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SubjectRe: [PATCH v2 00/11] tracing: trace event triggers
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Hi jovi,

On Sat, 2013-06-29 at 17:30 +0800, zhangwei(Jovi) wrote:
> On 2013/6/29 13:08, Tom Zanussi wrote:
> > Hi,
> >
> > This is v2 of the trace event triggers patchset, addressing comments
> > from Masami Hiramatsu, zhangwei(Jovi), and Steve Rostedt (thanks for
> > reviewing v1).
> >
> > v2:
> > - removed all changes to __ftrace_event_enable_disable() (except
> > for patch 04/11 which clears the soft_disabled bit as discussed)
> > and created a separate trace_event_trigger_enable_disable() that
> > calls it after setting/clearing the TRIGGER_MODE_BIT.
> > - added a trigger_mode enum for future patches that break up the
> > trigger calls for filtering, but that's also now used as a command
> > id for registering/unregistering commands.
> > - removed the enter_file/exit_file members that were added to
> > syscall_metadata after realizing that they were unnecessary if
> > ftrace_syscall_enter/exit() were modified to receive a pointer
> > to the ftrace_file instead of the pointer to the trace_array in
> > the ftrace_file.
> > - broke up the trigger invocation into two parts so that triggers
> > like 'stacktrace' that themselves log into the trace buffer can
> > defer the actual trigger invocation until after the current
> > record is closed, which is needed for the filter check that
> > in turn determines whether the trigger gets invoked.
> > - other minor cleanup
> >
> >
> > This patchset implements 'trace event triggers', which are similar to
> > the function triggers implemented for 'ftrace filter commands' (see
> > 'Filter commands' in Documentation/trace/ftrace.txt), but instead of
> > being invoked from function calls are invoked by trace events.
> > Basically the patchset allows 'commands' to be triggered whenever a
> > given trace event is hit. The set of commands implemented by this
> > patchset are:
> >
> > - enable/disable_event - enable or disable another event whenever
> > the trigger event is hit
> >
> > - stacktrace - dump a stacktrace to the trace buffer whenever the
> > trigger event is hit
> >
> > - snapshot - create a snapshot of the current trace buffer whenever
> > the trigger event is hit
> >
> > - traceon/traceoff - turn tracing on or off whenever the trigger
> > event is hit
> >
> > Triggers can also be conditionally invoked by associating a standard
> > trace event filter with them - if the given event passes the filter,
> > the trigger is invoked, otherwise it's not. (see 'Event filtering' in
> > Documentation/trace/events.txt for info on event filters).
> >
>
> I just aware that we are implementing more and more scripting functionality into
> tracing subsystem, like filter and trigger mode, of cause we don't call it
> as scripting, but basically the pattern is same, all is "do something when event hit".
>

Not really - this patchset is just reusing the existing filter code
that's been there for years, and yes, it does follow the pattern of
'doing something when an event is hit', but the things it does are
really dirt simple - toggling of other events or the global tracing
on/off switch, snapshotting trace buffers, etc. All things that don't
require any kind of scripting - this is more on the level of wiring
things together on a breadboard. And it's all available by simply using
'cat' and 'echo' - no separate command and scripts to keep track of.

> FYI, a pretty simple scripting module of tracing is there:
> https://github.com/ktap/ktap.git
>

It looks pretty nice, but I wonder if Linux is ready for a full-fledged
language interpreter in the kernel. It's been tried before - see
DProbes (in fact that effort is where kprobes came from - after it was
obvious DProbes wouldn't make it into the kernel, it was broken up into
multiple pieces - kprobes and uprobes eventually got in, but the RPN
interpreter, which also had an ANSI C compiler targeting the bytecode
(dpcc) never did...). Well, following that, DTrace came along and
showed how useful it could be, so maybe there wouldn't be as much
resistance these days...

Also, assuming an in-kernel language interpreter would fly, did you
consider starting with something already-baked rather than starting from
scratch? How about taking something like the parrot VM and carving out
a minimal core subset of that suitable for embedding in the kernel? It
probably wouldn't be easy, but you'd be building on a relatively mature
and tested VM that's been designed for targeting many languages
(including lua).

Another thing you could consider is taking a page from the DProbes and
breaking up and submitting ktap piecemeal. For instance, you could
break out and submit the associative array piece and with a little
thought tie it to a 'histogram' trigger e.g. something like:

echo 'hist[key,val] if filter' > trigger

For example, something like this could be used to accomplish a similar
thing to your scripts/syscalls_histogram.kp script (keeping and dumping
a per-syscall count):

echo 'hist[e.name,count()]' > /syscalls/trigger

Similarly, this would keep a per-executable syscall count like
syscalls_histogram2.kp:

echo 'hist[comm,count()]' > /syscalls/trigger

Any field defined in an event's 'format' file could be used as a key or
value (e.g. using 'comm' as a hash key as above). For example, keeping
a per-pid hash of total bytes written by 'sys_exit_write' (both
common_pid and ret are sys_exit_write fields, and I assume a small set
of utility functions that say what to do with numeric fields, perhaps
'add' could be the default) would show which process is doing most of
the writing:

echo 'hist[common_pid,add(ret)]' > syscalls/sys_exit_write/trigger

Making the trace_dump_stack() available as a utility function would
allow things like this:

echo 'hist[stacktrace(),count()] if bytes_req > 16384' >
kmem/kmalloc/trigger

Basically the above would use the stacktrace itself as a hash key and
the value stored for each key would be a per-execution-path count of >
16k kernel memory requests. Dumping out the hash would show the top
execution paths leading to large kmalloc requests.

This would give users the ability to accomplish what a lot of them seem
to use these tools for, and without any scripting (I'm not saying
scripting wouldn't be useful, but I think you can still accomplish quite
a bit without it).

Tom


> For the trigger mode, you can perform any command when event hit if using scripting,
> in contrast with this patchset, ktap use perf callback handler to invoke command,
> so it don't need extra code to support trigger mode in tracepoint/k(ret)probe/u(ret)probe.
>
> ---------------------
> trace "syscalls:*" function (e) {
> printf("%d %d\t%s\t%s", cpu(), pid(), execname(), e.tostring())
> }
> ---------------------
> trace "probe:do_sys_open dfd=%di filename=%dx flags=%cx mode=+4($stack)" function (e) {
> printf("%d %d\t%s\t%s", cpu(), pid(), execname(), e.tostring())
> }
> ---------------------
> trace "probe:do_sys_open%return fd=$retval" function (e) {
> printf("%d %d\t%s\t%s", cpu(), pid(), execname(), e.tostring())
> }
> ---------------------
> trace "probe:/lib/libc.so.6:0x000773c0" function (e) {
> printf("%d %d\t%s\t%s", cpu(), pid(), execname(), e.tostring())
> }
>
>
> what I'm thinking now is perhaps we can use a more generic mechanism in future
> to let user do more magic things when event hit.
>
> To be clear, I'm not against on this patchset, I'm on the same side with Tom,
> the trigger mode of this patchset is useful(awesome work). I'm just sharing some extra info,
> hopeful you don't mind it :)
>
> Thanks.
> jovi
>
>
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