fis-gtm/sr_port/wcs_flu.h

63 lines
3.2 KiB
C

/****************************************************************
* *
* Copyright 2001, 2010 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 __WCS_FLU_H__
#define __WCS_FLU_H__
boolean_t wcs_flu(uint4 options);
/* Uncomment the below #define if you want to write EPOCH records for EVERY update.
* This feature (when coupled with replication can turn out to be very useful to debug integ errors.
* Given that an integ error occurred, through a sequence of binary search like rollbacks, we can find out
* exactly what transaction number the error occurred so we can have a copy of the db for the prior transaction
* and compare it with the db after the bad transaction and see exactly what changed. This was very useful
* in figuring out the cause of the DBKEYORD error as part of enabling clues for TP (C9905-001119).
*
* #define UNCONDITIONAL_EPOCH
*/
#ifdef UNCONDITIONAL_EPOCH
# define UNCONDITIONAL_EPOCH_ONLY(X) X
#else
# define UNCONDITIONAL_EPOCH_ONLY(X)
#endif
#define SET_WCS_FLU_FAIL_STATUS(status, csd) \
{ /* Reasons we currently know why wcs_flu can fail (when called from t_end or tp_tend) is if \
* a) wcs_flu avoided invoking wcs_recover because csd->wc_blocked is already set to TRUE. \
* (this is possible only if cache-recoveries are induced by white-box testing). \
* OR b) if wcs_flu encountered errors in the "jnl_flush" call. The only way we know this \
* out-of-design situation can happen is if journal buffer fields are tampered \
* with by white-box testing. In this case csd->wc_blocked need not be TRUE. \
* In either case, white-box testing should be true. Assert accordingly. \
*/ \
assert(gtm_white_box_test_case_enabled); \
assert(CDB_STAGNATE >= t_tries); \
if ((dba_bg == csd->acc_meth) && (CDB_STAGNATE <= t_tries)) \
{ /* We are in final retry but have to restart because some other process encountered \
* an error in phase2 of commit and has set wc_blocked to TRUE causing us (in-crit \
* process) not to be able to flush the cache. We do not want to increase t_tries in \
* this case as that will cause us to error out of the transaction. Instead treat this \
* like a helped out case. This will cause us to retry the transaction and as part of \
* that we will perform a cache-recovery that should reset csd->wc_blocked to FALSE. \
* This should cause the wcs_flu() done in the next retry to succeed unless yet another \
* process set wc_blocked to TRUE as part of its phase2 commit. In the worst case we \
* could restart as many times as there are processes concurrently running phase2 \
* commits. Since we dont release crit throughout this final-retry restart loop, we \
* are guaranteed not to do infinite retries. \
*/ \
status = (enum cdb_sc)cdb_sc_helpedout; \
} else \
status = (enum cdb_sc)cdb_sc_cacheprob; \
}
#endif