blob: aab0b3c2b93d538e3e2b3b24232eb60203d8c103 [file] [log] [blame]
Willy Tarreau609aad92018-11-22 08:31:09 +01001/*
2 * activity measurement functions.
3 *
4 * Copyright 2000-2018 Willy Tarreau <w@1wt.eu>
5 *
6 * This program is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU General Public License
8 * as published by the Free Software Foundation; either version
9 * 2 of the License, or (at your option) any later version.
10 *
11 */
12
Willy Tarreaub2551052020-06-09 09:07:15 +020013#include <haproxy/activity-t.h>
Willy Tarreau4c7e4b72020-05-27 12:58:42 +020014#include <haproxy/api.h>
Willy Tarreau6be78492020-06-05 00:00:29 +020015#include <haproxy/cfgparse.h>
Willy Tarreau55542642021-10-08 09:33:24 +020016#include <haproxy/clock.h>
Willy Tarreauf1d32c42020-06-04 21:07:02 +020017#include <haproxy/channel.h>
Willy Tarreau83487a82020-06-04 20:19:54 +020018#include <haproxy/cli.h>
Willy Tarreaub2551052020-06-09 09:07:15 +020019#include <haproxy/freq_ctr.h>
Willy Tarreau5e539c92020-06-04 20:45:39 +020020#include <haproxy/stream_interface.h>
Willy Tarreau48fbcae2020-06-03 18:09:46 +020021#include <haproxy/tools.h>
Willy Tarreaua26be372021-10-06 16:26:33 +020022#include <haproxy/xxhash.h>
Willy Tarreau75c62c22018-11-22 11:02:09 +010023
Willy Tarreauf93c7be2021-05-05 17:07:09 +020024#if defined(DEBUG_MEM_STATS)
25/* these ones are macros in bug.h when DEBUG_MEM_STATS is set, and will
26 * prevent the new ones from being redefined.
27 */
28#undef calloc
29#undef malloc
30#undef realloc
31#endif
Willy Tarreau75c62c22018-11-22 11:02:09 +010032
33/* bit field of profiling options. Beware, may be modified at runtime! */
Willy Tarreauef7380f2021-05-05 16:28:31 +020034unsigned int profiling __read_mostly = HA_PROF_TASKS_AOFF;
35unsigned long task_profiling_mask __read_mostly = 0;
Willy Tarreau609aad92018-11-22 08:31:09 +010036
37/* One struct per thread containing all collected measurements */
38struct activity activity[MAX_THREADS] __attribute__((aligned(64))) = { };
39
Willy Tarreau3fb6a7b2021-01-28 19:19:26 +010040/* One struct per function pointer hash entry (256 values, 0=collision) */
41struct sched_activity sched_activity[256] __attribute__((aligned(64))) = { };
Willy Tarreau609aad92018-11-22 08:31:09 +010042
Willy Tarreaudb87fc72021-05-05 16:50:40 +020043
Willy Tarreaue15615c2021-08-28 12:04:25 +020044#ifdef USE_MEMORY_PROFILING
Willy Tarreaudb87fc72021-05-05 16:50:40 +020045/* determine the number of buckets to store stats */
46#define MEMPROF_HASH_BITS 10
47#define MEMPROF_HASH_BUCKETS (1U << MEMPROF_HASH_BITS)
48
Willy Tarreau616491b2021-05-11 09:26:23 +020049enum memprof_method {
50 MEMPROF_METH_UNKNOWN = 0,
51 MEMPROF_METH_MALLOC,
52 MEMPROF_METH_CALLOC,
53 MEMPROF_METH_REALLOC,
54 MEMPROF_METH_FREE,
55 MEMPROF_METH_METHODS /* count, must be last */
56};
57
58static const char *const memprof_methods[MEMPROF_METH_METHODS] = {
59 "unknown", "malloc", "calloc", "realloc", "free",
60};
61
Willy Tarreaudb87fc72021-05-05 16:50:40 +020062/* stats:
63 * - malloc increases alloc
64 * - free increases free (if non null)
65 * - realloc increases either depending on the size change.
66 * when the real size is known (malloc_usable_size()), it's used in free_tot
67 * and alloc_tot, otherwise the requested size is reported in alloc_tot and
68 * zero in free_tot.
69 */
70struct memprof_stats {
71 const void *caller;
Willy Tarreau616491b2021-05-11 09:26:23 +020072 enum memprof_method method;
73 /* 4-7 bytes hole here */
Willy Tarreaudb87fc72021-05-05 16:50:40 +020074 unsigned long long alloc_calls;
75 unsigned long long free_calls;
76 unsigned long long alloc_tot;
77 unsigned long long free_tot;
78};
79
80/* last one is for hash collisions ("others") and has no caller address */
81struct memprof_stats memprof_stats[MEMPROF_HASH_BUCKETS + 1] = { };
82
Willy Tarreauf93c7be2021-05-05 17:07:09 +020083/* used to detect recursive calls */
84static THREAD_LOCAL int in_memprof = 0;
85
86/* perform a pointer hash by scrambling its bits and retrieving the most
87 * mixed ones (topmost ones in 32-bit, middle ones in 64-bit).
88 */
89static unsigned int memprof_hash_ptr(const void *p)
90{
91 unsigned long long x = (unsigned long)p;
92
93 x = 0xcbda9653U * x;
94 if (sizeof(long) == 4)
95 x >>= 32;
96 else
97 x >>= 33 - MEMPROF_HASH_BITS / 2;
98 return x & (MEMPROF_HASH_BUCKETS - 1);
99}
100
101/* These ones are used by glibc and will be called early. They are in charge of
102 * initializing the handlers with the original functions.
103 */
104static void *memprof_malloc_initial_handler(size_t size);
105static void *memprof_calloc_initial_handler(size_t nmemb, size_t size);
106static void *memprof_realloc_initial_handler(void *ptr, size_t size);
107static void memprof_free_initial_handler(void *ptr);
108
109/* Fallback handlers for the main alloc/free functions. They are preset to
110 * the initializer in order to save a test in the functions's critical path.
111 */
112static void *(*memprof_malloc_handler)(size_t size) = memprof_malloc_initial_handler;
113static void *(*memprof_calloc_handler)(size_t nmemb, size_t size) = memprof_calloc_initial_handler;
114static void *(*memprof_realloc_handler)(void *ptr, size_t size) = memprof_realloc_initial_handler;
115static void (*memprof_free_handler)(void *ptr) = memprof_free_initial_handler;
116
117/* Used to force to die if it's not possible to retrieve the allocation
118 * functions. We cannot even use stdio in this case.
119 */
120static __attribute__((noreturn)) void memprof_die(const char *msg)
121{
122 DISGUISE(write(2, msg, strlen(msg)));
123 exit(1);
124}
125
126/* Resolve original allocation functions and initialize all handlers.
127 * This must be called very early at boot, before the very first malloc()
128 * call, and is not thread-safe! It's not even possible to use stdio there.
129 * Worse, we have to account for the risk of reentrance from dlsym() when
130 * it tries to prepare its error messages. Here its ahndled by in_memprof
131 * that makes allocators return NULL. dlsym() handles it gracefully. An
Ilya Shipitsin3df59892021-05-10 12:50:00 +0500132 * alternate approach consists in calling aligned_alloc() from these places
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200133 * but that would mean not being able to intercept it later if considered
134 * useful to do so.
135 */
136static void memprof_init()
137{
138 in_memprof++;
139 memprof_malloc_handler = get_sym_next_addr("malloc");
140 if (!memprof_malloc_handler)
141 memprof_die("FATAL: malloc() function not found.\n");
142
143 memprof_calloc_handler = get_sym_next_addr("calloc");
144 if (!memprof_calloc_handler)
145 memprof_die("FATAL: calloc() function not found.\n");
146
147 memprof_realloc_handler = get_sym_next_addr("realloc");
148 if (!memprof_realloc_handler)
149 memprof_die("FATAL: realloc() function not found.\n");
150
151 memprof_free_handler = get_sym_next_addr("free");
152 if (!memprof_free_handler)
153 memprof_die("FATAL: free() function not found.\n");
154 in_memprof--;
155}
156
157/* the initial handlers will initialize all regular handlers and will call the
158 * one they correspond to. A single one of these functions will typically be
159 * called, though it's unknown which one (as any might be called before main).
160 */
161static void *memprof_malloc_initial_handler(size_t size)
162{
163 if (in_memprof) {
164 /* it's likely that dlsym() needs malloc(), let's fail */
165 return NULL;
166 }
167
168 memprof_init();
169 return memprof_malloc_handler(size);
170}
171
172static void *memprof_calloc_initial_handler(size_t nmemb, size_t size)
173{
174 if (in_memprof) {
175 /* it's likely that dlsym() needs calloc(), let's fail */
176 return NULL;
177 }
178 memprof_init();
179 return memprof_calloc_handler(nmemb, size);
180}
181
182static void *memprof_realloc_initial_handler(void *ptr, size_t size)
183{
184 if (in_memprof) {
185 /* it's likely that dlsym() needs realloc(), let's fail */
186 return NULL;
187 }
188
189 memprof_init();
190 return memprof_realloc_handler(ptr, size);
191}
192
193static void memprof_free_initial_handler(void *ptr)
194{
195 memprof_init();
196 memprof_free_handler(ptr);
197}
198
199/* Assign a bin for the memprof_stats to the return address. May perform a few
200 * attempts before finding the right one, but always succeeds (in the worst
201 * case, returns a default bin). The caller address is atomically set except
202 * for the default one which is never set.
203 */
Willy Tarreau616491b2021-05-11 09:26:23 +0200204static struct memprof_stats *memprof_get_bin(const void *ra, enum memprof_method meth)
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200205{
206 int retries = 16; // up to 16 consecutive entries may be tested.
Willy Tarreau4a753282021-05-09 23:18:50 +0200207 const void *old;
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200208 unsigned int bin;
209
210 bin = memprof_hash_ptr(ra);
211 for (; memprof_stats[bin].caller != ra; bin = (bin + 1) & (MEMPROF_HASH_BUCKETS - 1)) {
212 if (!--retries) {
213 bin = MEMPROF_HASH_BUCKETS;
214 break;
215 }
216
217 old = NULL;
218 if (!memprof_stats[bin].caller &&
Willy Tarreau616491b2021-05-11 09:26:23 +0200219 HA_ATOMIC_CAS(&memprof_stats[bin].caller, &old, ra)) {
220 memprof_stats[bin].method = meth;
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200221 break;
Willy Tarreau616491b2021-05-11 09:26:23 +0200222 }
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200223 }
224 return &memprof_stats[bin];
225}
226
227/* This is the new global malloc() function. It must optimize for the normal
228 * case (i.e. profiling disabled) hence the first test to permit a direct jump.
229 * It must remain simple to guarantee the lack of reentrance. stdio is not
230 * possible there even for debugging. The reported size is the really allocated
231 * one as returned by malloc_usable_size(), because this will allow it to be
232 * compared to the one before realloc() or free(). This is a GNU and jemalloc
233 * extension but other systems may also store this size in ptr[-1].
234 */
235void *malloc(size_t size)
236{
237 struct memprof_stats *bin;
238 void *ret;
239
240 if (likely(!(profiling & HA_PROF_MEMORY)))
241 return memprof_malloc_handler(size);
242
243 ret = memprof_malloc_handler(size);
Willy Tarreau1de51eb2021-10-22 16:33:53 +0200244 size = malloc_usable_size(ret) + sizeof(void *);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200245
Willy Tarreau616491b2021-05-11 09:26:23 +0200246 bin = memprof_get_bin(__builtin_return_address(0), MEMPROF_METH_MALLOC);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200247 _HA_ATOMIC_ADD(&bin->alloc_calls, 1);
248 _HA_ATOMIC_ADD(&bin->alloc_tot, size);
249 return ret;
250}
251
252/* This is the new global calloc() function. It must optimize for the normal
253 * case (i.e. profiling disabled) hence the first test to permit a direct jump.
254 * It must remain simple to guarantee the lack of reentrance. stdio is not
255 * possible there even for debugging. The reported size is the really allocated
256 * one as returned by malloc_usable_size(), because this will allow it to be
257 * compared to the one before realloc() or free(). This is a GNU and jemalloc
258 * extension but other systems may also store this size in ptr[-1].
259 */
260void *calloc(size_t nmemb, size_t size)
261{
262 struct memprof_stats *bin;
263 void *ret;
264
265 if (likely(!(profiling & HA_PROF_MEMORY)))
266 return memprof_calloc_handler(nmemb, size);
267
268 ret = memprof_calloc_handler(nmemb, size);
Willy Tarreau1de51eb2021-10-22 16:33:53 +0200269 size = malloc_usable_size(ret) + sizeof(void *);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200270
Willy Tarreau616491b2021-05-11 09:26:23 +0200271 bin = memprof_get_bin(__builtin_return_address(0), MEMPROF_METH_CALLOC);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200272 _HA_ATOMIC_ADD(&bin->alloc_calls, 1);
273 _HA_ATOMIC_ADD(&bin->alloc_tot, size);
274 return ret;
275}
276
277/* This is the new global realloc() function. It must optimize for the normal
278 * case (i.e. profiling disabled) hence the first test to permit a direct jump.
279 * It must remain simple to guarantee the lack of reentrance. stdio is not
280 * possible there even for debugging. The reported size is the really allocated
281 * one as returned by malloc_usable_size(), because this will allow it to be
282 * compared to the one before realloc() or free(). This is a GNU and jemalloc
283 * extension but other systems may also store this size in ptr[-1].
284 * Depending on the old vs new size, it's considered as an allocation or a free
285 * (or neither if the size remains the same).
286 */
287void *realloc(void *ptr, size_t size)
288{
289 struct memprof_stats *bin;
290 size_t size_before;
291 void *ret;
292
293 if (likely(!(profiling & HA_PROF_MEMORY)))
294 return memprof_realloc_handler(ptr, size);
295
296 size_before = malloc_usable_size(ptr);
297 ret = memprof_realloc_handler(ptr, size);
Willy Tarreau2639e2e2021-05-07 08:01:35 +0200298 size = malloc_usable_size(ret);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200299
Willy Tarreau1de51eb2021-10-22 16:33:53 +0200300 /* only count the extra link for new allocations */
301 if (!ptr)
302 size += sizeof(void *);
303
Willy Tarreau616491b2021-05-11 09:26:23 +0200304 bin = memprof_get_bin(__builtin_return_address(0), MEMPROF_METH_REALLOC);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200305 if (size > size_before) {
306 _HA_ATOMIC_ADD(&bin->alloc_calls, 1);
Willy Tarreau79acefa2021-05-11 09:12:56 +0200307 _HA_ATOMIC_ADD(&bin->alloc_tot, size - size_before);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200308 } else if (size < size_before) {
309 _HA_ATOMIC_ADD(&bin->free_calls, 1);
Willy Tarreau79acefa2021-05-11 09:12:56 +0200310 _HA_ATOMIC_ADD(&bin->free_tot, size_before - size);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200311 }
312 return ret;
313}
314
315/* This is the new global free() function. It must optimize for the normal
316 * case (i.e. profiling disabled) hence the first test to permit a direct jump.
317 * It must remain simple to guarantee the lack of reentrance. stdio is not
318 * possible there even for debugging. The reported size is the really allocated
319 * one as returned by malloc_usable_size(), because this will allow it to be
320 * compared to the one before realloc() or free(). This is a GNU and jemalloc
321 * extension but other systems may also store this size in ptr[-1]. Since
322 * free() is often called on NULL pointers to collect garbage at the end of
323 * many functions or during config parsing, as a special case free(NULL)
324 * doesn't update any stats.
325 */
326void free(void *ptr)
327{
328 struct memprof_stats *bin;
329 size_t size_before;
330
331 if (likely(!(profiling & HA_PROF_MEMORY) || !ptr)) {
332 memprof_free_handler(ptr);
333 return;
334 }
335
Willy Tarreau1de51eb2021-10-22 16:33:53 +0200336 size_before = malloc_usable_size(ptr) + sizeof(void *);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200337 memprof_free_handler(ptr);
338
Willy Tarreau616491b2021-05-11 09:26:23 +0200339 bin = memprof_get_bin(__builtin_return_address(0), MEMPROF_METH_FREE);
Willy Tarreauf93c7be2021-05-05 17:07:09 +0200340 _HA_ATOMIC_ADD(&bin->free_calls, 1);
341 _HA_ATOMIC_ADD(&bin->free_tot, size_before);
342}
343
Willy Tarreaudb87fc72021-05-05 16:50:40 +0200344#endif // USE_MEMORY_PROFILING
345
Willy Tarreau609aad92018-11-22 08:31:09 +0100346/* Updates the current thread's statistics about stolen CPU time. The unit for
347 * <stolen> is half-milliseconds.
348 */
349void report_stolen_time(uint64_t stolen)
350{
351 activity[tid].cpust_total += stolen;
352 update_freq_ctr(&activity[tid].cpust_1s, stolen);
353 update_freq_ctr_period(&activity[tid].cpust_15s, 15000, stolen);
354}
Willy Tarreau75c62c22018-11-22 11:02:09 +0100355
Willy Tarreau20adfde2021-10-08 11:34:46 +0200356/* Update avg_loop value for the current thread and possibly decide to enable
357 * task-level profiling on the current thread based on its average run time.
358 * The <run_time> argument is the number of microseconds elapsed since the
359 * last time poll() returned.
Willy Tarreaue0650222021-10-06 16:22:09 +0200360 */
Willy Tarreau20adfde2021-10-08 11:34:46 +0200361void activity_count_runtime(uint32_t run_time)
Willy Tarreaue0650222021-10-06 16:22:09 +0200362{
Willy Tarreaue0650222021-10-06 16:22:09 +0200363 uint32_t up, down;
364
365 /* 1 millisecond per loop on average over last 1024 iterations is
366 * enough to turn on profiling.
367 */
368 up = 1000;
369 down = up * 99 / 100;
370
Willy Tarreaue0650222021-10-06 16:22:09 +0200371 run_time = swrate_add(&activity[tid].avg_loop_us, TIME_STATS_SAMPLES, run_time);
372
373 /* In automatic mode, reaching the "up" threshold on average switches
374 * profiling to "on" when automatic, and going back below the "down"
375 * threshold switches to off. The forced modes don't check the load.
376 */
377 if (!(task_profiling_mask & tid_bit)) {
378 if (unlikely((profiling & HA_PROF_TASKS_MASK) == HA_PROF_TASKS_ON ||
379 ((profiling & HA_PROF_TASKS_MASK) == HA_PROF_TASKS_AON &&
380 swrate_avg(run_time, TIME_STATS_SAMPLES) >= up)))
381 _HA_ATOMIC_OR(&task_profiling_mask, tid_bit);
382 } else {
383 if (unlikely((profiling & HA_PROF_TASKS_MASK) == HA_PROF_TASKS_OFF ||
384 ((profiling & HA_PROF_TASKS_MASK) == HA_PROF_TASKS_AOFF &&
385 swrate_avg(run_time, TIME_STATS_SAMPLES) <= down)))
386 _HA_ATOMIC_AND(&task_profiling_mask, ~tid_bit);
387 }
388}
389
Willy Tarreauca3afc22021-05-05 18:33:19 +0200390#ifdef USE_MEMORY_PROFILING
391/* config parser for global "profiling.memory", accepts "on" or "off" */
392static int cfg_parse_prof_memory(char **args, int section_type, struct proxy *curpx,
393 const struct proxy *defpx, const char *file, int line,
394 char **err)
395{
396 if (too_many_args(1, args, err, NULL))
397 return -1;
398
399 if (strcmp(args[1], "on") == 0)
400 profiling |= HA_PROF_MEMORY;
401 else if (strcmp(args[1], "off") == 0)
402 profiling &= ~HA_PROF_MEMORY;
403 else {
404 memprintf(err, "'%s' expects either 'on' or 'off' but got '%s'.", args[0], args[1]);
405 return -1;
406 }
407 return 0;
408}
409#endif // USE_MEMORY_PROFILING
410
Willy Tarreau75c62c22018-11-22 11:02:09 +0100411/* config parser for global "profiling.tasks", accepts "on" or "off" */
412static int cfg_parse_prof_tasks(char **args, int section_type, struct proxy *curpx,
Willy Tarreau01825162021-03-09 09:53:46 +0100413 const struct proxy *defpx, const char *file, int line,
Willy Tarreau75c62c22018-11-22 11:02:09 +0100414 char **err)
415{
416 if (too_many_args(1, args, err, NULL))
417 return -1;
418
419 if (strcmp(args[1], "on") == 0)
Willy Tarreaud2d33482019-04-25 17:09:07 +0200420 profiling = (profiling & ~HA_PROF_TASKS_MASK) | HA_PROF_TASKS_ON;
421 else if (strcmp(args[1], "auto") == 0)
Willy Tarreauaa622b82021-01-28 21:44:22 +0100422 profiling = (profiling & ~HA_PROF_TASKS_MASK) | HA_PROF_TASKS_AOFF;
Willy Tarreau75c62c22018-11-22 11:02:09 +0100423 else if (strcmp(args[1], "off") == 0)
Willy Tarreaud2d33482019-04-25 17:09:07 +0200424 profiling = (profiling & ~HA_PROF_TASKS_MASK) | HA_PROF_TASKS_OFF;
Willy Tarreau75c62c22018-11-22 11:02:09 +0100425 else {
Willy Tarreaud2d33482019-04-25 17:09:07 +0200426 memprintf(err, "'%s' expects either 'on', 'auto', or 'off' but got '%s'.", args[0], args[1]);
Willy Tarreau75c62c22018-11-22 11:02:09 +0100427 return -1;
428 }
429 return 0;
430}
431
432/* parse a "set profiling" command. It always returns 1. */
433static int cli_parse_set_profiling(char **args, char *payload, struct appctx *appctx, void *private)
434{
Willy Tarreau75c62c22018-11-22 11:02:09 +0100435 if (!cli_has_level(appctx, ACCESS_LVL_ADMIN))
436 return 1;
437
Willy Tarreau00dd44f2021-05-05 16:44:23 +0200438 if (strcmp(args[2], "memory") == 0) {
Willy Tarreaudb87fc72021-05-05 16:50:40 +0200439#ifdef USE_MEMORY_PROFILING
440 if (strcmp(args[3], "on") == 0) {
441 unsigned int old = profiling;
442 int i;
443
444 while (!_HA_ATOMIC_CAS(&profiling, &old, old | HA_PROF_MEMORY))
445 ;
446
447 /* also flush current profiling stats */
448 for (i = 0; i < sizeof(memprof_stats) / sizeof(memprof_stats[0]); i++) {
449 HA_ATOMIC_STORE(&memprof_stats[i].alloc_calls, 0);
450 HA_ATOMIC_STORE(&memprof_stats[i].free_calls, 0);
451 HA_ATOMIC_STORE(&memprof_stats[i].alloc_tot, 0);
452 HA_ATOMIC_STORE(&memprof_stats[i].free_tot, 0);
453 HA_ATOMIC_STORE(&memprof_stats[i].caller, NULL);
454 }
455 }
456 else if (strcmp(args[3], "off") == 0) {
457 unsigned int old = profiling;
458
459 while (!_HA_ATOMIC_CAS(&profiling, &old, old & ~HA_PROF_MEMORY))
460 ;
461 }
462 else
463 return cli_err(appctx, "Expects either 'on' or 'off'.\n");
464 return 1;
465#else
Willy Tarreau00dd44f2021-05-05 16:44:23 +0200466 return cli_err(appctx, "Memory profiling not compiled in.\n");
Willy Tarreaudb87fc72021-05-05 16:50:40 +0200467#endif
Willy Tarreau00dd44f2021-05-05 16:44:23 +0200468 }
469
Willy Tarreau9d008692019-08-09 11:21:01 +0200470 if (strcmp(args[2], "tasks") != 0)
Ilya Shipitsin3df59892021-05-10 12:50:00 +0500471 return cli_err(appctx, "Expects either 'tasks' or 'memory'.\n");
Willy Tarreau75c62c22018-11-22 11:02:09 +0100472
Willy Tarreaud2d33482019-04-25 17:09:07 +0200473 if (strcmp(args[3], "on") == 0) {
474 unsigned int old = profiling;
Willy Tarreaucfa71012021-01-29 11:56:21 +0100475 int i;
476
Willy Tarreaud2d33482019-04-25 17:09:07 +0200477 while (!_HA_ATOMIC_CAS(&profiling, &old, (old & ~HA_PROF_TASKS_MASK) | HA_PROF_TASKS_ON))
478 ;
Willy Tarreaucfa71012021-01-29 11:56:21 +0100479 /* also flush current profiling stats */
480 for (i = 0; i < 256; i++) {
481 HA_ATOMIC_STORE(&sched_activity[i].calls, 0);
482 HA_ATOMIC_STORE(&sched_activity[i].cpu_time, 0);
483 HA_ATOMIC_STORE(&sched_activity[i].lat_time, 0);
484 HA_ATOMIC_STORE(&sched_activity[i].func, NULL);
485 }
Willy Tarreaud2d33482019-04-25 17:09:07 +0200486 }
487 else if (strcmp(args[3], "auto") == 0) {
488 unsigned int old = profiling;
Willy Tarreauaa622b82021-01-28 21:44:22 +0100489 unsigned int new;
490
491 do {
492 if ((old & HA_PROF_TASKS_MASK) >= HA_PROF_TASKS_AON)
493 new = (old & ~HA_PROF_TASKS_MASK) | HA_PROF_TASKS_AON;
494 else
495 new = (old & ~HA_PROF_TASKS_MASK) | HA_PROF_TASKS_AOFF;
496 } while (!_HA_ATOMIC_CAS(&profiling, &old, new));
Willy Tarreaud2d33482019-04-25 17:09:07 +0200497 }
498 else if (strcmp(args[3], "off") == 0) {
499 unsigned int old = profiling;
500 while (!_HA_ATOMIC_CAS(&profiling, &old, (old & ~HA_PROF_TASKS_MASK) | HA_PROF_TASKS_OFF))
501 ;
502 }
Willy Tarreau9d008692019-08-09 11:21:01 +0200503 else
504 return cli_err(appctx, "Expects 'on', 'auto', or 'off'.\n");
505
Willy Tarreau75c62c22018-11-22 11:02:09 +0100506 return 1;
507}
508
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200509static int cmp_sched_activity_calls(const void *a, const void *b)
Willy Tarreau1bd67e92021-01-29 00:07:40 +0100510{
511 const struct sched_activity *l = (const struct sched_activity *)a;
512 const struct sched_activity *r = (const struct sched_activity *)b;
513
514 if (l->calls > r->calls)
515 return -1;
516 else if (l->calls < r->calls)
517 return 1;
518 else
519 return 0;
520}
521
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200522static int cmp_sched_activity_addr(const void *a, const void *b)
523{
524 const struct sched_activity *l = (const struct sched_activity *)a;
525 const struct sched_activity *r = (const struct sched_activity *)b;
526
527 if (l->func > r->func)
528 return -1;
529 else if (l->func < r->func)
530 return 1;
531 else
532 return 0;
533}
534
Willy Tarreaue15615c2021-08-28 12:04:25 +0200535#ifdef USE_MEMORY_PROFILING
Willy Tarreau993d44d2021-05-05 18:07:02 +0200536/* used by qsort below */
537static int cmp_memprof_stats(const void *a, const void *b)
538{
539 const struct memprof_stats *l = (const struct memprof_stats *)a;
540 const struct memprof_stats *r = (const struct memprof_stats *)b;
541
542 if (l->alloc_tot + l->free_tot > r->alloc_tot + r->free_tot)
543 return -1;
544 else if (l->alloc_tot + l->free_tot < r->alloc_tot + r->free_tot)
545 return 1;
546 else
547 return 0;
548}
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200549
550static int cmp_memprof_addr(const void *a, const void *b)
551{
552 const struct memprof_stats *l = (const struct memprof_stats *)a;
553 const struct memprof_stats *r = (const struct memprof_stats *)b;
554
555 if (l->caller > r->caller)
556 return -1;
557 else if (l->caller < r->caller)
558 return 1;
559 else
560 return 0;
561}
Willy Tarreau993d44d2021-05-05 18:07:02 +0200562#endif // USE_MEMORY_PROFILING
563
Willy Tarreaua26be372021-10-06 16:26:33 +0200564/* Computes the index of function pointer <func> for use with sched_activity[]
565 * or any other similar array passed in <array>, and returns a pointer to the
566 * entry after having atomically assigned it to this function pointer. Note
567 * that in case of collision, the first entry is returned instead ("other").
568 */
569struct sched_activity *sched_activity_entry(struct sched_activity *array, const void *func)
570{
571 uint64_t hash = XXH64_avalanche(XXH64_mergeRound((size_t)func, (size_t)func));
572 struct sched_activity *ret;
573 const void *old = NULL;
574
575 hash ^= (hash >> 32);
576 hash ^= (hash >> 16);
577 hash ^= (hash >> 8);
578 hash &= 0xff;
579 ret = &array[hash];
580
581 if (likely(ret->func == func))
582 return ret;
583
584 if (HA_ATOMIC_CAS(&ret->func, &old, func))
585 return ret;
586
587 return array;
588}
589
Willy Tarreau75c62c22018-11-22 11:02:09 +0100590/* This function dumps all profiling settings. It returns 0 if the output
591 * buffer is full and it needs to be called again, otherwise non-zero.
Willy Tarreau637d85a2021-05-05 17:33:27 +0200592 * It dumps some parts depending on the following states:
593 * ctx.cli.i0:
594 * 0, 4: dump status, then jump to 1 if 0
595 * 1, 5: dump tasks, then jump to 2 if 1
596 * 2, 6: dump memory, then stop
597 * ctx.cli.i1:
598 * restart line for each step (starts at zero)
599 * ctx.cli.o0:
600 * may contain a configured max line count for each step (0=not set)
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200601 * ctx.cli.o1:
602 * 0: sort by usage
603 * 1: sort by address
Willy Tarreau75c62c22018-11-22 11:02:09 +0100604 */
605static int cli_io_handler_show_profiling(struct appctx *appctx)
606{
Willy Tarreau1bd67e92021-01-29 00:07:40 +0100607 struct sched_activity tmp_activity[256] __attribute__((aligned(64)));
Willy Tarreaue15615c2021-08-28 12:04:25 +0200608#ifdef USE_MEMORY_PROFILING
Willy Tarreau993d44d2021-05-05 18:07:02 +0200609 struct memprof_stats tmp_memstats[MEMPROF_HASH_BUCKETS + 1];
Willy Tarreauf5fb8582021-05-11 14:06:24 +0200610 unsigned long long tot_alloc_calls, tot_free_calls;
611 unsigned long long tot_alloc_bytes, tot_free_bytes;
Willy Tarreau993d44d2021-05-05 18:07:02 +0200612#endif
Willy Tarreau75c62c22018-11-22 11:02:09 +0100613 struct stream_interface *si = appctx->owner;
Willy Tarreau1bd67e92021-01-29 00:07:40 +0100614 struct buffer *name_buffer = get_trash_chunk();
Willy Tarreaud2d33482019-04-25 17:09:07 +0200615 const char *str;
Willy Tarreau637d85a2021-05-05 17:33:27 +0200616 int max_lines;
Willy Tarreau1bd67e92021-01-29 00:07:40 +0100617 int i, max;
Willy Tarreau75c62c22018-11-22 11:02:09 +0100618
619 if (unlikely(si_ic(si)->flags & (CF_WRITE_ERROR|CF_SHUTW)))
620 return 1;
621
622 chunk_reset(&trash);
623
Willy Tarreaud2d33482019-04-25 17:09:07 +0200624 switch (profiling & HA_PROF_TASKS_MASK) {
Willy Tarreauaa622b82021-01-28 21:44:22 +0100625 case HA_PROF_TASKS_AOFF: str="auto-off"; break;
626 case HA_PROF_TASKS_AON: str="auto-on"; break;
Willy Tarreaud2d33482019-04-25 17:09:07 +0200627 case HA_PROF_TASKS_ON: str="on"; break;
628 default: str="off"; break;
629 }
630
Willy Tarreau637d85a2021-05-05 17:33:27 +0200631 if ((appctx->ctx.cli.i0 & 3) != 0)
632 goto skip_status;
Willy Tarreau1bd67e92021-01-29 00:07:40 +0100633
Willy Tarreaud2d33482019-04-25 17:09:07 +0200634 chunk_printf(&trash,
Willy Tarreau00dd44f2021-05-05 16:44:23 +0200635 "Per-task CPU profiling : %-8s # set profiling tasks {on|auto|off}\n"
636 "Memory usage profiling : %-8s # set profiling memory {on|off}\n",
637 str, (profiling & HA_PROF_MEMORY) ? "on" : "off");
Willy Tarreau75c62c22018-11-22 11:02:09 +0100638
Willy Tarreau637d85a2021-05-05 17:33:27 +0200639 if (ci_putchk(si_ic(si), &trash) == -1) {
640 /* failed, try again */
641 si_rx_room_blk(si);
642 return 0;
643 }
644
645 appctx->ctx.cli.i1 = 0; // reset first line to dump
646 if ((appctx->ctx.cli.i0 & 4) == 0)
647 appctx->ctx.cli.i0++; // next step
648
649 skip_status:
650 if ((appctx->ctx.cli.i0 & 3) != 1)
651 goto skip_tasks;
Willy Tarreau1bd67e92021-01-29 00:07:40 +0100652
Willy Tarreau637d85a2021-05-05 17:33:27 +0200653 memcpy(tmp_activity, sched_activity, sizeof(tmp_activity));
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200654 if (appctx->ctx.cli.o1)
655 qsort(tmp_activity, 256, sizeof(tmp_activity[0]), cmp_sched_activity_addr);
656 else
657 qsort(tmp_activity, 256, sizeof(tmp_activity[0]), cmp_sched_activity_calls);
Willy Tarreau637d85a2021-05-05 17:33:27 +0200658
659 if (!appctx->ctx.cli.i1)
660 chunk_appendf(&trash, "Tasks activity:\n"
661 " function calls cpu_tot cpu_avg lat_tot lat_avg\n");
662
663 max_lines = appctx->ctx.cli.o0;
664 if (!max_lines)
665 max_lines = 256;
666
667 for (i = appctx->ctx.cli.i1; i < max_lines && tmp_activity[i].calls; i++) {
668 appctx->ctx.cli.i1 = i;
Willy Tarreau1bd67e92021-01-29 00:07:40 +0100669 chunk_reset(name_buffer);
670
671 if (!tmp_activity[i].func)
672 chunk_printf(name_buffer, "other");
673 else
674 resolve_sym_name(name_buffer, "", tmp_activity[i].func);
675
676 /* reserve 35 chars for name+' '+#calls, knowing that longer names
677 * are often used for less often called functions.
678 */
679 max = 35 - name_buffer->data;
680 if (max < 1)
681 max = 1;
682 chunk_appendf(&trash, " %s%*llu", name_buffer->area, max, (unsigned long long)tmp_activity[i].calls);
683
684 print_time_short(&trash, " ", tmp_activity[i].cpu_time, "");
685 print_time_short(&trash, " ", tmp_activity[i].cpu_time / tmp_activity[i].calls, "");
686 print_time_short(&trash, " ", tmp_activity[i].lat_time, "");
687 print_time_short(&trash, " ", tmp_activity[i].lat_time / tmp_activity[i].calls, "\n");
Willy Tarreau637d85a2021-05-05 17:33:27 +0200688
689 if (ci_putchk(si_ic(si), &trash) == -1) {
690 /* failed, try again */
691 si_rx_room_blk(si);
692 return 0;
693 }
Willy Tarreau1bd67e92021-01-29 00:07:40 +0100694 }
695
Willy Tarreau75c62c22018-11-22 11:02:09 +0100696 if (ci_putchk(si_ic(si), &trash) == -1) {
697 /* failed, try again */
698 si_rx_room_blk(si);
699 return 0;
700 }
Willy Tarreau637d85a2021-05-05 17:33:27 +0200701
702 appctx->ctx.cli.i1 = 0; // reset first line to dump
703 if ((appctx->ctx.cli.i0 & 4) == 0)
704 appctx->ctx.cli.i0++; // next step
705
706 skip_tasks:
707
Willy Tarreaue15615c2021-08-28 12:04:25 +0200708#ifdef USE_MEMORY_PROFILING
Willy Tarreau993d44d2021-05-05 18:07:02 +0200709 if ((appctx->ctx.cli.i0 & 3) != 2)
710 goto skip_mem;
711
712 memcpy(tmp_memstats, memprof_stats, sizeof(tmp_memstats));
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200713 if (appctx->ctx.cli.o1)
714 qsort(tmp_memstats, MEMPROF_HASH_BUCKETS+1, sizeof(tmp_memstats[0]), cmp_memprof_addr);
715 else
716 qsort(tmp_memstats, MEMPROF_HASH_BUCKETS+1, sizeof(tmp_memstats[0]), cmp_memprof_stats);
Willy Tarreau993d44d2021-05-05 18:07:02 +0200717
718 if (!appctx->ctx.cli.i1)
719 chunk_appendf(&trash,
720 "Alloc/Free statistics by call place:\n"
Willy Tarreau616491b2021-05-11 09:26:23 +0200721 " Calls | Tot Bytes | Caller and method\n"
Willy Tarreau993d44d2021-05-05 18:07:02 +0200722 "<- alloc -> <- free ->|<-- alloc ---> <-- free ---->|\n");
723
724 max_lines = appctx->ctx.cli.o0;
725 if (!max_lines)
726 max_lines = MEMPROF_HASH_BUCKETS + 1;
727
728 for (i = appctx->ctx.cli.i1; i < max_lines; i++) {
729 struct memprof_stats *entry = &tmp_memstats[i];
730
731 appctx->ctx.cli.i1 = i;
732 if (!entry->alloc_calls && !entry->free_calls)
733 continue;
734 chunk_appendf(&trash, "%11llu %11llu %14llu %14llu| %16p ",
735 entry->alloc_calls, entry->free_calls,
736 entry->alloc_tot, entry->free_tot,
737 entry->caller);
738
739 if (entry->caller)
740 resolve_sym_name(&trash, NULL, entry->caller);
741 else
742 chunk_appendf(&trash, "[other]");
743
Willy Tarreau8cce4d72021-10-22 16:26:12 +0200744 chunk_appendf(&trash," %s(%lld)", memprof_methods[entry->method],
Willy Tarreau616491b2021-05-11 09:26:23 +0200745 (long long)(entry->alloc_tot - entry->free_tot) / (long long)(entry->alloc_calls + entry->free_calls));
Willy Tarreau993d44d2021-05-05 18:07:02 +0200746
Willy Tarreau8cce4d72021-10-22 16:26:12 +0200747 if (entry->alloc_tot && entry->free_tot) {
748 /* that's a realloc, show the total diff to help spot leaks */
749 chunk_appendf(&trash," [delta=%lld]", (long long)(entry->alloc_tot - entry->free_tot));
750 }
751
752 chunk_appendf(&trash, "\n");
753
Willy Tarreau993d44d2021-05-05 18:07:02 +0200754 if (ci_putchk(si_ic(si), &trash) == -1) {
755 si_rx_room_blk(si);
756 return 0;
757 }
758 }
759
760 if (ci_putchk(si_ic(si), &trash) == -1) {
761 si_rx_room_blk(si);
762 return 0;
763 }
764
Willy Tarreauf5fb8582021-05-11 14:06:24 +0200765 tot_alloc_calls = tot_free_calls = tot_alloc_bytes = tot_free_bytes = 0;
766 for (i = 0; i < max_lines; i++) {
767 tot_alloc_calls += tmp_memstats[i].alloc_calls;
768 tot_free_calls += tmp_memstats[i].free_calls;
769 tot_alloc_bytes += tmp_memstats[i].alloc_tot;
770 tot_free_bytes += tmp_memstats[i].free_tot;
771 }
772
773 chunk_appendf(&trash,
774 "-----------------------|-----------------------------|\n"
775 "%11llu %11llu %14llu %14llu| <- Total; Delta_calls=%lld; Delta_bytes=%lld\n",
776 tot_alloc_calls, tot_free_calls,
777 tot_alloc_bytes, tot_free_bytes,
778 tot_alloc_calls - tot_free_calls,
779 tot_alloc_bytes - tot_free_bytes);
780
781 if (ci_putchk(si_ic(si), &trash) == -1) {
782 si_rx_room_blk(si);
783 return 0;
784 }
785
Willy Tarreau993d44d2021-05-05 18:07:02 +0200786 appctx->ctx.cli.i1 = 0; // reset first line to dump
787 if ((appctx->ctx.cli.i0 & 4) == 0)
788 appctx->ctx.cli.i0++; // next step
789
790 skip_mem:
791#endif // USE_MEMORY_PROFILING
792
Willy Tarreau75c62c22018-11-22 11:02:09 +0100793 return 1;
794}
795
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200796/* parse a "show profiling" command. It returns 1 on failure, 0 if it starts to dump.
797 * - cli.i0 is set to the first state (0=all, 4=status, 5=tasks, 6=memory)
798 * - cli.o1 is set to 1 if the output must be sorted by addr instead of usage
799 * - cli.o0 is set to the number of lines of output
800 */
Willy Tarreau42712cb2021-05-05 17:48:13 +0200801static int cli_parse_show_profiling(char **args, char *payload, struct appctx *appctx, void *private)
802{
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200803 int arg;
804
Willy Tarreau42712cb2021-05-05 17:48:13 +0200805 if (!cli_has_level(appctx, ACCESS_LVL_ADMIN))
806 return 1;
807
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200808 for (arg = 2; *args[arg]; arg++) {
809 if (strcmp(args[arg], "all") == 0) {
810 appctx->ctx.cli.i0 = 0; // will cycle through 0,1,2; default
811 }
812 else if (strcmp(args[arg], "status") == 0) {
813 appctx->ctx.cli.i0 = 4; // will visit status only
814 }
815 else if (strcmp(args[arg], "tasks") == 0) {
816 appctx->ctx.cli.i0 = 5; // will visit tasks only
817 }
818 else if (strcmp(args[arg], "memory") == 0) {
819 appctx->ctx.cli.i0 = 6; // will visit memory only
820 }
821 else if (strcmp(args[arg], "byaddr") == 0) {
822 appctx->ctx.cli.o1 = 1; // sort output by address instead of usage
823 }
824 else if (isdigit((unsigned char)*args[arg])) {
825 appctx->ctx.cli.o0 = atoi(args[arg]); // number of entries to dump
826 }
827 else
828 return cli_err(appctx, "Expects either 'all', 'status', 'tasks', 'memory', 'byaddr' or a max number of output lines.\n");
Willy Tarreau42712cb2021-05-05 17:48:13 +0200829 }
830 return 0;
831}
832
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100833/* This function scans all threads' run queues and collects statistics about
834 * running tasks. It returns 0 if the output buffer is full and it needs to be
835 * called again, otherwise non-zero.
836 */
837static int cli_io_handler_show_tasks(struct appctx *appctx)
838{
839 struct sched_activity tmp_activity[256] __attribute__((aligned(64)));
840 struct stream_interface *si = appctx->owner;
841 struct buffer *name_buffer = get_trash_chunk();
842 struct sched_activity *entry;
843 const struct tasklet *tl;
844 const struct task *t;
845 uint64_t now_ns, lat;
846 struct eb32sc_node *rqnode;
847 uint64_t tot_calls;
848 int thr, queue;
849 int i, max;
850
851 if (unlikely(si_ic(si)->flags & (CF_WRITE_ERROR|CF_SHUTW)))
852 return 1;
853
854 /* It's not possible to scan queues in small chunks and yield in the
855 * middle of the dump and come back again. So what we're doing instead
856 * is to freeze all threads and inspect their queues at once as fast as
857 * possible, using a sched_activity array to collect metrics with
858 * limited collision, then we'll report statistics only. The tasks'
859 * #calls will reflect the number of occurrences, and the lat_time will
Willy Tarreau75f72332021-01-29 15:04:16 +0100860 * reflect the latency when set. We prefer to take the time before
861 * calling thread_isolate() so that the wait time doesn't impact the
862 * measurement accuracy. However this requires to take care of negative
863 * times since tasks might be queued after we retrieve it.
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100864 */
865
866 now_ns = now_mono_time();
867 memset(tmp_activity, 0, sizeof(tmp_activity));
868
869 thread_isolate();
870
871 /* 1. global run queue */
872
873#ifdef USE_THREAD
874 rqnode = eb32sc_first(&rqueue, ~0UL);
875 while (rqnode) {
876 t = eb32sc_entry(rqnode, struct task, rq);
877 entry = sched_activity_entry(tmp_activity, t->process);
878 if (t->call_date) {
879 lat = now_ns - t->call_date;
Willy Tarreau75f72332021-01-29 15:04:16 +0100880 if ((int64_t)lat > 0)
881 entry->lat_time += lat;
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100882 }
883 entry->calls++;
884 rqnode = eb32sc_next(rqnode, ~0UL);
885 }
886#endif
887 /* 2. all threads's local run queues */
888 for (thr = 0; thr < global.nbthread; thr++) {
889 /* task run queue */
Willy Tarreau1a9c9222021-10-01 11:30:33 +0200890 rqnode = eb32sc_first(&ha_thread_ctx[thr].rqueue, ~0UL);
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100891 while (rqnode) {
892 t = eb32sc_entry(rqnode, struct task, rq);
893 entry = sched_activity_entry(tmp_activity, t->process);
894 if (t->call_date) {
895 lat = now_ns - t->call_date;
Willy Tarreau75f72332021-01-29 15:04:16 +0100896 if ((int64_t)lat > 0)
897 entry->lat_time += lat;
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100898 }
899 entry->calls++;
900 rqnode = eb32sc_next(rqnode, ~0UL);
901 }
902
903 /* shared tasklet list */
Willy Tarreau1a9c9222021-10-01 11:30:33 +0200904 list_for_each_entry(tl, mt_list_to_list(&ha_thread_ctx[thr].shared_tasklet_list), list) {
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100905 t = (const struct task *)tl;
906 entry = sched_activity_entry(tmp_activity, t->process);
907 if (!TASK_IS_TASKLET(t) && t->call_date) {
908 lat = now_ns - t->call_date;
Willy Tarreau75f72332021-01-29 15:04:16 +0100909 if ((int64_t)lat > 0)
910 entry->lat_time += lat;
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100911 }
912 entry->calls++;
913 }
914
915 /* classful tasklets */
916 for (queue = 0; queue < TL_CLASSES; queue++) {
Willy Tarreau1a9c9222021-10-01 11:30:33 +0200917 list_for_each_entry(tl, &ha_thread_ctx[thr].tasklets[queue], list) {
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100918 t = (const struct task *)tl;
919 entry = sched_activity_entry(tmp_activity, t->process);
920 if (!TASK_IS_TASKLET(t) && t->call_date) {
921 lat = now_ns - t->call_date;
Willy Tarreau75f72332021-01-29 15:04:16 +0100922 if ((int64_t)lat > 0)
923 entry->lat_time += lat;
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100924 }
925 entry->calls++;
926 }
927 }
928 }
929
930 /* hopefully we're done */
931 thread_release();
932
933 chunk_reset(&trash);
934
935 tot_calls = 0;
936 for (i = 0; i < 256; i++)
937 tot_calls += tmp_activity[i].calls;
938
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200939 qsort(tmp_activity, 256, sizeof(tmp_activity[0]), cmp_sched_activity_calls);
Willy Tarreau7eff06e2021-01-29 11:32:55 +0100940
941 chunk_appendf(&trash, "Running tasks: %d (%d threads)\n"
942 " function places %% lat_tot lat_avg\n",
943 (int)tot_calls, global.nbthread);
944
945 for (i = 0; i < 256 && tmp_activity[i].calls; i++) {
946 chunk_reset(name_buffer);
947
948 if (!tmp_activity[i].func)
949 chunk_printf(name_buffer, "other");
950 else
951 resolve_sym_name(name_buffer, "", tmp_activity[i].func);
952
953 /* reserve 35 chars for name+' '+#calls, knowing that longer names
954 * are often used for less often called functions.
955 */
956 max = 35 - name_buffer->data;
957 if (max < 1)
958 max = 1;
959 chunk_appendf(&trash, " %s%*llu %3d.%1d",
960 name_buffer->area, max, (unsigned long long)tmp_activity[i].calls,
961 (int)(100ULL * tmp_activity[i].calls / tot_calls),
962 (int)((1000ULL * tmp_activity[i].calls / tot_calls)%10));
963 print_time_short(&trash, " ", tmp_activity[i].lat_time, "");
964 print_time_short(&trash, " ", tmp_activity[i].lat_time / tmp_activity[i].calls, "\n");
965 }
966
967 if (ci_putchk(si_ic(si), &trash) == -1) {
968 /* failed, try again */
969 si_rx_room_blk(si);
970 return 0;
971 }
972 return 1;
973}
974
Willy Tarreau75c62c22018-11-22 11:02:09 +0100975/* config keyword parsers */
976static struct cfg_kw_list cfg_kws = {ILH, {
Willy Tarreauca3afc22021-05-05 18:33:19 +0200977#ifdef USE_MEMORY_PROFILING
978 { CFG_GLOBAL, "profiling.memory", cfg_parse_prof_memory },
979#endif
Willy Tarreau75c62c22018-11-22 11:02:09 +0100980 { CFG_GLOBAL, "profiling.tasks", cfg_parse_prof_tasks },
981 { 0, NULL, NULL }
982}};
983
Willy Tarreau0108d902018-11-25 19:14:37 +0100984INITCALL1(STG_REGISTER, cfg_register_keywords, &cfg_kws);
985
Willy Tarreau75c62c22018-11-22 11:02:09 +0100986/* register cli keywords */
987static struct cli_kw_list cli_kws = {{ },{
Daniel Corbett67b3cef2021-05-10 14:08:40 -0400988 { { "set", "profiling", NULL }, "set profiling <what> {auto|on|off} : enable/disable resource profiling (tasks,memory)", cli_parse_set_profiling, NULL },
Willy Tarreauf1c8a382021-05-13 10:00:17 +0200989 { { "show", "profiling", NULL }, "show profiling [<what>|<#lines>|byaddr]*: show profiling state (all,status,tasks,memory)", cli_parse_show_profiling, cli_io_handler_show_profiling, NULL },
Willy Tarreaub205bfd2021-05-07 11:38:37 +0200990 { { "show", "tasks", NULL }, "show tasks : show running tasks", NULL, cli_io_handler_show_tasks, NULL },
Willy Tarreau75c62c22018-11-22 11:02:09 +0100991 {{},}
992}};
993
Willy Tarreau0108d902018-11-25 19:14:37 +0100994INITCALL1(STG_REGISTER, cli_register_kw, &cli_kws);