UTRACE_CONTROL(9) utrace core API UTRACE_CONTROL(9)NAME
utrace_control - control a thread being traced by a tracing engine
SYNOPSIS
int utrace_control(struct task_struct * target,
struct utrace_engine * engine,
enum utrace_resume_action action);
ARGUMENTS
target
thread to affect
engine
attached engine to affect
action
enum utrace_resume_action for thread to do
DESCRIPTION
This is how a tracing engine asks a traced thread to do something. This
call is controlled by the action argument, which has the same meaning
as the enum utrace_resume_action value returned by event reporting
callbacks.
If target is already dead (target->exit_state nonzero), all actions
except UTRACE_DETACH fail with -ESRCH.
The following sections describe each option for the action argument.
UTRACE_DETACH
After this, the engine data structure is no longer accessible, and the
thread might be reaped. The thread will start running again if it was
stopped and no longer has any attached engines that want it stopped.
If the report_reap callback may already have begun, this fails with
-ESRCH. If the report_death callback may already have begun, this fails
with -EALREADY.
If target is not already stopped, then a callback to this engine might
be in progress or about to start on another CPU. If so, then this
returns -EINPROGRESS; the detach happens as soon as the pending
callback is finished. To synchronize after an -EINPROGRESS return, see
utrace_barrier.
If target is properly stopped before utrace_control is called, then
after successful return it´s guaranteed that no more callbacks to the
engine->ops vector will be made.
The only exception is SIGKILL (and exec or group-exit by another thread
in the group), which can cause asynchronous report_death and/or
report_reap callbacks even when UTRACE_STOP was used. (In that event,
this fails with -ESRCH or -EALREADY, see above.)
UTRACE_STOP
This asks that target stop running. This returns 0 only if target is
already stopped, either for tracing or for job control. Then target
will remain stopped until another utrace_control call is made on
engine; target can be woken only by SIGKILL (or equivalent, such as
exec or termination by another thread in the same thread group).
This returns -EINPROGRESS if target is not already stopped. Then the
effect is like UTRACE_REPORT. A report_quiesce or report_signal
callback will be made soon. Your callback can then return UTRACE_STOP
to keep target stopped.
This does not interrupt system calls in progress, including ones that
sleep for a long time. For that, use UTRACE_INTERRUPT. To interrupt
system calls and then keep target stopped, your report_signal callback
can return UTRACE_STOP.
UTRACE_RESUME
Just let target continue running normally, reversing the effect of a
previous UTRACE_STOP. If another engine is keeping target stopped, then
it remains stopped until all engines let it resume. If target was not
stopped, this has no effect.
UTRACE_REPORT
This is like UTRACE_RESUME, but also ensures that there will be a
report_quiesce or report_signal callback made soon. If target had been
stopped, then there will be a callback before it resumes running
normally. If another engine is keeping target stopped, then there might
be no callbacks until all engines let it resume.
Since this is meaningless unless report_quiesce callbacks will be made,
it returns -EINVAL if engine lacks UTRACE_EVENT(QUIESCE).
UTRACE_INTERRUPT
This is like UTRACE_REPORT, but ensures that target will make a
report_signal callback before it resumes or delivers signals. If target
was in a system call or about to enter one, work in progress will be
interrupted as if by SIGSTOP. If another engine is keeping target
stopped, then there might be no callbacks until all engines let it
resume.
This gives engine an opportunity to introduce a forced signal
disposition via its report_signal callback.
UTRACE_SINGLESTEP
It´s invalid to use this unless arch_has_single_step returned true.
This is like UTRACE_RESUME, but resumes for one user instruction only.
Note that passing UTRACE_SINGLESTEP or UTRACE_BLOCKSTEP to
utrace_control or returning it from an event callback alone does not
necessarily ensure that stepping will be enabled. If there are more
callbacks made to any engine before returning to user mode, then the
resume action is chosen only by the last set of callbacks. To be sure,
enable UTRACE_EVENT(QUIESCE) and look for the report_quiesce callback
with a zero event mask, or the report_signal callback with
UTRACE_SIGNAL_REPORT.
Since this is not robust unless report_quiesce callbacks will be made,
it returns -EINVAL if engine lacks UTRACE_EVENT(QUIESCE).
UTRACE_BLOCKSTEP
It´s invalid to use this unless arch_has_block_step returned true. This
is like UTRACE_SINGLESTEP, but resumes for one whole basic block of
user instructions.
Since this is not robust unless report_quiesce callbacks will be made,
it returns -EINVAL if engine lacks UTRACE_EVENT(QUIESCE).
UTRACE_BLOCKSTEP devolves to UTRACE_SINGLESTEP when another tracing
engine is using UTRACE_SINGLESTEP at the same time.
Kernel Hackers Manual 2.6. November 2013 UTRACE_CONTROL(9)