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Fix: only flush non-metadata channels
[lttng-modules.git] / lttng-events.c
1 /*
2 * lttng-events.c
3 *
4 * Holds LTTng per-session event registry.
5 *
6 * Copyright (C) 2010-2012 Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
7 *
8 * This library is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU Lesser General Public
10 * License as published by the Free Software Foundation; only
11 * version 2.1 of the License.
12 *
13 * This library is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 * Lesser General Public License for more details.
17 *
18 * You should have received a copy of the GNU Lesser General Public
19 * License along with this library; if not, write to the Free Software
20 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
21 */
22
23 /*
24 * This page_alloc.h wrapper needs to be included before gfpflags.h because it
25 * overrides a function with a define.
26 */
27 #include "wrapper/page_alloc.h"
28
29 #include <linux/module.h>
30 #include <linux/mutex.h>
31 #include <linux/sched.h>
32 #include <linux/slab.h>
33 #include <linux/jiffies.h>
34 #include <linux/utsname.h>
35 #include <linux/err.h>
36 #include <linux/seq_file.h>
37 #include <linux/file.h>
38 #include <linux/anon_inodes.h>
39 #include <wrapper/file.h>
40 #include <linux/jhash.h>
41 #include <linux/uaccess.h>
42 #include <linux/vmalloc.h>
43
44 #include <wrapper/uuid.h>
45 #include <wrapper/vmalloc.h> /* for wrapper_vmalloc_sync_all() */
46 #include <wrapper/random.h>
47 #include <wrapper/tracepoint.h>
48 #include <wrapper/list.h>
49 #include <lttng-kernel-version.h>
50 #include <lttng-events.h>
51 #include <lttng-tracer.h>
52 #include <lttng-abi-old.h>
53 #include <lttng-endian.h>
54 #include <wrapper/vzalloc.h>
55 #include <wrapper/ringbuffer/backend.h>
56 #include <wrapper/ringbuffer/frontend.h>
57
58 #define METADATA_CACHE_DEFAULT_SIZE 4096
59
60 static LIST_HEAD(sessions);
61 static LIST_HEAD(lttng_transport_list);
62 /*
63 * Protect the sessions and metadata caches.
64 */
65 static DEFINE_MUTEX(sessions_mutex);
66 static struct kmem_cache *event_cache;
67
68 static void lttng_session_lazy_sync_enablers(struct lttng_session *session);
69 static void lttng_session_sync_enablers(struct lttng_session *session);
70 static void lttng_enabler_destroy(struct lttng_enabler *enabler);
71
72 static void _lttng_event_destroy(struct lttng_event *event);
73 static void _lttng_channel_destroy(struct lttng_channel *chan);
74 static int _lttng_event_unregister(struct lttng_event *event);
75 static
76 int _lttng_event_metadata_statedump(struct lttng_session *session,
77 struct lttng_channel *chan,
78 struct lttng_event *event);
79 static
80 int _lttng_session_metadata_statedump(struct lttng_session *session);
81 static
82 void _lttng_metadata_channel_hangup(struct lttng_metadata_stream *stream);
83 static
84 int _lttng_field_statedump(struct lttng_session *session,
85 const struct lttng_event_field *field,
86 size_t nesting);
87
88 void synchronize_trace(void)
89 {
90 synchronize_sched();
91 #if (LINUX_VERSION_CODE >= KERNEL_VERSION(3,4,0))
92 #ifdef CONFIG_PREEMPT_RT_FULL
93 synchronize_rcu();
94 #endif
95 #else /* (LINUX_VERSION_CODE >= KERNEL_VERSION(3,4,0)) */
96 #ifdef CONFIG_PREEMPT_RT
97 synchronize_rcu();
98 #endif
99 #endif /* (LINUX_VERSION_CODE >= KERNEL_VERSION(3,4,0)) */
100 }
101
102 void lttng_lock_sessions(void)
103 {
104 mutex_lock(&sessions_mutex);
105 }
106
107 void lttng_unlock_sessions(void)
108 {
109 mutex_unlock(&sessions_mutex);
110 }
111
112 /*
113 * Called with sessions lock held.
114 */
115 int lttng_session_active(void)
116 {
117 struct lttng_session *iter;
118
119 list_for_each_entry(iter, &sessions, list) {
120 if (iter->active)
121 return 1;
122 }
123 return 0;
124 }
125
126 struct lttng_session *lttng_session_create(void)
127 {
128 struct lttng_session *session;
129 struct lttng_metadata_cache *metadata_cache;
130 int i;
131
132 mutex_lock(&sessions_mutex);
133 session = kzalloc(sizeof(struct lttng_session), GFP_KERNEL);
134 if (!session)
135 goto err;
136 INIT_LIST_HEAD(&session->chan);
137 INIT_LIST_HEAD(&session->events);
138 uuid_le_gen(&session->uuid);
139
140 metadata_cache = kzalloc(sizeof(struct lttng_metadata_cache),
141 GFP_KERNEL);
142 if (!metadata_cache)
143 goto err_free_session;
144 metadata_cache->data = lttng_vzalloc(METADATA_CACHE_DEFAULT_SIZE);
145 if (!metadata_cache->data)
146 goto err_free_cache;
147 metadata_cache->cache_alloc = METADATA_CACHE_DEFAULT_SIZE;
148 kref_init(&metadata_cache->refcount);
149 mutex_init(&metadata_cache->lock);
150 session->metadata_cache = metadata_cache;
151 INIT_LIST_HEAD(&metadata_cache->metadata_stream);
152 memcpy(&metadata_cache->uuid, &session->uuid,
153 sizeof(metadata_cache->uuid));
154 INIT_LIST_HEAD(&session->enablers_head);
155 for (i = 0; i < LTTNG_EVENT_HT_SIZE; i++)
156 INIT_HLIST_HEAD(&session->events_ht.table[i]);
157 list_add(&session->list, &sessions);
158 mutex_unlock(&sessions_mutex);
159 return session;
160
161 err_free_cache:
162 kfree(metadata_cache);
163 err_free_session:
164 kfree(session);
165 err:
166 mutex_unlock(&sessions_mutex);
167 return NULL;
168 }
169
170 void metadata_cache_destroy(struct kref *kref)
171 {
172 struct lttng_metadata_cache *cache =
173 container_of(kref, struct lttng_metadata_cache, refcount);
174 vfree(cache->data);
175 kfree(cache);
176 }
177
178 void lttng_session_destroy(struct lttng_session *session)
179 {
180 struct lttng_channel *chan, *tmpchan;
181 struct lttng_event *event, *tmpevent;
182 struct lttng_metadata_stream *metadata_stream;
183 struct lttng_enabler *enabler, *tmpenabler;
184 int ret;
185
186 mutex_lock(&sessions_mutex);
187 ACCESS_ONCE(session->active) = 0;
188 list_for_each_entry(chan, &session->chan, list) {
189 ret = lttng_syscalls_unregister(chan);
190 WARN_ON(ret);
191 }
192 list_for_each_entry(event, &session->events, list) {
193 ret = _lttng_event_unregister(event);
194 WARN_ON(ret);
195 }
196 synchronize_trace(); /* Wait for in-flight events to complete */
197 list_for_each_entry_safe(enabler, tmpenabler,
198 &session->enablers_head, node)
199 lttng_enabler_destroy(enabler);
200 list_for_each_entry_safe(event, tmpevent, &session->events, list)
201 _lttng_event_destroy(event);
202 list_for_each_entry_safe(chan, tmpchan, &session->chan, list) {
203 BUG_ON(chan->channel_type == METADATA_CHANNEL);
204 _lttng_channel_destroy(chan);
205 }
206 list_for_each_entry(metadata_stream, &session->metadata_cache->metadata_stream, list)
207 _lttng_metadata_channel_hangup(metadata_stream);
208 if (session->pid_tracker)
209 lttng_pid_tracker_destroy(session->pid_tracker);
210 kref_put(&session->metadata_cache->refcount, metadata_cache_destroy);
211 list_del(&session->list);
212 mutex_unlock(&sessions_mutex);
213 kfree(session);
214 }
215
216 int lttng_session_enable(struct lttng_session *session)
217 {
218 int ret = 0;
219 struct lttng_channel *chan;
220
221 mutex_lock(&sessions_mutex);
222 if (session->active) {
223 ret = -EBUSY;
224 goto end;
225 }
226
227 /* Set transient enabler state to "enabled" */
228 session->tstate = 1;
229
230 /*
231 * Snapshot the number of events per channel to know the type of header
232 * we need to use.
233 */
234 list_for_each_entry(chan, &session->chan, list) {
235 if (chan->header_type)
236 continue; /* don't change it if session stop/restart */
237 if (chan->free_event_id < 31)
238 chan->header_type = 1; /* compact */
239 else
240 chan->header_type = 2; /* large */
241 }
242
243 /* We need to sync enablers with session before activation. */
244 lttng_session_sync_enablers(session);
245
246 /* Clear each stream's quiescent state. */
247 list_for_each_entry(chan, &session->chan, list) {
248 if (chan->channel_type != METADATA_CHANNEL)
249 lib_ring_buffer_clear_quiescent_channel(chan->chan);
250 }
251
252 ACCESS_ONCE(session->active) = 1;
253 ACCESS_ONCE(session->been_active) = 1;
254 ret = _lttng_session_metadata_statedump(session);
255 if (ret) {
256 ACCESS_ONCE(session->active) = 0;
257 goto end;
258 }
259 ret = lttng_statedump_start(session);
260 if (ret)
261 ACCESS_ONCE(session->active) = 0;
262 end:
263 mutex_unlock(&sessions_mutex);
264 return ret;
265 }
266
267 int lttng_session_disable(struct lttng_session *session)
268 {
269 int ret = 0;
270 struct lttng_channel *chan;
271
272 mutex_lock(&sessions_mutex);
273 if (!session->active) {
274 ret = -EBUSY;
275 goto end;
276 }
277 ACCESS_ONCE(session->active) = 0;
278
279 /* Set transient enabler state to "disabled" */
280 session->tstate = 0;
281 lttng_session_sync_enablers(session);
282
283 /* Set each stream's quiescent state. */
284 list_for_each_entry(chan, &session->chan, list) {
285 if (chan->channel_type != METADATA_CHANNEL)
286 lib_ring_buffer_set_quiescent_channel(chan->chan);
287 }
288 end:
289 mutex_unlock(&sessions_mutex);
290 return ret;
291 }
292
293 int lttng_session_metadata_regenerate(struct lttng_session *session)
294 {
295 int ret = 0;
296 struct lttng_channel *chan;
297 struct lttng_event *event;
298 struct lttng_metadata_cache *cache = session->metadata_cache;
299 struct lttng_metadata_stream *stream;
300
301 mutex_lock(&sessions_mutex);
302 if (!session->active) {
303 ret = -EBUSY;
304 goto end;
305 }
306
307 mutex_lock(&cache->lock);
308 memset(cache->data, 0, cache->cache_alloc);
309 cache->metadata_written = 0;
310 cache->version++;
311 list_for_each_entry(stream, &session->metadata_cache->metadata_stream, list) {
312 stream->metadata_out = 0;
313 stream->metadata_in = 0;
314 }
315 mutex_unlock(&cache->lock);
316
317 session->metadata_dumped = 0;
318 list_for_each_entry(chan, &session->chan, list) {
319 chan->metadata_dumped = 0;
320 }
321
322 list_for_each_entry(event, &session->events, list) {
323 event->metadata_dumped = 0;
324 }
325
326 ret = _lttng_session_metadata_statedump(session);
327
328 end:
329 mutex_unlock(&sessions_mutex);
330 return ret;
331 }
332
333
334
335 int lttng_channel_enable(struct lttng_channel *channel)
336 {
337 int ret = 0;
338
339 mutex_lock(&sessions_mutex);
340 if (channel->channel_type == METADATA_CHANNEL) {
341 ret = -EPERM;
342 goto end;
343 }
344 if (channel->enabled) {
345 ret = -EEXIST;
346 goto end;
347 }
348 /* Set transient enabler state to "enabled" */
349 channel->tstate = 1;
350 lttng_session_sync_enablers(channel->session);
351 /* Set atomically the state to "enabled" */
352 ACCESS_ONCE(channel->enabled) = 1;
353 end:
354 mutex_unlock(&sessions_mutex);
355 return ret;
356 }
357
358 int lttng_channel_disable(struct lttng_channel *channel)
359 {
360 int ret = 0;
361
362 mutex_lock(&sessions_mutex);
363 if (channel->channel_type == METADATA_CHANNEL) {
364 ret = -EPERM;
365 goto end;
366 }
367 if (!channel->enabled) {
368 ret = -EEXIST;
369 goto end;
370 }
371 /* Set atomically the state to "disabled" */
372 ACCESS_ONCE(channel->enabled) = 0;
373 /* Set transient enabler state to "enabled" */
374 channel->tstate = 0;
375 lttng_session_sync_enablers(channel->session);
376 end:
377 mutex_unlock(&sessions_mutex);
378 return ret;
379 }
380
381 int lttng_event_enable(struct lttng_event *event)
382 {
383 int ret = 0;
384
385 mutex_lock(&sessions_mutex);
386 if (event->chan->channel_type == METADATA_CHANNEL) {
387 ret = -EPERM;
388 goto end;
389 }
390 if (event->enabled) {
391 ret = -EEXIST;
392 goto end;
393 }
394 switch (event->instrumentation) {
395 case LTTNG_KERNEL_TRACEPOINT:
396 case LTTNG_KERNEL_SYSCALL:
397 ret = -EINVAL;
398 break;
399 case LTTNG_KERNEL_KPROBE:
400 case LTTNG_KERNEL_FUNCTION:
401 case LTTNG_KERNEL_NOOP:
402 ACCESS_ONCE(event->enabled) = 1;
403 break;
404 case LTTNG_KERNEL_KRETPROBE:
405 ret = lttng_kretprobes_event_enable_state(event, 1);
406 break;
407 default:
408 WARN_ON_ONCE(1);
409 ret = -EINVAL;
410 }
411 end:
412 mutex_unlock(&sessions_mutex);
413 return ret;
414 }
415
416 int lttng_event_disable(struct lttng_event *event)
417 {
418 int ret = 0;
419
420 mutex_lock(&sessions_mutex);
421 if (event->chan->channel_type == METADATA_CHANNEL) {
422 ret = -EPERM;
423 goto end;
424 }
425 if (!event->enabled) {
426 ret = -EEXIST;
427 goto end;
428 }
429 switch (event->instrumentation) {
430 case LTTNG_KERNEL_TRACEPOINT:
431 case LTTNG_KERNEL_SYSCALL:
432 ret = -EINVAL;
433 break;
434 case LTTNG_KERNEL_KPROBE:
435 case LTTNG_KERNEL_FUNCTION:
436 case LTTNG_KERNEL_NOOP:
437 ACCESS_ONCE(event->enabled) = 0;
438 break;
439 case LTTNG_KERNEL_KRETPROBE:
440 ret = lttng_kretprobes_event_enable_state(event, 0);
441 break;
442 default:
443 WARN_ON_ONCE(1);
444 ret = -EINVAL;
445 }
446 end:
447 mutex_unlock(&sessions_mutex);
448 return ret;
449 }
450
451 static struct lttng_transport *lttng_transport_find(const char *name)
452 {
453 struct lttng_transport *transport;
454
455 list_for_each_entry(transport, &lttng_transport_list, node) {
456 if (!strcmp(transport->name, name))
457 return transport;
458 }
459 return NULL;
460 }
461
462 struct lttng_channel *lttng_channel_create(struct lttng_session *session,
463 const char *transport_name,
464 void *buf_addr,
465 size_t subbuf_size, size_t num_subbuf,
466 unsigned int switch_timer_interval,
467 unsigned int read_timer_interval,
468 enum channel_type channel_type)
469 {
470 struct lttng_channel *chan;
471 struct lttng_transport *transport = NULL;
472
473 mutex_lock(&sessions_mutex);
474 if (session->been_active && channel_type != METADATA_CHANNEL)
475 goto active; /* Refuse to add channel to active session */
476 transport = lttng_transport_find(transport_name);
477 if (!transport) {
478 printk(KERN_WARNING "LTTng transport %s not found\n",
479 transport_name);
480 goto notransport;
481 }
482 if (!try_module_get(transport->owner)) {
483 printk(KERN_WARNING "LTT : Can't lock transport module.\n");
484 goto notransport;
485 }
486 chan = kzalloc(sizeof(struct lttng_channel), GFP_KERNEL);
487 if (!chan)
488 goto nomem;
489 chan->session = session;
490 chan->id = session->free_chan_id++;
491 chan->ops = &transport->ops;
492 /*
493 * Note: the channel creation op already writes into the packet
494 * headers. Therefore the "chan" information used as input
495 * should be already accessible.
496 */
497 chan->chan = transport->ops.channel_create(transport_name,
498 chan, buf_addr, subbuf_size, num_subbuf,
499 switch_timer_interval, read_timer_interval);
500 if (!chan->chan)
501 goto create_error;
502 chan->tstate = 1;
503 chan->enabled = 1;
504 chan->transport = transport;
505 chan->channel_type = channel_type;
506 list_add(&chan->list, &session->chan);
507 mutex_unlock(&sessions_mutex);
508 return chan;
509
510 create_error:
511 kfree(chan);
512 nomem:
513 if (transport)
514 module_put(transport->owner);
515 notransport:
516 active:
517 mutex_unlock(&sessions_mutex);
518 return NULL;
519 }
520
521 /*
522 * Only used internally at session destruction for per-cpu channels, and
523 * when metadata channel is released.
524 * Needs to be called with sessions mutex held.
525 */
526 static
527 void _lttng_channel_destroy(struct lttng_channel *chan)
528 {
529 chan->ops->channel_destroy(chan->chan);
530 module_put(chan->transport->owner);
531 list_del(&chan->list);
532 lttng_destroy_context(chan->ctx);
533 kfree(chan);
534 }
535
536 void lttng_metadata_channel_destroy(struct lttng_channel *chan)
537 {
538 BUG_ON(chan->channel_type != METADATA_CHANNEL);
539
540 /* Protect the metadata cache with the sessions_mutex. */
541 mutex_lock(&sessions_mutex);
542 _lttng_channel_destroy(chan);
543 mutex_unlock(&sessions_mutex);
544 }
545 EXPORT_SYMBOL_GPL(lttng_metadata_channel_destroy);
546
547 static
548 void _lttng_metadata_channel_hangup(struct lttng_metadata_stream *stream)
549 {
550 stream->finalized = 1;
551 wake_up_interruptible(&stream->read_wait);
552 }
553
554 /*
555 * Supports event creation while tracing session is active.
556 * Needs to be called with sessions mutex held.
557 */
558 struct lttng_event *_lttng_event_create(struct lttng_channel *chan,
559 struct lttng_kernel_event *event_param,
560 void *filter,
561 const struct lttng_event_desc *event_desc,
562 enum lttng_kernel_instrumentation itype)
563 {
564 struct lttng_session *session = chan->session;
565 struct lttng_event *event;
566 const char *event_name;
567 struct hlist_head *head;
568 size_t name_len;
569 uint32_t hash;
570 int ret;
571
572 if (chan->free_event_id == -1U) {
573 ret = -EMFILE;
574 goto full;
575 }
576
577 switch (itype) {
578 case LTTNG_KERNEL_TRACEPOINT:
579 event_name = event_desc->name;
580 break;
581 case LTTNG_KERNEL_KPROBE:
582 case LTTNG_KERNEL_KRETPROBE:
583 case LTTNG_KERNEL_FUNCTION:
584 case LTTNG_KERNEL_NOOP:
585 case LTTNG_KERNEL_SYSCALL:
586 event_name = event_param->name;
587 break;
588 default:
589 WARN_ON_ONCE(1);
590 ret = -EINVAL;
591 goto type_error;
592 }
593 name_len = strlen(event_name);
594 hash = jhash(event_name, name_len, 0);
595 head = &session->events_ht.table[hash & (LTTNG_EVENT_HT_SIZE - 1)];
596 lttng_hlist_for_each_entry(event, head, hlist) {
597 WARN_ON_ONCE(!event->desc);
598 if (!strncmp(event->desc->name, event_name,
599 LTTNG_KERNEL_SYM_NAME_LEN - 1)
600 && chan == event->chan) {
601 ret = -EEXIST;
602 goto exist;
603 }
604 }
605
606 event = kmem_cache_zalloc(event_cache, GFP_KERNEL);
607 if (!event) {
608 ret = -ENOMEM;
609 goto cache_error;
610 }
611 event->chan = chan;
612 event->filter = filter;
613 event->id = chan->free_event_id++;
614 event->instrumentation = itype;
615 event->evtype = LTTNG_TYPE_EVENT;
616 INIT_LIST_HEAD(&event->bytecode_runtime_head);
617 INIT_LIST_HEAD(&event->enablers_ref_head);
618
619 switch (itype) {
620 case LTTNG_KERNEL_TRACEPOINT:
621 /* Event will be enabled by enabler sync. */
622 event->enabled = 0;
623 event->registered = 0;
624 event->desc = lttng_event_get(event_name);
625 if (!event->desc) {
626 ret = -ENOENT;
627 goto register_error;
628 }
629 /* Populate lttng_event structure before event registration. */
630 smp_wmb();
631 break;
632 case LTTNG_KERNEL_KPROBE:
633 /*
634 * Needs to be explicitly enabled after creation, since
635 * we may want to apply filters.
636 */
637 event->enabled = 0;
638 event->registered = 1;
639 /*
640 * Populate lttng_event structure before event
641 * registration.
642 */
643 smp_wmb();
644 ret = lttng_kprobes_register(event_name,
645 event_param->u.kprobe.symbol_name,
646 event_param->u.kprobe.offset,
647 event_param->u.kprobe.addr,
648 event);
649 if (ret) {
650 ret = -EINVAL;
651 goto register_error;
652 }
653 ret = try_module_get(event->desc->owner);
654 WARN_ON_ONCE(!ret);
655 break;
656 case LTTNG_KERNEL_KRETPROBE:
657 {
658 struct lttng_event *event_return;
659
660 /* kretprobe defines 2 events */
661 /*
662 * Needs to be explicitly enabled after creation, since
663 * we may want to apply filters.
664 */
665 event->enabled = 0;
666 event->registered = 1;
667 event_return =
668 kmem_cache_zalloc(event_cache, GFP_KERNEL);
669 if (!event_return) {
670 ret = -ENOMEM;
671 goto register_error;
672 }
673 event_return->chan = chan;
674 event_return->filter = filter;
675 event_return->id = chan->free_event_id++;
676 event_return->enabled = 0;
677 event_return->registered = 1;
678 event_return->instrumentation = itype;
679 /*
680 * Populate lttng_event structure before kretprobe registration.
681 */
682 smp_wmb();
683 ret = lttng_kretprobes_register(event_name,
684 event_param->u.kretprobe.symbol_name,
685 event_param->u.kretprobe.offset,
686 event_param->u.kretprobe.addr,
687 event, event_return);
688 if (ret) {
689 kmem_cache_free(event_cache, event_return);
690 ret = -EINVAL;
691 goto register_error;
692 }
693 /* Take 2 refs on the module: one per event. */
694 ret = try_module_get(event->desc->owner);
695 WARN_ON_ONCE(!ret);
696 ret = try_module_get(event->desc->owner);
697 WARN_ON_ONCE(!ret);
698 ret = _lttng_event_metadata_statedump(chan->session, chan,
699 event_return);
700 WARN_ON_ONCE(ret > 0);
701 if (ret) {
702 kmem_cache_free(event_cache, event_return);
703 module_put(event->desc->owner);
704 module_put(event->desc->owner);
705 goto statedump_error;
706 }
707 list_add(&event_return->list, &chan->session->events);
708 break;
709 }
710 case LTTNG_KERNEL_FUNCTION:
711 /*
712 * Needs to be explicitly enabled after creation, since
713 * we may want to apply filters.
714 */
715 event->enabled = 0;
716 event->registered = 1;
717 /*
718 * Populate lttng_event structure before event
719 * registration.
720 */
721 smp_wmb();
722 ret = lttng_ftrace_register(event_name,
723 event_param->u.ftrace.symbol_name,
724 event);
725 if (ret) {
726 goto register_error;
727 }
728 ret = try_module_get(event->desc->owner);
729 WARN_ON_ONCE(!ret);
730 break;
731 case LTTNG_KERNEL_NOOP:
732 case LTTNG_KERNEL_SYSCALL:
733 /*
734 * Needs to be explicitly enabled after creation, since
735 * we may want to apply filters.
736 */
737 event->enabled = 0;
738 event->registered = 0;
739 event->desc = event_desc;
740 if (!event->desc) {
741 ret = -EINVAL;
742 goto register_error;
743 }
744 break;
745 default:
746 WARN_ON_ONCE(1);
747 ret = -EINVAL;
748 goto register_error;
749 }
750 ret = _lttng_event_metadata_statedump(chan->session, chan, event);
751 WARN_ON_ONCE(ret > 0);
752 if (ret) {
753 goto statedump_error;
754 }
755 hlist_add_head(&event->hlist, head);
756 list_add(&event->list, &chan->session->events);
757 return event;
758
759 statedump_error:
760 /* If a statedump error occurs, events will not be readable. */
761 register_error:
762 kmem_cache_free(event_cache, event);
763 cache_error:
764 exist:
765 type_error:
766 full:
767 return ERR_PTR(ret);
768 }
769
770 struct lttng_event *lttng_event_create(struct lttng_channel *chan,
771 struct lttng_kernel_event *event_param,
772 void *filter,
773 const struct lttng_event_desc *event_desc,
774 enum lttng_kernel_instrumentation itype)
775 {
776 struct lttng_event *event;
777
778 mutex_lock(&sessions_mutex);
779 event = _lttng_event_create(chan, event_param, filter, event_desc,
780 itype);
781 mutex_unlock(&sessions_mutex);
782 return event;
783 }
784
785 /* Only used for tracepoints for now. */
786 static
787 void register_event(struct lttng_event *event)
788 {
789 const struct lttng_event_desc *desc;
790 int ret = -EINVAL;
791
792 if (event->registered)
793 return;
794
795 desc = event->desc;
796 switch (event->instrumentation) {
797 case LTTNG_KERNEL_TRACEPOINT:
798 ret = lttng_wrapper_tracepoint_probe_register(desc->kname,
799 desc->probe_callback,
800 event);
801 break;
802 case LTTNG_KERNEL_SYSCALL:
803 ret = lttng_syscall_filter_enable(event->chan,
804 desc->name);
805 break;
806 case LTTNG_KERNEL_KPROBE:
807 case LTTNG_KERNEL_KRETPROBE:
808 case LTTNG_KERNEL_FUNCTION:
809 case LTTNG_KERNEL_NOOP:
810 ret = 0;
811 break;
812 default:
813 WARN_ON_ONCE(1);
814 }
815 if (!ret)
816 event->registered = 1;
817 }
818
819 /*
820 * Only used internally at session destruction.
821 */
822 int _lttng_event_unregister(struct lttng_event *event)
823 {
824 const struct lttng_event_desc *desc;
825 int ret = -EINVAL;
826
827 if (!event->registered)
828 return 0;
829
830 desc = event->desc;
831 switch (event->instrumentation) {
832 case LTTNG_KERNEL_TRACEPOINT:
833 ret = lttng_wrapper_tracepoint_probe_unregister(event->desc->kname,
834 event->desc->probe_callback,
835 event);
836 break;
837 case LTTNG_KERNEL_KPROBE:
838 lttng_kprobes_unregister(event);
839 ret = 0;
840 break;
841 case LTTNG_KERNEL_KRETPROBE:
842 lttng_kretprobes_unregister(event);
843 ret = 0;
844 break;
845 case LTTNG_KERNEL_FUNCTION:
846 lttng_ftrace_unregister(event);
847 ret = 0;
848 break;
849 case LTTNG_KERNEL_SYSCALL:
850 ret = lttng_syscall_filter_disable(event->chan,
851 desc->name);
852 break;
853 case LTTNG_KERNEL_NOOP:
854 ret = 0;
855 break;
856 default:
857 WARN_ON_ONCE(1);
858 }
859 if (!ret)
860 event->registered = 0;
861 return ret;
862 }
863
864 /*
865 * Only used internally at session destruction.
866 */
867 static
868 void _lttng_event_destroy(struct lttng_event *event)
869 {
870 switch (event->instrumentation) {
871 case LTTNG_KERNEL_TRACEPOINT:
872 lttng_event_put(event->desc);
873 break;
874 case LTTNG_KERNEL_KPROBE:
875 module_put(event->desc->owner);
876 lttng_kprobes_destroy_private(event);
877 break;
878 case LTTNG_KERNEL_KRETPROBE:
879 module_put(event->desc->owner);
880 lttng_kretprobes_destroy_private(event);
881 break;
882 case LTTNG_KERNEL_FUNCTION:
883 module_put(event->desc->owner);
884 lttng_ftrace_destroy_private(event);
885 break;
886 case LTTNG_KERNEL_NOOP:
887 case LTTNG_KERNEL_SYSCALL:
888 break;
889 default:
890 WARN_ON_ONCE(1);
891 }
892 list_del(&event->list);
893 lttng_destroy_context(event->ctx);
894 kmem_cache_free(event_cache, event);
895 }
896
897 int lttng_session_track_pid(struct lttng_session *session, int pid)
898 {
899 int ret;
900
901 if (pid < -1)
902 return -EINVAL;
903 mutex_lock(&sessions_mutex);
904 if (pid == -1) {
905 /* track all pids: destroy tracker. */
906 if (session->pid_tracker) {
907 struct lttng_pid_tracker *lpf;
908
909 lpf = session->pid_tracker;
910 rcu_assign_pointer(session->pid_tracker, NULL);
911 synchronize_trace();
912 lttng_pid_tracker_destroy(lpf);
913 }
914 ret = 0;
915 } else {
916 if (!session->pid_tracker) {
917 struct lttng_pid_tracker *lpf;
918
919 lpf = lttng_pid_tracker_create();
920 if (!lpf) {
921 ret = -ENOMEM;
922 goto unlock;
923 }
924 ret = lttng_pid_tracker_add(lpf, pid);
925 rcu_assign_pointer(session->pid_tracker, lpf);
926 } else {
927 ret = lttng_pid_tracker_add(session->pid_tracker, pid);
928 }
929 }
930 unlock:
931 mutex_unlock(&sessions_mutex);
932 return ret;
933 }
934
935 int lttng_session_untrack_pid(struct lttng_session *session, int pid)
936 {
937 int ret;
938
939 if (pid < -1)
940 return -EINVAL;
941 mutex_lock(&sessions_mutex);
942 if (pid == -1) {
943 /* untrack all pids: replace by empty tracker. */
944 struct lttng_pid_tracker *old_lpf = session->pid_tracker;
945 struct lttng_pid_tracker *lpf;
946
947 lpf = lttng_pid_tracker_create();
948 if (!lpf) {
949 ret = -ENOMEM;
950 goto unlock;
951 }
952 rcu_assign_pointer(session->pid_tracker, lpf);
953 synchronize_trace();
954 if (old_lpf)
955 lttng_pid_tracker_destroy(old_lpf);
956 ret = 0;
957 } else {
958 if (!session->pid_tracker) {
959 ret = -ENOENT;
960 goto unlock;
961 }
962 ret = lttng_pid_tracker_del(session->pid_tracker, pid);
963 }
964 unlock:
965 mutex_unlock(&sessions_mutex);
966 return ret;
967 }
968
969 static
970 void *pid_list_start(struct seq_file *m, loff_t *pos)
971 {
972 struct lttng_session *session = m->private;
973 struct lttng_pid_tracker *lpf;
974 struct lttng_pid_hash_node *e;
975 int iter = 0, i;
976
977 mutex_lock(&sessions_mutex);
978 lpf = session->pid_tracker;
979 if (lpf) {
980 for (i = 0; i < LTTNG_PID_TABLE_SIZE; i++) {
981 struct hlist_head *head = &lpf->pid_hash[i];
982
983 lttng_hlist_for_each_entry(e, head, hlist) {
984 if (iter++ >= *pos)
985 return e;
986 }
987 }
988 } else {
989 /* PID tracker disabled. */
990 if (iter >= *pos && iter == 0) {
991 return session; /* empty tracker */
992 }
993 iter++;
994 }
995 /* End of list */
996 return NULL;
997 }
998
999 /* Called with sessions_mutex held. */
1000 static
1001 void *pid_list_next(struct seq_file *m, void *p, loff_t *ppos)
1002 {
1003 struct lttng_session *session = m->private;
1004 struct lttng_pid_tracker *lpf;
1005 struct lttng_pid_hash_node *e;
1006 int iter = 0, i;
1007
1008 (*ppos)++;
1009 lpf = session->pid_tracker;
1010 if (lpf) {
1011 for (i = 0; i < LTTNG_PID_TABLE_SIZE; i++) {
1012 struct hlist_head *head = &lpf->pid_hash[i];
1013
1014 lttng_hlist_for_each_entry(e, head, hlist) {
1015 if (iter++ >= *ppos)
1016 return e;
1017 }
1018 }
1019 } else {
1020 /* PID tracker disabled. */
1021 if (iter >= *ppos && iter == 0)
1022 return session; /* empty tracker */
1023 iter++;
1024 }
1025
1026 /* End of list */
1027 return NULL;
1028 }
1029
1030 static
1031 void pid_list_stop(struct seq_file *m, void *p)
1032 {
1033 mutex_unlock(&sessions_mutex);
1034 }
1035
1036 static
1037 int pid_list_show(struct seq_file *m, void *p)
1038 {
1039 int pid;
1040
1041 if (p == m->private) {
1042 /* Tracker disabled. */
1043 pid = -1;
1044 } else {
1045 const struct lttng_pid_hash_node *e = p;
1046
1047 pid = lttng_pid_tracker_get_node_pid(e);
1048 }
1049 seq_printf(m, "process { pid = %d; };\n", pid);
1050 return 0;
1051 }
1052
1053 static
1054 const struct seq_operations lttng_tracker_pids_list_seq_ops = {
1055 .start = pid_list_start,
1056 .next = pid_list_next,
1057 .stop = pid_list_stop,
1058 .show = pid_list_show,
1059 };
1060
1061 static
1062 int lttng_tracker_pids_list_open(struct inode *inode, struct file *file)
1063 {
1064 return seq_open(file, &lttng_tracker_pids_list_seq_ops);
1065 }
1066
1067 static
1068 int lttng_tracker_pids_list_release(struct inode *inode, struct file *file)
1069 {
1070 struct seq_file *m = file->private_data;
1071 struct lttng_session *session = m->private;
1072 int ret;
1073
1074 WARN_ON_ONCE(!session);
1075 ret = seq_release(inode, file);
1076 if (!ret && session)
1077 fput(session->file);
1078 return ret;
1079 }
1080
1081 const struct file_operations lttng_tracker_pids_list_fops = {
1082 .owner = THIS_MODULE,
1083 .open = lttng_tracker_pids_list_open,
1084 .read = seq_read,
1085 .llseek = seq_lseek,
1086 .release = lttng_tracker_pids_list_release,
1087 };
1088
1089 int lttng_session_list_tracker_pids(struct lttng_session *session)
1090 {
1091 struct file *tracker_pids_list_file;
1092 struct seq_file *m;
1093 int file_fd, ret;
1094
1095 file_fd = lttng_get_unused_fd();
1096 if (file_fd < 0) {
1097 ret = file_fd;
1098 goto fd_error;
1099 }
1100
1101 tracker_pids_list_file = anon_inode_getfile("[lttng_tracker_pids_list]",
1102 &lttng_tracker_pids_list_fops,
1103 NULL, O_RDWR);
1104 if (IS_ERR(tracker_pids_list_file)) {
1105 ret = PTR_ERR(tracker_pids_list_file);
1106 goto file_error;
1107 }
1108 if (atomic_long_add_unless(&session->file->f_count,
1109 1, INT_MAX) == INT_MAX) {
1110 goto refcount_error;
1111 }
1112 ret = lttng_tracker_pids_list_fops.open(NULL, tracker_pids_list_file);
1113 if (ret < 0)
1114 goto open_error;
1115 m = tracker_pids_list_file->private_data;
1116 m->private = session;
1117 fd_install(file_fd, tracker_pids_list_file);
1118
1119 return file_fd;
1120
1121 open_error:
1122 atomic_long_dec(&session->file->f_count);
1123 refcount_error:
1124 fput(tracker_pids_list_file);
1125 file_error:
1126 put_unused_fd(file_fd);
1127 fd_error:
1128 return ret;
1129 }
1130
1131 /*
1132 * Enabler management.
1133 */
1134 static
1135 int lttng_match_enabler_wildcard(const char *desc_name,
1136 const char *name)
1137 {
1138 /* Compare excluding final '*' */
1139 if (strncmp(desc_name, name, strlen(name) - 1))
1140 return 0;
1141 return 1;
1142 }
1143
1144 static
1145 int lttng_match_enabler_name(const char *desc_name,
1146 const char *name)
1147 {
1148 if (strcmp(desc_name, name))
1149 return 0;
1150 return 1;
1151 }
1152
1153 static
1154 int lttng_desc_match_enabler(const struct lttng_event_desc *desc,
1155 struct lttng_enabler *enabler)
1156 {
1157 const char *desc_name, *enabler_name;
1158
1159 enabler_name = enabler->event_param.name;
1160 switch (enabler->event_param.instrumentation) {
1161 case LTTNG_KERNEL_TRACEPOINT:
1162 desc_name = desc->name;
1163 break;
1164 case LTTNG_KERNEL_SYSCALL:
1165 desc_name = desc->name;
1166 if (!strncmp(desc_name, "compat_", strlen("compat_")))
1167 desc_name += strlen("compat_");
1168 if (!strncmp(desc_name, "syscall_exit_",
1169 strlen("syscall_exit_"))) {
1170 desc_name += strlen("syscall_exit_");
1171 } else if (!strncmp(desc_name, "syscall_entry_",
1172 strlen("syscall_entry_"))) {
1173 desc_name += strlen("syscall_entry_");
1174 } else {
1175 WARN_ON_ONCE(1);
1176 return -EINVAL;
1177 }
1178 break;
1179 default:
1180 WARN_ON_ONCE(1);
1181 return -EINVAL;
1182 }
1183 switch (enabler->type) {
1184 case LTTNG_ENABLER_WILDCARD:
1185 return lttng_match_enabler_wildcard(desc_name, enabler_name);
1186 case LTTNG_ENABLER_NAME:
1187 return lttng_match_enabler_name(desc_name, enabler_name);
1188 default:
1189 return -EINVAL;
1190 }
1191 }
1192
1193 static
1194 int lttng_event_match_enabler(struct lttng_event *event,
1195 struct lttng_enabler *enabler)
1196 {
1197 if (enabler->event_param.instrumentation != event->instrumentation)
1198 return 0;
1199 if (lttng_desc_match_enabler(event->desc, enabler)
1200 && event->chan == enabler->chan)
1201 return 1;
1202 else
1203 return 0;
1204 }
1205
1206 static
1207 struct lttng_enabler_ref *lttng_event_enabler_ref(struct lttng_event *event,
1208 struct lttng_enabler *enabler)
1209 {
1210 struct lttng_enabler_ref *enabler_ref;
1211
1212 list_for_each_entry(enabler_ref,
1213 &event->enablers_ref_head, node) {
1214 if (enabler_ref->ref == enabler)
1215 return enabler_ref;
1216 }
1217 return NULL;
1218 }
1219
1220 static
1221 void lttng_create_tracepoint_if_missing(struct lttng_enabler *enabler)
1222 {
1223 struct lttng_session *session = enabler->chan->session;
1224 struct lttng_probe_desc *probe_desc;
1225 const struct lttng_event_desc *desc;
1226 int i;
1227 struct list_head *probe_list;
1228
1229 probe_list = lttng_get_probe_list_head();
1230 /*
1231 * For each probe event, if we find that a probe event matches
1232 * our enabler, create an associated lttng_event if not
1233 * already present.
1234 */
1235 list_for_each_entry(probe_desc, probe_list, head) {
1236 for (i = 0; i < probe_desc->nr_events; i++) {
1237 int found = 0;
1238 struct hlist_head *head;
1239 const char *event_name;
1240 size_t name_len;
1241 uint32_t hash;
1242 struct lttng_event *event;
1243
1244 desc = probe_desc->event_desc[i];
1245 if (!lttng_desc_match_enabler(desc, enabler))
1246 continue;
1247 event_name = desc->name;
1248 name_len = strlen(event_name);
1249
1250 /*
1251 * Check if already created.
1252 */
1253 hash = jhash(event_name, name_len, 0);
1254 head = &session->events_ht.table[hash & (LTTNG_EVENT_HT_SIZE - 1)];
1255 lttng_hlist_for_each_entry(event, head, hlist) {
1256 if (event->desc == desc
1257 && event->chan == enabler->chan)
1258 found = 1;
1259 }
1260 if (found)
1261 continue;
1262
1263 /*
1264 * We need to create an event for this
1265 * event probe.
1266 */
1267 event = _lttng_event_create(enabler->chan,
1268 NULL, NULL, desc,
1269 LTTNG_KERNEL_TRACEPOINT);
1270 if (!event) {
1271 printk(KERN_INFO "Unable to create event %s\n",
1272 probe_desc->event_desc[i]->name);
1273 }
1274 }
1275 }
1276 }
1277
1278 static
1279 void lttng_create_syscall_if_missing(struct lttng_enabler *enabler)
1280 {
1281 int ret;
1282
1283 ret = lttng_syscalls_register(enabler->chan, NULL);
1284 WARN_ON_ONCE(ret);
1285 }
1286
1287 /*
1288 * Create struct lttng_event if it is missing and present in the list of
1289 * tracepoint probes.
1290 * Should be called with sessions mutex held.
1291 */
1292 static
1293 void lttng_create_event_if_missing(struct lttng_enabler *enabler)
1294 {
1295 switch (enabler->event_param.instrumentation) {
1296 case LTTNG_KERNEL_TRACEPOINT:
1297 lttng_create_tracepoint_if_missing(enabler);
1298 break;
1299 case LTTNG_KERNEL_SYSCALL:
1300 lttng_create_syscall_if_missing(enabler);
1301 break;
1302 default:
1303 WARN_ON_ONCE(1);
1304 break;
1305 }
1306 }
1307
1308 /*
1309 * Create events associated with an enabler (if not already present),
1310 * and add backward reference from the event to the enabler.
1311 * Should be called with sessions mutex held.
1312 */
1313 static
1314 int lttng_enabler_ref_events(struct lttng_enabler *enabler)
1315 {
1316 struct lttng_session *session = enabler->chan->session;
1317 struct lttng_event *event;
1318
1319 /* First ensure that probe events are created for this enabler. */
1320 lttng_create_event_if_missing(enabler);
1321
1322 /* For each event matching enabler in session event list. */
1323 list_for_each_entry(event, &session->events, list) {
1324 struct lttng_enabler_ref *enabler_ref;
1325
1326 if (!lttng_event_match_enabler(event, enabler))
1327 continue;
1328 enabler_ref = lttng_event_enabler_ref(event, enabler);
1329 if (!enabler_ref) {
1330 /*
1331 * If no backward ref, create it.
1332 * Add backward ref from event to enabler.
1333 */
1334 enabler_ref = kzalloc(sizeof(*enabler_ref), GFP_KERNEL);
1335 if (!enabler_ref)
1336 return -ENOMEM;
1337 enabler_ref->ref = enabler;
1338 list_add(&enabler_ref->node,
1339 &event->enablers_ref_head);
1340 }
1341
1342 /*
1343 * Link filter bytecodes if not linked yet.
1344 */
1345 lttng_enabler_event_link_bytecode(event, enabler);
1346
1347 /* TODO: merge event context. */
1348 }
1349 return 0;
1350 }
1351
1352 /*
1353 * Called at module load: connect the probe on all enablers matching
1354 * this event.
1355 * Called with sessions lock held.
1356 */
1357 int lttng_fix_pending_events(void)
1358 {
1359 struct lttng_session *session;
1360
1361 list_for_each_entry(session, &sessions, list)
1362 lttng_session_lazy_sync_enablers(session);
1363 return 0;
1364 }
1365
1366 struct lttng_enabler *lttng_enabler_create(enum lttng_enabler_type type,
1367 struct lttng_kernel_event *event_param,
1368 struct lttng_channel *chan)
1369 {
1370 struct lttng_enabler *enabler;
1371
1372 enabler = kzalloc(sizeof(*enabler), GFP_KERNEL);
1373 if (!enabler)
1374 return NULL;
1375 enabler->type = type;
1376 INIT_LIST_HEAD(&enabler->filter_bytecode_head);
1377 memcpy(&enabler->event_param, event_param,
1378 sizeof(enabler->event_param));
1379 enabler->chan = chan;
1380 /* ctx left NULL */
1381 enabler->enabled = 0;
1382 enabler->evtype = LTTNG_TYPE_ENABLER;
1383 mutex_lock(&sessions_mutex);
1384 list_add(&enabler->node, &enabler->chan->session->enablers_head);
1385 lttng_session_lazy_sync_enablers(enabler->chan->session);
1386 mutex_unlock(&sessions_mutex);
1387 return enabler;
1388 }
1389
1390 int lttng_enabler_enable(struct lttng_enabler *enabler)
1391 {
1392 mutex_lock(&sessions_mutex);
1393 enabler->enabled = 1;
1394 lttng_session_lazy_sync_enablers(enabler->chan->session);
1395 mutex_unlock(&sessions_mutex);
1396 return 0;
1397 }
1398
1399 int lttng_enabler_disable(struct lttng_enabler *enabler)
1400 {
1401 mutex_lock(&sessions_mutex);
1402 enabler->enabled = 0;
1403 lttng_session_lazy_sync_enablers(enabler->chan->session);
1404 mutex_unlock(&sessions_mutex);
1405 return 0;
1406 }
1407
1408 int lttng_enabler_attach_bytecode(struct lttng_enabler *enabler,
1409 struct lttng_kernel_filter_bytecode __user *bytecode)
1410 {
1411 struct lttng_filter_bytecode_node *bytecode_node;
1412 uint32_t bytecode_len;
1413 int ret;
1414
1415 ret = get_user(bytecode_len, &bytecode->len);
1416 if (ret)
1417 return ret;
1418 bytecode_node = kzalloc(sizeof(*bytecode_node) + bytecode_len,
1419 GFP_KERNEL);
1420 if (!bytecode_node)
1421 return -ENOMEM;
1422 ret = copy_from_user(&bytecode_node->bc, bytecode,
1423 sizeof(*bytecode) + bytecode_len);
1424 if (ret)
1425 goto error_free;
1426 bytecode_node->enabler = enabler;
1427 /* Enforce length based on allocated size */
1428 bytecode_node->bc.len = bytecode_len;
1429 list_add_tail(&bytecode_node->node, &enabler->filter_bytecode_head);
1430 lttng_session_lazy_sync_enablers(enabler->chan->session);
1431 return 0;
1432
1433 error_free:
1434 kfree(bytecode_node);
1435 return ret;
1436 }
1437
1438 int lttng_enabler_attach_context(struct lttng_enabler *enabler,
1439 struct lttng_kernel_context *context_param)
1440 {
1441 return -ENOSYS;
1442 }
1443
1444 static
1445 void lttng_enabler_destroy(struct lttng_enabler *enabler)
1446 {
1447 struct lttng_filter_bytecode_node *filter_node, *tmp_filter_node;
1448
1449 /* Destroy filter bytecode */
1450 list_for_each_entry_safe(filter_node, tmp_filter_node,
1451 &enabler->filter_bytecode_head, node) {
1452 kfree(filter_node);
1453 }
1454
1455 /* Destroy contexts */
1456 lttng_destroy_context(enabler->ctx);
1457
1458 list_del(&enabler->node);
1459 kfree(enabler);
1460 }
1461
1462 /*
1463 * lttng_session_sync_enablers should be called just before starting a
1464 * session.
1465 * Should be called with sessions mutex held.
1466 */
1467 static
1468 void lttng_session_sync_enablers(struct lttng_session *session)
1469 {
1470 struct lttng_enabler *enabler;
1471 struct lttng_event *event;
1472
1473 list_for_each_entry(enabler, &session->enablers_head, node)
1474 lttng_enabler_ref_events(enabler);
1475 /*
1476 * For each event, if at least one of its enablers is enabled,
1477 * and its channel and session transient states are enabled, we
1478 * enable the event, else we disable it.
1479 */
1480 list_for_each_entry(event, &session->events, list) {
1481 struct lttng_enabler_ref *enabler_ref;
1482 struct lttng_bytecode_runtime *runtime;
1483 int enabled = 0, has_enablers_without_bytecode = 0;
1484
1485 switch (event->instrumentation) {
1486 case LTTNG_KERNEL_TRACEPOINT:
1487 case LTTNG_KERNEL_SYSCALL:
1488 /* Enable events */
1489 list_for_each_entry(enabler_ref,
1490 &event->enablers_ref_head, node) {
1491 if (enabler_ref->ref->enabled) {
1492 enabled = 1;
1493 break;
1494 }
1495 }
1496 break;
1497 default:
1498 /* Not handled with lazy sync. */
1499 continue;
1500 }
1501 /*
1502 * Enabled state is based on union of enablers, with
1503 * intesection of session and channel transient enable
1504 * states.
1505 */
1506 enabled = enabled && session->tstate && event->chan->tstate;
1507
1508 ACCESS_ONCE(event->enabled) = enabled;
1509 /*
1510 * Sync tracepoint registration with event enabled
1511 * state.
1512 */
1513 if (enabled) {
1514 register_event(event);
1515 } else {
1516 _lttng_event_unregister(event);
1517 }
1518
1519 /* Check if has enablers without bytecode enabled */
1520 list_for_each_entry(enabler_ref,
1521 &event->enablers_ref_head, node) {
1522 if (enabler_ref->ref->enabled
1523 && list_empty(&enabler_ref->ref->filter_bytecode_head)) {
1524 has_enablers_without_bytecode = 1;
1525 break;
1526 }
1527 }
1528 event->has_enablers_without_bytecode =
1529 has_enablers_without_bytecode;
1530
1531 /* Enable filters */
1532 list_for_each_entry(runtime,
1533 &event->bytecode_runtime_head, node)
1534 lttng_filter_sync_state(runtime);
1535 }
1536 }
1537
1538 /*
1539 * Apply enablers to session events, adding events to session if need
1540 * be. It is required after each modification applied to an active
1541 * session, and right before session "start".
1542 * "lazy" sync means we only sync if required.
1543 * Should be called with sessions mutex held.
1544 */
1545 static
1546 void lttng_session_lazy_sync_enablers(struct lttng_session *session)
1547 {
1548 /* We can skip if session is not active */
1549 if (!session->active)
1550 return;
1551 lttng_session_sync_enablers(session);
1552 }
1553
1554 /*
1555 * Serialize at most one packet worth of metadata into a metadata
1556 * channel.
1557 * We grab the metadata cache mutex to get exclusive access to our metadata
1558 * buffer and to the metadata cache. Exclusive access to the metadata buffer
1559 * allows us to do racy operations such as looking for remaining space left in
1560 * packet and write, since mutual exclusion protects us from concurrent writes.
1561 * Mutual exclusion on the metadata cache allow us to read the cache content
1562 * without racing against reallocation of the cache by updates.
1563 * Returns the number of bytes written in the channel, 0 if no data
1564 * was written and a negative value on error.
1565 */
1566 int lttng_metadata_output_channel(struct lttng_metadata_stream *stream,
1567 struct channel *chan)
1568 {
1569 struct lib_ring_buffer_ctx ctx;
1570 int ret = 0;
1571 size_t len, reserve_len;
1572
1573 /*
1574 * Ensure we support mutiple get_next / put sequences followed by
1575 * put_next. The metadata cache lock protects reading the metadata
1576 * cache. It can indeed be read concurrently by "get_next_subbuf" and
1577 * "flush" operations on the buffer invoked by different processes.
1578 * Moreover, since the metadata cache memory can be reallocated, we
1579 * need to have exclusive access against updates even though we only
1580 * read it.
1581 */
1582 mutex_lock(&stream->metadata_cache->lock);
1583 WARN_ON(stream->metadata_in < stream->metadata_out);
1584 if (stream->metadata_in != stream->metadata_out)
1585 goto end;
1586
1587 /* Metadata regenerated, change the version. */
1588 if (stream->metadata_cache->version != stream->version)
1589 stream->version = stream->metadata_cache->version;
1590
1591 len = stream->metadata_cache->metadata_written -
1592 stream->metadata_in;
1593 if (!len)
1594 goto end;
1595 reserve_len = min_t(size_t,
1596 stream->transport->ops.packet_avail_size(chan),
1597 len);
1598 lib_ring_buffer_ctx_init(&ctx, chan, NULL, reserve_len,
1599 sizeof(char), -1);
1600 /*
1601 * If reservation failed, return an error to the caller.
1602 */
1603 ret = stream->transport->ops.event_reserve(&ctx, 0);
1604 if (ret != 0) {
1605 printk(KERN_WARNING "LTTng: Metadata event reservation failed\n");
1606 goto end;
1607 }
1608 stream->transport->ops.event_write(&ctx,
1609 stream->metadata_cache->data + stream->metadata_in,
1610 reserve_len);
1611 stream->transport->ops.event_commit(&ctx);
1612 stream->metadata_in += reserve_len;
1613 ret = reserve_len;
1614
1615 end:
1616 mutex_unlock(&stream->metadata_cache->lock);
1617 return ret;
1618 }
1619
1620 /*
1621 * Write the metadata to the metadata cache.
1622 * Must be called with sessions_mutex held.
1623 * The metadata cache lock protects us from concurrent read access from
1624 * thread outputting metadata content to ring buffer.
1625 */
1626 int lttng_metadata_printf(struct lttng_session *session,
1627 const char *fmt, ...)
1628 {
1629 char *str;
1630 size_t len;
1631 va_list ap;
1632 struct lttng_metadata_stream *stream;
1633
1634 WARN_ON_ONCE(!ACCESS_ONCE(session->active));
1635
1636 va_start(ap, fmt);
1637 str = kvasprintf(GFP_KERNEL, fmt, ap);
1638 va_end(ap);
1639 if (!str)
1640 return -ENOMEM;
1641
1642 len = strlen(str);
1643 mutex_lock(&session->metadata_cache->lock);
1644 if (session->metadata_cache->metadata_written + len >
1645 session->metadata_cache->cache_alloc) {
1646 char *tmp_cache_realloc;
1647 unsigned int tmp_cache_alloc_size;
1648
1649 tmp_cache_alloc_size = max_t(unsigned int,
1650 session->metadata_cache->cache_alloc + len,
1651 session->metadata_cache->cache_alloc << 1);
1652 tmp_cache_realloc = lttng_vzalloc(tmp_cache_alloc_size);
1653 if (!tmp_cache_realloc)
1654 goto err;
1655 if (session->metadata_cache->data) {
1656 memcpy(tmp_cache_realloc,
1657 session->metadata_cache->data,
1658 session->metadata_cache->cache_alloc);
1659 vfree(session->metadata_cache->data);
1660 }
1661
1662 session->metadata_cache->cache_alloc = tmp_cache_alloc_size;
1663 session->metadata_cache->data = tmp_cache_realloc;
1664 }
1665 memcpy(session->metadata_cache->data +
1666 session->metadata_cache->metadata_written,
1667 str, len);
1668 session->metadata_cache->metadata_written += len;
1669 mutex_unlock(&session->metadata_cache->lock);
1670 kfree(str);
1671
1672 list_for_each_entry(stream, &session->metadata_cache->metadata_stream, list)
1673 wake_up_interruptible(&stream->read_wait);
1674
1675 return 0;
1676
1677 err:
1678 mutex_unlock(&session->metadata_cache->lock);
1679 kfree(str);
1680 return -ENOMEM;
1681 }
1682
1683 static
1684 int print_tabs(struct lttng_session *session, size_t nesting)
1685 {
1686 size_t i;
1687
1688 for (i = 0; i < nesting; i++) {
1689 int ret;
1690
1691 ret = lttng_metadata_printf(session, " ");
1692 if (ret) {
1693 return ret;
1694 }
1695 }
1696 return 0;
1697 }
1698
1699 /*
1700 * Must be called with sessions_mutex held.
1701 */
1702 static
1703 int _lttng_struct_type_statedump(struct lttng_session *session,
1704 const struct lttng_type *type,
1705 size_t nesting)
1706 {
1707 int ret;
1708 uint32_t i, nr_fields;
1709
1710 ret = print_tabs(session, nesting);
1711 if (ret)
1712 return ret;
1713 ret = lttng_metadata_printf(session,
1714 "struct {\n");
1715 if (ret)
1716 return ret;
1717 nr_fields = type->u._struct.nr_fields;
1718 for (i = 0; i < nr_fields; i++) {
1719 const struct lttng_event_field *iter_field;
1720
1721 iter_field = &type->u._struct.fields[i];
1722 ret = _lttng_field_statedump(session, iter_field, nesting + 1);
1723 if (ret)
1724 return ret;
1725 }
1726 ret = print_tabs(session, nesting);
1727 if (ret)
1728 return ret;
1729 ret = lttng_metadata_printf(session,
1730 "}");
1731 return ret;
1732 }
1733
1734 /*
1735 * Must be called with sessions_mutex held.
1736 */
1737 static
1738 int _lttng_struct_statedump(struct lttng_session *session,
1739 const struct lttng_event_field *field,
1740 size_t nesting)
1741 {
1742 int ret;
1743
1744 ret = _lttng_struct_type_statedump(session,
1745 &field->type, nesting);
1746 if (ret)
1747 return ret;
1748 ret = lttng_metadata_printf(session,
1749 "_%s;\n",
1750 field->name);
1751 return ret;
1752 }
1753
1754 /*
1755 * Must be called with sessions_mutex held.
1756 */
1757 static
1758 int _lttng_variant_type_statedump(struct lttng_session *session,
1759 const struct lttng_type *type,
1760 size_t nesting)
1761 {
1762 int ret;
1763 uint32_t i, nr_choices;
1764
1765 ret = print_tabs(session, nesting);
1766 if (ret)
1767 return ret;
1768 ret = lttng_metadata_printf(session,
1769 "variant <_%s> {\n",
1770 type->u.variant.tag_name);
1771 if (ret)
1772 return ret;
1773 nr_choices = type->u.variant.nr_choices;
1774 for (i = 0; i < nr_choices; i++) {
1775 const struct lttng_event_field *iter_field;
1776
1777 iter_field = &type->u.variant.choices[i];
1778 ret = _lttng_field_statedump(session, iter_field, nesting + 1);
1779 if (ret)
1780 return ret;
1781 }
1782 ret = print_tabs(session, nesting);
1783 if (ret)
1784 return ret;
1785 ret = lttng_metadata_printf(session,
1786 "}");
1787 return ret;
1788 }
1789
1790 /*
1791 * Must be called with sessions_mutex held.
1792 */
1793 static
1794 int _lttng_variant_statedump(struct lttng_session *session,
1795 const struct lttng_event_field *field,
1796 size_t nesting)
1797 {
1798 int ret;
1799
1800 ret = _lttng_variant_type_statedump(session,
1801 &field->type, nesting);
1802 if (ret)
1803 return ret;
1804 ret = lttng_metadata_printf(session,
1805 "_%s;\n",
1806 field->name);
1807 return ret;
1808 }
1809
1810 /*
1811 * Must be called with sessions_mutex held.
1812 */
1813 static
1814 int _lttng_array_compound_statedump(struct lttng_session *session,
1815 const struct lttng_event_field *field,
1816 size_t nesting)
1817 {
1818 int ret;
1819 const struct lttng_type *elem_type;
1820
1821 /* Only array of structures and variants are currently supported. */
1822 elem_type = field->type.u.array_compound.elem_type;
1823 switch (elem_type->atype) {
1824 case atype_struct:
1825 ret = _lttng_struct_type_statedump(session, elem_type, nesting);
1826 if (ret)
1827 return ret;
1828 break;
1829 case atype_variant:
1830 ret = _lttng_variant_type_statedump(session, elem_type, nesting);
1831 if (ret)
1832 return ret;
1833 break;
1834 default:
1835 return -EINVAL;
1836 }
1837 ret = lttng_metadata_printf(session,
1838 " _%s[%u];\n",
1839 field->name,
1840 field->type.u.array_compound.length);
1841 return ret;
1842 }
1843
1844 /*
1845 * Must be called with sessions_mutex held.
1846 */
1847 static
1848 int _lttng_sequence_compound_statedump(struct lttng_session *session,
1849 const struct lttng_event_field *field,
1850 size_t nesting)
1851 {
1852 int ret;
1853 const char *length_name;
1854 const struct lttng_type *elem_type;
1855
1856 length_name = field->type.u.sequence_compound.length_name;
1857
1858 /* Only array of structures and variants are currently supported. */
1859 elem_type = field->type.u.sequence_compound.elem_type;
1860 switch (elem_type->atype) {
1861 case atype_struct:
1862 ret = _lttng_struct_type_statedump(session, elem_type, nesting);
1863 if (ret)
1864 return ret;
1865 break;
1866 case atype_variant:
1867 ret = _lttng_variant_type_statedump(session, elem_type, nesting);
1868 if (ret)
1869 return ret;
1870 break;
1871 default:
1872 return -EINVAL;
1873 }
1874 ret = lttng_metadata_printf(session,
1875 " _%s[ _%s ];\n",
1876 field->name,
1877 length_name);
1878 return ret;
1879 }
1880
1881 /*
1882 * Must be called with sessions_mutex held.
1883 */
1884 static
1885 int _lttng_enum_statedump(struct lttng_session *session,
1886 const struct lttng_event_field *field,
1887 size_t nesting)
1888 {
1889 const struct lttng_enum_desc *enum_desc;
1890 const struct lttng_integer_type *container_type;
1891 int ret;
1892 unsigned int i, nr_entries;
1893
1894 enum_desc = field->type.u.basic.enumeration.desc;
1895 container_type = &field->type.u.basic.enumeration.container_type;
1896 nr_entries = enum_desc->nr_entries;
1897
1898 ret = print_tabs(session, nesting);
1899 if (ret)
1900 goto end;
1901 ret = lttng_metadata_printf(session,
1902 "enum : integer { size = %u; align = %u; signed = %u; encoding = %s; base = %u; } {\n",
1903 container_type->size,
1904 container_type->alignment,
1905 container_type->signedness,
1906 (container_type->encoding == lttng_encode_none)
1907 ? "none"
1908 : (container_type->encoding == lttng_encode_UTF8)
1909 ? "UTF8"
1910 : "ASCII",
1911 container_type->base);
1912 if (ret)
1913 goto end;
1914 /* Dump all entries */
1915 for (i = 0; i < nr_entries; i++) {
1916 const struct lttng_enum_entry *entry = &enum_desc->entries[i];
1917 int j, len;
1918
1919 ret = print_tabs(session, nesting + 1);
1920 if (ret)
1921 goto end;
1922 ret = lttng_metadata_printf(session,
1923 "\"");
1924 if (ret)
1925 goto end;
1926 len = strlen(entry->string);
1927 /* Escape the character '"' */
1928 for (j = 0; j < len; j++) {
1929 char c = entry->string[j];
1930
1931 switch (c) {
1932 case '"':
1933 ret = lttng_metadata_printf(session,
1934 "\\\"");
1935 break;
1936 case '\\':
1937 ret = lttng_metadata_printf(session,
1938 "\\\\");
1939 break;
1940 default:
1941 ret = lttng_metadata_printf(session,
1942 "%c", c);
1943 break;
1944 }
1945 if (ret)
1946 goto end;
1947 }
1948 ret = lttng_metadata_printf(session,
1949 "\" = ");
1950 if (ret)
1951 goto end;
1952 if (entry->start.signedness)
1953 ret = lttng_metadata_printf(session,
1954 "%lld", (long long) entry->start.value);
1955 else
1956 ret = lttng_metadata_printf(session,
1957 "%llu", entry->start.value);
1958 if (ret)
1959 goto end;
1960 if (entry->start.signedness == entry->end.signedness &&
1961 entry->start.value == entry->end.value) {
1962 ret = lttng_metadata_printf(session,
1963 ",\n");
1964 } else {
1965 if (entry->end.signedness) {
1966 ret = lttng_metadata_printf(session,
1967 " ... %lld,\n", (long long) entry->end.value);
1968 } else {
1969 ret = lttng_metadata_printf(session,
1970 " ... %llu,\n", entry->end.value);
1971 }
1972 }
1973 if (ret)
1974 goto end;
1975 }
1976 ret = print_tabs(session, nesting);
1977 if (ret)
1978 goto end;
1979 ret = lttng_metadata_printf(session, "} _%s;\n",
1980 field->name);
1981 end:
1982 return ret;
1983 }
1984
1985 /*
1986 * Must be called with sessions_mutex held.
1987 */
1988 static
1989 int _lttng_field_statedump(struct lttng_session *session,
1990 const struct lttng_event_field *field,
1991 size_t nesting)
1992 {
1993 int ret = 0;
1994
1995 switch (field->type.atype) {
1996 case atype_integer:
1997 ret = print_tabs(session, nesting);
1998 if (ret)
1999 return ret;
2000 ret = lttng_metadata_printf(session,
2001 "integer { size = %u; align = %u; signed = %u; encoding = %s; base = %u;%s } _%s;\n",
2002 field->type.u.basic.integer.size,
2003 field->type.u.basic.integer.alignment,
2004 field->type.u.basic.integer.signedness,
2005 (field->type.u.basic.integer.encoding == lttng_encode_none)
2006 ? "none"
2007 : (field->type.u.basic.integer.encoding == lttng_encode_UTF8)
2008 ? "UTF8"
2009 : "ASCII",
2010 field->type.u.basic.integer.base,
2011 #if __BYTE_ORDER == __BIG_ENDIAN
2012 field->type.u.basic.integer.reverse_byte_order ? " byte_order = le;" : "",
2013 #else
2014 field->type.u.basic.integer.reverse_byte_order ? " byte_order = be;" : "",
2015 #endif
2016 field->name);
2017 break;
2018 case atype_enum:
2019 ret = _lttng_enum_statedump(session, field, nesting);
2020 break;
2021 case atype_array:
2022 {
2023 const struct lttng_basic_type *elem_type;
2024
2025 elem_type = &field->type.u.array.elem_type;
2026 if (field->type.u.array.elem_alignment) {
2027 ret = print_tabs(session, nesting);
2028 if (ret)
2029 return ret;
2030 ret = lttng_metadata_printf(session,
2031 "struct { } align(%u) _%s_padding;\n",
2032 field->type.u.array.elem_alignment * CHAR_BIT,
2033 field->name);
2034 if (ret)
2035 return ret;
2036 }
2037 ret = print_tabs(session, nesting);
2038 if (ret)
2039 return ret;
2040 ret = lttng_metadata_printf(session,
2041 "integer { size = %u; align = %u; signed = %u; encoding = %s; base = %u;%s } _%s[%u];\n",
2042 elem_type->u.basic.integer.size,
2043 elem_type->u.basic.integer.alignment,
2044 elem_type->u.basic.integer.signedness,
2045 (elem_type->u.basic.integer.encoding == lttng_encode_none)
2046 ? "none"
2047 : (elem_type->u.basic.integer.encoding == lttng_encode_UTF8)
2048 ? "UTF8"
2049 : "ASCII",
2050 elem_type->u.basic.integer.base,
2051 #if __BYTE_ORDER == __BIG_ENDIAN
2052 elem_type->u.basic.integer.reverse_byte_order ? " byte_order = le;" : "",
2053 #else
2054 elem_type->u.basic.integer.reverse_byte_order ? " byte_order = be;" : "",
2055 #endif
2056 field->name, field->type.u.array.length);
2057 break;
2058 }
2059 case atype_sequence:
2060 {
2061 const struct lttng_basic_type *elem_type;
2062 const struct lttng_basic_type *length_type;
2063
2064 elem_type = &field->type.u.sequence.elem_type;
2065 length_type = &field->type.u.sequence.length_type;
2066 ret = print_tabs(session, nesting);
2067 if (ret)
2068 return ret;
2069 ret = lttng_metadata_printf(session,
2070 "integer { size = %u; align = %u; signed = %u; encoding = %s; base = %u;%s } __%s_length;\n",
2071 length_type->u.basic.integer.size,
2072 (unsigned int) length_type->u.basic.integer.alignment,
2073 length_type->u.basic.integer.signedness,
2074 (length_type->u.basic.integer.encoding == lttng_encode_none)
2075 ? "none"
2076 : ((length_type->u.basic.integer.encoding == lttng_encode_UTF8)
2077 ? "UTF8"
2078 : "ASCII"),
2079 length_type->u.basic.integer.base,
2080 #if __BYTE_ORDER == __BIG_ENDIAN
2081 length_type->u.basic.integer.reverse_byte_order ? " byte_order = le;" : "",
2082 #else
2083 length_type->u.basic.integer.reverse_byte_order ? " byte_order = be;" : "",
2084 #endif
2085 field->name);
2086 if (ret)
2087 return ret;
2088
2089 if (field->type.u.sequence.elem_alignment) {
2090 ret = print_tabs(session, nesting);
2091 if (ret)
2092 return ret;
2093 ret = lttng_metadata_printf(session,
2094 "struct { } align(%u) _%s_padding;\n",
2095 field->type.u.sequence.elem_alignment * CHAR_BIT,
2096 field->name);
2097 if (ret)
2098 return ret;
2099 }
2100 ret = print_tabs(session, nesting);
2101 if (ret)
2102 return ret;
2103 ret = lttng_metadata_printf(session,
2104 "integer { size = %u; align = %u; signed = %u; encoding = %s; base = %u;%s } _%s[ __%s_length ];\n",
2105 elem_type->u.basic.integer.size,
2106 (unsigned int) elem_type->u.basic.integer.alignment,
2107 elem_type->u.basic.integer.signedness,
2108 (elem_type->u.basic.integer.encoding == lttng_encode_none)
2109 ? "none"
2110 : ((elem_type->u.basic.integer.encoding == lttng_encode_UTF8)
2111 ? "UTF8"
2112 : "ASCII"),
2113 elem_type->u.basic.integer.base,
2114 #if __BYTE_ORDER == __BIG_ENDIAN
2115 elem_type->u.basic.integer.reverse_byte_order ? " byte_order = le;" : "",
2116 #else
2117 elem_type->u.basic.integer.reverse_byte_order ? " byte_order = be;" : "",
2118 #endif
2119 field->name,
2120 field->name);
2121 break;
2122 }
2123
2124 case atype_string:
2125 /* Default encoding is UTF8 */
2126 ret = print_tabs(session, nesting);
2127 if (ret)
2128 return ret;
2129 ret = lttng_metadata_printf(session,
2130 "string%s _%s;\n",
2131 field->type.u.basic.string.encoding == lttng_encode_ASCII ?
2132 " { encoding = ASCII; }" : "",
2133 field->name);
2134 break;
2135 case atype_struct:
2136 ret = _lttng_struct_statedump(session, field, nesting);
2137 break;
2138 case atype_array_compound:
2139 ret = _lttng_array_compound_statedump(session, field, nesting);
2140 break;
2141 case atype_sequence_compound:
2142 ret = _lttng_sequence_compound_statedump(session, field, nesting);
2143 break;
2144 case atype_variant:
2145 ret = _lttng_variant_statedump(session, field, nesting);
2146 break;
2147
2148 default:
2149 WARN_ON_ONCE(1);
2150 return -EINVAL;
2151 }
2152 return ret;
2153 }
2154
2155 static
2156 int _lttng_context_metadata_statedump(struct lttng_session *session,
2157 struct lttng_ctx *ctx)
2158 {
2159 int ret = 0;
2160 int i;
2161
2162 if (!ctx)
2163 return 0;
2164 for (i = 0; i < ctx->nr_fields; i++) {
2165 const struct lttng_ctx_field *field = &ctx->fields[i];
2166
2167 ret = _lttng_field_statedump(session, &field->event_field, 2);
2168 if (ret)
2169 return ret;
2170 }
2171 return ret;
2172 }
2173
2174 static
2175 int _lttng_fields_metadata_statedump(struct lttng_session *session,
2176 struct lttng_event *event)
2177 {
2178 const struct lttng_event_desc *desc = event->desc;
2179 int ret = 0;
2180 int i;
2181
2182 for (i = 0; i < desc->nr_fields; i++) {
2183 const struct lttng_event_field *field = &desc->fields[i];
2184
2185 ret = _lttng_field_statedump(session, field, 2);
2186 if (ret)
2187 return ret;
2188 }
2189 return ret;
2190 }
2191
2192 /*
2193 * Must be called with sessions_mutex held.
2194 */
2195 static
2196 int _lttng_event_metadata_statedump(struct lttng_session *session,
2197 struct lttng_channel *chan,
2198 struct lttng_event *event)
2199 {
2200 int ret = 0;
2201
2202 if (event->metadata_dumped || !ACCESS_ONCE(session->active))
2203 return 0;
2204 if (chan->channel_type == METADATA_CHANNEL)
2205 return 0;
2206
2207 ret = lttng_metadata_printf(session,
2208 "event {\n"
2209 " name = \"%s\";\n"
2210 " id = %u;\n"
2211 " stream_id = %u;\n",
2212 event->desc->name,
2213 event->id,
2214 event->chan->id);
2215 if (ret)
2216 goto end;
2217
2218 if (event->ctx) {
2219 ret = lttng_metadata_printf(session,
2220 " context := struct {\n");
2221 if (ret)
2222 goto end;
2223 }
2224 ret = _lttng_context_metadata_statedump(session, event->ctx);
2225 if (ret)
2226 goto end;
2227 if (event->ctx) {
2228 ret = lttng_metadata_printf(session,
2229 " };\n");
2230 if (ret)
2231 goto end;
2232 }
2233
2234 ret = lttng_metadata_printf(session,
2235 " fields := struct {\n"
2236 );
2237 if (ret)
2238 goto end;
2239
2240 ret = _lttng_fields_metadata_statedump(session, event);
2241 if (ret)
2242 goto end;
2243
2244 /*
2245 * LTTng space reservation can only reserve multiples of the
2246 * byte size.
2247 */
2248 ret = lttng_metadata_printf(session,
2249 " };\n"
2250 "};\n\n");
2251 if (ret)
2252 goto end;
2253
2254 event->metadata_dumped = 1;
2255 end:
2256 return ret;
2257
2258 }
2259
2260 /*
2261 * Must be called with sessions_mutex held.
2262 */
2263 static
2264 int _lttng_channel_metadata_statedump(struct lttng_session *session,
2265 struct lttng_channel *chan)
2266 {
2267 int ret = 0;
2268
2269 if (chan->metadata_dumped || !ACCESS_ONCE(session->active))
2270 return 0;
2271
2272 if (chan->channel_type == METADATA_CHANNEL)
2273 return 0;
2274
2275 WARN_ON_ONCE(!chan->header_type);
2276 ret = lttng_metadata_printf(session,
2277 "stream {\n"
2278 " id = %u;\n"
2279 " event.header := %s;\n"
2280 " packet.context := struct packet_context;\n",
2281 chan->id,
2282 chan->header_type == 1 ? "struct event_header_compact" :
2283 "struct event_header_large");
2284 if (ret)
2285 goto end;
2286
2287 if (chan->ctx) {
2288 ret = lttng_metadata_printf(session,
2289 " event.context := struct {\n");
2290 if (ret)
2291 goto end;
2292 }
2293 ret = _lttng_context_metadata_statedump(session, chan->ctx);
2294 if (ret)
2295 goto end;
2296 if (chan->ctx) {
2297 ret = lttng_metadata_printf(session,
2298 " };\n");
2299 if (ret)
2300 goto end;
2301 }
2302
2303 ret = lttng_metadata_printf(session,
2304 "};\n\n");
2305
2306 chan->metadata_dumped = 1;
2307 end:
2308 return ret;
2309 }
2310
2311 /*
2312 * Must be called with sessions_mutex held.
2313 */
2314 static
2315 int _lttng_stream_packet_context_declare(struct lttng_session *session)
2316 {
2317 return lttng_metadata_printf(session,
2318 "struct packet_context {\n"
2319 " uint64_clock_monotonic_t timestamp_begin;\n"
2320 " uint64_clock_monotonic_t timestamp_end;\n"
2321 " uint64_t content_size;\n"
2322 " uint64_t packet_size;\n"
2323 " uint64_t packet_seq_num;\n"
2324 " unsigned long events_discarded;\n"
2325 " uint32_t cpu_id;\n"
2326 "};\n\n"
2327 );
2328 }
2329
2330 /*
2331 * Compact header:
2332 * id: range: 0 - 30.
2333 * id 31 is reserved to indicate an extended header.
2334 *
2335 * Large header:
2336 * id: range: 0 - 65534.
2337 * id 65535 is reserved to indicate an extended header.
2338 *
2339 * Must be called with sessions_mutex held.
2340 */
2341 static
2342 int _lttng_event_header_declare(struct lttng_session *session)
2343 {
2344 return lttng_metadata_printf(session,
2345 "struct event_header_compact {\n"
2346 " enum : uint5_t { compact = 0 ... 30, extended = 31 } id;\n"
2347 " variant <id> {\n"
2348 " struct {\n"
2349 " uint27_clock_monotonic_t timestamp;\n"
2350 " } compact;\n"
2351 " struct {\n"
2352 " uint32_t id;\n"
2353 " uint64_clock_monotonic_t timestamp;\n"
2354 " } extended;\n"
2355 " } v;\n"
2356 "} align(%u);\n"
2357 "\n"
2358 "struct event_header_large {\n"
2359 " enum : uint16_t { compact = 0 ... 65534, extended = 65535 } id;\n"
2360 " variant <id> {\n"
2361 " struct {\n"
2362 " uint32_clock_monotonic_t timestamp;\n"
2363 " } compact;\n"
2364 " struct {\n"
2365 " uint32_t id;\n"
2366 " uint64_clock_monotonic_t timestamp;\n"
2367 " } extended;\n"
2368 " } v;\n"
2369 "} align(%u);\n\n",
2370 lttng_alignof(uint32_t) * CHAR_BIT,
2371 lttng_alignof(uint16_t) * CHAR_BIT
2372 );
2373 }
2374
2375 /*
2376 * Approximation of NTP time of day to clock monotonic correlation,
2377 * taken at start of trace.
2378 * Yes, this is only an approximation. Yes, we can (and will) do better
2379 * in future versions.
2380 * This function may return a negative offset. It may happen if the
2381 * system sets the REALTIME clock to 0 after boot.
2382 */
2383 static
2384 int64_t measure_clock_offset(void)
2385 {
2386 uint64_t monotonic_avg, monotonic[2], realtime;
2387 uint64_t tcf = trace_clock_freq();
2388 int64_t offset;
2389 struct timespec rts = { 0, 0 };
2390 unsigned long flags;
2391
2392 /* Disable interrupts to increase correlation precision. */
2393 local_irq_save(flags);
2394 monotonic[0] = trace_clock_read64();
2395 getnstimeofday(&rts);
2396 monotonic[1] = trace_clock_read64();
2397 local_irq_restore(flags);
2398
2399 monotonic_avg = (monotonic[0] + monotonic[1]) >> 1;
2400 realtime = (uint64_t) rts.tv_sec * tcf;
2401 if (tcf == NSEC_PER_SEC) {
2402 realtime += rts.tv_nsec;
2403 } else {
2404 uint64_t n = rts.tv_nsec * tcf;
2405
2406 do_div(n, NSEC_PER_SEC);
2407 realtime += n;
2408 }
2409 offset = (int64_t) realtime - monotonic_avg;
2410 return offset;
2411 }
2412
2413 /*
2414 * Output metadata into this session's metadata buffers.
2415 * Must be called with sessions_mutex held.
2416 */
2417 static
2418 int _lttng_session_metadata_statedump(struct lttng_session *session)
2419 {
2420 unsigned char *uuid_c = session->uuid.b;
2421 unsigned char uuid_s[37], clock_uuid_s[BOOT_ID_LEN];
2422 struct lttng_channel *chan;
2423 struct lttng_event *event;
2424 int ret = 0;
2425
2426 if (!ACCESS_ONCE(session->active))
2427 return 0;
2428 if (session->metadata_dumped)
2429 goto skip_session;
2430
2431 snprintf(uuid_s, sizeof(uuid_s),
2432 "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x",
2433 uuid_c[0], uuid_c[1], uuid_c[2], uuid_c[3],
2434 uuid_c[4], uuid_c[5], uuid_c[6], uuid_c[7],
2435 uuid_c[8], uuid_c[9], uuid_c[10], uuid_c[11],
2436 uuid_c[12], uuid_c[13], uuid_c[14], uuid_c[15]);
2437
2438 ret = lttng_metadata_printf(session,
2439 "typealias integer { size = 8; align = %u; signed = false; } := uint8_t;\n"
2440 "typealias integer { size = 16; align = %u; signed = false; } := uint16_t;\n"
2441 "typealias integer { size = 32; align = %u; signed = false; } := uint32_t;\n"
2442 "typealias integer { size = 64; align = %u; signed = false; } := uint64_t;\n"
2443 "typealias integer { size = %u; align = %u; signed = false; } := unsigned long;\n"
2444 "typealias integer { size = 5; align = 1; signed = false; } := uint5_t;\n"
2445 "typealias integer { size = 27; align = 1; signed = false; } := uint27_t;\n"
2446 "\n"
2447 "trace {\n"
2448 " major = %u;\n"
2449 " minor = %u;\n"
2450 " uuid = \"%s\";\n"
2451 " byte_order = %s;\n"
2452 " packet.header := struct {\n"
2453 " uint32_t magic;\n"
2454 " uint8_t uuid[16];\n"
2455 " uint32_t stream_id;\n"
2456 " uint64_t stream_instance_id;\n"
2457 " };\n"
2458 "};\n\n",
2459 lttng_alignof(uint8_t) * CHAR_BIT,
2460 lttng_alignof(uint16_t) * CHAR_BIT,
2461 lttng_alignof(uint32_t) * CHAR_BIT,
2462 lttng_alignof(uint64_t) * CHAR_BIT,
2463 sizeof(unsigned long) * CHAR_BIT,
2464 lttng_alignof(unsigned long) * CHAR_BIT,
2465 CTF_SPEC_MAJOR,
2466 CTF_SPEC_MINOR,
2467 uuid_s,
2468 #if __BYTE_ORDER == __BIG_ENDIAN
2469 "be"
2470 #else
2471 "le"
2472 #endif
2473 );
2474 if (ret)
2475 goto end;
2476
2477 ret = lttng_metadata_printf(session,
2478 "env {\n"
2479 " hostname = \"%s\";\n"
2480 " domain = \"kernel\";\n"
2481 " sysname = \"%s\";\n"
2482 " kernel_release = \"%s\";\n"
2483 " kernel_version = \"%s\";\n"
2484 " tracer_name = \"lttng-modules\";\n"
2485 " tracer_major = %d;\n"
2486 " tracer_minor = %d;\n"
2487 " tracer_patchlevel = %d;\n"
2488 "};\n\n",
2489 current->nsproxy->uts_ns->name.nodename,
2490 utsname()->sysname,
2491 utsname()->release,
2492 utsname()->version,
2493 LTTNG_MODULES_MAJOR_VERSION,
2494 LTTNG_MODULES_MINOR_VERSION,
2495 LTTNG_MODULES_PATCHLEVEL_VERSION
2496 );
2497 if (ret)
2498 goto end;
2499
2500 ret = lttng_metadata_printf(session,
2501 "clock {\n"
2502 " name = \"%s\";\n",
2503 trace_clock_name()
2504 );
2505 if (ret)
2506 goto end;
2507
2508 if (!trace_clock_uuid(clock_uuid_s)) {
2509 ret = lttng_metadata_printf(session,
2510 " uuid = \"%s\";\n",
2511 clock_uuid_s
2512 );
2513 if (ret)
2514 goto end;
2515 }
2516
2517 ret = lttng_metadata_printf(session,
2518 " description = \"%s\";\n"
2519 " freq = %llu; /* Frequency, in Hz */\n"
2520 " /* clock value offset from Epoch is: offset * (1/freq) */\n"
2521 " offset = %lld;\n"
2522 "};\n\n",
2523 trace_clock_description(),
2524 (unsigned long long) trace_clock_freq(),
2525 (long long) measure_clock_offset()
2526 );
2527 if (ret)
2528 goto end;
2529
2530 ret = lttng_metadata_printf(session,
2531 "typealias integer {\n"
2532 " size = 27; align = 1; signed = false;\n"
2533 " map = clock.%s.value;\n"
2534 "} := uint27_clock_monotonic_t;\n"
2535 "\n"
2536 "typealias integer {\n"
2537 " size = 32; align = %u; signed = false;\n"
2538 " map = clock.%s.value;\n"
2539 "} := uint32_clock_monotonic_t;\n"
2540 "\n"
2541 "typealias integer {\n"
2542 " size = 64; align = %u; signed = false;\n"
2543 " map = clock.%s.value;\n"
2544 "} := uint64_clock_monotonic_t;\n\n",
2545 trace_clock_name(),
2546 lttng_alignof(uint32_t) * CHAR_BIT,
2547 trace_clock_name(),
2548 lttng_alignof(uint64_t) * CHAR_BIT,
2549 trace_clock_name()
2550 );
2551 if (ret)
2552 goto end;
2553
2554 ret = _lttng_stream_packet_context_declare(session);
2555 if (ret)
2556 goto end;
2557
2558 ret = _lttng_event_header_declare(session);
2559 if (ret)
2560 goto end;
2561
2562 skip_session:
2563 list_for_each_entry(chan, &session->chan, list) {
2564 ret = _lttng_channel_metadata_statedump(session, chan);
2565 if (ret)
2566 goto end;
2567 }
2568
2569 list_for_each_entry(event, &session->events, list) {
2570 ret = _lttng_event_metadata_statedump(session, event->chan, event);
2571 if (ret)
2572 goto end;
2573 }
2574 session->metadata_dumped = 1;
2575 end:
2576 return ret;
2577 }
2578
2579 /**
2580 * lttng_transport_register - LTT transport registration
2581 * @transport: transport structure
2582 *
2583 * Registers a transport which can be used as output to extract the data out of
2584 * LTTng. The module calling this registration function must ensure that no
2585 * trap-inducing code will be executed by the transport functions. E.g.
2586 * vmalloc_sync_all() must be called between a vmalloc and the moment the memory
2587 * is made visible to the transport function. This registration acts as a
2588 * vmalloc_sync_all. Therefore, only if the module allocates virtual memory
2589 * after its registration must it synchronize the TLBs.
2590 */
2591 void lttng_transport_register(struct lttng_transport *transport)
2592 {
2593 /*
2594 * Make sure no page fault can be triggered by the module about to be
2595 * registered. We deal with this here so we don't have to call
2596 * vmalloc_sync_all() in each module's init.
2597 */
2598 wrapper_vmalloc_sync_all();
2599
2600 mutex_lock(&sessions_mutex);
2601 list_add_tail(&transport->node, &lttng_transport_list);
2602 mutex_unlock(&sessions_mutex);
2603 }
2604 EXPORT_SYMBOL_GPL(lttng_transport_register);
2605
2606 /**
2607 * lttng_transport_unregister - LTT transport unregistration
2608 * @transport: transport structure
2609 */
2610 void lttng_transport_unregister(struct lttng_transport *transport)
2611 {
2612 mutex_lock(&sessions_mutex);
2613 list_del(&transport->node);
2614 mutex_unlock(&sessions_mutex);
2615 }
2616 EXPORT_SYMBOL_GPL(lttng_transport_unregister);
2617
2618 static int __init lttng_events_init(void)
2619 {
2620 int ret;
2621
2622 ret = wrapper_lttng_fixup_sig(THIS_MODULE);
2623 if (ret)
2624 return ret;
2625 ret = wrapper_get_pfnblock_flags_mask_init();
2626 if (ret)
2627 return ret;
2628 ret = wrapper_get_pageblock_flags_mask_init();
2629 if (ret)
2630 return ret;
2631 ret = lttng_probes_init();
2632 if (ret)
2633 return ret;
2634 ret = lttng_context_init();
2635 if (ret)
2636 return ret;
2637 ret = lttng_tracepoint_init();
2638 if (ret)
2639 goto error_tp;
2640 event_cache = KMEM_CACHE(lttng_event, 0);
2641 if (!event_cache) {
2642 ret = -ENOMEM;
2643 goto error_kmem;
2644 }
2645 ret = lttng_abi_init();
2646 if (ret)
2647 goto error_abi;
2648 ret = lttng_logger_init();
2649 if (ret)
2650 goto error_logger;
2651 return 0;
2652
2653 error_logger:
2654 lttng_abi_exit();
2655 error_abi:
2656 kmem_cache_destroy(event_cache);
2657 error_kmem:
2658 lttng_tracepoint_exit();
2659 error_tp:
2660 lttng_context_exit();
2661 return ret;
2662 }
2663
2664 module_init(lttng_events_init);
2665
2666 static void __exit lttng_events_exit(void)
2667 {
2668 struct lttng_session *session, *tmpsession;
2669
2670 lttng_logger_exit();
2671 lttng_abi_exit();
2672 list_for_each_entry_safe(session, tmpsession, &sessions, list)
2673 lttng_session_destroy(session);
2674 kmem_cache_destroy(event_cache);
2675 lttng_tracepoint_exit();
2676 lttng_context_exit();
2677 }
2678
2679 module_exit(lttng_events_exit);
2680
2681 MODULE_LICENSE("GPL and additional rights");
2682 MODULE_AUTHOR("Mathieu Desnoyers <mathieu.desnoyers@efficios.com>");
2683 MODULE_DESCRIPTION("LTTng Events");
2684 MODULE_VERSION(__stringify(LTTNG_MODULES_MAJOR_VERSION) "."
2685 __stringify(LTTNG_MODULES_MINOR_VERSION) "."
2686 __stringify(LTTNG_MODULES_PATCHLEVEL_VERSION)
2687 LTTNG_MODULES_EXTRAVERSION);
LTTng 2.0/0.x modules
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