binutils-gdb/gdb/inferior.h
Elena Zannoni 666e11c5d4 2000-08-01 Elena Zannoni <ezannoni@kwikemart.cygnus.com>
* gdbarch.sh: Multiarch DO_REGISTERS_INFO macro.
        * gdbarch.h, gdbarch.c: Regenerate.
        * infcmd.c (do_registers_info): Make not static and
        unconditionalize.
        * inferior.h (do_registers_info): Export.
2000-08-01 14:48:01 +00:00

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/* Variables that describe the inferior process running under GDB:
Where it is, why it stopped, and how to step it.
Copyright 1986, 1989, 1992, 1996, 1998 Free Software Foundation, Inc.
This file is part of GDB.
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.
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.
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. */
#if !defined (INFERIOR_H)
#define INFERIOR_H 1
/* For bpstat. */
#include "breakpoint.h"
/* For enum target_signal. */
#include "target.h"
/* Structure in which to save the status of the inferior. Create/Save
through "save_inferior_status", restore through
"restore_inferior_status".
This pair of routines should be called around any transfer of
control to the inferior which you don't want showing up in your
control variables. */
struct inferior_status;
extern struct inferior_status *save_inferior_status (int);
extern void restore_inferior_status (struct inferior_status *);
extern struct cleanup *make_cleanup_restore_inferior_status (struct inferior_status *);
extern void discard_inferior_status (struct inferior_status *);
extern void write_inferior_status_register (struct inferior_status
*inf_status, int regno,
LONGEST val);
/* This macro gives the number of registers actually in use by the
inferior. This may be less than the total number of registers,
perhaps depending on the actual CPU in use or program being run.
FIXME: This could be replaced by the new MULTI_ARCH capability. */
#ifndef ARCH_NUM_REGS
#define ARCH_NUM_REGS NUM_REGS
#endif
extern void set_sigint_trap (void);
extern void clear_sigint_trap (void);
extern void set_sigio_trap (void);
extern void clear_sigio_trap (void);
/* File name for default use for standard in/out in the inferior. */
extern char *inferior_io_terminal;
/* Pid of our debugged inferior, or 0 if no inferior now. */
extern int inferior_pid;
/* Is the inferior running right now, as a result of a 'run&',
'continue&' etc command? This is used in asycn gdb to determine
whether a command that the user enters while the target is running
is allowed or not. */
extern int target_executing;
/* Are we simulating synchronous execution? This is used in async gdb
to implement the 'run', 'continue' etc commands, which will not
redisplay the prompt until the execution is actually over. */
extern int sync_execution;
/* This is only valid when inferior_pid is non-zero.
If this is 0, then exec events should be noticed and responded to
by the debugger (i.e., be reported to the user).
If this is > 0, then that many subsequent exec events should be
ignored (i.e., not be reported to the user).
*/
extern int inferior_ignoring_startup_exec_events;
/* This is only valid when inferior_ignoring_startup_exec_events is
zero.
Some targets (stupidly) report more than one exec event per actual
call to an event() system call. If only the last such exec event
need actually be noticed and responded to by the debugger (i.e.,
be reported to the user), then this is the number of "leading"
exec events which should be ignored.
*/
extern int inferior_ignoring_leading_exec_events;
/* Inferior environment. */
extern struct environ *inferior_environ;
/* Character array containing an image of the inferior programs'
registers. */
extern char *registers;
/* Character array containing the current state of each register
(unavailable<0, valid=0, invalid>0). */
extern signed char *register_valid;
extern void clear_proceed_status (void);
extern void proceed (CORE_ADDR, enum target_signal, int);
extern void kill_inferior (void);
extern void generic_mourn_inferior (void);
extern void terminal_ours (void);
extern int run_stack_dummy (CORE_ADDR, char *);
extern CORE_ADDR read_pc (void);
extern CORE_ADDR read_pc_pid (int);
extern CORE_ADDR generic_target_read_pc (int);
extern void write_pc (CORE_ADDR);
extern void write_pc_pid (CORE_ADDR, int);
extern void generic_target_write_pc (CORE_ADDR, int);
extern CORE_ADDR read_sp (void);
extern CORE_ADDR generic_target_read_sp (void);
extern void write_sp (CORE_ADDR);
extern void generic_target_write_sp (CORE_ADDR);
extern CORE_ADDR read_fp (void);
extern CORE_ADDR generic_target_read_fp (void);
extern void write_fp (CORE_ADDR);
extern void generic_target_write_fp (CORE_ADDR);
extern CORE_ADDR unsigned_pointer_to_address (struct type *type, void *buf);
extern void unsigned_address_to_pointer (struct type *type, void *buf,
CORE_ADDR addr);
extern CORE_ADDR signed_pointer_to_address (struct type *type, void *buf);
extern void address_to_signed_pointer (struct type *type, void *buf,
CORE_ADDR addr);
extern void wait_for_inferior (void);
extern void fetch_inferior_event (void *);
extern void init_wait_for_inferior (void);
extern void close_exec_file (void);
extern void reopen_exec_file (void);
/* The `resume' routine should only be called in special circumstances.
Normally, use `proceed', which handles a lot of bookkeeping. */
extern void resume (int, enum target_signal);
/* From misc files */
extern void do_registers_info (int, int);
extern void store_inferior_registers (int);
extern void fetch_inferior_registers (int);
extern void solib_create_inferior_hook (void);
extern void child_terminal_info (char *, int);
extern void term_info (char *, int);
extern void terminal_ours_for_output (void);
extern void terminal_inferior (void);
extern void terminal_init_inferior (void);
extern void terminal_init_inferior_with_pgrp (int pgrp);
/* From infptrace.c or infttrace.c */
extern int attach (int);
#if !defined(REQUIRE_ATTACH)
#define REQUIRE_ATTACH attach
#endif
#if !defined(REQUIRE_DETACH)
#define REQUIRE_DETACH(pid,siggnal) detach (siggnal)
#endif
extern void detach (int);
/* PTRACE method of waiting for inferior process. */
int ptrace_wait (int, int *);
extern void child_resume (int, int, enum target_signal);
#ifndef PTRACE_ARG3_TYPE
#define PTRACE_ARG3_TYPE int /* Correct definition for most systems. */
#endif
extern int call_ptrace (int, int, PTRACE_ARG3_TYPE, int);
extern void pre_fork_inferior (void);
/* From procfs.c */
extern int proc_iterate_over_mappings (int (*)(int, CORE_ADDR));
extern int procfs_first_available (void);
/* From fork-child.c */
extern void fork_inferior (char *, char *, char **,
void (*)(void),
void (*)(int), void (*)(void), char *);
extern void clone_and_follow_inferior (int, int *);
extern void startup_inferior (int);
/* From inflow.c */
extern void new_tty_prefork (char *);
extern int gdb_has_a_terminal (void);
/* From infrun.c */
extern void start_remote (void);
extern void normal_stop (void);
extern int signal_stop_state (int);
extern int signal_print_state (int);
extern int signal_pass_state (int);
extern int signal_stop_update (int, int);
extern int signal_print_update (int, int);
extern int signal_pass_update (int, int);
/* From infcmd.c */
extern void tty_command (char *, int);
extern void attach_command (char *, int);
/* Last signal that the inferior received (why it stopped). */
extern enum target_signal stop_signal;
/* Address at which inferior stopped. */
extern CORE_ADDR stop_pc;
/* Chain containing status of breakpoint(s) that we have stopped at. */
extern bpstat stop_bpstat;
/* Flag indicating that a command has proceeded the inferior past the
current breakpoint. */
extern int breakpoint_proceeded;
/* Nonzero if stopped due to a step command. */
extern int stop_step;
/* Nonzero if stopped due to completion of a stack dummy routine. */
extern int stop_stack_dummy;
/* Nonzero if program stopped due to a random (unexpected) signal in
inferior process. */
extern int stopped_by_random_signal;
/* Range to single step within.
If this is nonzero, respond to a single-step signal
by continuing to step if the pc is in this range.
If step_range_start and step_range_end are both 1, it means to step for
a single instruction (FIXME: it might clean up wait_for_inferior in a
minor way if this were changed to the address of the instruction and
that address plus one. But maybe not.). */
extern CORE_ADDR step_range_start; /* Inclusive */
extern CORE_ADDR step_range_end; /* Exclusive */
/* Stack frame address as of when stepping command was issued.
This is how we know when we step into a subroutine call,
and how to set the frame for the breakpoint used to step out. */
extern CORE_ADDR step_frame_address;
/* Our notion of the current stack pointer. */
extern CORE_ADDR step_sp;
/* 1 means step over all subroutine calls.
-1 means step over calls to undebuggable functions. */
extern int step_over_calls;
/* If stepping, nonzero means step count is > 1
so don't print frame next time inferior stops
if it stops due to stepping. */
extern int step_multi;
/* Nonzero means expecting a trap and caller will handle it themselves.
It is used after attach, due to attaching to a process;
when running in the shell before the child program has been exec'd;
and when running some kinds of remote stuff (FIXME?). */
extern int stop_soon_quietly;
/* Nonzero if proceed is being used for a "finish" command or a similar
situation when stop_registers should be saved. */
extern int proceed_to_finish;
/* Save register contents here when about to pop a stack dummy frame,
if-and-only-if proceed_to_finish is set.
Thus this contains the return value from the called function (assuming
values are returned in a register). */
extern char *stop_registers;
/* Nonzero if the child process in inferior_pid was attached rather
than forked. */
extern int attach_flag;
/* Sigtramp is a routine that the kernel calls (which then calls the
signal handler). On most machines it is a library routine that
is linked into the executable.
This macro, given a program counter value and the name of the
function in which that PC resides (which can be null if the
name is not known), returns nonzero if the PC and name show
that we are in sigtramp.
On most machines just see if the name is sigtramp (and if we have
no name, assume we are not in sigtramp). */
#if !defined (IN_SIGTRAMP)
#if defined (SIGTRAMP_START)
#define IN_SIGTRAMP(pc, name) \
((pc) >= SIGTRAMP_START(pc) \
&& (pc) < SIGTRAMP_END(pc) \
)
#else
#define IN_SIGTRAMP(pc, name) \
(name && STREQ ("_sigtramp", name))
#endif
#endif
/* Possible values for CALL_DUMMY_LOCATION. */
#define ON_STACK 1
#define BEFORE_TEXT_END 2
#define AFTER_TEXT_END 3
#define AT_ENTRY_POINT 4
#if !defined (USE_GENERIC_DUMMY_FRAMES)
#define USE_GENERIC_DUMMY_FRAMES 0
#endif
#if !defined (CALL_DUMMY_LOCATION)
#define CALL_DUMMY_LOCATION ON_STACK
#endif /* No CALL_DUMMY_LOCATION. */
#if !defined (CALL_DUMMY_ADDRESS)
#define CALL_DUMMY_ADDRESS() (internal_error ("CALL_DUMMY_ADDRESS"), 0)
#endif
#if !defined (CALL_DUMMY_START_OFFSET)
#define CALL_DUMMY_START_OFFSET (internal_error ("CALL_DUMMY_START_OFFSET"), 0)
#endif
#if !defined (CALL_DUMMY_BREAKPOINT_OFFSET)
#define CALL_DUMMY_BREAKPOINT_OFFSET_P (0)
#define CALL_DUMMY_BREAKPOINT_OFFSET (internal_error ("CALL_DUMMY_BREAKPOINT_OFFSET"), 0)
#endif
#if !defined CALL_DUMMY_BREAKPOINT_OFFSET_P
#define CALL_DUMMY_BREAKPOINT_OFFSET_P (1)
#endif
#if !defined (CALL_DUMMY_LENGTH)
#define CALL_DUMMY_LENGTH (internal_error ("CALL_DUMMY_LENGTH"), 0)
#endif
#if defined (CALL_DUMMY_STACK_ADJUST)
#if !defined (CALL_DUMMY_STACK_ADJUST_P)
#define CALL_DUMMY_STACK_ADJUST_P (1)
#endif
#endif
#if !defined (CALL_DUMMY_STACK_ADJUST)
#define CALL_DUMMY_STACK_ADJUST (internal_error ("CALL_DUMMY_STACK_ADJUST"), 0)
#endif
#if !defined (CALL_DUMMY_STACK_ADJUST_P)
#define CALL_DUMMY_STACK_ADJUST_P (0)
#endif
/* FIXME: cagney/2000-04-17: gdbarch should manage this. The default
shouldn't be necessary. */
#if !defined (CALL_DUMMY_P)
#if defined (CALL_DUMMY)
#define CALL_DUMMY_P 1
#else
#define CALL_DUMMY_P 0
#endif
#endif
#if !defined PUSH_DUMMY_FRAME
#define PUSH_DUMMY_FRAME (internal_error ("PUSH_DUMMY_FRAME"), 0)
#endif
#if !defined FIX_CALL_DUMMY
#define FIX_CALL_DUMMY(a1,a2,a3,a4,a5,a6,a7) (internal_error ("FIX_CALL_DUMMY"), 0)
#endif
#if !defined STORE_STRUCT_RETURN
#define STORE_STRUCT_RETURN(a1,a2) (internal_error ("STORE_STRUCT_RETURN"), 0)
#endif
/* Are we in a call dummy? */
extern int pc_in_call_dummy_before_text_end (CORE_ADDR pc, CORE_ADDR sp,
CORE_ADDR frame_address);
#if !GDB_MULTI_ARCH
#if !defined (PC_IN_CALL_DUMMY) && CALL_DUMMY_LOCATION == BEFORE_TEXT_END
#define PC_IN_CALL_DUMMY(pc, sp, frame_address) pc_in_call_dummy_before_text_end (pc, sp, frame_address)
#endif /* Before text_end. */
#endif
extern int pc_in_call_dummy_after_text_end (CORE_ADDR pc, CORE_ADDR sp,
CORE_ADDR frame_address);
#if !GDB_MULTI_ARCH
#if !defined (PC_IN_CALL_DUMMY) && CALL_DUMMY_LOCATION == AFTER_TEXT_END
#define PC_IN_CALL_DUMMY(pc, sp, frame_address) pc_in_call_dummy_after_text_end (pc, sp, frame_address)
#endif
#endif
extern int pc_in_call_dummy_on_stack (CORE_ADDR pc, CORE_ADDR sp,
CORE_ADDR frame_address);
#if !GDB_MULTI_ARCH
#if !defined (PC_IN_CALL_DUMMY) && CALL_DUMMY_LOCATION == ON_STACK
#define PC_IN_CALL_DUMMY(pc, sp, frame_address) pc_in_call_dummy_on_stack (pc, sp, frame_address)
#endif
#endif
extern int pc_in_call_dummy_at_entry_point (CORE_ADDR pc, CORE_ADDR sp,
CORE_ADDR frame_address);
#if !GDB_MULTI_ARCH
#if !defined (PC_IN_CALL_DUMMY) && CALL_DUMMY_LOCATION == AT_ENTRY_POINT
#define PC_IN_CALL_DUMMY(pc, sp, frame_address) pc_in_call_dummy_at_entry_point (pc, sp, frame_address)
#endif
#endif
/* It's often not enough for our clients to know whether the PC is merely
somewhere within the call dummy. They may need to know whether the
call dummy has actually completed. (For example, wait_for_inferior
wants to know when it should truly stop because the call dummy has
completed. If we're single-stepping because of slow watchpoints,
then we may find ourselves stopped at the entry of the call dummy,
and want to continue stepping until we reach the end.)
Note that this macro is intended for targets (like HP-UX) which
require more than a single breakpoint in their call dummies, and
therefore cannot use the CALL_DUMMY_BREAKPOINT_OFFSET mechanism.
If a target does define CALL_DUMMY_BREAKPOINT_OFFSET, then this
default implementation of CALL_DUMMY_HAS_COMPLETED is sufficient.
Else, a target may wish to supply an implementation that works in
the presense of multiple breakpoints in its call dummy.
*/
#if !defined(CALL_DUMMY_HAS_COMPLETED)
#define CALL_DUMMY_HAS_COMPLETED(pc, sp, frame_address) \
PC_IN_CALL_DUMMY((pc), (sp), (frame_address))
#endif
/* If STARTUP_WITH_SHELL is set, GDB's "run"
will attempts to start up the debugee under a shell.
This is in order for argument-expansion to occur. E.g.,
(gdb) run *
The "*" gets expanded by the shell into a list of files.
While this is a nice feature, it turns out to interact badly
with some of the catch-fork/catch-exec features we have added.
In particular, if the shell does any fork/exec's before
the exec of the target program, that can confuse GDB.
To disable this feature, set STARTUP_WITH_SHELL to 0.
To enable this feature, set STARTUP_WITH_SHELL to 1.
The catch-exec traps expected during start-up will
be 1 if target is not started up with a shell, 2 if it is.
- RT
If you disable this, you need to decrement
START_INFERIOR_TRAPS_EXPECTED in tm.h. */
#define STARTUP_WITH_SHELL 1
#if !defined(START_INFERIOR_TRAPS_EXPECTED)
#define START_INFERIOR_TRAPS_EXPECTED 2
#endif
#endif /* !defined (INFERIOR_H) */