_WAIT_CNT (2 * SLEEP_ONE_MIN) /* 2 mins of total wait for fsync, before GTMASSERTing */ #define MAX_TQREAD_WAIT (4 * BUF_OWNER_STUCK) /* 4 mins of total wait for t_qread, before GTMASSERTing */ #define PHASE2_COMMIT_SLEEP MAXSLPTIME /* 10 msec inter-iteration sleep wait for active phase2 commits */ #define PHASE2_COMMIT_WAIT SLEEP_ONE_MIN #define PHASE2_COMMIT_WAIT_HTBT 8 /* = 8 heartbeats (each 8 seconds) = 64 seconds wait (used in Unix) */ #define SLEEP_INSTFREEZEWAIT 100 /* 100-msec wait between re-checks of instance freeze status */ #define SLEEP_IORETRYWAIT 500 /* 500-msec wait between retries of the same write operation */ #define SLEEP_JNLQIOLOCKWAIT 1 /* 1-msec wait */ #define MAXJNLQIOLOCKWAIT 4000 /* 4sec = 4000 1-msec waits to see if io_in_prog lock is free in wcs_flu */ #define SLEEP_WRTLATCHWAIT 1 /* 1-msec wait */ #define MAXWRTLATCHWAIT 1000 /* 1sec = 1000 * 1-msec time waits to see if write-latch value of a * cache-record becomes free (i.e. LATCH_CLEAR) in db_csh_getn() */ #define RETRY_CASLATCH_CUTOFF 16 /* retry loop index cutoff to try performCASLatchCheck() */ #define MAXWAIT2KILL (2 * SLEEP_ONE_MIN) /* KILLs wait for MAXWAIT2KILL minute(s) for inhibit_kills * to become zero */ /* For use by spin locks, SLEEP is ms, total should be under a minute */ #define LOCK_TRIES (50 * 4 * 1000) /* outer loop: 50 secs, 1 loop in 4 is sleep of 1 ms */ #define LOCK_SPINS 1024 /* inner spin loop base */ #define LOCK_SPINS_PER_4PROC 256 /* Additional lock spins for every 4 processors past first 8 */ #define LOCK_SLEEP 1 /* very short sleep before repoll lock */ /* To compute the maximum duration of an inner spinloop, the following macro can be used. The theory behind this macro is that the basic definition of LOCK_SPINS is good for approximately 8 processors but needs to be appropriately increased for each additional 4 processors. */ #define MAX_LOCK_SPINS(base, proc) (base + MAX(0, ((((proc - 7) * LOCK_SPINS_PER_4PROC) / 4)))) /* Maximum duration (in minutes) that a process waits for the completion of read-in-progress after which * it stops waiting but rather continue fixing the remaining cache records. This is done to avoid * waiting a long time in case there are many corrupt global buffers. After waiting 1 minute each for the * first 4 cache-records (a wait time of 4 mins in total), we might as well stop waiting more and fix * the remaining crs. The value of 4 minutes was chosen because that is what t_qread currently has as its * maximum wait for reading a block from disk into the global buffer. */ #define MAX_WAIT_FOR_RIP 4 #endif