fix a kmap leak in virtio_console
[linux/fpc-iii.git] / tools / lib / traceevent / parse-filter.c
blobb50234402fc2b368f39040a92ada39922f6464ee
1 /*
2 * Copyright (C) 2010 Red Hat Inc, Steven Rostedt <srostedt@redhat.com>
4 * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
5 * This program is free software; you can redistribute it and/or
6 * modify it under the terms of the GNU Lesser General Public
7 * License as published by the Free Software Foundation;
8 * version 2.1 of the License (not later!)
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU Lesser General Public License for more details.
15 * You should have received a copy of the GNU Lesser General Public
16 * License along with this program; if not, see <http://www.gnu.org/licenses>
18 * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
20 #include <stdio.h>
21 #include <stdlib.h>
22 #include <string.h>
23 #include <stdarg.h>
24 #include <errno.h>
25 #include <sys/types.h>
27 #include "event-parse.h"
28 #include "event-utils.h"
30 #define COMM "COMM"
32 static struct format_field comm = {
33 .name = "COMM",
36 struct event_list {
37 struct event_list *next;
38 struct event_format *event;
41 static void show_error(char *error_buf, const char *fmt, ...)
43 unsigned long long index;
44 const char *input;
45 va_list ap;
46 int len;
47 int i;
49 input = pevent_get_input_buf();
50 index = pevent_get_input_buf_ptr();
51 len = input ? strlen(input) : 0;
53 if (len) {
54 strcpy(error_buf, input);
55 error_buf[len] = '\n';
56 for (i = 1; i < len && i < index; i++)
57 error_buf[len+i] = ' ';
58 error_buf[len + i] = '^';
59 error_buf[len + i + 1] = '\n';
60 len += i+2;
63 va_start(ap, fmt);
64 vsnprintf(error_buf + len, PEVENT_FILTER_ERROR_BUFSZ - len, fmt, ap);
65 va_end(ap);
68 static void free_token(char *token)
70 pevent_free_token(token);
73 static enum event_type read_token(char **tok)
75 enum event_type type;
76 char *token = NULL;
78 do {
79 free_token(token);
80 type = pevent_read_token(&token);
81 } while (type == EVENT_NEWLINE || type == EVENT_SPACE);
83 /* If token is = or ! check to see if the next char is ~ */
84 if (token &&
85 (strcmp(token, "=") == 0 || strcmp(token, "!") == 0) &&
86 pevent_peek_char() == '~') {
87 /* append it */
88 *tok = malloc(3);
89 if (*tok == NULL) {
90 free_token(token);
91 return EVENT_ERROR;
93 sprintf(*tok, "%c%c", *token, '~');
94 free_token(token);
95 /* Now remove the '~' from the buffer */
96 pevent_read_token(&token);
97 free_token(token);
98 } else
99 *tok = token;
101 return type;
104 static int filter_cmp(const void *a, const void *b)
106 const struct filter_type *ea = a;
107 const struct filter_type *eb = b;
109 if (ea->event_id < eb->event_id)
110 return -1;
112 if (ea->event_id > eb->event_id)
113 return 1;
115 return 0;
118 static struct filter_type *
119 find_filter_type(struct event_filter *filter, int id)
121 struct filter_type *filter_type;
122 struct filter_type key;
124 key.event_id = id;
126 filter_type = bsearch(&key, filter->event_filters,
127 filter->filters,
128 sizeof(*filter->event_filters),
129 filter_cmp);
131 return filter_type;
134 static struct filter_type *
135 add_filter_type(struct event_filter *filter, int id)
137 struct filter_type *filter_type;
138 int i;
140 filter_type = find_filter_type(filter, id);
141 if (filter_type)
142 return filter_type;
144 filter_type = realloc(filter->event_filters,
145 sizeof(*filter->event_filters) *
146 (filter->filters + 1));
147 if (!filter_type)
148 return NULL;
150 filter->event_filters = filter_type;
152 for (i = 0; i < filter->filters; i++) {
153 if (filter->event_filters[i].event_id > id)
154 break;
157 if (i < filter->filters)
158 memmove(&filter->event_filters[i+1],
159 &filter->event_filters[i],
160 sizeof(*filter->event_filters) *
161 (filter->filters - i));
163 filter_type = &filter->event_filters[i];
164 filter_type->event_id = id;
165 filter_type->event = pevent_find_event(filter->pevent, id);
166 filter_type->filter = NULL;
168 filter->filters++;
170 return filter_type;
174 * pevent_filter_alloc - create a new event filter
175 * @pevent: The pevent that this filter is associated with
177 struct event_filter *pevent_filter_alloc(struct pevent *pevent)
179 struct event_filter *filter;
181 filter = malloc(sizeof(*filter));
182 if (filter == NULL)
183 return NULL;
185 memset(filter, 0, sizeof(*filter));
186 filter->pevent = pevent;
187 pevent_ref(pevent);
189 return filter;
192 static struct filter_arg *allocate_arg(void)
194 return calloc(1, sizeof(struct filter_arg));
197 static void free_arg(struct filter_arg *arg)
199 if (!arg)
200 return;
202 switch (arg->type) {
203 case FILTER_ARG_NONE:
204 case FILTER_ARG_BOOLEAN:
205 break;
207 case FILTER_ARG_NUM:
208 free_arg(arg->num.left);
209 free_arg(arg->num.right);
210 break;
212 case FILTER_ARG_EXP:
213 free_arg(arg->exp.left);
214 free_arg(arg->exp.right);
215 break;
217 case FILTER_ARG_STR:
218 free(arg->str.val);
219 regfree(&arg->str.reg);
220 free(arg->str.buffer);
221 break;
223 case FILTER_ARG_VALUE:
224 if (arg->value.type == FILTER_STRING ||
225 arg->value.type == FILTER_CHAR)
226 free(arg->value.str);
227 break;
229 case FILTER_ARG_OP:
230 free_arg(arg->op.left);
231 free_arg(arg->op.right);
232 default:
233 break;
236 free(arg);
239 static int add_event(struct event_list **events,
240 struct event_format *event)
242 struct event_list *list;
244 list = malloc(sizeof(*list));
245 if (list == NULL)
246 return -1;
248 list->next = *events;
249 *events = list;
250 list->event = event;
251 return 0;
254 static int event_match(struct event_format *event,
255 regex_t *sreg, regex_t *ereg)
257 if (sreg) {
258 return !regexec(sreg, event->system, 0, NULL, 0) &&
259 !regexec(ereg, event->name, 0, NULL, 0);
262 return !regexec(ereg, event->system, 0, NULL, 0) ||
263 !regexec(ereg, event->name, 0, NULL, 0);
266 static enum pevent_errno
267 find_event(struct pevent *pevent, struct event_list **events,
268 char *sys_name, char *event_name)
270 struct event_format *event;
271 regex_t ereg;
272 regex_t sreg;
273 int match = 0;
274 int fail = 0;
275 char *reg;
276 int ret;
277 int i;
279 if (!event_name) {
280 /* if no name is given, then swap sys and name */
281 event_name = sys_name;
282 sys_name = NULL;
285 reg = malloc(strlen(event_name) + 3);
286 if (reg == NULL)
287 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
289 sprintf(reg, "^%s$", event_name);
291 ret = regcomp(&ereg, reg, REG_ICASE|REG_NOSUB);
292 free(reg);
294 if (ret)
295 return PEVENT_ERRNO__INVALID_EVENT_NAME;
297 if (sys_name) {
298 reg = malloc(strlen(sys_name) + 3);
299 if (reg == NULL) {
300 regfree(&ereg);
301 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
304 sprintf(reg, "^%s$", sys_name);
305 ret = regcomp(&sreg, reg, REG_ICASE|REG_NOSUB);
306 free(reg);
307 if (ret) {
308 regfree(&ereg);
309 return PEVENT_ERRNO__INVALID_EVENT_NAME;
313 for (i = 0; i < pevent->nr_events; i++) {
314 event = pevent->events[i];
315 if (event_match(event, sys_name ? &sreg : NULL, &ereg)) {
316 match = 1;
317 if (add_event(events, event) < 0) {
318 fail = 1;
319 break;
324 regfree(&ereg);
325 if (sys_name)
326 regfree(&sreg);
328 if (!match)
329 return PEVENT_ERRNO__EVENT_NOT_FOUND;
330 if (fail)
331 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
333 return 0;
336 static void free_events(struct event_list *events)
338 struct event_list *event;
340 while (events) {
341 event = events;
342 events = events->next;
343 free(event);
347 static enum pevent_errno
348 create_arg_item(struct event_format *event, const char *token,
349 enum event_type type, struct filter_arg **parg, char *error_str)
351 struct format_field *field;
352 struct filter_arg *arg;
354 arg = allocate_arg();
355 if (arg == NULL) {
356 show_error(error_str, "failed to allocate filter arg");
357 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
360 switch (type) {
362 case EVENT_SQUOTE:
363 case EVENT_DQUOTE:
364 arg->type = FILTER_ARG_VALUE;
365 arg->value.type =
366 type == EVENT_DQUOTE ? FILTER_STRING : FILTER_CHAR;
367 arg->value.str = strdup(token);
368 if (!arg->value.str) {
369 free_arg(arg);
370 show_error(error_str, "failed to allocate string filter arg");
371 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
373 break;
374 case EVENT_ITEM:
375 /* if it is a number, then convert it */
376 if (isdigit(token[0])) {
377 arg->type = FILTER_ARG_VALUE;
378 arg->value.type = FILTER_NUMBER;
379 arg->value.val = strtoull(token, NULL, 0);
380 break;
382 /* Consider this a field */
383 field = pevent_find_any_field(event, token);
384 if (!field) {
385 if (strcmp(token, COMM) != 0) {
386 /* not a field, Make it false */
387 arg->type = FILTER_ARG_BOOLEAN;
388 arg->boolean.value = FILTER_FALSE;
389 break;
391 /* If token is 'COMM' then it is special */
392 field = &comm;
394 arg->type = FILTER_ARG_FIELD;
395 arg->field.field = field;
396 break;
397 default:
398 free_arg(arg);
399 show_error(error_str, "expected a value but found %s", token);
400 return PEVENT_ERRNO__UNEXPECTED_TYPE;
402 *parg = arg;
403 return 0;
406 static struct filter_arg *
407 create_arg_op(enum filter_op_type btype)
409 struct filter_arg *arg;
411 arg = allocate_arg();
412 if (!arg)
413 return NULL;
415 arg->type = FILTER_ARG_OP;
416 arg->op.type = btype;
418 return arg;
421 static struct filter_arg *
422 create_arg_exp(enum filter_exp_type etype)
424 struct filter_arg *arg;
426 arg = allocate_arg();
427 if (!arg)
428 return NULL;
430 arg->type = FILTER_ARG_EXP;
431 arg->op.type = etype;
433 return arg;
436 static struct filter_arg *
437 create_arg_cmp(enum filter_exp_type etype)
439 struct filter_arg *arg;
441 arg = allocate_arg();
442 if (!arg)
443 return NULL;
445 /* Use NUM and change if necessary */
446 arg->type = FILTER_ARG_NUM;
447 arg->op.type = etype;
449 return arg;
452 static enum pevent_errno
453 add_right(struct filter_arg *op, struct filter_arg *arg, char *error_str)
455 struct filter_arg *left;
456 char *str;
457 int op_type;
458 int ret;
460 switch (op->type) {
461 case FILTER_ARG_EXP:
462 if (op->exp.right)
463 goto out_fail;
464 op->exp.right = arg;
465 break;
467 case FILTER_ARG_OP:
468 if (op->op.right)
469 goto out_fail;
470 op->op.right = arg;
471 break;
473 case FILTER_ARG_NUM:
474 if (op->op.right)
475 goto out_fail;
477 * The arg must be num, str, or field
479 switch (arg->type) {
480 case FILTER_ARG_VALUE:
481 case FILTER_ARG_FIELD:
482 break;
483 default:
484 show_error(error_str, "Illegal rvalue");
485 return PEVENT_ERRNO__ILLEGAL_RVALUE;
489 * Depending on the type, we may need to
490 * convert this to a string or regex.
492 switch (arg->value.type) {
493 case FILTER_CHAR:
495 * A char should be converted to number if
496 * the string is 1 byte, and the compare
497 * is not a REGEX.
499 if (strlen(arg->value.str) == 1 &&
500 op->num.type != FILTER_CMP_REGEX &&
501 op->num.type != FILTER_CMP_NOT_REGEX) {
502 arg->value.type = FILTER_NUMBER;
503 goto do_int;
505 /* fall through */
506 case FILTER_STRING:
508 /* convert op to a string arg */
509 op_type = op->num.type;
510 left = op->num.left;
511 str = arg->value.str;
513 /* reset the op for the new field */
514 memset(op, 0, sizeof(*op));
517 * If left arg was a field not found then
518 * NULL the entire op.
520 if (left->type == FILTER_ARG_BOOLEAN) {
521 free_arg(left);
522 free_arg(arg);
523 op->type = FILTER_ARG_BOOLEAN;
524 op->boolean.value = FILTER_FALSE;
525 break;
528 /* Left arg must be a field */
529 if (left->type != FILTER_ARG_FIELD) {
530 show_error(error_str,
531 "Illegal lvalue for string comparison");
532 return PEVENT_ERRNO__ILLEGAL_LVALUE;
535 /* Make sure this is a valid string compare */
536 switch (op_type) {
537 case FILTER_CMP_EQ:
538 op_type = FILTER_CMP_MATCH;
539 break;
540 case FILTER_CMP_NE:
541 op_type = FILTER_CMP_NOT_MATCH;
542 break;
544 case FILTER_CMP_REGEX:
545 case FILTER_CMP_NOT_REGEX:
546 ret = regcomp(&op->str.reg, str, REG_ICASE|REG_NOSUB);
547 if (ret) {
548 show_error(error_str,
549 "RegEx '%s' did not compute",
550 str);
551 return PEVENT_ERRNO__INVALID_REGEX;
553 break;
554 default:
555 show_error(error_str,
556 "Illegal comparison for string");
557 return PEVENT_ERRNO__ILLEGAL_STRING_CMP;
560 op->type = FILTER_ARG_STR;
561 op->str.type = op_type;
562 op->str.field = left->field.field;
563 op->str.val = strdup(str);
564 if (!op->str.val) {
565 show_error(error_str, "Failed to allocate string filter");
566 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
569 * Need a buffer to copy data for tests
571 op->str.buffer = malloc(op->str.field->size + 1);
572 if (!op->str.buffer) {
573 show_error(error_str, "Failed to allocate string filter");
574 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
576 /* Null terminate this buffer */
577 op->str.buffer[op->str.field->size] = 0;
579 /* We no longer have left or right args */
580 free_arg(arg);
581 free_arg(left);
583 break;
585 case FILTER_NUMBER:
587 do_int:
588 switch (op->num.type) {
589 case FILTER_CMP_REGEX:
590 case FILTER_CMP_NOT_REGEX:
591 show_error(error_str,
592 "Op not allowed with integers");
593 return PEVENT_ERRNO__ILLEGAL_INTEGER_CMP;
595 default:
596 break;
599 /* numeric compare */
600 op->num.right = arg;
601 break;
602 default:
603 goto out_fail;
605 break;
606 default:
607 goto out_fail;
610 return 0;
612 out_fail:
613 show_error(error_str, "Syntax error");
614 return PEVENT_ERRNO__SYNTAX_ERROR;
617 static struct filter_arg *
618 rotate_op_right(struct filter_arg *a, struct filter_arg *b)
620 struct filter_arg *arg;
622 arg = a->op.right;
623 a->op.right = b;
624 return arg;
627 static enum pevent_errno add_left(struct filter_arg *op, struct filter_arg *arg)
629 switch (op->type) {
630 case FILTER_ARG_EXP:
631 if (arg->type == FILTER_ARG_OP)
632 arg = rotate_op_right(arg, op);
633 op->exp.left = arg;
634 break;
636 case FILTER_ARG_OP:
637 op->op.left = arg;
638 break;
639 case FILTER_ARG_NUM:
640 if (arg->type == FILTER_ARG_OP)
641 arg = rotate_op_right(arg, op);
643 /* left arg of compares must be a field */
644 if (arg->type != FILTER_ARG_FIELD &&
645 arg->type != FILTER_ARG_BOOLEAN)
646 return PEVENT_ERRNO__INVALID_ARG_TYPE;
647 op->num.left = arg;
648 break;
649 default:
650 return PEVENT_ERRNO__INVALID_ARG_TYPE;
652 return 0;
655 enum op_type {
656 OP_NONE,
657 OP_BOOL,
658 OP_NOT,
659 OP_EXP,
660 OP_CMP,
663 static enum op_type process_op(const char *token,
664 enum filter_op_type *btype,
665 enum filter_cmp_type *ctype,
666 enum filter_exp_type *etype)
668 *btype = FILTER_OP_NOT;
669 *etype = FILTER_EXP_NONE;
670 *ctype = FILTER_CMP_NONE;
672 if (strcmp(token, "&&") == 0)
673 *btype = FILTER_OP_AND;
674 else if (strcmp(token, "||") == 0)
675 *btype = FILTER_OP_OR;
676 else if (strcmp(token, "!") == 0)
677 return OP_NOT;
679 if (*btype != FILTER_OP_NOT)
680 return OP_BOOL;
682 /* Check for value expressions */
683 if (strcmp(token, "+") == 0) {
684 *etype = FILTER_EXP_ADD;
685 } else if (strcmp(token, "-") == 0) {
686 *etype = FILTER_EXP_SUB;
687 } else if (strcmp(token, "*") == 0) {
688 *etype = FILTER_EXP_MUL;
689 } else if (strcmp(token, "/") == 0) {
690 *etype = FILTER_EXP_DIV;
691 } else if (strcmp(token, "%") == 0) {
692 *etype = FILTER_EXP_MOD;
693 } else if (strcmp(token, ">>") == 0) {
694 *etype = FILTER_EXP_RSHIFT;
695 } else if (strcmp(token, "<<") == 0) {
696 *etype = FILTER_EXP_LSHIFT;
697 } else if (strcmp(token, "&") == 0) {
698 *etype = FILTER_EXP_AND;
699 } else if (strcmp(token, "|") == 0) {
700 *etype = FILTER_EXP_OR;
701 } else if (strcmp(token, "^") == 0) {
702 *etype = FILTER_EXP_XOR;
703 } else if (strcmp(token, "~") == 0)
704 *etype = FILTER_EXP_NOT;
706 if (*etype != FILTER_EXP_NONE)
707 return OP_EXP;
709 /* Check for compares */
710 if (strcmp(token, "==") == 0)
711 *ctype = FILTER_CMP_EQ;
712 else if (strcmp(token, "!=") == 0)
713 *ctype = FILTER_CMP_NE;
714 else if (strcmp(token, "<") == 0)
715 *ctype = FILTER_CMP_LT;
716 else if (strcmp(token, ">") == 0)
717 *ctype = FILTER_CMP_GT;
718 else if (strcmp(token, "<=") == 0)
719 *ctype = FILTER_CMP_LE;
720 else if (strcmp(token, ">=") == 0)
721 *ctype = FILTER_CMP_GE;
722 else if (strcmp(token, "=~") == 0)
723 *ctype = FILTER_CMP_REGEX;
724 else if (strcmp(token, "!~") == 0)
725 *ctype = FILTER_CMP_NOT_REGEX;
726 else
727 return OP_NONE;
729 return OP_CMP;
732 static int check_op_done(struct filter_arg *arg)
734 switch (arg->type) {
735 case FILTER_ARG_EXP:
736 return arg->exp.right != NULL;
738 case FILTER_ARG_OP:
739 return arg->op.right != NULL;
741 case FILTER_ARG_NUM:
742 return arg->num.right != NULL;
744 case FILTER_ARG_STR:
745 /* A string conversion is always done */
746 return 1;
748 case FILTER_ARG_BOOLEAN:
749 /* field not found, is ok */
750 return 1;
752 default:
753 return 0;
757 enum filter_vals {
758 FILTER_VAL_NORM,
759 FILTER_VAL_FALSE,
760 FILTER_VAL_TRUE,
763 static enum pevent_errno
764 reparent_op_arg(struct filter_arg *parent, struct filter_arg *old_child,
765 struct filter_arg *arg, char *error_str)
767 struct filter_arg *other_child;
768 struct filter_arg **ptr;
770 if (parent->type != FILTER_ARG_OP &&
771 arg->type != FILTER_ARG_OP) {
772 show_error(error_str, "can not reparent other than OP");
773 return PEVENT_ERRNO__REPARENT_NOT_OP;
776 /* Get the sibling */
777 if (old_child->op.right == arg) {
778 ptr = &old_child->op.right;
779 other_child = old_child->op.left;
780 } else if (old_child->op.left == arg) {
781 ptr = &old_child->op.left;
782 other_child = old_child->op.right;
783 } else {
784 show_error(error_str, "Error in reparent op, find other child");
785 return PEVENT_ERRNO__REPARENT_FAILED;
788 /* Detach arg from old_child */
789 *ptr = NULL;
791 /* Check for root */
792 if (parent == old_child) {
793 free_arg(other_child);
794 *parent = *arg;
795 /* Free arg without recussion */
796 free(arg);
797 return 0;
800 if (parent->op.right == old_child)
801 ptr = &parent->op.right;
802 else if (parent->op.left == old_child)
803 ptr = &parent->op.left;
804 else {
805 show_error(error_str, "Error in reparent op");
806 return PEVENT_ERRNO__REPARENT_FAILED;
809 *ptr = arg;
811 free_arg(old_child);
812 return 0;
815 /* Returns either filter_vals (success) or pevent_errno (failfure) */
816 static int test_arg(struct filter_arg *parent, struct filter_arg *arg,
817 char *error_str)
819 int lval, rval;
821 switch (arg->type) {
823 /* bad case */
824 case FILTER_ARG_BOOLEAN:
825 return FILTER_VAL_FALSE + arg->boolean.value;
827 /* good cases: */
828 case FILTER_ARG_STR:
829 case FILTER_ARG_VALUE:
830 case FILTER_ARG_FIELD:
831 return FILTER_VAL_NORM;
833 case FILTER_ARG_EXP:
834 lval = test_arg(arg, arg->exp.left, error_str);
835 if (lval != FILTER_VAL_NORM)
836 return lval;
837 rval = test_arg(arg, arg->exp.right, error_str);
838 if (rval != FILTER_VAL_NORM)
839 return rval;
840 return FILTER_VAL_NORM;
842 case FILTER_ARG_NUM:
843 lval = test_arg(arg, arg->num.left, error_str);
844 if (lval != FILTER_VAL_NORM)
845 return lval;
846 rval = test_arg(arg, arg->num.right, error_str);
847 if (rval != FILTER_VAL_NORM)
848 return rval;
849 return FILTER_VAL_NORM;
851 case FILTER_ARG_OP:
852 if (arg->op.type != FILTER_OP_NOT) {
853 lval = test_arg(arg, arg->op.left, error_str);
854 switch (lval) {
855 case FILTER_VAL_NORM:
856 break;
857 case FILTER_VAL_TRUE:
858 if (arg->op.type == FILTER_OP_OR)
859 return FILTER_VAL_TRUE;
860 rval = test_arg(arg, arg->op.right, error_str);
861 if (rval != FILTER_VAL_NORM)
862 return rval;
864 return reparent_op_arg(parent, arg, arg->op.right,
865 error_str);
867 case FILTER_VAL_FALSE:
868 if (arg->op.type == FILTER_OP_AND)
869 return FILTER_VAL_FALSE;
870 rval = test_arg(arg, arg->op.right, error_str);
871 if (rval != FILTER_VAL_NORM)
872 return rval;
874 return reparent_op_arg(parent, arg, arg->op.right,
875 error_str);
877 default:
878 return lval;
882 rval = test_arg(arg, arg->op.right, error_str);
883 switch (rval) {
884 case FILTER_VAL_NORM:
885 default:
886 break;
888 case FILTER_VAL_TRUE:
889 if (arg->op.type == FILTER_OP_OR)
890 return FILTER_VAL_TRUE;
891 if (arg->op.type == FILTER_OP_NOT)
892 return FILTER_VAL_FALSE;
894 return reparent_op_arg(parent, arg, arg->op.left,
895 error_str);
897 case FILTER_VAL_FALSE:
898 if (arg->op.type == FILTER_OP_AND)
899 return FILTER_VAL_FALSE;
900 if (arg->op.type == FILTER_OP_NOT)
901 return FILTER_VAL_TRUE;
903 return reparent_op_arg(parent, arg, arg->op.left,
904 error_str);
907 return rval;
908 default:
909 show_error(error_str, "bad arg in filter tree");
910 return PEVENT_ERRNO__BAD_FILTER_ARG;
912 return FILTER_VAL_NORM;
915 /* Remove any unknown event fields */
916 static int collapse_tree(struct filter_arg *arg,
917 struct filter_arg **arg_collapsed, char *error_str)
919 int ret;
921 ret = test_arg(arg, arg, error_str);
922 switch (ret) {
923 case FILTER_VAL_NORM:
924 break;
926 case FILTER_VAL_TRUE:
927 case FILTER_VAL_FALSE:
928 free_arg(arg);
929 arg = allocate_arg();
930 if (arg) {
931 arg->type = FILTER_ARG_BOOLEAN;
932 arg->boolean.value = ret == FILTER_VAL_TRUE;
933 } else {
934 show_error(error_str, "Failed to allocate filter arg");
935 ret = PEVENT_ERRNO__MEM_ALLOC_FAILED;
937 break;
939 default:
940 /* test_arg() already set the error_str */
941 free_arg(arg);
942 arg = NULL;
943 break;
946 *arg_collapsed = arg;
947 return ret;
950 static enum pevent_errno
951 process_filter(struct event_format *event, struct filter_arg **parg,
952 char *error_str, int not)
954 enum event_type type;
955 char *token = NULL;
956 struct filter_arg *current_op = NULL;
957 struct filter_arg *current_exp = NULL;
958 struct filter_arg *left_item = NULL;
959 struct filter_arg *arg = NULL;
960 enum op_type op_type;
961 enum filter_op_type btype;
962 enum filter_exp_type etype;
963 enum filter_cmp_type ctype;
964 enum pevent_errno ret;
966 *parg = NULL;
968 do {
969 free(token);
970 type = read_token(&token);
971 switch (type) {
972 case EVENT_SQUOTE:
973 case EVENT_DQUOTE:
974 case EVENT_ITEM:
975 ret = create_arg_item(event, token, type, &arg, error_str);
976 if (ret < 0)
977 goto fail;
978 if (!left_item)
979 left_item = arg;
980 else if (current_exp) {
981 ret = add_right(current_exp, arg, error_str);
982 if (ret < 0)
983 goto fail;
984 left_item = NULL;
985 /* Not's only one one expression */
986 if (not) {
987 arg = NULL;
988 if (current_op)
989 goto fail_syntax;
990 free(token);
991 *parg = current_exp;
992 return 0;
994 } else
995 goto fail_syntax;
996 arg = NULL;
997 break;
999 case EVENT_DELIM:
1000 if (*token == ',') {
1001 show_error(error_str, "Illegal token ','");
1002 ret = PEVENT_ERRNO__ILLEGAL_TOKEN;
1003 goto fail;
1006 if (*token == '(') {
1007 if (left_item) {
1008 show_error(error_str,
1009 "Open paren can not come after item");
1010 ret = PEVENT_ERRNO__INVALID_PAREN;
1011 goto fail;
1013 if (current_exp) {
1014 show_error(error_str,
1015 "Open paren can not come after expression");
1016 ret = PEVENT_ERRNO__INVALID_PAREN;
1017 goto fail;
1020 ret = process_filter(event, &arg, error_str, 0);
1021 if (ret != PEVENT_ERRNO__UNBALANCED_PAREN) {
1022 if (ret == 0) {
1023 show_error(error_str,
1024 "Unbalanced number of '('");
1025 ret = PEVENT_ERRNO__UNBALANCED_PAREN;
1027 goto fail;
1029 ret = 0;
1031 /* A not wants just one expression */
1032 if (not) {
1033 if (current_op)
1034 goto fail_syntax;
1035 *parg = arg;
1036 return 0;
1039 if (current_op)
1040 ret = add_right(current_op, arg, error_str);
1041 else
1042 current_exp = arg;
1044 if (ret < 0)
1045 goto fail;
1047 } else { /* ')' */
1048 if (!current_op && !current_exp)
1049 goto fail_syntax;
1051 /* Make sure everything is finished at this level */
1052 if (current_exp && !check_op_done(current_exp))
1053 goto fail_syntax;
1054 if (current_op && !check_op_done(current_op))
1055 goto fail_syntax;
1057 if (current_op)
1058 *parg = current_op;
1059 else
1060 *parg = current_exp;
1061 return PEVENT_ERRNO__UNBALANCED_PAREN;
1063 break;
1065 case EVENT_OP:
1066 op_type = process_op(token, &btype, &ctype, &etype);
1068 /* All expect a left arg except for NOT */
1069 switch (op_type) {
1070 case OP_BOOL:
1071 /* Logic ops need a left expression */
1072 if (!current_exp && !current_op)
1073 goto fail_syntax;
1074 /* fall through */
1075 case OP_NOT:
1076 /* logic only processes ops and exp */
1077 if (left_item)
1078 goto fail_syntax;
1079 break;
1080 case OP_EXP:
1081 case OP_CMP:
1082 if (!left_item)
1083 goto fail_syntax;
1084 break;
1085 case OP_NONE:
1086 show_error(error_str,
1087 "Unknown op token %s", token);
1088 ret = PEVENT_ERRNO__UNKNOWN_TOKEN;
1089 goto fail;
1092 ret = 0;
1093 switch (op_type) {
1094 case OP_BOOL:
1095 arg = create_arg_op(btype);
1096 if (arg == NULL)
1097 goto fail_alloc;
1098 if (current_op)
1099 ret = add_left(arg, current_op);
1100 else
1101 ret = add_left(arg, current_exp);
1102 current_op = arg;
1103 current_exp = NULL;
1104 break;
1106 case OP_NOT:
1107 arg = create_arg_op(btype);
1108 if (arg == NULL)
1109 goto fail_alloc;
1110 if (current_op)
1111 ret = add_right(current_op, arg, error_str);
1112 if (ret < 0)
1113 goto fail;
1114 current_exp = arg;
1115 ret = process_filter(event, &arg, error_str, 1);
1116 if (ret < 0)
1117 goto fail;
1118 ret = add_right(current_exp, arg, error_str);
1119 if (ret < 0)
1120 goto fail;
1121 break;
1123 case OP_EXP:
1124 case OP_CMP:
1125 if (op_type == OP_EXP)
1126 arg = create_arg_exp(etype);
1127 else
1128 arg = create_arg_cmp(ctype);
1129 if (arg == NULL)
1130 goto fail_alloc;
1132 if (current_op)
1133 ret = add_right(current_op, arg, error_str);
1134 if (ret < 0)
1135 goto fail;
1136 ret = add_left(arg, left_item);
1137 if (ret < 0) {
1138 arg = NULL;
1139 goto fail_syntax;
1141 current_exp = arg;
1142 break;
1143 default:
1144 break;
1146 arg = NULL;
1147 if (ret < 0)
1148 goto fail_syntax;
1149 break;
1150 case EVENT_NONE:
1151 break;
1152 case EVENT_ERROR:
1153 goto fail_alloc;
1154 default:
1155 goto fail_syntax;
1157 } while (type != EVENT_NONE);
1159 if (!current_op && !current_exp)
1160 goto fail_syntax;
1162 if (!current_op)
1163 current_op = current_exp;
1165 ret = collapse_tree(current_op, parg, error_str);
1166 if (ret < 0)
1167 goto fail;
1169 *parg = current_op;
1171 return 0;
1173 fail_alloc:
1174 show_error(error_str, "failed to allocate filter arg");
1175 ret = PEVENT_ERRNO__MEM_ALLOC_FAILED;
1176 goto fail;
1177 fail_syntax:
1178 show_error(error_str, "Syntax error");
1179 ret = PEVENT_ERRNO__SYNTAX_ERROR;
1180 fail:
1181 free_arg(current_op);
1182 free_arg(current_exp);
1183 free_arg(arg);
1184 free(token);
1185 return ret;
1188 static enum pevent_errno
1189 process_event(struct event_format *event, const char *filter_str,
1190 struct filter_arg **parg, char *error_str)
1192 int ret;
1194 pevent_buffer_init(filter_str, strlen(filter_str));
1196 ret = process_filter(event, parg, error_str, 0);
1197 if (ret < 0)
1198 return ret;
1200 /* If parg is NULL, then make it into FALSE */
1201 if (!*parg) {
1202 *parg = allocate_arg();
1203 if (*parg == NULL)
1204 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
1206 (*parg)->type = FILTER_ARG_BOOLEAN;
1207 (*parg)->boolean.value = FILTER_FALSE;
1210 return 0;
1213 static enum pevent_errno
1214 filter_event(struct event_filter *filter, struct event_format *event,
1215 const char *filter_str, char *error_str)
1217 struct filter_type *filter_type;
1218 struct filter_arg *arg;
1219 enum pevent_errno ret;
1221 if (filter_str) {
1222 ret = process_event(event, filter_str, &arg, error_str);
1223 if (ret < 0)
1224 return ret;
1226 } else {
1227 /* just add a TRUE arg */
1228 arg = allocate_arg();
1229 if (arg == NULL)
1230 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
1232 arg->type = FILTER_ARG_BOOLEAN;
1233 arg->boolean.value = FILTER_TRUE;
1236 filter_type = add_filter_type(filter, event->id);
1237 if (filter_type == NULL)
1238 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
1240 if (filter_type->filter)
1241 free_arg(filter_type->filter);
1242 filter_type->filter = arg;
1244 return 0;
1247 static void filter_init_error_buf(struct event_filter *filter)
1249 /* clear buffer to reset show error */
1250 pevent_buffer_init("", 0);
1251 filter->error_buffer[0] = '\0';
1255 * pevent_filter_add_filter_str - add a new filter
1256 * @filter: the event filter to add to
1257 * @filter_str: the filter string that contains the filter
1259 * Returns 0 if the filter was successfully added or a
1260 * negative error code. Use pevent_filter_strerror() to see
1261 * actual error message in case of error.
1263 enum pevent_errno pevent_filter_add_filter_str(struct event_filter *filter,
1264 const char *filter_str)
1266 struct pevent *pevent = filter->pevent;
1267 struct event_list *event;
1268 struct event_list *events = NULL;
1269 const char *filter_start;
1270 const char *next_event;
1271 char *this_event;
1272 char *event_name = NULL;
1273 char *sys_name = NULL;
1274 char *sp;
1275 enum pevent_errno rtn = 0; /* PEVENT_ERRNO__SUCCESS */
1276 int len;
1277 int ret;
1279 filter_init_error_buf(filter);
1281 filter_start = strchr(filter_str, ':');
1282 if (filter_start)
1283 len = filter_start - filter_str;
1284 else
1285 len = strlen(filter_str);
1287 do {
1288 next_event = strchr(filter_str, ',');
1289 if (next_event &&
1290 (!filter_start || next_event < filter_start))
1291 len = next_event - filter_str;
1292 else if (filter_start)
1293 len = filter_start - filter_str;
1294 else
1295 len = strlen(filter_str);
1297 this_event = malloc(len + 1);
1298 if (this_event == NULL) {
1299 /* This can only happen when events is NULL, but still */
1300 free_events(events);
1301 return PEVENT_ERRNO__MEM_ALLOC_FAILED;
1303 memcpy(this_event, filter_str, len);
1304 this_event[len] = 0;
1306 if (next_event)
1307 next_event++;
1309 filter_str = next_event;
1311 sys_name = strtok_r(this_event, "/", &sp);
1312 event_name = strtok_r(NULL, "/", &sp);
1314 if (!sys_name) {
1315 /* This can only happen when events is NULL, but still */
1316 free_events(events);
1317 free(this_event);
1318 return PEVENT_ERRNO__FILTER_NOT_FOUND;
1321 /* Find this event */
1322 ret = find_event(pevent, &events, strim(sys_name), strim(event_name));
1323 if (ret < 0) {
1324 free_events(events);
1325 free(this_event);
1326 return ret;
1328 free(this_event);
1329 } while (filter_str);
1331 /* Skip the ':' */
1332 if (filter_start)
1333 filter_start++;
1335 /* filter starts here */
1336 for (event = events; event; event = event->next) {
1337 ret = filter_event(filter, event->event, filter_start,
1338 filter->error_buffer);
1339 /* Failures are returned if a parse error happened */
1340 if (ret < 0)
1341 rtn = ret;
1343 if (ret >= 0 && pevent->test_filters) {
1344 char *test;
1345 test = pevent_filter_make_string(filter, event->event->id);
1346 if (test) {
1347 printf(" '%s: %s'\n", event->event->name, test);
1348 free(test);
1353 free_events(events);
1355 if (rtn >= 0 && pevent->test_filters)
1356 exit(0);
1358 return rtn;
1361 static void free_filter_type(struct filter_type *filter_type)
1363 free_arg(filter_type->filter);
1367 * pevent_filter_strerror - fill error message in a buffer
1368 * @filter: the event filter contains error
1369 * @err: the error code
1370 * @buf: the buffer to be filled in
1371 * @buflen: the size of the buffer
1373 * Returns 0 if message was filled successfully, -1 if error
1375 int pevent_filter_strerror(struct event_filter *filter, enum pevent_errno err,
1376 char *buf, size_t buflen)
1378 if (err <= __PEVENT_ERRNO__START || err >= __PEVENT_ERRNO__END)
1379 return -1;
1381 if (strlen(filter->error_buffer) > 0) {
1382 size_t len = snprintf(buf, buflen, "%s", filter->error_buffer);
1384 if (len > buflen)
1385 return -1;
1386 return 0;
1389 return pevent_strerror(filter->pevent, err, buf, buflen);
1393 * pevent_filter_remove_event - remove a filter for an event
1394 * @filter: the event filter to remove from
1395 * @event_id: the event to remove a filter for
1397 * Removes the filter saved for an event defined by @event_id
1398 * from the @filter.
1400 * Returns 1: if an event was removed
1401 * 0: if the event was not found
1403 int pevent_filter_remove_event(struct event_filter *filter,
1404 int event_id)
1406 struct filter_type *filter_type;
1407 unsigned long len;
1409 if (!filter->filters)
1410 return 0;
1412 filter_type = find_filter_type(filter, event_id);
1414 if (!filter_type)
1415 return 0;
1417 free_filter_type(filter_type);
1419 /* The filter_type points into the event_filters array */
1420 len = (unsigned long)(filter->event_filters + filter->filters) -
1421 (unsigned long)(filter_type + 1);
1423 memmove(filter_type, filter_type + 1, len);
1424 filter->filters--;
1426 memset(&filter->event_filters[filter->filters], 0,
1427 sizeof(*filter_type));
1429 return 1;
1433 * pevent_filter_reset - clear all filters in a filter
1434 * @filter: the event filter to reset
1436 * Removes all filters from a filter and resets it.
1438 void pevent_filter_reset(struct event_filter *filter)
1440 int i;
1442 for (i = 0; i < filter->filters; i++)
1443 free_filter_type(&filter->event_filters[i]);
1445 free(filter->event_filters);
1446 filter->filters = 0;
1447 filter->event_filters = NULL;
1450 void pevent_filter_free(struct event_filter *filter)
1452 pevent_unref(filter->pevent);
1454 pevent_filter_reset(filter);
1456 free(filter);
1459 static char *arg_to_str(struct event_filter *filter, struct filter_arg *arg);
1461 static int copy_filter_type(struct event_filter *filter,
1462 struct event_filter *source,
1463 struct filter_type *filter_type)
1465 struct filter_arg *arg;
1466 struct event_format *event;
1467 const char *sys;
1468 const char *name;
1469 char *str;
1471 /* Can't assume that the pevent's are the same */
1472 sys = filter_type->event->system;
1473 name = filter_type->event->name;
1474 event = pevent_find_event_by_name(filter->pevent, sys, name);
1475 if (!event)
1476 return -1;
1478 str = arg_to_str(source, filter_type->filter);
1479 if (!str)
1480 return -1;
1482 if (strcmp(str, "TRUE") == 0 || strcmp(str, "FALSE") == 0) {
1483 /* Add trivial event */
1484 arg = allocate_arg();
1485 if (arg == NULL)
1486 return -1;
1488 arg->type = FILTER_ARG_BOOLEAN;
1489 if (strcmp(str, "TRUE") == 0)
1490 arg->boolean.value = 1;
1491 else
1492 arg->boolean.value = 0;
1494 filter_type = add_filter_type(filter, event->id);
1495 if (filter_type == NULL)
1496 return -1;
1498 filter_type->filter = arg;
1500 free(str);
1501 return 0;
1504 filter_event(filter, event, str, NULL);
1505 free(str);
1507 return 0;
1511 * pevent_filter_copy - copy a filter using another filter
1512 * @dest - the filter to copy to
1513 * @source - the filter to copy from
1515 * Returns 0 on success and -1 if not all filters were copied
1517 int pevent_filter_copy(struct event_filter *dest, struct event_filter *source)
1519 int ret = 0;
1520 int i;
1522 pevent_filter_reset(dest);
1524 for (i = 0; i < source->filters; i++) {
1525 if (copy_filter_type(dest, source, &source->event_filters[i]))
1526 ret = -1;
1528 return ret;
1533 * pevent_update_trivial - update the trivial filters with the given filter
1534 * @dest - the filter to update
1535 * @source - the filter as the source of the update
1536 * @type - the type of trivial filter to update.
1538 * Scan dest for trivial events matching @type to replace with the source.
1540 * Returns 0 on success and -1 if there was a problem updating, but
1541 * events may have still been updated on error.
1543 int pevent_update_trivial(struct event_filter *dest, struct event_filter *source,
1544 enum filter_trivial_type type)
1546 struct pevent *src_pevent;
1547 struct pevent *dest_pevent;
1548 struct event_format *event;
1549 struct filter_type *filter_type;
1550 struct filter_arg *arg;
1551 char *str;
1552 int i;
1554 src_pevent = source->pevent;
1555 dest_pevent = dest->pevent;
1557 /* Do nothing if either of the filters has nothing to filter */
1558 if (!dest->filters || !source->filters)
1559 return 0;
1561 for (i = 0; i < dest->filters; i++) {
1562 filter_type = &dest->event_filters[i];
1563 arg = filter_type->filter;
1564 if (arg->type != FILTER_ARG_BOOLEAN)
1565 continue;
1566 if ((arg->boolean.value && type == FILTER_TRIVIAL_FALSE) ||
1567 (!arg->boolean.value && type == FILTER_TRIVIAL_TRUE))
1568 continue;
1570 event = filter_type->event;
1572 if (src_pevent != dest_pevent) {
1573 /* do a look up */
1574 event = pevent_find_event_by_name(src_pevent,
1575 event->system,
1576 event->name);
1577 if (!event)
1578 return -1;
1581 str = pevent_filter_make_string(source, event->id);
1582 if (!str)
1583 continue;
1585 /* Don't bother if the filter is trivial too */
1586 if (strcmp(str, "TRUE") != 0 && strcmp(str, "FALSE") != 0)
1587 filter_event(dest, event, str, NULL);
1588 free(str);
1590 return 0;
1594 * pevent_filter_clear_trivial - clear TRUE and FALSE filters
1595 * @filter: the filter to remove trivial filters from
1596 * @type: remove only true, false, or both
1598 * Removes filters that only contain a TRUE or FALES boolean arg.
1600 * Returns 0 on success and -1 if there was a problem.
1602 int pevent_filter_clear_trivial(struct event_filter *filter,
1603 enum filter_trivial_type type)
1605 struct filter_type *filter_type;
1606 int count = 0;
1607 int *ids = NULL;
1608 int i;
1610 if (!filter->filters)
1611 return 0;
1614 * Two steps, first get all ids with trivial filters.
1615 * then remove those ids.
1617 for (i = 0; i < filter->filters; i++) {
1618 int *new_ids;
1620 filter_type = &filter->event_filters[i];
1621 if (filter_type->filter->type != FILTER_ARG_BOOLEAN)
1622 continue;
1623 switch (type) {
1624 case FILTER_TRIVIAL_FALSE:
1625 if (filter_type->filter->boolean.value)
1626 continue;
1627 case FILTER_TRIVIAL_TRUE:
1628 if (!filter_type->filter->boolean.value)
1629 continue;
1630 default:
1631 break;
1634 new_ids = realloc(ids, sizeof(*ids) * (count + 1));
1635 if (!new_ids) {
1636 free(ids);
1637 return -1;
1640 ids = new_ids;
1641 ids[count++] = filter_type->event_id;
1644 if (!count)
1645 return 0;
1647 for (i = 0; i < count; i++)
1648 pevent_filter_remove_event(filter, ids[i]);
1650 free(ids);
1651 return 0;
1655 * pevent_filter_event_has_trivial - return true event contains trivial filter
1656 * @filter: the filter with the information
1657 * @event_id: the id of the event to test
1658 * @type: trivial type to test for (TRUE, FALSE, EITHER)
1660 * Returns 1 if the event contains a matching trivial type
1661 * otherwise 0.
1663 int pevent_filter_event_has_trivial(struct event_filter *filter,
1664 int event_id,
1665 enum filter_trivial_type type)
1667 struct filter_type *filter_type;
1669 if (!filter->filters)
1670 return 0;
1672 filter_type = find_filter_type(filter, event_id);
1674 if (!filter_type)
1675 return 0;
1677 if (filter_type->filter->type != FILTER_ARG_BOOLEAN)
1678 return 0;
1680 switch (type) {
1681 case FILTER_TRIVIAL_FALSE:
1682 return !filter_type->filter->boolean.value;
1684 case FILTER_TRIVIAL_TRUE:
1685 return filter_type->filter->boolean.value;
1686 default:
1687 return 1;
1691 static int test_filter(struct event_format *event, struct filter_arg *arg,
1692 struct pevent_record *record, enum pevent_errno *err);
1694 static const char *
1695 get_comm(struct event_format *event, struct pevent_record *record)
1697 const char *comm;
1698 int pid;
1700 pid = pevent_data_pid(event->pevent, record);
1701 comm = pevent_data_comm_from_pid(event->pevent, pid);
1702 return comm;
1705 static unsigned long long
1706 get_value(struct event_format *event,
1707 struct format_field *field, struct pevent_record *record)
1709 unsigned long long val;
1711 /* Handle our dummy "comm" field */
1712 if (field == &comm) {
1713 const char *name;
1715 name = get_comm(event, record);
1716 return (unsigned long)name;
1719 pevent_read_number_field(field, record->data, &val);
1721 if (!(field->flags & FIELD_IS_SIGNED))
1722 return val;
1724 switch (field->size) {
1725 case 1:
1726 return (char)val;
1727 case 2:
1728 return (short)val;
1729 case 4:
1730 return (int)val;
1731 case 8:
1732 return (long long)val;
1734 return val;
1737 static unsigned long long
1738 get_arg_value(struct event_format *event, struct filter_arg *arg,
1739 struct pevent_record *record, enum pevent_errno *err);
1741 static unsigned long long
1742 get_exp_value(struct event_format *event, struct filter_arg *arg,
1743 struct pevent_record *record, enum pevent_errno *err)
1745 unsigned long long lval, rval;
1747 lval = get_arg_value(event, arg->exp.left, record, err);
1748 rval = get_arg_value(event, arg->exp.right, record, err);
1750 if (*err) {
1752 * There was an error, no need to process anymore.
1754 return 0;
1757 switch (arg->exp.type) {
1758 case FILTER_EXP_ADD:
1759 return lval + rval;
1761 case FILTER_EXP_SUB:
1762 return lval - rval;
1764 case FILTER_EXP_MUL:
1765 return lval * rval;
1767 case FILTER_EXP_DIV:
1768 return lval / rval;
1770 case FILTER_EXP_MOD:
1771 return lval % rval;
1773 case FILTER_EXP_RSHIFT:
1774 return lval >> rval;
1776 case FILTER_EXP_LSHIFT:
1777 return lval << rval;
1779 case FILTER_EXP_AND:
1780 return lval & rval;
1782 case FILTER_EXP_OR:
1783 return lval | rval;
1785 case FILTER_EXP_XOR:
1786 return lval ^ rval;
1788 case FILTER_EXP_NOT:
1789 default:
1790 if (!*err)
1791 *err = PEVENT_ERRNO__INVALID_EXP_TYPE;
1793 return 0;
1796 static unsigned long long
1797 get_arg_value(struct event_format *event, struct filter_arg *arg,
1798 struct pevent_record *record, enum pevent_errno *err)
1800 switch (arg->type) {
1801 case FILTER_ARG_FIELD:
1802 return get_value(event, arg->field.field, record);
1804 case FILTER_ARG_VALUE:
1805 if (arg->value.type != FILTER_NUMBER) {
1806 if (!*err)
1807 *err = PEVENT_ERRNO__NOT_A_NUMBER;
1809 return arg->value.val;
1811 case FILTER_ARG_EXP:
1812 return get_exp_value(event, arg, record, err);
1814 default:
1815 if (!*err)
1816 *err = PEVENT_ERRNO__INVALID_ARG_TYPE;
1818 return 0;
1821 static int test_num(struct event_format *event, struct filter_arg *arg,
1822 struct pevent_record *record, enum pevent_errno *err)
1824 unsigned long long lval, rval;
1826 lval = get_arg_value(event, arg->num.left, record, err);
1827 rval = get_arg_value(event, arg->num.right, record, err);
1829 if (*err) {
1831 * There was an error, no need to process anymore.
1833 return 0;
1836 switch (arg->num.type) {
1837 case FILTER_CMP_EQ:
1838 return lval == rval;
1840 case FILTER_CMP_NE:
1841 return lval != rval;
1843 case FILTER_CMP_GT:
1844 return lval > rval;
1846 case FILTER_CMP_LT:
1847 return lval < rval;
1849 case FILTER_CMP_GE:
1850 return lval >= rval;
1852 case FILTER_CMP_LE:
1853 return lval <= rval;
1855 default:
1856 if (!*err)
1857 *err = PEVENT_ERRNO__ILLEGAL_INTEGER_CMP;
1858 return 0;
1862 static const char *get_field_str(struct filter_arg *arg, struct pevent_record *record)
1864 struct event_format *event;
1865 struct pevent *pevent;
1866 unsigned long long addr;
1867 const char *val = NULL;
1868 char hex[64];
1870 /* If the field is not a string convert it */
1871 if (arg->str.field->flags & FIELD_IS_STRING) {
1872 val = record->data + arg->str.field->offset;
1875 * We need to copy the data since we can't be sure the field
1876 * is null terminated.
1878 if (*(val + arg->str.field->size - 1)) {
1879 /* copy it */
1880 memcpy(arg->str.buffer, val, arg->str.field->size);
1881 /* the buffer is already NULL terminated */
1882 val = arg->str.buffer;
1885 } else {
1886 event = arg->str.field->event;
1887 pevent = event->pevent;
1888 addr = get_value(event, arg->str.field, record);
1890 if (arg->str.field->flags & (FIELD_IS_POINTER | FIELD_IS_LONG))
1891 /* convert to a kernel symbol */
1892 val = pevent_find_function(pevent, addr);
1894 if (val == NULL) {
1895 /* just use the hex of the string name */
1896 snprintf(hex, 64, "0x%llx", addr);
1897 val = hex;
1901 return val;
1904 static int test_str(struct event_format *event, struct filter_arg *arg,
1905 struct pevent_record *record, enum pevent_errno *err)
1907 const char *val;
1909 if (arg->str.field == &comm)
1910 val = get_comm(event, record);
1911 else
1912 val = get_field_str(arg, record);
1914 switch (arg->str.type) {
1915 case FILTER_CMP_MATCH:
1916 return strcmp(val, arg->str.val) == 0;
1918 case FILTER_CMP_NOT_MATCH:
1919 return strcmp(val, arg->str.val) != 0;
1921 case FILTER_CMP_REGEX:
1922 /* Returns zero on match */
1923 return !regexec(&arg->str.reg, val, 0, NULL, 0);
1925 case FILTER_CMP_NOT_REGEX:
1926 return regexec(&arg->str.reg, val, 0, NULL, 0);
1928 default:
1929 if (!*err)
1930 *err = PEVENT_ERRNO__ILLEGAL_STRING_CMP;
1931 return 0;
1935 static int test_op(struct event_format *event, struct filter_arg *arg,
1936 struct pevent_record *record, enum pevent_errno *err)
1938 switch (arg->op.type) {
1939 case FILTER_OP_AND:
1940 return test_filter(event, arg->op.left, record, err) &&
1941 test_filter(event, arg->op.right, record, err);
1943 case FILTER_OP_OR:
1944 return test_filter(event, arg->op.left, record, err) ||
1945 test_filter(event, arg->op.right, record, err);
1947 case FILTER_OP_NOT:
1948 return !test_filter(event, arg->op.right, record, err);
1950 default:
1951 if (!*err)
1952 *err = PEVENT_ERRNO__INVALID_OP_TYPE;
1953 return 0;
1957 static int test_filter(struct event_format *event, struct filter_arg *arg,
1958 struct pevent_record *record, enum pevent_errno *err)
1960 if (*err) {
1962 * There was an error, no need to process anymore.
1964 return 0;
1967 switch (arg->type) {
1968 case FILTER_ARG_BOOLEAN:
1969 /* easy case */
1970 return arg->boolean.value;
1972 case FILTER_ARG_OP:
1973 return test_op(event, arg, record, err);
1975 case FILTER_ARG_NUM:
1976 return test_num(event, arg, record, err);
1978 case FILTER_ARG_STR:
1979 return test_str(event, arg, record, err);
1981 case FILTER_ARG_EXP:
1982 case FILTER_ARG_VALUE:
1983 case FILTER_ARG_FIELD:
1985 * Expressions, fields and values evaluate
1986 * to true if they return non zero
1988 return !!get_arg_value(event, arg, record, err);
1990 default:
1991 if (!*err)
1992 *err = PEVENT_ERRNO__INVALID_ARG_TYPE;
1993 return 0;
1998 * pevent_event_filtered - return true if event has filter
1999 * @filter: filter struct with filter information
2000 * @event_id: event id to test if filter exists
2002 * Returns 1 if filter found for @event_id
2003 * otherwise 0;
2005 int pevent_event_filtered(struct event_filter *filter, int event_id)
2007 struct filter_type *filter_type;
2009 if (!filter->filters)
2010 return 0;
2012 filter_type = find_filter_type(filter, event_id);
2014 return filter_type ? 1 : 0;
2018 * pevent_filter_match - test if a record matches a filter
2019 * @filter: filter struct with filter information
2020 * @record: the record to test against the filter
2022 * Returns: match result or error code (prefixed with PEVENT_ERRNO__)
2023 * FILTER_MATCH - filter found for event and @record matches
2024 * FILTER_MISS - filter found for event and @record does not match
2025 * FILTER_NOT_FOUND - no filter found for @record's event
2026 * NO_FILTER - if no filters exist
2027 * otherwise - error occurred during test
2029 enum pevent_errno pevent_filter_match(struct event_filter *filter,
2030 struct pevent_record *record)
2032 struct pevent *pevent = filter->pevent;
2033 struct filter_type *filter_type;
2034 int event_id;
2035 int ret;
2036 enum pevent_errno err = 0;
2038 filter_init_error_buf(filter);
2040 if (!filter->filters)
2041 return PEVENT_ERRNO__NO_FILTER;
2043 event_id = pevent_data_type(pevent, record);
2045 filter_type = find_filter_type(filter, event_id);
2046 if (!filter_type)
2047 return PEVENT_ERRNO__FILTER_NOT_FOUND;
2049 ret = test_filter(filter_type->event, filter_type->filter, record, &err);
2050 if (err)
2051 return err;
2053 return ret ? PEVENT_ERRNO__FILTER_MATCH : PEVENT_ERRNO__FILTER_MISS;
2056 static char *op_to_str(struct event_filter *filter, struct filter_arg *arg)
2058 char *str = NULL;
2059 char *left = NULL;
2060 char *right = NULL;
2061 char *op = NULL;
2062 int left_val = -1;
2063 int right_val = -1;
2064 int val;
2066 switch (arg->op.type) {
2067 case FILTER_OP_AND:
2068 op = "&&";
2069 /* fall through */
2070 case FILTER_OP_OR:
2071 if (!op)
2072 op = "||";
2074 left = arg_to_str(filter, arg->op.left);
2075 right = arg_to_str(filter, arg->op.right);
2076 if (!left || !right)
2077 break;
2079 /* Try to consolidate boolean values */
2080 if (strcmp(left, "TRUE") == 0)
2081 left_val = 1;
2082 else if (strcmp(left, "FALSE") == 0)
2083 left_val = 0;
2085 if (strcmp(right, "TRUE") == 0)
2086 right_val = 1;
2087 else if (strcmp(right, "FALSE") == 0)
2088 right_val = 0;
2090 if (left_val >= 0) {
2091 if ((arg->op.type == FILTER_OP_AND && !left_val) ||
2092 (arg->op.type == FILTER_OP_OR && left_val)) {
2093 /* Just return left value */
2094 str = left;
2095 left = NULL;
2096 break;
2098 if (right_val >= 0) {
2099 /* just evaluate this. */
2100 val = 0;
2101 switch (arg->op.type) {
2102 case FILTER_OP_AND:
2103 val = left_val && right_val;
2104 break;
2105 case FILTER_OP_OR:
2106 val = left_val || right_val;
2107 break;
2108 default:
2109 break;
2111 asprintf(&str, val ? "TRUE" : "FALSE");
2112 break;
2115 if (right_val >= 0) {
2116 if ((arg->op.type == FILTER_OP_AND && !right_val) ||
2117 (arg->op.type == FILTER_OP_OR && right_val)) {
2118 /* Just return right value */
2119 str = right;
2120 right = NULL;
2121 break;
2123 /* The right value is meaningless */
2124 str = left;
2125 left = NULL;
2126 break;
2129 asprintf(&str, "(%s) %s (%s)", left, op, right);
2130 break;
2132 case FILTER_OP_NOT:
2133 op = "!";
2134 right = arg_to_str(filter, arg->op.right);
2135 if (!right)
2136 break;
2138 /* See if we can consolidate */
2139 if (strcmp(right, "TRUE") == 0)
2140 right_val = 1;
2141 else if (strcmp(right, "FALSE") == 0)
2142 right_val = 0;
2143 if (right_val >= 0) {
2144 /* just return the opposite */
2145 asprintf(&str, right_val ? "FALSE" : "TRUE");
2146 break;
2148 asprintf(&str, "%s(%s)", op, right);
2149 break;
2151 default:
2152 /* ?? */
2153 break;
2155 free(left);
2156 free(right);
2157 return str;
2160 static char *val_to_str(struct event_filter *filter, struct filter_arg *arg)
2162 char *str = NULL;
2164 asprintf(&str, "%lld", arg->value.val);
2166 return str;
2169 static char *field_to_str(struct event_filter *filter, struct filter_arg *arg)
2171 return strdup(arg->field.field->name);
2174 static char *exp_to_str(struct event_filter *filter, struct filter_arg *arg)
2176 char *lstr;
2177 char *rstr;
2178 char *op;
2179 char *str = NULL;
2181 lstr = arg_to_str(filter, arg->exp.left);
2182 rstr = arg_to_str(filter, arg->exp.right);
2183 if (!lstr || !rstr)
2184 goto out;
2186 switch (arg->exp.type) {
2187 case FILTER_EXP_ADD:
2188 op = "+";
2189 break;
2190 case FILTER_EXP_SUB:
2191 op = "-";
2192 break;
2193 case FILTER_EXP_MUL:
2194 op = "*";
2195 break;
2196 case FILTER_EXP_DIV:
2197 op = "/";
2198 break;
2199 case FILTER_EXP_MOD:
2200 op = "%";
2201 break;
2202 case FILTER_EXP_RSHIFT:
2203 op = ">>";
2204 break;
2205 case FILTER_EXP_LSHIFT:
2206 op = "<<";
2207 break;
2208 case FILTER_EXP_AND:
2209 op = "&";
2210 break;
2211 case FILTER_EXP_OR:
2212 op = "|";
2213 break;
2214 case FILTER_EXP_XOR:
2215 op = "^";
2216 break;
2217 default:
2218 op = "[ERROR IN EXPRESSION TYPE]";
2219 break;
2222 asprintf(&str, "%s %s %s", lstr, op, rstr);
2223 out:
2224 free(lstr);
2225 free(rstr);
2227 return str;
2230 static char *num_to_str(struct event_filter *filter, struct filter_arg *arg)
2232 char *lstr;
2233 char *rstr;
2234 char *str = NULL;
2235 char *op = NULL;
2237 lstr = arg_to_str(filter, arg->num.left);
2238 rstr = arg_to_str(filter, arg->num.right);
2239 if (!lstr || !rstr)
2240 goto out;
2242 switch (arg->num.type) {
2243 case FILTER_CMP_EQ:
2244 op = "==";
2245 /* fall through */
2246 case FILTER_CMP_NE:
2247 if (!op)
2248 op = "!=";
2249 /* fall through */
2250 case FILTER_CMP_GT:
2251 if (!op)
2252 op = ">";
2253 /* fall through */
2254 case FILTER_CMP_LT:
2255 if (!op)
2256 op = "<";
2257 /* fall through */
2258 case FILTER_CMP_GE:
2259 if (!op)
2260 op = ">=";
2261 /* fall through */
2262 case FILTER_CMP_LE:
2263 if (!op)
2264 op = "<=";
2266 asprintf(&str, "%s %s %s", lstr, op, rstr);
2267 break;
2269 default:
2270 /* ?? */
2271 break;
2274 out:
2275 free(lstr);
2276 free(rstr);
2277 return str;
2280 static char *str_to_str(struct event_filter *filter, struct filter_arg *arg)
2282 char *str = NULL;
2283 char *op = NULL;
2285 switch (arg->str.type) {
2286 case FILTER_CMP_MATCH:
2287 op = "==";
2288 /* fall through */
2289 case FILTER_CMP_NOT_MATCH:
2290 if (!op)
2291 op = "!=";
2292 /* fall through */
2293 case FILTER_CMP_REGEX:
2294 if (!op)
2295 op = "=~";
2296 /* fall through */
2297 case FILTER_CMP_NOT_REGEX:
2298 if (!op)
2299 op = "!~";
2301 asprintf(&str, "%s %s \"%s\"",
2302 arg->str.field->name, op, arg->str.val);
2303 break;
2305 default:
2306 /* ?? */
2307 break;
2309 return str;
2312 static char *arg_to_str(struct event_filter *filter, struct filter_arg *arg)
2314 char *str = NULL;
2316 switch (arg->type) {
2317 case FILTER_ARG_BOOLEAN:
2318 asprintf(&str, arg->boolean.value ? "TRUE" : "FALSE");
2319 return str;
2321 case FILTER_ARG_OP:
2322 return op_to_str(filter, arg);
2324 case FILTER_ARG_NUM:
2325 return num_to_str(filter, arg);
2327 case FILTER_ARG_STR:
2328 return str_to_str(filter, arg);
2330 case FILTER_ARG_VALUE:
2331 return val_to_str(filter, arg);
2333 case FILTER_ARG_FIELD:
2334 return field_to_str(filter, arg);
2336 case FILTER_ARG_EXP:
2337 return exp_to_str(filter, arg);
2339 default:
2340 /* ?? */
2341 return NULL;
2347 * pevent_filter_make_string - return a string showing the filter
2348 * @filter: filter struct with filter information
2349 * @event_id: the event id to return the filter string with
2351 * Returns a string that displays the filter contents.
2352 * This string must be freed with free(str).
2353 * NULL is returned if no filter is found or allocation failed.
2355 char *
2356 pevent_filter_make_string(struct event_filter *filter, int event_id)
2358 struct filter_type *filter_type;
2360 if (!filter->filters)
2361 return NULL;
2363 filter_type = find_filter_type(filter, event_id);
2365 if (!filter_type)
2366 return NULL;
2368 return arg_to_str(filter, filter_type->filter);
2372 * pevent_filter_compare - compare two filters and return if they are the same
2373 * @filter1: Filter to compare with @filter2
2374 * @filter2: Filter to compare with @filter1
2376 * Returns:
2377 * 1 if the two filters hold the same content.
2378 * 0 if they do not.
2380 int pevent_filter_compare(struct event_filter *filter1, struct event_filter *filter2)
2382 struct filter_type *filter_type1;
2383 struct filter_type *filter_type2;
2384 char *str1, *str2;
2385 int result;
2386 int i;
2388 /* Do the easy checks first */
2389 if (filter1->filters != filter2->filters)
2390 return 0;
2391 if (!filter1->filters && !filter2->filters)
2392 return 1;
2395 * Now take a look at each of the events to see if they have the same
2396 * filters to them.
2398 for (i = 0; i < filter1->filters; i++) {
2399 filter_type1 = &filter1->event_filters[i];
2400 filter_type2 = find_filter_type(filter2, filter_type1->event_id);
2401 if (!filter_type2)
2402 break;
2403 if (filter_type1->filter->type != filter_type2->filter->type)
2404 break;
2405 switch (filter_type1->filter->type) {
2406 case FILTER_TRIVIAL_FALSE:
2407 case FILTER_TRIVIAL_TRUE:
2408 /* trivial types just need the type compared */
2409 continue;
2410 default:
2411 break;
2413 /* The best way to compare complex filters is with strings */
2414 str1 = arg_to_str(filter1, filter_type1->filter);
2415 str2 = arg_to_str(filter2, filter_type2->filter);
2416 if (str1 && str2)
2417 result = strcmp(str1, str2) != 0;
2418 else
2419 /* bail out if allocation fails */
2420 result = 1;
2422 free(str1);
2423 free(str2);
2424 if (result)
2425 break;
2428 if (i < filter1->filters)
2429 return 0;
2430 return 1;