fis-gtm/sr_port/t_commit_cleanup.c

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/****************************************************************
* *
* 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. *
* *
****************************************************************/
#include "mdef.h"
#ifdef UNIX
#include "aswp.h"
#elif defined(VMS)
#include <descrip.h>
#endif
#include "gdsroot.h"
#include "gdsbt.h"
#include "gdskill.h"
#include "gtm_facility.h"
#include "fileinfo.h"
#include "gdsfhead.h"
#include "filestruct.h"
#include "cdb_sc.h"
#include "copy.h"
#include "error.h"
#include "gdscc.h"
#include "interlock.h"
#include "jnl.h"
#include "buddy_list.h" /* needed for tp.h */
#include "hashtab_int4.h" /* needed for tp.h */
#include "tp.h"
#include "secshr_db_clnup.h"
#include "t_commit_cleanup.h"
#include "process_deferred_stale.h"
#include "repl_msg.h" /* for gtmsource.h */
#include "gtmsource.h" /* for jnlpool_addrs structure definition */
#include "send_msg.h"
#include "have_crit.h"
GBLREF unsigned char cw_set_depth;
GBLREF cw_set_element cw_set[];
GBLREF sgmnt_addrs *cs_addrs;
GBLREF sgmnt_data_ptr_t cs_data;
GBLREF gd_region *gv_cur_region;
GBLREF unsigned int t_tries;
GBLREF uint4 dollar_tlevel;
GBLREF sgm_info *first_sgm_info;
GBLREF cache_rec_ptr_t cr_array[((MAX_BT_DEPTH * 2) - 1) * 2]; /* Maximum number of blocks that can be in transaction */
GBLREF unsigned int cr_array_index;
GBLREF boolean_t unhandled_stale_timer_pop;
GBLREF jnlpool_addrs jnlpool;
GBLREF uint4 process_id;
GBLREF jnlpool_ctl_ptr_t jnlpool_ctl, temp_jnlpool_ctl;
GBLREF gv_namehead *gv_target;
GBLREF uint4 update_trans;
GBLREF sgm_info *first_tp_si_by_ftok; /* List of participating regions in the TP transaction sorted on ftok order */
#ifdef UNIX
GBLREF jnl_gbls_t jgbl;
#endif
error_def(ERR_DBCOMMITCLNUP);
#define RESET_EARLY_TN_IF_NEEDED(csa) \
{ \
assert(!csa->t_commit_crit); \
csa->t_commit_crit = FALSE; \
if (csa->now_crit && (csa->ti->curr_tn == csa->ti->early_tn - 1)) \
csa->ti->early_tn = csa->ti->curr_tn; \
assert(!csa->now_crit || csa->ti->curr_tn == csa->ti->early_tn); \
}
#define RELEASE_JNLPOOL_LOCK_IF_NEEDED(jpl_reg) \
{ \
sgmnt_addrs *repl_csa; \
\
if (NULL != jpl_reg) \
{ \
repl_csa = &FILE_INFO(jpl_reg)->s_addrs; \
if (!repl_csa->hold_onto_crit) \
rel_lock(jpl_reg); \
} \
}
#define RESET_REG_SEQNO_IF_NEEDED(csa, jpl_csa) \
{ \
if (reg_seqno_reset) \
{ \
assert(csa->hdr->reg_seqno <= (jnlpool_ctl->jnl_seqno + 1)); \
assert(csa->now_crit && jpl_csa->now_crit); \
csa->hdr->reg_seqno = jnlpool_ctl->jnl_seqno; \
} \
}
boolean_t t_commit_cleanup(enum cdb_sc status, int signal)
{
boolean_t update_underway, reg_seqno_reset = FALSE, release_crit;
cache_rec_ptr_t cr;
sgm_info *si;
sgmnt_addrs *csa, *jpl_csa = NULL;
char *trstr;
gd_region *xactn_err_region, *jpl_reg = NULL;
cache_rec_ptr_t *tp_cr_array;
DEBUG_ONLY(unsigned int lcl_t_tries;)
assert(cdb_sc_normal != status);
xactn_err_region = gv_cur_region;
/* see comments in secshr_db_clnup for the commit logic flow as a sequence of steps in t_end and tp_tend and how
* t_commit_cleanup() and secshr_db_clnup() complement each other (one does the rollback and one the roll forward)
* update_underway is set to TRUE to indicate the commit is beyond rollback. It is set only if we hold crit on the region.
*/
update_underway = FALSE;
if (dollar_tlevel)
{
trstr = "TP";
/* Regions are committed in the ftok order using "first_tp_si_by_ftok". Also crit is released on each region
* as the commit completes. Take that into account while determining if update is underway. Note that this
* update_underway determining logic is shared by secshr_db_clnup as well so any changes here need to be made there.
*/
for (si = first_tp_si_by_ftok; (NULL != si); si = si->next_tp_si_by_ftok)
{
if (UPDTRNS_TCOMMIT_STARTED_MASK & si->update_trans)
{ /* Two possibilities.
* (a) case of duplicate set not creating any cw-sets but updating db curr_tn++.
* (b) Have completed commit for this region and have released crit on this region.
* (in a potentially multi-region TP transaction).
* In either case, update is underway and the transaction cannot be rolled back.
*/
update_underway = TRUE;
break;
}
if (NULL != si->first_cw_set)
{
csa = si->tp_csa;
if (T_UPDATE_UNDERWAY(csa))
{
update_underway = TRUE;
break;
}
}
}
} else
{
trstr = "NON-TP";
update_underway = (cs_addrs->now_crit && (UPDTRNS_TCOMMIT_STARTED_MASK & update_trans)
|| T_UPDATE_UNDERWAY(cs_addrs));
if (NULL != gv_target) /* gv_target can be NULL in case of DSE MAPS command etc. */
gv_target->clue.end = 0; /* in case t_end() had set history's tn to be "valid_thru++", undo it */
}
if (!update_underway)
{ /* Rollback (undo) the transaction. the comments below refer to step numbers as documented in secshr_db_clnup */
/* If we are here due to a restart (in t_end or tp_tend), we release crit as long as it is not the transition
* from 2nd to 3rd retry or 3rd to 3rd retry. However, if we are here because of a runtime error in t_end or tp_tend
* at a point where the transaction can be rolled backwards (update_underway = FALSE), we release crit before going
* to the error trap thereby avoiding any unintended crit hangs.
*/
release_crit = (0 == signal) ? NEED_TO_RELEASE_CRIT(t_tries) : TRUE;
if ((NULL != jnlpool.jnlpool_dummy_reg) && jnlpool.jnlpool_dummy_reg->open)
{
csa = &FILE_INFO(jnlpool.jnlpool_dummy_reg)->s_addrs;
if (csa->now_crit)
{ /* reset any csa->hdr->early_tn like increments that might have occurred in jnlpool */
assert((sm_uc_ptr_t)csa->critical == ((sm_uc_ptr_t)jnlpool_ctl + JNLPOOL_CTL_SIZE));
if (jnlpool_ctl->early_write_addr != jnlpool_ctl->write_addr)
{
reg_seqno_reset = TRUE; /* reset reg_seqnos of all regions to jnlpool_ctl->jnl_seqno */
DEBUG_ONLY(jpl_csa = csa;)
jnlpool_ctl->early_write_addr = jnlpool_ctl->write_addr; /* step (3) gets undone here */
}
assert(jnlpool_ctl->write == jnlpool_ctl->write_addr % jnlpool_ctl->jnlpool_size);
if (!csa->hold_onto_crit)
jpl_reg = jnlpool.jnlpool_dummy_reg; /* note down to release crit later */
}
}
if (dollar_tlevel)
{ /* At this point we know a TP update is NOT underway. In this case, use "first_sgm_info" and not
* "first_tp_si_by_ftok" as the latter might be NULL even though we have gotten crit on all the
* regions and are in the final retry. In this case using "first_sgm_info" will guarantee that
* we release crit on all the regions.
*/
DEBUG_ONLY(lcl_t_tries = t_tries);
for (si = first_sgm_info; NULL != si; si = si->next_sgm_info)
{
TP_CHANGE_REG(si->gv_cur_region);
tp_cr_array = &si->cr_array[0];
UNPIN_CR_ARRAY_ON_RETRY(tp_cr_array, si->cr_array_index);
assert(!si->cr_array_index);
csa = cs_addrs;
if (si->update_trans)
{
RESET_EARLY_TN_IF_NEEDED(csa); /* step (4) of the commit logic is undone here */
RESET_REG_SEQNO_IF_NEEDED(csa, jpl_csa);/* step (5) of the commit logic is undone here */
}
assert(!csa->t_commit_crit);
assert(!csa->now_crit || (csa->ti->curr_tn == csa->ti->early_tn));
ASSERT_JNL_SEQNO_FILEHDR_JNLPOOL(csa->hdr, jnlpool_ctl); /* debug-only sanity check between
* seqno of filehdr and jnlpool */
/* Do not release crit on the region until reg_seqno has been reset above. */
assert(!csa->hold_onto_crit UNIX_ONLY(|| jgbl.onlnrlbk));
if (!csa->hold_onto_crit && release_crit)
rel_crit(gv_cur_region); /* step (1) of the commit logic is iteratively undone here */
}
/* If final retry and released crit (in the above loop), decrement t_tries to ensure that we dont have an
* out-of-design situation (with crit not being held in the final retry).
*/
if (release_crit && (CDB_STAGNATE <= t_tries))
TP_FINAL_RETRY_DECREMENT_T_TRIES_IF_OK; /* t_tries untouched for rollback and recover */
UNIX_ONLY(assert(!jgbl.onlnrlbk || (lcl_t_tries == t_tries)));
assert((lcl_t_tries == t_tries) || (t_tries == (CDB_STAGNATE - 1)));
/* Do not release crit on jnlpool until reg_seqno has been reset above */
RELEASE_JNLPOOL_LOCK_IF_NEEDED(jpl_reg);/* step (2) of the commit logic is undone here */
} else
{
UNPIN_CR_ARRAY_ON_RETRY(cr_array, cr_array_index);
assert(!cr_array_index);
csa = cs_addrs;
if (update_trans)
{
RESET_EARLY_TN_IF_NEEDED(csa); /* step (4) of the commit logic is undone here */
RESET_REG_SEQNO_IF_NEEDED(csa, jpl_csa);/* step (5) of the commit logic is undone here */
}
/* Do not release crit on jnlpool or the region until reg_seqno has been reset above */
RELEASE_JNLPOOL_LOCK_IF_NEEDED(jpl_reg);/* step (2) of the commit logic is undone here */
if (!csa->hold_onto_crit && release_crit)
rel_crit(gv_cur_region); /* step (1) of the commit logic is undone here */
}
DEBUG_ONLY(
csa = (NULL == jpl_reg) ? NULL : &FILE_INFO(jnlpool.jnlpool_dummy_reg)->s_addrs;
assert((NULL == csa) || !csa->now_crit || csa->hold_onto_crit);
)
/* Do any pending buffer flush (wcs_wtstart) if we missed a flush timer. We should do this ONLY if we don't hold
* crit. Use release_crit for that purpose. The only case where release_crit is TRUE but we still hold crit is if
* the process wants to hold onto crit (for instance, DSE or ONLINE ROLLBACK). In that case, do the flush anyways.
*/
assert(!release_crit || (0 == have_crit(CRIT_HAVE_ANY_REG))
UNIX_ONLY(|| jgbl.onlnrlbk) || (!dollar_tlevel && cs_addrs->hold_onto_crit));
if (release_crit && unhandled_stale_timer_pop)
process_deferred_stale();
} else
{ /* Roll forward (complete the partial commit of) the transaction by invoking secshr_db_clnup(). At this point, we
* don't know of any reason why signal should be 0 as that would indicate that we encountered a runtime error in
* t_end/tp_tend and yet decided to roll forward the transaction. So, assert accordingly and if ever this happens,
* we need to revisit the commit logic and fix the error as we are past the point where we no longer can roll-back
* the transaction.
*/
assert(0 == signal);
send_msg(VARLSTCNT(8) ERR_DBCOMMITCLNUP, 6, process_id, process_id, signal, trstr, DB_LEN_STR(xactn_err_region));
/* if t_ch() (a condition handler) was driving this routine, then doing send_msg() here is not a good idea
* as it will overlay the current error message string driving t_ch(), but this case is an exception since
* we currently do not know of any way by which we will be in this "update_underway == TRUE" code if t_ch()
* calls us (there is an assert in t_ch to that effect in terms of testing the return value of this routine)
*/
secshr_db_clnup(COMMIT_INCOMPLETE);
if (unhandled_stale_timer_pop)
process_deferred_stale();
}
return update_underway;
}