@c -*-texinfo-*- @c This file is part of the GDB manual. @c @c Copyright (C) 2003, 2004, 2005, 2006, 2008 @c Free Software Foundation, Inc. @c @c See the file gdbint.texinfo for copying conditions. @c @c Also, the @deftypefun lines from this file are processed into a @c header file during the GDB build process. Permission is granted @c to redistribute and/or modify those lines under the terms of the @c GNU General Public License as published by the Free Software @c Foundation; either version 2 of the License, or (at your option) @c any later version. @node GDB Observers @appendix @value{GDBN} Currently available observers @section Implementation rationale @cindex observers implementation rationale An @dfn{observer} is an entity which is interested in being notified when GDB reaches certain states, or certain events occur in GDB. The entity being observed is called the @dfn{subject}. To receive notifications, the observer attaches a callback to the subject. One subject can have several observers. @file{observer.c} implements an internal generic low-level event notification mechanism. This generic event notification mechanism is then re-used to implement the exported high-level notification management routines for all possible notifications. The current implementation of the generic observer provides support for contextual data. This contextual data is given to the subject when attaching the callback. In return, the subject will provide this contextual data back to the observer as a parameter of the callback. Note that the current support for the contextual data is only partial, as it lacks a mechanism that would deallocate this data when the callback is detached. This is not a problem so far, as this contextual data is only used internally to hold a function pointer. Later on, if a certain observer needs to provide support for user-level contextual data, then the generic notification mechanism will need to be enhanced to allow the observer to provide a routine to deallocate the data when attaching the callback. The observer implementation is also currently not reentrant. In particular, it is therefore not possible to call the attach or detach routines during a notification. @section Debugging Observer notifications can be traced using the command @samp{set debug observer 1} (@pxref{Debugging Output, , Optional messages about internal happenings, gdb, Debugging with @var{GDBN}}). @section @code{normal_stop} Notifications @cindex @code{normal_stop} observer @cindex notification about inferior execution stop @value{GDBN} notifies all @code{normal_stop} observers when the inferior execution has just stopped, the associated messages and annotations have been printed, and the control is about to be returned to the user. Note that the @code{normal_stop} notification is not emitted when the execution stops due to a breakpoint, and this breakpoint has a condition that is not met. If the breakpoint has any associated commands list, the commands are executed after the notification is emitted. The following interfaces are available to manage observers: @deftypefun extern struct observer *observer_attach_@var{event} (observer_@var{event}_ftype *@var{f}) Using the function @var{f}, create an observer that is notified when ever @var{event} occurs, return the observer. @end deftypefun @deftypefun extern void observer_detach_@var{event} (struct observer *@var{observer}); Remove @var{observer} from the list of observers to be notified when @var{event} occurs. @end deftypefun @deftypefun extern void observer_notify_@var{event} (void); Send a notification to all @var{event} observers. @end deftypefun The following observable events are defined: @deftypefun void normal_stop (struct bpstats *@var{bs}) The inferior has stopped for real. @end deftypefun @deftypefun void target_changed (struct target_ops *@var{target}) The target's register contents have changed. @end deftypefun @deftypefun void executable_changed (void) The executable being debugged by GDB has changed: The user decided to debug a different program, or the program he was debugging has been modified since being loaded by the debugger (by being recompiled, for instance). @end deftypefun @deftypefun void inferior_created (struct target_ops *@var{objfile}, int @var{from_tty}) @value{GDBN} has just connected to an inferior. For @samp{run}, @value{GDBN} calls this observer while the inferior is still stopped at the entry-point instruction. For @samp{attach} and @samp{core}, @value{GDBN} calls this observer immediately after connecting to the inferior, and before any information on the inferior has been printed. @end deftypefun @deftypefun void solib_loaded (struct so_list *@var{solib}) The shared library specified by @var{solib} has been loaded. Note that when @value{GDBN} calls this observer, the library's symbols probably haven't been loaded yet. @end deftypefun @deftypefun void solib_unloaded (struct so_list *@var{solib}) The shared library specified by @var{solib} has been unloaded. @end deftypefun @deftypefun void new_objfile (struct objfile *@var{objfile}) The symbol file specified by @var{objfile} has been loaded. Called with @var{objfile} equal to @code{NULL} to indicate previously loaded symbol table data has now been invalidated. @end deftypefun @deftypefun void new_thread (struct thread_info *@var{t}) The thread specified by @var{t} has been created. @end deftypefun @deftypefun void thread_exit (struct thread_info *@var{t}) The thread specified by @var{t} has exited. @end deftypefun @deftypefun void thread_stop_requested (ptid_t @var{ptid}) An explicit stop request was issued to @var{ptid}. If @var{ptid} equals @var{minus_one_ptid}, the request applied to all threads. If @code{ptid_is_pid(ptid)} returns true, the request applied to all threads of the process pointed at by @var{ptid}. Otherwise, the request applied to the single thread pointed at by @var{ptid}. @end deftypefun @deftypefun void target_resumed (ptid_t @var{ptid}) The target was resumed. The @var{ptid} parameter specifies which thread was resume, and may be RESUME_ALL if all threads are resumed. @end deftypefun @deftypefun void breakpoint_created (int @var{bpnum}) A new breakpoint has been created. The argument @var{bpnum} is the number of the newly-created breakpoint. @end deftypefun @deftypefun void breakpoint_deleted (int @var{bpnum}) A breakpoint has been destroyed. The argument @var{bpnum} is the number of the newly-destroyed breakpoint. @end deftypefun @deftypefun void breakpoint_modified (int @var{bpnum}) A breakpoint has been modified in some way. The argument @var{bpnum} is the number of the modified breakpoint. @end deftypefun @deftypefun void tracepoint_created (int @var{tpnum}) A new tracepoint has been created. The argument @var{tpnum} is the number of the newly-created tracepoint. @end deftypefun @deftypefun void tracepoint_deleted (int @var{tpnum}) A tracepoint has been destroyed. The argument @var{tpnum} is the number of the newly-destroyed tracepoint. @end deftypefun @deftypefun void tracepoint_modified (int @var{tpnum}) A tracepoint has been modified in some way. The argument @var{tpnum} is the number of the modified tracepoint. @end deftypefun @deftypefun void architecture_changed (struct gdbarch *@var{newarch}) The current architecture has changed. The argument @var{newarch} is a pointer to the new architecture. @end deftypefun @deftypefun void thread_ptid_changed (ptid_t @var{old_ptid}, ptid_t @var{new_ptid}) The thread's ptid has changed. The @var{old_ptid} parameter specifies the old value, and @var{new_ptid} specifies the new value. @end deftypefun