void cleanup_trigger_name(char *trigvn, int trigvn_len, char *trigger_name, int trigger_name_len)
{
int4 result;
char trunc_name[MAX_TRIGNAME_LEN + 1];
uint4 used_trigvn_len;
mval val;
mval *val_ptr;
int var_count;
boolean_t is_auto_name;
DCL_THREADGBL_ACCESS;
SETUP_THREADGBL_ACCESS;
assert(!gv_cur_region->read_only); /* caller should have already checked this */
assert(cs_addrs->hasht_tree == gv_target); /* should have been set up by caller */
assert(gv_target->root); /* should have been ensured by caller */
/* assume user defined name or auto gen name whose GVN < 21 chars */
if (!trigger_user_name(trigger_name, trigger_name_len))
{ /* auto gen name uses #TNCOUNT and #SEQNO under #TNAME */
is_auto_name = TRUE;
used_trigvn_len = MIN(trigvn_len, MAX_AUTO_TRIGNAME_LEN);
memcpy(trunc_name, trigvn, used_trigvn_len);
if (is_auto_name)
{
/* $get(^#t("#TNAME",<trunc_name>,"#TNCOUNT")) */
BUILD_HASHT_SUB_SUB_SUB_CURRKEY(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME), trunc_name,
used_trigvn_len, LITERAL_HASHTNCOUNT, STRLEN(LITERAL_HASHTNCOUNT));
if (gvcst_get(&val))
{ /* each autogenerated name has a #TNCOUNT entry */
val_ptr = &val;
var_count = MV_FORCE_UINT(val_ptr);
if (1 == var_count)
{
/* kill ^#t("#TNAME",<trunc_name>) to kill #TNCOUNT and #SEQNO */
BUILD_HASHT_SUB_SUB_CURRKEY(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME), trunc_name,
used_trigvn_len);
gvcst_kill(TRUE);
} else
{
var_count--;
MV_FORCE_UMVAL(&val, var_count);
/* set ^#t("#TNAME",GVN,"#TNCOUNT")=var_count */
SET_TRIGGER_GLOBAL_SUB_SUB_SUB_MVAL(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME),
trunc_name, used_trigvn_len, LITERAL_HASHTNCOUNT,
STRLEN(LITERAL_HASHTNCOUNT), val, result);
assert(PUT_SUCCESS == result); /* The count size can only decrease */
}
}
}
} else
is_auto_name = FALSE;
/* kill ^#t("#TNAME",<trigger_name>,:) or zkill ^#t("#TNAME",<trigger_name>) if is_auto_name==FALSE */
BUILD_HASHT_SUB_SUB_CURRKEY(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME), trigger_name,
trigger_name_len - 1);
gvcst_kill(is_auto_name);
}
/* Upgrade ^#t global in "reg" region */
void trigger_upgrade(gd_region *reg)
{
boolean_t est_first_pass, do_upgrade, is_defined;
boolean_t was_null = FALSE, is_null = FALSE;
int seq_num, trig_seq_num;
int currlabel;
mval tmpmval, xecuteimval, *gvname, *tmpmv, *tmpmv2;
int4 result, tmpint4;
uint4 curend, gvname_prev, xecute_curend;
uint4 hash_code, kill_hash_code;
int count, i, xecutei, tncount;
char *trigname, *trigindex, *ptr;
char name_and_index[MAX_MIDENT_LEN + 1 + MAX_DIGITS_IN_INT];
char trigvn[MAX_MIDENT_LEN + 1 + MAX_DIGITS_IN_INT], nullbyte[1];
uint4 trigname_len, name_index_len;
int ilen;
sgmnt_addrs *csa;
jnl_private_control *jpc;
uint4 sts;
int close_res;
hash128_state_t hash_state, kill_hash_state;
uint4 hash_totlen, kill_hash_totlen;
int trig_protected_mval_push_count;
# ifdef DEBUG
int save_dollar_tlevel;
# endif
DCL_THREADGBL_ACCESS;
SETUP_THREADGBL_ACCESS;
assert(gv_cur_region == reg);
assert(!dollar_tlevel); /* caller should have ensured this. this is needed as otherwise things get complicated. */
assert(!is_replicator); /* caller should have ensured this. this is needed so we dont bump jnl_seqno (if replicating) */
csa = &FILE_INFO(reg)->s_addrs;
assert(csa->hdr->hasht_upgrade_needed);
/* If before-image journaling is turned on in this region (does not matter if replication is turned on or not),
* once this transaction is done, we need to switch to new journal file and cut the back link because
* otherwise it is possible for backward journal recovery (or rollback) or source server to encounter
* the journal records generated in this ^#t-upgrade-transaction in which case they dont know to handle
* it properly (e.g. rollback or backward recovery does not know to restore csa->hdr->hasht_upgrade_needed
* if it rolls back this transaction). To achieve this, we set hold_onto_crit to TRUE and do the jnl link
* cut AFTER the transaction commits but before anyone else can sneak in to do any more updates.
* Since most often we expect databases to be journaled, we do this hold_onto_crit even for the non-journaled case.
*/
grab_crit(reg);
csa->hold_onto_crit = TRUE;
DEBUG_ONLY(save_dollar_tlevel = dollar_tlevel);
assert(!donot_INVOKE_MUMTSTART);
DEBUG_ONLY(donot_INVOKE_MUMTSTART = TRUE);
op_tstart(IMPLICIT_TSTART, TRUE, &literal_batch, 0); /* 0 ==> save no locals but RESTART OK */
ESTABLISH_NORET(trigger_upgrade_ch, est_first_pass);
/* On a TP restart anywhere down below, this line is where the restart resumes execution from */
assert(donot_INVOKE_MUMTSTART); /* Make sure still set for every try/retry of TP transaction */
change_reg(); /* TP_CHANGE_REG wont work as we need to set sgm_info_ptr */
assert(NULL != cs_addrs);
assert(csa == cs_addrs);
SET_GVTARGET_TO_HASHT_GBL(csa); /* sets up gv_target */
assert(NULL != gv_target);
INITIAL_HASHT_ROOT_SEARCH_IF_NEEDED; /* Needed to do every retry in case restart was due to an online rollback.
* This also sets up gv_currkey */
/* Do actual upgrade of ^#t global.
*
* Below is a sample layout of the label 2 ^#t global
* -------------------------------------------------------
* ^#t("#TNAME","x")="a"_$C(0)_"1" (present in DEFAULT only)
* ^#t("#TRHASH",89771515,1)="a"_$C(0)_"1" (present in DEFAULT only)
* ^#t("#TRHASH",106937755,1)="a"_$C(0)_"1" (present in DEFAULT only)
* ^#t("a",1,"BHASH")="106937755"
* ^#t("a",1,"CHSET")="M"
* ^#t("a",1,"CMD")="S"
* ^#t("a",1,"LHASH")="89771515"
* ^#t("a",1,"TRIGNAME")="x#"
* ^#t("a",1,"XECUTE")=" do ^twork"
* ^#t("a","#COUNT")="1"
* ^#t("a","#CYCLE")="1"
* ^#t("a","#LABEL")="2"
*
* Below is a sample layout of the label 3 ^#t global
* -------------------------------------------------------
* ^#t("#LABEL")="3" (present only after upgrade, not regular trigger load)
* ^#t("#TNAME","x")="a"_$C(0)_"1" (present in CURRENT region)
* ^#t("a",1,"BHASH")="71945627"
* ^#t("a",1,"CHSET")="M"
* ^#t("a",1,"CMD")="S"
* ^#t("a",1,"LHASH")="71945627"
* ^#t("a",1,"TRIGNAME")="x#"
* ^#t("a",1,"XECUTE")=" do ^twork"
* ^#t("a","#COUNT")="1"
* ^#t("a","#CYCLE")="2"
* ^#t("a","#LABEL")="3"
* ^#t("a","#TRHASH",71945627,1)="a"_$C(0)_"1"
*
* Key aspects of the format change
* ----------------------------------
* 1) New ^#t("#LABEL")="3" to indicate the format of the ^#t global. This is in addition to
* ^#t("a","#LABEL") etc. which is already there. This way we have a #LABEL for not just the installed
* triggers but also for the name information stored in the #TNAME nodes.
* 2) In the BHASH and LHASH fields. The hash computation is different so there are more chances of BHASH and LHASH
* matching in which case we store only one #TRHASH entry (instead of two). So thre is fewer ^#t records in the new
* format in most cases.
* 3) ^#t("a","#LABEL") bumps from 2 to 3. Similarly ^#t("a","#CYCLE") bumps by one (to make sure triggers for this
* global get re-read if and when we implement an -ONLINE upgrade).
* 4) DEFAULT used to have ^#t("#TNAME",...) nodes corresponding to triggers across ALL regions in the gbldir and
* other regions used to have NO ^#t("#TNAME",...) nodes whereas after the upgrade every region have
* ^#t("#TNAME",...) nodes corresponding to triggers installed in that region. So it is safer to kill ^#t("#TNAME")
* nodes and add them as needed.
* 5) #TRHASH has moved from ^#t() to ^#t(<gbl>). So it is safer to kill ^#t("#TRHASH") nodes and add them as needed.
*
* Below is a sample layout of the label 4 ^#t global
* -------------------------------------------------------
* ^#t("#TNAME","x")="a"_$C(0)_"1" (present in CURRENT region)
* ^#t("a",1,"BHASH")="71945627"
* ^#t("a",1,"CHSET")="M"
* ^#t("a",1,"CMD")="S"
* ^#t("a",1,"LHASH")="71945627"
* ^#t("a",1,"TRIGNAME")="x#"
* ^#t("a",1,"XECUTE")=" do ^twork"
* ^#t("a","#COUNT")="1"
* ^#t("a","#CYCLE")="2"
* ^#t("a","#LABEL")="4"
* ^#t("a","#TRHASH",71945627,1)="a"_$C(0)_"1"
*
* Key aspects of the format change
* ----------------------------------
* 1) Removed ^#t("#LABEL") as it is redundant information and trigger load does not include it
* 2) Multiline triggers were incorrectly processed resulting in incorrect BHASH and LHASH values. Upgrade fixes this
* 3) ^#t("a","#LABEL") bumps from 3 to 4. Similarly ^#t("a","#CYCLE") bumps by one (to make sure
* triggers for this global get re-read if and when we implement an -ONLINE upgrade).
*/
tmpmv = &tmpmval; /* At all points maintain this relationship. The two are used interchangeably below */
if (gv_target->root)
do_upgrade = TRUE;
/* The below logic assumes ^#t global does not have any integrity errors */
assert(do_upgrade); /* caller should have not invoked us otherwise */
if (do_upgrade)
{ /* kill ^#t("#TRHASH"), ^#t("#TNAME") and ^#t("#LABEL") first. Regenerate each again as we process ^#t(<gbl>,...) */
csa->incr_db_trigger_cycle = TRUE; /* so that we increment csd->db_trigger_cycle at commit time.
* this forces concurrent processes to read upgraded triggers.
*/
if (JNL_WRITE_LOGICAL_RECS(csa))
{ /* Note that the ^#t upgrade is a physical layout change. But it has no logical change (i.e. users
* see the same MUPIP TRIGGER -SELECT output as before). So write only a dummy LGTRIG journal
* record for this operation. Hence write a string that starts with a trigger comment character ";".
*/
assert(!gv_cur_region->read_only);
jnl_format(JNL_LGTRIG, NULL, (mval *)&literal_trigjnlrec, 0);
}
/* KILL ^#t("#LABEL") unconditionally */
BUILD_HASHT_SUB_CURRKEY(LITERAL_HASHLABEL, STRLEN(LITERAL_HASHLABEL));
if (0 != gvcst_data())
gvcst_kill(TRUE);
/* KILL ^#t("#TNAME") unconditionally and regenerate */
BUILD_HASHT_SUB_CURRKEY(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME));
if (0 != gvcst_data())
gvcst_kill(TRUE);
/* KILL ^#t("#TRHASH") unconditionally and regenerate */
BUILD_HASHT_SUB_CURRKEY(LITERAL_HASHTRHASH, STRLEN(LITERAL_HASHTRHASH));
if (0 != gvcst_data())
gvcst_kill(TRUE);
/* Loop through all global names for which ^#t(<gvn>) exists. The only first-level subscripts of ^#t starting
* with # are #TNAME and #TRHASH in collation order. So after #TRHASH we expect to find subscripts that are
* global names. Hence the HASHTRHASH code is placed AFTER the HASHTNAME code above.
*/
TREF(gd_targ_gvnh_reg) = NULL; /* needed so op_gvorder below goes through gvcst_order (i.e. focuses only
* on the current region) and NOT through gvcst_spr_order (which does not
* apply anyways in the case of ^#t).
*/
nullbyte[0] = '\0';
trig_protected_mval_push_count = 0;
INCR_AND_PUSH_MV_STENT(gvname); /* Protect gvname from garbage collection */
do
{
op_gvorder(gvname);
if (0 == gvname->str.len)
break;
assert(ARRAYSIZE(trigvn) > gvname->str.len);
memcpy(&trigvn[0], gvname->str.addr, gvname->str.len);
gvname->str.addr = &trigvn[0]; /* point away from stringpool to avoid stp_gcol issues */
/* Save gv_currkey->prev so it is restored before next call to op_gvorder (which cares about this field).
* gv_currkey->prev gets tampered with in the for loop below (e.g. BUILD_HASHT_SUB_CURRKEY macro).
* No need to do this for gv_currkey->end since the body of the for loop takes care of restoring it.
*/
gvname_prev = gv_currkey->prev;
BUILD_HASHT_SUB_CURRKEY(gvname->str.addr, gvname->str.len);
/* At this point, gv_currkey is ^#t(<gvn>) */
/* Increment ^#t(<gvn>,"#CYCLE") */
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_hashcycle, tmpmv);
assert(is_defined);
tmpint4 = mval2i(tmpmv);
tmpint4++;
i2mval(tmpmv, tmpint4);
gvtr_set_hasht_gblsubs((mval *)&literal_hashcycle, tmpmv);
/* Read ^#t(<gvn>,"#COUNT") */
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_hashcount, tmpmv);
if (is_defined)
{
tmpint4 = mval2i(tmpmv);
count = tmpint4;
/* Get ^#t(<gvn>,"#LABEL"), error out for invalid values. Upgrade disallowed for label 1 triggers */
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_hashlabel, tmpmv);
assert(is_defined);
currlabel = mval2i(tmpmv);
if ((V19_HASHT_GBL_LABEL_INT >= currlabel) || (HASHT_GBL_CURLABEL_INT <= currlabel))
rts_error_csa(CSA_ARG(csa) VARLSTCNT(8) ERR_TRIGUPBADLABEL, 6, currlabel,
HASHT_GBL_CURLABEL_INT, gvname->str.len, gvname->str.addr,
REG_LEN_STR(reg));
/* Set ^#t(<gvn>,"#LABEL")=HASHT_GBL_CURLABEL */
gvtr_set_hasht_gblsubs((mval *)&literal_hashlabel, (mval *)&literal_curlabel);
} else
count = 0;
/* Kill ^#t(<gvn>,"#TRHASH") unconditionally and regenerate */
gvtr_kill_hasht_gblsubs((mval *)&literal_hashtrhash, TRUE);
/* At this point, gv_currkey is ^#t(<gvn>) */
for (i = 1; i <= count; i++)
{
/* At this point, gv_currkey is ^#t(<gvn>) */
curend = gv_currkey->end; /* note gv_currkey->end before changing it so we can restore it later */
assert(KEY_DELIMITER == gv_currkey->base[curend]);
assert(gv_target->gd_csa == cs_addrs);
i2mval(tmpmv, i);
COPY_SUBS_TO_GVCURRKEY(tmpmv, gv_cur_region, gv_currkey, was_null, is_null);
/* At this point, gv_currkey is ^#t(<gvn>,i) */
/* Compute new LHASH and BHASH hash values.
* LHASH uses : GVSUBS, XECUTE
* BHASH uses : GVSUBS, DELIM, ZDELIM, PIECES, XECUTE
* So reach each of these pieces and compute hash along the way.
*/
STR_PHASH_INIT(hash_state, hash_totlen);
STR_PHASH_PROCESS(hash_state, hash_totlen, gvname->str.addr, gvname->str.len);
STR_PHASH_PROCESS(hash_state, hash_totlen, nullbyte, 1);
/* Read in ^#t(<gvn>,i,"GVSUBS") */
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_gvsubs, tmpmv);
if (is_defined)
{
STR_PHASH_PROCESS(hash_state, hash_totlen, tmpmval.str.addr, tmpmval.str.len);
STR_PHASH_PROCESS(hash_state, hash_totlen, nullbyte, 1);
}
/* Copy over SET hash state (2-tuple <state,totlen>) to KILL hash state before adding
* the PIECES, DELIM, ZDELIM portions (those are only part of the SET hash).
*/
kill_hash_state = hash_state;
kill_hash_totlen = hash_totlen;
/* Read in ^#t(<gvn>,i,"PIECES") */
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_pieces, tmpmv);
if (is_defined)
{
STR_PHASH_PROCESS(hash_state, hash_totlen, tmpmval.str.addr, tmpmval.str.len);
STR_PHASH_PROCESS(hash_state, hash_totlen, nullbyte, 1);
}
/* Read in ^#t(<gvn>,i,"DELIM") */
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_delim, tmpmv);
if (is_defined)
{
STR_PHASH_PROCESS(hash_state, hash_totlen, tmpmval.str.addr, tmpmval.str.len);
STR_PHASH_PROCESS(hash_state, hash_totlen, nullbyte, 1);
}
/* Read in ^#t(<gvn>,i,"ZDELIM") */
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_zdelim, tmpmv);
if (is_defined)
{
STR_PHASH_PROCESS(hash_state, hash_totlen, tmpmval.str.addr, tmpmval.str.len);
STR_PHASH_PROCESS(hash_state, hash_totlen, nullbyte, 1);
}
/* Read in ^#t(<gvn>,i,"XECUTE").
* Note: The XECUTE portion of the trigger definition is used in SET and KILL hash.
* But since we have started maintaining "hash_state" and "kill_hash_state" separately
* (due to PIECES, DELIM, ZDELIM) we need to update the hash for both using same input string.
*/
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_xecute, tmpmv);
if (is_defined)
{
STR_PHASH_PROCESS(hash_state, hash_totlen, tmpmval.str.addr, tmpmval.str.len);
STR_PHASH_PROCESS(kill_hash_state, kill_hash_totlen, tmpmval.str.addr, tmpmval.str.len);
} else
{ /* Multi-record XECUTE string */
/* At this point, gv_currkey is ^#t(<gvn>,i) */
xecute_curend = gv_currkey->end; /* note gv_currkey->end so we can restore it later */
assert(KEY_DELIMITER == gv_currkey->base[xecute_curend]);
tmpmv2 = (mval *)&literal_xecute;
COPY_SUBS_TO_GVCURRKEY(tmpmv2, gv_cur_region, gv_currkey, was_null, is_null);
xecutei = 1;
do
{
i2mval(&xecuteimval, xecutei);
is_defined = gvtr_get_hasht_gblsubs(&xecuteimval, tmpmv);
if (!is_defined)
break;
STR_PHASH_PROCESS(hash_state, hash_totlen, tmpmval.str.addr, tmpmval.str.len);
STR_PHASH_PROCESS(kill_hash_state, kill_hash_totlen,
tmpmval.str.addr, tmpmval.str.len);
xecutei++;
} while (TRUE);
/* Restore gv_currkey to ^#t(<gvn>,i) */
gv_currkey->end = xecute_curend;
gv_currkey->base[xecute_curend] = KEY_DELIMITER;
}
STR_PHASH_RESULT(hash_state, hash_totlen, hash_code);
STR_PHASH_RESULT(kill_hash_state, kill_hash_totlen, kill_hash_code);
/* Set ^#t(<gvn>,i,"LHASH") */
MV_FORCE_UMVAL(tmpmv, kill_hash_code);
gvtr_set_hasht_gblsubs((mval *)&literal_lhash, tmpmv);
/* Set ^#t(<gvn>,i,"BHASH") */
MV_FORCE_UMVAL(tmpmv, hash_code);
gvtr_set_hasht_gblsubs((mval *)&literal_bhash, tmpmv);
/* Read in ^#t(<gvn>,i,"TRIGNAME") to determine if #SEQNUM/#TNCOUNT needs to be maintained */
is_defined = gvtr_get_hasht_gblsubs((mval *)&literal_trigname, tmpmv);
assert(is_defined);
assert('#' == tmpmval.str.addr[tmpmval.str.len - 1]);
tmpmval.str.len--;
if ((tmpmval.str.len <= ARRAYSIZE(name_and_index)) &&
(NULL != (ptr = memchr(tmpmval.str.addr, '#', tmpmval.str.len))))
{ /* Auto-generated name. Need to maintain #SEQNUM/#TNCOUNT */
/* Take copy of trigger name into non-stringpool location to avoid stp_gcol issues */
trigname_len = ptr - tmpmval.str.addr;
ptr++;
name_index_len = (tmpmval.str.addr + tmpmval.str.len) - ptr;
assert(ARRAYSIZE(name_and_index) >= (trigname_len + 1 + name_index_len));
trigname = &name_and_index[0];
trigindex = ptr;
memcpy(trigname, tmpmval.str.addr, tmpmval.str.len);
A2I(ptr, ptr + name_index_len, trig_seq_num);
/* At this point, gv_currkey is ^#t(<gvn>,i) */
/* $get(^#t("#TNAME",<trigger name>,"#SEQNUM")) */
BUILD_HASHT_SUB_SUB_SUB_CURRKEY(LITERAL_HASHTNAME, STR_LIT_LEN(LITERAL_HASHTNAME),
trigname, trigname_len, LITERAL_HASHSEQNUM, STR_LIT_LEN(LITERAL_HASHSEQNUM));
seq_num = gvcst_get(tmpmv) ? mval2i(tmpmv) : 0;
if (trig_seq_num > seq_num)
{ /* Set ^#t("#TNAME",<trigger name>,"#SEQNUM") = trig_seq_num */
SET_TRIGGER_GLOBAL_SUB_SUB_SUB_STR(LITERAL_HASHTNAME,
STR_LIT_LEN(LITERAL_HASHTNAME), trigname, trigname_len,
LITERAL_HASHSEQNUM, STR_LIT_LEN(LITERAL_HASHSEQNUM),
trigindex, name_index_len, result);
assert(PUT_SUCCESS == result);
}
/* set ^#t("#TNAME",<trigger name>,"#TNCOUNT")++ */
BUILD_HASHT_SUB_SUB_SUB_CURRKEY(LITERAL_HASHTNAME, STR_LIT_LEN(LITERAL_HASHTNAME),
trigname, trigname_len, LITERAL_HASHTNCOUNT, STR_LIT_LEN(LITERAL_HASHTNCOUNT));
tncount = gvcst_get(tmpmv) ? mval2i(tmpmv) + 1 : 1;
i2mval(tmpmv, tncount);
SET_TRIGGER_GLOBAL_SUB_SUB_SUB_MVAL(LITERAL_HASHTNAME, STR_LIT_LEN(LITERAL_HASHTNAME),
trigname, trigname_len, LITERAL_HASHTNCOUNT, STR_LIT_LEN(LITERAL_HASHTNCOUNT),
tmpmval, result);
trigname_len += 1 + name_index_len; /* in preparation for ^#t("#TNAME") set below */
assert(PUT_SUCCESS == result);
BUILD_HASHT_SUB_CURRKEY(gvname->str.addr, gvname->str.len);
/* At this point, gv_currkey is ^#t(<gvn>) */
} else
{
/* Take copy of trigger name into non-stringpool location to avoid stp_gcol issues */
trigname = &name_and_index[0]; /* in preparation for ^#t("#TNAME") set below */
trigname_len = MIN(tmpmval.str.len, ARRAYSIZE(name_and_index));
assert(ARRAYSIZE(name_and_index) >= trigname_len);
memcpy(trigname, tmpmval.str.addr, trigname_len);
/* Restore gv_currkey to what it was at beginning of for loop iteration */
gv_currkey->end = curend;
gv_currkey->base[curend] = KEY_DELIMITER;
}
/* At this point, gv_currkey is ^#t(<gvn>) */
if (kill_hash_code != hash_code)
gvtr_set_hashtrhash(gvname->str.addr, gvname->str.len, kill_hash_code, i);
/* Set ^#t(<gvn>,"#TRHASH",hash_code,i) */
gvtr_set_hashtrhash(gvname->str.addr, gvname->str.len, hash_code, i);
/* Set ^#t("#TNAME",<trigname>)=<gvn>_$c(0)_<trigindx> */
/* The upgrade assumes that the region does not contain two triggers with the same name.
* V62000 and before could potentially have this out of design case. Once implemented
* the trigger integrity check will warn users of this edge case */
ptr = &trigvn[gvname->str.len];
*ptr++ = '\0';
ilen = 0;
I2A(ptr, ilen, i);
ptr += ilen;
assert(ptr <= ARRAYTOP(trigvn));
SET_TRIGGER_GLOBAL_SUB_SUB_STR(LITERAL_HASHTNAME, STR_LIT_LEN(LITERAL_HASHTNAME),
trigname, trigname_len, trigvn, ptr - gvname->str.addr, result);
assert(PUT_SUCCESS == result);
BUILD_HASHT_SUB_CURRKEY(gvname->str.addr, gvname->str.len);
/* At this point, gv_currkey is ^#t(<gvn>) */
}
/* At this point, gv_currkey is ^#t(<gvn>) i.e. gv_currkey->end is correct but gv_currkey->prev
* might have been tampered with. Restore it to proper value first.
*/
gv_currkey->prev = gvname_prev;
gvname->mvtype = 0; /* can now be garbage collected in the next iteration */
} while (TRUE);
}
op_tcommit();
REVERT; /* remove our condition handler */
DEBUG_ONLY(donot_INVOKE_MUMTSTART = FALSE;)
if (csa->hold_onto_crit)
STATICFNDEF void cleanup_trigger_name(char *trigvn, int trigvn_len, char *trigger_name, int trigger_name_len)
{
sgmnt_addrs *csa;
mname_entry gvent;
gv_namehead *hasht_tree;
int4 result;
char save_currkey[SIZEOF(gv_key) + DBKEYSIZE(MAX_KEY_SZ)];
char save_altkey[SIZEOF(gv_key) + DBKEYSIZE(MAX_KEY_SZ)];
gv_key *save_gv_altkey;
gv_key *save_gv_currkey;
gd_region *save_gv_cur_region;
gv_namehead *save_gv_target;
gv_namehead *save_gvtarget;
sgm_info *save_sgm_info_ptr;
char trunc_name[MAX_TRIGNAME_LEN + 1];
uint4 used_trigvn_len;
mval val;
mval *val_ptr;
char val_str[MAX_DIGITS_IN_INT + 1];
int var_count;
boolean_t is_auto_name;
DCL_THREADGBL_ACCESS;
SETUP_THREADGBL_ACCESS;
/* assume user defined name or auto gen name whose GVN < 21 chars */
is_auto_name = FALSE;
if (!trigger_user_name(trigger_name, trigger_name_len))
{ /* auto gen name uses #TNCOUNT and #SEQNO under #TNAME */
is_auto_name = TRUE;
used_trigvn_len = MIN(trigvn_len, MAX_AUTO_TRIGNAME_LEN);
memcpy(trunc_name, trigvn, used_trigvn_len);
}
SAVE_TRIGGER_REGION_INFO;
SWITCH_TO_DEFAULT_REGION;
if (0 != gv_target->root)
{
if (is_auto_name)
{
/* $get(^#t("#TNAME",<trunc_name>,"#TNCOUNT")) */
BUILD_HASHT_SUB_SUB_SUB_CURRKEY(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME), trunc_name,
used_trigvn_len, LITERAL_HASHTNCOUNT, STRLEN(LITERAL_HASHTNCOUNT));
if (gvcst_get(&val))
{ /* only long autogenerated names have a #TNCOUNT entry */
val_ptr = &val;
var_count = MV_FORCE_INT(val_ptr);
if (1 == var_count)
{
/* kill ^#t("#TNAME",<trunc_name>) to kill #TNCOUNT and #SEQNO */
BUILD_HASHT_SUB_SUB_CURRKEY(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME), trunc_name,
used_trigvn_len);
gvcst_kill(TRUE);
} else
{
var_count--;
MV_FORCE_MVAL(&val, var_count);
/* set ^#t("#TNAME",GVN,"#TNCOUNT")=var_count */
SET_TRIGGER_GLOBAL_SUB_SUB_SUB_MVAL(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME),
trunc_name, used_trigvn_len, LITERAL_HASHTNCOUNT,
STRLEN(LITERAL_HASHTNCOUNT), val, result);
assert(PUT_SUCCESS == result); /* The count size can only decrease */
}
}
}
/* kill ^#t("#TNAME",<trigger_name>,:) or zkill ^#t("#TNAME",<trigger_name>) if is_auto_name==FALSE */
BUILD_HASHT_SUB_SUB_CURRKEY(LITERAL_HASHTNAME, STRLEN(LITERAL_HASHTNAME), trigger_name,
trigger_name_len - 1);
gvcst_kill(is_auto_name);
}
RESTORE_TRIGGER_REGION_INFO;
}
