29734269a7
[ Migrating this from Gerrit: https://gnutoolchain-gerrit.osci.io/r/c/binutils-gdb/+/321 ] I noticed that some functions in infcmd and infrun call each other and all call inferior_thread, while they could just get the thread_info pointer from their caller. That means less calls to inferior_thread, so less reliance on global state, since inferior_thread reads inferior_ptid. The paths I am unsure about are: - fetch_inferior_event calls... - step_command_fsm::should_stop calls... - prepare_one_step and - process_event_stop_test calls... - set_step_info Before this patch, prepare_one_step gets the thread pointer using inferior_thread. After this patch, it gets it from the execution_control_state structure in fetch_inferior_event. Are we sure that the thread from the execution_control_state structure is the same as the one inferior_thread would return? This code path is used when a thread completes a step, but the user had specified a step count (e.g. "step 5") so we decide to do one more step. It would be strange (and even a bug I suppose) if the thread in the ecs structure in fetch_inferior_event was not the same thread that is prepared to stepped by prepare_one_step. So I believe passing the ecs thread is fine. The same logic applies to process_event_stop_test calling set_step_info. gdb/ChangeLog: * infrun.h: Forward-declare thread_info. (set_step_info): Add thread_info parameter, add doc. * infrun.c (set_step_info): Add thread_info parameter, move doc to header. * infrun.c (process_event_stop_test): Pass thread to set_step_info call. * infcmd.c (set_step_frame): Add thread_info pointer, pass it to set_step_info. (prepare_one_step): Add thread_info parameter, pass it to set_step_frame and prepare_one_step (recursive) call. (step_1): Pass thread to prepare_one_step call. (step_command_fsm::should_stop): Pass thread to prepare_one_step. (until_next_fsm): Pass thread to set_step_frame call. (finish_command): Pass thread to set_step_info call.
329 lines
12 KiB
C++
329 lines
12 KiB
C++
/* Copyright (C) 1986-2020 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
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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 3 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, see <http://www.gnu.org/licenses/>. */
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#ifndef INFRUN_H
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#define INFRUN_H 1
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#include "symtab.h"
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#include "gdbsupport/byte-vector.h"
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struct target_waitstatus;
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struct frame_info;
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struct address_space;
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struct return_value_info;
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struct process_stratum_target;
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struct thread_info;
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/* True if we are debugging run control. */
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extern unsigned int debug_infrun;
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/* True if we are debugging displaced stepping. */
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extern bool debug_displaced;
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/* Nonzero if we want to give control to the user when we're notified
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of shared library events by the dynamic linker. */
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extern int stop_on_solib_events;
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/* True if execution commands resume all threads of all processes by
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default; otherwise, resume only threads of the current inferior
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process. */
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extern bool sched_multi;
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/* When set, stop the 'step' command if we enter a function which has
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no line number information. The normal behavior is that we step
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over such function. */
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extern bool step_stop_if_no_debug;
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/* If set, the inferior should be controlled in non-stop mode. In
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this mode, each thread is controlled independently. Execution
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commands apply only to the selected thread by default, and stop
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events stop only the thread that had the event -- the other threads
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are kept running freely. */
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extern bool non_stop;
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/* When set (default), the target should attempt to disable the
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operating system's address space randomization feature when
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starting an inferior. */
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extern bool disable_randomization;
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/* Returns a unique identifier for the current stop. This can be used
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to tell whether a command has proceeded the inferior past the
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current location. */
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extern ULONGEST get_stop_id (void);
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/* Reverse execution. */
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enum exec_direction_kind
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{
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EXEC_FORWARD,
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EXEC_REVERSE
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};
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/* The current execution direction. */
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extern enum exec_direction_kind execution_direction;
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extern void start_remote (int from_tty);
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/* Clear out all variables saying what to do when inferior is
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continued or stepped. First do this, then set the ones you want,
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then call `proceed'. STEP indicates whether we're preparing for a
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step/stepi command. */
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extern void clear_proceed_status (int step);
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extern void proceed (CORE_ADDR, enum gdb_signal);
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/* Return a ptid representing the set of threads that we will proceed,
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in the perspective of the user/frontend. We may actually resume
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fewer threads at first, e.g., if a thread is stopped at a
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breakpoint that needs stepping-off, but that should not be visible
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to the user/frontend, and neither should the frontend/user be
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allowed to proceed any of the threads that happen to be stopped for
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internal run control handling, if a previous command wanted them
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resumed. */
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extern ptid_t user_visible_resume_ptid (int step);
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/* Return the process_stratum target that we will proceed, in the
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perspective of the user/frontend. If RESUME_PTID is
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MINUS_ONE_PTID, then we'll resume all threads of all targets, so
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the function returns NULL. Otherwise, we'll be resuming a process
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or thread of the current process, so we return the current
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inferior's process stratum target. */
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extern process_stratum_target *user_visible_resume_target (ptid_t resume_ptid);
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/* Return control to GDB when the inferior stops for real. Print
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appropriate messages, remove breakpoints, give terminal our modes,
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and run the stop hook. Returns true if the stop hook proceeded the
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target, false otherwise. */
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extern int normal_stop (void);
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/* Return the cached copy of the last target/ptid/waitstatus returned
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by target_wait()/deprecated_target_wait_hook(). The data is
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actually cached by handle_inferior_event(), which gets called
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immediately after target_wait()/deprecated_target_wait_hook(). */
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extern void get_last_target_status (process_stratum_target **target,
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ptid_t *ptid,
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struct target_waitstatus *status);
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/* Set the cached copy of the last target/ptid/waitstatus. */
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extern void set_last_target_status (process_stratum_target *target, ptid_t ptid,
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struct target_waitstatus status);
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/* Clear the cached copy of the last ptid/waitstatus returned by
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target_wait(). */
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extern void nullify_last_target_wait_ptid ();
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/* Stop all threads. Only returns after everything is halted. */
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extern void stop_all_threads (void);
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extern void prepare_for_detach (void);
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extern void fetch_inferior_event (void *);
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extern void init_wait_for_inferior (void);
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extern void insert_step_resume_breakpoint_at_sal (struct gdbarch *,
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struct symtab_and_line ,
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struct frame_id);
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/* Returns true if we're trying to step past the instruction at
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ADDRESS in ASPACE. */
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extern int stepping_past_instruction_at (struct address_space *aspace,
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CORE_ADDR address);
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/* Returns true if thread whose thread number is THREAD is stepping
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over a breakpoint. */
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extern int thread_is_stepping_over_breakpoint (int thread);
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/* Returns true if we're trying to step past an instruction that
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triggers a non-steppable watchpoint. */
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extern int stepping_past_nonsteppable_watchpoint (void);
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/* Record in TP the frame and location we're currently stepping through. */
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extern void set_step_info (thread_info *tp,
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struct frame_info *frame,
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struct symtab_and_line sal);
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/* Several print_*_reason helper functions to print why the inferior
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has stopped to the passed in UIOUT. */
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/* Signal received, print why the inferior has stopped. */
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extern void print_signal_received_reason (struct ui_out *uiout,
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enum gdb_signal siggnal);
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/* Print why the inferior has stopped. We are done with a
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step/next/si/ni command, print why the inferior has stopped. */
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extern void print_end_stepping_range_reason (struct ui_out *uiout);
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/* The inferior was terminated by a signal, print why it stopped. */
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extern void print_signal_exited_reason (struct ui_out *uiout,
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enum gdb_signal siggnal);
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/* The inferior program is finished, print why it stopped. */
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extern void print_exited_reason (struct ui_out *uiout, int exitstatus);
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/* Reverse execution: target ran out of history info, print why the
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inferior has stopped. */
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extern void print_no_history_reason (struct ui_out *uiout);
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/* Print the result of a function at the end of a 'finish' command.
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RV points at an object representing the captured return value/type
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and its position in the value history. */
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extern void print_return_value (struct ui_out *uiout,
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struct return_value_info *rv);
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/* Print current location without a level number, if we have changed
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functions or hit a breakpoint. Print source line if we have one.
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If the execution command captured a return value, print it. If
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DISPLAYS is false, do not call 'do_displays'. */
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extern void print_stop_event (struct ui_out *uiout, bool displays = true);
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/* Pretty print the results of target_wait, for debugging purposes. */
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extern void print_target_wait_results (ptid_t waiton_ptid, ptid_t result_ptid,
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const struct target_waitstatus *ws);
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extern int signal_stop_state (int);
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extern int signal_print_state (int);
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extern int signal_pass_state (int);
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extern int signal_stop_update (int, int);
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extern int signal_print_update (int, int);
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extern int signal_pass_update (int, int);
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extern void update_signals_program_target (void);
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/* Clear the convenience variables associated with the exit of the
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inferior. Currently, those variables are $_exitcode and
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$_exitsignal. */
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extern void clear_exit_convenience_vars (void);
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/* Dump LEN bytes at BUF in hex to FILE, followed by a newline. */
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extern void displaced_step_dump_bytes (struct ui_file *file,
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const gdb_byte *buf, size_t len);
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extern struct displaced_step_closure *get_displaced_step_closure_by_addr
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(CORE_ADDR addr);
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extern void update_observer_mode (void);
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extern void signal_catch_update (const unsigned int *);
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/* In some circumstances we allow a command to specify a numeric
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signal. The idea is to keep these circumstances limited so that
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users (and scripts) develop portable habits. For comparison,
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POSIX.2 `kill' requires that 1,2,3,6,9,14, and 15 work (and using a
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numeric signal at all is obsolescent. We are slightly more lenient
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and allow 1-15 which should match host signal numbers on most
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systems. Use of symbolic signal names is strongly encouraged. */
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enum gdb_signal gdb_signal_from_command (int num);
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/* Enables/disables infrun's async event source in the event loop. */
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extern void infrun_async (int enable);
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/* Call infrun's event handler the next time through the event
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loop. */
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extern void mark_infrun_async_event_handler (void);
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/* The global queue of threads that need to do a step-over operation
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to get past e.g., a breakpoint. */
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extern struct thread_info *step_over_queue_head;
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/* Remove breakpoints if possible (usually that means, if everything
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is stopped). On failure, print a message. */
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extern void maybe_remove_breakpoints (void);
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/* If a UI was in sync execution mode, and now isn't, restore its
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prompt (a synchronous execution command has finished, and we're
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ready for input). */
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extern void all_uis_check_sync_execution_done (void);
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/* If a UI was in sync execution mode, and hasn't displayed the prompt
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yet, re-disable its prompt (a synchronous execution command was
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started or re-started). */
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extern void all_uis_on_sync_execution_starting (void);
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/* Base class for displaced stepping closures (the arch-specific data). */
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struct displaced_step_closure
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{
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virtual ~displaced_step_closure () = 0;
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};
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using displaced_step_closure_up = std::unique_ptr<displaced_step_closure>;
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/* A simple displaced step closure that contains only a byte buffer. */
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struct buf_displaced_step_closure : displaced_step_closure
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{
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buf_displaced_step_closure (int buf_size)
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: buf (buf_size)
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{}
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gdb::byte_vector buf;
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};
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/* Per-inferior displaced stepping state. */
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struct displaced_step_inferior_state
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{
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displaced_step_inferior_state ()
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{
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reset ();
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}
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/* Put this object back in its original state. */
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void reset ()
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{
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failed_before = 0;
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step_thread = nullptr;
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step_gdbarch = nullptr;
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step_closure.reset ();
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step_original = 0;
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step_copy = 0;
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step_saved_copy.clear ();
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}
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/* True if preparing a displaced step ever failed. If so, we won't
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try displaced stepping for this inferior again. */
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int failed_before;
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/* If this is not nullptr, this is the thread carrying out a
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displaced single-step in process PID. This thread's state will
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require fixing up once it has completed its step. */
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thread_info *step_thread;
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/* The architecture the thread had when we stepped it. */
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gdbarch *step_gdbarch;
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/* The closure provided gdbarch_displaced_step_copy_insn, to be used
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for post-step cleanup. */
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displaced_step_closure_up step_closure;
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/* The address of the original instruction, and the copy we
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made. */
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CORE_ADDR step_original, step_copy;
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/* Saved contents of copy area. */
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gdb::byte_vector step_saved_copy;
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};
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#endif /* INFRUN_H */
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