/**************************************************************** * * * Copyright 2001, 2012 Fidelity Information Services, Inc * * * * This source code contains the intellectual property * * of its copyright holder(s), and is made available * * under a license. If you do not know the terms of * * the license, please stop and do not read further. * * * ****************************************************************/ #include "mdef.h" #include "gtm_ipc.h" #include "gtm_inet.h" #include "gtm_fcntl.h" #include "gtm_string.h" #include "gtm_unistd.h" #include "gtm_time.h" #include #include #include #include #include /* for VSIG_ATOMIC_T type */ #include "gdsroot.h" #include "gtm_facility.h" #include "fileinfo.h" #include "gdsbt.h" #include "gdsfhead.h" #include "filestruct.h" #include "gdsblk.h" #include "gt_timer.h" #include "jnl.h" #include "interlock.h" #include "error.h" #include "iosp.h" #include "gdsbgtr.h" #include "repl_msg.h" #include "gtmsource.h" #include "aswp.h" #include "gtm_c_stack_trace.h" #include "eintr_wrappers.h" #include "eintr_wrapper_semop.h" #include "util.h" #include "send_msg.h" #include "change_reg.h" #include "compswap.h" #ifdef UNIX #include "mutex.h" #endif #include "gds_rundown.h" #include "gvusr.h" #include "do_semop.h" #include "mmseg.h" #include "ipcrmid.h" #include "gtmmsg.h" #include "wcs_recover.h" #include "wcs_mm_recover.h" #include "tp_change_reg.h" #include "wcs_flu.h" #include "add_inter.h" #include "io.h" #include "gtmsecshr.h" #include "secshr_client.h" #include "ftok_sems.h" #include "gtmimagename.h" #include "gtmio.h" #include "have_crit.h" #include "wcs_clean_dbsync.h" #include "is_proc_alive.h" #include "shmpool.h" #include "db_snapshot.h" #include "tp_grab_crit.h" #include "ss_lock_facility.h" #ifndef GTM_SNAPSHOT # error "Snapshot facility not available on this platform" #endif #define CANCEL_DB_TIMERS(region, csa, cancelled_timer, cancelled_dbsync_timer) \ { \ if (csa->timer) \ { \ cancel_timer((TID)region); \ if (NULL != csa->nl) \ DECR_CNT(&csa->nl->wcs_timers, &csa->nl->wc_var_lock); \ cancelled_timer = TRUE; \ csa->timer = FALSE; \ } \ if (csa->dbsync_timer) \ { \ CANCEL_DBSYNC_TIMER(csa); \ cancelled_dbsync_timer = TRUE; \ } \ } GBLREF VSIG_ATOMIC_T forced_exit; GBLREF boolean_t mupip_jnl_recover; GBLREF boolean_t created_core, need_core, dont_want_core, is_src_server, is_updproc; GBLREF gd_region *gv_cur_region; GBLREF sgmnt_addrs *cs_addrs; GBLREF sgmnt_data_ptr_t cs_data; GBLREF uint4 process_id; GBLREF ipcs_mesg db_ipcs; GBLREF jnl_process_vector *prc_vec; GBLREF jnl_process_vector *originator_prc_vec; GBLREF jnl_gbls_t jgbl; GBLREF boolean_t dse_running; LITREF char gtm_release_name[]; LITREF int4 gtm_release_name_len; error_def(ERR_ASSERT); error_def(ERR_CRITSEMFAIL); error_def(ERR_DBFILERR); error_def(ERR_DBRNDWN); error_def(ERR_RNDWNSKIPCNT); error_def(ERR_DBRNDWNWRN); error_def(ERR_GTMASSERT); error_def(ERR_GTMASSERT2); error_def(ERR_GTMCHECK); error_def(ERR_IPCNOTDEL); error_def(ERR_JNLFLUSH); error_def(ERR_MEMORY); error_def(ERR_OUTOFSPACE); error_def(ERR_RNDWNSEMFAIL); error_def(ERR_STACKOFLOW); error_def(ERR_TEXT); error_def(ERR_WCBLOCKED); error_def(ERR_STACKOFLOW); void gds_rundown(void) { boolean_t cancelled_dbsync_timer, cancelled_timer, have_standalone_access, ipc_deleted, skip_database_rundown; boolean_t is_cur_process_ss_initiator, remove_shm, vermismatch, we_are_last_user, we_are_last_writer, is_mm; now_t now; /* for GET_CUR_TIME macro */ char *time_ptr, time_str[CTIME_BEFORE_NL + 2]; /* for GET_CUR_TIME macro */ gd_region *reg; int save_errno, status, rc; int4 semval, ftok_semval, sopcnt, ftok_sopcnt; short crash_count; sm_long_t munmap_len; sgmnt_addrs *csa; sgmnt_data_ptr_t csd; struct shmid_ds shm_buf; struct sembuf sop[2], ftok_sop[2]; uint4 jnl_status; unix_db_info *udi; jnl_private_control *jpc; jnl_buffer_ptr_t jbp; shm_snapshot_t *ss_shm_ptr; uint4 ss_pid, onln_rlbk_pid, holder_pid; boolean_t was_crit; jnl_status = 0; reg = gv_cur_region; /* Local copy */ /* early out for cluster regions * to avoid tripping the assert below. * Note: * This early out is consistent with VMS. It has been * noted that all of the gtcm assignments * to gv_cur_region should use the TP_CHANGE_REG * macro. This would also avoid the assert problem * and should be done eventually. */ if (dba_cm == reg->dyn.addr->acc_meth) return; udi = FILE_INFO(reg); csa = &udi->s_addrs; csd = csa->hdr; assert(csa == cs_addrs && csd == cs_data); if ((reg->open) && (dba_usr == csd->acc_meth)) { change_reg(); gvusr_rundown(); return; } ESTABLISH(gds_rundown_ch); assert(reg->open); /* if we failed to open, dbinit_ch should have taken care of proper clean up */ assert(!reg->opening); /* see comment above */ switch(csd->acc_meth) { /* Pass mm and bg through */ case dba_bg: is_mm = FALSE; break; case dba_mm: is_mm = TRUE; break; case dba_usr: assert(FALSE); default: REVERT; return; } assert(!csa->hold_onto_crit || (csa->now_crit && jgbl.onlnrlbk)); /* If we are online rollback, we should already be holding crit and should release it only at the end of this module. This * is usually done by noting down csa->now_crit in a local variable (was_crit) and using it whenever we are about to * grab_crit. But, there are instances (like mupip_set_journal.c) where we grab_crit but invoke gds_rundown without any * preceeding rel_crit. Such code relies on the fact that gds_rundown does rel_crit unconditionally (to get locks to a known * state). So, augment csa->now_crit with jgbl.onlnrlbk to track if we can rel_crit unconditionally or not in gds_rundown. */ was_crit = (csa->now_crit && jgbl.onlnrlbk); /* Cancel any pending flush timer for this region by this task */ cancelled_timer = FALSE; cancelled_dbsync_timer = FALSE; CANCEL_DB_TIMERS(reg, csa, cancelled_timer, cancelled_dbsync_timer); we_are_last_user = FALSE; if (!csa->persistent_freeze) region_freeze(reg, FALSE, FALSE, FALSE); if (!was_crit) { rel_crit(reg); /* get locks to known state */ mutex_cleanup(reg); } DEFER_INTERRUPTS(INTRPT_IN_GDS_RUNDOWN); /* If the process has standalone access, it has udi->grabbed_access_sem set to TRUE at this point. Note that down * in a local variable as the udi->grabbed_access_sem is set to TRUE even for non-standalone access below and hence * we can't rely on that later to determine if the process had standalone access or not when it entered this function. * We need to guarantee that none else access database file header when semid/shmid fields are reset. * We already have created ftok semaphore in db_init or, mu_rndwn_file and did not remove it. * So just lock it. We do it in blocking mode. */ have_standalone_access = udi->grabbed_access_sem; /* process holds standalone access */ /* The only process that can invoke gds_rundown while holding access control semaphore is RECOVER/ROLLBACK. All the others * (like MUPIP SET -FILE/MUPIP EXTEND would have invoked db_ipcs_reset() before invoking gds_rundown (from * mupip_exit_handler). The only exception is when these processes encounter a terminate signal and they reach * mupip_exit_handler while holding access control semaphore. Assert accordingly. */ assert(!have_standalone_access || mupip_jnl_recover || process_exiting); /* If we have standalone access, then ensure that a concurrent online rollback cannot be running at the same time as it * needs the access control lock as well. The only expection is we are online rollback and currently running down. */ onln_rlbk_pid = csa->nl->onln_rlbk_pid; assert(!have_standalone_access || mupip_jnl_recover || !onln_rlbk_pid || !is_proc_alive(onln_rlbk_pid, 0)); skip_database_rundown = FALSE; if (!have_standalone_access) { /* We need to guarantee that no one else access database file header when semid/shmid fields are reset. * We already have created ftok semaphore in db_init or mu_rndwn_file and did not remove it. So just * lock it. We do it in blocking mode. */ if (!ftok_sem_lock(reg, FALSE, FALSE)) rts_error(VARLSTCNT(4) ERR_DBFILERR, 2, DB_LEN_STR(reg)); FTOK_TRACE(csa, csa->ti->curr_tn, ftok_ops_lock, process_id); sop[0].sem_num = 0; sop[0].sem_op = 0; /* Wait for 0 */ sop[1].sem_num = 0; sop[1].sem_op = 1; /* Lock */ sopcnt = 2; sop[0].sem_flg = sop[1].sem_flg = SEM_UNDO | IPC_NOWAIT; /* Don't wait the first time thru */ SEMOP(udi->semid, sop, sopcnt, status, NO_WAIT); if (-1 == status) /* We couldn't get it in one shot -- see if we already have it */ { save_errno = errno; holder_pid = semctl(udi->semid, 0, GETPID); if (holder_pid == process_id) { send_msg(VARLSTCNT(5) MAKE_MSG_INFO(ERR_CRITSEMFAIL), 2, DB_LEN_STR(reg), ERR_RNDWNSEMFAIL); REVERT; ENABLE_INTERRUPTS(INTRPT_IN_GDS_RUNDOWN); return; /* Already in rundown for this region */ } if (EAGAIN != save_errno) { assert(FALSE); rts_error(VARLSTCNT(9) ERR_CRITSEMFAIL, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("gds_rundown first semop/semctl"), save_errno); } /* Before attempting again in the blocking mode, see if the holding process is an online rollback. * If so, it is likely we won't get the access control semaphore anytime soon. In that case, we * are better off skipping rundown and continuing with sanity cleanup and exit. */ skip_database_rundown = (onln_rlbk_pid || csd->file_corrupt); if (!skip_database_rundown) { sop[0].sem_flg = sop[1].sem_flg = SEM_UNDO; /* Try again - blocking this time */ SEMOP(udi->semid, sop, 2, status, FORCED_WAIT); if (-1 == status) /* We couldn't get it at all.. */ rts_error(VARLSTCNT(5) ERR_CRITSEMFAIL, 2, DB_LEN_STR(reg), errno); } } udi->grabbed_access_sem = !skip_database_rundown; } /* else we we hold the access control semaphore and therefore have standalone access. We do not release it now - we * release it later in mupip_exit_handler.c. Since we already hold the access control semaphore, we don't need the * ftok semaphore and trying it could cause deadlock */ /* At this point we are guaranteed no one else is doing a db_init/rundown as we hold the access control semaphore */ assert(csa->ref_cnt); /* decrement private ref_cnt before shared ref_cnt decrement. */ csa->ref_cnt--; /* Currently journaling logic in gds_rundown() in VMS relies on this order to detect last writer */ assert(!csa->ref_cnt); --csa->nl->ref_cnt; if (memcmp(csa->nl->now_running, gtm_release_name, gtm_release_name_len + 1)) { /* VERMISMATCH condition. Possible only if DSE */ assert(dse_running); vermismatch = TRUE; } else vermismatch = FALSE; if (-1 == shmctl(udi->shmid, IPC_STAT, &shm_buf)) { save_errno = errno; rts_error(VARLSTCNT(9) ERR_CRITSEMFAIL, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("gds_rundown shmctl"), save_errno); } else we_are_last_user = (1 == shm_buf.shm_nattch) && !vermismatch; assert(!have_standalone_access || we_are_last_user || jgbl.onlnrlbk); /* recover => one user except ONLINE ROLLBACK */ if (-1 == (semval = semctl(udi->semid, 1, GETVAL))) rts_error(VARLSTCNT(5) ERR_CRITSEMFAIL, 2, DB_LEN_STR(reg), errno); we_are_last_writer = (1 == semval) && (FALSE == reg->read_only) && !vermismatch;/* There's one writer left and I am it */ assert(!we_are_last_writer || !skip_database_rundown); assert(!we_are_last_user || !skip_database_rundown); assert(!(have_standalone_access && !reg->read_only) || we_are_last_writer || jgbl.onlnrlbk); /* recover + R/W region => one writer except ONLINE ROLLBACK */ if (!have_standalone_access && (-1 == (ftok_semval = semctl(udi->ftok_semid, 1, GETVAL)))) rts_error(VARLSTCNT(5) ERR_CRITSEMFAIL, 2, DB_LEN_STR(reg), errno); if (NULL != csa->ss_ctx) ss_destroy_context(csa->ss_ctx); /* SS_MULTI: If multiple snapshots are supported, then we have to run through each of the snapshots */ assert(1 == MAX_SNAPSHOTS); ss_shm_ptr = (shm_snapshot_ptr_t)SS_GETSTARTPTR(csa); ss_pid = ss_shm_ptr->ss_info.ss_pid; is_cur_process_ss_initiator = (process_id == ss_pid); if (ss_pid && (is_cur_process_ss_initiator || we_are_last_user)) { /* Try getting snapshot crit latch. If we don't get latch, we won't hang for eternity and will skip * doing the orphaned snapshot cleanup. It will be cleaned up eventually either by subsequent MUPIP * INTEG or by a MUPIP RUNDOWN. */ if (ss_get_lock_nowait(reg) && (ss_pid == ss_shm_ptr->ss_info.ss_pid) && (is_cur_process_ss_initiator || !is_proc_alive(ss_pid, 0))) { ss_release(NULL); ss_release_lock(reg); } } /* If csa->nl->donotflush_dbjnl is set, it means mupip recover/rollback was interrupted and therefore we need not flush * shared memory contents to disk as they might be in an inconsistent state. Moreover, any more flushing will only cause * future rollback to undo more journal records (PBLKs). In this case, we will go ahead and remove shared memory (without * flushing the contents) in this routine. A reissue of the recover/rollback command will restore the database to a * consistent state. */ if (!csa->nl->donotflush_dbjnl && !reg->read_only && !vermismatch) { /* If we had an orphaned block and were interrupted, set wc_blocked so we can invoke wcs_recover. Do it ONLY * if there is NO concurrent online rollback running (as we need crit to set wc_blocked) */ if (csa->wbuf_dqd) { /* If we had an orphaned block and were interrupted, mupip_exit_handler will invoke secshr_db_clnup which * will clear this field and so we should never come to gds_rundown with a non-zero wbuf_dqd. The only * exception is if we are recover/rollback in which case gds_rundown (from mur_close_files) is invoked * BEFORE secshr_db_clnup in mur_close_files. * Note: It is NOT possible for online rollback to reach here with wbuf_dqd being non-zero. This is because * the moment we apply the first PBLK, we stop all interrupts and hence can never be interrupted in * wcs_wtstart or wcs_get_space. Assert accordingly. */ assert(mupip_jnl_recover && !jgbl.onlnrlbk && !skip_database_rundown); if (!was_crit) grab_crit(reg); SET_TRACEABLE_VAR(csd->wc_blocked, TRUE); BG_TRACE_PRO_ANY(csa, wcb_gds_rundown); send_msg(VARLSTCNT(8) ERR_WCBLOCKED, 6, LEN_AND_LIT("wcb_gds_rundown"), process_id, &csa->ti->curr_tn, DB_LEN_STR(reg)); csa->wbuf_dqd = 0; wcs_recover(reg); if (is_mm) { assert(FALSE); csd = csa->hdr; } BG_TRACE_PRO_ANY(csa, lost_block_recovery); if (!was_crit) rel_crit(reg); } if (JNL_ENABLED(csd) && IS_GTCM_GNP_SERVER_IMAGE) originator_prc_vec = NULL; /* If we are the last writing user, then everything must be flushed */ if (we_are_last_writer) { /* Time to flush out all of our buffers */ if (is_mm) { if (csa->total_blks != csa->ti->total_blks) /* do remap if file had been extended */ { if (!was_crit) grab_crit(reg); wcs_mm_recover(reg); csd = csa->hdr; if (!was_crit) rel_crit(reg); } csa->nl->remove_shm = TRUE; } if (csd->wc_blocked && jgbl.onlnrlbk) { /* if the last update done by online rollback was not committed in the normal code-path but was * completed by secshr_db_clnup, wc_blocked will be set to TRUE. But, since online rollback never * invokes grab_crit (since csa->hold_onto_crit is set to TRUE), wcs_recover is never invoked. This * could result in the last update never getting flushed to the disk and if online rollback happened * to be the last writer then the shared memory will be flushed and removed and the last update will * be lost. So, force wcs_recover if we find ourselves in such a situation. But, wc_blocked is * possible only if phase1 or phase2 errors are induced using white box test cases */ assert(WB_COMMIT_ERR_ENABLED); wcs_recover(reg); } /* Note WCSFLU_SYNC_EPOCH ensures the epoch is synced to the journal and indirectly * also ensures that the db is fsynced. We don't want to use it in the calls to * wcs_flu() from t_end() and tp_tend() since we can defer it to out-of-crit there. * In this case, since we are running down, we don't have any such option. */ csa->nl->remove_shm = wcs_flu(WCSFLU_FLUSH_HDR | WCSFLU_WRITE_EPOCH | WCSFLU_SYNC_EPOCH); /* Since we_are_last_writer, we should be guaranteed that wcs_flu() did not change csd, (in * case of MM for potential file extension), even if it did a grab_crit(). Therefore, make * sure that's true. */ assert(csd == csa->hdr); assert(0 == memcmp(csd->label, GDS_LABEL, GDS_LABEL_SZ - 1)); } else if (((cancelled_timer && (0 > csa->nl->wcs_timers)) || cancelled_dbsync_timer) && !skip_database_rundown) { /* cancelled pending db or jnl flush timers - flush database and journal buffers to disk */ if (!was_crit) grab_crit(reg); /* we need to sync the epoch as the fact that there is no active pending flush timer implies * there will be noone else who will flush the dirty buffers and EPOCH to disk in a timely fashion */ wcs_flu(WCSFLU_FLUSH_HDR | WCSFLU_WRITE_EPOCH | WCSFLU_SYNC_EPOCH); if (!was_crit) rel_crit(reg); assert((dba_mm == cs_data->acc_meth) || (csd == cs_data)); csd = cs_data; /* In case this is MM and wcs_flu() remapped an extended database, reset csd */ } /* Do rundown journal processing after buffer flushes since they require jnl to be open */ if (JNL_ENABLED(csd)) { /* the following tp_change_reg() is not needed due to the assert csa == cs_addrs at the beginning * of gds_rundown(), but just to be safe. To be removed by 2002!! --- nars -- 2001/04/25. */ tp_change_reg(); /* call this because jnl_ensure_open checks cs_addrs rather than gv_cur_region */ jpc = csa->jnl; jbp = jpc->jnl_buff; if (jbp->fsync_in_prog_latch.u.parts.latch_pid == process_id) { assert(FALSE); COMPSWAP_UNLOCK(&jbp->fsync_in_prog_latch, process_id, 0, LOCK_AVAILABLE, 0); } if (jbp->io_in_prog_latch.u.parts.latch_pid == process_id) { assert(FALSE); COMPSWAP_UNLOCK(&jbp->io_in_prog_latch, process_id, 0, LOCK_AVAILABLE, 0); } if ((((NOJNL != jpc->channel) && !JNL_FILE_SWITCHED(jpc)) || we_are_last_writer && (0 != csa->nl->jnl_file.u.inode)) && !skip_database_rundown) { /* We need to close the journal file cleanly if we have the latest generation journal file open * or if we are the last writer and the journal file is open in shared memory (not necessarily * by ourselves e.g. the only process that opened the journal got shot abnormally) * Note: we should not infer anything from the shared memory value of csa->nl->jnl_file.u.inode * if we are not the last writer as it can be concurrently updated. */ if (!was_crit) grab_crit(reg); if (JNL_ENABLED(csd)) { SET_GBL_JREC_TIME; /* jnl_ensure_open/jnl_put_jrt_pini/pfin/jnl_file_close all need it */ /* Before writing to jnlfile, adjust jgbl.gbl_jrec_time if needed to maintain time order * of jnl records. This needs to be done BEFORE the jnl_ensure_open as that could write * journal records (if it decides to switch to a new journal file). */ ADJUST_GBL_JREC_TIME(jgbl, jbp); jnl_status = jnl_ensure_open(); if (0 == jnl_status) { /* If we_are_last_writer, we would have already done a wcs_flu() which would * have written an epoch record and we are guaranteed no further updates * since we are the last writer. So, just close the journal. * Although we assert pini_addr should be non-zero for last_writer, we * play it safe in PRO and write a PINI record if not written already. */ assert(!jbp->before_images || is_mm || !we_are_last_writer || 0 != jpc->pini_addr); if (we_are_last_writer && 0 == jpc->pini_addr) jnl_put_jrt_pini(csa); if (0 != jpc->pini_addr) jnl_put_jrt_pfin(csa); /* If not the last writer and no pending flush timer left, do jnl flush now */ if (!we_are_last_writer && (0 > csa->nl->wcs_timers)) { if (SS_NORMAL == (jnl_status = jnl_flush(reg))) { assert(jbp->freeaddr == jbp->dskaddr); jnl_fsync(reg, jbp->dskaddr); assert(jbp->fsync_dskaddr == jbp->dskaddr); } else { send_msg(VARLSTCNT(9) ERR_JNLFLUSH, 2, JNL_LEN_STR(csd), ERR_TEXT, 2, RTS_ERROR_TEXT("Error with journal flush in gds_rundown"), jnl_status); assert(NOJNL == jpc->channel);/* jnl file lost has been triggered */ /* In this routine, all code that follows from here on does not * assume anything about the journaling characteristics of this * database so it is safe to continue execution even though * journaling got closed in the middle. */ } } jnl_file_close(reg, we_are_last_writer, FALSE); } else send_msg(VARLSTCNT(6) jnl_status, 4, JNL_LEN_STR(csd), DB_LEN_STR(reg)); } if (!was_crit) rel_crit(reg); } } if (we_are_last_writer) /* Flush the fileheader last and harden the file to disk */ { if (!was_crit) grab_crit(reg); /* To satisfy crit requirement in fileheader_sync() */ memset(csd->machine_name, 0, MAX_MCNAMELEN); /* clear the machine_name field */ if (!have_standalone_access && we_are_last_user) { /* mupip_exit_handler will do this after mur_close_file */ csd->semid = INVALID_SEMID; csd->shmid = INVALID_SHMID; csd->gt_sem_ctime.ctime = 0; csd->gt_shm_ctime.ctime = 0; } fileheader_sync(reg); if (!was_crit) rel_crit(reg); if (FALSE == is_mm) { if (-1 == fsync(udi->fd)) /* Sync it all */ { rts_error(VARLSTCNT(9) ERR_DBFILERR, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("Error during file sync at close"), errno); } } else { /* Now do final MM file sync before exit */ # if !defined(TARGETED_MSYNC) && !defined(NO_MSYNC) if (-1 == fsync(udi->fd)) /* Sync it all */ { rts_error(VARLSTCNT(9) ERR_DBFILERR, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("Error during file sync at close"), errno); } # else if (-1 == msync((caddr_t)csa->db_addrs[0], (size_t)(csa->db_addrs[1] - csa->db_addrs[0]), MS_SYNC)) { rts_error(VARLSTCNT(9) ERR_DBFILERR, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("Error during file msync at close"), errno); } # endif } } } /* end if (!reg->read_only && !csa->nl->donotflush_dbjnl) */ /* We had cancelled all db timers at start of rundown. In case as part of rundown (wcs_flu above), we had started * any timers, cancel them BEFORE setting reg->open to FALSE (assert in wcs_clean_dbsync relies on this). */ CANCEL_DB_TIMERS(reg, csa, cancelled_timer, cancelled_dbsync_timer); if (reg->read_only && we_are_last_user && !have_standalone_access) { /* mupip_exit_handler will do this after mur_close_file */ db_ipcs.semid = INVALID_SEMID; db_ipcs.shmid = INVALID_SHMID; db_ipcs.gt_sem_ctime = 0; db_ipcs.gt_shm_ctime = 0; db_ipcs.fn_len = reg->dyn.addr->fname_len; memcpy(db_ipcs.fn, reg->dyn.addr->fname, reg->dyn.addr->fname_len); db_ipcs.fn[reg->dyn.addr->fname_len] = 0; /* request gtmsecshr to flush. read_only cannot flush itself */ if (0 != send_mesg2gtmsecshr(FLUSH_DB_IPCS_INFO, 0, (char *)NULL, 0)) rts_error(VARLSTCNT(8) ERR_DBFILERR, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("gtmsecshr failed to update database file header")); } /* Done with file now, close it */ CLOSEFILE_RESET(udi->fd, rc); /* resets "udi->fd" to FD_INVALID */ if (-1 == rc) { rts_error(VARLSTCNT(9) ERR_DBFILERR, 2, DB_LEN_STR(reg), ERR_TEXT, 2, LEN_AND_LIT("Error during file close"), errno); } /* Unmap storage if mm mode but only the part that is not the fileheader (so shows up in dumps) */ if (is_mm) { munmap_len = (sm_long_t)((csa->db_addrs[1] - csa->db_addrs[0]) - ROUND_UP(SIZEOF_FILE_HDR(csa->hdr), MSYNC_ADDR_INCS)); if (munmap_len > 0) { munmap((caddr_t)(csa->db_addrs[0] + ROUND_UP(SIZEOF_FILE_HDR(csa->hdr), MSYNC_ADDR_INCS)), (size_t)(munmap_len)); # ifdef DEBUG_DB64 rel_mmseg((caddr_t)csa->db_addrs[0]); # endif } } /* If we had skipped flushing journal and database buffers due to a concurrent online rollback, increment the counter * indicating that in the shared memory so that online rollback can report the # of such processes when it shuts down. */ if (skip_database_rundown) /* indicates flushing was skipped */ csa->nl->dbrndwn_skip_cnt++; /* If we are online rollback, report the # of processes that skipped rundown because we were holding the access control * semaphore */ if (jgbl.onlnrlbk && csa->nl->dbrndwn_skip_cnt) { send_msg(VARLSTCNT(3) ERR_RNDWNSKIPCNT, 1, csa->nl->dbrndwn_skip_cnt); csa->nl->dbrndwn_skip_cnt = 0; } /* Detach our shared memory while still under lock so reference counts will be correct for the next process to run down * this region. In the process also get the remove_shm status from node_local before detaching. * If csa->nl->donotflush_dbjnl is TRUE, it means we can safely remove shared memory without compromising data * integrity as a reissue of recover will restore the database to a consistent state. */ remove_shm = !vermismatch && (csa->nl->remove_shm || csa->nl->donotflush_dbjnl); rel_crit(reg); /* Since we are about to detach from the shared memory, release crit and reset onln_rlbk_pid */ if (jgbl.onlnrlbk) { /* We are done with online rollback on this region Indicate to other processes by setting the onln_rlbk_pid to 0 */ csa->hold_onto_crit = FALSE; csa->nl->onln_rlbk_pid = 0; } status = shmdt((caddr_t)csa->nl); csa->nl = NULL; /* dereferencing nl after detach is not right, so we set it to NULL so that we can test before dereference*/ if (-1 == status) send_msg(VARLSTCNT(9) ERR_DBFILERR, 2, DB_LEN_STR(reg), ERR_TEXT, 2, LEN_AND_LIT("Error during shmdt"), errno); REMOVE_CSA_FROM_CSADDRSLIST(csa); /* remove "csa" from list of open regions (cs_addrs_list) */ reg->open = FALSE; /* If file is still not in good shape, die here and now before we get rid of our storage */ assertpro(0 == csa->wbuf_dqd); ipc_deleted = FALSE; /* If we are the very last user, remove shared storage id and the semaphores */ if (we_are_last_user) { /* remove shared storage, only if last writer to rundown did a successful wcs_flu() */ assert(!vermismatch); if (remove_shm) { ipc_deleted = TRUE; if (0 != shm_rmid(udi->shmid)) rts_error(VARLSTCNT(8) ERR_DBFILERR, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("Unable to remove shared memory")); } else if (is_src_server || is_updproc) { gtm_putmsg(VARLSTCNT(6) ERR_DBRNDWNWRN, 4, DB_LEN_STR(reg), process_id, process_id); send_msg(VARLSTCNT(6) ERR_DBRNDWNWRN, 4, DB_LEN_STR(reg), process_id, process_id); } else send_msg(VARLSTCNT(6) ERR_DBRNDWNWRN, 4, DB_LEN_STR(reg), process_id, process_id); /* mupip recover/rollback don't release the semaphore here, but do it later in db_ipcs_reset (invoked from * mur_close_files()) */ if (!have_standalone_access) { if (0 != sem_rmid(udi->semid)) rts_error(VARLSTCNT(8) ERR_DBFILERR, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("Unable to remove semaphore")); udi->grabbed_access_sem = FALSE; } } else { assert(!have_standalone_access || jgbl.onlnrlbk); if (!jgbl.onlnrlbk) { /* If we were writing, get rid of our writer access count semaphore */ if (!reg->read_only) if (0 != (save_errno = do_semop(udi->semid, 1, -1, SEM_UNDO))) rts_error(VARLSTCNT(9) ERR_CRITSEMFAIL, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("gds_rundown write semaphore release"), save_errno); /* Now remove the rundown lock */ if (!skip_database_rundown) { /* Do it only if we skipped getting the access control semaphore above */ if (0 != (save_errno = do_semop(udi->semid, 0, -1, SEM_UNDO))) rts_error(VARLSTCNT(9) ERR_CRITSEMFAIL, 2, DB_LEN_STR(reg), ERR_TEXT, 2, RTS_ERROR_TEXT("gds_rundown rundown semaphore release"), save_errno); udi->grabbed_access_sem = FALSE; } } /* else access control semaphore will be released in db_ipcs_reset */ } if (!have_standalone_access) { if (!ftok_sem_release(reg, !have_standalone_access, FALSE)) rts_error(VARLSTCNT(4) ERR_DBFILERR, 2, DB_LEN_STR(reg)); FTOK_TRACE(csa, csa->ti->curr_tn, ftok_ops_release, process_id); } ENABLE_INTERRUPTS(INTRPT_IN_GDS_RUNDOWN); if (!ipc_deleted) { GET_CUR_TIME; if (is_src_server) gtm_putmsg(VARLSTCNT(8) ERR_IPCNOTDEL, 6, CTIME_BEFORE_NL, time_ptr, LEN_AND_LIT("Source server"), REG_LEN_STR(reg)); if (is_updproc) gtm_putmsg(VARLSTCNT(8) ERR_IPCNOTDEL, 6, CTIME_BEFORE_NL, time_ptr, LEN_AND_LIT("Update process"), REG_LEN_STR(reg)); if (mupip_jnl_recover && (!jgbl.onlnrlbk || !we_are_last_user)) { gtm_putmsg(VARLSTCNT(8) ERR_IPCNOTDEL, 6, CTIME_BEFORE_NL, time_ptr, LEN_AND_LIT("Mupip journal process"), REG_LEN_STR(reg)); send_msg(VARLSTCNT(8) ERR_IPCNOTDEL, 6, CTIME_BEFORE_NL, time_ptr, LEN_AND_LIT("Mupip journal process"), REG_LEN_STR(reg)); } } REVERT; } CONDITION_HANDLER(gds_rundown_ch) { pid_t sem_pid; int semop_res; unix_db_info *udi; sgmnt_addrs *csa; boolean_t cancelled_timer, cancelled_dbsync_timer, have_standalone_access; START_CH; /* To get as virgin a state as possible in the core, take the core now if we * would be doing so anyway. This will set created_core so it doesn't happen again. */ if (DUMPABLE && !SUPPRESS_DUMP) { need_core = TRUE; gtm_fork_n_core(); } udi = FILE_INFO(gv_cur_region); csa = &udi->s_addrs; /* We got here on an error and are going to close the region. Cancel any pending flush timer for this region by this task*/ CANCEL_DB_TIMERS(gv_cur_region, csa, cancelled_timer, cancelled_dbsync_timer); /* release the access control semaphore, if you hold it */ have_standalone_access = udi->grabbed_access_sem; if (udi->grabbed_access_sem) { if (csa->now_crit) /* Might hold crit if wcs_flu or other failure */ { assert(!csa->hold_onto_crit || jgbl.onlnrlbk); if (NULL != csa->nl) rel_crit(gv_cur_region); /* also sets csa->now_crit to FALSE */ else csa->now_crit = FALSE; } sem_pid = semctl(udi->semid, 0, GETPID); assert(sem_pid == process_id); if (0 != (semop_res = do_semop(udi->semid, 0, -1, SEM_UNDO | IPC_NOWAIT))) gtm_putmsg(VARLSTCNT(9) ERR_CRITSEMFAIL, 2, DB_LEN_STR(gv_cur_region), ERR_TEXT, 2, RTS_ERROR_TEXT("Error releasing access semaphore"), semop_res); udi->grabbed_access_sem = FALSE; } if (udi->grabbed_ftok_sem) { assert(!have_standalone_access); ftok_sem_release(gv_cur_region, !have_standalone_access, TRUE); } gv_cur_region->open = FALSE; csa->nl = NULL; REMOVE_CSA_FROM_CSADDRSLIST(csa); /* remove "csa" from list of open regions (cs_addrs_list) */ PRN_ERROR; gtm_putmsg(VARLSTCNT(4) ERR_DBRNDWN, 2, REG_LEN_STR(gv_cur_region)); UNWIND(NULL, NULL); }