old-cross-binutils/gdb/config/pa/tm-hppao.h
Andrew Cagney 56056df735 2003-03-27 Andrew Cagney <cagney@redhat.com>
* NEWS: Mention removal of support for hppa*-*-bsd* and
	hppa*-*-osf* natives, and hppa*-*-pro* target.
	* config/pa/xm-hppah.h: Do not include "pa/xm-pa.h".
	* config/pa/xm-pa.h: Obsolete file.
	* config/pa/xm-hppab.h: Obsolete file.
	* config/pa/nm-hppab.h: Obsolete file.
	* config/pa/tm-hppab.h: Obsolete file.
	* config/pa/tm-hppao.h: Obsolete file.
	* config/pa/nm-hppao.h: Obsolete file.
	* config/pa/tm-pro.h: Obsolete file.
	* config/pa/hppaosf.mt: Obsolete file.
	* config/pa/hppaosf.mh: Obsolete file.
	* config/pa/hppapro.mt: Obsolete file.
	* config/pa/hppabsd.mt: Obsolete file.
	* config/pa/hppabsd.mh: Obsolete file.
	* configure.host: Disable hppa*-*-bsd* and hppa*-*-osf*.
	* configure.tgt: Disable hppa*-*-bsd*, hppa*-*-pro* and
	hppa*-*-osf*.
2003-03-27 15:23:17 +00:00

98 lines
4.2 KiB
C

// OBSOLETE /* Parameters for execution on an HP PA-RISC machine running OSF1, for GDB.
// OBSOLETE Contributed by the Center for Software Science at the
// OBSOLETE University of Utah (pa-gdb-bugs@cs.utah.edu). */
// OBSOLETE
// OBSOLETE #include "regcache.h"
// OBSOLETE
// OBSOLETE /* Define offsets to access CPROC stack when it does not have
// OBSOLETE * a kernel thread.
// OBSOLETE */
// OBSOLETE #define MACHINE_CPROC_SP_OFFSET 20
// OBSOLETE #define MACHINE_CPROC_PC_OFFSET 16
// OBSOLETE #define MACHINE_CPROC_FP_OFFSET 12
// OBSOLETE
// OBSOLETE /*
// OBSOLETE * Software defined PSW masks.
// OBSOLETE */
// OBSOLETE #define PSW_SS 0x10000000 /* Kernel managed single step */
// OBSOLETE
// OBSOLETE /* Thread flavors used in re-setting the T bit.
// OBSOLETE * @@ this is also bad for cross debugging.
// OBSOLETE */
// OBSOLETE #define TRACE_FLAVOR HP800_THREAD_STATE
// OBSOLETE #define TRACE_FLAVOR_SIZE HP800_THREAD_STATE_COUNT
// OBSOLETE #define TRACE_SET(x,state) \
// OBSOLETE ((struct hp800_thread_state *)state)->cr22 |= PSW_SS
// OBSOLETE #define TRACE_CLEAR(x,state) \
// OBSOLETE ((((struct hp800_thread_state *)state)->cr22 &= ~PSW_SS), 1)
// OBSOLETE
// OBSOLETE /* For OSF1 (Should be close if not identical to BSD, but I haven't
// OBSOLETE tested it yet):
// OBSOLETE
// OBSOLETE The signal context structure pointer is always saved at the base
// OBSOLETE of the frame + 0x4.
// OBSOLETE
// OBSOLETE We get the PC & SP directly from the sigcontext structure itself.
// OBSOLETE For other registers we have to dive in a little deeper:
// OBSOLETE
// OBSOLETE The hardware save state pointer is at offset 0x10 within the
// OBSOLETE signal context structure.
// OBSOLETE
// OBSOLETE Within the hardware save state, registers are found in the same order
// OBSOLETE as the register numbers in GDB. */
// OBSOLETE
// OBSOLETE #define FRAME_SAVED_PC_IN_SIGTRAMP(FRAME, TMP) \
// OBSOLETE { \
// OBSOLETE *(TMP) = read_memory_integer ((FRAME)->frame + 0x4, 4); \
// OBSOLETE *(TMP) = read_memory_integer (*(TMP) + 0x18, 4); \
// OBSOLETE }
// OBSOLETE
// OBSOLETE #define FRAME_BASE_BEFORE_SIGTRAMP(FRAME, TMP) \
// OBSOLETE { \
// OBSOLETE *(TMP) = read_memory_integer ((FRAME)->frame + 0x4, 4); \
// OBSOLETE *(TMP) = read_memory_integer (*(TMP) + 0x8, 4); \
// OBSOLETE }
// OBSOLETE
// OBSOLETE #define FRAME_FIND_SAVED_REGS_IN_SIGTRAMP(FRAME, FSR) \
// OBSOLETE { \
// OBSOLETE int i; \
// OBSOLETE CORE_ADDR TMP; \
// OBSOLETE TMP = read_memory_integer ((FRAME)->frame + 0x4, 4); \
// OBSOLETE TMP = read_memory_integer (TMP + 0x10, 4); \
// OBSOLETE for (i = 0; i < NUM_REGS; i++) \
// OBSOLETE { \
// OBSOLETE if (i == SP_REGNUM) \
// OBSOLETE (FSR)->regs[SP_REGNUM] = read_memory_integer (TMP + SP_REGNUM * 4, 4); \
// OBSOLETE else \
// OBSOLETE (FSR)->regs[i] = TMP + i * 4; \
// OBSOLETE } \
// OBSOLETE }
// OBSOLETE
// OBSOLETE /* OSF1 does not need the pc space queue restored. */
// OBSOLETE #define NO_PC_SPACE_QUEUE_RESTORE
// OBSOLETE
// OBSOLETE /* The mach kernel uses the recovery counter to implement single
// OBSOLETE stepping. While this greatly simplifies the kernel support
// OBSOLETE necessary for single stepping, it unfortunately does the wrong
// OBSOLETE thing in the presense of a nullified instruction (gives control
// OBSOLETE back two insns after the nullifed insn). This is an artifact
// OBSOLETE of the HP architecture (recovery counter doesn't tick for
// OBSOLETE nullified insns).
// OBSOLETE
// OBSOLETE Do our best to avoid losing in such situations. */
// OBSOLETE #define INSTRUCTION_NULLIFIED \
// OBSOLETE (({ \
// OBSOLETE int ipsw = (int)read_register(IPSW_REGNUM); \
// OBSOLETE if (ipsw & PSW_N) \
// OBSOLETE { \
// OBSOLETE int pcoqt = (int)read_register(PCOQ_TAIL_REGNUM); \
// OBSOLETE write_register(PCOQ_HEAD_REGNUM, pcoqt); \
// OBSOLETE write_register(PCOQ_TAIL_REGNUM, pcoqt + 0x4); \
// OBSOLETE write_register(IPSW_REGNUM, ipsw & ~(PSW_N | PSW_B | PSW_X)); \
// OBSOLETE stop_pc = pcoqt; \
// OBSOLETE } \
// OBSOLETE }), 0)
// OBSOLETE
// OBSOLETE /* It's mostly just the common stuff. */
// OBSOLETE
// OBSOLETE #include "pa/tm-hppa.h"