f1e7bafcec
* remote-sim.c: Include remote-utils.h. * target.h: Add comment about target_has_execution.
465 lines
17 KiB
C
465 lines
17 KiB
C
/* Interface between GDB and target environments, including files and processes
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Copyright 1990, 1991, 1992 Free Software Foundation, Inc.
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Contributed by Cygnus Support. Written by John Gilmore.
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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
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
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#if !defined (TARGET_H)
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#define TARGET_H
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/* This include file defines the interface between the main part
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of the debugger, and the part which is target-specific, or
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specific to the communications interface between us and the
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target.
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A TARGET is an interface between the debugger and a particular
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kind of file or process. Targets can be STACKED in STRATA,
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so that more than one target can potentially respond to a request.
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In particular, memory accesses will walk down the stack of targets
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until they find a target that is interested in handling that particular
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address. STRATA are artificial boundaries on the stack, within
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which particular kinds of targets live. Strata exist so that
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people don't get confused by pushing e.g. a process target and then
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a file target, and wondering why they can't see the current values
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of variables any more (the file target is handling them and they
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never get to the process target). So when you push a file target,
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it goes into the file stratum, which is always below the process
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stratum. */
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#include "bfd.h"
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enum strata {
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dummy_stratum, /* The lowest of the low */
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file_stratum, /* Executable files, etc */
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core_stratum, /* Core dump files */
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process_stratum /* Executing processes */
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};
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struct target_ops
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{
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char *to_shortname; /* Name this target type */
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char *to_longname; /* Name for printing */
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char *to_doc; /* Documentation. Does not include trailing
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newline, and starts with a one-line descrip-
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tion (probably similar to to_longname). */
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void (*to_open) PARAMS ((char *, int));
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void (*to_close) PARAMS ((int));
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void (*to_attach) PARAMS ((char *, int));
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void (*to_detach) PARAMS ((char *, int));
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void (*to_resume) PARAMS ((int, int, int));
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int (*to_wait) PARAMS ((int *));
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void (*to_fetch_registers) PARAMS ((int));
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void (*to_store_registers) PARAMS ((int));
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void (*to_prepare_to_store) PARAMS ((void));
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/* Transfer LEN bytes of memory between GDB address MYADDR and
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target address MEMADDR. If WRITE, transfer them to the target, else
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transfer them from the target. TARGET is the target from which we
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get this function.
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Return value, N, is one of the following:
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0 means that we can't handle this. If errno has been set, it is the
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error which prevented us from doing it (FIXME: What about bfd_error?).
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positive (call it N) means that we have transferred N bytes
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starting at MEMADDR. We might be able to handle more bytes
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beyond this length, but no promises.
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negative (call its absolute value N) means that we cannot
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transfer right at MEMADDR, but we could transfer at least
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something at MEMADDR + N. */
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int (*to_xfer_memory) PARAMS ((CORE_ADDR memaddr, char *myaddr,
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int len, int write,
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struct target_ops * target));
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void (*to_files_info) PARAMS ((struct target_ops *));
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int (*to_insert_breakpoint) PARAMS ((CORE_ADDR, char *));
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int (*to_remove_breakpoint) PARAMS ((CORE_ADDR, char *));
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void (*to_terminal_init) PARAMS ((void));
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void (*to_terminal_inferior) PARAMS ((void));
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void (*to_terminal_ours_for_output) PARAMS ((void));
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void (*to_terminal_ours) PARAMS ((void));
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void (*to_terminal_info) PARAMS ((char *, int));
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void (*to_kill) PARAMS ((void));
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void (*to_load) PARAMS ((char *, int));
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int (*to_lookup_symbol) PARAMS ((char *, CORE_ADDR *));
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void (*to_create_inferior) PARAMS ((char *, char *, char **));
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void (*to_mourn_inferior) PARAMS ((void));
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int (*to_can_run) PARAMS ((void));
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void (*to_notice_signals) PARAMS ((void));
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enum strata to_stratum;
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struct target_ops
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*to_next;
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int to_has_all_memory;
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int to_has_memory;
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int to_has_stack;
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int to_has_registers;
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int to_has_execution;
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struct section_table
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*to_sections;
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struct section_table
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*to_sections_end;
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int to_magic;
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/* Need sub-structure for target machine related rather than comm related? */
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};
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/* Magic number for checking ops size. If a struct doesn't end with this
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number, somebody changed the declaration but didn't change all the
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places that initialize one. */
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#define OPS_MAGIC 3840
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/* The ops structure for our "current" target process. This should
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never be NULL. If there is no target, it points to the dummy_target. */
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extern struct target_ops *current_target;
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/* Define easy words for doing these operations on our current target. */
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#define target_shortname (current_target->to_shortname)
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#define target_longname (current_target->to_longname)
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/* The open routine takes the rest of the parameters from the command,
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and (if successful) pushes a new target onto the stack.
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Targets should supply this routine, if only to provide an error message. */
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#define target_open(name, from_tty) \
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(*current_target->to_open) (name, from_tty)
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/* Does whatever cleanup is required for a target that we are no longer
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going to be calling. Argument says whether we are quitting gdb and
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should not get hung in case of errors, or whether we want a clean
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termination even if it takes a while. This routine is automatically
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always called just before a routine is popped off the target stack.
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Closing file descriptors and freeing memory are typical things it should
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do. */
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#define target_close(quitting) \
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(*current_target->to_close) (quitting)
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/* Attaches to a process on the target side. Arguments are as passed
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to the `attach' command by the user. This routine can be called
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when the target is not on the target-stack, if the target_can_run
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routine returns 1; in that case, it must push itself onto the stack.
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Upon exit, the target should be ready for normal operations, and
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should be ready to deliver the status of the process immediately
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(without waiting) to an upcoming target_wait call. */
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#define target_attach(args, from_tty) \
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(*current_target->to_attach) (args, from_tty)
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/* Takes a program previously attached to and detaches it.
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The program may resume execution (some targets do, some don't) and will
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no longer stop on signals, etc. We better not have left any breakpoints
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in the program or it'll die when it hits one. ARGS is arguments
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typed by the user (e.g. a signal to send the process). FROM_TTY
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says whether to be verbose or not. */
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extern void
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target_detach PARAMS ((char *, int));
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/* Resume execution of the target process PID. STEP says whether to
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single-step or to run free; SIGGNAL is the signal value (e.g. SIGINT) to be
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given to the target, or zero for no signal. */
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#define target_resume(pid, step, siggnal) \
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(*current_target->to_resume) (pid, step, siggnal)
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/* Wait for inferior process to do something. Return pid of child,
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or -1 in case of error; store status through argument pointer STATUS. */
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#define target_wait(status) \
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(*current_target->to_wait) (status)
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/* Fetch register REGNO, or all regs if regno == -1. No result. */
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#define target_fetch_registers(regno) \
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(*current_target->to_fetch_registers) (regno)
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/* Store at least register REGNO, or all regs if REGNO == -1.
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It can store as many registers as it wants to, so target_prepare_to_store
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must have been previously called. Calls error() if there are problems. */
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#define target_store_registers(regs) \
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(*current_target->to_store_registers) (regs)
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/* Get ready to modify the registers array. On machines which store
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individual registers, this doesn't need to do anything. On machines
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which store all the registers in one fell swoop, this makes sure
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that REGISTERS contains all the registers from the program being
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debugged. */
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#define target_prepare_to_store() \
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(*current_target->to_prepare_to_store) ()
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extern int
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target_read_string PARAMS ((CORE_ADDR, char *, int));
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extern int
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target_read_memory PARAMS ((CORE_ADDR, char *, int));
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extern int
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target_read_memory_partial PARAMS ((CORE_ADDR, char *, int, int *));
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extern int
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target_write_memory PARAMS ((CORE_ADDR, char *, int));
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extern int
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xfer_memory PARAMS ((CORE_ADDR, char *, int, int, struct target_ops *));
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extern int
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child_xfer_memory PARAMS ((CORE_ADDR, char *, int, int, struct target_ops *));
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/* Transfer LEN bytes between target address MEMADDR and GDB address MYADDR.
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Returns 0 for success, errno code for failure (which includes partial
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transfers--if you want a more useful response to partial transfers, try
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target_read_memory_partial). */
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extern int target_xfer_memory PARAMS ((CORE_ADDR memaddr, char *myaddr,
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int len, int write));
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/* From exec.c */
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extern void
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print_section_info PARAMS ((struct target_ops *, bfd *));
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/* Print a line about the current target. */
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#define target_files_info() \
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(*current_target->to_files_info) (current_target)
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/* Insert a breakpoint at address ADDR in the target machine.
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SAVE is a pointer to memory allocated for saving the
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target contents. It is guaranteed by the caller to be long enough
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to save "sizeof BREAKPOINT" bytes. Result is 0 for success, or
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an errno value. */
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#define target_insert_breakpoint(addr, save) \
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(*current_target->to_insert_breakpoint) (addr, save)
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/* Remove a breakpoint at address ADDR in the target machine.
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SAVE is a pointer to the same save area
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that was previously passed to target_insert_breakpoint.
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Result is 0 for success, or an errno value. */
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#define target_remove_breakpoint(addr, save) \
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(*current_target->to_remove_breakpoint) (addr, save)
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/* Initialize the terminal settings we record for the inferior,
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before we actually run the inferior. */
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#define target_terminal_init() \
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(*current_target->to_terminal_init) ()
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/* Put the inferior's terminal settings into effect.
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This is preparation for starting or resuming the inferior. */
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#define target_terminal_inferior() \
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(*current_target->to_terminal_inferior) ()
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/* Put some of our terminal settings into effect,
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enough to get proper results from our output,
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but do not change into or out of RAW mode
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so that no input is discarded.
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After doing this, either terminal_ours or terminal_inferior
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should be called to get back to a normal state of affairs. */
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#define target_terminal_ours_for_output() \
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(*current_target->to_terminal_ours_for_output) ()
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/* Put our terminal settings into effect.
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First record the inferior's terminal settings
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so they can be restored properly later. */
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#define target_terminal_ours() \
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(*current_target->to_terminal_ours) ()
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/* Print useful information about our terminal status, if such a thing
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exists. */
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#define target_terminal_info(arg, from_tty) \
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(*current_target->to_terminal_info) (arg, from_tty)
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/* Kill the inferior process. Make it go away. */
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#define target_kill() \
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(*current_target->to_kill) ()
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/* Load an executable file into the target process. This is expected to
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not only bring new code into the target process, but also to update
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GDB's symbol tables to match. */
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#define target_load(arg, from_tty) \
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(*current_target->to_load) (arg, from_tty)
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/* Look up a symbol in the target's symbol table. NAME is the symbol
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name. ADDRP is a CORE_ADDR * pointing to where the value of the symbol
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should be returned. The result is 0 if successful, nonzero if the
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symbol does not exist in the target environment. This function should
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not call error() if communication with the target is interrupted, since
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it is called from symbol reading, but should return nonzero, possibly
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doing a complain(). */
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#define target_lookup_symbol(name, addrp) \
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(*current_target->to_lookup_symbol) (name, addrp)
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/* Start an inferior process and set inferior_pid to its pid.
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EXEC_FILE is the file to run.
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ALLARGS is a string containing the arguments to the program.
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ENV is the environment vector to pass. Errors reported with error().
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On VxWorks and various standalone systems, we ignore exec_file. */
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#define target_create_inferior(exec_file, args, env) \
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(*current_target->to_create_inferior) (exec_file, args, env)
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/* The inferior process has died. Do what is right. */
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#define target_mourn_inferior() \
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(*current_target->to_mourn_inferior) ()
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/* Does target have enough data to do a run or attach command? */
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#define target_can_run(t) \
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((t)->to_can_run) ()
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/* post process changes to signal handling in the inferior. */
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#define target_notice_signals() \
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(*current_target->to_notice_signals) ()
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/* Pointer to next target in the chain, e.g. a core file and an exec file. */
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#define target_next \
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(current_target->to_next)
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/* Does the target include all of memory, or only part of it? This
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determines whether we look up the target chain for other parts of
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memory if this target can't satisfy a request. */
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#define target_has_all_memory \
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(current_target->to_has_all_memory)
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/* Does the target include memory? (Dummy targets don't.) */
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#define target_has_memory \
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(current_target->to_has_memory)
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/* Does the target have a stack? (Exec files don't, VxWorks doesn't, until
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we start a process.) */
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#define target_has_stack \
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(current_target->to_has_stack)
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/* Does the target have registers? (Exec files don't.) */
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#define target_has_registers \
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(current_target->to_has_registers)
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/* Does the target have execution? Can we make it jump (through
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hoops), or pop its stack a few times? FIXME: If this is to work that
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way, it needs to check whether an inferior actually exists.
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remote-udi.c and probably other targets can be the current target
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when the inferior doesn't actually exist at the moment. Right now
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this just tells us whether this target is *capable* of execution. */
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#define target_has_execution \
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(current_target->to_has_execution)
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/* Converts a process id to a string. Usually, the string just contains
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`process xyz', but on some systems it may contain
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`process xyz thread abc'. */
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#ifndef target_pid_to_str
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#define target_pid_to_str(PID) \
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normal_pid_to_str (PID)
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extern char *normal_pid_to_str PARAMS ((int pid));
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#endif
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/* Routines for maintenance of the target structures...
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add_target: Add a target to the list of all possible targets.
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push_target: Make this target the top of the stack of currently used
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targets, within its particular stratum of the stack. Result
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is 0 if now atop the stack, nonzero if not on top (maybe
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should warn user).
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unpush_target: Remove this from the stack of currently used targets,
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no matter where it is on the list. Returns 0 if no
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change, 1 if removed from stack.
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pop_target: Remove the top thing on the stack of current targets. */
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extern void
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add_target PARAMS ((struct target_ops *));
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extern int
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push_target PARAMS ((struct target_ops *));
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extern int
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unpush_target PARAMS ((struct target_ops *));
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extern void
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target_preopen PARAMS ((int));
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extern void
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pop_target PARAMS ((void));
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/* Struct section_table maps address ranges to file sections. It is
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mostly used with BFD files, but can be used without (e.g. for handling
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raw disks, or files not in formats handled by BFD). */
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struct section_table {
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CORE_ADDR addr; /* Lowest address in section */
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CORE_ADDR endaddr; /* 1+highest address in section */
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sec_ptr sec_ptr; /* BFD section pointer */
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bfd *bfd; /* BFD file pointer */
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};
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/* Builds a section table, given args BFD, SECTABLE_PTR, SECEND_PTR.
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Returns 0 if OK, 1 on error. */
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extern int
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build_section_table PARAMS ((bfd *, struct section_table **,
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struct section_table **));
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/* From mem-break.c */
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extern int
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memory_remove_breakpoint PARAMS ((CORE_ADDR, char *));
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extern int
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memory_insert_breakpoint PARAMS ((CORE_ADDR, char *));
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/* From target.c */
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void
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noprocess PARAMS ((void));
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void
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find_default_attach PARAMS ((char *, int));
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void
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find_default_create_inferior PARAMS ((char *, char *, char **));
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struct target_ops *
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find_core_target PARAMS ((void));
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#endif /* !defined (TARGET_H) */
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