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b5b073e2 PMF |
1 | /* |
2 | * buffers.c | |
3 | * LTTng userspace tracer buffering system | |
4 | * | |
5 | * Copyright (C) 2009 - Pierre-Marc Fournier (pierre-marc dot fournier at polymtl dot ca) | |
6 | * Copyright (C) 2008 - Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca) | |
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; either | |
11 | * version 2.1 of the License, or (at your option) any later version. | |
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 | ||
204141ee | 23 | #include <unistd.h> |
b5b073e2 PMF |
24 | #include <sys/mman.h> |
25 | #include <sys/ipc.h> | |
26 | #include <sys/shm.h> | |
27 | #include <fcntl.h> | |
909bc43f | 28 | #include <stdlib.h> |
518d7abb PMF |
29 | |
30 | #include <ust/clock.h> | |
31 | ||
b5b073e2 PMF |
32 | #include "buffers.h" |
33 | #include "channels.h" | |
34 | #include "tracer.h" | |
35 | #include "tracercore.h" | |
36 | #include "usterr.h" | |
37 | ||
b73a4c47 PMF |
38 | struct ltt_reserve_switch_offsets { |
39 | long begin, end, old; | |
40 | long begin_switch, end_switch_current, end_switch_old; | |
41 | size_t before_hdr_pad, size; | |
42 | }; | |
43 | ||
44 | ||
b5b073e2 PMF |
45 | static DEFINE_MUTEX(ust_buffers_channels_mutex); |
46 | static LIST_HEAD(ust_buffers_channels); | |
47 | ||
204141ee PMF |
48 | static int get_n_cpus(void) |
49 | { | |
50 | int result; | |
51 | static int n_cpus = 0; | |
52 | ||
c7dc133c PMF |
53 | if(!n_cpus) { |
54 | /* On Linux, when some processors are offline | |
55 | * _SC_NPROCESSORS_CONF counts the offline | |
56 | * processors, whereas _SC_NPROCESSORS_ONLN | |
57 | * does not. If we used _SC_NPROCESSORS_ONLN, | |
58 | * getcpu() could return a value greater than | |
59 | * this sysconf, in which case the arrays | |
60 | * indexed by processor would overflow. | |
61 | */ | |
62 | result = sysconf(_SC_NPROCESSORS_CONF); | |
63 | if(result == -1) { | |
64 | return -1; | |
65 | } | |
66 | ||
67 | n_cpus = result; | |
204141ee PMF |
68 | } |
69 | ||
c7dc133c | 70 | return n_cpus; |
204141ee PMF |
71 | } |
72 | ||
bb3132c8 MD |
73 | /** |
74 | * _ust_buffers_strncpy_fixup - Fix an incomplete string in a ltt_relay buffer. | |
75 | * @buf : buffer | |
76 | * @offset : offset within the buffer | |
77 | * @len : length to write | |
78 | * @copied: string actually copied | |
79 | * @terminated: does string end with \0 | |
b73a4c47 | 80 | * |
bb3132c8 | 81 | * Fills string with "X" if incomplete. |
b73a4c47 | 82 | */ |
bb3132c8 MD |
83 | void _ust_buffers_strncpy_fixup(struct ust_buffer *buf, size_t offset, |
84 | size_t len, size_t copied, int terminated) | |
b73a4c47 | 85 | { |
bb3132c8 MD |
86 | size_t buf_offset, cpy; |
87 | ||
88 | if (copied == len) { | |
89 | /* | |
90 | * Deal with non-terminated string. | |
91 | */ | |
92 | assert(!terminated); | |
93 | offset += copied - 1; | |
94 | buf_offset = BUFFER_OFFSET(offset, buf->chan); | |
95 | /* | |
96 | * Underlying layer should never ask for writes across | |
97 | * subbuffers. | |
98 | */ | |
99 | assert(buf_offset | |
100 | < buf->chan->subbuf_size*buf->chan->subbuf_cnt); | |
101 | ust_buffers_do_memset(buf->buf_data + buf_offset, '\0', 1); | |
102 | return; | |
103 | } | |
104 | ||
105 | /* | |
106 | * Deal with incomplete string. | |
107 | * Overwrite string's \0 with X too. | |
108 | */ | |
109 | cpy = copied - 1; | |
110 | assert(terminated); | |
111 | len -= cpy; | |
112 | offset += cpy; | |
113 | buf_offset = BUFFER_OFFSET(offset, buf->chan); | |
114 | ||
115 | /* | |
116 | * Underlying layer should never ask for writes across subbuffers. | |
117 | */ | |
118 | assert(buf_offset | |
119 | < buf->chan->subbuf_size*buf->chan->subbuf_cnt); | |
b73a4c47 | 120 | |
bb3132c8 MD |
121 | ust_buffers_do_memset(buf->buf_data + buf_offset, |
122 | 'X', len); | |
b73a4c47 | 123 | |
bb3132c8 MD |
124 | /* |
125 | * Overwrite last 'X' with '\0'. | |
126 | */ | |
127 | offset += len - 1; | |
128 | buf_offset = BUFFER_OFFSET(offset, buf->chan); | |
129 | /* | |
130 | * Underlying layer should never ask for writes across subbuffers. | |
131 | */ | |
132 | assert(buf_offset | |
133 | < buf->chan->subbuf_size*buf->chan->subbuf_cnt); | |
134 | ust_buffers_do_memset(buf->buf_data + buf_offset, '\0', 1); | |
b73a4c47 PMF |
135 | } |
136 | ||
137 | static int ust_buffers_init_buffer(struct ust_trace *trace, | |
b5b073e2 PMF |
138 | struct ust_channel *ltt_chan, |
139 | struct ust_buffer *buf, | |
140 | unsigned int n_subbufs); | |
141 | ||
142 | static int ust_buffers_alloc_buf(struct ust_buffer *buf, size_t *size) | |
143 | { | |
144 | void *ptr; | |
145 | int result; | |
146 | ||
147 | *size = PAGE_ALIGN(*size); | |
148 | ||
149 | result = buf->shmid = shmget(getpid(), *size, IPC_CREAT | IPC_EXCL | 0700); | |
150 | if(result == -1 && errno == EINVAL) { | |
151 | ERR("shmget() returned EINVAL; maybe /proc/sys/kernel/shmmax should be increased."); | |
152 | return -1; | |
153 | } | |
154 | else if(result == -1) { | |
155 | PERROR("shmget"); | |
156 | return -1; | |
157 | } | |
158 | ||
204141ee | 159 | /* FIXME: should have matching call to shmdt */ |
b5b073e2 PMF |
160 | ptr = shmat(buf->shmid, NULL, 0); |
161 | if(ptr == (void *) -1) { | |
162 | perror("shmat"); | |
163 | goto destroy_shmem; | |
164 | } | |
165 | ||
166 | /* Already mark the shared memory for destruction. This will occur only | |
167 | * when all users have detached. | |
168 | */ | |
169 | result = shmctl(buf->shmid, IPC_RMID, NULL); | |
170 | if(result == -1) { | |
171 | perror("shmctl"); | |
172 | return -1; | |
173 | } | |
174 | ||
175 | buf->buf_data = ptr; | |
176 | buf->buf_size = *size; | |
177 | ||
178 | return 0; | |
179 | ||
180 | destroy_shmem: | |
181 | result = shmctl(buf->shmid, IPC_RMID, NULL); | |
182 | if(result == -1) { | |
183 | perror("shmctl"); | |
184 | } | |
185 | ||
186 | return -1; | |
187 | } | |
188 | ||
204141ee | 189 | int ust_buffers_create_buf(struct ust_channel *channel, int cpu) |
b5b073e2 PMF |
190 | { |
191 | int result; | |
204141ee | 192 | struct ust_buffer *buf = channel->buf[cpu]; |
b5b073e2 | 193 | |
204141ee PMF |
194 | buf->cpu = cpu; |
195 | result = ust_buffers_alloc_buf(buf, &channel->alloc_size); | |
b5b073e2 | 196 | if(result) |
204141ee | 197 | return -1; |
b5b073e2 | 198 | |
204141ee | 199 | buf->chan = channel; |
b5b073e2 | 200 | kref_get(&channel->kref); |
204141ee | 201 | return 0; |
b5b073e2 PMF |
202 | } |
203 | ||
204 | static void ust_buffers_destroy_channel(struct kref *kref) | |
205 | { | |
1e4b909b | 206 | struct ust_channel *chan = _ust_container_of(kref, struct ust_channel, kref); |
b5b073e2 PMF |
207 | free(chan); |
208 | } | |
209 | ||
210 | static void ust_buffers_destroy_buf(struct ust_buffer *buf) | |
211 | { | |
212 | struct ust_channel *chan = buf->chan; | |
213 | int result; | |
214 | ||
215 | result = munmap(buf->buf_data, buf->buf_size); | |
216 | if(result == -1) { | |
217 | PERROR("munmap"); | |
218 | } | |
219 | ||
204141ee | 220 | //ust// chan->buf[buf->cpu] = NULL; |
b5b073e2 PMF |
221 | free(buf); |
222 | kref_put(&chan->kref, ust_buffers_destroy_channel); | |
223 | } | |
224 | ||
225 | /* called from kref_put */ | |
226 | static void ust_buffers_remove_buf(struct kref *kref) | |
227 | { | |
1e4b909b | 228 | struct ust_buffer *buf = _ust_container_of(kref, struct ust_buffer, kref); |
b5b073e2 PMF |
229 | ust_buffers_destroy_buf(buf); |
230 | } | |
231 | ||
204141ee | 232 | int ust_buffers_open_buf(struct ust_channel *chan, int cpu) |
b5b073e2 | 233 | { |
204141ee | 234 | int result; |
b5b073e2 | 235 | |
204141ee PMF |
236 | result = ust_buffers_create_buf(chan, cpu); |
237 | if (result == -1) | |
238 | return -1; | |
b5b073e2 | 239 | |
204141ee | 240 | kref_init(&chan->buf[cpu]->kref); |
b5b073e2 | 241 | |
204141ee PMF |
242 | result = ust_buffers_init_buffer(chan->trace, chan, chan->buf[cpu], chan->subbuf_cnt); |
243 | if(result == -1) | |
244 | return -1; | |
b5b073e2 | 245 | |
204141ee | 246 | return 0; |
b5b073e2 PMF |
247 | |
248 | /* FIXME: decrementally destroy on error? */ | |
249 | } | |
250 | ||
251 | /** | |
252 | * ust_buffers_close_buf - close a channel buffer | |
253 | * @buf: buffer | |
254 | */ | |
255 | static void ust_buffers_close_buf(struct ust_buffer *buf) | |
256 | { | |
257 | kref_put(&buf->kref, ust_buffers_remove_buf); | |
258 | } | |
259 | ||
260 | int ust_buffers_channel_open(struct ust_channel *chan, size_t subbuf_size, size_t subbuf_cnt) | |
261 | { | |
204141ee PMF |
262 | int i; |
263 | int result; | |
264 | ||
b5b073e2 PMF |
265 | if(subbuf_size == 0 || subbuf_cnt == 0) |
266 | return -1; | |
267 | ||
b73a4c47 PMF |
268 | /* Check that the subbuffer size is larger than a page. */ |
269 | WARN_ON_ONCE(subbuf_size < PAGE_SIZE); | |
270 | ||
271 | /* | |
272 | * Make sure the number of subbuffers and subbuffer size are power of 2. | |
273 | */ | |
274 | WARN_ON_ONCE(hweight32(subbuf_size) != 1); | |
275 | WARN_ON(hweight32(subbuf_cnt) != 1); | |
276 | ||
b5b073e2 PMF |
277 | chan->version = UST_CHANNEL_VERSION; |
278 | chan->subbuf_cnt = subbuf_cnt; | |
279 | chan->subbuf_size = subbuf_size; | |
280 | chan->subbuf_size_order = get_count_order(subbuf_size); | |
b73a4c47 | 281 | chan->alloc_size = subbuf_size * subbuf_cnt; |
204141ee | 282 | |
b5b073e2 PMF |
283 | kref_init(&chan->kref); |
284 | ||
f7b16408 | 285 | pthread_mutex_lock(&ust_buffers_channels_mutex); |
204141ee PMF |
286 | for(i=0; i<chan->n_cpus; i++) { |
287 | result = ust_buffers_open_buf(chan, i); | |
288 | if (result == -1) | |
289 | goto error; | |
290 | } | |
b5b073e2 | 291 | list_add(&chan->list, &ust_buffers_channels); |
f7b16408 | 292 | pthread_mutex_unlock(&ust_buffers_channels_mutex); |
b5b073e2 PMF |
293 | |
294 | return 0; | |
295 | ||
204141ee PMF |
296 | /* Jump directly inside the loop to close the buffers that were already |
297 | * opened. */ | |
298 | for(; i>=0; i--) { | |
299 | ust_buffers_close_buf(chan->buf[i]); | |
300 | error: | |
120b0ec3 | 301 | do {} while(0); |
204141ee PMF |
302 | } |
303 | ||
b5b073e2 | 304 | kref_put(&chan->kref, ust_buffers_destroy_channel); |
f7b16408 | 305 | pthread_mutex_unlock(&ust_buffers_channels_mutex); |
b5b073e2 PMF |
306 | return -1; |
307 | } | |
308 | ||
309 | void ust_buffers_channel_close(struct ust_channel *chan) | |
310 | { | |
204141ee PMF |
311 | int i; |
312 | if(!chan) | |
b5b073e2 PMF |
313 | return; |
314 | ||
f7b16408 | 315 | pthread_mutex_lock(&ust_buffers_channels_mutex); |
204141ee PMF |
316 | for(i=0; i<chan->n_cpus; i++) { |
317 | /* FIXME: if we make it here, then all buffers were necessarily allocated. Moreover, we don't | |
318 | * initialize to NULL so we cannot use this check. Should we? */ | |
319 | //ust// if (chan->buf[i]) | |
320 | ust_buffers_close_buf(chan->buf[i]); | |
321 | } | |
b5b073e2 PMF |
322 | |
323 | list_del(&chan->list); | |
324 | kref_put(&chan->kref, ust_buffers_destroy_channel); | |
f7b16408 | 325 | pthread_mutex_unlock(&ust_buffers_channels_mutex); |
b5b073e2 PMF |
326 | } |
327 | ||
b5b073e2 PMF |
328 | /* |
329 | * ------- | |
330 | */ | |
331 | ||
204141ee | 332 | static void ust_buffers_destroy_buffer(struct ust_channel *ltt_chan, int cpu); |
b5b073e2 PMF |
333 | |
334 | static void ltt_force_switch(struct ust_buffer *buf, | |
335 | enum force_switch_mode mode); | |
336 | ||
337 | /* | |
338 | * Trace callbacks | |
339 | */ | |
b73a4c47 | 340 | static void ltt_buffer_begin(struct ust_buffer *buf, |
b5b073e2 PMF |
341 | u64 tsc, unsigned int subbuf_idx) |
342 | { | |
343 | struct ust_channel *channel = buf->chan; | |
344 | struct ltt_subbuffer_header *header = | |
345 | (struct ltt_subbuffer_header *) | |
b73a4c47 | 346 | ust_buffers_offset_address(buf, |
b5b073e2 PMF |
347 | subbuf_idx * buf->chan->subbuf_size); |
348 | ||
349 | header->cycle_count_begin = tsc; | |
02af3e60 PMF |
350 | header->data_size = 0xFFFFFFFF; /* for recognizing crashed buffers */ |
351 | header->sb_size = 0xFFFFFFFF; /* for recognizing crashed buffers */ | |
352 | /* FIXME: add memory barrier? */ | |
b5b073e2 PMF |
353 | ltt_write_trace_header(channel->trace, header); |
354 | } | |
355 | ||
356 | /* | |
357 | * offset is assumed to never be 0 here : never deliver a completely empty | |
358 | * subbuffer. The lost size is between 0 and subbuf_size-1. | |
359 | */ | |
b73a4c47 | 360 | static notrace void ltt_buffer_end(struct ust_buffer *buf, |
b5b073e2 PMF |
361 | u64 tsc, unsigned int offset, unsigned int subbuf_idx) |
362 | { | |
363 | struct ltt_subbuffer_header *header = | |
364 | (struct ltt_subbuffer_header *) | |
b73a4c47 | 365 | ust_buffers_offset_address(buf, |
b5b073e2 | 366 | subbuf_idx * buf->chan->subbuf_size); |
8c36d1ee | 367 | u32 data_size = SUBBUF_OFFSET(offset - 1, buf->chan) + 1; |
b5b073e2 | 368 | |
8c36d1ee PMF |
369 | header->data_size = data_size; |
370 | header->sb_size = PAGE_ALIGN(data_size); | |
b5b073e2 | 371 | header->cycle_count_end = tsc; |
b102c2b0 PMF |
372 | header->events_lost = uatomic_read(&buf->events_lost); |
373 | header->subbuf_corrupt = uatomic_read(&buf->corrupted_subbuffers); | |
719569e4 PMF |
374 | if(unlikely(header->events_lost > 0)) { |
375 | DBG("Some events (%d) were lost in %s_%d", header->events_lost, buf->chan->channel_name, buf->cpu); | |
376 | } | |
b5b073e2 PMF |
377 | } |
378 | ||
379 | /* | |
380 | * This function should not be called from NMI interrupt context | |
381 | */ | |
382 | static notrace void ltt_buf_unfull(struct ust_buffer *buf, | |
383 | unsigned int subbuf_idx, | |
384 | long offset) | |
385 | { | |
b5b073e2 PMF |
386 | } |
387 | ||
b73a4c47 PMF |
388 | /* |
389 | * Promote compiler barrier to a smp_mb(). | |
390 | * For the specific LTTng case, this IPI call should be removed if the | |
391 | * architecture does not reorder writes. This should eventually be provided by | |
392 | * a separate architecture-specific infrastructure. | |
393 | */ | |
e17571a5 PMF |
394 | //ust// static void remote_mb(void *info) |
395 | //ust// { | |
396 | //ust// smp_mb(); | |
397 | //ust// } | |
b73a4c47 PMF |
398 | |
399 | int ust_buffers_get_subbuf(struct ust_buffer *buf, long *consumed) | |
b5b073e2 PMF |
400 | { |
401 | struct ust_channel *channel = buf->chan; | |
402 | long consumed_old, consumed_idx, commit_count, write_offset; | |
b73a4c47 PMF |
403 | //ust// int retval; |
404 | ||
b102c2b0 | 405 | consumed_old = uatomic_read(&buf->consumed); |
b5b073e2 | 406 | consumed_idx = SUBBUF_INDEX(consumed_old, buf->chan); |
b102c2b0 | 407 | commit_count = uatomic_read(&buf->commit_count[consumed_idx].cc_sb); |
b5b073e2 PMF |
408 | /* |
409 | * Make sure we read the commit count before reading the buffer | |
410 | * data and the write offset. Correct consumed offset ordering | |
411 | * wrt commit count is insured by the use of cmpxchg to update | |
412 | * the consumed offset. | |
b73a4c47 PMF |
413 | * smp_call_function_single can fail if the remote CPU is offline, |
414 | * this is OK because then there is no wmb to execute there. | |
415 | * If our thread is executing on the same CPU as the on the buffers | |
416 | * belongs to, we don't have to synchronize it at all. If we are | |
417 | * migrated, the scheduler will take care of the memory barriers. | |
418 | * Normally, smp_call_function_single() should ensure program order when | |
419 | * executing the remote function, which implies that it surrounds the | |
420 | * function execution with : | |
421 | * smp_mb() | |
422 | * send IPI | |
423 | * csd_lock_wait | |
424 | * recv IPI | |
425 | * smp_mb() | |
426 | * exec. function | |
427 | * smp_mb() | |
428 | * csd unlock | |
429 | * smp_mb() | |
430 | * | |
431 | * However, smp_call_function_single() does not seem to clearly execute | |
432 | * such barriers. It depends on spinlock semantic to provide the barrier | |
433 | * before executing the IPI and, when busy-looping, csd_lock_wait only | |
434 | * executes smp_mb() when it has to wait for the other CPU. | |
435 | * | |
436 | * I don't trust this code. Therefore, let's add the smp_mb() sequence | |
437 | * required ourself, even if duplicated. It has no performance impact | |
438 | * anyway. | |
439 | * | |
440 | * smp_mb() is needed because smp_rmb() and smp_wmb() only order read vs | |
441 | * read and write vs write. They do not ensure core synchronization. We | |
442 | * really have to ensure total order between the 3 barriers running on | |
443 | * the 2 CPUs. | |
444 | */ | |
445 | //ust// #ifdef LTT_NO_IPI_BARRIER | |
446 | /* | |
447 | * Local rmb to match the remote wmb to read the commit count before the | |
448 | * buffer data and the write offset. | |
b5b073e2 PMF |
449 | */ |
450 | smp_rmb(); | |
b73a4c47 PMF |
451 | //ust// #else |
452 | //ust// if (raw_smp_processor_id() != buf->cpu) { | |
453 | //ust// smp_mb(); /* Total order with IPI handler smp_mb() */ | |
454 | //ust// smp_call_function_single(buf->cpu, remote_mb, NULL, 1); | |
455 | //ust// smp_mb(); /* Total order with IPI handler smp_mb() */ | |
456 | //ust// } | |
457 | //ust// #endif | |
458 | ||
b102c2b0 | 459 | write_offset = uatomic_read(&buf->offset); |
b5b073e2 PMF |
460 | /* |
461 | * Check that the subbuffer we are trying to consume has been | |
462 | * already fully committed. | |
463 | */ | |
464 | if (((commit_count - buf->chan->subbuf_size) | |
465 | & channel->commit_count_mask) | |
466 | - (BUFFER_TRUNC(consumed_old, buf->chan) | |
467 | >> channel->n_subbufs_order) | |
468 | != 0) { | |
469 | return -EAGAIN; | |
470 | } | |
471 | /* | |
472 | * Check that we are not about to read the same subbuffer in | |
473 | * which the writer head is. | |
474 | */ | |
475 | if ((SUBBUF_TRUNC(write_offset, buf->chan) | |
476 | - SUBBUF_TRUNC(consumed_old, buf->chan)) | |
477 | == 0) { | |
478 | return -EAGAIN; | |
479 | } | |
480 | ||
b73a4c47 PMF |
481 | /* FIXME: is this ok to disable the reading feature? */ |
482 | //ust// retval = update_read_sb_index(buf, consumed_idx); | |
483 | //ust// if (retval) | |
484 | //ust// return retval; | |
485 | ||
486 | *consumed = consumed_old; | |
487 | ||
b5b073e2 PMF |
488 | return 0; |
489 | } | |
490 | ||
b73a4c47 | 491 | int ust_buffers_put_subbuf(struct ust_buffer *buf, unsigned long uconsumed_old) |
b5b073e2 PMF |
492 | { |
493 | long consumed_new, consumed_old; | |
494 | ||
b102c2b0 | 495 | consumed_old = uatomic_read(&buf->consumed); |
b5b073e2 PMF |
496 | consumed_old = consumed_old & (~0xFFFFFFFFL); |
497 | consumed_old = consumed_old | uconsumed_old; | |
498 | consumed_new = SUBBUF_ALIGN(consumed_old, buf->chan); | |
499 | ||
500 | //ust// spin_lock(<t_buf->full_lock); | |
b102c2b0 | 501 | if (uatomic_cmpxchg(&buf->consumed, consumed_old, |
b5b073e2 PMF |
502 | consumed_new) |
503 | != consumed_old) { | |
504 | /* We have been pushed by the writer : the last | |
505 | * buffer read _is_ corrupted! It can also | |
506 | * happen if this is a buffer we never got. */ | |
507 | //ust// spin_unlock(<t_buf->full_lock); | |
508 | return -EIO; | |
509 | } else { | |
510 | /* tell the client that buffer is now unfull */ | |
511 | int index; | |
512 | long data; | |
513 | index = SUBBUF_INDEX(consumed_old, buf->chan); | |
514 | data = BUFFER_OFFSET(consumed_old, buf->chan); | |
515 | ltt_buf_unfull(buf, index, data); | |
516 | //ust// spin_unlock(<t_buf->full_lock); | |
517 | } | |
518 | return 0; | |
519 | } | |
520 | ||
521 | static void ltt_relay_print_subbuffer_errors( | |
522 | struct ust_channel *channel, | |
204141ee | 523 | long cons_off, int cpu) |
b5b073e2 | 524 | { |
204141ee | 525 | struct ust_buffer *ltt_buf = channel->buf[cpu]; |
b73a4c47 | 526 | long cons_idx, commit_count, commit_count_sb, write_offset; |
b5b073e2 PMF |
527 | |
528 | cons_idx = SUBBUF_INDEX(cons_off, channel); | |
b102c2b0 PMF |
529 | commit_count = uatomic_read(<t_buf->commit_count[cons_idx].cc); |
530 | commit_count_sb = uatomic_read(<t_buf->commit_count[cons_idx].cc_sb); | |
b73a4c47 | 531 | |
b5b073e2 PMF |
532 | /* |
533 | * No need to order commit_count and write_offset reads because we | |
534 | * execute after trace is stopped when there are no readers left. | |
535 | */ | |
b102c2b0 | 536 | write_offset = uatomic_read(<t_buf->offset); |
b5b073e2 | 537 | WARN( "LTT : unread channel %s offset is %ld " |
b73a4c47 PMF |
538 | "and cons_off : %ld (cpu %d)\n", |
539 | channel->channel_name, write_offset, cons_off, cpu); | |
b5b073e2 PMF |
540 | /* Check each sub-buffer for non filled commit count */ |
541 | if (((commit_count - channel->subbuf_size) & channel->commit_count_mask) | |
542 | - (BUFFER_TRUNC(cons_off, channel) >> channel->n_subbufs_order) != 0) { | |
543 | ERR("LTT : %s : subbuffer %lu has non filled " | |
b73a4c47 PMF |
544 | "commit count [cc, cc_sb] [%lu,%lu].\n", |
545 | channel->channel_name, cons_idx, commit_count, commit_count_sb); | |
b5b073e2 PMF |
546 | } |
547 | ERR("LTT : %s : commit count : %lu, subbuf size %zd\n", | |
548 | channel->channel_name, commit_count, | |
549 | channel->subbuf_size); | |
550 | } | |
551 | ||
b73a4c47 | 552 | static void ltt_relay_print_errors(struct ust_trace *trace, |
204141ee | 553 | struct ust_channel *channel, int cpu) |
b5b073e2 | 554 | { |
204141ee | 555 | struct ust_buffer *ltt_buf = channel->buf[cpu]; |
b5b073e2 PMF |
556 | long cons_off; |
557 | ||
4292ed8a PMF |
558 | /* |
559 | * Can be called in the error path of allocation when | |
560 | * trans_channel_data is not yet set. | |
561 | */ | |
562 | if (!channel) | |
563 | return; | |
564 | ||
e17571a5 PMF |
565 | //ust// for (cons_off = 0; cons_off < rchan->alloc_size; |
566 | //ust// cons_off = SUBBUF_ALIGN(cons_off, rchan)) | |
567 | //ust// ust_buffers_print_written(ltt_chan, cons_off, cpu); | |
b102c2b0 PMF |
568 | for (cons_off = uatomic_read(<t_buf->consumed); |
569 | (SUBBUF_TRUNC(uatomic_read(<t_buf->offset), | |
b5b073e2 PMF |
570 | channel) |
571 | - cons_off) > 0; | |
572 | cons_off = SUBBUF_ALIGN(cons_off, channel)) | |
204141ee | 573 | ltt_relay_print_subbuffer_errors(channel, cons_off, cpu); |
b5b073e2 PMF |
574 | } |
575 | ||
204141ee | 576 | static void ltt_relay_print_buffer_errors(struct ust_channel *channel, int cpu) |
b5b073e2 | 577 | { |
b73a4c47 | 578 | struct ust_trace *trace = channel->trace; |
204141ee | 579 | struct ust_buffer *ltt_buf = channel->buf[cpu]; |
b5b073e2 | 580 | |
b102c2b0 | 581 | if (uatomic_read(<t_buf->events_lost)) |
b73a4c47 | 582 | ERR("channel %s: %ld events lost (cpu %d)", |
b5b073e2 | 583 | channel->channel_name, |
b102c2b0 PMF |
584 | uatomic_read(<t_buf->events_lost), cpu); |
585 | if (uatomic_read(<t_buf->corrupted_subbuffers)) | |
b73a4c47 | 586 | ERR("channel %s : %ld corrupted subbuffers (cpu %d)", |
b5b073e2 | 587 | channel->channel_name, |
b102c2b0 | 588 | uatomic_read(<t_buf->corrupted_subbuffers), cpu); |
b5b073e2 | 589 | |
204141ee | 590 | ltt_relay_print_errors(trace, channel, cpu); |
b5b073e2 PMF |
591 | } |
592 | ||
593 | static void ltt_relay_release_channel(struct kref *kref) | |
594 | { | |
1e4b909b | 595 | struct ust_channel *ltt_chan = _ust_container_of(kref, |
b5b073e2 PMF |
596 | struct ust_channel, kref); |
597 | free(ltt_chan->buf); | |
598 | } | |
599 | ||
600 | /* | |
601 | * Create ltt buffer. | |
602 | */ | |
b73a4c47 | 603 | //ust// static int ltt_relay_create_buffer(struct ust_trace *trace, |
b5b073e2 PMF |
604 | //ust// struct ltt_channel_struct *ltt_chan, struct rchan_buf *buf, |
605 | //ust// unsigned int cpu, unsigned int n_subbufs) | |
606 | //ust// { | |
607 | //ust// struct ltt_channel_buf_struct *ltt_buf = | |
608 | //ust// percpu_ptr(ltt_chan->buf, cpu); | |
609 | //ust// unsigned int j; | |
b73a4c47 | 610 | //ust// |
b5b073e2 PMF |
611 | //ust// ltt_buf->commit_count = |
612 | //ust// kzalloc_node(sizeof(ltt_buf->commit_count) * n_subbufs, | |
613 | //ust// GFP_KERNEL, cpu_to_node(cpu)); | |
614 | //ust// if (!ltt_buf->commit_count) | |
615 | //ust// return -ENOMEM; | |
616 | //ust// kref_get(&trace->kref); | |
617 | //ust// kref_get(&trace->ltt_transport_kref); | |
618 | //ust// kref_get(<t_chan->kref); | |
b102c2b0 PMF |
619 | //ust// uatomic_set(<t_buf->offset, ltt_subbuffer_header_size()); |
620 | //ust// uatomic_set(<t_buf->consumed, 0); | |
621 | //ust// uatomic_set(<t_buf->active_readers, 0); | |
b5b073e2 | 622 | //ust// for (j = 0; j < n_subbufs; j++) |
b102c2b0 | 623 | //ust// uatomic_set(<t_buf->commit_count[j], 0); |
b5b073e2 | 624 | //ust// init_waitqueue_head(<t_buf->write_wait); |
b102c2b0 | 625 | //ust// uatomic_set(<t_buf->wakeup_readers, 0); |
b5b073e2 | 626 | //ust// spin_lock_init(<t_buf->full_lock); |
b73a4c47 | 627 | //ust// |
b5b073e2 PMF |
628 | //ust// ltt_buffer_begin_callback(buf, trace->start_tsc, 0); |
629 | //ust// /* atomic_add made on local variable on data that belongs to | |
630 | //ust// * various CPUs : ok because tracing not started (for this cpu). */ | |
b102c2b0 | 631 | //ust// uatomic_add(<t_buf->commit_count[0], ltt_subbuffer_header_size()); |
b73a4c47 | 632 | //ust// |
b102c2b0 PMF |
633 | //ust// uatomic_set(<t_buf->events_lost, 0); |
634 | //ust// uatomic_set(<t_buf->corrupted_subbuffers, 0); | |
b73a4c47 | 635 | //ust// |
b5b073e2 PMF |
636 | //ust// return 0; |
637 | //ust// } | |
638 | ||
b73a4c47 | 639 | static int ust_buffers_init_buffer(struct ust_trace *trace, |
b5b073e2 PMF |
640 | struct ust_channel *ltt_chan, struct ust_buffer *buf, |
641 | unsigned int n_subbufs) | |
642 | { | |
643 | unsigned int j; | |
644 | int fds[2]; | |
645 | int result; | |
646 | ||
647 | buf->commit_count = | |
b73a4c47 | 648 | zmalloc(sizeof(*buf->commit_count) * n_subbufs); |
b5b073e2 PMF |
649 | if (!buf->commit_count) |
650 | return -ENOMEM; | |
651 | kref_get(&trace->kref); | |
652 | kref_get(&trace->ltt_transport_kref); | |
653 | kref_get(<t_chan->kref); | |
b102c2b0 PMF |
654 | uatomic_set(&buf->offset, ltt_subbuffer_header_size()); |
655 | uatomic_set(&buf->consumed, 0); | |
656 | uatomic_set(&buf->active_readers, 0); | |
b73a4c47 | 657 | for (j = 0; j < n_subbufs; j++) { |
b102c2b0 PMF |
658 | uatomic_set(&buf->commit_count[j].cc, 0); |
659 | uatomic_set(&buf->commit_count[j].cc_sb, 0); | |
b73a4c47 | 660 | } |
b5b073e2 | 661 | //ust// init_waitqueue_head(&buf->write_wait); |
b102c2b0 | 662 | //ust// uatomic_set(&buf->wakeup_readers, 0); |
b5b073e2 PMF |
663 | //ust// spin_lock_init(&buf->full_lock); |
664 | ||
b73a4c47 | 665 | ltt_buffer_begin(buf, trace->start_tsc, 0); |
b5b073e2 | 666 | |
b102c2b0 | 667 | uatomic_add(&buf->commit_count[0].cc, ltt_subbuffer_header_size()); |
b5b073e2 | 668 | |
b102c2b0 PMF |
669 | uatomic_set(&buf->events_lost, 0); |
670 | uatomic_set(&buf->corrupted_subbuffers, 0); | |
b5b073e2 PMF |
671 | |
672 | result = pipe(fds); | |
673 | if(result == -1) { | |
674 | PERROR("pipe"); | |
675 | return -1; | |
676 | } | |
677 | buf->data_ready_fd_read = fds[0]; | |
678 | buf->data_ready_fd_write = fds[1]; | |
679 | ||
b5b073e2 PMF |
680 | //ust// buf->commit_seq = malloc(sizeof(buf->commit_seq) * n_subbufs); |
681 | //ust// if(!ltt_buf->commit_seq) { | |
682 | //ust// return -1; | |
683 | //ust// } | |
37315729 | 684 | memset(buf->commit_seq, 0, sizeof(buf->commit_seq[0]) * n_subbufs); |
b5b073e2 PMF |
685 | |
686 | /* FIXME: decrementally destroy on error */ | |
687 | ||
688 | return 0; | |
689 | } | |
690 | ||
691 | /* FIXME: use this function */ | |
204141ee | 692 | static void ust_buffers_destroy_buffer(struct ust_channel *ltt_chan, int cpu) |
b5b073e2 | 693 | { |
b73a4c47 | 694 | struct ust_trace *trace = ltt_chan->trace; |
204141ee | 695 | struct ust_buffer *ltt_buf = ltt_chan->buf[cpu]; |
b5b073e2 PMF |
696 | |
697 | kref_put(<t_chan->trace->ltt_transport_kref, | |
698 | ltt_release_transport); | |
204141ee | 699 | ltt_relay_print_buffer_errors(ltt_chan, cpu); |
b5b073e2 | 700 | //ust// free(ltt_buf->commit_seq); |
909bc43f | 701 | free(ltt_buf->commit_count); |
b5b073e2 PMF |
702 | ltt_buf->commit_count = NULL; |
703 | kref_put(<t_chan->kref, ltt_relay_release_channel); | |
704 | kref_put(&trace->kref, ltt_release_trace); | |
705 | //ust// wake_up_interruptible(&trace->kref_wq); | |
706 | } | |
707 | ||
204141ee | 708 | static int ust_buffers_alloc_channel_buf_structs(struct ust_channel *chan) |
b5b073e2 PMF |
709 | { |
710 | void *ptr; | |
711 | int result; | |
204141ee PMF |
712 | size_t size; |
713 | int i; | |
b5b073e2 | 714 | |
204141ee | 715 | size = PAGE_ALIGN(1); |
b5b073e2 | 716 | |
204141ee | 717 | for(i=0; i<chan->n_cpus; i++) { |
b5b073e2 | 718 | |
204141ee PMF |
719 | result = chan->buf_struct_shmids[i] = shmget(getpid(), size, IPC_CREAT | IPC_EXCL | 0700); |
720 | if(result == -1) { | |
721 | PERROR("shmget"); | |
722 | goto destroy_previous; | |
723 | } | |
b5b073e2 | 724 | |
204141ee PMF |
725 | /* FIXME: should have matching call to shmdt */ |
726 | ptr = shmat(chan->buf_struct_shmids[i], NULL, 0); | |
727 | if(ptr == (void *) -1) { | |
728 | perror("shmat"); | |
729 | goto destroy_shm; | |
730 | } | |
731 | ||
732 | /* Already mark the shared memory for destruction. This will occur only | |
733 | * when all users have detached. | |
734 | */ | |
735 | result = shmctl(chan->buf_struct_shmids[i], IPC_RMID, NULL); | |
736 | if(result == -1) { | |
737 | perror("shmctl"); | |
738 | goto destroy_previous; | |
739 | } | |
740 | ||
741 | chan->buf[i] = ptr; | |
b5b073e2 PMF |
742 | } |
743 | ||
204141ee | 744 | return 0; |
b5b073e2 | 745 | |
204141ee PMF |
746 | /* Jumping inside this loop occurs from within the other loop above with i as |
747 | * counter, so it unallocates the structures for the cpu = current_i down to | |
748 | * zero. */ | |
749 | for(; i>=0; i--) { | |
750 | destroy_shm: | |
751 | result = shmctl(chan->buf_struct_shmids[i], IPC_RMID, NULL); | |
752 | if(result == -1) { | |
753 | perror("shmctl"); | |
754 | } | |
b5b073e2 | 755 | |
204141ee PMF |
756 | destroy_previous: |
757 | continue; | |
b5b073e2 PMF |
758 | } |
759 | ||
204141ee | 760 | return -1; |
b5b073e2 PMF |
761 | } |
762 | ||
763 | /* | |
764 | * Create channel. | |
765 | */ | |
b73a4c47 | 766 | static int ust_buffers_create_channel(const char *trace_name, struct ust_trace *trace, |
b5b073e2 PMF |
767 | const char *channel_name, struct ust_channel *ltt_chan, |
768 | unsigned int subbuf_size, unsigned int n_subbufs, int overwrite) | |
769 | { | |
b5b073e2 PMF |
770 | int result; |
771 | ||
772 | kref_init(<t_chan->kref); | |
773 | ||
774 | ltt_chan->trace = trace; | |
b5b073e2 PMF |
775 | ltt_chan->overwrite = overwrite; |
776 | ltt_chan->n_subbufs_order = get_count_order(n_subbufs); | |
777 | ltt_chan->commit_count_mask = (~0UL >> ltt_chan->n_subbufs_order); | |
204141ee | 778 | ltt_chan->n_cpus = get_n_cpus(); |
b5b073e2 | 779 | //ust// ltt_chan->buf = percpu_alloc_mask(sizeof(struct ltt_channel_buf_struct), GFP_KERNEL, cpu_possible_map); |
1dba3e6c | 780 | ltt_chan->buf = (void *) zmalloc(ltt_chan->n_cpus * sizeof(void *)); |
204141ee PMF |
781 | if(ltt_chan->buf == NULL) { |
782 | goto error; | |
783 | } | |
1dba3e6c | 784 | ltt_chan->buf_struct_shmids = (int *) zmalloc(ltt_chan->n_cpus * sizeof(int)); |
204141ee PMF |
785 | if(ltt_chan->buf_struct_shmids == NULL) |
786 | goto free_buf; | |
b5b073e2 | 787 | |
204141ee PMF |
788 | result = ust_buffers_alloc_channel_buf_structs(ltt_chan); |
789 | if(result != 0) { | |
790 | goto free_buf_struct_shmids; | |
791 | } | |
b5b073e2 | 792 | |
b5b073e2 | 793 | result = ust_buffers_channel_open(ltt_chan, subbuf_size, n_subbufs); |
204141ee | 794 | if (result != 0) { |
c1f20530 | 795 | ERR("Cannot open channel for trace %s", trace_name); |
204141ee | 796 | goto unalloc_buf_structs; |
b5b073e2 PMF |
797 | } |
798 | ||
204141ee PMF |
799 | return 0; |
800 | ||
801 | unalloc_buf_structs: | |
802 | /* FIXME: put a call here to unalloc the buf structs! */ | |
803 | ||
804 | free_buf_struct_shmids: | |
805 | free(ltt_chan->buf_struct_shmids); | |
b5b073e2 | 806 | |
204141ee PMF |
807 | free_buf: |
808 | free(ltt_chan->buf); | |
809 | ||
810 | error: | |
811 | return -1; | |
b5b073e2 PMF |
812 | } |
813 | ||
b5b073e2 PMF |
814 | static void ltt_relay_async_wakeup_chan(struct ust_channel *ltt_channel) |
815 | { | |
816 | //ust// unsigned int i; | |
817 | //ust// struct rchan *rchan = ltt_channel->trans_channel_data; | |
818 | //ust// | |
819 | //ust// for_each_possible_cpu(i) { | |
820 | //ust// struct ltt_channel_buf_struct *ltt_buf = | |
821 | //ust// percpu_ptr(ltt_channel->buf, i); | |
822 | //ust// | |
b102c2b0 PMF |
823 | //ust// if (uatomic_read(<t_buf->wakeup_readers) == 1) { |
824 | //ust// uatomic_set(<t_buf->wakeup_readers, 0); | |
b5b073e2 PMF |
825 | //ust// wake_up_interruptible(&rchan->buf[i]->read_wait); |
826 | //ust// } | |
827 | //ust// } | |
828 | } | |
829 | ||
204141ee | 830 | static void ltt_relay_finish_buffer(struct ust_channel *channel, unsigned int cpu) |
b5b073e2 PMF |
831 | { |
832 | // int result; | |
833 | ||
204141ee PMF |
834 | if (channel->buf[cpu]) { |
835 | struct ust_buffer *buf = channel->buf[cpu]; | |
97c10252 | 836 | ltt_force_switch(buf, FORCE_FLUSH); |
b5b073e2 PMF |
837 | //ust// ltt_relay_wake_writers(ltt_buf); |
838 | /* closing the pipe tells the consumer the buffer is finished */ | |
839 | ||
840 | //result = write(ltt_buf->data_ready_fd_write, "D", 1); | |
841 | //if(result == -1) { | |
842 | // PERROR("write (in ltt_relay_finish_buffer)"); | |
843 | // ERR("this should never happen!"); | |
844 | //} | |
845 | close(buf->data_ready_fd_write); | |
846 | } | |
847 | } | |
848 | ||
849 | ||
850 | static void ltt_relay_finish_channel(struct ust_channel *channel) | |
851 | { | |
204141ee | 852 | unsigned int i; |
b5b073e2 | 853 | |
204141ee PMF |
854 | for(i=0; i<channel->n_cpus; i++) { |
855 | ltt_relay_finish_buffer(channel, i); | |
856 | } | |
b5b073e2 PMF |
857 | } |
858 | ||
859 | static void ltt_relay_remove_channel(struct ust_channel *channel) | |
860 | { | |
861 | ust_buffers_channel_close(channel); | |
862 | kref_put(&channel->kref, ltt_relay_release_channel); | |
863 | } | |
864 | ||
b5b073e2 | 865 | /* |
b73a4c47 PMF |
866 | * ltt_reserve_switch_old_subbuf: switch old subbuffer |
867 | * | |
868 | * Concurrency safe because we are the last and only thread to alter this | |
869 | * sub-buffer. As long as it is not delivered and read, no other thread can | |
870 | * alter the offset, alter the reserve_count or call the | |
871 | * client_buffer_end_callback on this sub-buffer. | |
872 | * | |
873 | * The only remaining threads could be the ones with pending commits. They will | |
874 | * have to do the deliver themselves. Not concurrency safe in overwrite mode. | |
875 | * We detect corrupted subbuffers with commit and reserve counts. We keep a | |
876 | * corrupted sub-buffers count and push the readers across these sub-buffers. | |
877 | * | |
878 | * Not concurrency safe if a writer is stalled in a subbuffer and another writer | |
879 | * switches in, finding out it's corrupted. The result will be than the old | |
880 | * (uncommited) subbuffer will be declared corrupted, and that the new subbuffer | |
881 | * will be declared corrupted too because of the commit count adjustment. | |
882 | * | |
883 | * Note : offset_old should never be 0 here. | |
b5b073e2 | 884 | */ |
b73a4c47 PMF |
885 | static void ltt_reserve_switch_old_subbuf( |
886 | struct ust_channel *chan, struct ust_buffer *buf, | |
887 | struct ltt_reserve_switch_offsets *offsets, u64 *tsc) | |
b5b073e2 | 888 | { |
b73a4c47 PMF |
889 | long oldidx = SUBBUF_INDEX(offsets->old - 1, chan); |
890 | long commit_count, padding_size; | |
b5b073e2 | 891 | |
b73a4c47 PMF |
892 | padding_size = chan->subbuf_size |
893 | - (SUBBUF_OFFSET(offsets->old - 1, chan) + 1); | |
894 | ltt_buffer_end(buf, *tsc, offsets->old, oldidx); | |
b5b073e2 | 895 | |
b73a4c47 PMF |
896 | /* |
897 | * Must write slot data before incrementing commit count. | |
898 | * This compiler barrier is upgraded into a smp_wmb() by the IPI | |
899 | * sent by get_subbuf() when it does its smp_rmb(). | |
900 | */ | |
ee4c3467 | 901 | smp_wmb(); |
b102c2b0 PMF |
902 | uatomic_add(&buf->commit_count[oldidx].cc, padding_size); |
903 | commit_count = uatomic_read(&buf->commit_count[oldidx].cc); | |
b73a4c47 | 904 | ltt_check_deliver(chan, buf, offsets->old - 1, commit_count, oldidx); |
1e8c9e7b | 905 | ltt_write_commit_counter(chan, buf, oldidx, |
b73a4c47 PMF |
906 | offsets->old, commit_count, padding_size); |
907 | } | |
b5b073e2 | 908 | |
b73a4c47 PMF |
909 | /* |
910 | * ltt_reserve_switch_new_subbuf: Populate new subbuffer. | |
911 | * | |
912 | * This code can be executed unordered : writers may already have written to the | |
913 | * sub-buffer before this code gets executed, caution. The commit makes sure | |
914 | * that this code is executed before the deliver of this sub-buffer. | |
915 | */ | |
916 | static void ltt_reserve_switch_new_subbuf( | |
917 | struct ust_channel *chan, struct ust_buffer *buf, | |
918 | struct ltt_reserve_switch_offsets *offsets, u64 *tsc) | |
919 | { | |
920 | long beginidx = SUBBUF_INDEX(offsets->begin, chan); | |
921 | long commit_count; | |
b5b073e2 | 922 | |
b73a4c47 | 923 | ltt_buffer_begin(buf, *tsc, beginidx); |
b5b073e2 | 924 | |
b73a4c47 PMF |
925 | /* |
926 | * Must write slot data before incrementing commit count. | |
927 | * This compiler barrier is upgraded into a smp_wmb() by the IPI | |
928 | * sent by get_subbuf() when it does its smp_rmb(). | |
929 | */ | |
ee4c3467 | 930 | smp_wmb(); |
b102c2b0 PMF |
931 | uatomic_add(&buf->commit_count[beginidx].cc, ltt_subbuffer_header_size()); |
932 | commit_count = uatomic_read(&buf->commit_count[beginidx].cc); | |
b73a4c47 PMF |
933 | /* Check if the written buffer has to be delivered */ |
934 | ltt_check_deliver(chan, buf, offsets->begin, commit_count, beginidx); | |
1e8c9e7b | 935 | ltt_write_commit_counter(chan, buf, beginidx, |
b73a4c47 PMF |
936 | offsets->begin, commit_count, ltt_subbuffer_header_size()); |
937 | } | |
b5b073e2 | 938 | |
b73a4c47 PMF |
939 | /* |
940 | * ltt_reserve_end_switch_current: finish switching current subbuffer | |
941 | * | |
942 | * Concurrency safe because we are the last and only thread to alter this | |
943 | * sub-buffer. As long as it is not delivered and read, no other thread can | |
944 | * alter the offset, alter the reserve_count or call the | |
945 | * client_buffer_end_callback on this sub-buffer. | |
946 | * | |
947 | * The only remaining threads could be the ones with pending commits. They will | |
948 | * have to do the deliver themselves. Not concurrency safe in overwrite mode. | |
949 | * We detect corrupted subbuffers with commit and reserve counts. We keep a | |
950 | * corrupted sub-buffers count and push the readers across these sub-buffers. | |
951 | * | |
952 | * Not concurrency safe if a writer is stalled in a subbuffer and another writer | |
953 | * switches in, finding out it's corrupted. The result will be than the old | |
954 | * (uncommited) subbuffer will be declared corrupted, and that the new subbuffer | |
955 | * will be declared corrupted too because of the commit count adjustment. | |
956 | */ | |
957 | static void ltt_reserve_end_switch_current( | |
958 | struct ust_channel *chan, | |
959 | struct ust_buffer *buf, | |
960 | struct ltt_reserve_switch_offsets *offsets, u64 *tsc) | |
961 | { | |
962 | long endidx = SUBBUF_INDEX(offsets->end - 1, chan); | |
963 | long commit_count, padding_size; | |
964 | ||
965 | padding_size = chan->subbuf_size | |
966 | - (SUBBUF_OFFSET(offsets->end - 1, chan) + 1); | |
967 | ||
968 | ltt_buffer_end(buf, *tsc, offsets->end, endidx); | |
969 | ||
970 | /* | |
971 | * Must write slot data before incrementing commit count. | |
972 | * This compiler barrier is upgraded into a smp_wmb() by the IPI | |
973 | * sent by get_subbuf() when it does its smp_rmb(). | |
974 | */ | |
ee4c3467 | 975 | smp_wmb(); |
b102c2b0 PMF |
976 | uatomic_add(&buf->commit_count[endidx].cc, padding_size); |
977 | commit_count = uatomic_read(&buf->commit_count[endidx].cc); | |
b73a4c47 PMF |
978 | ltt_check_deliver(chan, buf, |
979 | offsets->end - 1, commit_count, endidx); | |
1e8c9e7b | 980 | ltt_write_commit_counter(chan, buf, endidx, |
b73a4c47 | 981 | offsets->end, commit_count, padding_size); |
b5b073e2 PMF |
982 | } |
983 | ||
984 | /* | |
985 | * Returns : | |
986 | * 0 if ok | |
987 | * !0 if execution must be aborted. | |
988 | */ | |
b73a4c47 | 989 | static int ltt_relay_try_switch_slow( |
b5b073e2 | 990 | enum force_switch_mode mode, |
b73a4c47 | 991 | struct ust_channel *chan, |
b5b073e2 PMF |
992 | struct ust_buffer *buf, |
993 | struct ltt_reserve_switch_offsets *offsets, | |
994 | u64 *tsc) | |
995 | { | |
996 | long subbuf_index; | |
b73a4c47 | 997 | long reserve_commit_diff; |
b5b073e2 | 998 | |
b102c2b0 | 999 | offsets->begin = uatomic_read(&buf->offset); |
b5b073e2 PMF |
1000 | offsets->old = offsets->begin; |
1001 | offsets->begin_switch = 0; | |
1002 | offsets->end_switch_old = 0; | |
1003 | ||
1004 | *tsc = trace_clock_read64(); | |
1005 | ||
1006 | if (SUBBUF_OFFSET(offsets->begin, buf->chan) != 0) { | |
1007 | offsets->begin = SUBBUF_ALIGN(offsets->begin, buf->chan); | |
1008 | offsets->end_switch_old = 1; | |
1009 | } else { | |
1010 | /* we do not have to switch : buffer is empty */ | |
1011 | return -1; | |
1012 | } | |
1013 | if (mode == FORCE_ACTIVE) | |
1014 | offsets->begin += ltt_subbuffer_header_size(); | |
1015 | /* | |
1016 | * Always begin_switch in FORCE_ACTIVE mode. | |
1017 | * Test new buffer integrity | |
1018 | */ | |
1019 | subbuf_index = SUBBUF_INDEX(offsets->begin, buf->chan); | |
b73a4c47 | 1020 | reserve_commit_diff = |
b5b073e2 | 1021 | (BUFFER_TRUNC(offsets->begin, buf->chan) |
b73a4c47 | 1022 | >> chan->n_subbufs_order) |
b102c2b0 | 1023 | - (uatomic_read(&buf->commit_count[subbuf_index].cc_sb) |
b73a4c47 PMF |
1024 | & chan->commit_count_mask); |
1025 | if (reserve_commit_diff == 0) { | |
b5b073e2 PMF |
1026 | /* Next buffer not corrupted. */ |
1027 | if (mode == FORCE_ACTIVE | |
b73a4c47 | 1028 | && !chan->overwrite |
b102c2b0 | 1029 | && offsets->begin - uatomic_read(&buf->consumed) |
b73a4c47 | 1030 | >= chan->alloc_size) { |
b5b073e2 PMF |
1031 | /* |
1032 | * We do not overwrite non consumed buffers and we are | |
1033 | * full : ignore switch while tracing is active. | |
1034 | */ | |
1035 | return -1; | |
1036 | } | |
1037 | } else { | |
1038 | /* | |
1039 | * Next subbuffer corrupted. Force pushing reader even in normal | |
1040 | * mode | |
1041 | */ | |
1042 | } | |
1043 | offsets->end = offsets->begin; | |
1044 | return 0; | |
1045 | } | |
1046 | ||
b5b073e2 | 1047 | /* |
b73a4c47 PMF |
1048 | * Force a sub-buffer switch for a per-cpu buffer. This operation is |
1049 | * completely reentrant : can be called while tracing is active with | |
1050 | * absolutely no lock held. | |
b5b073e2 | 1051 | */ |
b73a4c47 PMF |
1052 | void ltt_force_switch_lockless_slow(struct ust_buffer *buf, |
1053 | enum force_switch_mode mode) | |
b5b073e2 | 1054 | { |
b73a4c47 | 1055 | struct ust_channel *chan = buf->chan; |
b5b073e2 | 1056 | struct ltt_reserve_switch_offsets offsets; |
b73a4c47 | 1057 | u64 tsc; |
b5b073e2 | 1058 | |
b5b073e2 PMF |
1059 | offsets.size = 0; |
1060 | ||
10dd3941 | 1061 | DBG("Switching (forced) %s_%d", chan->channel_name, buf->cpu); |
b5b073e2 PMF |
1062 | /* |
1063 | * Perform retryable operations. | |
1064 | */ | |
b5b073e2 | 1065 | do { |
b73a4c47 PMF |
1066 | if (ltt_relay_try_switch_slow(mode, chan, buf, |
1067 | &offsets, &tsc)) | |
1068 | return; | |
b102c2b0 | 1069 | } while (uatomic_cmpxchg(&buf->offset, offsets.old, |
b5b073e2 PMF |
1070 | offsets.end) != offsets.old); |
1071 | ||
1072 | /* | |
1073 | * Atomically update last_tsc. This update races against concurrent | |
1074 | * atomic updates, but the race will always cause supplementary full TSC | |
1075 | * events, never the opposite (missing a full TSC event when it would be | |
1076 | * needed). | |
1077 | */ | |
b73a4c47 | 1078 | save_last_tsc(buf, tsc); |
b5b073e2 PMF |
1079 | |
1080 | /* | |
1081 | * Push the reader if necessary | |
1082 | */ | |
b73a4c47 PMF |
1083 | if (mode == FORCE_ACTIVE) { |
1084 | ltt_reserve_push_reader(chan, buf, offsets.end - 1); | |
1085 | //ust// ltt_clear_noref_flag(chan, buf, SUBBUF_INDEX(offsets.end - 1, chan)); | |
1086 | } | |
b5b073e2 PMF |
1087 | |
1088 | /* | |
1089 | * Switch old subbuffer if needed. | |
1090 | */ | |
b73a4c47 PMF |
1091 | if (offsets.end_switch_old) { |
1092 | //ust// ltt_clear_noref_flag(rchan, buf, SUBBUF_INDEX(offsets.old - 1, rchan)); | |
1093 | ltt_reserve_switch_old_subbuf(chan, buf, &offsets, &tsc); | |
1094 | } | |
b5b073e2 PMF |
1095 | |
1096 | /* | |
1097 | * Populate new subbuffer. | |
1098 | */ | |
b73a4c47 PMF |
1099 | if (mode == FORCE_ACTIVE) |
1100 | ltt_reserve_switch_new_subbuf(chan, buf, &offsets, &tsc); | |
1101 | } | |
b5b073e2 | 1102 | |
b73a4c47 PMF |
1103 | /* |
1104 | * Returns : | |
1105 | * 0 if ok | |
1106 | * !0 if execution must be aborted. | |
1107 | */ | |
1108 | static int ltt_relay_try_reserve_slow(struct ust_channel *chan, struct ust_buffer *buf, | |
1109 | struct ltt_reserve_switch_offsets *offsets, size_t data_size, | |
1110 | u64 *tsc, unsigned int *rflags, int largest_align) | |
1111 | { | |
1112 | long reserve_commit_diff; | |
b5b073e2 | 1113 | |
b102c2b0 | 1114 | offsets->begin = uatomic_read(&buf->offset); |
b73a4c47 PMF |
1115 | offsets->old = offsets->begin; |
1116 | offsets->begin_switch = 0; | |
1117 | offsets->end_switch_current = 0; | |
1118 | offsets->end_switch_old = 0; | |
1119 | ||
1120 | *tsc = trace_clock_read64(); | |
1121 | if (last_tsc_overflow(buf, *tsc)) | |
1122 | *rflags = LTT_RFLAG_ID_SIZE_TSC; | |
1123 | ||
1124 | if (unlikely(SUBBUF_OFFSET(offsets->begin, buf->chan) == 0)) { | |
1125 | offsets->begin_switch = 1; /* For offsets->begin */ | |
1126 | } else { | |
1127 | offsets->size = ust_get_header_size(chan, | |
1128 | offsets->begin, data_size, | |
1129 | &offsets->before_hdr_pad, *rflags); | |
1130 | offsets->size += ltt_align(offsets->begin + offsets->size, | |
1131 | largest_align) | |
1132 | + data_size; | |
1133 | if (unlikely((SUBBUF_OFFSET(offsets->begin, buf->chan) + | |
1134 | offsets->size) > buf->chan->subbuf_size)) { | |
1135 | offsets->end_switch_old = 1; /* For offsets->old */ | |
1136 | offsets->begin_switch = 1; /* For offsets->begin */ | |
1137 | } | |
1138 | } | |
1139 | if (unlikely(offsets->begin_switch)) { | |
1140 | long subbuf_index; | |
1141 | ||
1142 | /* | |
1143 | * We are typically not filling the previous buffer completely. | |
1144 | */ | |
1145 | if (likely(offsets->end_switch_old)) | |
1146 | offsets->begin = SUBBUF_ALIGN(offsets->begin, | |
1147 | buf->chan); | |
1148 | offsets->begin = offsets->begin + ltt_subbuffer_header_size(); | |
1149 | /* Test new buffer integrity */ | |
1150 | subbuf_index = SUBBUF_INDEX(offsets->begin, buf->chan); | |
1151 | reserve_commit_diff = | |
1152 | (BUFFER_TRUNC(offsets->begin, buf->chan) | |
1153 | >> chan->n_subbufs_order) | |
b102c2b0 | 1154 | - (uatomic_read(&buf->commit_count[subbuf_index].cc_sb) |
b73a4c47 PMF |
1155 | & chan->commit_count_mask); |
1156 | if (likely(reserve_commit_diff == 0)) { | |
1157 | /* Next buffer not corrupted. */ | |
1158 | if (unlikely(!chan->overwrite && | |
1159 | (SUBBUF_TRUNC(offsets->begin, buf->chan) | |
b102c2b0 | 1160 | - SUBBUF_TRUNC(uatomic_read( |
b73a4c47 PMF |
1161 | &buf->consumed), |
1162 | buf->chan)) | |
1163 | >= chan->alloc_size)) { | |
1164 | /* | |
1165 | * We do not overwrite non consumed buffers | |
1166 | * and we are full : event is lost. | |
1167 | */ | |
b102c2b0 | 1168 | uatomic_inc(&buf->events_lost); |
b73a4c47 PMF |
1169 | return -1; |
1170 | } else { | |
1171 | /* | |
1172 | * next buffer not corrupted, we are either in | |
1173 | * overwrite mode or the buffer is not full. | |
1174 | * It's safe to write in this new subbuffer. | |
1175 | */ | |
1176 | } | |
1177 | } else { | |
1178 | /* | |
1179 | * Next subbuffer corrupted. Drop event in normal and | |
1180 | * overwrite mode. Caused by either a writer OOPS or | |
1181 | * too many nested writes over a reserve/commit pair. | |
1182 | */ | |
b102c2b0 | 1183 | uatomic_inc(&buf->events_lost); |
b73a4c47 PMF |
1184 | return -1; |
1185 | } | |
1186 | offsets->size = ust_get_header_size(chan, | |
1187 | offsets->begin, data_size, | |
1188 | &offsets->before_hdr_pad, *rflags); | |
1189 | offsets->size += ltt_align(offsets->begin + offsets->size, | |
1190 | largest_align) | |
1191 | + data_size; | |
1192 | if (unlikely((SUBBUF_OFFSET(offsets->begin, buf->chan) | |
1193 | + offsets->size) > buf->chan->subbuf_size)) { | |
1194 | /* | |
1195 | * Event too big for subbuffers, report error, don't | |
1196 | * complete the sub-buffer switch. | |
1197 | */ | |
b102c2b0 | 1198 | uatomic_inc(&buf->events_lost); |
b73a4c47 PMF |
1199 | return -1; |
1200 | } else { | |
1201 | /* | |
1202 | * We just made a successful buffer switch and the event | |
1203 | * fits in the new subbuffer. Let's write. | |
1204 | */ | |
1205 | } | |
1206 | } else { | |
1207 | /* | |
1208 | * Event fits in the current buffer and we are not on a switch | |
1209 | * boundary. It's safe to write. | |
1210 | */ | |
1211 | } | |
1212 | offsets->end = offsets->begin + offsets->size; | |
1213 | ||
1214 | if (unlikely((SUBBUF_OFFSET(offsets->end, buf->chan)) == 0)) { | |
1215 | /* | |
1216 | * The offset_end will fall at the very beginning of the next | |
1217 | * subbuffer. | |
1218 | */ | |
1219 | offsets->end_switch_current = 1; /* For offsets->begin */ | |
1220 | } | |
b5b073e2 PMF |
1221 | return 0; |
1222 | } | |
1223 | ||
b73a4c47 PMF |
1224 | /** |
1225 | * ltt_relay_reserve_slot_lockless_slow - Atomic slot reservation in a buffer. | |
1226 | * @trace: the trace structure to log to. | |
1227 | * @ltt_channel: channel structure | |
1228 | * @transport_data: data structure specific to ltt relay | |
1229 | * @data_size: size of the variable length data to log. | |
1230 | * @slot_size: pointer to total size of the slot (out) | |
1231 | * @buf_offset : pointer to reserved buffer offset (out) | |
1232 | * @tsc: pointer to the tsc at the slot reservation (out) | |
1233 | * @cpu: cpuid | |
b5b073e2 | 1234 | * |
b73a4c47 PMF |
1235 | * Return : -ENOSPC if not enough space, else returns 0. |
1236 | * It will take care of sub-buffer switching. | |
b5b073e2 | 1237 | */ |
12e81b07 PMF |
1238 | int ltt_reserve_slot_lockless_slow(struct ust_channel *chan, |
1239 | struct ust_trace *trace, size_t data_size, | |
1240 | int largest_align, int cpu, | |
1241 | struct ust_buffer **ret_buf, | |
1242 | size_t *slot_size, long *buf_offset, | |
1243 | u64 *tsc, unsigned int *rflags) | |
b5b073e2 | 1244 | { |
12e81b07 | 1245 | struct ust_buffer *buf = *ret_buf = chan->buf[cpu]; |
b5b073e2 | 1246 | struct ltt_reserve_switch_offsets offsets; |
b5b073e2 | 1247 | |
b5b073e2 PMF |
1248 | offsets.size = 0; |
1249 | ||
b5b073e2 | 1250 | do { |
b73a4c47 PMF |
1251 | if (unlikely(ltt_relay_try_reserve_slow(chan, buf, &offsets, |
1252 | data_size, tsc, rflags, largest_align))) | |
1253 | return -ENOSPC; | |
b102c2b0 | 1254 | } while (unlikely(uatomic_cmpxchg(&buf->offset, offsets.old, |
b73a4c47 | 1255 | offsets.end) != offsets.old)); |
b5b073e2 PMF |
1256 | |
1257 | /* | |
1258 | * Atomically update last_tsc. This update races against concurrent | |
1259 | * atomic updates, but the race will always cause supplementary full TSC | |
1260 | * events, never the opposite (missing a full TSC event when it would be | |
1261 | * needed). | |
1262 | */ | |
b73a4c47 | 1263 | save_last_tsc(buf, *tsc); |
b5b073e2 PMF |
1264 | |
1265 | /* | |
1266 | * Push the reader if necessary | |
1267 | */ | |
b73a4c47 PMF |
1268 | ltt_reserve_push_reader(chan, buf, offsets.end - 1); |
1269 | ||
1270 | /* | |
1271 | * Clear noref flag for this subbuffer. | |
1272 | */ | |
1273 | //ust// ltt_clear_noref_flag(chan, buf, SUBBUF_INDEX(offsets.end - 1, chan)); | |
b5b073e2 PMF |
1274 | |
1275 | /* | |
1276 | * Switch old subbuffer if needed. | |
1277 | */ | |
b73a4c47 PMF |
1278 | if (unlikely(offsets.end_switch_old)) { |
1279 | //ust// ltt_clear_noref_flag(chan, buf, SUBBUF_INDEX(offsets.old - 1, chan)); | |
1280 | ltt_reserve_switch_old_subbuf(chan, buf, &offsets, tsc); | |
10dd3941 | 1281 | DBG("Switching %s_%d", chan->channel_name, cpu); |
b73a4c47 | 1282 | } |
b5b073e2 PMF |
1283 | |
1284 | /* | |
1285 | * Populate new subbuffer. | |
1286 | */ | |
b73a4c47 PMF |
1287 | if (unlikely(offsets.begin_switch)) |
1288 | ltt_reserve_switch_new_subbuf(chan, buf, &offsets, tsc); | |
1289 | ||
1290 | if (unlikely(offsets.end_switch_current)) | |
1291 | ltt_reserve_end_switch_current(chan, buf, &offsets, tsc); | |
1292 | ||
1293 | *slot_size = offsets.size; | |
1294 | *buf_offset = offsets.begin + offsets.before_hdr_pad; | |
1295 | return 0; | |
b5b073e2 PMF |
1296 | } |
1297 | ||
b5b073e2 PMF |
1298 | static struct ltt_transport ust_relay_transport = { |
1299 | .name = "ustrelay", | |
1300 | .ops = { | |
1301 | .create_channel = ust_buffers_create_channel, | |
1302 | .finish_channel = ltt_relay_finish_channel, | |
1303 | .remove_channel = ltt_relay_remove_channel, | |
1304 | .wakeup_channel = ltt_relay_async_wakeup_chan, | |
b5b073e2 PMF |
1305 | }, |
1306 | }; | |
1307 | ||
b5b073e2 PMF |
1308 | static char initialized = 0; |
1309 | ||
1310 | void __attribute__((constructor)) init_ustrelay_transport(void) | |
1311 | { | |
1312 | if(!initialized) { | |
1313 | ltt_transport_register(&ust_relay_transport); | |
1314 | initialized = 1; | |
1315 | } | |
1316 | } | |
1317 | ||
b73a4c47 | 1318 | static void __attribute__((destructor)) ust_buffers_exit(void) |
b5b073e2 PMF |
1319 | { |
1320 | ltt_transport_unregister(&ust_relay_transport); | |
1321 | } | |
b73a4c47 | 1322 | |
12e81b07 | 1323 | size_t ltt_write_event_header_slow(struct ust_channel *channel, |
b73a4c47 PMF |
1324 | struct ust_buffer *buf, long buf_offset, |
1325 | u16 eID, u32 event_size, | |
1326 | u64 tsc, unsigned int rflags) | |
1327 | { | |
1328 | struct ltt_event_header header; | |
1329 | u16 small_size; | |
1330 | ||
1331 | switch (rflags) { | |
1332 | case LTT_RFLAG_ID_SIZE_TSC: | |
1333 | header.id_time = 29 << LTT_TSC_BITS; | |
1334 | break; | |
1335 | case LTT_RFLAG_ID_SIZE: | |
1336 | header.id_time = 30 << LTT_TSC_BITS; | |
1337 | break; | |
1338 | case LTT_RFLAG_ID: | |
1339 | header.id_time = 31 << LTT_TSC_BITS; | |
1340 | break; | |
1341 | } | |
1342 | ||
1343 | header.id_time |= (u32)tsc & LTT_TSC_MASK; | |
1344 | ust_buffers_write(buf, buf_offset, &header, sizeof(header)); | |
1345 | buf_offset += sizeof(header); | |
1346 | ||
1347 | switch (rflags) { | |
1348 | case LTT_RFLAG_ID_SIZE_TSC: | |
1349 | small_size = (u16)min_t(u32, event_size, LTT_MAX_SMALL_SIZE); | |
1350 | ust_buffers_write(buf, buf_offset, | |
1351 | &eID, sizeof(u16)); | |
1352 | buf_offset += sizeof(u16); | |
1353 | ust_buffers_write(buf, buf_offset, | |
1354 | &small_size, sizeof(u16)); | |
1355 | buf_offset += sizeof(u16); | |
1356 | if (small_size == LTT_MAX_SMALL_SIZE) { | |
1357 | ust_buffers_write(buf, buf_offset, | |
1358 | &event_size, sizeof(u32)); | |
1359 | buf_offset += sizeof(u32); | |
1360 | } | |
1361 | buf_offset += ltt_align(buf_offset, sizeof(u64)); | |
1362 | ust_buffers_write(buf, buf_offset, | |
1363 | &tsc, sizeof(u64)); | |
1364 | buf_offset += sizeof(u64); | |
1365 | break; | |
1366 | case LTT_RFLAG_ID_SIZE: | |
1367 | small_size = (u16)min_t(u32, event_size, LTT_MAX_SMALL_SIZE); | |
1368 | ust_buffers_write(buf, buf_offset, | |
1369 | &eID, sizeof(u16)); | |
1370 | buf_offset += sizeof(u16); | |
1371 | ust_buffers_write(buf, buf_offset, | |
1372 | &small_size, sizeof(u16)); | |
1373 | buf_offset += sizeof(u16); | |
1374 | if (small_size == LTT_MAX_SMALL_SIZE) { | |
1375 | ust_buffers_write(buf, buf_offset, | |
1376 | &event_size, sizeof(u32)); | |
1377 | buf_offset += sizeof(u32); | |
1378 | } | |
1379 | break; | |
1380 | case LTT_RFLAG_ID: | |
1381 | ust_buffers_write(buf, buf_offset, | |
1382 | &eID, sizeof(u16)); | |
1383 | buf_offset += sizeof(u16); | |
1384 | break; | |
1385 | } | |
1386 | ||
1387 | return buf_offset; | |
1388 | } |