fis-gtm/sr_port/op_zgoto.c

198 lines
7.4 KiB
C
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/****************************************************************
* *
* Copyright 2011, 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_stdio.h"
#include "gtm_string.h"
#include "rtnhdr.h"
#include "stack_frame.h"
#include "op.h"
#include "flush_jmp.h"
#include "dollar_zlevel.h"
#include "golevel.h"
#include "auto_zlink.h"
#include "error.h"
#include "gtmimagename.h"
#ifdef UNIX
#include "gtm_unlink_all.h"
#endif
#ifdef GTM_TRIGGER
#include "gtm_trigger_trc.h"
#endif
#ifdef VMS
#include "pdscdef.h"
#include "proc_desc.h"
#endif
GBLREF stack_frame *frame_pointer;
#ifdef GTM_TRIGGER
GBLREF boolean_t goframes_unwound_trigger;
#endif
LITREF gtmImageName gtmImageNames[];
error_def(ERR_LABELUNKNOWN);
error_def(ERR_RTNNAME);
error_def(ERR_ZGOCALLOUTIN);
error_def(ERR_ZGOTOINVLVL);
error_def(ERR_ZGOTOINVLVL2);
error_def(ERR_ZGOTOLTZERO);
error_def(ERR_ZGOTOTOOBIG);
void op_zgoto(mval *rtn_name, mval *lbl_name, int offset, int level)
{
stack_frame *fp, *fpprev, *base_frame;
int4 curlvl;
mval rtnname, lblname;
rhdtyp *rtnhdr;
lnr_tabent USHBIN_ONLY(*)*lnrptr;
char rtnname_buff[SIZEOF(mident_fixed)], lblname_buff[SIZEOF(mident_fixed)];
DEBUG_ONLY(int4 dlevel;)
/* Validate level parm */
curlvl = dollar_zlevel();
if (0 > level)
{ /* Negative level specified, means to use relative level change */
if ((-level) > curlvl)
rts_error(VARLSTCNT(1) ERR_ZGOTOLTZERO);
level += curlvl; /* Compute relative desired level */
} else
{ /* Else level is the level we wish to achieve - compute unrolls necessary */
if (0 > (curlvl - level))
/* Couldn't get to the level we were trying to unwind to */
rts_error(VARLSTCNT(1) ERR_ZGOTOTOOBIG);
}
/* Migrate mval parm contents to private buffers since the mvals could die as we unwind things */
MV_FORCE_STR(rtn_name);
MV_FORCE_STR(lbl_name);
rtnname = *rtn_name;
lblname = *lbl_name;
memcpy(rtnname_buff, rtnname.str.addr, rtnname.str.len);
rtnname.str.addr = rtnname_buff;
memcpy(lblname_buff, lblname.str.addr, lblname.str.len);
lblname.str.addr = lblname_buff;
DBGEHND((stdout, "op_zgoto: rtnname: %.*s lblname: %.*s offset: %d level: %d\n",
rtnname.str.len, rtnname.str.addr, lblname.str.len, lblname.str.addr, offset, level));
/* Validate entryref before do any unwinding */
if (0 == rtnname.str.len)
{ /* If no routine name given, take it from the currently running routine unless the label name
* is also NULL. In that case, we must be doing an indirect routine name only and the supplied name
* was NULL.
*/
if (0 == lblname.str.len)
rts_error(VARLSTCNT(1) ERR_RTNNAME);
rtnhdr = frame_pointer->rvector;
if (0 == level)
{ /* If doing unlink, recall name of routine as well as will need it later */
memcpy(rtnname_buff, rtnhdr->routine_name.addr, rtnhdr->routine_name.len);
rtnname.str.addr = rtnname_buff;
rtnname.str.len = rtnhdr->routine_name.len;
}
} else
{
rtnhdr = op_rhdaddr(&rtnname, NULL); /* Does an autozlink if necessary */
# ifdef VMS
if (PDSC_FLAGS == ((proc_desc *)rtnhdr)->flags) /* it's a procedure descriptor, not a routine header */
{
rtnhdr = (rhdtyp *)(((proc_desc *)rtnhdr)->code_address);
/* Make sure this if-test is sufficient to distinguish between procedure descriptors and routine headers */
assert(PDSC_FLAGS != ((proc_desc *)rtnhdr)->flags);
}
# endif
}
assert(NULL != rtnhdr);
lnrptr = op_labaddr(rtnhdr, &lblname, offset);
assert(NULL != lnrptr);
# ifdef VMS
/* VMS does not support unlink so any level 0 request that passes earlier checks just generates an error
* since the base frame cannot be rewritten as a GTM frame.
*/
if (0 == level)
rts_error(VARLSTCNT(1) ERR_ZGOTOINVLVL2);
# endif
# ifdef GTM_TRIGGER
if (!IS_GTM_IMAGE && (1 >= level))
/* In MUPIP (or other utility that gets trigger support in the future), levels 0 and 1 refer to
* the pseudo baseframe and initial stack levels which are not rewritable (in the case where an
* entry ref was coded) and are not resume-able (if no entry ref were specified) so we cannot
* permit ZGOTOs to these levels in a utility.
*/
rts_error(VARLSTCNT(5) ERR_ZGOTOINVLVL, 3, GTMIMAGENAMETXT(image_type), level);
# endif
# ifdef UNIX
/* One last check if we are unlinking, make sure no call-in frames exist on our stack */
if (0 == level)
{
for (fp = frame_pointer; NULL != fp; fp = fpprev)
{
fpprev = fp->old_frame_pointer;
if (!(fp->type & SFT_COUNT))
continue;
if (fp->flags & SFF_CI)
/* We have a call-in frame - cannot do unlink */
rts_error(VARLSTCNT(1) ERR_ZGOCALLOUTIN);
if (NULL == fpprev)
{ /* Next frame is some sort of base frame */
# ifdef GTM_TRIGGER
if (fp->type & SFT_TRIGR)
{ /* Have a trigger baseframe, pick up stack continuation frame_pointer stored by
*base_frame() */
fpprev = *(stack_frame **)(fp + 1);
continue;
} else
# endif
break; /* Some other base frame that stops us */
}
}
/* Full unlink/unwind requested. First unlink everything, then relink our target entryref */
gtm_unlink_all();
/* Now that everything is unwound except the frame we will rewrite when we start going forward again, we need to
* find the base frame. This frame contains the same rvector pointer that the level 1 stack frame routine has so
* it needs to also be rewritten once we link our new "1st routine". Find the base frame we will be modifying.
*/
for (base_frame = frame_pointer; ((NULL != base_frame) && (NULL != base_frame->old_frame_pointer));
base_frame = base_frame->old_frame_pointer);
assert(NULL != base_frame);
rtnhdr = op_rhdaddr(&rtnname, NULL);
assert(NULL != rtnhdr);
base_frame->rvector = rtnhdr;
lnrptr = op_labaddr(rtnhdr, &lblname, offset);
assert(NULL != lnrptr);
} else
# endif /* UNIX */
{ /* Unwind to our target level (UNIX if 0 != level and VMS [all]) */
GOLEVEL(level, TRUE); /* Unwind the trigger base frame if we run into one */
assert(level == dollar_zlevel());
}
/* Convert current stack frame to the frame for the entry ref we want to branch to */
USHBIN_ONLY(flush_jmp(rtnhdr, (unsigned char *)LINKAGE_ADR(rtnhdr), LINE_NUMBER_ADDR(rtnhdr, *lnrptr)));
/* on non-shared binary calculate the transfer address to be passed to flush_jmp as follows:
* 1) get the number stored at lnrptr; this is the offset to the line number entry
* 2) add the said offset to the address of the routine header; this is the address of line number entry
* 3) dereference the said address to get the line number of the actual program
* 4) add the said line number to the address of the routine header
*/
NON_USHBIN_ONLY(flush_jmp(rtnhdr, (unsigned char *)LINKAGE_ADR(rtnhdr),
(unsigned char *)((int)rtnhdr + *(int *)((int)rtnhdr + *lnrptr))));
DBGEHND((stderr, "op_zgoto: Resuming at frame 0x"lvaddr" with type 0x%04lx\n", frame_pointer, frame_pointer->type));
# ifdef GTM_TRIGGER
if (goframes_unwound_trigger)
{ /* If goframes() called by golevel unwound a trigger base frame, we must use MUM_TSTART to unroll the
* C stack before invoking the return frame. Otherwise we can just return and avoid the overhead that
* MUM_TSTART incurs.
*/
MUM_TSTART;
}
# endif
}