/**************************************************************** * * * Copyright 2001, 2013 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. * * * ****************************************************************/ /******************************************************************************* * * MODULE NAME: DSE_DMP_FHEAD * * CALLING SEQUENCE: void dse_dmp_fhead () * * DESCRIPTION: This module dumps certain fields of current file * header. * * HISTORY: * *******************************************************************************/ #include "mdef.h" #include "gtm_string.h" #include /* needed for handling of epoch_interval (EPOCH_SECOND2SECOND macro uses ceil) */ #include "gdsroot.h" #include "gtm_facility.h" #include "fileinfo.h" #include "gdsbt.h" #include "gdsfhead.h" #include "filestruct.h" #include "jnl.h" #include "cli.h" #include "util.h" #include "dse.h" #include "dse_puttime.h" #include "gtmmsg.h" #include "stringpool.h" /* for GET_CURR_TIME_IN_DOLLARH_AND_ZDATE macro */ #include "op.h" #include "shmpool.h" /* Needed for the shmpool structures */ #ifdef GTM_SNAPSHOT #include "db_snapshot.h" #endif #define MAX_UTIL_LEN 64 #define NEXT_EPOCH_TIME_SPACES " " /* 19 spaces, we have 19 character field width to output Next Epoch Time */ GBLREF sgmnt_addrs *cs_addrs; GBLREF gd_region *gv_cur_region; GBLREF boolean_t dse_all_dump; /* TRUE if DSE ALL -DUMP is specified */ GBLDEF mval dse_dmp_time_fmt = DEFINE_MVAL_STRING(MV_STR, 0, 0, STR_LIT_LEN(DSE_DMP_TIME_FMT), DSE_DMP_TIME_FMT, 0, 0); LITREF char *jrt_label[JRT_RECTYPES]; LITREF char *gtm_dbversion_table[]; #define SHOW_STAT(TEXT, VARIABLE) if (0 != csd->VARIABLE##_cntr) \ util_out_print(TEXT" 0x!XL Transaction = 0x!16@XQ", TRUE, (csd->VARIABLE##_cntr), \ (&csd->VARIABLE##_tn)); #define SHOW_DB_CSH_STAT(csd, COUNTER, TEXT1, TEXT2) \ if (csd->COUNTER.curr_count || csd->COUNTER.cumul_count) \ { \ util_out_print(TEXT1" 0x!XL "TEXT2" 0x!XL", TRUE, (csd->COUNTER.curr_count), \ (csd->COUNTER.cumul_count + csd->COUNTER.curr_count)); \ } #define SHOW_GVSTATS_STAT(cnl, COUNTER, TEXT1, TEXT2) \ { \ if (cnl->gvstats_rec.COUNTER) \ util_out_print(" " TEXT1 " : " TEXT2" 0x!16@XQ", TRUE, (&cnl->gvstats_rec.COUNTER)); \ } /* NEED_TO_DUMP is only for the qualifiers other than "BASIC" and "ALL". file_header is not dumped only if "NOBASIC" is explicitly specified */ #define NEED_TO_DUMP(string) \ (is_dse_all ? (CLI_PRESENT == cli_present("ALL")) \ : (CLI_PRESENT == cli_present(string) || CLI_PRESENT == cli_present("ALL") && CLI_NEGATED != cli_present(string))) void dse_dmp_fhead (void) { boolean_t jnl_buff_open; unsigned char util_buff[MAX_UTIL_LEN], buffer[MAXNUMLEN]; int util_len, rectype, time_len, index; uint4 jnl_status; enum jnl_state_codes jnl_state; gds_file_id zero_fid; mval dollarh_mval, zdate_mval; char dollarh_buffer[MAXNUMLEN], zdate_buffer[SIZEOF(DSE_DMP_TIME_FMT)]; sgmnt_addrs *csa; sgmnt_data_ptr_t csd; node_local_ptr_t cnl; jnl_private_control *jpc; jnl_buffer_ptr_t jb; shmpool_buff_hdr_ptr_t bptr; boolean_t is_dse_all; uint4 pid; boolean_t new_line; unsigned char outbuf[GTMCRYPT_HASH_HEX_LEN + 1]; GTM_SNAPSHOT_ONLY( shm_snapshot_t *ss_shm_ptr;) is_dse_all = dse_all_dump; dse_all_dump = FALSE; csa = cs_addrs; csd = csa->hdr; cnl = csa->nl; jnl_state = (enum jnl_state_codes)csd->jnl_state; VMS_ONLY( memset(&zero_fid, 0, SIZEOF(zero_fid)); jnl_buff_open = (0 != memcmp(cnl->jnl_file.jnl_file_id.fid, zero_fid.fid, SIZEOF(zero_fid.fid))); ) UNIX_ONLY( jnl_buff_open = (0 != cnl->jnl_file.u.inode); ) if (is_dse_all || (CLI_NEGATED != cli_present("BASIC"))) { util_out_print("!/File !AD", TRUE, gv_cur_region->dyn.addr->fname_len, &gv_cur_region->dyn.addr->fname[0]); util_out_print("Region !AD", TRUE, gv_cur_region->rname_len, &gv_cur_region->rname[0]); GET_CURR_TIME_IN_DOLLARH_AND_ZDATE(dollarh_mval, dollarh_buffer, zdate_mval, zdate_buffer); util_out_print("Date/Time !AD [$H = !AD]", TRUE, zdate_mval.str.len, zdate_mval.str.addr, dollarh_mval.str.len, dollarh_mval.str.addr); util_out_print(" Access method !AD", FALSE, 2, (csd->acc_meth == dba_mm) ? "MM" : "BG"); util_out_print(" Global Buffers !12UL", TRUE, csd->n_bts); util_out_print(" Reserved Bytes !19UL", FALSE, csd->reserved_bytes); util_out_print(" Block size (in bytes) !12UL", TRUE, csd->blk_size); util_out_print(" Maximum record size !19UL", FALSE, csd->max_rec_size); util_out_print(" Starting VBN !12UL", TRUE, csd->start_vbn); util_out_print(" Maximum key size !19UL", FALSE, csd->max_key_size); util_out_print(" Total blocks 0x!XL", TRUE, csa->ti->total_blks); util_out_print(" Null subscripts !AD", FALSE, 12, (csd->null_subs == ALWAYS) ? " ALWAYS" : (csd->null_subs == ALLOWEXISTING) ? " EXISTING" : " NEVER" ); util_out_print(" Free blocks 0x!XL", TRUE, csa->ti->free_blocks); /* NOTE: Currently Std Null Collation is the only entry in one line, For 64bit TN project, when some other fields will be added, this can be adjusted then - MM Oct 04 */ util_out_print(" Standard Null Collation !AD", FALSE, 11, (csd->std_null_coll) ? " TRUE" : " FALSE"); util_out_print(" Free space 0x!XL", TRUE, csd->free_space); util_out_print(" Last Record Backup 0x!16@XQ", FALSE, &csd->last_rec_backup); util_out_print (" Extension Count !12UL", TRUE, csd->extension_size); util_out_print(" Last Database Backup 0x!16@XQ", FALSE, &csd->last_com_backup); if (csd->bplmap > 0) util_out_print(" Number of local maps !12UL", TRUE, (csa->ti->total_blks + csd->bplmap - 1) / csd->bplmap); else util_out_print(" Number of local maps ??", TRUE); util_out_print(" Last Bytestream Backup 0x!16@XQ", FALSE, &csd->last_inc_backup); util_out_print(" Lock space 0x!XL", TRUE, csd->lock_space_size/OS_PAGELET_SIZE); util_out_print(" In critical section 0x!XL", FALSE, cnl->in_crit); util_out_print(" Timers pending !12UL", TRUE, cnl->wcs_timers + 1); if (FROZEN_BY_ROOT == csd->freeze) util_out_print(" Cache freeze id FROZEN BY ROOT", FALSE); else util_out_print(" Cache freeze id 0x!XL", FALSE, (csd->freeze)? csd->freeze : 0); dse_puttime(csd->flush_time, " Flush timer !AD", TRUE); util_out_print(" Freeze match 0x!XL", FALSE, csd->image_count ? csd->image_count : 0); util_out_print(" Flush trigger !12UL", TRUE, csd->flush_trigger); util_out_print(" Current transaction 0x!16@XQ", FALSE, &csa->ti->curr_tn); util_out_print(" No. of writes/flush !12UL", TRUE, csd->n_wrt_per_flu); util_out_print(" Maximum TN 0x!16@XQ", FALSE, &csd->max_tn); if (GDSVLAST > csd->certified_for_upgrade_to) util_out_print(" Certified for Upgrade to !AD", TRUE, LEN_AND_STR(gtm_dbversion_table[csd->certified_for_upgrade_to])); else /* out of range so print hex */ util_out_print(" Certified for Upgrade to 0x!XL", TRUE, csd->certified_for_upgrade_to); util_out_print(" Maximum TN Warn 0x!16@XQ", FALSE, &csd->max_tn_warn); if (GDSVLAST > csd->desired_db_format) util_out_print(" Desired DB Format !AD", TRUE, LEN_AND_STR(gtm_dbversion_table[csd->desired_db_format])); else /* out of range so print hex */ util_out_print(" Desired DB Format 0x!XL", TRUE, csd->desired_db_format); util_out_print(" Master Bitmap Size !12UL", FALSE, csd->master_map_len / DISK_BLOCK_SIZE); util_out_print(" Blocks to Upgrade 0x!XL", TRUE, csd->blks_to_upgrd); if (csd->def_coll) { util_out_print(" Default Collation !19UL", FALSE, csd->def_coll); util_out_print(" Collation Version !12UL", TRUE, csd->def_coll_ver); } util_out_print(" Create in progress !AD", FALSE, 12, (csd->createinprogress) ? " TRUE" : " FALSE"); # ifdef CNTR_WORD_32 util_out_print(" Modified cache blocks !12UL", TRUE, cnl->wcs_active_lvl); # else util_out_print(" Modified cache blocks !12UW", TRUE, cnl->wcs_active_lvl); # endif util_out_print(" Reference count !19UL", FALSE, cnl->ref_cnt); util_out_print(" Wait Disk !12UL", TRUE, csd->wait_disk_space); util_out_print(" Journal State !AD", (jnl_notallowed == jnl_state), 13, (jnl_notallowed != jnl_state) ? ((jnl_state == jnl_closed) ? " OFF" : (jnl_buff_open ? " ON" : "[inactive] ON")) : " DISABLED"); if (jnl_notallowed != jnl_state) { util_out_print(" Journal Before imaging !AD", TRUE, 5, (csd->jnl_before_image) ? " TRUE" : "FALSE"); util_out_print(" Journal Allocation !19UL", FALSE, csd->jnl_alq); util_out_print(" Journal Extension !12UL", TRUE, csd->jnl_deq); util_out_print(" Journal Buffer Size !19UL", FALSE, csd->jnl_buffer_size); util_out_print(" Journal Alignsize !12UL", TRUE, csd->alignsize / DISK_BLOCK_SIZE); util_out_print(" Journal AutoSwitchLimit !17UL", FALSE, csd->autoswitchlimit); util_out_print(" Journal Epoch Interval!12UL", TRUE, EPOCH_SECOND2SECOND(csd->epoch_interval)); # ifdef UNIX util_out_print(" Journal Yield Limit !19UL", FALSE, csd->yield_lmt); util_out_print(" Journal Sync IO !AD", TRUE, 5, (csd->jnl_sync_io ? " TRUE" : "FALSE")); # elif VMS util_out_print(" Journal NOCACHE IO !AD", TRUE, 12, (csd->jnl_sync_io ? " TRUE" : " FALSE")); # endif util_out_print(" Journal File: !AD", TRUE, JNL_LEN_STR(csd)); } if (BACKUP_NOT_IN_PROGRESS != cnl->nbb) util_out_print(" Online Backup NBB !19UL", TRUE, cnl->nbb); /* Mutex Stuff */ util_out_print(" Mutex Hard Spin Count !19UL", FALSE, csd->mutex_spin_parms.mutex_hard_spin_count); util_out_print(" Mutex Sleep Spin Count!12UL", TRUE, csd->mutex_spin_parms.mutex_sleep_spin_count); util_out_print(" Mutex Queue Slots !19UL", FALSE, NUM_CRIT_ENTRY(csd)); util_out_print(" KILLs in progress !12UL", TRUE, (csd->kill_in_prog + csd->abandoned_kills)); util_out_print(" Replication State !AD", FALSE, 13, (csd->repl_state == repl_closed ? " OFF" : (csd->repl_state == repl_open ? " ON" : " [WAS_ON] OFF"))); util_out_print(" Region Seqno 0x!16@XQ", TRUE, &csd->reg_seqno); VMS_ONLY( util_out_print(" Resync Seqno 0x!16@XQ", FALSE, &csd->resync_seqno); util_out_print(" Resync trans 0x!16@XQ", TRUE, &csd->resync_tn); ) UNIX_ONLY( util_out_print(" Zqgblmod Seqno 0x!16@XQ", FALSE, &csd->zqgblmod_seqno); util_out_print(" Zqgblmod Trans 0x!16@XQ", TRUE, &csd->zqgblmod_tn); ) util_out_print(" Endian Format !6AZ", UNIX_ONLY(FALSE) VMS_ONLY(TRUE), ENDIANTHISJUSTIFY); UNIX_ONLY( util_out_print(" Commit Wait Spin Count!12UL", TRUE, csd->wcs_phase2_commit_wait_spincnt); ) util_out_print(" Database file encrypted !AD", UNIX_ONLY(FALSE) VMS_ONLY(TRUE), 5, csd->is_encrypted ? " TRUE" : "FALSE"); UNIX_ONLY( util_out_print(" Inst Freeze on Error !AD", TRUE, 5, csd->freeze_on_fail ? " TRUE" : "FALSE"); ) UNIX_ONLY( util_out_print(" Spanning Node Absent !AD", FALSE, 5, csd->span_node_absent ? " TRUE" : "FALSE"); ) UNIX_ONLY( util_out_print(" Maximum Key Size Assured !AD", TRUE, 5, csd->maxkeysz_assured ? " TRUE" : "FALSE"); ) } if (CLI_PRESENT == cli_present("ALL")) { /* Only dump if -/ALL as if part of above display */ util_out_print(0, TRUE); util_out_print(" ", FALSE); util_out_print(" DB Current Minor Version !4UL", TRUE, csd->minor_dbver); util_out_print(" Blks Last Record Backup 0x!XL", FALSE, csd->last_rec_bkup_last_blk); util_out_print(" Last GT.M Minor Version !4UL", TRUE, csd->last_mdb_ver); util_out_print(" Blks Last Stream Backup 0x!XL", FALSE, csd->last_inc_bkup_last_blk); util_out_print(" DB Creation Version !AD", TRUE, LEN_AND_STR(gtm_dbversion_table[csd->creation_db_ver])); util_out_print(" Blks Last Comprehensive Backup 0x!XL", FALSE, csd->last_com_bkup_last_blk); util_out_print(" DB Creation Minor Version !4UL", TRUE, csd->creation_mdb_ver); util_out_print(0, TRUE); util_out_print(" Total Global Buffers 0x!XL", FALSE, csd->n_bts); util_out_print(" Phase2 commit pid count 0x!XL", TRUE, cnl->wcs_phase2_commit_pidcnt); util_out_print(" Dirty Global Buffers 0x!XL", FALSE, cnl->wcs_active_lvl); util_out_print(" Write cache timer count 0x!XL", TRUE, cnl->wcs_timers); util_out_print(" Free Global Buffers 0x!XL", FALSE, cnl->wc_in_free); util_out_print(" wcs_wtstart pid count 0x!XL", TRUE, cnl->in_wtstart); util_out_print(" Write Cache is Blocked !AD", FALSE, 5, (cnl->wc_blocked ? " TRUE" : "FALSE")); util_out_print(" wcs_wtstart intent cnt 0x!XL", TRUE, cnl->intent_wtstart); # ifdef UNIX util_out_print(0, TRUE); util_out_print(" Quick database rundown is active !AD", TRUE, 5, (csd->mumps_can_bypass ? " TRUE" : "FALSE")); util_out_print(" Access control rundown bypasses !9UL", FALSE, cnl->dbrndwn_access_skip); util_out_print(" FTOK rundown bypasses !10UL", TRUE, cnl->dbrndwn_ftok_skip); # endif new_line = FALSE; for (index = 0; MAX_WTSTART_PID_SLOTS > index; index++) { pid = cnl->wtstart_pid[index]; if (0 != pid) { util_out_print(" wcs_wtstart pid [!2UL] !AD !12UL", new_line, index, new_line ? 0 : 7, new_line ? "" : " ", pid); new_line = !new_line; } } /* Additional information regarding kills that are in progress, abandoned and inhibited */ util_out_print(0, TRUE); util_out_print(" Actual kills in progress !12UL", FALSE, csd->kill_in_prog); util_out_print(" Abandoned Kills !12UL", TRUE, csd->abandoned_kills); util_out_print(" Process(es) inhibiting KILLs !5UL", TRUE, cnl->inhibit_kills); util_out_print(0, TRUE); util_out_print(" DB Trigger cycle of ^#t !12UL", TRUE, csd->db_trigger_cycle); util_out_print(0, TRUE); util_out_print(" MM defer_time !5SL", TRUE, csd->defer_time); /* Print the database encryption hash information */ GET_HASH_IN_HEX(csd->encryption_hash, outbuf, GTMCRYPT_HASH_HEX_LEN); util_out_print(" Database file encryption hash !AD", TRUE, GTMCRYPT_HASH_HEX_LEN, outbuf); } # ifdef UNIX if (NEED_TO_DUMP("SUPPLEMENTARY")) { util_out_print(0, TRUE); assert(MAX_SUPPL_STRMS == ARRAYSIZE(csd->strm_reg_seqno)); for (index = 0; index < MAX_SUPPL_STRMS; index++) { if (csd->strm_reg_seqno[index]) util_out_print(" Stream !2UL: Reg Seqno 0x!16@XQ", TRUE, index, &csd->strm_reg_seqno[index]); } } # endif if (NEED_TO_DUMP("ENVIRONMENT")) { util_out_print(0, TRUE); util_out_print(" Full Block Writes !AD", FALSE, 6, (csa->do_fullblockwrites) ? " ON" : " OFF"); util_out_print(" Full Block Write Len !12UL", TRUE, csa->fullblockwrite_len); } if (NEED_TO_DUMP("DB_CSH")) { util_out_print(0, TRUE); # define TAB_DB_CSH_ACCT_REC(COUNTER,TEXT1,TEXT2) SHOW_DB_CSH_STAT(csd, COUNTER, TEXT1, TEXT2) # include "tab_db_csh_acct_rec.h" # undef TAB_DB_CSH_ACCT_REC } if (NEED_TO_DUMP("GVSTATS")) { util_out_print(0, TRUE); # define TAB_GVSTATS_REC(COUNTER,TEXT1,TEXT2) SHOW_GVSTATS_STAT(cnl, COUNTER, TEXT1, TEXT2) # include "tab_gvstats_rec.h" # undef TAB_GVSTATS_REC } if (NEED_TO_DUMP("TPBLKMOD")) { util_out_print(0, TRUE); assert(n_tp_blkmod_types < ARRAYSIZE(csd->tp_cdb_sc_blkmod)); util_out_print(" TP blkmod nomod !12UL", TRUE, csd->tp_cdb_sc_blkmod[tp_blkmod_nomod]); util_out_print(" TP blkmod gvcst_srch !12UL", TRUE, csd->tp_cdb_sc_blkmod[tp_blkmod_gvcst_srch]); util_out_print(" TP blkmod t_qread !12UL", TRUE, csd->tp_cdb_sc_blkmod[tp_blkmod_t_qread]); util_out_print(" TP blkmod tp_tend !12UL", TRUE, csd->tp_cdb_sc_blkmod[tp_blkmod_tp_tend]); util_out_print(" TP blkmod tp_hist !12UL", TRUE, csd->tp_cdb_sc_blkmod[tp_blkmod_tp_hist]); } if (NEED_TO_DUMP("BG_TRC")) { util_out_print(0, TRUE); /* print out all the BG_TRACE accounting fields */ # define TAB_BG_TRC_REC(A,B) SHOW_STAT(A,B); # include "tab_bg_trc_rec.h" # undef TAB_BG_TRC_REC } jpc = csa->jnl; if (NEED_TO_DUMP("JOURNAL") && (JNL_ENABLED(csd) && (NULL != jpc) && (NULL != jpc->jnl_buff))) { jb = jpc->jnl_buff; util_out_print(0, TRUE); /* --------------------------- journal buffer --------------------------------- */ util_out_print(" Jnl Buffer Size 0x!XL", FALSE, jb->size); util_out_print(" ", FALSE); util_out_print(" Dskaddr 0x!XL", TRUE, jb->dskaddr); util_out_print(" Free 0x!XL", FALSE, jb->free); util_out_print(" ", FALSE); util_out_print(" Freeaddr 0x!XL", TRUE, jb->freeaddr); util_out_print(" Dsk 0x!XL", FALSE, jb->dsk); util_out_print(" ", FALSE); util_out_print(" Wrtsize 0x!XL", TRUE, jb->wrtsize); util_out_print(" Journal checksum seed 0x!XL", FALSE, csd->jnl_checksum); util_out_print(" ", FALSE); util_out_print(" Min_write_size 0x!XL", TRUE, jb->min_write_size); util_out_print(" bytcnt 0x!XL", FALSE, jb->bytcnt); util_out_print(" ", FALSE); util_out_print(" Max_write_size 0x!XL", TRUE, jb->max_write_size); util_out_print(" Before image !AD", FALSE, 5, (jb->before_images ? " TRUE" : "FALSE")); util_out_print(" ", FALSE); util_out_print(" Filesize !12UL", TRUE, jb->filesize); util_out_print(" Iosb.cond !12UW", FALSE, jb->iosb.cond); util_out_print(" ", FALSE); util_out_print(" qiocnt !12UL", TRUE, jb->qiocnt); util_out_print(" Iosb.length 0x!4XW", FALSE, jb->iosb.length); util_out_print(" ", FALSE); util_out_print(" errcnt !12UL", TRUE, jb->errcnt); util_out_print(" Iosb.dev_specific !12UL", FALSE, jb->iosb.dev_specific); util_out_print(" ", FALSE); time_len = exttime(jb->next_epoch_time, (char *)buffer, 0); assert(STR_LIT_LEN(NEXT_EPOCH_TIME_SPACES) >= time_len); util_out_print(" Next Epoch_Time!AD!AD", TRUE, STR_LIT_LEN(NEXT_EPOCH_TIME_SPACES) - time_len + 1, NEXT_EPOCH_TIME_SPACES, time_len - 1, buffer); /* -1 to avoid printing \ at end of $H * format time returned by exttime */ util_out_print(" Blocked Process !12UL", FALSE, jb->blocked); util_out_print(" ", FALSE); util_out_print(" Epoch_tn 0x!16@XQ", TRUE, &jb->epoch_tn); util_out_print(" Io_in_progress !AD", FALSE, 5, (jb->UNIX_ONLY(io_in_prog_latch.u.parts.latch_pid)VMS_ONLY(io_in_prog) ? " TRUE" : "FALSE")); util_out_print(" ", FALSE); util_out_print(" Epoch_Interval !12UL", TRUE, EPOCH_SECOND2SECOND(jb->epoch_interval)); util_out_print(" Now_writer !12UL", FALSE, (jb->UNIX_ONLY(io_in_prog_latch.u.parts.latch_pid)VMS_ONLY(now_writer))); util_out_print(" ", FALSE); util_out_print(" Image_count !12UL", TRUE, jb->image_count); util_out_print(" fsync_in_prog !AD", FALSE, 5, (jb->fsync_in_prog_latch.u.parts.latch_pid ? " TRUE" : "FALSE")); util_out_print(" ", FALSE); util_out_print(" fsync pid !12SL", TRUE, (jb->fsync_in_prog_latch.u.parts.latch_pid)); util_out_print(" fsync addrs 0x!XL", FALSE, jb->fsync_dskaddr); util_out_print(" ", FALSE); util_out_print(" Need_db_fsync !AD", TRUE, 5, (jb->need_db_fsync ? " TRUE" : "FALSE")); util_out_print(" Filesystem block size 0x!XL", FALSE, jb->fs_block_size); util_out_print(" ", FALSE); util_out_print(" jnl solid tn 0x!16@XQ", TRUE, &csd->jnl_eovtn); for (rectype = JRT_BAD + 1; rectype < JRT_RECTYPES - 1; rectype++) { util_out_print(" Jnl Rec Type !5AZ 0x!XL ", FALSE, jrt_label[rectype], jb->reccnt[rectype]); rectype++; util_out_print(" Jnl Rec Type !5AZ 0x!XL", TRUE, jrt_label[rectype], jb->reccnt[rectype]); } if (rectype != JRT_RECTYPES) util_out_print(" Jnl Rec Type !5AZ 0x!XL", TRUE, jrt_label[rectype], jb->reccnt[rectype]); util_out_print(0, TRUE); util_out_print(" Recover interrupted !AD", FALSE, 5, (csd->recov_interrupted ? " TRUE" : "FALSE")); util_out_print(" ", FALSE); util_out_print(" INTRPT resolve time !12UL", TRUE, csd->intrpt_recov_tp_resolve_time); util_out_print(" INTRPT jnl_state !12UL", FALSE, csd->intrpt_recov_jnl_state); util_out_print(" ", FALSE); util_out_print(" INTRPT repl_state !12UL", TRUE, csd->intrpt_recov_repl_state); util_out_print(" INTRPT seqno 0x!16@XQ", TRUE, &csd->intrpt_recov_resync_seqno); UNIX_ONLY( for (index = 0; index < MAX_SUPPL_STRMS; index++) { if (csd->intrpt_recov_resync_strm_seqno[index]) util_out_print(" INTRPT strm_seqno : Stream # !2UL Stream Seqno 0x!16@XQ", TRUE, index, &csd->intrpt_recov_resync_strm_seqno[index]); } for (index = 0; index < MAX_SUPPL_STRMS; index++) { if (csd->intrpt_recov_resync_strm_seqno[index]) util_out_print(" SAVE strm_seqno : Stream # !2UL Region Seqno 0x!16@XQ", TRUE, index, &csd->save_strm_reg_seqno[index]); } ) } if (NEED_TO_DUMP("BACKUP")) { bptr = csa->shmpool_buffer; /* --------------------------- online backup buffer ---------------------------------- */ util_out_print(0, TRUE); util_out_print(" Free blocks !12UL", FALSE, bptr->free_cnt); util_out_print(" ", FALSE); util_out_print(" Backup blocks !12UL", TRUE, bptr->backup_cnt); util_out_print(" Reformat blocks !12UL", FALSE, bptr->reformat_cnt); util_out_print(" ", FALSE); util_out_print(" Total blocks !12UL", TRUE, bptr->total_blks); util_out_print(" Shmpool blocked !AD", FALSE, 5, (bptr->shmpool_blocked ? " TRUE" : "FALSE")); util_out_print(" ", FALSE); util_out_print(" File Offset 0x!16@XQ", TRUE, &bptr->dskaddr); util_out_print(" Shmpool crit holder !12UL", FALSE, bptr->shmpool_crit_latch.u.parts.latch_pid); util_out_print(" ", FALSE); util_out_print(" Backup_errno !12UL", TRUE, bptr->backup_errno); # ifdef VMS util_out_print(" Shmpool crit imgcnt !12UL", TRUE, bptr->shmpool_crit_latch.u.parts.latch_image_count); # endif util_out_print(" Backup Process ID !12UL", FALSE, bptr->backup_pid); util_out_print(" ", FALSE); util_out_print(" Backup TN 0x!16@XQ", TRUE, &bptr->backup_tn); util_out_print(" Inc Backup TN 0x!16@XQ", FALSE, &bptr->inc_backup_tn); util_out_print(" ", FALSE); util_out_print(" Process Failed !12UL", TRUE, bptr->failed); util_out_print(" Allocs since check !12UL", FALSE, bptr->allocs_since_chk); util_out_print(" ", FALSE); util_out_print(" Backup Image Count !12UL", TRUE, bptr->backup_image_count); util_out_print(" Temp File: !AD", TRUE, LEN_AND_STR(&bptr->tempfilename[0])); } if (NEED_TO_DUMP("MIXEDMODE")) { util_out_print(0, TRUE); util_out_print(" Database is Fully Upgraded : !AD", TRUE, 5, (csd->fully_upgraded ? " TRUE" : "FALSE")); util_out_print(" Database WAS ONCE Fully Upgraded from V4 : !AD", TRUE, 5, (csd->db_got_to_v5_once ? " TRUE" : "FALSE")); util_out_print(" Blocks to Upgrade subzero(negative) error : 0x!XL", TRUE, csd->blks_to_upgrd_subzero_error); util_out_print(" TN when Blocks to Upgrade last became 0 : 0x!16@XQ", TRUE, &csd->tn_upgrd_blks_0); util_out_print(" TN when Desired DB Format last changed : 0x!16@XQ", TRUE, &csd->desired_db_format_tn); util_out_print(" TN when REORG upgrd/dwngrd changed dbfmt : 0x!16@XQ", TRUE, &csd->reorg_db_fmt_start_tn); util_out_print(0, TRUE); util_out_print(" Block Number REORG upgrd/dwngrd will restart from : 0x!XL", TRUE, csd->reorg_upgrd_dwngrd_restart_block); } if (NEED_TO_DUMP("UPDPROC")) { util_out_print(0, TRUE); util_out_print(" Upd reserved area [% global buffers] !3UL", FALSE, csd->reserved_for_upd); util_out_print(" Avg blks read per 100 records !4UL", TRUE, csd->avg_blks_per_100gbl); util_out_print(" Pre read trigger factor [% upd rsrvd] !3UL", FALSE, csd->pre_read_trigger_factor); util_out_print(" Upd writer trigger [%flshTrgr] !3UL", TRUE, csd->writer_trigger_factor); } # ifdef GTM_SNAPSHOT if (NEED_TO_DUMP("SNAPSHOT")) { util_out_print(0, TRUE); util_out_print(" Snapshot in progress !AD", FALSE, 5, (cnl->snapshot_in_prog ? " TRUE" : "FALSE")); util_out_print(" Number of active snapshots !12UL", TRUE, cnl->num_snapshots_in_effect); util_out_print(" Snapshot cycle !12UL", FALSE, cnl->ss_shmcycle); /* SS_MULTI: Note that if we have multiple snapshots, then we have to run through each active * snapshot region and dump their informations respectively */ ss_shm_ptr = (shm_snapshot_ptr_t)(SS_GETSTARTPTR(csa)); util_out_print(" Active snapshot PID !12UL", TRUE, ss_shm_ptr->ss_info.ss_pid); util_out_print(" Snapshot TN !12UL", FALSE, ss_shm_ptr->ss_info.snapshot_tn); util_out_print(" Total blocks !12UL", TRUE, ss_shm_ptr->ss_info.total_blks); util_out_print(" Free blocks !12UL", FALSE, ss_shm_ptr->ss_info.free_blks); util_out_print(" Process failed !12UL", TRUE, ss_shm_ptr->failed_pid); util_out_print(" Failure errno !12UL", FALSE, ss_shm_ptr->failure_errno); util_out_print(" Snapshot shared memory identifier !12SL", TRUE, ss_shm_ptr->ss_info.ss_shmid); util_out_print(" Snapshot file name !AD", TRUE, LEN_AND_STR(ss_shm_ptr->ss_info.shadow_file)); } # endif return; }