/**************************************************************** * * * Copyright 2010, 2011 Fidelity Information Services, Inc * * * * This source code contains the intellectual property * * of its copyright holder(s), and is made available * * under a license. If you do not know the terms of * * the license, please stop and do not read further. * * * ****************************************************************/ #include "mdef.h" #ifdef GTM_TRIGGER #include "gdsroot.h" /* for gdsfhead.h */ #include "gdsbt.h" /* for gdsfhead.h */ #include "gdsfhead.h" #include "gvcst_protos.h" #include "rtnhdr.h" #include "gv_trigger.h" #include "trigger.h" #include "mv_stent.h" /* for COPY_SUBS_TO_GVCURRKEY macro */ #include "gvsub2str.h" /* for COPY_SUBS_TO_GVCURRKEY */ #include "format_targ_key.h" /* for COPY_SUBS_TO_GVCURRKEY */ #include "targ_alloc.h" /* for SETUP_TRIGGER_GLOBAL & SWITCH_TO_DEFAULT_REGION */ #include "filestruct.h" /* for INITIAL_HASHT_ROOT_SEARCH_IF_NEEDED (FILE_INFO) */ #include "mvalconv.h" #include "gdscc.h" /* needed for tp.h */ #include "gdskill.h" /* needed for tp.h */ #include "buddy_list.h" /* needed for tp.h */ #include "hashtab_int4.h" /* needed for tp.h */ #include "jnl.h" /* needed for tp.h */ #include "tp.h" /* for sgm_info */ #include "tp_frame.h" #include "tp_restart.h" #include "tp_set_sgm.h" #include "t_retry.h" #include "op.h" #include "op_tcommit.h" #include "memcoherency.h" #include "gtmimagename.h" #include "trigger_fill_xecute_buffer.h" #include "trigger_gbl_fill_xecute_buffer.h" GBLREF sgmnt_data_ptr_t cs_data; GBLREF sgmnt_addrs *cs_addrs; GBLREF gd_addr *gd_header; GBLREF gv_key *gv_currkey; GBLREF gd_region *gv_cur_region; GBLREF sgm_info *sgm_info_ptr; GBLREF gv_namehead *gv_target; GBLREF boolean_t skip_INVOKE_RESTART; GBLREF int tprestart_state; GBLREF int4 tstart_trigger_depth; GBLREF int4 gtm_trigger_depth; GBLREF tp_frame *tp_pointer; LITREF mval literal_hasht; error_def(ERR_TRIGNAMBAD); error_def(ERR_TPRETRY); error_def(ERR_GVGETFAIL); STATICFNDCL CONDITION_HANDLER(trigger_fill_xecute_buffer_ch); STATICFNDCL void trigger_fill_xecute_buffer_read_trigger_source(gv_trigger_t *trigdsc); /* Similar condition handler to above without the tp-restart - just unwind and let caller do the restart */ CONDITION_HANDLER(trigger_fill_xecute_buffer_ch) { START_CH; if ((int)ERR_TPRETRY == SIGNAL) { UNWIND(NULL, NULL); } NEXTCH; } int trigger_fill_xecute_buffer(gv_trigger_t *trigdsc) { int src_fetch_status; assert(!dollar_tlevel || (tstart_trigger_depth <= gtm_trigger_depth)); /* We have 3 cases to consider - all of which REQUIRE a TP fence to already be in effect. The reason for this is, if we * detect a restartable condition, we are going to cause this region's triggers to be unloaded which destroys the block * our parameter is pointing to so the restart logic MUST take place outside of this routine. * * 1. We have an active transaction due to an IMPLICIT TSTART done by trigger handling but the trigger level has not yet * been created. We don't need another TP wrapper in this case but we do need a condition handler to trap the thrown * retry to again prevent C stack unwind and return to the caller in the same shape that gtm_trigger would return. * 2. We have an active transaction due to an EXPLICIT M-code TSTART command. For this case, the trigger loads proceed * as normal with restarts handled in the regular automatic fashion. Note this case also covers the tp restarts done * by both the update process and mupip recover forward since those functions have their own way of intercepting and * dealing with restarts. To cover those cases, tp->implicit_tstart can be TRUE but tp_implicit_trigger MUST be * FALSE. * 3. We have an active transaction due to an IMPLICIT TSTART done by trigger handling and one or more triggers are * running. This becomes like case 2 since the restart will be handled by gtm_trigger and the proper thing will * be done. * * An extra note about case 3. Case 3 can be the identified case if in a nested trigger we are in trigger-no-mans-land * with a base frame for the nested trigger (having driven one of a set of parallel nested triggers) but no actual trigger * execution frame yet exists. This is really a case 1 situation with a nested trigger but it turns out that dealing with * like case 3 does the right thing because if/when mdb_condition_handler catches a thrown TPRETRY error, mdb_condition * handler will peal the nested trigger frame off before doing the restart which works for us and avoids issues of * multi-level implicit restarts we would otherwise have to handle. * * Note, this routine is for loading trigger source when the trigger is to be driven. The trigger_source_read_andor_verify() * routine should be used when fetching trigger source for reasons other than driving the triggers. This routine is lighter * weight but has a dependence on the restartability of the trigger-drive logic for getting the triggers reloaded as * necessary. */ if (0 < dollar_tlevel) { if (!tp_pointer->implicit_trigger /* Case 2 */ || (tp_pointer->implicit_tstart && tp_pointer->implicit_trigger && (tstart_trigger_depth != gtm_trigger_depth))) /* Case 3 */ { /* Test for Case 3/4 where we get to do very little: */ assert((!tp_pointer->implicit_trigger) || (0 < gtm_trigger_depth)); trigger_fill_xecute_buffer_read_trigger_source(trigdsc); } else { /* Test for Case 1 where we only need a condition handler */ assert(tp_pointer->implicit_tstart && tp_pointer->implicit_trigger); assert(tstart_trigger_depth == gtm_trigger_depth); ESTABLISH_RET(trigger_fill_xecute_buffer_ch, SIGNAL); trigger_fill_xecute_buffer_read_trigger_source(trigdsc); REVERT; } } else GTMASSERT; /* return our bounty to caller */ trigdsc->xecute_str.mvtype = MV_STR; return 0; /* Could return ERR_TPRETRY if return is via our condition handler */ } /* Workhorse of fetching source for given trigger. */ STATICFNDEF void trigger_fill_xecute_buffer_read_trigger_source(gv_trigger_t *trigdsc) { mname_entry gvent; enum cdb_sc cdb_status; int4 index; mstr gbl, xecute_buff; mval trig_index; sgmnt_addrs *csa; sgmnt_data_ptr_t csd; gvt_trigger_t *gvt_trigger; gv_namehead *gvt; gv_namehead *hasht_tree, *save_gv_target; gv_key *save_gv_currkey; gd_region *save_gv_cur_region; sgm_info *save_sgm_info_ptr; char save_currkey[SIZEOF(gv_key) + DBKEYSIZE(MAX_KEY_SZ)]; assert(0 < dollar_tlevel); assert(NULL != trigdsc); SAVE_TRIGGER_REGION_INFO; gvt_trigger = trigdsc->gvt_trigger; /* We now know our base block now */ index = trigdsc - gvt_trigger->gv_trig_array + 1; /* We now know our trigger index value */ i2mval(&trig_index, index); gvt = gv_target = gvt_trigger->gv_target; /* gv_target contains global name */ gbl.addr = gvt->gvname.var_name.addr; gbl.len = gvt->gvname.var_name.len; /* Our situation is that while our desired gv_target has csa information, we don't know specifically * which global directory was in use so we can't run gv_bind_name() lest we find the given global * name in the wrong global directory thus running the wrong triggers. But we know this target is * properly formed since it had to be when it was recorded when the triggers were loaded. Because of * that, we can get the correct csa and gv_target and csa-region will point us to a region that will * work even if it isn't exactly the one we used to get to this trigger. */ TP_CHANGE_REG_IF_NEEDED(gvt->gd_csa->region); csa = cs_addrs; csd = csa->hdr; assert(csd == cs_data); tp_set_sgm(); /* See if we need to reload our triggers */ if ((csa->db_trigger_cycle != gvt->db_trigger_cycle) || (csa->db_dztrigger_cycle && (gvt->db_dztrigger_cycle != csa->db_dztrigger_cycle))) { /* The process' view of the triggers could be potentially stale. Restart to be safe. * Triggers can be invoked only by GT.M and Update process. Out of these, we expect only * GT.M to see restarts due to concurrent trigger changes. Update process is the only * updater on the secondary so we dont expect it to see any concurrent trigger changes * Assert accordingly. */ assert(CDB_STAGNATE > t_tries); assert(IS_GTM_IMAGE); t_retry(cdb_sc_triggermod); } SETUP_TRIGGER_GLOBAL; INITIAL_HASHT_ROOT_SEARCH_IF_NEEDED; assert(0 == trigdsc->xecute_str.str.len); /* Make sure not replacing/losing a buffer */ xecute_buff.addr = trigger_gbl_fill_xecute_buffer(gbl.addr, gbl.len, &trig_index, NULL, (int4 *)&xecute_buff.len); trigdsc->xecute_str.str = xecute_buff; /* Restore gv_target/gv_currkey which need to be kept in sync */ RESTORE_TRIGGER_REGION_INFO; return; } #endif /* GTM_TRIGGER */