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author | Sandra Loosemore <sandra@codesourcery.com> | 2008-08-12 01:00:49 +0000 |
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committer | Sandra Loosemore <sandra@codesourcery.com> | 2008-08-12 01:00:49 +0000 |
commit | 0606b73b11cc3dcbbd2d71d907dc96f29306e222 (patch) | |
tree | 833db3fc78c919bbb6bbe0a873a720e69396aea6 /gdb/doc | |
parent | 8ab3d180b1ce8b7cd8d63b3d34053b4bcd2dddaf (diff) | |
download | gdb-0606b73b11cc3dcbbd2d71d907dc96f29306e222.zip gdb-0606b73b11cc3dcbbd2d71d907dc96f29306e222.tar.gz gdb-0606b73b11cc3dcbbd2d71d907dc96f29306e222.tar.bz2 |
2008-08-11 Sandra Loosemore <sandra@codesourcery.com>
Pedro Alves <pedro@codesourcery.com>
gdb/doc
* gdb.texinfo (Threads): Move paragraph about automatic thread
selection to All-Stop Mode subsection.
(Thread Stops): Reorganize existing material into subsections.
Add introductory blurb and menu.
(Non-Stop Mode): New subsection.
(Background Execution): New subsection.
(Maintenance Commands): Add cross-references from async mode
commands to the new Background Execution section.
Diffstat (limited to 'gdb/doc')
-rw-r--r-- | gdb/doc/ChangeLog | 12 | ||||
-rw-r--r-- | gdb/doc/gdb.texinfo | 330 |
2 files changed, 282 insertions, 60 deletions
diff --git a/gdb/doc/ChangeLog b/gdb/doc/ChangeLog index 68fab78..872fe60 100644 --- a/gdb/doc/ChangeLog +++ b/gdb/doc/ChangeLog @@ -1,3 +1,15 @@ +2008-08-11 Sandra Loosemore <sandra@codesourcery.com> + Pedro Alves <pedro@codesourcery.com> + + * gdb.texinfo (Threads): Move paragraph about automatic thread + selection to All-Stop Mode subsection. + (Thread Stops): Reorganize existing material into subsections. + Add introductory blurb and menu. + (Non-Stop Mode): New subsection. + (Background Execution): New subsection. + (Maintenance Commands): Add cross-references from async mode + commands to the new Background Execution section. + 2008-08-06 Tom Tromey <tromey@redhat.com> * gdb.texinfo (Extending GDB): New chapter. diff --git a/gdb/doc/gdb.texinfo b/gdb/doc/gdb.texinfo index 891dfb2..72455f3 100644 --- a/gdb/doc/gdb.texinfo +++ b/gdb/doc/gdb.texinfo @@ -2591,15 +2591,6 @@ Show whether messages will be printed when @value{GDBN} detects that threads have started and exited. @end table -@cindex automatic thread selection -@cindex switching threads automatically -@cindex threads, automatic switching -Whenever @value{GDBN} stops your program, due to a breakpoint or a -signal, it automatically selects the thread where that breakpoint or -signal happened. @value{GDBN} alerts you to the context switch with a -message of the form @samp{[Switching to @var{systag}]} to identify the -thread. - @xref{Thread Stops,,Stopping and Starting Multi-thread Programs}, for more information about how @value{GDBN} behaves when you stop and start programs with multiple threads. @@ -4459,6 +4450,268 @@ Program a Signal}. @node Thread Stops @section Stopping and Starting Multi-thread Programs +@cindex stopped threads +@cindex threads, stopped + +@cindex continuing threads +@cindex threads, continuing + +@value{GDBN} supports debugging programs with multiple threads +(@pxref{Threads,, Debugging Programs with Multiple Threads}). There +are two modes of controlling execution of your program within the +debugger. In the default mode, referred to as @dfn{all-stop mode}, +when any thread in your program stops (for example, at a breakpoint +or while being stepped), all other threads in the program are also stopped by +@value{GDBN}. On some targets, @value{GDBN} also supports +@dfn{non-stop mode}, in which other threads can continue to run freely while +you examine the stopped thread in the debugger. + +@menu +* All-Stop Mode:: All threads stop when GDB takes control +* Non-Stop Mode:: Other threads continue to execute +* Background Execution:: Running your program asynchronously +* Thread-Specific Breakpoints:: Controlling breakpoints +* Interrupted System Calls:: GDB may interfere with system calls +@end menu + +@node All-Stop Mode +@subsection All-Stop Mode + +@cindex all-stop mode + +In all-stop mode, whenever your program stops under @value{GDBN} for any reason, +@emph{all} threads of execution stop, not just the current thread. This +allows you to examine the overall state of the program, including +switching between threads, without worrying that things may change +underfoot. + +Conversely, whenever you restart the program, @emph{all} threads start +executing. @emph{This is true even when single-stepping} with commands +like @code{step} or @code{next}. + +In particular, @value{GDBN} cannot single-step all threads in lockstep. +Since thread scheduling is up to your debugging target's operating +system (not controlled by @value{GDBN}), other threads may +execute more than one statement while the current thread completes a +single step. Moreover, in general other threads stop in the middle of a +statement, rather than at a clean statement boundary, when the program +stops. + +You might even find your program stopped in another thread after +continuing or even single-stepping. This happens whenever some other +thread runs into a breakpoint, a signal, or an exception before the +first thread completes whatever you requested. + +@cindex automatic thread selection +@cindex switching threads automatically +@cindex threads, automatic switching +Whenever @value{GDBN} stops your program, due to a breakpoint or a +signal, it automatically selects the thread where that breakpoint or +signal happened. @value{GDBN} alerts you to the context switch with a +message such as @samp{[Switching to Thread @var{n}]} to identify the +thread. + +On some OSes, you can modify @value{GDBN}'s default behavior by +locking the OS scheduler to allow only a single thread to run. + +@table @code +@item set scheduler-locking @var{mode} +@cindex scheduler locking mode +@cindex lock scheduler +Set the scheduler locking mode. If it is @code{off}, then there is no +locking and any thread may run at any time. If @code{on}, then only the +current thread may run when the inferior is resumed. The @code{step} +mode optimizes for single-stepping; it prevents other threads +from preempting the current thread while you are stepping, so that +the focus of debugging does not change unexpectedly. +Other threads only rarely (or never) get a chance to run +when you step. They are more likely to run when you @samp{next} over a +function call, and they are completely free to run when you use commands +like @samp{continue}, @samp{until}, or @samp{finish}. However, unless another +thread hits a breakpoint during its timeslice, @value{GDBN} does not change +the current thread away from the thread that you are debugging. + +@item show scheduler-locking +Display the current scheduler locking mode. +@end table + +@node Non-Stop Mode +@subsection Non-Stop Mode + +@cindex non-stop mode + +@c This section is really only a place-holder, and needs to be expanded +@c with more details. + +For some multi-threaded targets, @value{GDBN} supports an optional +mode of operation in which you can examine stopped program threads in +the debugger while other threads continue to execute freely. This +minimizes intrusion when debugging live systems, such as programs +where some threads have real-time constraints or must continue to +respond to external events. This is referred to as @dfn{non-stop} mode. + +In non-stop mode, when a thread stops to report a debugging event, +@emph{only} that thread is stopped; @value{GDBN} does not stop other +threads as well, in contrast to the all-stop mode behavior. Additionally, +execution commands such as @code{continue} and @code{step} apply by default +only to the current thread in non-stop mode, rather than all threads as +in all-stop mode. This allows you to control threads explicitly in +ways that are not possible in all-stop mode --- for example, stepping +one thread while allowing others to run freely, stepping +one thread while holding all others stopped, or stepping several threads +independently and simultaneously. + +To enter non-stop mode, use this sequence of commands before you run +or attach to your program: + +@c FIXME: can we fix this recipe to avoid the linux-async/remote-async details? + +@smallexample +# Enable the async interface. +# For target remote, use remote-async instead of linux-async. +maint set linux-async 1 + +# With non-stop, breakpoints have to be always inserted. +set breakpoint always-inserted 1 + +# If using the CLI, pagination breaks non-stop. +set pagination off + +# Finally, turn it on! +set non-stop on +@end smallexample + +You can use these commands to manipulate the non-stop mode setting: + +@table @code +@kindex set non-stop +@item set non-stop on +Enable selection of non-stop mode. +@item set non-stop off +Disable selection of non-stop mode. +@kindex show non-stop +@item show non-stop +Show the current non-stop enablement setting. +@end table + +Note these commands only reflect whether non-stop mode is enabled, +not whether the currently-executing program is being run in non-stop mode. +In particular, the @code{set non-stop} preference is only consulted when +@value{GDBN} starts or connects to the target program, and it is generally +not possible to switch modes once debugging has started. Furthermore, +since not all targets support non-stop mode, even when you have enabled +non-stop mode, @value{GDBN} may still fall back to all-stop operation by +default. + +In non-stop mode, all execution commands apply only to the current thread +by default. That is, @code{continue} only continues one thread. +To continue all threads, issue @code{continue -a} or @code{c -a}. + +You can use @value{GDBN}'s background execution commands +(@pxref{Background Execution}) to run some threads in the background +while you continue to examine or step others from @value{GDBN}. +The MI execution commands (@pxref{GDB/MI Program Execution}) are +always executed asynchronously in non-stop mode. + +Suspending execution is done with the @code{interrupt} command when +running in the background, or @kbd{Ctrl-c} during foreground execution. +In all-stop mode, this stops the whole process; +but in non-stop mode the interrupt applies only to the current thread. +To stop the whole program, use @code{interrupt -a}. + +Other execution commands do not currently support the @code{-a} option. + +In non-stop mode, when a thread stops, @value{GDBN} doesn't automatically make +that thread current, as it does in all-stop mode. This is because the +thread stop notifications are asynchronous with respect to @value{GDBN}'s +command interpreter, and it would be confusing if @value{GDBN} unexpectedly +changed to a different thread just as you entered a command to operate on the +previously current thread. + +@node Background Execution +@subsection Background Execution + +@cindex foreground execution +@cindex background execution +@cindex asynchronous execution +@cindex execution, foreground, background and asynchronous + +@value{GDBN}'s execution commands have two variants: the normal +foreground (synchronous) behavior, and a background +(asynchronous) behavior. In foreground execution, @value{GDBN} waits for +the program to report that some thread has stopped before prompting for +another command. In background execution, @value{GDBN} immediately gives +a command prompt so that you can issue other commands while your program runs. + +To specify background execution, add a @code{&} to the command. For example, +the background form of the @code{continue} command is @code{continue&}, or +just @code{c&}. The execution commands that accept background execution +are: + +@table @code +@kindex run& +@item run +@xref{Starting, , Starting your Program}. + +@item attach +@kindex attach& +@xref{Attach, , Debugging an Already-running Process}. + +@item step +@kindex step& +@xref{Continuing and Stepping, step}. + +@item stepi +@kindex stepi& +@xref{Continuing and Stepping, stepi}. + +@item next +@kindex next& +@xref{Continuing and Stepping, next}. + +@item continue +@kindex continue& +@xref{Continuing and Stepping, continue}. + +@item finish +@kindex finish& +@xref{Continuing and Stepping, finish}. + +@item until +@kindex until& +@xref{Continuing and Stepping, until}. + +@end table + +Background execution is especially useful in conjunction with non-stop +mode for debugging programs with multiple threads; see @ref{Non-Stop Mode}. +However, you can also use these commands in the normal all-stop mode with +the restriction that you cannot issue another execution command until the +previous one finishes. Examples of commands that are valid in all-stop +mode while the program is running include @code{help} and @code{info break}. + +You can interrupt your program while it is running in the background by +using the @code{interrupt} command. + +@table @code +@kindex interrupt +@item interrupt +@itemx interrupt -a + +Suspend execution of the running program. In all-stop mode, +@code{interrupt} stops the whole process, but in non-stop mode, it stops +only the current thread. To stop the whole program in non-stop mode, +use @code{interrupt -a}. +@end table + +You may need to explicitly enable async mode before you can use background +execution commands. @xref{Maintenance Commands}, for details. If the +target doesn't support async mode, @value{GDBN} issues an error message +if you attempt to use the background execution commands. + +@node Thread-Specific Breakpoints +@subsection Thread-Specific Breakpoints + When your program has multiple threads (@pxref{Threads,, Debugging Programs with Multiple Threads}), you can choose whether to set breakpoints on all threads, or on a particular thread. @@ -4493,18 +4746,14 @@ breakpoint condition, like this: @end table -@cindex stopped threads -@cindex threads, stopped -Whenever your program stops under @value{GDBN} for any reason, -@emph{all} threads of execution stop, not just the current thread. This -allows you to examine the overall state of the program, including -switching between threads, without worrying that things may change -underfoot. +@node Interrupted System Calls +@subsection Interrupted System Calls @cindex thread breakpoints and system calls @cindex system calls and thread breakpoints @cindex premature return from system calls -There is an unfortunate side effect. If one thread stops for a +There is an unfortunate side effect when using @value{GDBN} to debug +multi-threaded programs. If one thread stops for a breakpoint, or for some other reason, and another thread is blocked in a system call, then the system call may return prematurely. This is a consequence of the interaction between multiple threads and the signals @@ -4542,47 +4791,6 @@ monitor certain events such as thread creation and thread destruction. When such an event happens, a system call in another thread may return prematurely, even though your program does not appear to stop. -@cindex continuing threads -@cindex threads, continuing -Conversely, whenever you restart the program, @emph{all} threads start -executing. @emph{This is true even when single-stepping} with commands -like @code{step} or @code{next}. - -In particular, @value{GDBN} cannot single-step all threads in lockstep. -Since thread scheduling is up to your debugging target's operating -system (not controlled by @value{GDBN}), other threads may -execute more than one statement while the current thread completes a -single step. Moreover, in general other threads stop in the middle of a -statement, rather than at a clean statement boundary, when the program -stops. - -You might even find your program stopped in another thread after -continuing or even single-stepping. This happens whenever some other -thread runs into a breakpoint, a signal, or an exception before the -first thread completes whatever you requested. - -On some OSes, you can lock the OS scheduler and thus allow only a single -thread to run. - -@table @code -@item set scheduler-locking @var{mode} -@cindex scheduler locking mode -@cindex lock scheduler -Set the scheduler locking mode. If it is @code{off}, then there is no -locking and any thread may run at any time. If @code{on}, then only the -current thread may run when the inferior is resumed. The @code{step} -mode optimizes for single-stepping. It stops other threads from -``seizing the prompt'' by preempting the current thread while you are -stepping. Other threads will only rarely (or never) get a chance to run -when you step. They are more likely to run when you @samp{next} over a -function call, and they are completely free to run when you use commands -like @samp{continue}, @samp{until}, or @samp{finish}. However, unless another -thread hits a breakpoint during its timeslice, they will never steal the -@value{GDBN} prompt away from the thread that you are debugging. - -@item show scheduler-locking -Display the current scheduler locking mode. -@end table @node Stack @@ -23849,7 +24057,8 @@ compiled with the @samp{-pg} compiler option. @cindex asynchronous support @item maint set linux-async @itemx maint show linux-async -Control the GNU/Linux native asynchronous support of @value{GDBN}. +Control the GNU/Linux native asynchronous support +(@pxref{Background Execution}) of @value{GDBN}. GNU/Linux native asynchronous support will be disabled until you use the @samp{maint set linux-async} command to enable it. @@ -23859,7 +24068,8 @@ the @samp{maint set linux-async} command to enable it. @cindex asynchronous support @item maint set remote-async @itemx maint show remote-async -Control the remote asynchronous support of @value{GDBN}. +Control the remote asynchronous support +(@pxref{Background Execution}) of @value{GDBN}. Remote asynchronous support will be disabled until you use the @samp{maint set remote-async} command to enable it. |