STRUCT UTRACE_ENGINE(9) utrace core API STRUCT UTRACE_ENGINE(9)NAMEstruct_utrace_engine_ops - tracing engine callbacks
SYNOPSIS
struct utrace_engine_ops {
u32 (* report_quiesce) (u32 action, struct utrace_engine *engine,unsigned long event);
u32 (* report_signal) (u32 action, struct utrace_engine *engine,struct pt_regs *regs,siginfo_t *info,const struct k_sigaction *orig_ka,struct k_sigaction *return_ka);
u32 (* report_clone) (u32 action, struct utrace_engine *engine,unsigned long clone_flags,struct task_struct *child);
u32 (* report_jctl) (u32 action, struct utrace_engine *engine,int type, int notify);
u32 (* report_exec) (u32 action, struct utrace_engine *engine,const struct linux_binfmt *fmt,const struct linux_binprm *bprm,struct pt_regs *regs);
u32 (* report_syscall_entry) (u32 action, struct utrace_engine *engine,struct pt_regs *regs);
u32 (* report_syscall_exit) (u32 action, struct utrace_engine *engine,struct pt_regs *regs);
u32 (* report_exit) (u32 action, struct utrace_engine *engine,long orig_code, long *code);
u32 (* report_death) (struct utrace_engine *engine,bool group_dead, int signal);
void (* report_reap) (struct utrace_engine *engine,struct task_struct *task);
void (* release) (void *data);
};
MEMBERS
report_quiesce
Requested by UTRACE_EVENT(QUIESCE). This does not indicate any
event, but just that current is in a safe place for examination.
This call is made before each specific event callback, except for
report_reap. The event argument gives the UTRACE_EVENT(which) value
for the event occurring. This callback might be made for events
engine has not requested, if some other engine is tracing the
event; calling utrace_set_events call here can request the
immediate callback for this occurrence of event. event is zero
when there is no other event, current is now ready to check for
signals and return to user mode, and some engine has used
UTRACE_REPORT or UTRACE_INTERRUPT to request this callback. For
this case, if report_signal is not NULL, the report_quiesce
callback may be replaced with a report_signal callback passing
UTRACE_SIGNAL_REPORT in its action argument, whenever current is
entering the signal-check path anyway.
report_signal
Requested by UTRACE_EVENT(SIGNAL_*) or UTRACE_EVENT(QUIESCE). Use
utrace_signal_action and utrace_resume_action on action. The signal
action is UTRACE_SIGNAL_REPORT when some engine has used
UTRACE_REPORT or UTRACE_INTERRUPT; the callback can choose to stop
or to deliver an artificial signal, before pending signals. It´s
UTRACE_SIGNAL_HANDLER instead when signal handler setup just
finished (after a previous UTRACE_SIGNAL_DELIVER return); this
serves in lieu of any UTRACE_SIGNAL_REPORT callback requested by
UTRACE_REPORT or UTRACE_INTERRUPT, and is also implicitly requested
by UTRACE_SINGLESTEP or UTRACE_BLOCKSTEP into the signal delivery.
The other signal actions indicate a signal about to be delivered;
the previous engine´s return value sets the signal action seen by
the the following engine´s callback. The info data can be changed
at will, including info->si_signo. The settings in return_ka
determines what UTRACE_SIGNAL_DELIVER does. orig_ka is what was in
force before other tracing engines intervened, and it´s NULL when
this report began as UTRACE_SIGNAL_REPORT or UTRACE_SIGNAL_HANDLER.
For a report without a new signal, info is left uninitialized and
must be set completely by an engine that chooses to deliver a
signal; if there was a previous report_signal callback ending in
UTRACE_STOP and it was just resumed using UTRACE_REPORT or
UTRACE_INTERRUPT, then info is left unchanged from the previous
callback. In this way, the original signal can be left in info
while returning UTRACE_STOP|UTRACE_SIGNAL_IGN and then found again
when resuming with UTRACE_INTERRUPT. The UTRACE_SIGNAL_HOLD flag
bit can be OR´d into the return value, and might be in action if
the previous engine returned it. This flag asks that the signal in
info be pushed back on current´s queue so that it will be seen
again after whatever action is taken now.
report_clone
Requested by UTRACE_EVENT(CLONE). Event reported for parent, before
the new task child might run. clone_flags gives the flags used in
the clone system call, or equivalent flags for a fork or vfork
system call. This function can use utrace_attach_task on child.
Then passing UTRACE_STOP to utrace_control on child here keeps the
child stopped before it ever runs in user mode, UTRACE_REPORT or
UTRACE_INTERRUPT ensures a callback from child before it starts in
user mode.
report_jctl
Requested by UTRACE_EVENT(JCTL). Job control event; type is
CLD_STOPPED or CLD_CONTINUED, indicating whether we are stopping or
resuming now. If notify is nonzero, current is the last thread to
stop and so will send SIGCHLD to its parent after this callback;
notify reflects what the parent´s SIGCHLD has in si_code, which can
sometimes be CLD_STOPPED even when type is CLD_CONTINUED.
report_exec
Requested by UTRACE_EVENT(EXEC). An execve system call has
succeeded and the new program is about to start running. The
initial user register state is handy to be tweaked directly in
regs. fmt and bprm gives the details of this exec.
report_syscall_entry
Requested by UTRACE_EVENT(SYSCALL_ENTRY). Thread has entered the
kernel to request a system call. The user register state is handy
to be tweaked directly in regs. The action argument contains an
enum utrace_syscall_action, use utrace_syscall_action to extract
it. The return value overrides the last engine´s action for the
system call. If the final action is UTRACE_SYSCALL_ABORT, no system
call is made. The details of the system call being attempted can be
fetched here with syscall_get_nr and syscall_get_arguments. The
parameter registers can be changed with syscall_set_arguments. See
above about the UTRACE_SYSCALL_RESUMED flag in action. Use
UTRACE_REPORT in the return value to guarantee you get another
callback (with UTRACE_SYSCALL_RESUMED flag) in case current stops
with UTRACE_STOP before attempting the system call.
report_syscall_exit
Requested by UTRACE_EVENT(SYSCALL_EXIT). Thread is about to leave
the kernel after a system call request. The user register state is
handy to be tweaked directly in regs. The results of the system
call attempt can be examined here using syscall_get_error and
syscall_get_return_value. It is safe here to call
syscall_set_return_value or syscall_rollback.
report_exit
Requested by UTRACE_EVENT(EXIT). Thread is exiting and cannot be
prevented from doing so, but all its state is still live. The code
value will be the wait result seen by the parent, and can be
changed by this engine or others. The orig_code value is the real
status, not changed by any tracing engine. Returning UTRACE_STOP
here keeps current stopped before it cleans up its state and dies,
so it can be examined by other processes. When current is allowed
to run, it will die and get to the report_death callback.
report_death
Requested by UTRACE_EVENT(DEATH). Thread is really dead now. It
might be reaped by its parent at any time, or self-reap
immediately. Though the actual reaping may happen in parallel, a
report_reap callback will always be ordered after a report_death
callback.
report_reap
Requested by UTRACE_EVENT(REAP). Called when someone reaps the dead
task (parent, init, or self). This means the parent called wait, or
else this was a detached thread or a process whose parent ignores
SIGCHLD. No more callbacks are made after this one. The engine is
always detached. There is nothing more a tracing engine can do
about this thread. After this callback, the engine pointer will
become invalid. The task pointer may become invalid if
get_task_struct hasn´t been used to keep it alive. An engine should
always request this callback if it stores the engine pointer or
stores any pointer in engine->data, so it can clean up its data
structures. Unlike other callbacks, this can be called from the
parent´s context rather than from the traced thread itself--it must
not delay the parent by blocking.
release
If not NULL, this is called after the last utrace_engine_put call
for a struct utrace_engine, which could be implicit after a
UTRACE_DETACH return from another callback. Its argument is the
engine´s data member.
DESCRIPTION
Each report_*() callback corresponds to an UTRACE_EVENT(*) bit.
utrace_set_events calls on engine choose which callbacks will be made
to engine from task.
Most callbacks take an action argument, giving the resume action chosen
by other tracing engines. All callbacks take an engine argument. The
report_reap callback takes a task argument that might or might not be
current. All other report_* callbacks report an event in the current
task.
For some calls, action also includes bits specific to that event and
utrace_resume_action is used to extract the resume action. This shows
what would happen if engine wasn´t there, or will if the callback´s
return value uses UTRACE_RESUME. This always starts as UTRACE_RESUME
when no other tracing is being done on this task.
All return values contain enum utrace_resume_action bits. For some
calls, other bits specific to that kind of event are added to the
resume action bits with OR. These are the same bits used in the action
argument. The resume action returned by a callback does not override
previous engines´ choices, it only says what engine wants done. What
current actually does is the action that´s most constrained among the
choices made by all attached engines. See utrace_control for more
information on the actions.
When UTRACE_STOP is used in report_syscall_entry, then current stops
before attempting the system call. In this case, another
report_syscall_entry callback will follow after current resumes if
UTRACE_REPORT or UTRACE_INTERRUPT was returned by some callback or
passed to utrace_control. In a second or later callback,
UTRACE_SYSCALL_RESUMED is set in the action argument to indicate a
repeat callback still waiting to attempt the same system call
invocation. This repeat callback gives each engine an opportunity to
reexamine registers another engine might have changed while current was
held in UTRACE_STOP.
In other cases, the resume action does not take effect until current is
ready to check for signals and return to user mode. If there are more
callbacks to be made, the last round of calls determines the final
action. A report_quiesce callback with event zero, or a report_signal
callback, will always be the last one made before current resumes. Only
UTRACE_STOP is “sticky”--if engine returned UTRACE_STOP then current
stays stopped unless engine returns different from a following
callback.
The report_death and report_reap callbacks do not take action
arguments, and only UTRACE_DETACH is meaningful in the return value
from a report_death callback. None of the resume actions applies to a
dead thread.
All report_*() hooks are called with no locks held, in a generally safe
environment when we will be returning to user mode soon (or just
entered the kernel). It is fine to block for memory allocation and the
like, but all hooks are asynchronous and must not block on external
events! If you want the thread to block, use UTRACE_STOP in your hook´s
return value; then later wake it up with utrace_control.
Kernel Hackers Manual 2.6. November 2013 STRUCT UTRACE_ENGINE(9)