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binutils-gdb/gdb/config/pa/nm-hppab.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

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// OBSOLETE /* HPPA PA-RISC machine native support for BSD, for GDB.
// OBSOLETE Copyright 1991, 1992, 1993, 1994, 1995, 2002 Free Software Foundation, Inc.
// OBSOLETE
// OBSOLETE This file is part of GDB.
// OBSOLETE
// OBSOLETE This program is free software; you can redistribute it and/or modify
// OBSOLETE it under the terms of the GNU General Public License as published by
// OBSOLETE the Free Software Foundation; either version 2 of the License, or
// OBSOLETE (at your option) any later version.
// OBSOLETE
// OBSOLETE This program is distributed in the hope that it will be useful,
// OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of
// OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// OBSOLETE GNU General Public License for more details.
// OBSOLETE
// OBSOLETE You should have received a copy of the GNU General Public License
// OBSOLETE along with this program; if not, write to the Free Software
// OBSOLETE Foundation, Inc., 59 Temple Place - Suite 330,
// OBSOLETE Boston, MA 02111-1307, USA. */
// OBSOLETE
// OBSOLETE #include "somsolib.h"
// OBSOLETE #include "regcache.h"
// OBSOLETE
// OBSOLETE #define U_REGS_OFFSET 0
// OBSOLETE
// OBSOLETE #define KERNEL_U_ADDR 0
// OBSOLETE
// OBSOLETE /* What a coincidence! */
// OBSOLETE #define REGISTER_U_ADDR(addr, blockend, regno) \
// OBSOLETE { addr = (int)(blockend) + REGISTER_BYTE (regno);}
// OBSOLETE
// OBSOLETE /* 3rd argument to ptrace is supposed to be a caddr_t. */
// OBSOLETE
// OBSOLETE #define PTRACE_ARG3_TYPE caddr_t
// OBSOLETE
// OBSOLETE /* HPUX 8.0, in its infinite wisdom, has chosen to prototype ptrace
// OBSOLETE with five arguments, so programs written for normal ptrace lose. */
// OBSOLETE #define FIVE_ARG_PTRACE
// OBSOLETE
// OBSOLETE
// OBSOLETE /* fetch_inferior_registers is in hppab-nat.c. */
// OBSOLETE #define FETCH_INFERIOR_REGISTERS
// OBSOLETE
// OBSOLETE /* attach/detach works to some extent under BSD and HPUX. So long
// OBSOLETE as the process you're attaching to isn't blocked waiting on io,
// OBSOLETE blocked waiting on a signal, or in a system call things work
// OBSOLETE fine. (The problems in those cases are related to the fact that
// OBSOLETE the kernel can't provide complete register information for the
// OBSOLETE target process... Which really pisses off GDB.) */
// OBSOLETE
// OBSOLETE #define ATTACH_DETACH
// OBSOLETE
// OBSOLETE /* The PA-BSD kernel has support for using the data memory break bit
// OBSOLETE to implement fast watchpoints.
// OBSOLETE
// OBSOLETE Watchpoints on the PA act much like traditional page protection
// OBSOLETE schemes, but with some notable differences.
// OBSOLETE
// OBSOLETE First, a special bit in the page table entry is used to cause
// OBSOLETE a trap when a specific page is written to. This avoids having
// OBSOLETE to overload watchpoints on the page protection bits. This makes
// OBSOLETE it possible for the kernel to easily decide if a trap was caused
// OBSOLETE by a watchpoint or by the user writing to protected memory and can
// OBSOLETE signal the user program differently in each case.
// OBSOLETE
// OBSOLETE Second, the PA has a bit in the processor status word which causes
// OBSOLETE data memory breakpoints (aka watchpoints) to be disabled for a single
// OBSOLETE instruction. This bit can be used to avoid the overhead of unprotecting
// OBSOLETE and reprotecting pages when it becomes necessary to step over a watchpoint.
// OBSOLETE
// OBSOLETE
// OBSOLETE When the kernel receives a trap indicating a write to a page which
// OBSOLETE is being watched, the kernel performs a couple of simple actions. First
// OBSOLETE is sets the magic "disable memory breakpoint" bit in the processor
// OBSOLETE status word, it then sends a SIGTRAP to the process which caused the
// OBSOLETE trap.
// OBSOLETE
// OBSOLETE GDB will take control and catch the signal for the inferior. GDB then
// OBSOLETE examines the PSW-X bit to determine if the SIGTRAP was caused by a
// OBSOLETE watchpoint firing. If so GDB single steps the inferior over the
// OBSOLETE instruction which caused the watchpoint to trigger (note because the
// OBSOLETE kernel disabled the data memory break bit for one instruction no trap
// OBSOLETE will be taken!). GDB will then determines the appropriate action to
// OBSOLETE take. (this may include restarting the inferior if the watchpoint
// OBSOLETE fired because of a write to an address on the same page as a watchpoint,
// OBSOLETE but no write to the watched address occured). */
// OBSOLETE
// OBSOLETE #define TARGET_HAS_HARDWARE_WATCHPOINTS /* Enable the code in procfs.c */
// OBSOLETE
// OBSOLETE /* The PA can watch any number of locations, there's no need for it to reject
// OBSOLETE anything (generic routines already check that all intermediates are
// OBSOLETE in memory). */
// OBSOLETE #define TARGET_CAN_USE_HARDWARE_WATCHPOINT(type, cnt, ot) \
// OBSOLETE ((type) == bp_hardware_watchpoint)
// OBSOLETE
// OBSOLETE /* When a hardware watchpoint fires off the PC will be left at the
// OBSOLETE instruction which caused the watchpoint. It will be necessary for
// OBSOLETE GDB to step over the watchpoint.
// OBSOLETE
// OBSOLETE On a PA running BSD, it is trivial to identify when it will be
// OBSOLETE necessary to step over a hardware watchpoint as we can examine
// OBSOLETE the PSW-X bit. If the bit is on, then we trapped because of a
// OBSOLETE watchpoint, else we trapped for some other reason. */
// OBSOLETE #define STOPPED_BY_WATCHPOINT(W) \
// OBSOLETE ((W).kind == TARGET_WAITKIND_STOPPED \
// OBSOLETE && (W).value.sig == TARGET_SIGNAL_TRAP \
// OBSOLETE && ((int) read_register (IPSW_REGNUM) & 0x00100000))
// OBSOLETE
// OBSOLETE /* The PA can single step over a watchpoint if the kernel has set the
// OBSOLETE "X" bit in the processor status word (disable data memory breakpoint
// OBSOLETE for one instruction).
// OBSOLETE
// OBSOLETE The kernel will always set this bit before notifying the inferior
// OBSOLETE that it hit a watchpoint. Thus, the inferior can single step over
// OBSOLETE the instruction which caused the watchpoint to fire. This avoids
// OBSOLETE the traditional need to disable the watchpoint, step the inferior,
// OBSOLETE then enable the watchpoint again. */
// OBSOLETE #define HAVE_STEPPABLE_WATCHPOINT
// OBSOLETE
// OBSOLETE /* Use these macros for watchpoint insertion/deletion. */
// OBSOLETE /* type can be 0: write watch, 1: read watch, 2: access watch (read/write) */
// OBSOLETE #define target_insert_watchpoint(addr, len, type) hppa_set_watchpoint (addr, len, 1)
// OBSOLETE #define target_remove_watchpoint(addr, len, type) hppa_set_watchpoint (addr, len, 0)
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