588 lines
23 KiB
C
588 lines
23 KiB
C
/****************************************************************
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* *
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* Copyright 2001, 2012 Fidelity Information Services, Inc *
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* *
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* This source code contains the intellectual property *
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* of its copyright holder(s), and is made available *
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* under a license. If you do not know the terms of *
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* the license, please stop and do not read further. *
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* *
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****************************************************************/
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#include "mdef.h"
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#include <stdarg.h>
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#include <stddef.h> /* for OFFSETOF macro */
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#include "gtm_string.h"
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#include "gtm_stdio.h"
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#include "gdsroot.h"
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#include "gdsblk.h"
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#include "gtm_facility.h"
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#include "fileinfo.h"
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#include "gdsbt.h"
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#include "gdsfhead.h"
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#include "filestruct.h"
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#include "gdscc.h"
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#include "gdskill.h"
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#include "cdb_sc.h"
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#include "lv_val.h"
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#include "jnl.h"
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#include "mlkdef.h"
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#include "rtnhdr.h"
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#include "mv_stent.h"
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#include "stack_frame.h"
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#include "tp_frame.h"
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#include "buddy_list.h" /* needed for tp.h */
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#include "hashtab_int4.h" /* needed for tp.h and cws_insert.h */
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#include "tp.h"
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#include "tp_timeout.h"
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#include "op.h"
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#include "have_crit.h"
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#include "gtm_caseconv.h"
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#include "gvcst_protos.h" /* for gvcst_tp_init prototype */
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#include "dpgbldir.h"
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#include "longset.h" /* needed for cws_insert.h */
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#include "cws_insert.h" /* for cw_stagnate_reinitialized */
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#include "alias.h"
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#ifdef GTM_TRIGGER
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#include "gtm_trigger_trc.h"
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#endif
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#ifdef UNICODE_SUPPORTED
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#include "gtm_icu_api.h" /* needed by *TYPEMASK* macros defined in gtm_utf8.h */
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#include "gtm_utf8.h"
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#endif
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error_def(ERR_STACKCRIT);
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error_def(ERR_STACKOFLOW);
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error_def(ERR_TPMIXUP);
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error_def(ERR_TPTOODEEP);
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GBLREF jnl_fence_control jnl_fence_ctl;
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GBLREF uint4 dollar_tlevel;
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GBLREF boolean_t dollar_truth;
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GBLREF mval dollar_zgbldir;
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GBLREF sgmnt_addrs *cs_addrs;
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GBLREF gd_addr *gd_header;
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GBLREF gv_key *gv_currkey;
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GBLREF gv_namehead *gv_target;
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GBLREF stack_frame *frame_pointer;
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GBLREF tp_frame *tp_pointer;
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GBLREF mv_stent *mv_chain;
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GBLREF mlk_pvtblk *mlk_pvt_root;
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GBLREF symval *curr_symval;
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GBLREF unsigned char *msp, *stacktop, *stackwarn, *tpstackbase, *tpstacktop, *tp_sp, t_fail_hist[CDB_MAX_TRIES];
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GBLREF unsigned int t_tries;
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GBLREF tp_region *tp_reg_list, *tp_reg_free_list;
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GBLREF trans_num local_tn; /* transaction number for THIS PROCESS */
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GBLREF trans_num tstart_local_tn; /* copy of global variable "local_tn" at op_tstart time */
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GBLREF boolean_t mupip_jnl_recover;
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GBLREF void (*tp_timeout_start_timer_ptr)(int4 tmout_sec);
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GBLREF sgm_info *first_sgm_info;
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GBLREF global_tlvl_info *global_tlvl_info_head;
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GBLREF buddy_list *global_tlvl_info_list;
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GBLREF sgmnt_data_ptr_t cs_data;
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GBLREF sgmnt_addrs *cs_addrs;
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GBLREF gd_region *gv_cur_region;
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GBLREF struct_jrec_tcom tcom_record;
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GBLREF jnl_gbls_t jgbl;
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GBLREF boolean_t tp_in_use;
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GBLREF boolean_t gtm_utf8_mode;
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GBLREF uint4 tstartcycle;
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GBLREF char *update_array_ptr;
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GBLREF ua_list *curr_ua, *first_ua;
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GBLREF int4 dollar_zmaxtptime;
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#ifdef GTM_TRIGGER
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GBLREF mval dollar_ztwormhole;
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GBLREF int4 gtm_trigger_depth;
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GBLREF int4 tstart_trigger_depth;
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GBLREF mval dollar_ztslate;
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LITREF mval literal_null;
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#endif
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#ifdef VMS
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GBLREF boolean_t tp_has_kill_t_cse; /* cse->mode of kill_t_write or kill_t_create got created in this transaction */
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#endif
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#define NORESTART -1
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#define ALLLOCAL -2
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#define TP_STACK_SIZE ((TP_MAX_NEST + 1) * SIZEOF(tp_frame)) /* Size of TP stack frame with no-overflow pad */
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void op_tstart(int implicit_flag, ...) /* value of $T when TSTART */
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{
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boolean_t serial; /* whether SERIAL keyword was present */
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int prescnt, /* number of names to save, -1 = no restart, -2 = preserve all */
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pres;
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lv_val *lv;
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mlk_pvtblk *pre_lock;
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mlk_tp *lck_tp;
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mval *preserve, /* list of names to save */
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*tid, /* transaction id */
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*mvname;
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mv_stent *mv_st_ent, *mvst_tmp, *mvst_prev;
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stack_frame *fp, *fp_fix;
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tp_frame *tf;
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unsigned char *old_sp, *top, *tstack_ptr, *ptrstart, *ptrend, *ptrinvalidbegin;
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va_list varlst, lvname;
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tp_region *tr, *tr_next;
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sgm_info *si;
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tlevel_info *tli, *new_tli, *prev_tli;
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global_tlvl_info *gtli, *new_gtli, *prev_gtli;
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kill_set *ks, *prev_ks;
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jnl_format_buffer *jfb, *prev_jfb;
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gd_region *r_top, *r_local;
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gd_addr *addr_ptr;
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unsigned char tp_bat[TP_BATCH_LEN];
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mname_entry tpvent;
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ht_ent_mname *tabent, *curent, *topent;
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sgmnt_addrs *csa;
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int4 shift_size;
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boolean_t tphold_noshift = FALSE, implicit_tstart;
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GTMTRIG_ONLY(boolean_t implicit_trigger;)
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DCL_THREADGBL_ACCESS;
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SETUP_THREADGBL_ACCESS;
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implicit_tstart = 0 != (implicit_flag & IMPLICIT_TSTART);
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GTMTRIG_ONLY(implicit_trigger = 0 != (implicit_flag & IMPLICIT_TRIGGER_TSTART));
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GTMTRIG_ONLY(assert(!implicit_trigger || (implicit_trigger && implicit_tstart)));
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GTMTRIG_ONLY(DBGTRIGR((stderr, "op_tstart: Entered - dollar_tlevel: %d, implicit_flag: %d\n",
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dollar_tlevel, implicit_flag)));
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if (implicit_tstart)
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/* An implicit op_tstart is being done. In this case, even if we are in direct mode, we want to do
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* regular TPHOLD processing (no setting of tphold in the parent frame and shifting of all mv_stents).
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* This is ok because the life of the TP transaction will be done before the implicit operation()s are done
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* done so it will not persist across M lines like it normally would in direct mode.
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*/
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tphold_noshift = TRUE;
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/* If we haven't done any TP until now, turn the flag on to tell gvcst_init to
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initialize it in any regions it opens from now on and initialize it in any
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regions that are already open.
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*/
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if (!tp_in_use)
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{
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tp_in_use = TRUE;
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for (addr_ptr = get_next_gdr(NULL); addr_ptr; addr_ptr = get_next_gdr(addr_ptr))
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{
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for (r_local = addr_ptr->regions, r_top = r_local + addr_ptr->n_regions; r_local < r_top; r_local++)
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{
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if (r_local->open && !r_local->was_open &&
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(dba_bg == r_local->dyn.addr->acc_meth || dba_mm == r_local->dyn.addr->acc_meth))
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{ /* Let's initialize those regions but only if it came through gvcst_init_sysops
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(being a bg or mm region)
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*/
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gvcst_tp_init(r_local);
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}
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}
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}
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}
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if (0 != jnl_fence_ctl.level)
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rts_error(VARLSTCNT(4) ERR_TPMIXUP, 2, "An M", "a fenced logical");
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if (dollar_tlevel + 1 >= TP_MAX_NEST)
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rts_error(VARLSTCNT(1) ERR_TPTOODEEP);
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va_start(varlst, implicit_flag); /* no argument count first */
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serial = va_arg(varlst, int);
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tid = va_arg(varlst, mval *);
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prescnt = va_arg(varlst, int);
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MV_FORCE_STR(tid);
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if (!dollar_tlevel)
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{
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jnl_fence_ctl.fence_list = JNL_FENCE_LIST_END;
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jgbl.cumul_jnl_rec_len = 0;
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DEBUG_ONLY(jgbl.cumul_index = jgbl.cu_jnl_index = 0);
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GTMTRIG_ONLY(memcpy(&dollar_ztslate, &literal_null, SIZEOF(mval))); /* Zap $ZTSLate at start of lvl 1 trans */
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GTMTRIG_ONLY(if (!implicit_tstart || !implicit_trigger))
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{ /* This is the path for all non-implicit-trigger type TP fences including the implicit fences
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* created by the update process and by mupip recover forward.
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*/
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t_tries = (FALSE == mupip_jnl_recover) ? 0 : CDB_STAGNATE;
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t_fail_hist[t_tries] = cdb_sc_normal;
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/* ensure that we don't have crit on any region at the beginning of a TP transaction (be it GT.M or MUPIP).
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* The only exception is ONLINE ROLLBACK which holds crit for the entire duration
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*/
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assert(0 == have_crit(CRIT_HAVE_ANY_REG) UNIX_ONLY(|| jgbl.onlnrlbk));
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}
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# ifdef GTM_TRIGGER
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else
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{
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/* This is an implicit TP wrap created for an explicit update. In such case, we do not want to reset
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* t_tries for below reasons:
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* (a) If an explicit non-tp update undergoes 3 restarts (t_tries = 3) and on the final retry gvcst_put
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* sees that triggers are defined (due to concurrent $ZTRIGGER or MUPIP TRIGGER), it would have invoked
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* op_tstart to create a TP wrap in final retry in which case we should NOT reset t_tries to zero as we
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* would be holding crit at that time.
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*
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* (b) If an explicit non-tp update underwent 1 restart and on the next try(t_tries = 1), gvcst_put
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* sees that triggers are defined (due to concurrent $ZTRIGGER or MUPIP TRIGGER), it would have invoked
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* op_tstart to create a TP wrap in which case we should NOT reset t_tries. In the event, we did the
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* reset of t_tries and no triggers were defined for the update in question, op_tcommit would be done
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* and we will be back in non-TP BUT with t_tries reset to 0. The above can continue in a cycle causing
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* a live spin-lock that does not let the final-retry optimistic -> pessimistic concurrency scheme from
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* kicking in at all.
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*/
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/* recovery logic does not invoke triggers */
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assert(!(SFF_TRIGR_CALLD & frame_pointer->flags) || (FALSE == mupip_jnl_recover));
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}
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# endif
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for (tr = tp_reg_list; NULL != tr; tr = tr_next)
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{ /* start with empty list, place all existing entries on free list */
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tp_reg_list = tr_next = tr->fPtr; /* Remove from queue */
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tr->fPtr = tp_reg_free_list;
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tp_reg_free_list = tr; /* Place on free queue */
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}
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++local_tn; /* Begin new local transaction */
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tstart_local_tn = local_tn;
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/* In journal recovery forward phase, we set jgbl.tp_ztp_jnl_upd_num to whatever update_num the journal record
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* has so it is ok for the global variable to be a non-zero value at the start of a TP transaction (possible if
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* ZTP of one process is in progress when TP of another process starts in the journal file). But otherwise
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* (in GT.M runtime) we expect it to be 0 at beginning of each TP or ZTP.
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*/
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assert((0 == jgbl.tp_ztp_jnl_upd_num) || jgbl.forw_phase_recovery);
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INCR_TSTARTCYCLE;
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jgbl.wait_for_jnl_hard = TRUE;
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GTMTRIG_ONLY(
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assert(NULL == jgbl.prev_ztworm_ptr); /* should have been cleared by tp_clean_up of previous TP */
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assert(NULL == jgbl.save_ztworm_ptr);
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/* should have been NULL almost always except for a small window in gvcst_put/gvcst_kill */
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tstart_trigger_depth = gtm_trigger_depth; /* note down what trigger depth an outermost tstart occurs in */
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)
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memset(tcom_record.jnl_tid, 0, TID_STR_SIZE);
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if (0 != tid->str.len)
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{
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if (!gtm_utf8_mode)
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{
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if (tid->str.len > TID_STR_SIZE)
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tid->str.len = TID_STR_SIZE;
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}
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# ifdef UNICODE_SUPPORTED
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else
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{ /* In UTF8 mode, take only as many valid multi-byte characters as can fit in TID_STR_SIZE */
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if (gtm_utf8_mode)
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{
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MV_FORCE_LEN(tid); /* issues BADCHAR error if appropriate */
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if (tid->str.len > TID_STR_SIZE)
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{
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ptrstart = (unsigned char *)tid->str.addr;
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ptrend = ptrstart + TID_STR_SIZE;
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UTF8_LEADING_BYTE(ptrend, ptrstart, ptrinvalidbegin)
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tid->str.len = INTCAST(ptrinvalidbegin - ptrstart);
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}
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}
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}
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# endif
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assert(TID_STR_SIZE >= tid->str.len);
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memcpy(tcom_record.jnl_tid, (char *)tid->str.addr, tid->str.len);
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if ((TP_BATCH_SHRT == tid->str.len) || (TP_BATCH_LEN == tid->str.len))
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{
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lower_to_upper(tp_bat, (uchar_ptr_t)tid->str.addr, (int)tid->str.len);
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if (0 == memcmp(TP_BATCH_ID, tp_bat, tid->str.len))
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jgbl.wait_for_jnl_hard = FALSE;
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}
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}
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VMS_ONLY(tp_has_kill_t_cse = FALSE;)
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assert(!TREF(donot_commit));
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}
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/* either cw_stagnate has not been initialized at all or previous-non-TP or tp_hist should have done CWS_RESET */
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assert((0 == cw_stagnate.size) || cw_stagnate_reinitialized);
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if (prescnt > 0)
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{
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VAR_COPY(lvname, varlst);
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for (pres = 0; pres < prescnt; ++pres)
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{
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preserve = va_arg(lvname, mval *);
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assert(MV_IS_STRING(preserve)); /* Check if this loop can be eliminated */
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MV_FORCE_STR(preserve);
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}
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va_end(lvname);
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}
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if (NULL == gd_header)
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gvinit();
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assert(NULL != gd_header);
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if (!tphold_noshift && (SFT_DM & frame_pointer->old_frame_pointer->type))
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{ /* Put a TPHOLD underneath dmode frame */
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assert(frame_pointer->old_frame_pointer->old_frame_pointer);
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fp = frame_pointer->old_frame_pointer->old_frame_pointer;
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top = (unsigned char *)(frame_pointer->old_frame_pointer + 1);
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old_sp = msp;
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shift_size = mvs_size[MVST_TPHOLD];
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msp -= shift_size;
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if (msp <= stackwarn)
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{
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va_end(varlst);
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if (msp <= stacktop)
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{
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msp = old_sp;
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rts_error(VARLSTCNT(1) ERR_STACKOFLOW);
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} else
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rts_error(VARLSTCNT(1) ERR_STACKCRIT);
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}
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memcpy(msp, old_sp, top - (unsigned char *)old_sp);
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mv_st_ent = (mv_stent *)(top - shift_size);
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mv_st_ent->mv_st_type = MVST_TPHOLD;
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ADJUST_FRAME_POINTER(frame_pointer, shift_size);
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for (fp_fix = frame_pointer; fp_fix != fp; fp_fix = fp_fix->old_frame_pointer)
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{
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if ((unsigned char *)fp_fix->l_symtab < top && (unsigned char *)fp_fix->l_symtab > stacktop)
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fp_fix->l_symtab = (ht_ent_mname **)((char *)fp_fix->l_symtab - shift_size);
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if (fp_fix->temps_ptr < top && fp_fix->temps_ptr > stacktop)
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fp_fix->temps_ptr -= shift_size;
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if (fp_fix->vartab_ptr < (char *)top && fp_fix->vartab_ptr > (char *)stacktop)
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fp_fix->vartab_ptr -= shift_size;
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if ((unsigned char *)fp_fix->old_frame_pointer < top &&
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(char *)fp_fix->old_frame_pointer > (char *)stacktop)
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{
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ADJUST_FRAME_POINTER(fp_fix->old_frame_pointer, shift_size);
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}
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}
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if ((unsigned char *)mv_chain >= top)
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{
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mv_st_ent->mv_st_next = (unsigned int)((char *)mv_chain - (char *)mv_st_ent);
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mv_chain = mv_st_ent;
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} else
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{
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top -= shift_size + SIZEOF(stack_frame);
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mv_chain = (mv_stent *)((char *)mv_chain - shift_size);
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mvst_tmp = mv_chain;
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mvst_prev = (mv_stent *)((char *)mvst_tmp + mvst_tmp->mv_st_next);
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while (mvst_prev < (mv_stent *)top)
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{
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mvst_tmp = mvst_prev;
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mvst_prev = (mv_stent *)((char *)mvst_tmp + mvst_tmp->mv_st_next);
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}
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mvst_tmp->mv_st_next = (unsigned int)((char *)mv_st_ent - (char *)mvst_tmp);
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mv_st_ent->mv_st_next = (unsigned int)((char *)mvst_prev - (char *)mv_st_ent + shift_size);
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}
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} else
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{
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PUSH_MV_STENT(MVST_TPHOLD);
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mv_st_ent = mv_chain;
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fp = frame_pointer;
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}
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mv_st_ent->mv_st_cont.mvs_tp_holder.tphold_tlevel = dollar_tlevel;
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# ifdef GTM_TRIGGER
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if (!dollar_tlevel)
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/* We only save this on level 0 - Note if this is made further conditional, be sure to visit
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* stp_gcol_src.h where it is GC'd and tp_restart() to adjust the conditions there as well.
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*/
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memcpy(&mv_st_ent->mv_st_cont.mvs_tp_holder.ztwormhole_save, &dollar_ztwormhole, SIZEOF(mval));
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# endif
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if (NULL == tpstackbase)
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{
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tstack_ptr = (unsigned char *)malloc(TP_STACK_SIZE);
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tp_sp = tpstackbase = tstack_ptr + TP_STACK_SIZE;
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tpstacktop = tstack_ptr;
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tp_pointer = NULL;
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}
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/* Add a new tp_frame in the TP stack */
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DBGRFCT((stderr, "\n*** op_tstart: *** Entering $TLEVEL = %d\n", dollar_tlevel + 1));
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tf = (tp_frame *)(tp_sp -= SIZEOF(tp_frame));
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assert((unsigned char *)tf > tpstacktop); /* Block should lie entirely within tp stack area */
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tf->dlr_t = dollar_truth;
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tf->restart_pc = fp->mpc;
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tf->restart_ctxt = fp->ctxt;
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tf->fp = fp;
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tf->serial = serial;
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tf->trans_id = *tid;
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tf->restartable = (NORESTART != prescnt);
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tf->old_locks = (NULL != mlk_pvt_root);
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|
tf->orig_gv_target = gv_target;
|
|
DBG_CHECK_GVTARGET_CSADDRS_IN_SYNC;
|
|
# ifdef DEBUG
|
|
if (!jgbl.forw_phase_recovery)
|
|
{ /* In case of forward phase of journal recovery, gv_currkey is set by caller (mur_forward) only
|
|
* after the call to op_tstart so avoid doing gv_currkey check.
|
|
*/
|
|
DBG_CHECK_GVTARGET_GVCURRKEY_IN_SYNC;
|
|
}
|
|
# endif
|
|
/* If the TP structures have not yet been initialized, do that now. */
|
|
if (NULL == TREF(gv_tporigkey_ptr))
|
|
{ /* This need only be set once */
|
|
TREF(gv_tporigkey_ptr) = (gv_orig_key_array *)malloc(SIZEOF(gv_orig_key_array));
|
|
memset(TREF(gv_tporigkey_ptr), 0, SIZEOF(gv_orig_key_array));
|
|
}
|
|
tf->orig_key = (gv_key *)&((TREF(gv_tporigkey_ptr))->gv_orig_key[dollar_tlevel][0]);
|
|
assert(NULL != gv_currkey);
|
|
memcpy(tf->orig_key, gv_currkey, SIZEOF(gv_key) + gv_currkey->end);
|
|
tf->gd_header = gd_header;
|
|
tf->gd_reg = gv_cur_region;
|
|
tf->zgbldir = dollar_zgbldir;
|
|
tf->mvc = mv_st_ent;
|
|
tf->sym = curr_symval;
|
|
tf->tp_save_all_flg = FALSE;
|
|
if (NULL == tp_pointer)
|
|
{
|
|
tf->implicit_tstart = implicit_tstart;
|
|
GTMTRIG_ONLY(tf->implicit_trigger = implicit_trigger);
|
|
} else
|
|
{
|
|
tf->implicit_tstart = tp_pointer->implicit_tstart;
|
|
GTMTRIG_ONLY(tf->implicit_trigger = tp_pointer->implicit_trigger);
|
|
}
|
|
GTMTRIG_ONLY(tf->cannot_commit = FALSE;)
|
|
tf->vars = (tp_var *)NULL;
|
|
tf->old_tp_frame = tp_pointer;
|
|
tp_pointer = tf;
|
|
if (prescnt > 0)
|
|
{
|
|
VAR_COPY(lvname, varlst);
|
|
for (pres = 0; pres < prescnt; ++pres)
|
|
{
|
|
preserve = va_arg(lvname, mval *);
|
|
/* Note: the assumption (according to the comment below) is that this mval points into the literal table
|
|
and thus could not possibly be undefined. In that case, I do not understand why the earlier loop to
|
|
do MV_FORCE_STR on these variables. Future todo -- verify if that loop is needed. On the assumption
|
|
that it is not, the below assert will verify that the mval is defined to catch any NOUNDEF case.
|
|
*/
|
|
assert(MV_DEFINED(preserve));
|
|
/* The incoming 'preserve' is the pointer to a literal mval table entry. For the indirect code
|
|
* (eg. Direct Mode), since the literal table is no longer on the M stack, we should not shift
|
|
* the incoming va_arg pointer (C9D01-002205) */
|
|
mvname = preserve;
|
|
if (0 != mvname->str.len)
|
|
{ /* Convert mval to mident and see if it's in the symbol table */
|
|
tpvent.var_name.len = mvname->str.len;
|
|
tpvent.var_name.addr = mvname->str.addr;
|
|
COMPUTE_HASH_MNAME(&tpvent);
|
|
tpvent.marked = FALSE;
|
|
if (add_hashtab_mname_symval(&curr_symval->h_symtab, &tpvent, NULL, &tabent))
|
|
lv_newname(tabent, curr_symval);
|
|
lv = (lv_val *)tabent->value;
|
|
assert(lv);
|
|
assert(LV_IS_BASE_VAR(lv));
|
|
assert(0 < lv->stats.trefcnt);
|
|
assert(lv->stats.crefcnt <= lv->stats.trefcnt);
|
|
/* In order to allow restart of a sub-transaction, this should chain rather than back stop,
|
|
with appropriate changes to lv_var_clone and tp_unwind */
|
|
if (NULL == lv->tp_var)
|
|
{
|
|
TP_SAVE_RESTART_VAR(lv, tf, &tabent->key);
|
|
if (LV_HAS_CHILD(lv))
|
|
TPSAV_CNTNRS_IN_TREE(lv);
|
|
} else
|
|
{ /* We have saved this var previously. But check if it got saved via a container var
|
|
and therefore has no name associated with it. If so, update the key in the tp_var
|
|
structure so it gets its name restored properly if necessary.
|
|
*/
|
|
if (0 == lv->tp_var->key.var_name.len)
|
|
lv->tp_var->key = tabent->key;
|
|
}
|
|
}
|
|
}
|
|
va_end(lvname);
|
|
} else if (ALLLOCAL == prescnt)
|
|
{ /* Preserve all variables */
|
|
tf->tp_save_all_flg = TRUE;
|
|
++curr_symval->tp_save_all;
|
|
for (curent = curr_symval->h_symtab.base, topent = curr_symval->h_symtab.top; curent < topent; curent++)
|
|
{
|
|
if (HTENT_VALID_MNAME(curent, lv_val, lv) && ('$' != *curent->key.var_name.addr))
|
|
{
|
|
assert(lv);
|
|
assert(LV_IS_BASE_VAR(lv));
|
|
assert(0 < lv->stats.trefcnt);
|
|
assert(lv->stats.crefcnt <= lv->stats.trefcnt);
|
|
if (NULL == lv->tp_var)
|
|
{
|
|
TP_SAVE_RESTART_VAR(lv, tf, &curent->key);
|
|
if (LV_HAS_CHILD(lv))
|
|
TPSAV_CNTNRS_IN_TREE(lv);
|
|
} else
|
|
{ /* We have saved this var previously. But check if it got saved via a container var
|
|
and therefore has no name associated with it. If so, update the key in the tp_var
|
|
structure so it gets its name restored properly if necessary.
|
|
*/
|
|
if (0 == lv->tp_var->key.var_name.len)
|
|
lv->tp_var->key = curent->key;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
va_end(varlst);
|
|
/* Store existing state of locks */
|
|
for (pre_lock = mlk_pvt_root; NULL != pre_lock; pre_lock = pre_lock->next)
|
|
{
|
|
if ((NULL == pre_lock->tp) || (pre_lock->tp->level != pre_lock->level)
|
|
|| (pre_lock->tp->zalloc != pre_lock->zalloc))
|
|
{ /* Only stack locks that have changed since last TSTART */
|
|
lck_tp = (mlk_tp *)malloc(SIZEOF(mlk_tp));
|
|
lck_tp->tplevel = dollar_tlevel;
|
|
lck_tp->level = pre_lock->level;
|
|
lck_tp->zalloc = pre_lock->zalloc;
|
|
lck_tp->next = pre_lock->tp;
|
|
pre_lock->tp = lck_tp;
|
|
}
|
|
}
|
|
++dollar_tlevel;
|
|
/* Store the global (across all segments) dollar_tlevel specific information. */
|
|
if (NULL != first_sgm_info) /* database activity existed in prior levels */
|
|
{
|
|
for (prev_gtli = NULL, gtli = global_tlvl_info_head; gtli; gtli = gtli->next_global_tlvl_info)
|
|
prev_gtli = gtli;
|
|
new_gtli = (global_tlvl_info *)get_new_element(global_tlvl_info_list, 1);
|
|
new_gtli->global_tlvl_fence_info = jnl_fence_ctl.fence_list;
|
|
new_gtli->t_level = dollar_tlevel;
|
|
GTMTRIG_ONLY(new_gtli->tlvl_prev_ztworm_ptr = jgbl.prev_ztworm_ptr;)
|
|
new_gtli->tlvl_cumul_jrec_len = jgbl.cumul_jnl_rec_len;
|
|
DEBUG_ONLY(new_gtli->tlvl_cumul_index = jgbl.cumul_index;)
|
|
new_gtli->tlvl_tp_ztp_jnl_upd_num = jgbl.tp_ztp_jnl_upd_num;
|
|
/* Store current state of update_array global variables */
|
|
assert((NULL != first_ua) && (NULL != curr_ua)); /* Since first_sgm_info is NOT NULL, database activity existed */
|
|
new_gtli->curr_ua = (struct ua_list *)(curr_ua);
|
|
new_gtli->upd_array_ptr = update_array_ptr;
|
|
new_gtli->next_global_tlvl_info = NULL;
|
|
if (prev_gtli)
|
|
{
|
|
assert(prev_gtli->t_level + 1 == dollar_tlevel);
|
|
prev_gtli->next_global_tlvl_info = new_gtli;
|
|
} else
|
|
global_tlvl_info_head = new_gtli;
|
|
}
|
|
/* Store the dollar_tlevel specific information */
|
|
for (si = first_sgm_info; NULL != si; si = si->next_sgm_info)
|
|
{
|
|
for (prev_tli = NULL, tli = si->tlvl_info_head; (NULL != tli); tli = tli->next_tlevel_info)
|
|
prev_tli = tli;
|
|
new_tli = (tlevel_info *)get_new_element(si->tlvl_info_list, 1);
|
|
new_tli->t_level = dollar_tlevel;
|
|
for (prev_ks = NULL, ks = si->kill_set_head; ks; ks = ks->next_kill_set)
|
|
prev_ks = ks;
|
|
new_tli->tlvl_kill_set = prev_ks;
|
|
if (prev_ks)
|
|
new_tli->tlvl_kill_used = prev_ks->used;
|
|
else
|
|
new_tli->tlvl_kill_used = 0;
|
|
new_tli->tlvl_tp_hist_info = si->last_tp_hist;
|
|
/* Prepare for journaling logical records if journaling is enabled on this region OR if replication was
|
|
* allowed on this region (this is a case where replication was ON originally but later transitioned
|
|
* into WAS_ON state and journaling got turned OFF.
|
|
*/
|
|
csa = si->tp_csa;
|
|
if (JNL_WRITE_LOGICAL_RECS(csa))
|
|
{
|
|
assert((NULL != si->jnl_head) || (NULL == csa->next_fenced));
|
|
assert((NULL == si->jnl_head) || (NULL != csa->next_fenced));
|
|
assert((NULL == csa->next_fenced) || (JNL_FENCE_LIST_END == csa->next_fenced)
|
|
|| (NULL != csa->next_fenced->sgm_info_ptr->jnl_head));
|
|
assert(NULL == *si->jnl_tail);
|
|
SET_PREV_JFB(si, prev_jfb);
|
|
new_tli->tlvl_jfb_info = prev_jfb;
|
|
assert(NULL != si->jnl_list);
|
|
assert(NULL != si->format_buff_list);
|
|
new_tli->jnl_list_elems = si->jnl_list->nElems;
|
|
new_tli->jfb_list_elems = si->format_buff_list->nElems;
|
|
}
|
|
new_tli->next_tlevel_info = NULL;
|
|
new_tli->update_trans = si->update_trans;
|
|
if (prev_tli)
|
|
prev_tli->next_tlevel_info = new_tli;
|
|
else
|
|
si->tlvl_info_head = new_tli;
|
|
}
|
|
/* If starting first TP level, also start TP timer if set to non-default value */
|
|
assert(0 <= dollar_zmaxtptime);
|
|
if ((0 < dollar_zmaxtptime) && (1 == dollar_tlevel))
|
|
(*tp_timeout_start_timer_ptr)(dollar_zmaxtptime);
|
|
DBGRFCT((stderr, "\nop_tstart: complete\n"));
|
|
}
|