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/****************************************************************
* *
* 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. *
* *
****************************************************************/
#include "mdef.h"
#include "gtm_string.h"
#include "gdsroot.h"
#include "gdsblk.h"
#include "gdskill.h"
#include "gtm_facility.h"
#include "fileinfo.h"
#include "gdsbt.h"
#include "gdsfhead.h"
#include "filestruct.h"
#include "gdscc.h"
#include "io.h"
#include "iottdef.h"
#include "jnl.h"
#include <rtnhdr.h>
#include "stack_frame.h"
#include "stringpool.h"
#include "svnames.h"
#include "buddy_list.h" /* needed for tp.h */
#include "hashtab_int4.h" /* needed for tp.h */
#include "tp.h"
#include "error.h"
#include "op.h"
#include "mvalconv.h"
#include "zroutines.h"
#include "getstorage.h"
#include "get_command_line.h"
#include "getzposition.h"
#include "getzprocess.h"
#include "get_ret_targ.h"
#include "mv_stent.h"
#include "dollar_zlevel.h"
#include "gtmmsg.h"
#include "error_trap.h"
#include "setzdir.h"
#include "get_reference.h"
#include "dollar_quit.h"
#ifdef UNIX
# include "iormdef.h"
# ifdef DEBUG
# include "wbox_test_init.h"
# endif
#endif
#define ESC_OFFSET 4
#define MAX_COMMAND_LINE_LENGTH 255
GBLREF mval dollar_zproc;
GBLREF mval dollar_zdir;
GBLREF stack_frame *frame_pointer;
GBLREF mval dollar_estack_delta;
GBLREF spdesc stringpool;
GBLREF io_pair io_curr_device;
GBLREF io_log_name *io_root_log_name;
GBLREF io_log_name *dollar_principal;
GBLREF mval dollar_ztrap;
GBLREF mval dollar_zgbldir;
GBLREF mval dollar_job;
GBLREF uint4 dollar_zjob;
GBLREF mval dollar_zstatus;
GBLREF mval dollar_zstep;
GBLREF mval dollar_zsource;
GBLREF int4 dollar_zsystem;
GBLREF int4 dollar_zeditor;
GBLREF uint4 dollar_tlevel;
GBLREF uint4 dollar_trestart;
GBLREF mval dollar_etrap;
GBLREF mval dollar_zerror;
GBLREF mval dollar_zyerror;
GBLREF mval dollar_system;
GBLREF mval dollar_zinterrupt;
GBLREF boolean_t dollar_zininterrupt;
GBLREF int4 zdir_form;
GBLREF boolean_t ztrap_explicit_null; /* whether $ZTRAP was explicitly set to NULL in this frame */
GBLREF mval dollar_ztexit;
GBLREF size_t totalAlloc;
GBLREF size_t totalRmalloc;
GBLREF size_t totalUsed;
GBLREF size_t totalAllocGta;
GBLREF size_t totalRallocGta;
GBLREF size_t totalUsedGta;
GBLREF mstr dollar_zchset;
GBLREF mstr dollar_zpatnumeric;
GBLREF boolean_t dollar_zquit_anyway;
#ifdef GTM_TRIGGER
GBLREF mstr *dollar_ztname;
GBLREF mval *dollar_ztdata;
GBLREF mval *dollar_ztoldval;
GBLREF mval *dollar_ztriggerop;
GBLREF mval dollar_ztslate;
GBLREF mval *dollar_ztupdate;
GBLREF mval *dollar_ztvalue;
GBLREF mval dollar_ztwormhole;
GBLREF int4 gtm_trigger_depth;
GBLREF boolean_t ztwormhole_used; /* TRUE if $ztwormhole was used by trigger code */
#endif
error_def(ERR_TEXT);
error_def(ERR_UNIMPLOP);
error_def(ERR_ZDIROUTOFSYNC);
LITREF mval literal_zero, literal_one, literal_null;
LITREF char gtm_release_name[];
LITREF int4 gtm_release_name_len;
void op_svget(int varnum, mval *v)
{
io_log_name *tl;
int count;
gtm_uint64_t ucount;
char *c1, *c2;
mval *mvp;
# ifdef UNIX
d_rm_struct *d_rm;
# endif
DCL_THREADGBL_ACCESS;
SETUP_THREADGBL_ACCESS;
# if defined(UNIX) && defined(DEBUG)
if (gtm_white_box_test_case_enabled && (WBTEST_HUGE_ALLOC == gtm_white_box_test_case_number))
{
if (1 == gtm_white_box_test_case_count)
totalAlloc = totalAllocGta = totalRmalloc = totalRallocGta = totalUsed = totalUsedGta = 0xffff;
else if (2 == gtm_white_box_test_case_count)
totalAlloc = totalAllocGta = totalRmalloc = totalRallocGta = totalUsed = totalUsedGta = 0xfffffff;
else if (3 == gtm_white_box_test_case_count)
{
# ifdef GTM64
if (8 == SIZEOF(size_t))
totalAlloc = totalAllocGta = totalRmalloc = totalRallocGta
= totalUsed = totalUsedGta = 0xfffffffffffffff;
else
# endif
totalAlloc = totalAllocGta = totalRmalloc = totalRallocGta = totalUsed = totalUsedGta = 0xfffffff;
} else
totalAlloc = totalAllocGta = totalRmalloc = totalRallocGta = totalUsed
= totalUsedGta = GTM64_ONLY(SIZEOF(size_t)) NON_GTM64_ONLY(SIZEOF(size_t) > 4 ? 4 : SIZEOF(size_t));
}
# endif
switch (varnum)
{
case SV_HOROLOG:
op_horolog(v);
break;
case SV_ZGBLDIR:
v->mvtype = MV_STR;
v->str = dollar_zgbldir.str;
break;
case SV_PRINCIPAL:
tl = dollar_principal ? dollar_principal : io_root_log_name->iod->trans_name;
v->str.addr = tl->dollar_io;
v->str.len = tl->len;
/*** The following should be in the I/O code ***/
if (ESC == *v->str.addr)
{
if (5 > v->str.len)
v->str.len = 0;
else
{
v->str.addr += ESC_OFFSET;
v->str.len -= ESC_OFFSET;
}
}
s2pool(&(v->str));
v->mvtype = MV_STR;
break;
case SV_ZIO:
v->mvtype = MV_STR;
/* NOTE: This is **NOT** equivalent to :
* io_curr_log_name->dollar_io
*/
v->str.addr = io_curr_device.in->trans_name->dollar_io;
v->str.len = io_curr_device.in->trans_name->len;
if (ESC == *v->str.addr)
{
if (5 > v->str.len)
v->str.len = 0;
else
{
v->str.addr += ESC_OFFSET;
v->str.len -= ESC_OFFSET;
}
}
s2pool(&(v->str));
break;
case SV_JOB:
*v = dollar_job;
break;
case SV_REFERENCE:
get_reference(v);
break;
case SV_SYSTEM:
*v = dollar_system;
break;
case SV_STORAGE:
/* double2mval(v, getstorage()); Causes issues with unaligned stack on x86_64 - remove until fixed */
i2mval(v, getstorage());
break;
case SV_TLEVEL:
count = (int)dollar_tlevel;
MV_FORCE_MVAL(v, count);
break;
case SV_TRESTART:
MV_FORCE_MVAL(v, (int)((MAX_VISIBLE_TRESTART < dollar_trestart) ? MAX_VISIBLE_TRESTART : dollar_trestart));
break;
case SV_X:
count = (int)io_curr_device.out->dollar.x;
MV_FORCE_MVAL(v, count);
break;
case SV_Y:
count = (int)io_curr_device.out->dollar.y;
MV_FORCE_MVAL(v, count);
break;
case SV_ZA:
count = (int)io_curr_device.in->dollar.za;
MV_FORCE_MVAL(v, count);
break;
case SV_ZB:
c1 = (char *)io_curr_device.in->dollar.zb;
c2 = c1 + SIZEOF(io_curr_device.in->dollar.zb);
ENSURE_STP_FREE_SPACE(SIZEOF(io_curr_device.in->dollar.zb));
v->mvtype = MV_STR;
v->str.addr = (char *)stringpool.free;
while (c1 < c2 && *c1)
*stringpool.free++ = *c1++;
v->str.len = INTCAST((char *)stringpool.free - v->str.addr);
break;
case SV_ZC: /****THESE ARE DUMMY VALUES ONLY!!!!!!!!!!!!!!!!!****/
MV_FORCE_MVAL(v, 0);
break;
case SV_ZCMDLINE:
get_command_line(v, TRUE); /* TRUE to indicate we want $ZCMDLINE
(i.e. processed not actual command line) */
break;
case SV_ZEOF:
# ifdef UNIX
if (rm == io_curr_device.in->type)
{
d_rm = (d_rm_struct *)io_curr_device.in->dev_sp;
if (RM_READ != d_rm->lastop)
{
*v = literal_zero;
break;
}
}
# endif
*v = io_curr_device.in->dollar.zeof ? literal_one : literal_zero;
break;
case SV_ZQUIT:
*v = dollar_zquit_anyway ? literal_one : literal_zero;
break;
case SV_IO:
v->str.addr = io_curr_device.in->name->dollar_io;
v->str.len = io_curr_device.in->name->len;
/*** The following should be in the I/O code ***/
if (ESC == *v->str.addr)
{
if (5 > v->str.len)
v->str.len = 0;
else
{
v->str.addr += ESC_OFFSET;
v->str.len -= ESC_OFFSET;
}
}
s2pool(&(v->str));
v->mvtype = MV_STR;
break;
case SV_PROMPT:
v->mvtype = MV_STR;
v->str.addr = (TREF(gtmprompt)).addr;
v->str.len = (TREF(gtmprompt)).len;
s2pool(&v->str);
break;
case SV_ZCOMPILE:
v->mvtype = MV_STR;
v->str = TREF(dollar_zcompile);
s2pool(&(v->str));
break;
case SV_ZDIR:
setzdir(NULL, v);
if (v->str.len != dollar_zdir.str.len || 0 != memcmp(v->str.addr, dollar_zdir.str.addr, v->str.len))
gtm_putmsg_csa(CSA_ARG(NULL) VARLSTCNT(6) ERR_ZDIROUTOFSYNC, 4, v->str.len, v->str.addr,
dollar_zdir.str.len, dollar_zdir.str.addr);
SKIP_DEVICE_IF_NOT_NEEDED(v);
s2pool(&(v->str));
break;
case SV_ZSTEP:
*v = dollar_zstep;
break;
case SV_ZMODE:
*v = TREF(dollar_zmode);
break;
case SV_ZMAXTPTIME:
i2mval(v, TREF(dollar_zmaxtptime));
break;
case SV_ZPOS:
getzposition(v);
break;
case SV_ZPROC:
getzprocess();
*v = dollar_zproc;
break;
case SV_ZLEVEL:
count = dollar_zlevel();
MV_FORCE_MVAL(v, count);
break;
case SV_ZROUTINES:
if (!TREF(zro_root))
zro_init();
v->mvtype = MV_STR;
v->str = TREF(dollar_zroutines);
s2pool(&(v->str));
break;
case SV_ZSOURCE:
v->mvtype = MV_STR;
v->str = dollar_zsource.str;
break;
case SV_ZSTATUS:
*v = dollar_zstatus;
s2pool(&(v->str));
break;
case SV_ZTRAP:
v->mvtype = MV_STR;
v->str = dollar_ztrap.str;
assert(!v->str.len || !ztrap_explicit_null);
s2pool(&(v->str));
break;
case SV_DEVICE:
get_dlr_device(v);
break;
case SV_KEY:
get_dlr_key(v);
break;
case SV_ZVERSION:
v->mvtype = MV_STR;
v->str.addr = (char *)gtm_release_name;
v->str.len = gtm_release_name_len;
break;
case SV_ZSYSTEM:
MV_FORCE_MVAL(v, dollar_zsystem);
break;
case SV_ZCSTATUS:
/* Maintain the external $ZCSTATUS == 1 for SUCCESS on UNIX while internal good is 0 */
MV_FORCE_MVAL(v, UNIX_ONLY((0 == TREF(dollar_zcstatus)) ? 1 : ) TREF(dollar_zcstatus));
break;
case SV_ZEDITOR:
MV_FORCE_MVAL(v, dollar_zeditor);
break;
case SV_QUIT:
MV_FORCE_MVAL(v, dollar_quit());
break;
case SV_ECODE:
ecode_get(-1, v);
break;
case SV_ESTACK:
count = (dollar_zlevel() - 1) - dollar_estack_delta.m[0];
MV_FORCE_MVAL(v, count);
break;
case SV_ETRAP:
v->mvtype = MV_STR;
v->str = dollar_etrap.str;
assert(!v->str.len || !ztrap_explicit_null);
s2pool(&(v->str));
break;
case SV_STACK:
count = (dollar_zlevel() - 1);
MV_FORCE_MVAL(v, count);
break;
case SV_ZERROR:
v->mvtype = MV_STR;
v->str = dollar_zerror.str;
s2pool(&(v->str));
break;
case SV_ZYERROR:
v->mvtype = MV_STR;
v->str = dollar_zyerror.str;
s2pool(&(v->str));
break;
case SV_ZINTERRUPT:
v->mvtype = MV_STR;
v->str = dollar_zinterrupt.str;
s2pool(&(v->str));
break;
case SV_ZININTERRUPT:
MV_FORCE_MVAL(v, dollar_zininterrupt);
break;
case SV_ZJOB:
MV_FORCE_UMVAL(v, dollar_zjob);
break;
case SV_ZDATE_FORM:
MV_FORCE_MVAL(v, TREF(zdate_form));
break;
case SV_ZTEXIT:
*v = dollar_ztexit;
break;
case SV_ZALLOCSTOR:
ucount = (gtm_uint64_t)totalAlloc + (gtm_uint64_t)totalAllocGta;
ui82mval(v, ucount);
break;
case SV_ZREALSTOR:
ucount = (gtm_uint64_t)totalRmalloc + (gtm_uint64_t)totalRallocGta;
ui82mval(v, ucount);
break;
case SV_ZUSEDSTOR:
ucount = (gtm_uint64_t)totalUsed + (gtm_uint64_t)totalUsedGta;
ui82mval(v, ucount);
break;
case SV_ZCHSET:
v->mvtype = MV_STR;
v->str = dollar_zchset;
break;
case SV_ZPATNUMERIC:
v->mvtype = MV_STR;
v->str = dollar_zpatnumeric;
break;
case SV_ZTNAME:
case SV_ZTCODE: /* deprecated */
# ifdef GTM_TRIGGER
if (NULL == dollar_ztname)
memcpy(v, &literal_null, SIZEOF(mval));
else
{
v->mvtype = MV_STR;
v->str.addr = dollar_ztname->addr;
v->str.len = dollar_ztname->len;
}
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZTDATA:
# ifdef GTM_TRIGGER
/* Value comes from GT.M, but it might be numeric and need conversion to a string */
assert(!dollar_ztdata || MV_DEFINED(dollar_ztdata));
if (NULL != dollar_ztdata)
MV_FORCE_STR(dollar_ztdata);
memcpy(v, (NULL != dollar_ztdata) ? dollar_ztdata : &literal_null, SIZEOF(mval));
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZTOLDVAL:
# ifdef GTM_TRIGGER
/* Value comes from GT.M, but it might be numeric and need conversion to a string */
assert(!dollar_ztoldval || MV_DEFINED(dollar_ztoldval));
if (NULL != dollar_ztoldval)
MV_FORCE_STR(dollar_ztoldval);
memcpy(v, (NULL != dollar_ztoldval) ? dollar_ztoldval : &literal_null, SIZEOF(mval));
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZTRIGGEROP:
# ifdef GTM_TRIGGER
/* Value comes from GT.M, but assert it's a string */
assert(!dollar_ztriggerop || (MV_STR & dollar_ztriggerop->mvtype));
memcpy(v, (NULL != dollar_ztriggerop) ? dollar_ztriggerop : &literal_null, SIZEOF(mval));
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZTUPDATE:
# ifdef GTM_TRIGGER
/* Value comes from GT.M, but if there were no delims involved, the value will be undefined, and
* we return a "literal_null".
*/
memcpy(v, ((NULL != dollar_ztupdate && (MV_STR & dollar_ztupdate->mvtype)) ? dollar_ztupdate
: &literal_null), SIZEOF(mval));
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZTVALUE:
# ifdef GTM_TRIGGER
/* Value comes from user-land so make sure things are proper */
assert(!dollar_ztvalue || MV_DEFINED(dollar_ztvalue));
if (NULL != dollar_ztvalue)
MV_FORCE_STR(dollar_ztvalue);
memcpy(v, (NULL != dollar_ztvalue) ? dollar_ztvalue : &literal_null, SIZEOF(mval));
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZTWORMHOLE:
# ifdef GTM_TRIGGER
/* Value comes from user-land so make sure things are proper */
mvp = &dollar_ztwormhole;
if (MV_DEFINED(mvp))
{
MV_FORCE_STR(mvp);
memcpy(v, mvp, SIZEOF(mval));
} else
memcpy(v, &literal_null, SIZEOF(mval));
ztwormhole_used = TRUE;
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZTSLATE:
# ifdef GTM_TRIGGER
/* Value comes from user-land so make sure things are proper */
assert(MV_DEFINED((&dollar_ztslate)));
mvp = &dollar_ztslate;
MV_FORCE_STR(mvp);
memcpy(v, mvp, SIZEOF(mval));
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZTLEVEL:
# ifdef GTM_TRIGGER
MV_FORCE_MVAL(v, gtm_trigger_depth);
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZONLNRLBK:
# ifdef UNIX
count = TREF(dollar_zonlnrlbk);
MV_FORCE_MVAL(v, count);
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZCLOSE:
# ifdef UNIX
count = TREF(dollar_zclose);
MV_FORCE_MVAL(v, count);
break;
# else
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_UNIMPLOP);
# endif
case SV_ZKEY:
get_dlr_zkey(v);
break;
default:
assertpro(FALSE);
}
}
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