src/ia64/Gresume-ia64.c - platform/external/libunwind - Gitiles

 /* libunwind - a platform-independent unwind library
    Copyright (C) 2001-2004 Hewlett-Packard Co
 	Contributed by David Mosberger-Tang <davidm@hpl.hp.com>

 This file is part of libunwind.

 Permission is hereby granted, free of charge, to any person obtaining
 a copy of this software and associated documentation files (the
 "Software"), to deal in the Software without restriction, including
 without limitation the rights to use, copy, modify, merge, publish,
 distribute, sublicense, and/or sell copies of the Software, and to
 permit persons to whom the Software is furnished to do so, subject to
 the following conditions:

 The above copyright notice and this permission notice shall be
 included in all copies or substantial portions of the Software.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
 LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
 OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
 WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.  */

 #include <stdlib.h>

 #include "rse.h"
 #include "unwind_i.h"
 #include "offsets.h"

 #ifndef UNW_REMOTE_ONLY

 static inline int
 local_resume (unw_addr_space_t as, unw_cursor_t *cursor, void *arg)
 {
 #if defined(__linux)
   unw_word_t val, sol, sof, pri_unat, n, pfs;
   struct cursor *c = (struct cursor *) cursor;
   struct
     {
       unw_word_t r1;
       unw_word_t r4;
       unw_word_t r5;
       unw_word_t r6;
       unw_word_t r7;
       unw_word_t r15;
       unw_word_t r16;
       unw_word_t r17;
       unw_word_t r18;
     }
   extra;
   int ret;
 # define GET_NAT(n)						\
   do								\
     {								\
       ret = tdep_access_reg (c, UNW_IA64_NAT + (n), &val, 0);	\
       if (ret < 0)						\
 	return ret;						\
       if (val)							\
 	pri_unat |= (unw_word_t) 1 << n;			\
     }								\
   while (0)

   /* ensure c->pi is up-to-date: */
   if ((ret = ia64_make_proc_info (c)) < 0)
     return ret;

   /* Copy contents of r4-r7 into "extra", so that their values end up
      contiguous, so we can use a single (primary-) UNaT value.  */
   if ((ret = ia64_get (c, c->loc[IA64_REG_R4], &extra.r4)) < 0
       || (ret = ia64_get (c, c->loc[IA64_REG_R5], &extra.r5)) < 0
       || (ret = ia64_get (c, c->loc[IA64_REG_R6], &extra.r6)) < 0
       || (ret = ia64_get (c, c->loc[IA64_REG_R7], &extra.r7)) < 0)
     return ret;

   /* Form the primary UNaT value: */
   pri_unat = 0;
   GET_NAT (4); GET_NAT(5);
   GET_NAT (6); GET_NAT(7);
   n = (((uintptr_t) &extra.r4) / 8 - 4) % 64;
   pri_unat = (pri_unat << n) | (pri_unat >> (64 - n));

   if (unlikely (c->sigcontext_addr))
     {
       struct sigcontext *sc = (struct sigcontext *) c->sigcontext_addr;
 #     define PR_SCRATCH		0xffc0	/* p6-p15 are scratch */
 #     define PR_PRESERVED	(~(PR_SCRATCH | 1))

       /* We're returning to a frame that was (either directly or
 	 indirectly) interrupted by a signal.  We have to restore
 	 _both_ "preserved" and "scratch" registers.  That doesn't
 	 leave us any registers to work with, and the only way we can
 	 achieve this is by doing a sigreturn().

 	 Note: it might be tempting to think that we don't have to
 	 restore the scratch registers when returning to a frame that
 	 was indirectly interrupted by a signal.  However, that is not
 	 safe because that frame and its descendants could have been
 	 using a special convention that stores "preserved" state in
 	 scratch registers.  For example, the Linux fsyscall
 	 convention does this with r11 (to save ar.pfs) and b6 (to
 	 save "rp"). */

       sc->sc_gr[12] = c->psp;
       c->psp = c->sigcontext_addr - c->sigcontext_off;

       sof = (c->cfm & 0x7f);
       rbs_cover_and_flush (c, sof);

       /* Clear the "in-syscall" flag, because in general we won't be
 	 returning to the interruption-point and we need all registers
 	 restored.  */
       sc->sc_flags &= ~IA64_SC_FLAG_IN_SYSCALL;
       sc->sc_ip = c->ip;
       sc->sc_cfm = c->cfm & (((unw_word_t) 1 << 38) - 1);
       sc->sc_pr = (c->pr & ~PR_SCRATCH) | (sc->sc_pr & ~PR_PRESERVED);
       if ((ret = ia64_get (c, c->loc[IA64_REG_PFS], &sc->sc_ar_pfs)) < 0
 	  || (ret = ia64_get (c, c->loc[IA64_REG_FPSR], &sc->sc_ar_fpsr)) < 0
 	  || (ret = ia64_get (c, c->loc[IA64_REG_UNAT], &sc->sc_ar_unat)) < 0)
 	return ret;

       sc->sc_gr[1] = c->pi.gp;
       if (c->eh_valid_mask & 0x1) sc->sc_gr[15] = c->eh_args[0];
       if (c->eh_valid_mask & 0x2) sc->sc_gr[16] = c->eh_args[1];
       if (c->eh_valid_mask & 0x4) sc->sc_gr[17] = c->eh_args[2];
       if (c->eh_valid_mask & 0x8) sc->sc_gr[18] = c->eh_args[3];
       Debug (9, "sc: r15=%lx,r16=%lx,r17=%lx,r18=%lx\n",
 	     (long) sc->sc_gr[15], (long) sc->sc_gr[16],
 	     (long) sc->sc_gr[17], (long) sc->sc_gr[18]);
     }
   else
     {
       /* Account for the fact that _Uia64_install_context() will
 	 return via br.ret, which will decrement bsp by size-of-locals.  */
       if ((ret = ia64_get (c, c->loc[IA64_REG_PFS], &pfs)) < 0)
 	return ret;
       sol = (pfs >> 7) & 0x7f;
       rbs_cover_and_flush (c, sol);

       extra.r1 = c->pi.gp;
       extra.r15 = c->eh_args[0];
       extra.r16 = c->eh_args[1];
       extra.r17 = c->eh_args[2];
       extra.r18 = c->eh_args[3];
       Debug (9, "extra: r15=%lx,r16=%lx,r17=%lx,r18=%lx\n",
 	     (long) extra.r15, (long) extra.r16,
 	     (long) extra.r17, (long) extra.r18);
     }
   Debug (8, "resuming at ip=%lx\n", (long) c->ip);
   ia64_install_cursor (c, pri_unat, (unw_word_t *) &extra);
 #elif defined(__hpux)
   struct cursor *c = (struct cursor *) cursor;

   setcontext (c->as_arg);	/* should not return */
 #endif
   return -UNW_EINVAL;
 }

 HIDDEN int
 ia64_local_resume (unw_addr_space_t as, unw_cursor_t *cursor, void *arg)
 {
   return local_resume (as, cursor, arg);
 }

 #endif /* !UNW_REMOTE_ONLY */

 #ifndef UNW_LOCAL_ONLY

 static inline int
 remote_install_cursor (struct cursor *c)
 {
   int (*access_reg) (unw_addr_space_t, unw_regnum_t, unw_word_t *,
 		     int write, void *);
   int (*access_fpreg) (unw_addr_space_t, unw_regnum_t, unw_fpreg_t *,
 		       int write, void *);
   unw_fpreg_t fpval;
   unw_word_t val;
   int reg;

 #if defined(__linux) && !defined(UNW_REMOTE_ONLY)
   if (c->as == unw_local_addr_space)
     {
       /* Take a short-cut: we directly resume out of the cursor and
 	 all we need to do is make sure that all locations point to
 	 memory, not registers.  Furthermore, R4-R7 and NAT4-NAT7 are
 	 taken care of by ia64_local_resume() so they don't need to be
 	 handled here.  */
 #     define MEMIFY(preg, reg)						 \
       do {								 \
 	if (IA64_IS_REG_LOC (c->loc[(preg)]))				 \
 	  c->loc[(preg)] = IA64_LOC_ADDR ((unw_word_t)			 \
 					  tdep_uc_addr(c->as_arg, (reg), \
 						       NULL), 0);	 \
       } while (0)
       MEMIFY (IA64_REG_PR,	UNW_IA64_PR);
       MEMIFY (IA64_REG_PFS,	UNW_IA64_AR_PFS);
       MEMIFY (IA64_REG_RNAT,	UNW_IA64_AR_RNAT);
       MEMIFY (IA64_REG_UNAT,	UNW_IA64_AR_UNAT);
       MEMIFY (IA64_REG_LC,	UNW_IA64_AR_LC);
       MEMIFY (IA64_REG_FPSR,	UNW_IA64_AR_FPSR);
       MEMIFY (IA64_REG_IP,	UNW_IA64_BR + 0);
       MEMIFY (IA64_REG_B1,	UNW_IA64_BR + 1);
       MEMIFY (IA64_REG_B2,	UNW_IA64_BR + 2);
       MEMIFY (IA64_REG_B3,	UNW_IA64_BR + 3);
       MEMIFY (IA64_REG_B4,	UNW_IA64_BR + 4);
       MEMIFY (IA64_REG_B5,	UNW_IA64_BR + 5);
       MEMIFY (IA64_REG_F2,	UNW_IA64_FR + 2);
       MEMIFY (IA64_REG_F3,	UNW_IA64_FR + 3);
       MEMIFY (IA64_REG_F4,	UNW_IA64_FR + 4);
       MEMIFY (IA64_REG_F5,	UNW_IA64_FR + 5);
       MEMIFY (IA64_REG_F16,	UNW_IA64_FR + 16);
       MEMIFY (IA64_REG_F17,	UNW_IA64_FR + 17);
       MEMIFY (IA64_REG_F18,	UNW_IA64_FR + 18);
       MEMIFY (IA64_REG_F19,	UNW_IA64_FR + 19);
       MEMIFY (IA64_REG_F20,	UNW_IA64_FR + 20);
       MEMIFY (IA64_REG_F21,	UNW_IA64_FR + 21);
       MEMIFY (IA64_REG_F22,	UNW_IA64_FR + 22);
       MEMIFY (IA64_REG_F23,	UNW_IA64_FR + 23);
       MEMIFY (IA64_REG_F24,	UNW_IA64_FR + 24);
       MEMIFY (IA64_REG_F25,	UNW_IA64_FR + 25);
       MEMIFY (IA64_REG_F26,	UNW_IA64_FR + 26);
       MEMIFY (IA64_REG_F27,	UNW_IA64_FR + 27);
       MEMIFY (IA64_REG_F28,	UNW_IA64_FR + 28);
       MEMIFY (IA64_REG_F29,	UNW_IA64_FR + 29);
       MEMIFY (IA64_REG_F30,	UNW_IA64_FR + 30);
       MEMIFY (IA64_REG_F31,	UNW_IA64_FR + 31);
     }
   else
 #endif /* __linux */
     {
       access_reg = c->as->acc.access_reg;
       access_fpreg = c->as->acc.access_fpreg;

       Debug (8, "copying out cursor state\n");

       for (reg = 0; reg < UNW_REG_LAST; ++reg)
 	{
 	  if (unw_is_fpreg (reg))
 	    {
 	      if (tdep_access_fpreg (c, reg, &fpval, 0) >= 0)
 		(*access_fpreg) (c->as, reg, &fpval, 1, c->as_arg);
 	    }
 	  else
 	    {
 	      if (tdep_access_reg (c, reg, &val, 0) >= 0)
 		(*access_reg) (c->as, reg, &val, 1, c->as_arg);
 	    }
 	}
     }
   return (*c->as->acc.resume) (c->as, (unw_cursor_t *) c, c->as_arg);
 }

 #endif /* !UNW_LOCAL_ONLY */

 PROTECTED int
 unw_resume (unw_cursor_t *cursor)
 {
   struct cursor *c = (struct cursor *) cursor;

   Debug (2, "(cursor=%p)\n", c);

 #ifdef UNW_LOCAL_ONLY
   return local_resume (c->as, cursor, c->as_arg);
 #else
   return remote_install_cursor (c);
 #endif
 }
	/* libunwind - a platform-independent unwind library
	Copyright (C) 2001-2004 Hewlett-Packard Co
	Contributed by David Mosberger-Tang <davidm@hpl.hp.com>

	This file is part of libunwind.

	Permission is hereby granted, free of charge, to any person obtaining
	a copy of this software and associated documentation files (the
	"Software"), to deal in the Software without restriction, including
	without limitation the rights to use, copy, modify, merge, publish,
	distribute, sublicense, and/or sell copies of the Software, and to
	permit persons to whom the Software is furnished to do so, subject to
	the following conditions:

	The above copyright notice and this permission notice shall be
	included in all copies or substantial portions of the Software.

	THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
	EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
	MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
	NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
	LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
	OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
	WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */

	#include <stdlib.h>

	#include "rse.h"
	#include "unwind_i.h"
	#include "offsets.h"

	#ifndef UNW_REMOTE_ONLY

	static inline int
	local_resume (unw_addr_space_t as, unw_cursor_t cursor, void arg)
	{
	#if defined(__linux)
	unw_word_t val, sol, sof, pri_unat, n, pfs;
	struct cursor c = (struct cursor ) cursor;
	struct
	{
	unw_word_t r1;
	unw_word_t r4;
	unw_word_t r5;
	unw_word_t r6;
	unw_word_t r7;
	unw_word_t r15;
	unw_word_t r16;
	unw_word_t r17;
	unw_word_t r18;
	}
	extra;
	int ret;
	# define GET_NAT(n) \
	do \
	{ \
	ret = tdep_access_reg (c, UNW_IA64_NAT + (n), &val, 0); \
	if (ret < 0) \
	return ret; \
	if (val) \
	pri_unat \|= (unw_word_t) 1 << n; \
	} \
	while (0)

	/* ensure c->pi is up-to-date: */
	if ((ret = ia64_make_proc_info (c)) < 0)
	return ret;

	/* Copy contents of r4-r7 into "extra", so that their values end up
	contiguous, so we can use a single (primary-) UNaT value. */
	if ((ret = ia64_get (c, c->loc[IA64_REG_R4], &extra.r4)) < 0
	\|\| (ret = ia64_get (c, c->loc[IA64_REG_R5], &extra.r5)) < 0
	\|\| (ret = ia64_get (c, c->loc[IA64_REG_R6], &extra.r6)) < 0
	\|\| (ret = ia64_get (c, c->loc[IA64_REG_R7], &extra.r7)) < 0)
	return ret;

	/* Form the primary UNaT value: */
	pri_unat = 0;
	GET_NAT (4); GET_NAT(5);
	GET_NAT (6); GET_NAT(7);
	n = (((uintptr_t) &extra.r4) / 8 - 4) % 64;
	pri_unat = (pri_unat << n) \| (pri_unat >> (64 - n));

	if (unlikely (c->sigcontext_addr))
	{
	struct sigcontext sc = (struct sigcontext ) c->sigcontext_addr;
	# define PR_SCRATCH 0xffc0 /* p6-p15 are scratch */
	# define PR_PRESERVED (~(PR_SCRATCH \| 1))

	/* We're returning to a frame that was (either directly or
	indirectly) interrupted by a signal. We have to restore
	_both_ "preserved" and "scratch" registers. That doesn't
	leave us any registers to work with, and the only way we can
	achieve this is by doing a sigreturn().

	Note: it might be tempting to think that we don't have to
	restore the scratch registers when returning to a frame that
	was indirectly interrupted by a signal. However, that is not
	safe because that frame and its descendants could have been
	using a special convention that stores "preserved" state in
	scratch registers. For example, the Linux fsyscall
	convention does this with r11 (to save ar.pfs) and b6 (to
	save "rp"). */

	sc->sc_gr[12] = c->psp;
	c->psp = c->sigcontext_addr - c->sigcontext_off;

	sof = (c->cfm & 0x7f);
	rbs_cover_and_flush (c, sof);

	/* Clear the "in-syscall" flag, because in general we won't be
	returning to the interruption-point and we need all registers
	restored. */
	sc->sc_flags &= ~IA64_SC_FLAG_IN_SYSCALL;
	sc->sc_ip = c->ip;
	sc->sc_cfm = c->cfm & (((unw_word_t) 1 << 38) - 1);
	sc->sc_pr = (c->pr & ~PR_SCRATCH) \| (sc->sc_pr & ~PR_PRESERVED);
	if ((ret = ia64_get (c, c->loc[IA64_REG_PFS], &sc->sc_ar_pfs)) < 0
	\|\| (ret = ia64_get (c, c->loc[IA64_REG_FPSR], &sc->sc_ar_fpsr)) < 0
	\|\| (ret = ia64_get (c, c->loc[IA64_REG_UNAT], &sc->sc_ar_unat)) < 0)
	return ret;

	sc->sc_gr[1] = c->pi.gp;
	if (c->eh_valid_mask & 0x1) sc->sc_gr[15] = c->eh_args[0];
	if (c->eh_valid_mask & 0x2) sc->sc_gr[16] = c->eh_args[1];
	if (c->eh_valid_mask & 0x4) sc->sc_gr[17] = c->eh_args[2];
	if (c->eh_valid_mask & 0x8) sc->sc_gr[18] = c->eh_args[3];
	Debug (9, "sc: r15=%lx,r16=%lx,r17=%lx,r18=%lx\n",
	(long) sc->sc_gr[15], (long) sc->sc_gr[16],
	(long) sc->sc_gr[17], (long) sc->sc_gr[18]);
	}
	else
	{
	/* Account for the fact that _Uia64_install_context() will
	return via br.ret, which will decrement bsp by size-of-locals. */
	if ((ret = ia64_get (c, c->loc[IA64_REG_PFS], &pfs)) < 0)
	return ret;
	sol = (pfs >> 7) & 0x7f;
	rbs_cover_and_flush (c, sol);

	extra.r1 = c->pi.gp;
	extra.r15 = c->eh_args[0];
	extra.r16 = c->eh_args[1];
	extra.r17 = c->eh_args[2];
	extra.r18 = c->eh_args[3];
	Debug (9, "extra: r15=%lx,r16=%lx,r17=%lx,r18=%lx\n",
	(long) extra.r15, (long) extra.r16,
	(long) extra.r17, (long) extra.r18);
	}
	Debug (8, "resuming at ip=%lx\n", (long) c->ip);
	ia64_install_cursor (c, pri_unat, (unw_word_t *) &extra);
	#elif defined(__hpux)
	struct cursor c = (struct cursor ) cursor;

	setcontext (c->as_arg); /* should not return */
	#endif
	return -UNW_EINVAL;
	}

	HIDDEN int
	ia64_local_resume (unw_addr_space_t as, unw_cursor_t cursor, void arg)
	{
	return local_resume (as, cursor, arg);
	}

	#endif /* !UNW_REMOTE_ONLY */

	#ifndef UNW_LOCAL_ONLY

	static inline int
	remote_install_cursor (struct cursor *c)
	{
	int (access_reg) (unw_addr_space_t, unw_regnum_t, unw_word_t ,
	int write, void *);
	int (access_fpreg) (unw_addr_space_t, unw_regnum_t, unw_fpreg_t ,
	int write, void *);
	unw_fpreg_t fpval;
	unw_word_t val;
	int reg;

	#if defined(__linux) && !defined(UNW_REMOTE_ONLY)
	if (c->as == unw_local_addr_space)
	{
	/* Take a short-cut: we directly resume out of the cursor and
	all we need to do is make sure that all locations point to
	memory, not registers. Furthermore, R4-R7 and NAT4-NAT7 are
	taken care of by ia64_local_resume() so they don't need to be
	handled here. */
	# define MEMIFY(preg, reg) \
	do { \
	if (IA64_IS_REG_LOC (c->loc[(preg)])) \
	c->loc[(preg)] = IA64_LOC_ADDR ((unw_word_t) \
	tdep_uc_addr(c->as_arg, (reg), \
	NULL), 0); \
	} while (0)
	MEMIFY (IA64_REG_PR, UNW_IA64_PR);
	MEMIFY (IA64_REG_PFS, UNW_IA64_AR_PFS);
	MEMIFY (IA64_REG_RNAT, UNW_IA64_AR_RNAT);
	MEMIFY (IA64_REG_UNAT, UNW_IA64_AR_UNAT);
	MEMIFY (IA64_REG_LC, UNW_IA64_AR_LC);
	MEMIFY (IA64_REG_FPSR, UNW_IA64_AR_FPSR);
	MEMIFY (IA64_REG_IP, UNW_IA64_BR + 0);
	MEMIFY (IA64_REG_B1, UNW_IA64_BR + 1);
	MEMIFY (IA64_REG_B2, UNW_IA64_BR + 2);
	MEMIFY (IA64_REG_B3, UNW_IA64_BR + 3);
	MEMIFY (IA64_REG_B4, UNW_IA64_BR + 4);
	MEMIFY (IA64_REG_B5, UNW_IA64_BR + 5);
	MEMIFY (IA64_REG_F2, UNW_IA64_FR + 2);
	MEMIFY (IA64_REG_F3, UNW_IA64_FR + 3);
	MEMIFY (IA64_REG_F4, UNW_IA64_FR + 4);
	MEMIFY (IA64_REG_F5, UNW_IA64_FR + 5);
	MEMIFY (IA64_REG_F16, UNW_IA64_FR + 16);
	MEMIFY (IA64_REG_F17, UNW_IA64_FR + 17);
	MEMIFY (IA64_REG_F18, UNW_IA64_FR + 18);
	MEMIFY (IA64_REG_F19, UNW_IA64_FR + 19);
	MEMIFY (IA64_REG_F20, UNW_IA64_FR + 20);
	MEMIFY (IA64_REG_F21, UNW_IA64_FR + 21);
	MEMIFY (IA64_REG_F22, UNW_IA64_FR + 22);
	MEMIFY (IA64_REG_F23, UNW_IA64_FR + 23);
	MEMIFY (IA64_REG_F24, UNW_IA64_FR + 24);
	MEMIFY (IA64_REG_F25, UNW_IA64_FR + 25);
	MEMIFY (IA64_REG_F26, UNW_IA64_FR + 26);
	MEMIFY (IA64_REG_F27, UNW_IA64_FR + 27);
	MEMIFY (IA64_REG_F28, UNW_IA64_FR + 28);
	MEMIFY (IA64_REG_F29, UNW_IA64_FR + 29);
	MEMIFY (IA64_REG_F30, UNW_IA64_FR + 30);
	MEMIFY (IA64_REG_F31, UNW_IA64_FR + 31);
	}
	else
	#endif /* __linux */
	{
	access_reg = c->as->acc.access_reg;
	access_fpreg = c->as->acc.access_fpreg;

	Debug (8, "copying out cursor state\n");

	for (reg = 0; reg < UNW_REG_LAST; ++reg)
	{
	if (unw_is_fpreg (reg))
	{
	if (tdep_access_fpreg (c, reg, &fpval, 0) >= 0)
	(*access_fpreg) (c->as, reg, &fpval, 1, c->as_arg);
	}
	else
	{
	if (tdep_access_reg (c, reg, &val, 0) >= 0)
	(*access_reg) (c->as, reg, &val, 1, c->as_arg);
	}
	}
	}
	return (c->as->acc.resume) (c->as, (unw_cursor_t ) c, c->as_arg);
	}

	#endif /* !UNW_LOCAL_ONLY */

	PROTECTED int
	unw_resume (unw_cursor_t *cursor)
	{
	struct cursor c = (struct cursor ) cursor;

	Debug (2, "(cursor=%p)\n", c);

	#ifdef UNW_LOCAL_ONLY
	return local_resume (c->as, cursor, c->as_arg);
	#else
	return remote_install_cursor (c);
	#endif
	}