366 lines
11 KiB
C
366 lines
11 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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/* mupip_reorg.c:
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* Main program for mupip reorg (portable) .
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*
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* This program creates a list of globals to be organized from /SELECT option and then calls mu_reorg() to
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* reorganize each global seperately but excludes some variables' organization given in /EXCLUDE list.
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*
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* This alternatively invokes mu_reorg_upgrd_dwngrd in case a MUPIP REORG -UPGRADE or -DOWNGRADE was specified
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*/
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#include "mdef.h"
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#include "gtm_string.h"
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#include "stp_parms.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 "gdskill.h"
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#ifdef VMS
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#include <rms.h> /* needed for muextr.h */
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#endif
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#include "muextr.h"
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#include "iosp.h"
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#include "cli.h"
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#include "mu_reorg.h"
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#include "util.h"
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#ifdef GTM_TRUNCATE
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#include "mu_truncate.h"
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#include "op.h"
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#include "tp_change_reg.h"
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#include "is_proc_alive.h"
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#endif
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#include "filestruct.h"
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#include "error.h"
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#include "gdscc.h"
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#include "jnl.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 */
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#include "tp.h"
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/* Prototypes */
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#include "mupip_reorg.h"
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#include "mu_reorg_upgrd_dwngrd.h"
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#include "targ_alloc.h"
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#include "mupip_exit.h"
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#include "gv_select.h"
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#include "mu_outofband_setup.h"
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#include "gtmmsg.h"
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#include "mu_getlst.h"
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error_def(ERR_CONCURTRUNCINPROG);
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error_def(ERR_DBRDONLY);
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error_def(ERR_EXCLUDEREORG);
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error_def(ERR_MUNOACTION);
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error_def(ERR_MUNOFINISH);
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error_def(ERR_MUPCLIERR);
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error_def(ERR_MUTRUNCFAIL);
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error_def(ERR_MUTRUNCPERCENT);
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error_def(ERR_MUTRUNC1ATIME);
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error_def(ERR_NOSELECT);
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error_def(ERR_NOEXCLUDE);
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error_def(ERR_REORGCTRLY);
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error_def(ERR_REORGINC);
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GTMTRIG_ONLY(LITREF mval literal_hasht;)
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GBLREF bool mu_ctrlc_occurred;
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GBLREF bool mu_ctrly_occurred;
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GBLREF boolean_t mu_reorg_process;
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GBLREF gd_addr *gd_header;
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GBLREF gd_region *gv_cur_region;
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GBLREF gv_key *gv_currkey_next_reorg;
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GBLREF gv_namehead *reorg_gv_target;
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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 uint4 process_id;
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GBLREF tp_region *grlist;
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GBLREF bool error_mupip;
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GBLREF boolean_t jnlpool_init_needed;
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void mupip_reorg(void)
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{
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boolean_t resume, reorg_success = TRUE;
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int data_fill_factor, index_fill_factor;
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int reorg_op, reg_max_rec, reg_max_key, reg_max_blk;
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char cli_buff[MAX_LINE], *ptr;
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glist gl_head, exclude_gl_head, *gl_ptr;
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uint4 cli_status;
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unsigned short n_len;
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boolean_t truncate, cur_success, restrict_reg, arg_present;
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int root_swap_statistic;
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mval gn;
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# ifdef GTM_TRUNCATE
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int4 truncate_percent;
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boolean_t gotlock;
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sgmnt_data_ptr_t csd;
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sgmnt_addrs *csa;
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node_local_ptr_t cnl;
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trunc_region *reg_list, *tmp_reg, *reg_iter, *prev_reg;
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uint4 fs;
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# endif
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DCL_THREADGBL_ACCESS;
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SETUP_THREADGBL_ACCESS;
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jnlpool_init_needed = TRUE;
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mu_outofband_setup();
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truncate = FALSE;
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GTM_TRUNCATE_ONLY(
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reg_list = NULL;
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if (CLI_PRESENT == cli_present("TRUNCATE"))
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truncate = TRUE;
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)
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if ((CLI_PRESENT == cli_present("UPGRADE")) || (CLI_PRESENT == cli_present("DOWNGRADE")))
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{
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/* note that "mu_reorg_process" is not set to TRUE in case of MUPIP REORG UPGRADE/DOWNGRADE.
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* this is intentional because we are not doing any REORG kind of processing.
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*/
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mu_reorg_upgrd_dwngrd();
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mupip_exit(SS_NORMAL); /* does not return */
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}
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grlist = NULL;
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restrict_reg = FALSE;
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arg_present = (0 != TREF(parms_cnt));
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VMS_ONLY(arg_present = (CLI_PRESENT == cli_present("REG_NAME")));
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if (CLI_PRESENT == cli_present("REGION"))
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{ /* MUPIP REORG -REGION reg-list restricts mu_reorg to variables in specified regions */
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error_mupip = FALSE;
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restrict_reg = TRUE;
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gvinit(); /* initialize gd_header (needed by the following call to mu_getlst) */
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mu_getlst("REG_NAME", SIZEOF(tp_region)); /* get the parameter corresponding to REGION qualifier */
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if (error_mupip)
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{
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util_out_print("!/MUPIP REORG cannot proceed with above errors!/", FLUSH);
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mupip_exit(ERR_MUNOACTION);
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}
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} else if (arg_present)
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{
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util_out_print("MUPIP REORG only accepts a parameter when -REGION is specified.", FLUSH);
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mupip_exit(ERR_MUPCLIERR);
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}
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resume = (CLI_PRESENT == cli_present("RESUME"));
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reorg_op = DEFAULT;
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n_len = SIZEOF(cli_buff);
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memset(cli_buff, 0, n_len);
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if (CLI_PRESENT == cli_present("USER_DEFINED_REORG") && (CLI_GET_STR_ALL("USER_DEFINED_REORG", cli_buff, &n_len)))
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{
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for (ptr = cli_buff; ; )
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{
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if (0 == STRNCMP_LIT(ptr, "SWAPHIST"))
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reorg_op |= SWAPHIST;
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else if (0 == STRNCMP_LIT(ptr, "NOCOALESCE"))
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reorg_op |= NOCOALESCE;
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else if (0 == STRNCMP_LIT(ptr, "NOSPLIT"))
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reorg_op |= NOSPLIT;
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else if (0 == STRNCMP_LIT(ptr, "NOSWAP"))
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reorg_op |= NOSWAP;
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else if (0 == STRNCMP_LIT(ptr, "DETAIL"))
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reorg_op |= DETAIL;
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ptr = (char *)strchr(ptr, ',');
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if (ptr)
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ptr++;
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else
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break;
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}
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}
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if ((cli_status = cli_present("FILL_FACTOR")) == CLI_PRESENT)
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{
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assert(SIZEOF(data_fill_factor) == SIZEOF(int4));
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if (!cli_get_int("FILL_FACTOR", (int4 *)&data_fill_factor) || MAX_FILLFACTOR < data_fill_factor)
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data_fill_factor = MAX_FILLFACTOR;
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else if (MIN_FILLFACTOR > data_fill_factor)
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data_fill_factor = MIN_FILLFACTOR;
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}
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else
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data_fill_factor = MAX_FILLFACTOR;
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if ((cli_status = cli_present("INDEX_FILL_FACTOR")) == CLI_PRESENT)
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{
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assert(SIZEOF(index_fill_factor) == SIZEOF(int4));
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if (!cli_get_int("INDEX_FILL_FACTOR", (int4 *)&index_fill_factor))
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index_fill_factor = data_fill_factor;
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else if (MIN_FILLFACTOR > index_fill_factor)
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index_fill_factor = MIN_FILLFACTOR;
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else if (MAX_FILLFACTOR < index_fill_factor)
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index_fill_factor = MAX_FILLFACTOR;
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}
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else
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index_fill_factor = data_fill_factor;
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util_out_print("Fill Factor:: Index blocks !UL%: Data blocks !UL%", FLUSH, index_fill_factor, data_fill_factor);
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n_len = SIZEOF(cli_buff);
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memset(cli_buff, 0, n_len);
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if (CLI_PRESENT != cli_present("EXCLUDE"))
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exclude_gl_head.next = NULL;
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else if (FALSE == CLI_GET_STR_ALL("EXCLUDE", cli_buff, &n_len))
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exclude_gl_head.next = NULL;
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else
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{
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/* gv_select will select globals for this clause */
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gv_select(cli_buff, n_len, FALSE, "EXCLUDE", &exclude_gl_head, ®_max_rec, ®_max_key, ®_max_blk, FALSE);
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if (!exclude_gl_head.next)
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gtm_putmsg(VARLSTCNT(1) ERR_NOEXCLUDE);
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}
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n_len = SIZEOF(cli_buff);
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memset(cli_buff, 0, n_len);
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if (CLI_PRESENT != cli_present("SELECT"))
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{
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n_len = 1;
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cli_buff[0] = '*';
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}
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else if (FALSE == CLI_GET_STR_ALL("SELECT", cli_buff, &n_len))
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{
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n_len = 1;
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cli_buff[0] = '*';
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}
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/* gv_select will select globals for this clause */
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TREF(want_empty_gvts) = TRUE; /* Allow killed globals to be selected and processed by mu_reorg */
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gv_select(cli_buff, n_len, FALSE, "SELECT", &gl_head, ®_max_rec, ®_max_key, ®_max_blk, restrict_reg);
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if (!gl_head.next)
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{
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rts_error(VARLSTCNT(1) ERR_NOSELECT);
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mupip_exit(ERR_NOSELECT);
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}
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TREF(want_empty_gvts) = FALSE;
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root_swap_statistic = 0;
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mu_reorg_process = TRUE;
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assert(NULL == gv_currkey_next_reorg);
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GVKEY_INIT(gv_currkey_next_reorg, DBKEYSIZE(MAX_KEY_SZ));
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reorg_gv_target = targ_alloc(MAX_KEY_SZ, NULL, NULL);
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reorg_gv_target->hist.depth = 0;
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reorg_gv_target->alt_hist->depth = 0;
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for (gl_ptr = gl_head.next; gl_ptr; gl_ptr = gl_ptr->next)
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{
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util_out_print(" ", FLUSH);
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util_out_print("Global: !AD ", FLUSH, gl_ptr->name.str.len, gl_ptr->name.str.addr);
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if (in_exclude_list((uchar_ptr_t)gl_ptr->name.str.addr, gl_ptr->name.str.len, &exclude_gl_head))
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{
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gtm_putmsg(VARLSTCNT(4) ERR_EXCLUDEREORG, 2, gl_ptr->name.str.len, gl_ptr->name.str.addr);
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reorg_success = FALSE;
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continue;
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}
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/* Save the global name in reorg_gv_target. Via gv_currkey_next_reorg, it's possible for gv_currkey to become
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* out of sync with gv_target. We'll use reorg_gv_target->gvname to make sure the correct root block is found.
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*/
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reorg_gv_target->gvname.var_name.addr = gl_ptr->name.str.addr;
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reorg_gv_target->gvname.var_name.len = gl_ptr->name.str.len;
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cur_success = mu_reorg(&gl_ptr->name, &exclude_gl_head, &resume, index_fill_factor, data_fill_factor, reorg_op);
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reorg_success &= cur_success;
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SET_GV_CURRKEY_FROM_REORG_GV_TARGET;
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# ifdef GTM_TRUNCATE
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if (truncate)
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/* No need to move root blocks unless truncating */
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cur_success &= mu_swap_root(&gl_ptr->name, &root_swap_statistic);
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/* if we successfully reorged this global, add its corresponding region to the set (list) of regions to truncate */
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if (cur_success)
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{
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for (reg_iter = reg_list, prev_reg = reg_list; reg_iter; reg_iter = reg_iter->next)
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if (reg_iter->reg == gv_cur_region)
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break;
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else
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prev_reg = reg_iter;
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if (NULL == reg_iter)
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{
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tmp_reg = (trunc_region *)malloc(SIZEOF(trunc_region));
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tmp_reg->reg = gv_cur_region;
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tmp_reg->next = NULL;
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if (NULL == reg_list)
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reg_list = tmp_reg;
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else
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prev_reg->next = tmp_reg;
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# ifdef GTM_TRIGGER
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if (truncate)
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{ /* Reorg ^#t in this region to move it out of the way. */
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gn = literal_hasht;
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util_out_print(" ", FLUSH);
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util_out_print("Global: !AD (region !AD)", FLUSH,
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gn.str.len, gn.str.addr, REG_LEN_STR(gv_cur_region));
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reorg_gv_target->gvname.var_name.addr = gn.str.addr;
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reorg_gv_target->gvname.var_name.len = gn.str.len;
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reorg_success &= mu_reorg(&gn, &exclude_gl_head, &resume, index_fill_factor,
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data_fill_factor, reorg_op);
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SET_GV_CURRKEY_FROM_REORG_GV_TARGET;
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reorg_success &= mu_swap_root(&gn, &root_swap_statistic);
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}
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# endif
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}
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}
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# endif
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if (mu_ctrlc_occurred || mu_ctrly_occurred)
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{
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gtm_putmsg(VARLSTCNT(1) ERR_REORGCTRLY);
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mupip_exit(ERR_MUNOFINISH);
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}
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}
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if (!reorg_success)
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{
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rts_error(VARLSTCNT(1) ERR_REORGINC);
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mupip_exit(ERR_REORGINC);
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}
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else if (truncate)
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{
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# ifdef GTM_TRUNCATE
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util_out_print("Total root blocks moved: !UL", FLUSH, root_swap_statistic);
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mu_reorg_process = FALSE;
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/* Default threshold is 0 i.e. we attempt to truncate no matter what free_blocks is. */
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truncate_percent = 0;
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cli_get_int("TRUNCATE", (int4 *)&truncate_percent);
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if (99 < truncate_percent)
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{
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gtm_putmsg(VARLSTCNT(1) ERR_MUTRUNCPERCENT);
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mupip_exit(ERR_MUTRUNCFAIL);
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}
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for (reg_iter = reg_list; reg_iter; reg_iter = reg_iter->next)
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{
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gv_cur_region = reg_iter->reg;
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tp_change_reg();
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csd = cs_data;
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csa = cs_addrs;
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cnl = csa->nl;
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/* Ensure only one truncate process at a time operates on given region */
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grab_crit(gv_cur_region);
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if (cnl->trunc_pid && is_proc_alive(cnl->trunc_pid, 0))
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{
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rel_crit(gv_cur_region);
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send_msg(VARLSTCNT(4) ERR_MUTRUNC1ATIME, 3, cnl->trunc_pid, REG_LEN_STR(gv_cur_region));
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continue;
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}
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cnl->trunc_pid = process_id;
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cnl->highest_lbm_with_busy_blk = 0;
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rel_crit(gv_cur_region);
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if (!mu_truncate(truncate_percent))
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mupip_exit(ERR_MUTRUNCFAIL);
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grab_crit(gv_cur_region);
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assert(cnl->trunc_pid == process_id);
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cnl->trunc_pid = 0;
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rel_crit(gv_cur_region);
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if (mu_ctrlc_occurred || mu_ctrly_occurred)
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{
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gtm_putmsg(VARLSTCNT(1) ERR_REORGCTRLY);
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mupip_exit(ERR_MUNOFINISH);
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}
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}
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# endif
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mupip_exit(SS_NORMAL);
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}
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else
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mupip_exit(SS_NORMAL);
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}
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