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fix 32 bit support by conditionally compiling gdb support
[ust.git] / libust / marker.c
1 /*
2 * Copyright (C) 2007 Mathieu Desnoyers
3 *
4 * This library is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU Lesser General Public
6 * License as published by the Free Software Foundation; either
7 * version 2.1 of the License, or (at your option) any later version.
8 *
9 * This library is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * Lesser General Public License for more details.
13 *
14 * You should have received a copy of the GNU Lesser General Public
15 * License along with this library; if not, write to the Free Software
16 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
17 */
18 //ust// #include <linux/module.h>
19 //ust// #include <linux/mutex.h>
20 //ust// #include <linux/types.h>
21 //#include "jhash.h"
22 //#include "list.h"
23 //#include "rcupdate.h"
24 //ust// #include <linux/marker.h>
25 #include <errno.h>
26 //ust// #include <linux/slab.h>
27 //ust// #include <linux/immediate.h>
28 //ust// #include <linux/sched.h>
29 //ust// #include <linux/uaccess.h>
30 //ust// #include <linux/user_marker.h>
31 //ust// #include <linux/ltt-tracer.h>
32
33 #define _LGPL_SOURCE
34 #include <urcu-bp.h>
35
36 #include <ust/kernelcompat.h>
37
38 #include <ust/marker.h>
39 #include "usterr.h"
40 #include "channels.h"
41 #include "tracercore.h"
42 #include "tracer.h"
43
44 __thread long ust_reg_stack[500];
45 volatile __thread long *ust_reg_stack_ptr = (long *) 0;
46
47 extern struct marker __start___markers[] __attribute__((visibility("hidden")));
48 extern struct marker __stop___markers[] __attribute__((visibility("hidden")));
49
50 #ifdef CONFIG_UST_GDB_INTEGRATION
51 extern struct marker_addr __start___marker_addr[] __attribute__((visibility("hidden")));
52 extern struct marker_addr __stop___marker_addr[] __attribute__((visibility("hidden")));
53 #endif
54
55 /* Set to 1 to enable marker debug output */
56 static const int marker_debug;
57
58 /*
59 * markers_mutex nests inside module_mutex. Markers mutex protects the builtin
60 * and module markers and the hash table.
61 */
62 static DEFINE_MUTEX(markers_mutex);
63
64 static LIST_HEAD(libs);
65
66
67 void lock_markers(void)
68 {
69 mutex_lock(&markers_mutex);
70 }
71
72 void unlock_markers(void)
73 {
74 mutex_unlock(&markers_mutex);
75 }
76
77 /*
78 * Marker hash table, containing the active markers.
79 * Protected by module_mutex.
80 */
81 #define MARKER_HASH_BITS 6
82 #define MARKER_TABLE_SIZE (1 << MARKER_HASH_BITS)
83 static struct hlist_head marker_table[MARKER_TABLE_SIZE];
84
85 /*
86 * Note about RCU :
87 * It is used to make sure every handler has finished using its private data
88 * between two consecutive operation (add or remove) on a given marker. It is
89 * also used to delay the free of multiple probes array until a quiescent state
90 * is reached.
91 * marker entries modifications are protected by the markers_mutex.
92 */
93 struct marker_entry {
94 struct hlist_node hlist;
95 char *format;
96 char *name;
97 /* Probe wrapper */
98 void (*call)(const struct marker *mdata, void *call_private, struct registers *regs, ...);
99 struct marker_probe_closure single;
100 struct marker_probe_closure *multi;
101 int refcount; /* Number of times armed. 0 if disarmed. */
102 struct rcu_head rcu;
103 void *oldptr;
104 int rcu_pending;
105 u16 channel_id;
106 u16 event_id;
107 unsigned char ptype:1;
108 unsigned char format_allocated:1;
109 char channel[0]; /* Contains channel'\0'name'\0'format'\0' */
110 };
111
112 #ifdef CONFIG_MARKERS_USERSPACE
113 static void marker_update_processes(void);
114 #else
115 static void marker_update_processes(void)
116 {
117 }
118 #endif
119
120 /**
121 * __mark_empty_function - Empty probe callback
122 * @mdata: marker data
123 * @probe_private: probe private data
124 * @call_private: call site private data
125 * @fmt: format string
126 * @...: variable argument list
127 *
128 * Empty callback provided as a probe to the markers. By providing this to a
129 * disabled marker, we make sure the execution flow is always valid even
130 * though the function pointer change and the marker enabling are two distinct
131 * operations that modifies the execution flow of preemptible code.
132 */
133 notrace void __mark_empty_function(const struct marker *mdata,
134 void *probe_private, struct registers *regs, void *call_private, const char *fmt, va_list *args)
135 {
136 }
137 //ust// EXPORT_SYMBOL_GPL(__mark_empty_function);
138
139 /*
140 * marker_probe_cb Callback that prepares the variable argument list for probes.
141 * @mdata: pointer of type struct marker
142 * @call_private: caller site private data
143 * @...: Variable argument list.
144 *
145 * Since we do not use "typical" pointer based RCU in the 1 argument case, we
146 * need to put a full smp_rmb() in this branch. This is why we do not use
147 * rcu_dereference() for the pointer read.
148 */
149 notrace void marker_probe_cb(const struct marker *mdata,
150 void *call_private, struct registers *regs, ...)
151 {
152 va_list args;
153 char ptype;
154
155 /*
156 * rcu_read_lock_sched does two things : disabling preemption to make
157 * sure the teardown of the callbacks can be done correctly when they
158 * are in modules and they insure RCU read coherency.
159 */
160 //ust// rcu_read_lock_sched_notrace();
161 ptype = mdata->ptype;
162 if (likely(!ptype)) {
163 marker_probe_func *func;
164 /* Must read the ptype before ptr. They are not data dependant,
165 * so we put an explicit smp_rmb() here. */
166 smp_rmb();
167 func = mdata->single.func;
168 /* Must read the ptr before private data. They are not data
169 * dependant, so we put an explicit smp_rmb() here. */
170 smp_rmb();
171 va_start(args, regs);
172 func(mdata, mdata->single.probe_private, regs, call_private,
173 mdata->format, &args);
174 va_end(args);
175 } else {
176 struct marker_probe_closure *multi;
177 int i;
178 /*
179 * Read mdata->ptype before mdata->multi.
180 */
181 smp_rmb();
182 multi = mdata->multi;
183 /*
184 * multi points to an array, therefore accessing the array
185 * depends on reading multi. However, even in this case,
186 * we must insure that the pointer is read _before_ the array
187 * data. Same as rcu_dereference, but we need a full smp_rmb()
188 * in the fast path, so put the explicit barrier here.
189 */
190 smp_read_barrier_depends();
191 for (i = 0; multi[i].func; i++) {
192 va_start(args, regs);
193 multi[i].func(mdata, multi[i].probe_private,
194 regs, call_private, mdata->format, &args);
195 va_end(args);
196 }
197 }
198 //ust// rcu_read_unlock_sched_notrace();
199 }
200 //ust// EXPORT_SYMBOL_GPL(marker_probe_cb);
201
202 /*
203 * marker_probe_cb Callback that does not prepare the variable argument list.
204 * @mdata: pointer of type struct marker
205 * @call_private: caller site private data
206 * @...: Variable argument list.
207 *
208 * Should be connected to markers "MARK_NOARGS".
209 */
210 static notrace void marker_probe_cb_noarg(const struct marker *mdata,
211 void *call_private, struct registers *regs, ...)
212 {
213 va_list args; /* not initialized */
214 char ptype;
215
216 //ust// rcu_read_lock_sched_notrace();
217 ptype = mdata->ptype;
218 if (likely(!ptype)) {
219 marker_probe_func *func;
220 /* Must read the ptype before ptr. They are not data dependant,
221 * so we put an explicit smp_rmb() here. */
222 smp_rmb();
223 func = mdata->single.func;
224 /* Must read the ptr before private data. They are not data
225 * dependant, so we put an explicit smp_rmb() here. */
226 smp_rmb();
227 func(mdata, mdata->single.probe_private, regs, call_private,
228 mdata->format, &args);
229 } else {
230 struct marker_probe_closure *multi;
231 int i;
232 /*
233 * Read mdata->ptype before mdata->multi.
234 */
235 smp_rmb();
236 multi = mdata->multi;
237 /*
238 * multi points to an array, therefore accessing the array
239 * depends on reading multi. However, even in this case,
240 * we must insure that the pointer is read _before_ the array
241 * data. Same as rcu_dereference, but we need a full smp_rmb()
242 * in the fast path, so put the explicit barrier here.
243 */
244 smp_read_barrier_depends();
245 for (i = 0; multi[i].func; i++)
246 multi[i].func(mdata, multi[i].probe_private, regs,
247 call_private, mdata->format, &args);
248 }
249 //ust// rcu_read_unlock_sched_notrace();
250 }
251
252 static void free_old_closure(struct rcu_head *head)
253 {
254 struct marker_entry *entry = container_of(head,
255 struct marker_entry, rcu);
256 kfree(entry->oldptr);
257 /* Make sure we free the data before setting the pending flag to 0 */
258 smp_wmb();
259 entry->rcu_pending = 0;
260 }
261
262 static void debug_print_probes(struct marker_entry *entry)
263 {
264 int i;
265
266 if (!marker_debug)
267 return;
268
269 if (!entry->ptype) {
270 printk(KERN_DEBUG "Single probe : %p %p\n",
271 entry->single.func,
272 entry->single.probe_private);
273 } else {
274 for (i = 0; entry->multi[i].func; i++)
275 printk(KERN_DEBUG "Multi probe %d : %p %p\n", i,
276 entry->multi[i].func,
277 entry->multi[i].probe_private);
278 }
279 }
280
281 static struct marker_probe_closure *
282 marker_entry_add_probe(struct marker_entry *entry,
283 marker_probe_func *probe, void *probe_private)
284 {
285 int nr_probes = 0;
286 struct marker_probe_closure *old, *new;
287
288 WARN_ON(!probe);
289
290 debug_print_probes(entry);
291 old = entry->multi;
292 if (!entry->ptype) {
293 if (entry->single.func == probe &&
294 entry->single.probe_private == probe_private)
295 return ERR_PTR(-EBUSY);
296 if (entry->single.func == __mark_empty_function) {
297 /* 0 -> 1 probes */
298 entry->single.func = probe;
299 entry->single.probe_private = probe_private;
300 entry->refcount = 1;
301 entry->ptype = 0;
302 debug_print_probes(entry);
303 return NULL;
304 } else {
305 /* 1 -> 2 probes */
306 nr_probes = 1;
307 old = NULL;
308 }
309 } else {
310 /* (N -> N+1), (N != 0, 1) probes */
311 for (nr_probes = 0; old[nr_probes].func; nr_probes++)
312 if (old[nr_probes].func == probe
313 && old[nr_probes].probe_private
314 == probe_private)
315 return ERR_PTR(-EBUSY);
316 }
317 /* + 2 : one for new probe, one for NULL func */
318 new = kzalloc((nr_probes + 2) * sizeof(struct marker_probe_closure),
319 GFP_KERNEL);
320 if (new == NULL)
321 return ERR_PTR(-ENOMEM);
322 if (!old)
323 new[0] = entry->single;
324 else
325 memcpy(new, old,
326 nr_probes * sizeof(struct marker_probe_closure));
327 new[nr_probes].func = probe;
328 new[nr_probes].probe_private = probe_private;
329 entry->refcount = nr_probes + 1;
330 entry->multi = new;
331 entry->ptype = 1;
332 debug_print_probes(entry);
333 return old;
334 }
335
336 static struct marker_probe_closure *
337 marker_entry_remove_probe(struct marker_entry *entry,
338 marker_probe_func *probe, void *probe_private)
339 {
340 int nr_probes = 0, nr_del = 0, i;
341 struct marker_probe_closure *old, *new;
342
343 old = entry->multi;
344
345 debug_print_probes(entry);
346 if (!entry->ptype) {
347 /* 0 -> N is an error */
348 WARN_ON(entry->single.func == __mark_empty_function);
349 /* 1 -> 0 probes */
350 WARN_ON(probe && entry->single.func != probe);
351 WARN_ON(entry->single.probe_private != probe_private);
352 entry->single.func = __mark_empty_function;
353 entry->refcount = 0;
354 entry->ptype = 0;
355 debug_print_probes(entry);
356 return NULL;
357 } else {
358 /* (N -> M), (N > 1, M >= 0) probes */
359 for (nr_probes = 0; old[nr_probes].func; nr_probes++) {
360 if ((!probe || old[nr_probes].func == probe)
361 && old[nr_probes].probe_private
362 == probe_private)
363 nr_del++;
364 }
365 }
366
367 if (nr_probes - nr_del == 0) {
368 /* N -> 0, (N > 1) */
369 entry->single.func = __mark_empty_function;
370 entry->refcount = 0;
371 entry->ptype = 0;
372 } else if (nr_probes - nr_del == 1) {
373 /* N -> 1, (N > 1) */
374 for (i = 0; old[i].func; i++)
375 if ((probe && old[i].func != probe) ||
376 old[i].probe_private != probe_private)
377 entry->single = old[i];
378 entry->refcount = 1;
379 entry->ptype = 0;
380 } else {
381 int j = 0;
382 /* N -> M, (N > 1, M > 1) */
383 /* + 1 for NULL */
384 new = kzalloc((nr_probes - nr_del + 1)
385 * sizeof(struct marker_probe_closure), GFP_KERNEL);
386 if (new == NULL)
387 return ERR_PTR(-ENOMEM);
388 for (i = 0; old[i].func; i++)
389 if ((probe && old[i].func != probe) ||
390 old[i].probe_private != probe_private)
391 new[j++] = old[i];
392 entry->refcount = nr_probes - nr_del;
393 entry->ptype = 1;
394 entry->multi = new;
395 }
396 debug_print_probes(entry);
397 return old;
398 }
399
400 /*
401 * Get marker if the marker is present in the marker hash table.
402 * Must be called with markers_mutex held.
403 * Returns NULL if not present.
404 */
405 static struct marker_entry *get_marker(const char *channel, const char *name)
406 {
407 struct hlist_head *head;
408 struct hlist_node *node;
409 struct marker_entry *e;
410 size_t channel_len = strlen(channel) + 1;
411 size_t name_len = strlen(name) + 1;
412 u32 hash;
413
414 hash = jhash(channel, channel_len-1, 0) ^ jhash(name, name_len-1, 0);
415 head = &marker_table[hash & ((1 << MARKER_HASH_BITS)-1)];
416 hlist_for_each_entry(e, node, head, hlist) {
417 if (!strcmp(channel, e->channel) && !strcmp(name, e->name))
418 return e;
419 }
420 return NULL;
421 }
422
423 /*
424 * Add the marker to the marker hash table. Must be called with markers_mutex
425 * held.
426 */
427 static struct marker_entry *add_marker(const char *channel, const char *name,
428 const char *format)
429 {
430 struct hlist_head *head;
431 struct hlist_node *node;
432 struct marker_entry *e;
433 size_t channel_len = strlen(channel) + 1;
434 size_t name_len = strlen(name) + 1;
435 size_t format_len = 0;
436 u32 hash;
437
438 hash = jhash(channel, channel_len-1, 0) ^ jhash(name, name_len-1, 0);
439 if (format)
440 format_len = strlen(format) + 1;
441 head = &marker_table[hash & ((1 << MARKER_HASH_BITS)-1)];
442 hlist_for_each_entry(e, node, head, hlist) {
443 if (!strcmp(channel, e->channel) && !strcmp(name, e->name)) {
444 printk(KERN_NOTICE
445 "Marker %s.%s busy\n", channel, name);
446 return ERR_PTR(-EBUSY); /* Already there */
447 }
448 }
449 /*
450 * Using kmalloc here to allocate a variable length element. Could
451 * cause some memory fragmentation if overused.
452 */
453 e = kmalloc(sizeof(struct marker_entry)
454 + channel_len + name_len + format_len,
455 GFP_KERNEL);
456 if (!e)
457 return ERR_PTR(-ENOMEM);
458 memcpy(e->channel, channel, channel_len);
459 e->name = &e->channel[channel_len];
460 memcpy(e->name, name, name_len);
461 if (format) {
462 e->format = &e->name[channel_len + name_len];
463 memcpy(e->format, format, format_len);
464 if (strcmp(e->format, MARK_NOARGS) == 0)
465 e->call = marker_probe_cb_noarg;
466 else
467 e->call = marker_probe_cb;
468 trace_mark(metadata, core_marker_format,
469 "channel %s name %s format %s",
470 e->channel, e->name, e->format);
471 } else {
472 e->format = NULL;
473 e->call = marker_probe_cb;
474 }
475 e->single.func = __mark_empty_function;
476 e->single.probe_private = NULL;
477 e->multi = NULL;
478 e->ptype = 0;
479 e->format_allocated = 0;
480 e->refcount = 0;
481 e->rcu_pending = 0;
482 hlist_add_head(&e->hlist, head);
483 return e;
484 }
485
486 /*
487 * Remove the marker from the marker hash table. Must be called with mutex_lock
488 * held.
489 */
490 static int remove_marker(const char *channel, const char *name)
491 {
492 struct hlist_head *head;
493 struct hlist_node *node;
494 struct marker_entry *e;
495 int found = 0;
496 size_t channel_len = strlen(channel) + 1;
497 size_t name_len = strlen(name) + 1;
498 u32 hash;
499 int ret;
500
501 hash = jhash(channel, channel_len-1, 0) ^ jhash(name, name_len-1, 0);
502 head = &marker_table[hash & ((1 << MARKER_HASH_BITS)-1)];
503 hlist_for_each_entry(e, node, head, hlist) {
504 if (!strcmp(channel, e->channel) && !strcmp(name, e->name)) {
505 found = 1;
506 break;
507 }
508 }
509 if (!found)
510 return -ENOENT;
511 if (e->single.func != __mark_empty_function)
512 return -EBUSY;
513 hlist_del(&e->hlist);
514 if (e->format_allocated)
515 kfree(e->format);
516 ret = ltt_channels_unregister(e->channel);
517 WARN_ON(ret);
518 /* Make sure the call_rcu has been executed */
519 //ust// if (e->rcu_pending)
520 //ust// rcu_barrier_sched();
521 kfree(e);
522 return 0;
523 }
524
525 /*
526 * Set the mark_entry format to the format found in the element.
527 */
528 static int marker_set_format(struct marker_entry *entry, const char *format)
529 {
530 entry->format = kstrdup(format, GFP_KERNEL);
531 if (!entry->format)
532 return -ENOMEM;
533 entry->format_allocated = 1;
534
535 trace_mark(metadata, core_marker_format,
536 "channel %s name %s format %s",
537 entry->channel, entry->name, entry->format);
538 return 0;
539 }
540
541 /*
542 * Sets the probe callback corresponding to one marker.
543 */
544 static int set_marker(struct marker_entry *entry, struct marker *elem,
545 int active)
546 {
547 int ret = 0;
548 WARN_ON(strcmp(entry->name, elem->name) != 0);
549
550 if (entry->format) {
551 if (strcmp(entry->format, elem->format) != 0) {
552 printk(KERN_NOTICE
553 "Format mismatch for probe %s "
554 "(%s), marker (%s)\n",
555 entry->name,
556 entry->format,
557 elem->format);
558 return -EPERM;
559 }
560 } else {
561 ret = marker_set_format(entry, elem->format);
562 if (ret)
563 return ret;
564 }
565
566 /*
567 * probe_cb setup (statically known) is done here. It is
568 * asynchronous with the rest of execution, therefore we only
569 * pass from a "safe" callback (with argument) to an "unsafe"
570 * callback (does not set arguments).
571 */
572 elem->call = entry->call;
573 elem->channel_id = entry->channel_id;
574 elem->event_id = entry->event_id;
575 /*
576 * Sanity check :
577 * We only update the single probe private data when the ptr is
578 * set to a _non_ single probe! (0 -> 1 and N -> 1, N != 1)
579 */
580 WARN_ON(elem->single.func != __mark_empty_function
581 && elem->single.probe_private != entry->single.probe_private
582 && !elem->ptype);
583 elem->single.probe_private = entry->single.probe_private;
584 /*
585 * Make sure the private data is valid when we update the
586 * single probe ptr.
587 */
588 smp_wmb();
589 elem->single.func = entry->single.func;
590 /*
591 * We also make sure that the new probe callbacks array is consistent
592 * before setting a pointer to it.
593 */
594 rcu_assign_pointer(elem->multi, entry->multi);
595 /*
596 * Update the function or multi probe array pointer before setting the
597 * ptype.
598 */
599 smp_wmb();
600 elem->ptype = entry->ptype;
601
602 //ust// if (elem->tp_name && (active ^ _imv_read(elem->state))) {
603 //ust// WARN_ON(!elem->tp_cb);
604 //ust// /*
605 //ust// * It is ok to directly call the probe registration because type
606 //ust// * checking has been done in the __trace_mark_tp() macro.
607 //ust// */
608 //ust//
609 //ust// if (active) {
610 //ust// /*
611 //ust// * try_module_get should always succeed because we hold
612 //ust// * markers_mutex to get the tp_cb address.
613 //ust// */
614 //ust// ret = try_module_get(__module_text_address(
615 //ust// (unsigned long)elem->tp_cb));
616 //ust// BUG_ON(!ret);
617 //ust// ret = tracepoint_probe_register_noupdate(
618 //ust// elem->tp_name,
619 //ust// elem->tp_cb);
620 //ust// } else {
621 //ust// ret = tracepoint_probe_unregister_noupdate(
622 //ust// elem->tp_name,
623 //ust// elem->tp_cb);
624 //ust// /*
625 //ust// * tracepoint_probe_update_all() must be called
626 //ust// * before the module containing tp_cb is unloaded.
627 //ust// */
628 //ust// module_put(__module_text_address(
629 //ust// (unsigned long)elem->tp_cb));
630 //ust// }
631 //ust// }
632 elem->state__imv = active;
633
634 return ret;
635 }
636
637 /*
638 * Disable a marker and its probe callback.
639 * Note: only waiting an RCU period after setting elem->call to the empty
640 * function insures that the original callback is not used anymore. This insured
641 * by rcu_read_lock_sched around the call site.
642 */
643 static void disable_marker(struct marker *elem)
644 {
645 //ust// int ret;
646 //ust//
647 //ust// /* leave "call" as is. It is known statically. */
648 //ust// if (elem->tp_name && _imv_read(elem->state)) {
649 //ust// WARN_ON(!elem->tp_cb);
650 //ust// /*
651 //ust// * It is ok to directly call the probe registration because type
652 //ust// * checking has been done in the __trace_mark_tp() macro.
653 //ust// */
654 //ust// ret = tracepoint_probe_unregister_noupdate(elem->tp_name,
655 //ust// elem->tp_cb);
656 //ust// WARN_ON(ret);
657 //ust// /*
658 //ust// * tracepoint_probe_update_all() must be called
659 //ust// * before the module containing tp_cb is unloaded.
660 //ust// */
661 //ust// module_put(__module_text_address((unsigned long)elem->tp_cb));
662 //ust// }
663 elem->state__imv = 0;
664 elem->single.func = __mark_empty_function;
665 /* Update the function before setting the ptype */
666 smp_wmb();
667 elem->ptype = 0; /* single probe */
668 /*
669 * Leave the private data and channel_id/event_id there, because removal
670 * is racy and should be done only after an RCU period. These are never
671 * used until the next initialization anyway.
672 */
673 }
674
675 /**
676 * marker_update_probe_range - Update a probe range
677 * @begin: beginning of the range
678 * @end: end of the range
679 *
680 * Updates the probe callback corresponding to a range of markers.
681 */
682 void marker_update_probe_range(struct marker *begin,
683 struct marker *end)
684 {
685 struct marker *iter;
686 struct marker_entry *mark_entry;
687
688 mutex_lock(&markers_mutex);
689 for (iter = begin; iter < end; iter++) {
690 mark_entry = get_marker(iter->channel, iter->name);
691 if (mark_entry) {
692 set_marker(mark_entry, iter, !!mark_entry->refcount);
693 /*
694 * ignore error, continue
695 */
696
697 /* This is added for UST. We emit a core_marker_id event
698 * for markers that are already registered to a probe
699 * upon library load. Otherwise, no core_marker_id will
700 * be generated for these markers. Is this the right thing
701 * to do?
702 */
703 trace_mark(metadata, core_marker_id,
704 "channel %s name %s event_id %hu "
705 "int #1u%zu long #1u%zu pointer #1u%zu "
706 "size_t #1u%zu alignment #1u%u",
707 iter->channel, iter->name, mark_entry->event_id,
708 sizeof(int), sizeof(long), sizeof(void *),
709 sizeof(size_t), ltt_get_alignment());
710 } else {
711 disable_marker(iter);
712 }
713 }
714 mutex_unlock(&markers_mutex);
715 }
716
717 static void lib_update_markers(void)
718 {
719 struct lib *lib;
720
721 /* FIXME: we should probably take a mutex here on libs */
722 //ust// mutex_lock(&module_mutex);
723 list_for_each_entry(lib, &libs, list)
724 marker_update_probe_range(lib->markers_start,
725 lib->markers_start + lib->markers_count);
726 //ust// mutex_unlock(&module_mutex);
727 }
728
729 /*
730 * Update probes, removing the faulty probes.
731 *
732 * Internal callback only changed before the first probe is connected to it.
733 * Single probe private data can only be changed on 0 -> 1 and 2 -> 1
734 * transitions. All other transitions will leave the old private data valid.
735 * This makes the non-atomicity of the callback/private data updates valid.
736 *
737 * "special case" updates :
738 * 0 -> 1 callback
739 * 1 -> 0 callback
740 * 1 -> 2 callbacks
741 * 2 -> 1 callbacks
742 * Other updates all behave the same, just like the 2 -> 3 or 3 -> 2 updates.
743 * Site effect : marker_set_format may delete the marker entry (creating a
744 * replacement).
745 */
746 static void marker_update_probes(void)
747 {
748 /* Core kernel markers */
749 //ust// marker_update_probe_range(__start___markers, __stop___markers);
750 /* Markers in modules. */
751 //ust// module_update_markers();
752 lib_update_markers();
753 //ust// tracepoint_probe_update_all();
754 /* Update immediate values */
755 core_imv_update();
756 //ust// module_imv_update(); /* FIXME: need to port for libs? */
757 marker_update_processes();
758 }
759
760 /**
761 * marker_probe_register - Connect a probe to a marker
762 * @channel: marker channel
763 * @name: marker name
764 * @format: format string
765 * @probe: probe handler
766 * @probe_private: probe private data
767 *
768 * private data must be a valid allocated memory address, or NULL.
769 * Returns 0 if ok, error value on error.
770 * The probe address must at least be aligned on the architecture pointer size.
771 */
772 int marker_probe_register(const char *channel, const char *name,
773 const char *format, marker_probe_func *probe,
774 void *probe_private)
775 {
776 struct marker_entry *entry;
777 int ret = 0, ret_err;
778 struct marker_probe_closure *old;
779 int first_probe = 0;
780
781 mutex_lock(&markers_mutex);
782 entry = get_marker(channel, name);
783 if (!entry) {
784 first_probe = 1;
785 entry = add_marker(channel, name, format);
786 if (IS_ERR(entry))
787 ret = PTR_ERR(entry);
788 if (ret)
789 goto end;
790 ret = ltt_channels_register(channel);
791 if (ret)
792 goto error_remove_marker;
793 ret = ltt_channels_get_index_from_name(channel);
794 if (ret < 0)
795 goto error_unregister_channel;
796 entry->channel_id = ret;
797 ret = ltt_channels_get_event_id(channel, name);
798 if (ret < 0)
799 goto error_unregister_channel;
800 entry->event_id = ret;
801 ret = 0;
802 trace_mark(metadata, core_marker_id,
803 "channel %s name %s event_id %hu "
804 "int #1u%zu long #1u%zu pointer #1u%zu "
805 "size_t #1u%zu alignment #1u%u",
806 channel, name, entry->event_id,
807 sizeof(int), sizeof(long), sizeof(void *),
808 sizeof(size_t), ltt_get_alignment());
809 } else if (format) {
810 if (!entry->format)
811 ret = marker_set_format(entry, format);
812 else if (strcmp(entry->format, format))
813 ret = -EPERM;
814 if (ret)
815 goto end;
816 }
817
818 /*
819 * If we detect that a call_rcu is pending for this marker,
820 * make sure it's executed now.
821 */
822 //ust// if (entry->rcu_pending)
823 //ust// rcu_barrier_sched();
824 old = marker_entry_add_probe(entry, probe, probe_private);
825 if (IS_ERR(old)) {
826 ret = PTR_ERR(old);
827 if (first_probe)
828 goto error_unregister_channel;
829 else
830 goto end;
831 }
832 mutex_unlock(&markers_mutex);
833
834 /* Activate marker if necessary */
835 marker_update_probes();
836
837 mutex_lock(&markers_mutex);
838 entry = get_marker(channel, name);
839 if (!entry)
840 goto end;
841 //ust// if (entry->rcu_pending)
842 //ust// rcu_barrier_sched();
843 entry->oldptr = old;
844 entry->rcu_pending = 1;
845 /* write rcu_pending before calling the RCU callback */
846 smp_wmb();
847 //ust// call_rcu_sched(&entry->rcu, free_old_closure);
848 synchronize_rcu(); free_old_closure(&entry->rcu);
849 goto end;
850
851 error_unregister_channel:
852 ret_err = ltt_channels_unregister(channel);
853 WARN_ON(ret_err);
854 error_remove_marker:
855 ret_err = remove_marker(channel, name);
856 WARN_ON(ret_err);
857 end:
858 mutex_unlock(&markers_mutex);
859 return ret;
860 }
861 //ust// EXPORT_SYMBOL_GPL(marker_probe_register);
862
863 /**
864 * marker_probe_unregister - Disconnect a probe from a marker
865 * @channel: marker channel
866 * @name: marker name
867 * @probe: probe function pointer
868 * @probe_private: probe private data
869 *
870 * Returns the private data given to marker_probe_register, or an ERR_PTR().
871 * We do not need to call a synchronize_sched to make sure the probes have
872 * finished running before doing a module unload, because the module unload
873 * itself uses stop_machine(), which insures that every preempt disabled section
874 * have finished.
875 */
876 int marker_probe_unregister(const char *channel, const char *name,
877 marker_probe_func *probe, void *probe_private)
878 {
879 struct marker_entry *entry;
880 struct marker_probe_closure *old;
881 int ret = -ENOENT;
882
883 mutex_lock(&markers_mutex);
884 entry = get_marker(channel, name);
885 if (!entry)
886 goto end;
887 //ust// if (entry->rcu_pending)
888 //ust// rcu_barrier_sched();
889 old = marker_entry_remove_probe(entry, probe, probe_private);
890 mutex_unlock(&markers_mutex);
891
892 marker_update_probes();
893
894 mutex_lock(&markers_mutex);
895 entry = get_marker(channel, name);
896 if (!entry)
897 goto end;
898 //ust// if (entry->rcu_pending)
899 //ust// rcu_barrier_sched();
900 entry->oldptr = old;
901 entry->rcu_pending = 1;
902 /* write rcu_pending before calling the RCU callback */
903 smp_wmb();
904 //ust// call_rcu_sched(&entry->rcu, free_old_closure);
905 synchronize_rcu(); free_old_closure(&entry->rcu);
906 remove_marker(channel, name); /* Ignore busy error message */
907 ret = 0;
908 end:
909 mutex_unlock(&markers_mutex);
910 return ret;
911 }
912 //ust// EXPORT_SYMBOL_GPL(marker_probe_unregister);
913
914 static struct marker_entry *
915 get_marker_from_private_data(marker_probe_func *probe, void *probe_private)
916 {
917 struct marker_entry *entry;
918 unsigned int i;
919 struct hlist_head *head;
920 struct hlist_node *node;
921
922 for (i = 0; i < MARKER_TABLE_SIZE; i++) {
923 head = &marker_table[i];
924 hlist_for_each_entry(entry, node, head, hlist) {
925 if (!entry->ptype) {
926 if (entry->single.func == probe
927 && entry->single.probe_private
928 == probe_private)
929 return entry;
930 } else {
931 struct marker_probe_closure *closure;
932 closure = entry->multi;
933 for (i = 0; closure[i].func; i++) {
934 if (closure[i].func == probe &&
935 closure[i].probe_private
936 == probe_private)
937 return entry;
938 }
939 }
940 }
941 }
942 return NULL;
943 }
944
945 /**
946 * marker_probe_unregister_private_data - Disconnect a probe from a marker
947 * @probe: probe function
948 * @probe_private: probe private data
949 *
950 * Unregister a probe by providing the registered private data.
951 * Only removes the first marker found in hash table.
952 * Return 0 on success or error value.
953 * We do not need to call a synchronize_sched to make sure the probes have
954 * finished running before doing a module unload, because the module unload
955 * itself uses stop_machine(), which insures that every preempt disabled section
956 * have finished.
957 */
958 int marker_probe_unregister_private_data(marker_probe_func *probe,
959 void *probe_private)
960 {
961 struct marker_entry *entry;
962 int ret = 0;
963 struct marker_probe_closure *old;
964 const char *channel = NULL, *name = NULL;
965
966 mutex_lock(&markers_mutex);
967 entry = get_marker_from_private_data(probe, probe_private);
968 if (!entry) {
969 ret = -ENOENT;
970 goto end;
971 }
972 //ust// if (entry->rcu_pending)
973 //ust// rcu_barrier_sched();
974 old = marker_entry_remove_probe(entry, NULL, probe_private);
975 channel = kstrdup(entry->channel, GFP_KERNEL);
976 name = kstrdup(entry->name, GFP_KERNEL);
977 mutex_unlock(&markers_mutex);
978
979 marker_update_probes();
980
981 mutex_lock(&markers_mutex);
982 entry = get_marker(channel, name);
983 if (!entry)
984 goto end;
985 //ust// if (entry->rcu_pending)
986 //ust// rcu_barrier_sched();
987 entry->oldptr = old;
988 entry->rcu_pending = 1;
989 /* write rcu_pending before calling the RCU callback */
990 smp_wmb();
991 //ust// call_rcu_sched(&entry->rcu, free_old_closure);
992 synchronize_rcu(); free_old_closure(&entry->rcu);
993 /* Ignore busy error message */
994 remove_marker(channel, name);
995 end:
996 mutex_unlock(&markers_mutex);
997 kfree(channel);
998 kfree(name);
999 return ret;
1000 }
1001 //ust// EXPORT_SYMBOL_GPL(marker_probe_unregister_private_data);
1002
1003 /**
1004 * marker_get_private_data - Get a marker's probe private data
1005 * @channel: marker channel
1006 * @name: marker name
1007 * @probe: probe to match
1008 * @num: get the nth matching probe's private data
1009 *
1010 * Returns the nth private data pointer (starting from 0) matching, or an
1011 * ERR_PTR.
1012 * Returns the private data pointer, or an ERR_PTR.
1013 * The private data pointer should _only_ be dereferenced if the caller is the
1014 * owner of the data, or its content could vanish. This is mostly used to
1015 * confirm that a caller is the owner of a registered probe.
1016 */
1017 void *marker_get_private_data(const char *channel, const char *name,
1018 marker_probe_func *probe, int num)
1019 {
1020 struct hlist_head *head;
1021 struct hlist_node *node;
1022 struct marker_entry *e;
1023 size_t channel_len = strlen(channel) + 1;
1024 size_t name_len = strlen(name) + 1;
1025 int i;
1026 u32 hash;
1027
1028 hash = jhash(channel, channel_len-1, 0) ^ jhash(name, name_len-1, 0);
1029 head = &marker_table[hash & ((1 << MARKER_HASH_BITS)-1)];
1030 hlist_for_each_entry(e, node, head, hlist) {
1031 if (!strcmp(channel, e->channel) && !strcmp(name, e->name)) {
1032 if (!e->ptype) {
1033 if (num == 0 && e->single.func == probe)
1034 return e->single.probe_private;
1035 } else {
1036 struct marker_probe_closure *closure;
1037 int match = 0;
1038 closure = e->multi;
1039 for (i = 0; closure[i].func; i++) {
1040 if (closure[i].func != probe)
1041 continue;
1042 if (match++ == num)
1043 return closure[i].probe_private;
1044 }
1045 }
1046 break;
1047 }
1048 }
1049 return ERR_PTR(-ENOENT);
1050 }
1051 //ust// EXPORT_SYMBOL_GPL(marker_get_private_data);
1052
1053 /**
1054 * markers_compact_event_ids - Compact markers event IDs and reassign channels
1055 *
1056 * Called when no channel users are active by the channel infrastructure.
1057 * Called with lock_markers() and channel mutex held.
1058 */
1059 //ust// void markers_compact_event_ids(void)
1060 //ust// {
1061 //ust// struct marker_entry *entry;
1062 //ust// unsigned int i;
1063 //ust// struct hlist_head *head;
1064 //ust// struct hlist_node *node;
1065 //ust// int ret;
1066 //ust//
1067 //ust// for (i = 0; i < MARKER_TABLE_SIZE; i++) {
1068 //ust// head = &marker_table[i];
1069 //ust// hlist_for_each_entry(entry, node, head, hlist) {
1070 //ust// ret = ltt_channels_get_index_from_name(entry->channel);
1071 //ust// WARN_ON(ret < 0);
1072 //ust// entry->channel_id = ret;
1073 //ust// ret = _ltt_channels_get_event_id(entry->channel,
1074 //ust// entry->name);
1075 //ust// WARN_ON(ret < 0);
1076 //ust// entry->event_id = ret;
1077 //ust// }
1078 //ust// }
1079 //ust// }
1080
1081 //ust//#ifdef CONFIG_MODULES
1082
1083 /*
1084 * Returns 0 if current not found.
1085 * Returns 1 if current found.
1086 */
1087 int lib_get_iter_markers(struct marker_iter *iter)
1088 {
1089 struct lib *iter_lib;
1090 int found = 0;
1091
1092 //ust// mutex_lock(&module_mutex);
1093 list_for_each_entry(iter_lib, &libs, list) {
1094 if (iter_lib < iter->lib)
1095 continue;
1096 else if (iter_lib > iter->lib)
1097 iter->marker = NULL;
1098 found = marker_get_iter_range(&iter->marker,
1099 iter_lib->markers_start,
1100 iter_lib->markers_start + iter_lib->markers_count);
1101 if (found) {
1102 iter->lib = iter_lib;
1103 break;
1104 }
1105 }
1106 //ust// mutex_unlock(&module_mutex);
1107 return found;
1108 }
1109
1110 /**
1111 * marker_get_iter_range - Get a next marker iterator given a range.
1112 * @marker: current markers (in), next marker (out)
1113 * @begin: beginning of the range
1114 * @end: end of the range
1115 *
1116 * Returns whether a next marker has been found (1) or not (0).
1117 * Will return the first marker in the range if the input marker is NULL.
1118 */
1119 int marker_get_iter_range(struct marker **marker, struct marker *begin,
1120 struct marker *end)
1121 {
1122 if (!*marker && begin != end) {
1123 *marker = begin;
1124 return 1;
1125 }
1126 if (*marker >= begin && *marker < end)
1127 return 1;
1128 return 0;
1129 }
1130 //ust// EXPORT_SYMBOL_GPL(marker_get_iter_range);
1131
1132 static void marker_get_iter(struct marker_iter *iter)
1133 {
1134 int found = 0;
1135
1136 /* Core kernel markers */
1137 if (!iter->lib) {
1138 /* ust FIXME: how come we cannot disable the following line? we shouldn't need core stuff */
1139 found = marker_get_iter_range(&iter->marker,
1140 __start___markers, __stop___markers);
1141 if (found)
1142 goto end;
1143 }
1144 /* Markers in modules. */
1145 found = lib_get_iter_markers(iter);
1146 end:
1147 if (!found)
1148 marker_iter_reset(iter);
1149 }
1150
1151 void marker_iter_start(struct marker_iter *iter)
1152 {
1153 marker_get_iter(iter);
1154 }
1155 //ust// EXPORT_SYMBOL_GPL(marker_iter_start);
1156
1157 void marker_iter_next(struct marker_iter *iter)
1158 {
1159 iter->marker++;
1160 /*
1161 * iter->marker may be invalid because we blindly incremented it.
1162 * Make sure it is valid by marshalling on the markers, getting the
1163 * markers from following modules if necessary.
1164 */
1165 marker_get_iter(iter);
1166 }
1167 //ust// EXPORT_SYMBOL_GPL(marker_iter_next);
1168
1169 void marker_iter_stop(struct marker_iter *iter)
1170 {
1171 }
1172 //ust// EXPORT_SYMBOL_GPL(marker_iter_stop);
1173
1174 void marker_iter_reset(struct marker_iter *iter)
1175 {
1176 iter->lib = NULL;
1177 iter->marker = NULL;
1178 }
1179 //ust// EXPORT_SYMBOL_GPL(marker_iter_reset);
1180
1181 #ifdef CONFIG_MARKERS_USERSPACE
1182 /*
1183 * must be called with current->user_markers_mutex held
1184 */
1185 static void free_user_marker(char __user *state, struct hlist_head *head)
1186 {
1187 struct user_marker *umark;
1188 struct hlist_node *pos, *n;
1189
1190 hlist_for_each_entry_safe(umark, pos, n, head, hlist) {
1191 if (umark->state == state) {
1192 hlist_del(&umark->hlist);
1193 kfree(umark);
1194 }
1195 }
1196 }
1197
1198 //ust// asmlinkage long sys_marker(char __user *name, char __user *format,
1199 //ust// char __user *state, int reg)
1200 //ust// {
1201 //ust// struct user_marker *umark;
1202 //ust// long len;
1203 //ust// struct marker_entry *entry;
1204 //ust// int ret = 0;
1205 //ust//
1206 //ust// printk(KERN_DEBUG "Program %s %s marker [%p, %p]\n",
1207 //ust// current->comm, reg ? "registers" : "unregisters",
1208 //ust// name, state);
1209 //ust// if (reg) {
1210 //ust// umark = kmalloc(sizeof(struct user_marker), GFP_KERNEL);
1211 //ust// umark->name[MAX_USER_MARKER_NAME_LEN - 1] = '\0';
1212 //ust// umark->format[MAX_USER_MARKER_FORMAT_LEN - 1] = '\0';
1213 //ust// umark->state = state;
1214 //ust// len = strncpy_from_user(umark->name, name,
1215 //ust// MAX_USER_MARKER_NAME_LEN - 1);
1216 //ust// if (len < 0) {
1217 //ust// ret = -EFAULT;
1218 //ust// goto error;
1219 //ust// }
1220 //ust// len = strncpy_from_user(umark->format, format,
1221 //ust// MAX_USER_MARKER_FORMAT_LEN - 1);
1222 //ust// if (len < 0) {
1223 //ust// ret = -EFAULT;
1224 //ust// goto error;
1225 //ust// }
1226 //ust// printk(KERN_DEBUG "Marker name : %s, format : %s", umark->name,
1227 //ust// umark->format);
1228 //ust// mutex_lock(&markers_mutex);
1229 //ust// entry = get_marker("userspace", umark->name);
1230 //ust// if (entry) {
1231 //ust// if (entry->format &&
1232 //ust// strcmp(entry->format, umark->format) != 0) {
1233 //ust// printk(" error, wrong format in process %s",
1234 //ust// current->comm);
1235 //ust// ret = -EPERM;
1236 //ust// goto error_unlock;
1237 //ust// }
1238 //ust// printk(" %s", !!entry->refcount
1239 //ust// ? "enabled" : "disabled");
1240 //ust// if (put_user(!!entry->refcount, state)) {
1241 //ust// ret = -EFAULT;
1242 //ust// goto error_unlock;
1243 //ust// }
1244 //ust// printk("\n");
1245 //ust// } else {
1246 //ust// printk(" disabled\n");
1247 //ust// if (put_user(0, umark->state)) {
1248 //ust// printk(KERN_WARNING
1249 //ust// "Marker in %s caused a fault\n",
1250 //ust// current->comm);
1251 //ust// goto error_unlock;
1252 //ust// }
1253 //ust// }
1254 //ust// mutex_lock(&current->group_leader->user_markers_mutex);
1255 //ust// hlist_add_head(&umark->hlist,
1256 //ust// &current->group_leader->user_markers);
1257 //ust// current->group_leader->user_markers_sequence++;
1258 //ust// mutex_unlock(&current->group_leader->user_markers_mutex);
1259 //ust// mutex_unlock(&markers_mutex);
1260 //ust// } else {
1261 //ust// mutex_lock(&current->group_leader->user_markers_mutex);
1262 //ust// free_user_marker(state,
1263 //ust// &current->group_leader->user_markers);
1264 //ust// current->group_leader->user_markers_sequence++;
1265 //ust// mutex_unlock(&current->group_leader->user_markers_mutex);
1266 //ust// }
1267 //ust// goto end;
1268 //ust// error_unlock:
1269 //ust// mutex_unlock(&markers_mutex);
1270 //ust// error:
1271 //ust// kfree(umark);
1272 //ust// end:
1273 //ust// return ret;
1274 //ust// }
1275 //ust//
1276 //ust// /*
1277 //ust// * Types :
1278 //ust// * string : 0
1279 //ust// */
1280 //ust// asmlinkage long sys_trace(int type, uint16_t id,
1281 //ust// char __user *ubuf)
1282 //ust// {
1283 //ust// long ret = -EPERM;
1284 //ust// char *page;
1285 //ust// int len;
1286 //ust//
1287 //ust// switch (type) {
1288 //ust// case 0: /* String */
1289 //ust// ret = -ENOMEM;
1290 //ust// page = (char *)__get_free_page(GFP_TEMPORARY);
1291 //ust// if (!page)
1292 //ust// goto string_out;
1293 //ust// len = strncpy_from_user(page, ubuf, PAGE_SIZE);
1294 //ust// if (len < 0) {
1295 //ust// ret = -EFAULT;
1296 //ust// goto string_err;
1297 //ust// }
1298 //ust// trace_mark(userspace, string, "string %s", page);
1299 //ust// string_err:
1300 //ust// free_page((unsigned long) page);
1301 //ust// string_out:
1302 //ust// break;
1303 //ust// default:
1304 //ust// break;
1305 //ust// }
1306 //ust// return ret;
1307 //ust// }
1308
1309 //ust// static void marker_update_processes(void)
1310 //ust// {
1311 //ust// struct task_struct *g, *t;
1312 //ust//
1313 //ust// /*
1314 //ust// * markers_mutex is taken to protect the p->user_markers read.
1315 //ust// */
1316 //ust// mutex_lock(&markers_mutex);
1317 //ust// read_lock(&tasklist_lock);
1318 //ust// for_each_process(g) {
1319 //ust// WARN_ON(!thread_group_leader(g));
1320 //ust// if (hlist_empty(&g->user_markers))
1321 //ust// continue;
1322 //ust// if (strcmp(g->comm, "testprog") == 0)
1323 //ust// printk(KERN_DEBUG "set update pending for testprog\n");
1324 //ust// t = g;
1325 //ust// do {
1326 //ust// /* TODO : implement this thread flag in each arch. */
1327 //ust// set_tsk_thread_flag(t, TIF_MARKER_PENDING);
1328 //ust// } while ((t = next_thread(t)) != g);
1329 //ust// }
1330 //ust// read_unlock(&tasklist_lock);
1331 //ust// mutex_unlock(&markers_mutex);
1332 //ust// }
1333
1334 /*
1335 * Update current process.
1336 * Note that we have to wait a whole scheduler period before we are sure that
1337 * every running userspace threads have their markers updated.
1338 * (synchronize_sched() can be used to insure this).
1339 */
1340 void marker_update_process(void)
1341 {
1342 struct user_marker *umark;
1343 struct hlist_node *pos;
1344 struct marker_entry *entry;
1345
1346 mutex_lock(&markers_mutex);
1347 mutex_lock(&current->group_leader->user_markers_mutex);
1348 if (strcmp(current->comm, "testprog") == 0)
1349 printk(KERN_DEBUG "do update pending for testprog\n");
1350 hlist_for_each_entry(umark, pos,
1351 &current->group_leader->user_markers, hlist) {
1352 printk(KERN_DEBUG "Updating marker %s in %s\n",
1353 umark->name, current->comm);
1354 entry = get_marker("userspace", umark->name);
1355 if (entry) {
1356 if (entry->format &&
1357 strcmp(entry->format, umark->format) != 0) {
1358 printk(KERN_WARNING
1359 " error, wrong format in process %s\n",
1360 current->comm);
1361 break;
1362 }
1363 if (put_user(!!entry->refcount, umark->state)) {
1364 printk(KERN_WARNING
1365 "Marker in %s caused a fault\n",
1366 current->comm);
1367 break;
1368 }
1369 } else {
1370 if (put_user(0, umark->state)) {
1371 printk(KERN_WARNING
1372 "Marker in %s caused a fault\n",
1373 current->comm);
1374 break;
1375 }
1376 }
1377 }
1378 clear_thread_flag(TIF_MARKER_PENDING);
1379 mutex_unlock(&current->group_leader->user_markers_mutex);
1380 mutex_unlock(&markers_mutex);
1381 }
1382
1383 /*
1384 * Called at process exit and upon do_execve().
1385 * We assume that when the leader exits, no more references can be done to the
1386 * leader structure by the other threads.
1387 */
1388 void exit_user_markers(struct task_struct *p)
1389 {
1390 struct user_marker *umark;
1391 struct hlist_node *pos, *n;
1392
1393 if (thread_group_leader(p)) {
1394 mutex_lock(&markers_mutex);
1395 mutex_lock(&p->user_markers_mutex);
1396 hlist_for_each_entry_safe(umark, pos, n, &p->user_markers,
1397 hlist)
1398 kfree(umark);
1399 INIT_HLIST_HEAD(&p->user_markers);
1400 p->user_markers_sequence++;
1401 mutex_unlock(&p->user_markers_mutex);
1402 mutex_unlock(&markers_mutex);
1403 }
1404 }
1405
1406 int is_marker_enabled(const char *channel, const char *name)
1407 {
1408 struct marker_entry *entry;
1409
1410 mutex_lock(&markers_mutex);
1411 entry = get_marker(channel, name);
1412 mutex_unlock(&markers_mutex);
1413
1414 return entry && !!entry->refcount;
1415 }
1416 //ust// #endif
1417
1418 int marker_module_notify(struct notifier_block *self,
1419 unsigned long val, void *data)
1420 {
1421 struct module *mod = data;
1422
1423 switch (val) {
1424 case MODULE_STATE_COMING:
1425 marker_update_probe_range(mod->markers,
1426 mod->markers + mod->num_markers);
1427 break;
1428 case MODULE_STATE_GOING:
1429 marker_update_probe_range(mod->markers,
1430 mod->markers + mod->num_markers);
1431 break;
1432 }
1433 return 0;
1434 }
1435
1436 struct notifier_block marker_module_nb = {
1437 .notifier_call = marker_module_notify,
1438 .priority = 0,
1439 };
1440
1441 //ust// static int init_markers(void)
1442 //ust// {
1443 //ust// return register_module_notifier(&marker_module_nb);
1444 //ust// }
1445 //ust// __initcall(init_markers);
1446 /* TODO: call marker_module_nb() when a library is linked at runtime (dlopen)? */
1447
1448 #endif /* CONFIG_MODULES */
1449
1450 void ltt_dump_marker_state(struct ltt_trace_struct *trace)
1451 {
1452 struct marker_entry *entry;
1453 struct ltt_probe_private_data call_data;
1454 struct hlist_head *head;
1455 struct hlist_node *node;
1456 unsigned int i;
1457
1458 mutex_lock(&markers_mutex);
1459 call_data.trace = trace;
1460 call_data.serializer = NULL;
1461
1462 for (i = 0; i < MARKER_TABLE_SIZE; i++) {
1463 head = &marker_table[i];
1464 hlist_for_each_entry(entry, node, head, hlist) {
1465 __trace_mark(0, metadata, core_marker_id,
1466 &call_data,
1467 "channel %s name %s event_id %hu "
1468 "int #1u%zu long #1u%zu pointer #1u%zu "
1469 "size_t #1u%zu alignment #1u%u",
1470 entry->channel,
1471 entry->name,
1472 entry->event_id,
1473 sizeof(int), sizeof(long),
1474 sizeof(void *), sizeof(size_t),
1475 ltt_get_alignment());
1476 if (entry->format)
1477 __trace_mark(0, metadata,
1478 core_marker_format,
1479 &call_data,
1480 "channel %s name %s format %s",
1481 entry->channel,
1482 entry->name,
1483 entry->format);
1484 }
1485 }
1486 mutex_unlock(&markers_mutex);
1487 }
1488 //ust// EXPORT_SYMBOL_GPL(ltt_dump_marker_state);
1489
1490 static void (*new_marker_cb)(struct marker *) = NULL;
1491
1492 void marker_set_new_marker_cb(void (*cb)(struct marker *))
1493 {
1494 new_marker_cb = cb;
1495 }
1496
1497 static void new_markers(struct marker *start, struct marker *end)
1498 {
1499 if(new_marker_cb) {
1500 struct marker *m;
1501 for(m=start; m < end; m++) {
1502 new_marker_cb(m);
1503 }
1504 }
1505 }
1506
1507 int marker_register_lib(struct marker *markers_start, struct marker_addr *marker_addr_start, int markers_count)
1508 {
1509 struct lib *pl;
1510 struct marker_addr *addr;
1511
1512 pl = (struct lib *) malloc(sizeof(struct lib));
1513
1514 pl->markers_start = markers_start;
1515 #ifdef CONFIG_UST_GDB_INTEGRATION
1516 pl->markers_addr_start = marker_addr_start;
1517 #endif
1518 pl->markers_count = markers_count;
1519
1520 lock_markers();
1521 for(addr = marker_addr_start; addr < marker_addr_start + markers_count; addr++)
1522 addr->marker->location = addr->addr;
1523 unlock_markers();
1524
1525 /* FIXME: maybe protect this with its own mutex? */
1526 lock_markers();
1527 list_add(&pl->list, &libs);
1528 unlock_markers();
1529
1530 new_markers(markers_start, markers_start + markers_count);
1531
1532 /* FIXME: update just the loaded lib */
1533 lib_update_markers();
1534
1535 DBG("just registered a markers section from %p and having %d markers", markers_start, markers_count);
1536
1537 return 0;
1538 }
1539
1540 int marker_unregister_lib(struct marker *markers_start, int markers_count)
1541 {
1542 /*FIXME: implement; but before implementing, marker_register_lib must
1543 have appropriate locking. */
1544
1545 return 0;
1546 }
1547
1548 static int initialized = 0;
1549
1550 void __attribute__((constructor)) init_markers(void)
1551 {
1552 if(!initialized) {
1553 #ifdef CONFIG_UST_GDB_INTEGRATION
1554 marker_register_lib(__start___markers, __start___marker_addr, (((long)__stop___markers)-((long)__start___markers))/sizeof(struct marker));
1555 #else
1556 marker_register_lib(__start___markers, NULL, (((long)__stop___markers)-((long)__start___markers))/sizeof(struct marker));
1557 #endif
1558 //DBG("markers_start: %p, markers_stop: %p\n", __start___markers, __stop___markers);
1559 initialized = 1;
1560 }
1561 }
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