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Rename "tsc" to "timestamp"
[lttng-modules.git] / src / lttng-bytecode.c
1 /* SPDX-License-Identifier: MIT
2 *
3 * lttng-bytecode.c
4 *
5 * LTTng modules bytecode code.
6 *
7 * Copyright (C) 2010-2016 Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
8 */
9
10 #include <linux/list.h>
11 #include <linux/slab.h>
12
13 #include <lttng/lttng-bytecode.h>
14 #include <lttng/events-internal.h>
15
16 static const char *opnames[] = {
17 [ BYTECODE_OP_UNKNOWN ] = "UNKNOWN",
18
19 [ BYTECODE_OP_RETURN ] = "RETURN",
20
21 /* binary */
22 [ BYTECODE_OP_MUL ] = "MUL",
23 [ BYTECODE_OP_DIV ] = "DIV",
24 [ BYTECODE_OP_MOD ] = "MOD",
25 [ BYTECODE_OP_PLUS ] = "PLUS",
26 [ BYTECODE_OP_MINUS ] = "MINUS",
27 [ BYTECODE_OP_BIT_RSHIFT ] = "BIT_RSHIFT",
28 [ BYTECODE_OP_BIT_LSHIFT ] = "BIT_LSHIFT",
29 [ BYTECODE_OP_BIT_AND ] = "BIT_AND",
30 [ BYTECODE_OP_BIT_OR ] = "BIT_OR",
31 [ BYTECODE_OP_BIT_XOR ] = "BIT_XOR",
32
33 /* binary comparators */
34 [ BYTECODE_OP_EQ ] = "EQ",
35 [ BYTECODE_OP_NE ] = "NE",
36 [ BYTECODE_OP_GT ] = "GT",
37 [ BYTECODE_OP_LT ] = "LT",
38 [ BYTECODE_OP_GE ] = "GE",
39 [ BYTECODE_OP_LE ] = "LE",
40
41 /* string binary comparators */
42 [ BYTECODE_OP_EQ_STRING ] = "EQ_STRING",
43 [ BYTECODE_OP_NE_STRING ] = "NE_STRING",
44 [ BYTECODE_OP_GT_STRING ] = "GT_STRING",
45 [ BYTECODE_OP_LT_STRING ] = "LT_STRING",
46 [ BYTECODE_OP_GE_STRING ] = "GE_STRING",
47 [ BYTECODE_OP_LE_STRING ] = "LE_STRING",
48
49 /* s64 binary comparators */
50 [ BYTECODE_OP_EQ_S64 ] = "EQ_S64",
51 [ BYTECODE_OP_NE_S64 ] = "NE_S64",
52 [ BYTECODE_OP_GT_S64 ] = "GT_S64",
53 [ BYTECODE_OP_LT_S64 ] = "LT_S64",
54 [ BYTECODE_OP_GE_S64 ] = "GE_S64",
55 [ BYTECODE_OP_LE_S64 ] = "LE_S64",
56
57 /* double binary comparators */
58 [ BYTECODE_OP_EQ_DOUBLE ] = "EQ_DOUBLE",
59 [ BYTECODE_OP_NE_DOUBLE ] = "NE_DOUBLE",
60 [ BYTECODE_OP_GT_DOUBLE ] = "GT_DOUBLE",
61 [ BYTECODE_OP_LT_DOUBLE ] = "LT_DOUBLE",
62 [ BYTECODE_OP_GE_DOUBLE ] = "GE_DOUBLE",
63 [ BYTECODE_OP_LE_DOUBLE ] = "LE_DOUBLE",
64
65 /* Mixed S64-double binary comparators */
66 [ BYTECODE_OP_EQ_DOUBLE_S64 ] = "EQ_DOUBLE_S64",
67 [ BYTECODE_OP_NE_DOUBLE_S64 ] = "NE_DOUBLE_S64",
68 [ BYTECODE_OP_GT_DOUBLE_S64 ] = "GT_DOUBLE_S64",
69 [ BYTECODE_OP_LT_DOUBLE_S64 ] = "LT_DOUBLE_S64",
70 [ BYTECODE_OP_GE_DOUBLE_S64 ] = "GE_DOUBLE_S64",
71 [ BYTECODE_OP_LE_DOUBLE_S64 ] = "LE_DOUBLE_S64",
72
73 [ BYTECODE_OP_EQ_S64_DOUBLE ] = "EQ_S64_DOUBLE",
74 [ BYTECODE_OP_NE_S64_DOUBLE ] = "NE_S64_DOUBLE",
75 [ BYTECODE_OP_GT_S64_DOUBLE ] = "GT_S64_DOUBLE",
76 [ BYTECODE_OP_LT_S64_DOUBLE ] = "LT_S64_DOUBLE",
77 [ BYTECODE_OP_GE_S64_DOUBLE ] = "GE_S64_DOUBLE",
78 [ BYTECODE_OP_LE_S64_DOUBLE ] = "LE_S64_DOUBLE",
79
80 /* unary */
81 [ BYTECODE_OP_UNARY_PLUS ] = "UNARY_PLUS",
82 [ BYTECODE_OP_UNARY_MINUS ] = "UNARY_MINUS",
83 [ BYTECODE_OP_UNARY_NOT ] = "UNARY_NOT",
84 [ BYTECODE_OP_UNARY_PLUS_S64 ] = "UNARY_PLUS_S64",
85 [ BYTECODE_OP_UNARY_MINUS_S64 ] = "UNARY_MINUS_S64",
86 [ BYTECODE_OP_UNARY_NOT_S64 ] = "UNARY_NOT_S64",
87 [ BYTECODE_OP_UNARY_PLUS_DOUBLE ] = "UNARY_PLUS_DOUBLE",
88 [ BYTECODE_OP_UNARY_MINUS_DOUBLE ] = "UNARY_MINUS_DOUBLE",
89 [ BYTECODE_OP_UNARY_NOT_DOUBLE ] = "UNARY_NOT_DOUBLE",
90
91 /* logical */
92 [ BYTECODE_OP_AND ] = "AND",
93 [ BYTECODE_OP_OR ] = "OR",
94
95 /* load field ref */
96 [ BYTECODE_OP_LOAD_FIELD_REF ] = "LOAD_FIELD_REF",
97 [ BYTECODE_OP_LOAD_FIELD_REF_STRING ] = "LOAD_FIELD_REF_STRING",
98 [ BYTECODE_OP_LOAD_FIELD_REF_SEQUENCE ] = "LOAD_FIELD_REF_SEQUENCE",
99 [ BYTECODE_OP_LOAD_FIELD_REF_S64 ] = "LOAD_FIELD_REF_S64",
100 [ BYTECODE_OP_LOAD_FIELD_REF_DOUBLE ] = "LOAD_FIELD_REF_DOUBLE",
101
102 /* load from immediate operand */
103 [ BYTECODE_OP_LOAD_STRING ] = "LOAD_STRING",
104 [ BYTECODE_OP_LOAD_S64 ] = "LOAD_S64",
105 [ BYTECODE_OP_LOAD_DOUBLE ] = "LOAD_DOUBLE",
106
107 /* cast */
108 [ BYTECODE_OP_CAST_TO_S64 ] = "CAST_TO_S64",
109 [ BYTECODE_OP_CAST_DOUBLE_TO_S64 ] = "CAST_DOUBLE_TO_S64",
110 [ BYTECODE_OP_CAST_NOP ] = "CAST_NOP",
111
112 /* get context ref */
113 [ BYTECODE_OP_GET_CONTEXT_REF ] = "GET_CONTEXT_REF",
114 [ BYTECODE_OP_GET_CONTEXT_REF_STRING ] = "GET_CONTEXT_REF_STRING",
115 [ BYTECODE_OP_GET_CONTEXT_REF_S64 ] = "GET_CONTEXT_REF_S64",
116 [ BYTECODE_OP_GET_CONTEXT_REF_DOUBLE ] = "GET_CONTEXT_REF_DOUBLE",
117
118 /* load userspace field ref */
119 [ BYTECODE_OP_LOAD_FIELD_REF_USER_STRING ] = "LOAD_FIELD_REF_USER_STRING",
120 [ BYTECODE_OP_LOAD_FIELD_REF_USER_SEQUENCE ] = "LOAD_FIELD_REF_USER_SEQUENCE",
121
122 /*
123 * load immediate star globbing pattern (literal string)
124 * from immediate.
125 */
126 [ BYTECODE_OP_LOAD_STAR_GLOB_STRING ] = "LOAD_STAR_GLOB_STRING",
127
128 /* globbing pattern binary operator: apply to */
129 [ BYTECODE_OP_EQ_STAR_GLOB_STRING ] = "EQ_STAR_GLOB_STRING",
130 [ BYTECODE_OP_NE_STAR_GLOB_STRING ] = "NE_STAR_GLOB_STRING",
131
132 /*
133 * Instructions for recursive traversal through composed types.
134 */
135 [ BYTECODE_OP_GET_CONTEXT_ROOT ] = "GET_CONTEXT_ROOT",
136 [ BYTECODE_OP_GET_APP_CONTEXT_ROOT ] = "GET_APP_CONTEXT_ROOT",
137 [ BYTECODE_OP_GET_PAYLOAD_ROOT ] = "GET_PAYLOAD_ROOT",
138
139 [ BYTECODE_OP_GET_SYMBOL ] = "GET_SYMBOL",
140 [ BYTECODE_OP_GET_SYMBOL_FIELD ] = "GET_SYMBOL_FIELD",
141 [ BYTECODE_OP_GET_INDEX_U16 ] = "GET_INDEX_U16",
142 [ BYTECODE_OP_GET_INDEX_U64 ] = "GET_INDEX_U64",
143
144 [ BYTECODE_OP_LOAD_FIELD ] = "LOAD_FIELD",
145 [ BYTECODE_OP_LOAD_FIELD_S8 ] = "LOAD_FIELD_S8",
146 [ BYTECODE_OP_LOAD_FIELD_S16 ] = "LOAD_FIELD_S16",
147 [ BYTECODE_OP_LOAD_FIELD_S32 ] = "LOAD_FIELD_S32",
148 [ BYTECODE_OP_LOAD_FIELD_S64 ] = "LOAD_FIELD_S64",
149 [ BYTECODE_OP_LOAD_FIELD_U8 ] = "LOAD_FIELD_U8",
150 [ BYTECODE_OP_LOAD_FIELD_U16 ] = "LOAD_FIELD_U16",
151 [ BYTECODE_OP_LOAD_FIELD_U32 ] = "LOAD_FIELD_U32",
152 [ BYTECODE_OP_LOAD_FIELD_U64 ] = "LOAD_FIELD_U64",
153 [ BYTECODE_OP_LOAD_FIELD_STRING ] = "LOAD_FIELD_STRING",
154 [ BYTECODE_OP_LOAD_FIELD_SEQUENCE ] = "LOAD_FIELD_SEQUENCE",
155 [ BYTECODE_OP_LOAD_FIELD_DOUBLE ] = "LOAD_FIELD_DOUBLE",
156
157 [ BYTECODE_OP_UNARY_BIT_NOT ] = "UNARY_BIT_NOT",
158
159 [ BYTECODE_OP_RETURN_S64 ] = "RETURN_S64",
160 };
161
162 const char *lttng_bytecode_print_op(enum bytecode_op op)
163 {
164 if (op >= NR_BYTECODE_OPS)
165 return "UNKNOWN";
166 else
167 return opnames[op];
168 }
169
170 static
171 int apply_field_reloc(const struct lttng_kernel_event_desc *event_desc,
172 struct bytecode_runtime *runtime,
173 uint32_t runtime_len,
174 uint32_t reloc_offset,
175 const char *field_name,
176 enum bytecode_op bytecode_op)
177 {
178 const struct lttng_kernel_event_field * const *fields, *field = NULL;
179 unsigned int nr_fields, i;
180 struct load_op *op;
181 uint32_t field_offset = 0;
182
183 dbg_printk("Apply field reloc: %u %s\n", reloc_offset, field_name);
184
185 /* Lookup event by name */
186 if (!event_desc)
187 return -EINVAL;
188 fields = event_desc->tp_class->fields;
189 if (!fields)
190 return -EINVAL;
191 nr_fields = event_desc->tp_class->nr_fields;
192 for (i = 0; i < nr_fields; i++) {
193 if (fields[i]->nofilter)
194 continue;
195 if (!strcmp(fields[i]->name, field_name)) {
196 field = fields[i];
197 break;
198 }
199 /* compute field offset */
200 switch (fields[i]->type->type) {
201 case lttng_kernel_type_integer:
202 case lttng_kernel_type_enum:
203 field_offset += sizeof(int64_t);
204 break;
205 case lttng_kernel_type_array:
206 if (!lttng_kernel_type_is_bytewise_integer(lttng_kernel_get_type_array(fields[i]->type)->elem_type))
207 return -EINVAL;
208 field_offset += sizeof(unsigned long);
209 field_offset += sizeof(void *);
210 break;
211 case lttng_kernel_type_sequence:
212 if (!lttng_kernel_type_is_bytewise_integer(lttng_kernel_get_type_sequence(fields[i]->type)->elem_type))
213 return -EINVAL;
214 field_offset += sizeof(unsigned long);
215 field_offset += sizeof(void *);
216 break;
217 case lttng_kernel_type_string:
218 field_offset += sizeof(void *);
219 break;
220 case lttng_kernel_type_struct: /* Unsupported. */
221 case lttng_kernel_type_variant: /* Unsupported. */
222 default:
223 return -EINVAL;
224 }
225 }
226 if (!field)
227 return -EINVAL;
228
229 /* Check if field offset is too large for 16-bit offset */
230 if (field_offset > LTTNG_KERNEL_ABI_FILTER_BYTECODE_MAX_LEN - 1)
231 return -EINVAL;
232
233 /* set type */
234 op = (struct load_op *) &runtime->code[reloc_offset];
235
236 switch (bytecode_op) {
237 case BYTECODE_OP_LOAD_FIELD_REF:
238 {
239 struct field_ref *field_ref;
240
241 field_ref = (struct field_ref *) op->data;
242 switch (field->type->type) {
243 case lttng_kernel_type_integer:
244 case lttng_kernel_type_enum:
245 op->op = BYTECODE_OP_LOAD_FIELD_REF_S64;
246 break;
247 case lttng_kernel_type_array:
248 {
249 const struct lttng_kernel_type_array *array_type = lttng_kernel_get_type_array(field->type);
250 const struct lttng_kernel_type_common *elem_type = array_type->elem_type;
251 const struct lttng_kernel_type_integer *elem_integer_type;
252
253 if (!lttng_kernel_type_is_bytewise_integer(elem_type) || array_type->encoding == lttng_kernel_string_encoding_none)
254 return -EINVAL;
255 elem_integer_type = container_of(elem_type, const struct lttng_kernel_type_integer, parent);
256 if (elem_integer_type->user)
257 op->op = BYTECODE_OP_LOAD_FIELD_REF_USER_SEQUENCE;
258 else
259 op->op = BYTECODE_OP_LOAD_FIELD_REF_SEQUENCE;
260 break;
261 }
262 case lttng_kernel_type_sequence:
263 {
264 const struct lttng_kernel_type_sequence *sequence_type = lttng_kernel_get_type_sequence(field->type);
265 const struct lttng_kernel_type_common *elem_type = sequence_type->elem_type;
266 const struct lttng_kernel_type_integer *elem_integer_type;
267
268 if (!lttng_kernel_type_is_bytewise_integer(elem_type) || sequence_type->encoding == lttng_kernel_string_encoding_none)
269 return -EINVAL;
270 elem_integer_type = container_of(elem_type, const struct lttng_kernel_type_integer, parent);
271 if (elem_integer_type->user)
272 op->op = BYTECODE_OP_LOAD_FIELD_REF_USER_SEQUENCE;
273 else
274 op->op = BYTECODE_OP_LOAD_FIELD_REF_SEQUENCE;
275 break;
276 }
277 case lttng_kernel_type_string:
278 {
279 const struct lttng_kernel_type_string *string_type = lttng_kernel_get_type_string(field->type);
280
281 if (string_type->user)
282 op->op = BYTECODE_OP_LOAD_FIELD_REF_USER_STRING;
283 else
284 op->op = BYTECODE_OP_LOAD_FIELD_REF_STRING;
285 break;
286 }
287 case lttng_kernel_type_struct: /* Unsupported. */
288 case lttng_kernel_type_variant: /* Unsupported. */
289 default:
290 return -EINVAL;
291 }
292 /* set offset */
293 field_ref->offset = (uint16_t) field_offset;
294 break;
295 }
296 default:
297 return -EINVAL;
298 }
299 return 0;
300 }
301
302 static
303 int apply_context_reloc(struct bytecode_runtime *runtime,
304 uint32_t runtime_len,
305 uint32_t reloc_offset,
306 const char *context_name,
307 enum bytecode_op bytecode_op)
308 {
309 struct load_op *op;
310 struct lttng_kernel_ctx_field *ctx_field;
311 int idx;
312
313 dbg_printk("Apply context reloc: %u %s\n", reloc_offset, context_name);
314
315 /* Get context index */
316 idx = lttng_kernel_get_context_index(lttng_static_ctx, context_name);
317 if (idx < 0)
318 return -ENOENT;
319
320 /* Check if idx is too large for 16-bit offset */
321 if (idx > LTTNG_KERNEL_ABI_FILTER_BYTECODE_MAX_LEN - 1)
322 return -EINVAL;
323
324 /* Get context return type */
325 ctx_field = &lttng_static_ctx->fields[idx];
326 op = (struct load_op *) &runtime->code[reloc_offset];
327
328 switch (bytecode_op) {
329 case BYTECODE_OP_GET_CONTEXT_REF:
330 {
331 struct field_ref *field_ref;
332
333 field_ref = (struct field_ref *) op->data;
334 switch (ctx_field->event_field->type->type) {
335 case lttng_kernel_type_integer:
336 case lttng_kernel_type_enum:
337 op->op = BYTECODE_OP_GET_CONTEXT_REF_S64;
338 break;
339 /* Sequence and array supported as string */
340 case lttng_kernel_type_string:
341 {
342 const struct lttng_kernel_type_string *string_type = lttng_kernel_get_type_string(ctx_field->event_field->type);
343
344 BUG_ON(string_type->user);
345 op->op = BYTECODE_OP_GET_CONTEXT_REF_STRING;
346 break;
347 }
348 case lttng_kernel_type_array:
349 {
350 const struct lttng_kernel_type_array *array_type = lttng_kernel_get_type_array(ctx_field->event_field->type);
351 const struct lttng_kernel_type_common *elem_type = array_type->elem_type;
352 const struct lttng_kernel_type_integer *elem_integer_type;
353
354 if (!lttng_kernel_type_is_bytewise_integer(elem_type) || array_type->encoding == lttng_kernel_string_encoding_none)
355 return -EINVAL;
356 elem_integer_type = container_of(elem_type, const struct lttng_kernel_type_integer, parent);
357 BUG_ON(elem_integer_type->user);
358 op->op = BYTECODE_OP_GET_CONTEXT_REF_STRING;
359 break;
360 }
361 case lttng_kernel_type_sequence:
362 {
363 const struct lttng_kernel_type_sequence *sequence_type = lttng_kernel_get_type_sequence(ctx_field->event_field->type);
364 const struct lttng_kernel_type_common *elem_type = sequence_type->elem_type;
365 const struct lttng_kernel_type_integer *elem_integer_type;
366
367 if (!lttng_kernel_type_is_bytewise_integer(elem_type) || sequence_type->encoding == lttng_kernel_string_encoding_none)
368 return -EINVAL;
369 elem_integer_type = container_of(elem_type, const struct lttng_kernel_type_integer, parent);
370 BUG_ON(elem_integer_type->user);
371 op->op = BYTECODE_OP_GET_CONTEXT_REF_STRING;
372 break;
373 }
374 case lttng_kernel_type_struct: /* Unsupported. */
375 case lttng_kernel_type_variant: /* Unsupported. */
376 default:
377 return -EINVAL;
378 }
379 /* set offset to context index within channel contexts */
380 field_ref->offset = (uint16_t) idx;
381 break;
382 }
383 default:
384 return -EINVAL;
385 }
386 return 0;
387 }
388
389 static
390 int apply_reloc(const struct lttng_kernel_event_desc *event_desc,
391 struct bytecode_runtime *runtime,
392 uint32_t runtime_len,
393 uint32_t reloc_offset,
394 const char *name)
395 {
396 struct load_op *op;
397
398 dbg_printk("Apply reloc: %u %s\n", reloc_offset, name);
399
400 /* Ensure that the reloc is within the code */
401 if (runtime_len - reloc_offset < sizeof(uint16_t))
402 return -EINVAL;
403
404 op = (struct load_op *) &runtime->code[reloc_offset];
405 switch (op->op) {
406 case BYTECODE_OP_LOAD_FIELD_REF:
407 return apply_field_reloc(event_desc, runtime, runtime_len,
408 reloc_offset, name, op->op);
409 case BYTECODE_OP_GET_CONTEXT_REF:
410 return apply_context_reloc(runtime, runtime_len,
411 reloc_offset, name, op->op);
412 case BYTECODE_OP_GET_SYMBOL:
413 case BYTECODE_OP_GET_SYMBOL_FIELD:
414 /*
415 * Will be handled by load specialize phase or
416 * dynamically by interpreter.
417 */
418 return 0;
419 default:
420 printk(KERN_WARNING "LTTng: filter: Unknown reloc op type %u\n", op->op);
421 return -EINVAL;
422 }
423 return 0;
424 }
425
426 static
427 int bytecode_is_linked(struct lttng_kernel_bytecode_node *bytecode,
428 struct list_head *bytecode_runtime_head)
429 {
430 struct lttng_kernel_bytecode_runtime *bc_runtime;
431
432 list_for_each_entry(bc_runtime, bytecode_runtime_head, node) {
433 if (bc_runtime->bc == bytecode)
434 return 1;
435 }
436 return 0;
437 }
438
439 /*
440 * Take a bytecode with reloc table and link it to an event to create a
441 * bytecode runtime.
442 */
443 static
444 int link_bytecode(const struct lttng_kernel_event_desc *event_desc,
445 struct lttng_kernel_ctx *ctx,
446 struct lttng_kernel_bytecode_node *bytecode,
447 struct list_head *bytecode_runtime_head,
448 struct list_head *insert_loc)
449 {
450 int ret, offset, next_offset;
451 struct bytecode_runtime *runtime = NULL;
452 size_t runtime_alloc_len;
453
454 if (!bytecode)
455 return 0;
456 /* Bytecode already linked */
457 if (bytecode_is_linked(bytecode, bytecode_runtime_head))
458 return 0;
459
460 dbg_printk("Linking...\n");
461
462 /* We don't need the reloc table in the runtime */
463 runtime_alloc_len = sizeof(*runtime) + bytecode->bc.reloc_offset;
464 runtime = kzalloc(runtime_alloc_len, GFP_KERNEL);
465 if (!runtime) {
466 ret = -ENOMEM;
467 goto alloc_error;
468 }
469 runtime->p.type = bytecode->type;
470 runtime->p.bc = bytecode;
471 runtime->p.ctx = ctx;
472 runtime->len = bytecode->bc.reloc_offset;
473 /* copy original bytecode */
474 memcpy(runtime->code, bytecode->bc.data, runtime->len);
475 /* Validate bytecode load instructions before relocs. */
476 ret = lttng_bytecode_validate_load(runtime);
477 if (ret) {
478 goto link_error;
479 }
480 /*
481 * apply relocs. Those are a uint16_t (offset in bytecode)
482 * followed by a string (field name).
483 */
484 for (offset = bytecode->bc.reloc_offset;
485 offset < bytecode->bc.len;
486 offset = next_offset) {
487 uint16_t reloc_offset =
488 *(uint16_t *) &bytecode->bc.data[offset];
489 const char *name =
490 (const char *) &bytecode->bc.data[offset + sizeof(uint16_t)];
491
492 ret = apply_reloc(event_desc, runtime, runtime->len, reloc_offset, name);
493 if (ret) {
494 goto link_error;
495 }
496 next_offset = offset + sizeof(uint16_t) + strlen(name) + 1;
497 }
498 /* Validate bytecode */
499 ret = lttng_bytecode_validate(runtime);
500 if (ret) {
501 goto link_error;
502 }
503 /* Specialize bytecode */
504 ret = lttng_bytecode_specialize(event_desc, runtime);
505 if (ret) {
506 goto link_error;
507 }
508 runtime->p.interpreter_func = lttng_bytecode_interpret;
509 runtime->p.link_failed = 0;
510 list_add_rcu(&runtime->p.node, insert_loc);
511 dbg_printk("Linking successful.\n");
512 return 0;
513
514 link_error:
515
516 runtime->p.interpreter_func = lttng_bytecode_interpret_error;
517 runtime->p.link_failed = 1;
518 list_add_rcu(&runtime->p.node, insert_loc);
519 alloc_error:
520 dbg_printk("Linking failed.\n");
521 return ret;
522 }
523
524 void lttng_bytecode_sync_state(struct lttng_kernel_bytecode_runtime *runtime)
525 {
526 struct lttng_kernel_bytecode_node *bc = runtime->bc;
527
528 if (!bc->enabler->enabled || runtime->link_failed)
529 runtime->interpreter_func = lttng_bytecode_interpret_error;
530 else
531 runtime->interpreter_func = lttng_bytecode_interpret;
532 }
533
534 /*
535 * Given the lists of bytecode programs of an instance (event or event
536 * notifier) and of a matching enabler, try to link all the enabler's bytecode
537 * programs with the instance.
538 *
539 * This function is called after we confirmed that name enabler and the
540 * instance are matching names (or glob pattern matching).
541 */
542 void lttng_enabler_link_bytecode(const struct lttng_kernel_event_desc *event_desc,
543 struct lttng_kernel_ctx *ctx,
544 struct list_head *instance_bytecode_head,
545 struct list_head *enabler_bytecode_head)
546 {
547 struct lttng_kernel_bytecode_node *enabler_bc;
548 struct lttng_kernel_bytecode_runtime *runtime;
549
550 WARN_ON_ONCE(!event_desc);
551
552 /* Go over all the bytecode programs of the enabler. */
553 list_for_each_entry(enabler_bc, enabler_bytecode_head, node) {
554 int found = 0, ret;
555 struct list_head *insert_loc;
556
557 /*
558 * Check if the current enabler bytecode program is already
559 * linked with the instance.
560 */
561 list_for_each_entry(runtime, instance_bytecode_head, node) {
562 if (runtime->bc == enabler_bc) {
563 found = 1;
564 break;
565 }
566 }
567
568 /*
569 * Skip bytecode already linked, go to the next enabler
570 * bytecode program.
571 */
572 if (found)
573 continue;
574
575 /*
576 * Insert at specified priority (seqnum) in increasing
577 * order. If there already is a bytecode of the same priority,
578 * insert the new bytecode right after it.
579 */
580 list_for_each_entry_reverse(runtime,
581 instance_bytecode_head, node) {
582 if (runtime->bc->bc.seqnum <= enabler_bc->bc.seqnum) {
583 /* insert here */
584 insert_loc = &runtime->node;
585 goto add_within;
586 }
587 }
588 /* Add to head to list */
589 insert_loc = instance_bytecode_head;
590 add_within:
591 dbg_printk("linking bytecode\n");
592 ret = link_bytecode(event_desc, ctx, enabler_bc, instance_bytecode_head, insert_loc);
593 if (ret) {
594 dbg_printk("[lttng filter] warning: cannot link event bytecode\n");
595 }
596 }
597 }
598
599 /*
600 * We own the filter_bytecode if we return success.
601 */
602 int lttng_filter_enabler_attach_bytecode(struct lttng_event_enabler_common *enabler,
603 struct lttng_kernel_bytecode_node *filter_bytecode)
604 {
605 list_add(&filter_bytecode->node, &enabler->filter_bytecode_head);
606 return 0;
607 }
608
609 void lttng_free_enabler_filter_bytecode(struct lttng_event_enabler_common *enabler)
610 {
611 struct lttng_kernel_bytecode_node *filter_bytecode, *tmp;
612
613 list_for_each_entry_safe(filter_bytecode, tmp,
614 &enabler->filter_bytecode_head, node) {
615 kfree(filter_bytecode);
616 }
617 }
618
619 void lttng_free_event_filter_runtime(struct lttng_kernel_event_common *event)
620 {
621 struct bytecode_runtime *runtime, *tmp;
622
623 list_for_each_entry_safe(runtime, tmp,
624 &event->priv->filter_bytecode_runtime_head, p.node) {
625 kfree(runtime->data);
626 kfree(runtime);
627 }
628 }
LTTng 2.0/0.x modules
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