old-cross-binutils/gdb/config/pa/nm-hppah.h

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/* Native support for HPPA-RISC machine running HPUX, for GDB.
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Copyright 1991, 1992, 1994, 1996, 1998, 1999, 2000
Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
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This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA. */
#define U_REGS_OFFSET 0
#define KERNEL_U_ADDR 0
/* What a coincidence! */
#define REGISTER_U_ADDR(addr, blockend, regno) \
{ addr = (int)(blockend) + REGISTER_BYTE (regno);}
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/* This isn't really correct, because ptrace is actually a 32-bit
interface. However, the modern HP-UX targets all really use
ttrace, which is a 64-bit interface --- a debugger running in
either 32- or 64-bit mode can debug a 64-bit process. BUT, the
code doesn't use ttrace directly --- it calls call_ptrace instead,
which is supposed to be drop-in substitute for ptrace. In other
words, they access a 64-bit system call (ttrace) through a
compatibility layer which is allegedly a 32-bit interface.
So I don't feel the least bit guilty about this. */
#define PTRACE_ARG3_TYPE CORE_ADDR
/* HPUX 8.0, in its infinite wisdom, has chosen to prototype ptrace
with five arguments, so programs written for normal ptrace lose. */
#define FIVE_ARG_PTRACE
/* We need to figure out where the text region is so that we use the
appropriate ptrace operator to manipulate text. Simply reading/writing
user space will crap out HPUX. */
#define NEED_TEXT_START_END 1
/* This macro defines the register numbers (from REGISTER_NAMES) that
are effectively unavailable to the user through ptrace(). It allows
us to include the whole register set in REGISTER_NAMES (inorder to
better support remote debugging). If it is used in
fetch/store_inferior_registers() gdb will not complain about I/O errors
on fetching these registers. If all registers in REGISTER_NAMES
are available, then return false (0). */
#define CANNOT_STORE_REGISTER(regno) \
((regno) == 0) || \
((regno) == PCSQ_HEAD_REGNUM) || \
((regno) >= PCSQ_TAIL_REGNUM && (regno) < IPSW_REGNUM) || \
((regno) > IPSW_REGNUM && (regno) < FP4_REGNUM)
/* In hppah-nat.c: */
#define FETCH_INFERIOR_REGISTERS
#define CHILD_XFER_MEMORY
#define CHILD_POST_FOLLOW_VFORK
/* While this is for use by threaded programs, it doesn't appear
* to hurt non-threaded ones. This is used in infrun.c: */
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#define PREPARE_TO_PROCEED(select_it) hppa_prepare_to_proceed()
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extern int hppa_prepare_to_proceed (void);
/* In infptrace.c or infttrace.c: */
#define CHILD_PID_TO_EXEC_FILE
#define CHILD_POST_STARTUP_INFERIOR
#define CHILD_ACKNOWLEDGE_CREATED_INFERIOR
#define CHILD_INSERT_FORK_CATCHPOINT
#define CHILD_REMOVE_FORK_CATCHPOINT
#define CHILD_INSERT_VFORK_CATCHPOINT
#define CHILD_REMOVE_VFORK_CATCHPOINT
#define CHILD_INSERT_EXEC_CATCHPOINT
#define CHILD_REMOVE_EXEC_CATCHPOINT
#define CHILD_REPORTED_EXEC_EVENTS_PER_EXEC_CALL
#define CHILD_POST_ATTACH
#define CHILD_THREAD_ALIVE
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#define CHILD_PID_TO_STR
* breakpoint.c (bpstat_stop_status): Call inferior_has_forked, inferior_has_vforked, and inferior_has_execd instead of target_has_forked, target_has_vforked, and target_has_execd. * config/pa/nm-hppah.h (CHILD_HAS_FORKED, CHILD_HAS_VFORKED) (CHILD_HAS_EXECD, CHILD_HAS_SYSCALL_EVENT): Don't define. (CHILD_WAIT): Define. (child_wait): Add prototype. * hppah-nat.c (hpux_has_forked): Rename from child_has_forked. Add prototype. (hpux_has_vforked): Likewise, from child_has_vforked. (hpux_has_execd): Likewise, from child_has_execd. (hpux_has_syscall_event): Likewise, from child_has_syscall_event. (not_same_real_pid, child_wait): New, copied from inftarg.c. Call hpux_has_forked, hpux_has_vforked, hpux_has_execd, and hpux_has_syscall_event instead of the target hooks. * infrun.c (inferior_has_forked, inferior_has_vforked) (inferior_has_execd): New functions. * inftarg.c (not_same_real_pid): Remove. (child_wait): Remove references to not_same_real_pid, target_has_forked, target_has_vforked, target_has_execd, and target_has_syscall_event. (child_has_forked, child_has_vforked, child_has_execd) (child_has_syscall_event): Remove. (init_child_ops): Remove references to child_has_forked, child_has_vforked, child_has_execd, and child_has_syscall_event. * infttrace.c (hpux_has_forked): Rename from child_has_forked. (hpux_has_vforked): Likewise, from child_has_vforked. (hpux_has_execd): Likewise, from child_has_execd. (hpux_has_syscall_event): Likewise, from child_has_syscall_event. * target.c (cleanup_target): Remove references to to_has_forked, to_has_vforked, to_has_execd, and to_has_syscall_event. (update_current_target): Likewise. (setup_target_debug): Likewise. (debug_to_has_forked): Remove. (debug_to_has_vforked): Remove. (debug_to_has_execd): Remove. (debug_to_has_syscall_event): Remove. * target.h (struct target_ops): Remove to_has_forked. to_has_vforked, to_has_execd, and to_has_syscall_event. (child_has_forked, child_has_vforked, child_has_execd) (child_has_syscall_event): Remove prototypes. (inferior_has_forked, inferior_has_vforked, inferior_has_execd): Add prototypes. (target_has_forked, target_has_vforked, target_has_execd) (target_has_syscall_event): Remove macros.
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#define CHILD_WAIT
* config/pa/nm-hppah.h (CHILD_POST_FOLLOW_INFERIOR_BY_CLONE): Don't define. (struct target_waitstatus): Add opaque definition. * corelow.c (init_core_ops): Don't set to_clone_and_follow_inferior. * exec.c (init_exec_ops): Likewise. * fork-child.c (clone_and_follow_inferior): Remove. * hppah-nat.c (child_post_follow_inferior_by_clone): Remove. * inferior.h (clone_and_follow_inferior): Remove prototype. * infrun.c (follow_fork_mode_both): Remove. (follow_fork_mode_kind_names): Remove commented out "both". (follow_inferior_fork): Remove follow_fork_mode_both support. * inftarg.c (child_clone_and_follow_inferior): Remove. (child_post_follow_inferior_by_clone): Remove. (init_child_ops): Don't set to_clone_and_follow_inferior or to_post_follow_inferior_by_clone. * target.c (default_clone_and_follow_inferior): Remove. (cleanup_target): Don't set to_clone_and_follow_inferior or to_post_follow_inferior_by_clone. (find_default_clone_and_follow_inferior): Remove. (init_dummy_target): Don't set to_clone_and_follow_inferior. (debug_to_clone_and_follow_inferior): Remove. (debug_to_post_follow_inferior_by_clone): Remove. (setup_target_debug): Don't set to_clone_and_follow_inferior or to_post_follow_inferior_by_clone. * target.h (struct target_ops): Remove to_clone_and_follow_inferior and to_post_follow_inferior_by_clone. (child_clone_and_follow_inferior): Remove prototype. (child_post_follow_inferior_by_clone): Remove prototype. (target_clone_and_follow_inferior): Remove macro. (target_post_follow_inferior_by_clone): Remove macro. (find_default_clone_and_follow_inferior): Remove prototype.
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struct target_waitstatus;
* breakpoint.c (bpstat_stop_status): Call inferior_has_forked, inferior_has_vforked, and inferior_has_execd instead of target_has_forked, target_has_vforked, and target_has_execd. * config/pa/nm-hppah.h (CHILD_HAS_FORKED, CHILD_HAS_VFORKED) (CHILD_HAS_EXECD, CHILD_HAS_SYSCALL_EVENT): Don't define. (CHILD_WAIT): Define. (child_wait): Add prototype. * hppah-nat.c (hpux_has_forked): Rename from child_has_forked. Add prototype. (hpux_has_vforked): Likewise, from child_has_vforked. (hpux_has_execd): Likewise, from child_has_execd. (hpux_has_syscall_event): Likewise, from child_has_syscall_event. (not_same_real_pid, child_wait): New, copied from inftarg.c. Call hpux_has_forked, hpux_has_vforked, hpux_has_execd, and hpux_has_syscall_event instead of the target hooks. * infrun.c (inferior_has_forked, inferior_has_vforked) (inferior_has_execd): New functions. * inftarg.c (not_same_real_pid): Remove. (child_wait): Remove references to not_same_real_pid, target_has_forked, target_has_vforked, target_has_execd, and target_has_syscall_event. (child_has_forked, child_has_vforked, child_has_execd) (child_has_syscall_event): Remove. (init_child_ops): Remove references to child_has_forked, child_has_vforked, child_has_execd, and child_has_syscall_event. * infttrace.c (hpux_has_forked): Rename from child_has_forked. (hpux_has_vforked): Likewise, from child_has_vforked. (hpux_has_execd): Likewise, from child_has_execd. (hpux_has_syscall_event): Likewise, from child_has_syscall_event. * target.c (cleanup_target): Remove references to to_has_forked, to_has_vforked, to_has_execd, and to_has_syscall_event. (update_current_target): Likewise. (setup_target_debug): Likewise. (debug_to_has_forked): Remove. (debug_to_has_vforked): Remove. (debug_to_has_execd): Remove. (debug_to_has_syscall_event): Remove. * target.h (struct target_ops): Remove to_has_forked. to_has_vforked, to_has_execd, and to_has_syscall_event. (child_has_forked, child_has_vforked, child_has_execd) (child_has_syscall_event): Remove prototypes. (inferior_has_forked, inferior_has_vforked, inferior_has_execd): Add prototypes. (target_has_forked, target_has_vforked, target_has_execd) (target_has_syscall_event): Remove macros.
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extern ptid_t child_wait (ptid_t, struct target_waitstatus *);
#define REQUIRE_ATTACH(pid) hppa_require_attach(pid)
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extern int hppa_require_attach (int);
#define REQUIRE_DETACH(pid,signal) hppa_require_detach(pid,signal)
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extern int hppa_require_detach (int, int);
/* So we can cleanly use code in infptrace.c. */
#define PT_KILL PT_EXIT
#define PT_STEP PT_SINGLE
#define PT_CONTINUE PT_CONTIN
/* FIXME HP MERGE : Previously, PT_RDUAREA. this is actually fixed
in gdb-hp-snapshot-980509 */
#define PT_READ_U PT_RUAREA
#define PT_WRITE_U PT_WUAREA
#define PT_READ_I PT_RIUSER
#define PT_READ_D PT_RDUSER
#define PT_WRITE_I PT_WIUSER
#define PT_WRITE_D PT_WDUSER
/* attach/detach works to some extent under BSD and HPUX. So long
as the process you're attaching to isn't blocked waiting on io,
blocked waiting on a signal, or in a system call things work
fine. (The problems in those cases are related to the fact that
the kernel can't provide complete register information for the
target process... Which really pisses off GDB.) */
#define ATTACH_DETACH
/* In infptrace or infttrace.c: */
/* Starting with HP-UX 10.30, support is provided (in the form of
ttrace requests) for memory-protection-based hardware watchpoints.
The 10.30 implementation of these functions reside in infttrace.c.
Stubs of these functions will be provided in infptrace.c, so that
10.20 will at least link. However, the "can I use a fast watchpoint?"
query will always return "No" for 10.20. */
#define TARGET_HAS_HARDWARE_WATCHPOINTS
/* The PA can watch any number of locations (generic routines already check
that all intermediates are in watchable memory locations). */
#define TARGET_CAN_USE_HARDWARE_WATCHPOINT(type, cnt, ot) \
hppa_can_use_hw_watchpoint(type, cnt, ot)
/* The PA can also watch memory regions of arbitrary size, since we're using
a page-protection scheme. (On some targets, apparently watch registers
are used, which can only accomodate regions of REGISTER_SIZE.) */
#define TARGET_REGION_SIZE_OK_FOR_HW_WATCHPOINT(byte_count) \
(1)
/* However, some addresses may not be profitable to use hardware to watch,
or may be difficult to understand when the addressed object is out of
scope, and hence should be unwatched. On some targets, this may have
severe performance penalties, such that we might as well use regular
watchpoints, and save (possibly precious) hardware watchpoints for other
locations.
On HP-UX, we choose not to watch stack-based addresses, because
[1] Our implementation relies on page protection traps. The granularity
of these is large and so can generate many false hits, which are expensive
to respond to.
[2] Watches of "*p" where we may not know the symbol that p points to,
make it difficult to know when the addressed object is out of scope, and
hence shouldn't be watched. Page protection that isn't removed when the
addressed object is out of scope will either degrade execution speed
(false hits) or give false triggers (when the address is recycled by
other calls).
Since either of these points results in a slow-running inferior, we might
as well use normal watchpoints, aka single-step & test. */
#define TARGET_RANGE_PROFITABLE_FOR_HW_WATCHPOINT(pid,start,len) \
hppa_range_profitable_for_hw_watchpoint(pid, start, (LONGEST)(len))
/* On HP-UX, we're using page-protection to implement hardware watchpoints.
When an instruction attempts to write to a write-protected memory page,
a SIGBUS is raised. At that point, the write has not actually occurred.
We must therefore remove page-protections; single-step the inferior (to
allow the write to happen); restore page-protections; and check whether
any watchpoint triggered.
If none did, then the write was to a "nearby" location that just happens
to fall on the same page as a watched location, and so can be ignored.
The only intended client of this macro is wait_for_inferior(), in infrun.c.
When HAVE_NONSTEPPABLE_WATCHPOINT is true, that function will take care
of the stepping & etc. */
#define STOPPED_BY_WATCHPOINT(W) \
((W.kind == TARGET_WAITKIND_STOPPED) && \
(stop_signal == TARGET_SIGNAL_BUS) && \
! stepped_after_stopped_by_watchpoint && \
bpstat_have_active_hw_watchpoints ())
/* When a hardware watchpoint triggers, we'll move the inferior past it
by removing all eventpoints; stepping past the instruction that caused
the trigger; reinserting eventpoints; and checking whether any watched
location changed. */
#define HAVE_NONSTEPPABLE_WATCHPOINT 1
/* Our implementation of "hardware" watchpoints uses memory page-protection
faults. However, HP-UX has unfortunate interactions between these and
system calls; basically, it's unsafe to have page protections on when a
syscall is running. Therefore, we also ask for notification of syscall
entries and returns. When the inferior enters a syscall, we disable
h/w watchpoints. When the inferior returns from a syscall, we reenable
h/w watchpoints.
infptrace.c supplies dummy versions of these; infttrace.c is where the
meaningful implementations are.
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*/
#define TARGET_ENABLE_HW_WATCHPOINTS(pid) \
hppa_enable_page_protection_events (pid)
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extern void hppa_enable_page_protection_events (int);
#define TARGET_DISABLE_HW_WATCHPOINTS(pid) \
hppa_disable_page_protection_events (pid)
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extern void hppa_disable_page_protection_events (int);
/* Use these macros for watchpoint insertion/deletion. */
#define target_insert_watchpoint(addr, len, type) \
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hppa_insert_hw_watchpoint (PIDGET (inferior_ptid), addr, (LONGEST)(len), type)
#define target_remove_watchpoint(addr, len, type) \
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hppa_remove_hw_watchpoint (PIDGET (inferior_ptid), addr, (LONGEST)(len), type)
/* We call our k-thread processes "threads", rather
* than processes. So we need a new way to print
* the string. Code is in hppah-nat.c.
*/
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extern char *child_pid_to_str (ptid_t);
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#define target_tid_to_str( ptid ) \
hppa_tid_to_str( ptid )
extern char *hppa_tid_to_str (ptid_t);
/* For this, ID can be either a process or thread ID, and the function
will describe it appropriately, returning the description as a printable
string.
The function that implements this macro is defined in infptrace.c and
infttrace.c.
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*/
#define target_pid_or_tid_to_str(ID) \
hppa_pid_or_tid_to_str (ID)
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extern char *hppa_pid_or_tid_to_str (ptid_t);
/* This is used when handling events caused by a call to vfork(). On ptrace-
based HP-UXs, when you resume the vforked child, the parent automagically
begins running again. To prevent this runaway, this function is used.
Note that for vfork on HP-UX, we receive three events of interest:
1. the vfork event for the new child process
2. the exit or exec event of the new child process (actually, you get
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two exec events on ptrace-based HP-UXs)
3. the vfork event for the original parent process
The first is always received first. The other two may be received in any
order; HP-UX doesn't guarantee an order.
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*/
#define ENSURE_VFORKING_PARENT_REMAINS_STOPPED(PID) \
hppa_ensure_vforking_parent_remains_stopped (PID)
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extern void hppa_ensure_vforking_parent_remains_stopped (int);
/* This is used when handling events caused by a call to vfork().
On ttrace-based HP-UXs, the parent vfork and child exec arrive more or less
together. That is, you could do two wait()s without resuming either parent
or child, and get both events.
On ptrace-based HP-UXs, you must resume the child after its exec event is
delivered or you won't get the parent's vfork. I.e., you can't just wait()
and get the parent vfork, after receiving the child exec.
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*/
#define RESUME_EXECD_VFORKING_CHILD_TO_GET_PARENT_VFORK() \
hppa_resume_execd_vforking_child_to_get_parent_vfork ()
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extern int hppa_resume_execd_vforking_child_to_get_parent_vfork (void);
#define HPUXHPPA
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#define MAY_SWITCH_FROM_INFERIOR_PID (1)
#define MAY_FOLLOW_EXEC (1)
#define USE_THREAD_STEP_NEEDED (1)