2012-02-05 11:35:58 -05:00
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/****************************************************************
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* *
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2024-07-19 11:43:27 -04:00
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* Copyright 2011, 2013 Fidelity Information Services, Inc *
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2012-02-05 11:35:58 -05:00
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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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#include "mdef.h"
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#include "dollar_zlevel.h"
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#include "error_trap.h"
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#include "golevel.h"
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#include "cache.h"
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#include "cmd_qlf.h"
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2012-02-05 11:35:58 -05:00
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#include "hashtab.h"
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#include "hashtab_objcode.h"
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#include "hashtab_mname.h"
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2012-06-14 08:55:06 -04:00
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#include <rtnhdr.h>
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2012-02-05 11:35:58 -05:00
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#include "stack_frame.h"
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#include "mprof.h"
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#include "gtm_unlink_all.h"
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#include "zbreak.h"
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#include "gtm_text_alloc.h"
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#include "parse_file.h"
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#include "zro_shlibs.h"
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#include "gdsroot.h"
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#include "gdsbt.h"
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#include "gdsblk.h"
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#include "gdsbml.h"
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#include "gtm_facility.h"
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#include "fileinfo.h"
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#include "gdsfhead.h"
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#include "srcline.h"
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#include "gtmci.h" /* for GTM_CIMOD */
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#include "dm_setup.h" /* for GTM_DMOD */
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#include "urx.h"
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#include "stringpool.h"
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2012-03-24 14:06:46 -04:00
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#ifdef GTM_TRIGGER
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#include "gv_trigger.h"
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#include "gtm_trigger.h"
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#include "gv_trigger_protos.h"
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#endif
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2012-02-05 11:35:58 -05:00
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GBLREF boolean_t is_tracing_on;
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GBLREF gv_key *gv_currkey;
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GBLREF hash_table_objcode cache_table;
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GBLREF int dollar_truth;
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GBLREF int indir_cache_mem_size;
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GBLREF rtn_tabent *rtn_names, *rtn_names_end, *rtn_names_top, *rtn_fst_table;
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GBLREF stack_frame *frame_pointer;
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GBLREF gv_namehead *gv_target_list;
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2012-02-05 11:35:58 -05:00
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/* Routine to do the following:
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*
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* 1. Stop M-Profiling.
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* 2. Unwind the M stack back to level 1
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* 3. (re)Initialize $ECODE, $REFERENCE and $TEST.
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2012-03-24 14:06:46 -04:00
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* 4. Remove all triggers. This includes not only the trigger routines but the trigger definitions and
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* linkages in the gvt_trigger struct anchored off of the gv_target.
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* 5. Unlink all M routines. This includes getting rid of their linkage entries, breakpoints,
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2012-02-05 11:35:58 -05:00
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* and $TEXT() caches and re-initializing the routine table.
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2012-03-24 14:06:46 -04:00
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* 6. Empty the indirect cache.
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* 7. Close the shared libraries associated with M programs and reopen them after the unroll if any
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2012-02-05 11:35:58 -05:00
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* are present in $ZROUTINES.
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*
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* Currently called from op_zgoto() but could be called from elsewhere if needed in the future.
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*
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* Note this routine removes all loaded programs but the intial base-frame on the stack has the address of whatever
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* the first program is (GTM$DMOD in a direct mode situation or the starting program in a -run invocation). It is up
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* to the caller to set the base frame with this address so the stack has no unknown references in it.
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*/
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void gtm_unlink_all(void)
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{
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rtn_tabent *rtab;
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rhdtyp *rtnhdr, *rhdr, *next_rhdr;
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ht_ent_mname *tabent_mname;
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textElem *telem;
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ht_ent_objcode *tabent_obj, *topent;
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cache_entry *csp;
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mname_entry key;
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routine_source *src_tbl;
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gv_namehead *gvt;
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2012-02-05 11:35:58 -05:00
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DCL_THREADGBL_ACCESS;
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SETUP_THREADGBL_ACCESS;
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/* Step 1: Stop M-Profiling */
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if (is_tracing_on)
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turn_tracing_off(NULL);
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/* Step 2: Unwind M stack back to level 1 */
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GOLEVEL(1, TRUE);
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assert(1 == dollar_zlevel());
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/* Step 3: re-Initialize $ECODE, $REFERENCE, and $TEST */
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NULLIFY_DOLLAR_ECODE; /* Clears $ECODE and results returned for $STACK */
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if (NULL != gv_currkey)
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{ /* Clears $REFERENCE */
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gv_currkey->end = 0;
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gv_currkey->base[0] = KEY_DELIMITER;
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}
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dollar_truth = FALSE; /* aka $TEST */
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/* Step 4: Remove all triggers */
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# ifdef GTM_TRIGGER
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for (gvt = gv_target_list; gvt; gvt = gvt->next_gvnh)
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gvtr_free(gvt);
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# endif
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/* Step 5: Unlink all routines, remove $TEXT cache and remove breakpoints.Note that for the purposes of this section,
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* there is no difference between normal routines and trigger routines. Both are being removed completely so the code
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* below is a hodgepodge of code from zlput_rname and gtm_trigger_cleanup(). Note process in reverse order so we can
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* move rtn_names_end up leaving processed entries (whose keys no longer work) off the end of the table without moving
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* anything. This is necessary because removing ZBREAK points can call find_rtn_hdr so this table needs to remain in
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* a usable state while we are doing this.
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2012-02-05 11:35:58 -05:00
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*/
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for (rtab = rtn_names_end; rtab > rtn_names; rtab--, rtn_names_end = rtab)
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{ /* [0] is not used (for some reason) */
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rtnhdr = rtab->rt_adr;
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zr_remove(rtnhdr, FALSE); /* Remove all breakpoints in this routine */
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urx_remove(rtnhdr); /* Remove all unresolved entries for this routine */
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/* If source has been read in for this routine, free the space. Since routine name is the key, do this before
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* (in USHBIN builds) we release the literal text section as part of the releasable read-only section.
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* Note this code is similar to code in zlput_rname() 'cept this is necessarily UNIX-only.
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*/
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tabent_mname = NULL;
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if (NULL != (TREF(rt_name_tbl)).base)
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{
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key.var_name = rtab->rt_name;
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COMPUTE_HASH_MNAME(&key);
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if (NULL != (tabent_mname = lookup_hashtab_mname(TADR(rt_name_tbl), &key)) && tabent_mname->value)
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{ /* Entries and source are malloc'd in two blocks on UNIX */
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src_tbl = (routine_source *)tabent_mname->value;
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if (NULL != src_tbl->srcbuff)
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free(src_tbl->srcbuff);
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free(src_tbl);
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tabent_mname->value = NULL;
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}
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}
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if ((0 == strcmp(rtnhdr->routine_name.addr, GTM_DMOD)) || (0 == strcmp(rtnhdr->routine_name.addr, GTM_CIMOD)))
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{ /* If the routine is GTM$DMOD or GTM$CIMOD, it is allocated in one chunk by make_*mode(). Release it in
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* one chunk too.
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*/
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GTM_TEXT_FREE(rtnhdr);
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} else
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{
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# ifdef USHBIN_SUPPORTED
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/* We are about to release program areas containing literal text that could be pointed to by
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* local var mvals that are being kept so migrate program literals to the stringpool. Note zlput_rname()
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* only does this if not a shared library but since we are releasing shared libraries too, do it
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* regardless.
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*/
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if (0 < rtnhdr->literal_text_len)
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{
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stp_move((char *)rtnhdr->literal_text_adr,
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(char *)(rtnhdr->literal_text_adr + rtnhdr->literal_text_len));
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}
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if (NULL == rtnhdr->shlib_handle)
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/* We can only release this section if this is not a shared library */
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GTM_TEXT_FREE(rtnhdr->ptext_adr); /* R/O releasable section */
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free(RW_REL_START_ADR(rtnhdr)); /* R/W releasable section part 1 */
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free(rtnhdr->linkage_adr); /* R/W releasable section part 2 */
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free(rtnhdr->labtab_adr); /* Usually non-releasable but not in this case */
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/* Run the chain of old (replaced) versions freeing them also */
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for (rhdr = OLD_RHEAD_ADR(rtnhdr); NULL != rhdr; rhdr = next_rhdr)
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{
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next_rhdr = rhdr->old_rhead_adr;
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free(rhdr->labtab_adr); /* Free dangling label table */
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free(rhdr);
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}
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free(rtnhdr);
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# else
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# if (!defined(__linux__) && !defined(__CYGWIN__)) || !defined(__i386) || !defined(COMP_GTA)
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# error Unsupported NON-USHBIN platform
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# endif
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/* For a non-shared binary platform we need to get an approximate addr range for stp_move. This is not
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* done when a routine is replaced on these platforms but in this case we need to since the routines are
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* going away which will cause problems with any local variables or environment varspointing to these
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* literals.
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*
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* In this format, the only platform we support currently is Linux-x86 (i386) which uses GTM_TEXT_ALLOC()
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* to allocate special storage for it to put executable code in. We can access the storage header for
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* this storage and find out how big it is and use that information to give stp_move a good range since
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* the literal segment occurs right at the end of allocated storage (for which there is no pointer
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* in the fileheader). (Note we allow CYGWIN in here too but it has not been tested at this time)
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*/
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telem = (textElem *)((char *)rtnhdr - offsetof(textElem, userStorage));
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assert(TextAllocated == telem->state);
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stp_move((char *)LNRTAB_ADR(rtnhdr) + (rtnhdr->lnrtab_len * SIZEOF(lnr_tabent)),
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(char *)rtnhdr + telem->realLen);
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/* Run the chain of old (replaced) versions freeing them first */
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for (rhdr = OLD_RHEAD_ADR(rtnhdr); rtnhdr != rhdr; rhdr = next_rhdr)
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{
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next_rhdr = (rhdtyp *)rhdr->old_rhead_ptr;
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GTM_TEXT_FREE(rhdr);
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}
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GTM_TEXT_FREE(rtnhdr);
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# endif
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}
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}
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/* All programs have been removed. If this is the "first" table allocated which cannot be removed, just reinitialize
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* the table and we're done. If a new table, release it, recover the first table, initialize and we're done.
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*/
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if (rtn_names != rtn_fst_table)
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{
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free(rtn_names);
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rtn_names = rtn_fst_table;
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assert(NULL != rtn_fst_table);
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}
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memset(rtn_names, 0, SIZEOF(rtn_tabent));
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rtn_names_end = rtn_names_top = rtn_names;
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/* Step 5: Empty the indirect cache */
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for (tabent_obj = cache_table.base, topent = cache_table.top; tabent_obj < topent; tabent_obj++)
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{ /* Run through the hashtable getting rid of all the entries. Not bothering with the cleanups
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* like are done in cache_table_rebuild since we are going to re-init the table.
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*/
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if (HTENT_VALID_OBJCODE(tabent_obj, cache_entry, csp))
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{
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GTM_TEXT_FREE(csp);
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}
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}
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reinitialize_hashtab_objcode(&cache_table); /* Completely re-initialize the hash table */
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indir_cache_mem_size = 0;
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/* Step 6: Close M code shared libraries */
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zro_shlibs_unlink_all();
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}
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