Esempio n. 1
0
/* NOTE: every malloc'd storage here should be free'd in a nested call-in environment.
 * gtmci_isv_restore (in gtmci_isv.c) needs to be reflected for any future mallocs added here. */
void	ecode_init(void)
{
	dollar_ecode.begin = (char *)malloc(DOLLAR_ECODE_ALLOC);
	dollar_ecode.top = dollar_ecode.begin + DOLLAR_ECODE_ALLOC;
	dollar_ecode.array = (dollar_ecode_struct *)malloc(SIZEOF(dollar_ecode_struct) * DOLLAR_ECODE_MAXINDEX);
	dollar_ecode.error_rtn_addr = NON_IA64_ONLY(CODE_ADDRESS(ERROR_RTN)) IA64_ONLY(CODE_ADDRESS_C(ERROR_RTN));
	dollar_ecode.error_rtn_ctxt = GTM_CONTEXT(ERROR_RTN);
	dollar_ecode.error_return_addr = (error_ret_fnptr)ERROR_RETURN;

	dollar_stack.begin = (char *)malloc(DOLLAR_STACK_ALLOC);
	dollar_stack.top = dollar_stack.begin + DOLLAR_STACK_ALLOC;
	dollar_stack.array = (dollar_stack_struct *)malloc(SIZEOF(dollar_stack_struct) * DOLLAR_STACK_MAXINDEX);

	NULLIFY_DOLLAR_ECODE;	/* this macro resets dollar_ecode.{end,index}, dollar_stack.{begin,index,incomplete} and
				 * first_ecode_error_frame to point as if no error occurred at all */
}
Esempio n. 2
0
void gtm_startup(struct startup_vector *svec)
/* Note: various references to data copied from *svec could profitably be referenced directly */
{
	unsigned char	*mstack_ptr;
	void		gtm_ret_code();
	static readonly unsigned char init_break[1] = {'B'};
	int4		lct;
	int		i;
	static char 	other_mode_buf[] = "OTHER";
	mstr		log_name;
	DCL_THREADGBL_ACCESS;

	SETUP_THREADGBL_ACCESS;
	assert(INVALID_IMAGE != image_type);
	assert(svec->argcnt == SIZEOF(*svec));
	IA64_ONLY(init_xfer_table());
	get_page_size();
	cache_table_relobjs = &cache_table_rebuild;
	ht_rhash_ch = &hashtab_rehash_ch;
	jbxm_dump_ch = &jobexam_dump_ch;
	heartbeat_timer_ptr = &heartbeat_timer;
	stpgc_ch = &stp_gcol_ch;
	rtn_fst_table = rtn_names = (rtn_tabent *)svec->rtn_start;
	rtn_names_end = rtn_names_top = (rtn_tabent *)svec->rtn_end;
	if (svec->user_stack_size < 4096)
		svec->user_stack_size = 4096;
	if (svec->user_stack_size > 8388608)
		svec->user_stack_size = 8388608;
	mstack_ptr = (unsigned char *)malloc(svec->user_stack_size);
	msp = stackbase = mstack_ptr + svec->user_stack_size - mvs_size[MVST_STORIG];
	/* mark the stack base so that if error occur during call-in gtm_init(), the unwind
	 * logic in gtmci_ch() will get rid of the stack completely
	 */
	fgncal_stack = stackbase;
	mv_chain = (mv_stent *)msp;
	mv_chain->mv_st_type = MVST_STORIG;	/* Initialize first (anchor) mv_stent so doesn't do anything */
	mv_chain->mv_st_next = 0;
	mv_chain->mv_st_cont.mvs_storig = 0;
	stacktop = mstack_ptr + 2 * mvs_size[MVST_NTAB];
	stackwarn = stacktop + (16 * 1024);
	break_message_mask = svec->break_message_mask;
	if (svec->user_strpl_size < STP_INITSIZE)
		svec->user_strpl_size = STP_INITSIZE;
	else if (svec->user_strpl_size > STP_MAXINITSIZE)
		svec->user_strpl_size = STP_MAXINITSIZE;
	stp_init(svec->user_strpl_size);
	if (svec->user_indrcache_size > MAX_INDIRECTION_NESTING || svec->user_indrcache_size < MIN_INDIRECTION_NESTING)
		svec->user_indrcache_size = MIN_INDIRECTION_NESTING;
	TREF(ind_result_array) = (mval **)malloc(SIZEOF(mval *) * svec->user_indrcache_size);
	TREF(ind_source_array) = (mval **)malloc(SIZEOF(mval *) * svec->user_indrcache_size);
	TREF(ind_result_sp) = TREF(ind_result_array);
	TREF(ind_result_top) = TREF(ind_result_sp) + svec->user_indrcache_size;
	TREF(ind_source_sp) = TREF(ind_source_array);
	TREF(ind_source_top) = TREF(ind_source_sp) + svec->user_indrcache_size;
	rts_stringpool = stringpool;
	TREF(compile_time) = FALSE;
	/* assert that is_replicator and run_time is properly set by gtm_imagetype_init invoked at process entry */
#	ifdef DEBUG
	switch (image_type)
	{
		case GTM_IMAGE:
		case GTM_SVC_DAL_IMAGE:
			assert(is_replicator && run_time);
			break;
		case MUPIP_IMAGE:
			assert(!is_replicator && !run_time);
			break;
		default:
			assert(FALSE);
	}
#	endif
	gtm_utf8_init(); /* Initialize the runtime for Unicode */
	/* Initialize alignment requirement for the runtime stringpool */
	log_name.addr = DISABLE_ALIGN_STRINGS;
	log_name.len = STR_LIT_LEN(DISABLE_ALIGN_STRINGS);
	/* mstr_native_align = logical_truth_value(&log_name, FALSE, NULL) ? FALSE : TRUE; */
	mstr_native_align = FALSE; /* TODO: remove this line and uncomment the above line */
	getjobname();
	INVOKE_INIT_SECSHR_ADDRS;
	getzprocess();
	getzmode();
	geteditor();
	zcall_init();
	cmd_qlf.qlf = glb_cmd_qlf.qlf;
	cache_init();
#	ifdef __sun
	if (NULL != GETENV(PACKAGE_ENV_TYPE))	/* chose xcall (default) or rpc zcall */
		xfer_table[xf_fnfgncal] = (xfer_entry_t)op_fnfgncal_rpc;  /* using RPC */
#	endif
	msp -= SIZEOF(stack_frame);
	frame_pointer = (stack_frame *)msp;
	memset(frame_pointer,0, SIZEOF(stack_frame));
	frame_pointer->temps_ptr = (unsigned char *)frame_pointer;
	frame_pointer->ctxt = GTM_CONTEXT(gtm_ret_code);
	frame_pointer->mpc = CODE_ADDRESS(gtm_ret_code);
	frame_pointer->type = SFT_COUNT;
	frame_pointer->rvector = (rhdtyp*)malloc(SIZEOF(rhdtyp));
	memset(frame_pointer->rvector, 0, SIZEOF(rhdtyp));
	symbinit();
	/* Variables for supporting $ZSEARCH sorting and wildcard expansion */
	TREF(zsearch_var) = lv_getslot(curr_symval);
	TREF(zsearch_dir1) = lv_getslot(curr_symval);
	TREF(zsearch_dir2) = lv_getslot(curr_symval);
	LVVAL_INIT((TREF(zsearch_var)), curr_symval);
	LVVAL_INIT((TREF(zsearch_dir1)), curr_symval);
	LVVAL_INIT((TREF(zsearch_dir2)), curr_symval);
	/* Initialize global pointer to control-C handler. Also used in iott_use */
	ctrlc_handler_ptr = &ctrlc_handler;
	io_init(IS_MUPIP_IMAGE);		/* starts with nocenable for GT.M runtime, enabled for MUPIP */
	if (!IS_MUPIP_IMAGE)
	{
		sig_init(generic_signal_handler, ctrlc_handler_ptr, suspsigs_handler, continue_handler);
		atexit(gtm_exit_handler);
		cenable();	/* cenable unless the environment indicates otherwise - 2 steps because this can report errors */
	}
	jobinterrupt_init();
	getzdir();
	dpzgbini();
	zco_init();
	/* a base addr of 0 indicates a gtm_init call from an rpc server */
	if ((GTM_IMAGE == image_type) && (NULL != svec->base_addr))
		jobchild_init();
	else
	{	/* Trigger enabled utilities will enable through here */
		(TREF(dollar_zmode)).mvtype = MV_STR;
		(TREF(dollar_zmode)).str.addr = other_mode_buf;
		(TREF(dollar_zmode)).str.len = SIZEOF(other_mode_buf) -1;
	}
	svec->frm_ptr = (unsigned char *)frame_pointer;
	dollar_ztrap.mvtype = MV_STR;
	dollar_ztrap.str.len = SIZEOF(init_break);
	dollar_ztrap.str.addr = (char *)init_break;
	dollar_zstatus.mvtype = MV_STR;
	dollar_zstatus.str.len = 0;
	dollar_zstatus.str.addr = NULL;
	ecode_init();
	zyerror_init();
	ztrap_form_init();
	ztrap_new_init();
	zdate_form_init(svec);
	dollar_system_init(svec);
	init_callin_functable();
	gtm_env_xlate_init();
	SET_LATCH_GLOBAL(&defer_latch, LOCK_AVAILABLE);
	curr_pattern = pattern_list = &mumps_pattern;
	pattern_typemask = mumps_pattern.typemask;
	initialize_pattern_table();
	ce_init();	/* initialize compiler escape processing */
	/* Initialize local collating sequence */
	TREF(transform) = TRUE;
	lct = find_local_colltype();
	if (lct != 0)
	{
		TREF(local_collseq) = ready_collseq(lct);
		if (!TREF(local_collseq))
		{
			exi_condition = -ERR_COLLATIONUNDEF;
			gtm_putmsg(VARLSTCNT(3) ERR_COLLATIONUNDEF, 1, lct);
			exit(exi_condition);
		}
	} else
		TREF(local_collseq) = 0;
	prealloc_gt_timers();
	gt_timers_add_safe_hndlrs();
	for (i = 0; FNPC_MAX > i; i++)
	{	/* Initialize cache structure for $Piece function */
		(TREF(fnpca)).fnpcs[i].pcoffmax = &(TREF(fnpca)).fnpcs[i].pstart[FNPC_ELEM_MAX];
		(TREF(fnpca)).fnpcs[i].indx = i;
	}
	(TREF(fnpca)).fnpcsteal = (TREF(fnpca)).fnpcs;		/* Starting place to look for cache reuse */
	(TREF(fnpca)).fnpcmax = &(TREF(fnpca)).fnpcs[FNPC_MAX - 1];	/* The last element */
	/* Initialize zwrite subsystem. Better to do it now when we have storage to allocate than
	 * if we fail and storage allocation may not be possible. To that end, pretend we have
	 * seen alias acitivity so those structures are initialized as well.
	 */
	assert(FALSE == curr_symval->alias_activity);
	curr_symval->alias_activity = TRUE;
	lvzwr_init((enum zwr_init_types)0, (mval *)NULL);
	curr_symval->alias_activity = FALSE;
	if ((NULL != (TREF(mprof_env_gbl_name)).str.addr))
		turn_tracing_on(TADR(mprof_env_gbl_name), TRUE, (TREF(mprof_env_gbl_name)).str.len > 0);
	return;
}
void trans_code_cleanup(void)
{
	stack_frame	*fp, *fpprev;
	uint4		errmsg;
	DCL_THREADGBL_ACCESS;

	SETUP_THREADGBL_ACCESS;
	assert(!(SFT_ZINTR & proc_act_type));
	/* With no extra ztrap frame being pushed onto stack, we may miss error(s)
	 * during trans_code if we don't check proc_act_type in addition to
	 * frame_pointer->type below.
	 */
	if (SFT_ZTRAP == proc_act_type)
	{
		if (0 < dollar_ztrap.str.len)
			errmsg = ERR_ERRWZTRAP;
		else
			errmsg = ERR_ERRWETRAP;
	} else if (SFT_DEV_ACT == proc_act_type)
		errmsg = ERR_ERRWIOEXC;
	else
		errmsg = 0;
	proc_act_type = 0;
	if (TREF(compile_time))
	{
		TREF(compile_time) = FALSE;
		if (stringpool.base != rts_stringpool.base)
			stringpool = rts_stringpool;
	}
	for (fp = frame_pointer; fp; fp = fpprev)
	{
		fpprev = fp->old_frame_pointer;
#		ifdef GTM_TRIGGER
		if (SFT_TRIGR & fpprev->type)
			fpprev = *(stack_frame **)(fpprev + 1);
#		endif
		if (fp->type & SFT_DM)
			break;
		if (fp->type & SFT_COUNT)
		{
			if ((ERR_ERRWZTRAP == errmsg) || (ERR_ERRWETRAP == errmsg))
			{	/* Whether ETRAP or ZTRAP we want to rethrow the error at one level down */
				SET_ERROR_FRAME(fp);	/* reset error_frame to point to the closest counted frame */
				assert(fp->flags & SFF_ETRAP_ERR);
				/* Turn off any device exception related flags now that we are going to handle errors using
				 * $ETRAP or $ZTRAP AT THE PARENT LEVEL only (no more device exceptions).
				 */
				dollar_ztrap.str.len = 0;
				ztrap_explicit_null = FALSE;
				fp->flags &= SFF_DEV_ACT_ERR_OFF;
				fp->flags &= SFF_ZTRAP_ERR_OFF;
				err_act = &dollar_etrap.str;
				break;
			} else if (ERR_ERRWIOEXC == errmsg)
			{	/* Error while compiling device exception. Set SFF_ETRAP_ERR bit so control is transferred to
				 * error_return() which in turn will rethrow the error AT THE SAME LEVEL in order to try and
				 * use $ZTRAP or $ETRAP whichever is active. Also set the SFF_DEV_ACT_ERR bit to signify this
				 * is a device exception that is rethrown instead of a ztrap/etrap error. Also assert that
				 * the rethrow will not use IO exception again (thereby ensuring error processing will
				 * eventually terminate instead of indefinitely recursing).
				 */
				fp->flags |= (SFF_DEV_ACT_ERR | SFF_ETRAP_ERR);
				assert(NULL == active_device);	/* mdb_condition_handler should have reset it */
				break;
			} else if ((ERR_ERRWZBRK == errmsg) || (ERR_ERRWEXC == errmsg))
			{	/* For typical exceptions in ZBREAK and ZSTEP, get back to direct mode */
				dm_setup();
				break;
			} else
			{	/* The only known way to be here is if the command is a command given in direct mode as
				 * mdb_condition_handler won't drive an error handler in that case which would be caught in
				 * one of the above conditions. Not breaking out of the loop here means the frame will just
				 * unwind and we'll break on the direct mode frame which will be redriven. If the parent frame
				 * is not a direct mode frame, we'll assert in debug or break in pro and just continue.
				 * to direct mode.
				 */
				assert(fp->flags && (SFF_INDCE));
				if (!fp->old_frame_pointer || !(fp->old_frame_pointer->type & SFT_DM))
				{
					assert(FALSE);
					break;
				}
			}
		}
		if (fp->type)
		{
			SET_ERR_CODE(fp, errmsg);
		}
		/* If this frame is indicated for cache cleanup, do that cleanup
		 * now before we get rid of the pointers used by that cleanup.
		 */
		IF_INDR_FRAME_CLEANUP_CACHE_ENTRY_AND_UNMARK(fp);
		fp->mpc = CODE_ADDRESS(pseudo_ret);
		fp->ctxt = GTM_CONTEXT(pseudo_ret);
		fp->flags &= SFF_IMPLTSTART_CALLD_OFF;	/* Frame enterable now with mpc reset */
		GTMTRIG_ONLY(DBGTRIGR((stderr, "trans_code_cleanup: turning off SFF_IMPLTSTART_CALLD in frame 0x"lvaddr"\n",
				       frame_pointer)));
	}
	TREF(transform) = TRUE;
	if (0 != errmsg)
		dec_err(VARLSTCNT(1) errmsg);
}
Esempio n. 4
0
int gtm_trigger(gv_trigger_t *trigdsc, gtm_trigger_parms *trigprm)
{
	mval		*lvvalue;
	lnr_tabent	*lbl_offset_p;
	uchar_ptr_t	transfer_addr;
	lv_val		*lvval;
	mname_entry	*mne_p;
	uint4		*indx_p;
	ht_ent_mname	*tabent;
	boolean_t	added;
	int		clrlen, rc, i, unwinds;
	mval		**lvvalarray;
	mv_stent	*mv_st_ent;
	symval		*new_symval;
	uint4		dollar_tlevel_start;
	stack_frame	*fp, *fpprev;
	DCL_THREADGBL_ACCESS;

	SETUP_THREADGBL_ACCESS;
	assert(!skip_dbtriggers);	/* should not come here if triggers are not supposed to be invoked */
	assert(trigdsc);
	assert(trigprm);
	assert((NULL != trigdsc->rtn_desc.rt_adr) || ((MV_STR & trigdsc->xecute_str.mvtype)
						      && (0 != trigdsc->xecute_str.str.len)
						      && (NULL != trigdsc->xecute_str.str.addr)));
	assert(dollar_tlevel);
	/* Determine if trigger needs to be compiled */
	if (NULL == trigdsc->rtn_desc.rt_adr)
	{	/* No routine hdr addr exists. Need to do compile */
		if (0 != gtm_trigger_complink(trigdsc, TRUE))
		{
			PRN_ERROR;	/* Leave record of what error caused the compilation failure if any */
			rts_error(VARLSTCNT(4) ERR_TRIGCOMPFAIL, 2, trigdsc->rtn_desc.rt_name.len, trigdsc->rtn_desc.rt_name.addr);
		}
	}
	assert(trigdsc->rtn_desc.rt_adr);
	assert(trigdsc->rtn_desc.rt_adr == CURRENT_RHEAD_ADR(trigdsc->rtn_desc.rt_adr));
	/* Setup trigger environment stack frame(s) for execution */
	if (!(frame_pointer->type & SFT_TRIGR))
	{	/* Create new trigger base frame first that back-stops stack unrolling and return to us */
		if (GTM_TRIGGER_DEPTH_MAX < (gtm_trigger_depth + 1))	/* Verify we won't nest too deep */
			rts_error(VARLSTCNT(3) ERR_MAXTRIGNEST, 1, GTM_TRIGGER_DEPTH_MAX);
		DBGTRIGR((stderr, "gtm_trigger: PUSH: frame_pointer 0x%016lx  ctxt value: 0x%016lx\n", frame_pointer, ctxt));
		/* Protect against interrupts while we have only a trigger base frame on the stack */
		DEFER_INTERRUPTS(INTRPT_IN_TRIGGER_NOMANS_LAND);
		/* The current frame invoked a trigger. We cannot return to it for a TP restart or other reason unless
		 * either the total operation (including trigger) succeeds and we unwind normally or unless the mpc is reset
		 * (like what happens in various error or restart conditions) because right now it returns to where a database
		 * command (KILL, SET or ZTRIGGER) was entered. Set flag in the frame to prevent MUM_TSTART unless the frame gets
		 * reset.
		 */
		frame_pointer->flags |= SFF_TRIGR_CALLD;	/* Do not return to this frame via MUM_TSTART */
		DBGTRIGR((stderr, "gtm_trigger: Setting SFF_TRIGR_CALLD in frame 0x"lvaddr"\n", frame_pointer));
		base_frame(trigdsc->rtn_desc.rt_adr);
		/* Finish base frame initialization - reset mpc/context to return to us without unwinding base frame */
		frame_pointer->type |= SFT_TRIGR;
#		if defined(__hpux) && defined(__hppa)
		/* For HPUX-HPPA (PA-RISC), we use longjmp() to return to gtm_trigger() to avoid some some space register
		 * corruption issues. Use call-ins already existing mechanism for doing this. Although we no longer support
		 * HPUX-HPPA for triggers due to some unlocated space register error, this code (effectively always ifdef'd
		 * out) left in in case it gets resurrected in the future (01/2010 SE).
		 */
		frame_pointer->mpc = CODE_ADDRESS(ci_ret_code);
		frame_pointer->ctxt = GTM_CONTEXT(ci_ret_code);
#		else
		frame_pointer->mpc = CODE_ADDRESS(gtm_levl_ret_code);
		frame_pointer->ctxt = GTM_CONTEXT(gtm_levl_ret_code);
#		endif
		/* This base stack frame is also where we save environmental info for all triggers invoked at this stack level.
		 * Subsequent triggers fired at this level in this trigger invocation need only reinitialize a few things but
		 * can avoid "the big save".
		 */
		if (NULL == trigr_symval_list)
		{	/* No available symvals for use with this trigger, create one */
			symbinit();	/* Initialize a symbol table the trigger will use */
			curr_symval->trigr_symval = TRUE;	/* Mark as trigger symval so will be saved not decommissioned */
		} else
		{	/* Trigger symval is available for reuse */
			new_symval = trigr_symval_list;
			assert(new_symval->trigr_symval);
			trigr_symval_list = new_symval->last_tab;		/* dequeue new curr_symval from list */
			REINIT_SYMVAL_BLK(new_symval, curr_symval);
			curr_symval = new_symval;
			PUSH_MV_STENT(MVST_STAB);
			mv_chain->mv_st_cont.mvs_stab = new_symval;		/* So unw_mv_ent() can requeue it for later use */
		}
		/* Push our trigger environment save mv_stent onto the chain */
		PUSH_MV_STENT(MVST_TRIGR);
		mv_st_ent = mv_chain;
		/* Initialize the mv_stent elements processed by stp_gcol which can be called by either op_gvsavtarg() or
		 * by the extnam saving code below. This initialization keeps stp_gcol - should it be called - from attempting
		 * to process unset fields filled with garbage in them as valid mstr address/length pairs.
		 */
		mv_st_ent->mv_st_cont.mvs_trigr.savtarg.str.len = 0;
		mv_st_ent->mv_st_cont.mvs_trigr.savextref.len = 0;
		mv_st_ent->mv_st_cont.mvs_trigr.dollar_etrap_save.str.len = 0;
		mv_st_ent->mv_st_cont.mvs_trigr.dollar_ztrap_save.str.len = 0;
		mv_st_ent->mv_st_cont.mvs_trigr.saved_dollar_truth = dollar_truth;
		op_gvsavtarg(&mv_st_ent->mv_st_cont.mvs_trigr.savtarg);
		if (extnam_str.len)
		{
			ENSURE_STP_FREE_SPACE(extnam_str.len);
			mv_st_ent->mv_st_cont.mvs_trigr.savextref.addr = (char *)stringpool.free;
			memcpy(mv_st_ent->mv_st_cont.mvs_trigr.savextref.addr, extnam_str.addr, extnam_str.len);
			stringpool.free += extnam_str.len;
			assert(stringpool.free <= stringpool.top);
		}
		mv_st_ent->mv_st_cont.mvs_trigr.savextref.len = extnam_str.len;
		mv_st_ent->mv_st_cont.mvs_trigr.ztname_save = dollar_ztname;
		mv_st_ent->mv_st_cont.mvs_trigr.ztdata_save = dollar_ztdata;
		mv_st_ent->mv_st_cont.mvs_trigr.ztoldval_save = dollar_ztoldval;
		mv_st_ent->mv_st_cont.mvs_trigr.ztriggerop_save = dollar_ztriggerop;
		mv_st_ent->mv_st_cont.mvs_trigr.ztupdate_save = dollar_ztupdate;
		mv_st_ent->mv_st_cont.mvs_trigr.ztvalue_save = dollar_ztvalue;
		mv_st_ent->mv_st_cont.mvs_trigr.ztvalue_changed_ptr = ztvalue_changed_ptr;
#		ifdef DEBUG
		/* In a debug process, these fields give clues of what trigger we are working on */
		mv_st_ent->mv_st_cont.mvs_trigr.gtm_trigdsc_last_save = trigdsc;
		mv_st_ent->mv_st_cont.mvs_trigr.gtm_trigprm_last_save = trigprm;
#		endif
		assert(((0 == gtm_trigger_depth) && (ch_at_trigger_init == ctxt->ch))
		       || ((0 < gtm_trigger_depth) && (&mdb_condition_handler == ctxt->ch)));
		mv_st_ent->mv_st_cont.mvs_trigr.ctxt_save = ctxt;
		mv_st_ent->mv_st_cont.mvs_trigr.gtm_trigger_depth_save = gtm_trigger_depth;
		if (0 == gtm_trigger_depth)
		{	/* Only back up $*trap settings when initiating the first trigger level */
			mv_st_ent->mv_st_cont.mvs_trigr.dollar_etrap_save = dollar_etrap;
			mv_st_ent->mv_st_cont.mvs_trigr.dollar_ztrap_save = dollar_ztrap;
			mv_st_ent->mv_st_cont.mvs_trigr.ztrap_explicit_null_save = ztrap_explicit_null;
			dollar_ztrap.str.len = 0;
			ztrap_explicit_null = FALSE;
			if (NULL != gtm_trigger_etrap.str.addr)
				/* An etrap was defined for the trigger environment - Else existing $etrap persists */
				dollar_etrap = gtm_trigger_etrap;
		}
		mv_st_ent->mv_st_cont.mvs_trigr.mumps_status_save = mumps_status;
		mv_st_ent->mv_st_cont.mvs_trigr.run_time_save = run_time;
		/* See if a MERGE launched the trigger. If yes, save some state so ZWRITE, ZSHOW and/or MERGE can be
		 * run in the trigger we dispatch. */
		if ((0 != merge_args) || TREF(in_zwrite))
			PUSH_MVST_MRGZWRSV;
		mumps_status = 0;
		run_time = TRUE;	/* Previous value saved just above restored when frame pops */
	} else
	{	/* Trigger base frame exists so reinitialize the symbol table for new trigger invocation */
		REINIT_SYMVAL_BLK(curr_symval, curr_symval->last_tab);
		/* Locate the MVST_TRIGR mv_stent containing the backed up values. Some of those values need
		 * to be restored so the 2nd trigger has the same environment as the previous trigger at this level
		 */
		for (mv_st_ent = mv_chain;
		     (NULL != mv_st_ent) && (MVST_TRIGR != mv_st_ent->mv_st_type);
		     mv_st_ent = (mv_stent *)(mv_st_ent->mv_st_next + (char *)mv_st_ent))
			;
		assert(NULL != mv_st_ent);
		assert((char *)mv_st_ent < (char *)frame_pointer); /* Ensure mv_stent associated this trigger frame */
		/* Reinit backed up values from the trigger environment backup */
		dollar_truth = mv_st_ent->mv_st_cont.mvs_trigr.saved_dollar_truth;
		op_gvrectarg(&mv_st_ent->mv_st_cont.mvs_trigr.savtarg);
		extnam_str.len = mv_st_ent->mv_st_cont.mvs_trigr.savextref.len;
		if (extnam_str.len)
			memcpy(extnam_str.addr, mv_st_ent->mv_st_cont.mvs_trigr.savextref.addr, extnam_str.len);
		mumps_status = 0;
		assert(run_time);
		/* Note we do not reset the handlers for parallel triggers - set one time only when enter first level
		 * trigger. After that, whatever happens in trigger world, stays in trigger world.
		 */
	}
	assert(frame_pointer->type & SFT_TRIGR);
#	ifdef DEBUG
	gtm_trigdsc_last = trigdsc;
	gtm_trigprm_last = trigprm;
#	endif
	/* Set new value of trigger ISVs. Previous values already saved in trigger base frame */
	dollar_ztname = &trigdsc->rtn_desc.rt_name;
	dollar_ztdata = (mval *)trigprm->ztdata_new;
	dollar_ztoldval = trigprm->ztoldval_new;
	dollar_ztriggerop = (mval *)trigprm->ztriggerop_new;
	dollar_ztupdate = trigprm->ztupdate_new;
	dollar_ztvalue = trigprm->ztvalue_new;
	ztvalue_changed_ptr = &trigprm->ztvalue_changed;
	/* Set values associated with trigger into symbol table */
	lvvalarray = trigprm->lvvalarray;
	for (i = 0, mne_p = trigdsc->lvnamearray, indx_p = trigdsc->lvindexarray;
	     i < trigdsc->numlvsubs; ++i, ++mne_p, ++indx_p)
	{	/* Once thru for each subscript we are to set */
		lvvalue = lvvalarray[*indx_p];			/* Locate mval that contains value */
		assert(NULL != lvvalue);
		assert(MV_DEFINED(lvvalue));			/* No sense in defining the undefined */
		lvval = lv_getslot(curr_symval);		/* Allocate an lvval to put into symbol table */
		LVVAL_INIT(lvval, curr_symval);
		lvval->v = *lvvalue;				/* Copy mval into lvval */
		added = add_hashtab_mname_symval(&curr_symval->h_symtab, mne_p, lvval, &tabent);
		assert(added);
		assert(NULL != tabent);
	}
	/* While the routine header is available in trigdsc, we also need the <null> label address associated with
	 *  the first (and only) line of code.
	 */
	lbl_offset_p = LNRTAB_ADR(trigdsc->rtn_desc.rt_adr);
	transfer_addr = (uchar_ptr_t)LINE_NUMBER_ADDR(trigdsc->rtn_desc.rt_adr, lbl_offset_p);
	/* Create new stack frame for invoked trigger in same fashion as gtm_init_env() creates its 2ndary frame */
#	ifdef HAS_LITERAL_SECT
	new_stack_frame(trigdsc->rtn_desc.rt_adr, (unsigned char *)LINKAGE_ADR(trigdsc->rtn_desc.rt_adr), transfer_addr);
#	else
	/* Any platform that does not follow pv-based linkage model either
	 *	(1) uses the following calculation to determine the context pointer value, or
	 *	(2) doesn't need a context pointer
	 */
	new_stack_frame(trigdsc->rtn_desc.rt_adr, PTEXT_ADR(trigdsc->rtn_desc.rt_adr), transfer_addr);
#	endif
	dollar_tlevel_start = dollar_tlevel;
	assert(gv_target->gd_csa == cs_addrs);
	gv_target->trig_local_tn = local_tn;			/* Record trigger being driven for this global */
	/* Invoke trigger generated code */
	rc = gtm_trigger_invoke();
	if (1 == rc)
	{	/* Normal return code (from dm_start). Check if TP has been unwound or not */
		assert(dollar_tlevel <= dollar_tlevel_start);	/* Bigger would be quite the surprise */
		if (dollar_tlevel < dollar_tlevel_start)
		{	/* Our TP level was unwound during the trigger so throw an error */
			DBGTRIGR((stderr, "gtm_trigger: $TLEVEL less than at start - throwing TRIGTLVLCHNG\n"));
			gtm_trigger_fini(TRUE, FALSE);	/* dump this trigger level */
			rts_error(VARLSTCNT(4) ERR_TRIGTLVLCHNG, 2, trigdsc->rtn_desc.rt_name.len,
				  trigdsc->rtn_desc.rt_name.addr);
		}
		rc = 0;			/* Be polite and return 0 for the (hopefully common) success case */
	} else if (ERR_TPRETRY == rc)
	{	/* We are restarting the entire transaction. There are two possibilities here:
		 * 1) This is a nested trigger level in which case we need to unwind further or
		 *    the outer trigger level was created by M code. If either is true, just
		 *    rethrow the TPRETRY error.
		 * 2) This is the outer trigger and the call to op_tstart() was done by our caller.
		 *    In this case, we just return to our caller with a code signifying they need
		 *    to restart the implied transaction.
		 */
		assert(dollar_tlevel && (tstart_trigger_depth <= gtm_trigger_depth));
		if ((tstart_trigger_depth < gtm_trigger_depth) || !tp_pointer->implicit_tstart || !tp_pointer->implicit_trigger)
		{	/* Unwind a trigger level to restart level or to next trigger boundary */
			gtm_trigger_fini(FALSE, FALSE);	/* Get rid of this trigger level - we won't be returning */
			DBGTRIGR((stderr, "gtm_trigger: dm_start returned rethrow code - rethrowing ERR_TPRETRY\n"));
			INVOKE_RESTART;
		} else
		{	/* It is possible we are restarting a transaction that never got around to creating a base
			 * frame yet the implicit TStart was done. So if there is no trigger base frame, do not
			 * run gtm_trigger_fini() but instead do the one piece of cleanup it does that we still need.
			 */
			assert(donot_INVOKE_MUMTSTART);
			if (SFT_TRIGR & frame_pointer->type)
			{	/* Normal case when TP restart unwinding back to implicit beginning */
				gtm_trigger_fini(FALSE, FALSE);
				DBGTRIGR((stderr, "gtm_trigger: dm_start returned rethrow code - returning to gvcst_<caller>\n"));
			} else
			{       /* Unusual case of trigger that died in no-mans-land before trigger base frame established.
				 * Remove the "do not return to me" flag only on non-error unwinds */
				assert(tp_pointer->implicit_tstart);
				assert(SFF_TRIGR_CALLD & frame_pointer->flags);
				frame_pointer->flags &= SFF_TRIGR_CALLD_OFF;
				DBGTRIGR((stderr, "gtm_trigger: turning off SFF_TRIGR_CALLD (1) in frame 0x"lvaddr"\n",
					  frame_pointer));
				DBGTRIGR((stderr, "gtm_trigger: unwinding no-base-frame trigger for TP restart\n"));
			}
		}
		/* Fall out and return ERR_TPRETRY to caller */
	} else if (0 == rc)
		/* We should never get a return code of 0. This would be out-of-design and a signal that something
		 * is quite broken. We cannot "rethrow" outside the trigger because it was not initially an error so
		 * mdb_condition_handler would have no record of it (rethrown errors must have originally occurred in
		 * or to be RE-thrown) and assert fail at best.
		 */
		GTMASSERT;
	else
	{	/* We have an unexpected return code due to some error during execution of the trigger that tripped
		 * gtm_trigger's safety handler (i.e. an error occurred in mdb_condition_handler() established by
		 * dm_start(). Since we are going to unwind the trigger frame and rethrow the error, we also have
		 * to unwind all the stack frames on top of the trigger frame. Figure out how many frames that is,
		 * unwind them all plus the trigger base frame before rethrowing the error.
		 */
		for (unwinds = 0, fp = frame_pointer; (NULL != fp) && !(SFT_TRIGR & fp->type); fp = fp->old_frame_pointer)
			unwinds++;
		assert((NULL != fp) && (SFT_TRIGR & fp->type));
		GOFRAMES(unwinds, TRUE, FALSE);
		assert((NULL != frame_pointer) && !(SFT_TRIGR & frame_pointer->type));
		DBGTRIGR((stderr, "gtm_trigger: Unsupported return code (%d) - unwound %d frames and now rethrowing error\n",
			  rc, unwinds));
		rts_error(VARLSTCNT(1) ERR_REPEATERROR);
	}
	return rc;
}