tjh.dev / kernel
Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
kernel os linux
fork atom
kernel / tools / lib / traceevent / event-parse.c
at v3.5-rc2 110 kB view raw
1/* 2 * Copyright (C) 2009, 2010 Red Hat Inc, Steven Rostedt <srostedt@redhat.com> 3 * 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!) 9 * 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. 14 * 15 * You should have received a copy of the GNU Lesser General Public 16 * License along with this program; if not, write to the Free Software 17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. 18 * 19 * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 20 * 21 * The parts for function graph printing was taken and modified from the 22 * Linux Kernel that were written by 23 * - Copyright (C) 2009 Frederic Weisbecker, 24 * Frederic Weisbecker gave his permission to relicense the code to 25 * the Lesser General Public License. 26 */ 27#define _GNU_SOURCE 28#include <stdio.h> 29#include <stdlib.h> 30#include <string.h> 31#include <stdarg.h> 32#include <ctype.h> 33#include <errno.h> 34 35#include "event-parse.h" 36#include "event-utils.h" 37 38static const char *input_buf; 39static unsigned long long input_buf_ptr; 40static unsigned long long input_buf_siz; 41 42static int is_flag_field; 43static int is_symbolic_field; 44 45static int show_warning = 1; 46 47#define do_warning(fmt, ...) \ 48 do { \ 49 if (show_warning) \ 50 warning(fmt, ##__VA_ARGS__); \ 51 } while (0) 52 53static void init_input_buf(const char *buf, unsigned long long size) 54{ 55 input_buf = buf; 56 input_buf_siz = size; 57 input_buf_ptr = 0; 58} 59 60const char *pevent_get_input_buf(void) 61{ 62 return input_buf; 63} 64 65unsigned long long pevent_get_input_buf_ptr(void) 66{ 67 return input_buf_ptr; 68} 69 70struct event_handler { 71 struct event_handler *next; 72 int id; 73 const char *sys_name; 74 const char *event_name; 75 pevent_event_handler_func func; 76 void *context; 77}; 78 79struct pevent_func_params { 80 struct pevent_func_params *next; 81 enum pevent_func_arg_type type; 82}; 83 84struct pevent_function_handler { 85 struct pevent_function_handler *next; 86 enum pevent_func_arg_type ret_type; 87 char *name; 88 pevent_func_handler func; 89 struct pevent_func_params *params; 90 int nr_args; 91}; 92 93static unsigned long long 94process_defined_func(struct trace_seq *s, void *data, int size, 95 struct event_format *event, struct print_arg *arg); 96 97static void free_func_handle(struct pevent_function_handler *func); 98 99/** 100 * pevent_buffer_init - init buffer for parsing 101 * @buf: buffer to parse 102 * @size: the size of the buffer 103 * 104 * For use with pevent_read_token(), this initializes the internal 105 * buffer that pevent_read_token() will parse. 106 */ 107void pevent_buffer_init(const char *buf, unsigned long long size) 108{ 109 init_input_buf(buf, size); 110} 111 112void breakpoint(void) 113{ 114 static int x; 115 x++; 116} 117 118struct print_arg *alloc_arg(void) 119{ 120 struct print_arg *arg; 121 122 arg = malloc_or_die(sizeof(*arg)); 123 if (!arg) 124 return NULL; 125 memset(arg, 0, sizeof(*arg)); 126 127 return arg; 128} 129 130struct cmdline { 131 char *comm; 132 int pid; 133}; 134 135static int cmdline_cmp(const void *a, const void *b) 136{ 137 const struct cmdline *ca = a; 138 const struct cmdline *cb = b; 139 140 if (ca->pid < cb->pid) 141 return -1; 142 if (ca->pid > cb->pid) 143 return 1; 144 145 return 0; 146} 147 148struct cmdline_list { 149 struct cmdline_list *next; 150 char *comm; 151 int pid; 152}; 153 154static int cmdline_init(struct pevent *pevent) 155{ 156 struct cmdline_list *cmdlist = pevent->cmdlist; 157 struct cmdline_list *item; 158 struct cmdline *cmdlines; 159 int i; 160 161 cmdlines = malloc_or_die(sizeof(*cmdlines) * pevent->cmdline_count); 162 163 i = 0; 164 while (cmdlist) { 165 cmdlines[i].pid = cmdlist->pid; 166 cmdlines[i].comm = cmdlist->comm; 167 i++; 168 item = cmdlist; 169 cmdlist = cmdlist->next; 170 free(item); 171 } 172 173 qsort(cmdlines, pevent->cmdline_count, sizeof(*cmdlines), cmdline_cmp); 174 175 pevent->cmdlines = cmdlines; 176 pevent->cmdlist = NULL; 177 178 return 0; 179} 180 181static char *find_cmdline(struct pevent *pevent, int pid) 182{ 183 const struct cmdline *comm; 184 struct cmdline key; 185 186 if (!pid) 187 return "<idle>"; 188 189 if (!pevent->cmdlines) 190 cmdline_init(pevent); 191 192 key.pid = pid; 193 194 comm = bsearch(&key, pevent->cmdlines, pevent->cmdline_count, 195 sizeof(*pevent->cmdlines), cmdline_cmp); 196 197 if (comm) 198 return comm->comm; 199 return "<...>"; 200} 201 202/** 203 * pevent_pid_is_registered - return if a pid has a cmdline registered 204 * @pevent: handle for the pevent 205 * @pid: The pid to check if it has a cmdline registered with. 206 * 207 * Returns 1 if the pid has a cmdline mapped to it 208 * 0 otherwise. 209 */ 210int pevent_pid_is_registered(struct pevent *pevent, int pid) 211{ 212 const struct cmdline *comm; 213 struct cmdline key; 214 215 if (!pid) 216 return 1; 217 218 if (!pevent->cmdlines) 219 cmdline_init(pevent); 220 221 key.pid = pid; 222 223 comm = bsearch(&key, pevent->cmdlines, pevent->cmdline_count, 224 sizeof(*pevent->cmdlines), cmdline_cmp); 225 226 if (comm) 227 return 1; 228 return 0; 229} 230 231/* 232 * If the command lines have been converted to an array, then 233 * we must add this pid. This is much slower than when cmdlines 234 * are added before the array is initialized. 235 */ 236static int add_new_comm(struct pevent *pevent, const char *comm, int pid) 237{ 238 struct cmdline *cmdlines = pevent->cmdlines; 239 const struct cmdline *cmdline; 240 struct cmdline key; 241 242 if (!pid) 243 return 0; 244 245 /* avoid duplicates */ 246 key.pid = pid; 247 248 cmdline = bsearch(&key, pevent->cmdlines, pevent->cmdline_count, 249 sizeof(*pevent->cmdlines), cmdline_cmp); 250 if (cmdline) { 251 errno = EEXIST; 252 return -1; 253 } 254 255 cmdlines = realloc(cmdlines, sizeof(*cmdlines) * (pevent->cmdline_count + 1)); 256 if (!cmdlines) { 257 errno = ENOMEM; 258 return -1; 259 } 260 261 cmdlines[pevent->cmdline_count].pid = pid; 262 cmdlines[pevent->cmdline_count].comm = strdup(comm); 263 if (!cmdlines[pevent->cmdline_count].comm) 264 die("malloc comm"); 265 266 if (cmdlines[pevent->cmdline_count].comm) 267 pevent->cmdline_count++; 268 269 qsort(cmdlines, pevent->cmdline_count, sizeof(*cmdlines), cmdline_cmp); 270 pevent->cmdlines = cmdlines; 271 272 return 0; 273} 274 275/** 276 * pevent_register_comm - register a pid / comm mapping 277 * @pevent: handle for the pevent 278 * @comm: the command line to register 279 * @pid: the pid to map the command line to 280 * 281 * This adds a mapping to search for command line names with 282 * a given pid. The comm is duplicated. 283 */ 284int pevent_register_comm(struct pevent *pevent, const char *comm, int pid) 285{ 286 struct cmdline_list *item; 287 288 if (pevent->cmdlines) 289 return add_new_comm(pevent, comm, pid); 290 291 item = malloc_or_die(sizeof(*item)); 292 item->comm = strdup(comm); 293 if (!item->comm) 294 die("malloc comm"); 295 item->pid = pid; 296 item->next = pevent->cmdlist; 297 298 pevent->cmdlist = item; 299 pevent->cmdline_count++; 300 301 return 0; 302} 303 304struct func_map { 305 unsigned long long addr; 306 char *func; 307 char *mod; 308}; 309 310struct func_list { 311 struct func_list *next; 312 unsigned long long addr; 313 char *func; 314 char *mod; 315}; 316 317static int func_cmp(const void *a, const void *b) 318{ 319 const struct func_map *fa = a; 320 const struct func_map *fb = b; 321 322 if (fa->addr < fb->addr) 323 return -1; 324 if (fa->addr > fb->addr) 325 return 1; 326 327 return 0; 328} 329 330/* 331 * We are searching for a record in between, not an exact 332 * match. 333 */ 334static int func_bcmp(const void *a, const void *b) 335{ 336 const struct func_map *fa = a; 337 const struct func_map *fb = b; 338 339 if ((fa->addr == fb->addr) || 340 341 (fa->addr > fb->addr && 342 fa->addr < (fb+1)->addr)) 343 return 0; 344 345 if (fa->addr < fb->addr) 346 return -1; 347 348 return 1; 349} 350 351static int func_map_init(struct pevent *pevent) 352{ 353 struct func_list *funclist; 354 struct func_list *item; 355 struct func_map *func_map; 356 int i; 357 358 func_map = malloc_or_die(sizeof(*func_map) * (pevent->func_count + 1)); 359 funclist = pevent->funclist; 360 361 i = 0; 362 while (funclist) { 363 func_map[i].func = funclist->func; 364 func_map[i].addr = funclist->addr; 365 func_map[i].mod = funclist->mod; 366 i++; 367 item = funclist; 368 funclist = funclist->next; 369 free(item); 370 } 371 372 qsort(func_map, pevent->func_count, sizeof(*func_map), func_cmp); 373 374 /* 375 * Add a special record at the end. 376 */ 377 func_map[pevent->func_count].func = NULL; 378 func_map[pevent->func_count].addr = 0; 379 func_map[pevent->func_count].mod = NULL; 380 381 pevent->func_map = func_map; 382 pevent->funclist = NULL; 383 384 return 0; 385} 386 387static struct func_map * 388find_func(struct pevent *pevent, unsigned long long addr) 389{ 390 struct func_map *func; 391 struct func_map key; 392 393 if (!pevent->func_map) 394 func_map_init(pevent); 395 396 key.addr = addr; 397 398 func = bsearch(&key, pevent->func_map, pevent->func_count, 399 sizeof(*pevent->func_map), func_bcmp); 400 401 return func; 402} 403 404/** 405 * pevent_find_function - find a function by a given address 406 * @pevent: handle for the pevent 407 * @addr: the address to find the function with 408 * 409 * Returns a pointer to the function stored that has the given 410 * address. Note, the address does not have to be exact, it 411 * will select the function that would contain the address. 412 */ 413const char *pevent_find_function(struct pevent *pevent, unsigned long long addr) 414{ 415 struct func_map *map; 416 417 map = find_func(pevent, addr); 418 if (!map) 419 return NULL; 420 421 return map->func; 422} 423 424/** 425 * pevent_find_function_address - find a function address by a given address 426 * @pevent: handle for the pevent 427 * @addr: the address to find the function with 428 * 429 * Returns the address the function starts at. This can be used in 430 * conjunction with pevent_find_function to print both the function 431 * name and the function offset. 432 */ 433unsigned long long 434pevent_find_function_address(struct pevent *pevent, unsigned long long addr) 435{ 436 struct func_map *map; 437 438 map = find_func(pevent, addr); 439 if (!map) 440 return 0; 441 442 return map->addr; 443} 444 445/** 446 * pevent_register_function - register a function with a given address 447 * @pevent: handle for the pevent 448 * @function: the function name to register 449 * @addr: the address the function starts at 450 * @mod: the kernel module the function may be in (NULL for none) 451 * 452 * This registers a function name with an address and module. 453 * The @func passed in is duplicated. 454 */ 455int pevent_register_function(struct pevent *pevent, char *func, 456 unsigned long long addr, char *mod) 457{ 458 struct func_list *item; 459 460 item = malloc_or_die(sizeof(*item)); 461 462 item->next = pevent->funclist; 463 item->func = strdup(func); 464 if (mod) 465 item->mod = strdup(mod); 466 else 467 item->mod = NULL; 468 item->addr = addr; 469 470 pevent->funclist = item; 471 472 pevent->func_count++; 473 474 return 0; 475} 476 477/** 478 * pevent_print_funcs - print out the stored functions 479 * @pevent: handle for the pevent 480 * 481 * This prints out the stored functions. 482 */ 483void pevent_print_funcs(struct pevent *pevent) 484{ 485 int i; 486 487 if (!pevent->func_map) 488 func_map_init(pevent); 489 490 for (i = 0; i < (int)pevent->func_count; i++) { 491 printf("%016llx %s", 492 pevent->func_map[i].addr, 493 pevent->func_map[i].func); 494 if (pevent->func_map[i].mod) 495 printf(" [%s]\n", pevent->func_map[i].mod); 496 else 497 printf("\n"); 498 } 499} 500 501struct printk_map { 502 unsigned long long addr; 503 char *printk; 504}; 505 506struct printk_list { 507 struct printk_list *next; 508 unsigned long long addr; 509 char *printk; 510}; 511 512static int printk_cmp(const void *a, const void *b) 513{ 514 const struct func_map *fa = a; 515 const struct func_map *fb = b; 516 517 if (fa->addr < fb->addr) 518 return -1; 519 if (fa->addr > fb->addr) 520 return 1; 521 522 return 0; 523} 524 525static void printk_map_init(struct pevent *pevent) 526{ 527 struct printk_list *printklist; 528 struct printk_list *item; 529 struct printk_map *printk_map; 530 int i; 531 532 printk_map = malloc_or_die(sizeof(*printk_map) * (pevent->printk_count + 1)); 533 534 printklist = pevent->printklist; 535 536 i = 0; 537 while (printklist) { 538 printk_map[i].printk = printklist->printk; 539 printk_map[i].addr = printklist->addr; 540 i++; 541 item = printklist; 542 printklist = printklist->next; 543 free(item); 544 } 545 546 qsort(printk_map, pevent->printk_count, sizeof(*printk_map), printk_cmp); 547 548 pevent->printk_map = printk_map; 549 pevent->printklist = NULL; 550} 551 552static struct printk_map * 553find_printk(struct pevent *pevent, unsigned long long addr) 554{ 555 struct printk_map *printk; 556 struct printk_map key; 557 558 if (!pevent->printk_map) 559 printk_map_init(pevent); 560 561 key.addr = addr; 562 563 printk = bsearch(&key, pevent->printk_map, pevent->printk_count, 564 sizeof(*pevent->printk_map), printk_cmp); 565 566 return printk; 567} 568 569/** 570 * pevent_register_print_string - register a string by its address 571 * @pevent: handle for the pevent 572 * @fmt: the string format to register 573 * @addr: the address the string was located at 574 * 575 * This registers a string by the address it was stored in the kernel. 576 * The @fmt passed in is duplicated. 577 */ 578int pevent_register_print_string(struct pevent *pevent, char *fmt, 579 unsigned long long addr) 580{ 581 struct printk_list *item; 582 583 item = malloc_or_die(sizeof(*item)); 584 585 item->next = pevent->printklist; 586 pevent->printklist = item; 587 item->printk = strdup(fmt); 588 item->addr = addr; 589 590 pevent->printk_count++; 591 592 return 0; 593} 594 595/** 596 * pevent_print_printk - print out the stored strings 597 * @pevent: handle for the pevent 598 * 599 * This prints the string formats that were stored. 600 */ 601void pevent_print_printk(struct pevent *pevent) 602{ 603 int i; 604 605 if (!pevent->printk_map) 606 printk_map_init(pevent); 607 608 for (i = 0; i < (int)pevent->printk_count; i++) { 609 printf("%016llx %s\n", 610 pevent->printk_map[i].addr, 611 pevent->printk_map[i].printk); 612 } 613} 614 615static struct event_format *alloc_event(void) 616{ 617 struct event_format *event; 618 619 event = malloc_or_die(sizeof(*event)); 620 memset(event, 0, sizeof(*event)); 621 622 return event; 623} 624 625static void add_event(struct pevent *pevent, struct event_format *event) 626{ 627 int i; 628 629 if (!pevent->events) 630 pevent->events = malloc_or_die(sizeof(event)); 631 else 632 pevent->events = 633 realloc(pevent->events, sizeof(event) * 634 (pevent->nr_events + 1)); 635 if (!pevent->events) 636 die("Can not allocate events"); 637 638 for (i = 0; i < pevent->nr_events; i++) { 639 if (pevent->events[i]->id > event->id) 640 break; 641 } 642 if (i < pevent->nr_events) 643 memmove(&pevent->events[i + 1], 644 &pevent->events[i], 645 sizeof(event) * (pevent->nr_events - i)); 646 647 pevent->events[i] = event; 648 pevent->nr_events++; 649 650 event->pevent = pevent; 651} 652 653static int event_item_type(enum event_type type) 654{ 655 switch (type) { 656 case EVENT_ITEM ... EVENT_SQUOTE: 657 return 1; 658 case EVENT_ERROR ... EVENT_DELIM: 659 default: 660 return 0; 661 } 662} 663 664static void free_flag_sym(struct print_flag_sym *fsym) 665{ 666 struct print_flag_sym *next; 667 668 while (fsym) { 669 next = fsym->next; 670 free(fsym->value); 671 free(fsym->str); 672 free(fsym); 673 fsym = next; 674 } 675} 676 677static void free_arg(struct print_arg *arg) 678{ 679 struct print_arg *farg; 680 681 if (!arg) 682 return; 683 684 switch (arg->type) { 685 case PRINT_ATOM: 686 free(arg->atom.atom); 687 break; 688 case PRINT_FIELD: 689 free(arg->field.name); 690 break; 691 case PRINT_FLAGS: 692 free_arg(arg->flags.field); 693 free(arg->flags.delim); 694 free_flag_sym(arg->flags.flags); 695 break; 696 case PRINT_SYMBOL: 697 free_arg(arg->symbol.field); 698 free_flag_sym(arg->symbol.symbols); 699 break; 700 case PRINT_TYPE: 701 free(arg->typecast.type); 702 free_arg(arg->typecast.item); 703 break; 704 case PRINT_STRING: 705 case PRINT_BSTRING: 706 free(arg->string.string); 707 break; 708 case PRINT_DYNAMIC_ARRAY: 709 free(arg->dynarray.index); 710 break; 711 case PRINT_OP: 712 free(arg->op.op); 713 free_arg(arg->op.left); 714 free_arg(arg->op.right); 715 break; 716 case PRINT_FUNC: 717 while (arg->func.args) { 718 farg = arg->func.args; 719 arg->func.args = farg->next; 720 free_arg(farg); 721 } 722 break; 723 724 case PRINT_NULL: 725 default: 726 break; 727 } 728 729 free(arg); 730} 731 732static enum event_type get_type(int ch) 733{ 734 if (ch == '\n') 735 return EVENT_NEWLINE; 736 if (isspace(ch)) 737 return EVENT_SPACE; 738 if (isalnum(ch) || ch == '_') 739 return EVENT_ITEM; 740 if (ch == '\'') 741 return EVENT_SQUOTE; 742 if (ch == '"') 743 return EVENT_DQUOTE; 744 if (!isprint(ch)) 745 return EVENT_NONE; 746 if (ch == '(' || ch == ')' || ch == ',') 747 return EVENT_DELIM; 748 749 return EVENT_OP; 750} 751 752static int __read_char(void) 753{ 754 if (input_buf_ptr >= input_buf_siz) 755 return -1; 756 757 return input_buf[input_buf_ptr++]; 758} 759 760static int __peek_char(void) 761{ 762 if (input_buf_ptr >= input_buf_siz) 763 return -1; 764 765 return input_buf[input_buf_ptr]; 766} 767 768/** 769 * pevent_peek_char - peek at the next character that will be read 770 * 771 * Returns the next character read, or -1 if end of buffer. 772 */ 773int pevent_peek_char(void) 774{ 775 return __peek_char(); 776} 777 778static enum event_type force_token(const char *str, char **tok); 779 780static enum event_type __read_token(char **tok) 781{ 782 char buf[BUFSIZ]; 783 int ch, last_ch, quote_ch, next_ch; 784 int i = 0; 785 int tok_size = 0; 786 enum event_type type; 787 788 *tok = NULL; 789 790 791 ch = __read_char(); 792 if (ch < 0) 793 return EVENT_NONE; 794 795 type = get_type(ch); 796 if (type == EVENT_NONE) 797 return type; 798 799 buf[i++] = ch; 800 801 switch (type) { 802 case EVENT_NEWLINE: 803 case EVENT_DELIM: 804 *tok = malloc_or_die(2); 805 (*tok)[0] = ch; 806 (*tok)[1] = 0; 807 return type; 808 809 case EVENT_OP: 810 switch (ch) { 811 case '-': 812 next_ch = __peek_char(); 813 if (next_ch == '>') { 814 buf[i++] = __read_char(); 815 break; 816 } 817 /* fall through */ 818 case '+': 819 case '|': 820 case '&': 821 case '>': 822 case '<': 823 last_ch = ch; 824 ch = __peek_char(); 825 if (ch != last_ch) 826 goto test_equal; 827 buf[i++] = __read_char(); 828 switch (last_ch) { 829 case '>': 830 case '<': 831 goto test_equal; 832 default: 833 break; 834 } 835 break; 836 case '!': 837 case '=': 838 goto test_equal; 839 default: /* what should we do instead? */ 840 break; 841 } 842 buf[i] = 0; 843 *tok = strdup(buf); 844 return type; 845 846 test_equal: 847 ch = __peek_char(); 848 if (ch == '=') 849 buf[i++] = __read_char(); 850 goto out; 851 852 case EVENT_DQUOTE: 853 case EVENT_SQUOTE: 854 /* don't keep quotes */ 855 i--; 856 quote_ch = ch; 857 last_ch = 0; 858 concat: 859 do { 860 if (i == (BUFSIZ - 1)) { 861 buf[i] = 0; 862 if (*tok) { 863 *tok = realloc(*tok, tok_size + BUFSIZ); 864 if (!*tok) 865 return EVENT_NONE; 866 strcat(*tok, buf); 867 } else 868 *tok = strdup(buf); 869 870 if (!*tok) 871 return EVENT_NONE; 872 tok_size += BUFSIZ; 873 i = 0; 874 } 875 last_ch = ch; 876 ch = __read_char(); 877 buf[i++] = ch; 878 /* the '\' '\' will cancel itself */ 879 if (ch == '\\' && last_ch == '\\') 880 last_ch = 0; 881 } while (ch != quote_ch || last_ch == '\\'); 882 /* remove the last quote */ 883 i--; 884 885 /* 886 * For strings (double quotes) check the next token. 887 * If it is another string, concatinate the two. 888 */ 889 if (type == EVENT_DQUOTE) { 890 unsigned long long save_input_buf_ptr = input_buf_ptr; 891 892 do { 893 ch = __read_char(); 894 } while (isspace(ch)); 895 if (ch == '"') 896 goto concat; 897 input_buf_ptr = save_input_buf_ptr; 898 } 899 900 goto out; 901 902 case EVENT_ERROR ... EVENT_SPACE: 903 case EVENT_ITEM: 904 default: 905 break; 906 } 907 908 while (get_type(__peek_char()) == type) { 909 if (i == (BUFSIZ - 1)) { 910 buf[i] = 0; 911 if (*tok) { 912 *tok = realloc(*tok, tok_size + BUFSIZ); 913 if (!*tok) 914 return EVENT_NONE; 915 strcat(*tok, buf); 916 } else 917 *tok = strdup(buf); 918 919 if (!*tok) 920 return EVENT_NONE; 921 tok_size += BUFSIZ; 922 i = 0; 923 } 924 ch = __read_char(); 925 buf[i++] = ch; 926 } 927 928 out: 929 buf[i] = 0; 930 if (*tok) { 931 *tok = realloc(*tok, tok_size + i); 932 if (!*tok) 933 return EVENT_NONE; 934 strcat(*tok, buf); 935 } else 936 *tok = strdup(buf); 937 if (!*tok) 938 return EVENT_NONE; 939 940 if (type == EVENT_ITEM) { 941 /* 942 * Older versions of the kernel has a bug that 943 * creates invalid symbols and will break the mac80211 944 * parsing. This is a work around to that bug. 945 * 946 * See Linux kernel commit: 947 * 811cb50baf63461ce0bdb234927046131fc7fa8b 948 */ 949 if (strcmp(*tok, "LOCAL_PR_FMT") == 0) { 950 free(*tok); 951 *tok = NULL; 952 return force_token("\"\%s\" ", tok); 953 } else if (strcmp(*tok, "STA_PR_FMT") == 0) { 954 free(*tok); 955 *tok = NULL; 956 return force_token("\" sta:%pM\" ", tok); 957 } else if (strcmp(*tok, "VIF_PR_FMT") == 0) { 958 free(*tok); 959 *tok = NULL; 960 return force_token("\" vif:%p(%d)\" ", tok); 961 } 962 } 963 964 return type; 965} 966 967static enum event_type force_token(const char *str, char **tok) 968{ 969 const char *save_input_buf; 970 unsigned long long save_input_buf_ptr; 971 unsigned long long save_input_buf_siz; 972 enum event_type type; 973 974 /* save off the current input pointers */ 975 save_input_buf = input_buf; 976 save_input_buf_ptr = input_buf_ptr; 977 save_input_buf_siz = input_buf_siz; 978 979 init_input_buf(str, strlen(str)); 980 981 type = __read_token(tok); 982 983 /* reset back to original token */ 984 input_buf = save_input_buf; 985 input_buf_ptr = save_input_buf_ptr; 986 input_buf_siz = save_input_buf_siz; 987 988 return type; 989} 990 991static void free_token(char *tok) 992{ 993 if (tok) 994 free(tok); 995} 996 997static enum event_type read_token(char **tok) 998{ 999 enum event_type type; 1000 1001 for (;;) { 1002 type = __read_token(tok); 1003 if (type != EVENT_SPACE) 1004 return type; 1005 1006 free_token(*tok); 1007 } 1008 1009 /* not reached */ 1010 *tok = NULL; 1011 return EVENT_NONE; 1012} 1013 1014/** 1015 * pevent_read_token - access to utilites to use the pevent parser 1016 * @tok: The token to return 1017 * 1018 * This will parse tokens from the string given by 1019 * pevent_init_data(). 1020 * 1021 * Returns the token type. 1022 */ 1023enum event_type pevent_read_token(char **tok) 1024{ 1025 return read_token(tok); 1026} 1027 1028/** 1029 * pevent_free_token - free a token returned by pevent_read_token 1030 * @token: the token to free 1031 */ 1032void pevent_free_token(char *token) 1033{ 1034 free_token(token); 1035} 1036 1037/* no newline */ 1038static enum event_type read_token_item(char **tok) 1039{ 1040 enum event_type type; 1041 1042 for (;;) { 1043 type = __read_token(tok); 1044 if (type != EVENT_SPACE && type != EVENT_NEWLINE) 1045 return type; 1046 free_token(*tok); 1047 *tok = NULL; 1048 } 1049 1050 /* not reached */ 1051 *tok = NULL; 1052 return EVENT_NONE; 1053} 1054 1055static int test_type(enum event_type type, enum event_type expect) 1056{ 1057 if (type != expect) { 1058 do_warning("Error: expected type %d but read %d", 1059 expect, type); 1060 return -1; 1061 } 1062 return 0; 1063} 1064 1065static int test_type_token(enum event_type type, const char *token, 1066 enum event_type expect, const char *expect_tok) 1067{ 1068 if (type != expect) { 1069 do_warning("Error: expected type %d but read %d", 1070 expect, type); 1071 return -1; 1072 } 1073 1074 if (strcmp(token, expect_tok) != 0) { 1075 do_warning("Error: expected '%s' but read '%s'", 1076 expect_tok, token); 1077 return -1; 1078 } 1079 return 0; 1080} 1081 1082static int __read_expect_type(enum event_type expect, char **tok, int newline_ok) 1083{ 1084 enum event_type type; 1085 1086 if (newline_ok) 1087 type = read_token(tok); 1088 else 1089 type = read_token_item(tok); 1090 return test_type(type, expect); 1091} 1092 1093static int read_expect_type(enum event_type expect, char **tok) 1094{ 1095 return __read_expect_type(expect, tok, 1); 1096} 1097 1098static int __read_expected(enum event_type expect, const char *str, 1099 int newline_ok) 1100{ 1101 enum event_type type; 1102 char *token; 1103 int ret; 1104 1105 if (newline_ok) 1106 type = read_token(&token); 1107 else 1108 type = read_token_item(&token); 1109 1110 ret = test_type_token(type, token, expect, str); 1111 1112 free_token(token); 1113 1114 return ret; 1115} 1116 1117static int read_expected(enum event_type expect, const char *str) 1118{ 1119 return __read_expected(expect, str, 1); 1120} 1121 1122static int read_expected_item(enum event_type expect, const char *str) 1123{ 1124 return __read_expected(expect, str, 0); 1125} 1126 1127static char *event_read_name(void) 1128{ 1129 char *token; 1130 1131 if (read_expected(EVENT_ITEM, "name") < 0) 1132 return NULL; 1133 1134 if (read_expected(EVENT_OP, ":") < 0) 1135 return NULL; 1136 1137 if (read_expect_type(EVENT_ITEM, &token) < 0) 1138 goto fail; 1139 1140 return token; 1141 1142 fail: 1143 free_token(token); 1144 return NULL; 1145} 1146 1147static int event_read_id(void) 1148{ 1149 char *token; 1150 int id; 1151 1152 if (read_expected_item(EVENT_ITEM, "ID") < 0) 1153 return -1; 1154 1155 if (read_expected(EVENT_OP, ":") < 0) 1156 return -1; 1157 1158 if (read_expect_type(EVENT_ITEM, &token) < 0) 1159 goto fail; 1160 1161 id = strtoul(token, NULL, 0); 1162 free_token(token); 1163 return id; 1164 1165 fail: 1166 free_token(token); 1167 return -1; 1168} 1169 1170static int field_is_string(struct format_field *field) 1171{ 1172 if ((field->flags & FIELD_IS_ARRAY) && 1173 (strstr(field->type, "char") || strstr(field->type, "u8") || 1174 strstr(field->type, "s8"))) 1175 return 1; 1176 1177 return 0; 1178} 1179 1180static int field_is_dynamic(struct format_field *field) 1181{ 1182 if (strncmp(field->type, "__data_loc", 10) == 0) 1183 return 1; 1184 1185 return 0; 1186} 1187 1188static int field_is_long(struct format_field *field) 1189{ 1190 /* includes long long */ 1191 if (strstr(field->type, "long")) 1192 return 1; 1193 1194 return 0; 1195} 1196 1197static int event_read_fields(struct event_format *event, struct format_field **fields) 1198{ 1199 struct format_field *field = NULL; 1200 enum event_type type; 1201 char *token; 1202 char *last_token; 1203 int count = 0; 1204 1205 do { 1206 type = read_token(&token); 1207 if (type == EVENT_NEWLINE) { 1208 free_token(token); 1209 return count; 1210 } 1211 1212 count++; 1213 1214 if (test_type_token(type, token, EVENT_ITEM, "field")) 1215 goto fail; 1216 free_token(token); 1217 1218 type = read_token(&token); 1219 /* 1220 * The ftrace fields may still use the "special" name. 1221 * Just ignore it. 1222 */ 1223 if (event->flags & EVENT_FL_ISFTRACE && 1224 type == EVENT_ITEM && strcmp(token, "special") == 0) { 1225 free_token(token); 1226 type = read_token(&token); 1227 } 1228 1229 if (test_type_token(type, token, EVENT_OP, ":") < 0) 1230 goto fail; 1231 1232 free_token(token); 1233 if (read_expect_type(EVENT_ITEM, &token) < 0) 1234 goto fail; 1235 1236 last_token = token; 1237 1238 field = malloc_or_die(sizeof(*field)); 1239 memset(field, 0, sizeof(*field)); 1240 field->event = event; 1241 1242 /* read the rest of the type */ 1243 for (;;) { 1244 type = read_token(&token); 1245 if (type == EVENT_ITEM || 1246 (type == EVENT_OP && strcmp(token, "*") == 0) || 1247 /* 1248 * Some of the ftrace fields are broken and have 1249 * an illegal "." in them. 1250 */ 1251 (event->flags & EVENT_FL_ISFTRACE && 1252 type == EVENT_OP && strcmp(token, ".") == 0)) { 1253 1254 if (strcmp(token, "*") == 0) 1255 field->flags |= FIELD_IS_POINTER; 1256 1257 if (field->type) { 1258 field->type = realloc(field->type, 1259 strlen(field->type) + 1260 strlen(last_token) + 2); 1261 strcat(field->type, " "); 1262 strcat(field->type, last_token); 1263 free(last_token); 1264 } else 1265 field->type = last_token; 1266 last_token = token; 1267 continue; 1268 } 1269 1270 break; 1271 } 1272 1273 if (!field->type) { 1274 die("no type found"); 1275 goto fail; 1276 } 1277 field->name = last_token; 1278 1279 if (test_type(type, EVENT_OP)) 1280 goto fail; 1281 1282 if (strcmp(token, "[") == 0) { 1283 enum event_type last_type = type; 1284 char *brackets = token; 1285 int len; 1286 1287 field->flags |= FIELD_IS_ARRAY; 1288 1289 type = read_token(&token); 1290 1291 if (type == EVENT_ITEM) 1292 field->arraylen = strtoul(token, NULL, 0); 1293 else 1294 field->arraylen = 0; 1295 1296 while (strcmp(token, "]") != 0) { 1297 if (last_type == EVENT_ITEM && 1298 type == EVENT_ITEM) 1299 len = 2; 1300 else 1301 len = 1; 1302 last_type = type; 1303 1304 brackets = realloc(brackets, 1305 strlen(brackets) + 1306 strlen(token) + len); 1307 if (len == 2) 1308 strcat(brackets, " "); 1309 strcat(brackets, token); 1310 /* We only care about the last token */ 1311 field->arraylen = strtoul(token, NULL, 0); 1312 free_token(token); 1313 type = read_token(&token); 1314 if (type == EVENT_NONE) { 1315 die("failed to find token"); 1316 goto fail; 1317 } 1318 } 1319 1320 free_token(token); 1321 1322 brackets = realloc(brackets, strlen(brackets) + 2); 1323 strcat(brackets, "]"); 1324 1325 /* add brackets to type */ 1326 1327 type = read_token(&token); 1328 /* 1329 * If the next token is not an OP, then it is of 1330 * the format: type [] item; 1331 */ 1332 if (type == EVENT_ITEM) { 1333 field->type = realloc(field->type, 1334 strlen(field->type) + 1335 strlen(field->name) + 1336 strlen(brackets) + 2); 1337 strcat(field->type, " "); 1338 strcat(field->type, field->name); 1339 free_token(field->name); 1340 strcat(field->type, brackets); 1341 field->name = token; 1342 type = read_token(&token); 1343 } else { 1344 field->type = realloc(field->type, 1345 strlen(field->type) + 1346 strlen(brackets) + 1); 1347 strcat(field->type, brackets); 1348 } 1349 free(brackets); 1350 } 1351 1352 if (field_is_string(field)) 1353 field->flags |= FIELD_IS_STRING; 1354 if (field_is_dynamic(field)) 1355 field->flags |= FIELD_IS_DYNAMIC; 1356 if (field_is_long(field)) 1357 field->flags |= FIELD_IS_LONG; 1358 1359 if (test_type_token(type, token, EVENT_OP, ";")) 1360 goto fail; 1361 free_token(token); 1362 1363 if (read_expected(EVENT_ITEM, "offset") < 0) 1364 goto fail_expect; 1365 1366 if (read_expected(EVENT_OP, ":") < 0) 1367 goto fail_expect; 1368 1369 if (read_expect_type(EVENT_ITEM, &token)) 1370 goto fail; 1371 field->offset = strtoul(token, NULL, 0); 1372 free_token(token); 1373 1374 if (read_expected(EVENT_OP, ";") < 0) 1375 goto fail_expect; 1376 1377 if (read_expected(EVENT_ITEM, "size") < 0) 1378 goto fail_expect; 1379 1380 if (read_expected(EVENT_OP, ":") < 0) 1381 goto fail_expect; 1382 1383 if (read_expect_type(EVENT_ITEM, &token)) 1384 goto fail; 1385 field->size = strtoul(token, NULL, 0); 1386 free_token(token); 1387 1388 if (read_expected(EVENT_OP, ";") < 0) 1389 goto fail_expect; 1390 1391 type = read_token(&token); 1392 if (type != EVENT_NEWLINE) { 1393 /* newer versions of the kernel have a "signed" type */ 1394 if (test_type_token(type, token, EVENT_ITEM, "signed")) 1395 goto fail; 1396 1397 free_token(token); 1398 1399 if (read_expected(EVENT_OP, ":") < 0) 1400 goto fail_expect; 1401 1402 if (read_expect_type(EVENT_ITEM, &token)) 1403 goto fail; 1404 1405 /* add signed type */ 1406 1407 free_token(token); 1408 if (read_expected(EVENT_OP, ";") < 0) 1409 goto fail_expect; 1410 1411 if (read_expect_type(EVENT_NEWLINE, &token)) 1412 goto fail; 1413 } 1414 1415 free_token(token); 1416 1417 if (field->flags & FIELD_IS_ARRAY) { 1418 if (field->arraylen) 1419 field->elementsize = field->size / field->arraylen; 1420 else if (field->flags & FIELD_IS_STRING) 1421 field->elementsize = 1; 1422 else 1423 field->elementsize = event->pevent->long_size; 1424 } else 1425 field->elementsize = field->size; 1426 1427 *fields = field; 1428 fields = &field->next; 1429 1430 } while (1); 1431 1432 return 0; 1433 1434fail: 1435 free_token(token); 1436fail_expect: 1437 if (field) { 1438 free(field->type); 1439 free(field->name); 1440 free(field); 1441 } 1442 return -1; 1443} 1444 1445static int event_read_format(struct event_format *event) 1446{ 1447 char *token; 1448 int ret; 1449 1450 if (read_expected_item(EVENT_ITEM, "format") < 0) 1451 return -1; 1452 1453 if (read_expected(EVENT_OP, ":") < 0) 1454 return -1; 1455 1456 if (read_expect_type(EVENT_NEWLINE, &token)) 1457 goto fail; 1458 free_token(token); 1459 1460 ret = event_read_fields(event, &event->format.common_fields); 1461 if (ret < 0) 1462 return ret; 1463 event->format.nr_common = ret; 1464 1465 ret = event_read_fields(event, &event->format.fields); 1466 if (ret < 0) 1467 return ret; 1468 event->format.nr_fields = ret; 1469 1470 return 0; 1471 1472 fail: 1473 free_token(token); 1474 return -1; 1475} 1476 1477static enum event_type 1478process_arg_token(struct event_format *event, struct print_arg *arg, 1479 char **tok, enum event_type type); 1480 1481static enum event_type 1482process_arg(struct event_format *event, struct print_arg *arg, char **tok) 1483{ 1484 enum event_type type; 1485 char *token; 1486 1487 type = read_token(&token); 1488 *tok = token; 1489 1490 return process_arg_token(event, arg, tok, type); 1491} 1492 1493static enum event_type 1494process_op(struct event_format *event, struct print_arg *arg, char **tok); 1495 1496static enum event_type 1497process_cond(struct event_format *event, struct print_arg *top, char **tok) 1498{ 1499 struct print_arg *arg, *left, *right; 1500 enum event_type type; 1501 char *token = NULL; 1502 1503 arg = alloc_arg(); 1504 left = alloc_arg(); 1505 right = alloc_arg(); 1506 1507 arg->type = PRINT_OP; 1508 arg->op.left = left; 1509 arg->op.right = right; 1510 1511 *tok = NULL; 1512 type = process_arg(event, left, &token); 1513 1514 again: 1515 /* Handle other operations in the arguments */ 1516 if (type == EVENT_OP && strcmp(token, ":") != 0) { 1517 type = process_op(event, left, &token); 1518 goto again; 1519 } 1520 1521 if (test_type_token(type, token, EVENT_OP, ":")) 1522 goto out_free; 1523 1524 arg->op.op = token; 1525 1526 type = process_arg(event, right, &token); 1527 1528 top->op.right = arg; 1529 1530 *tok = token; 1531 return type; 1532 1533out_free: 1534 /* Top may point to itself */ 1535 top->op.right = NULL; 1536 free_token(token); 1537 free_arg(arg); 1538 return EVENT_ERROR; 1539} 1540 1541static enum event_type 1542process_array(struct event_format *event, struct print_arg *top, char **tok) 1543{ 1544 struct print_arg *arg; 1545 enum event_type type; 1546 char *token = NULL; 1547 1548 arg = alloc_arg(); 1549 1550 *tok = NULL; 1551 type = process_arg(event, arg, &token); 1552 if (test_type_token(type, token, EVENT_OP, "]")) 1553 goto out_free; 1554 1555 top->op.right = arg; 1556 1557 free_token(token); 1558 type = read_token_item(&token); 1559 *tok = token; 1560 1561 return type; 1562 1563out_free: 1564 free_token(*tok); 1565 *tok = NULL; 1566 free_arg(arg); 1567 return EVENT_ERROR; 1568} 1569 1570static int get_op_prio(char *op) 1571{ 1572 if (!op[1]) { 1573 switch (op[0]) { 1574 case '~': 1575 case '!': 1576 return 4; 1577 case '*': 1578 case '/': 1579 case '%': 1580 return 6; 1581 case '+': 1582 case '-': 1583 return 7; 1584 /* '>>' and '<<' are 8 */ 1585 case '<': 1586 case '>': 1587 return 9; 1588 /* '==' and '!=' are 10 */ 1589 case '&': 1590 return 11; 1591 case '^': 1592 return 12; 1593 case '|': 1594 return 13; 1595 case '?': 1596 return 16; 1597 default: 1598 do_warning("unknown op '%c'", op[0]); 1599 return -1; 1600 } 1601 } else { 1602 if (strcmp(op, "++") == 0 || 1603 strcmp(op, "--") == 0) { 1604 return 3; 1605 } else if (strcmp(op, ">>") == 0 || 1606 strcmp(op, "<<") == 0) { 1607 return 8; 1608 } else if (strcmp(op, ">=") == 0 || 1609 strcmp(op, "<=") == 0) { 1610 return 9; 1611 } else if (strcmp(op, "==") == 0 || 1612 strcmp(op, "!=") == 0) { 1613 return 10; 1614 } else if (strcmp(op, "&&") == 0) { 1615 return 14; 1616 } else if (strcmp(op, "||") == 0) { 1617 return 15; 1618 } else { 1619 do_warning("unknown op '%s'", op); 1620 return -1; 1621 } 1622 } 1623} 1624 1625static int set_op_prio(struct print_arg *arg) 1626{ 1627 1628 /* single ops are the greatest */ 1629 if (!arg->op.left || arg->op.left->type == PRINT_NULL) 1630 arg->op.prio = 0; 1631 else 1632 arg->op.prio = get_op_prio(arg->op.op); 1633 1634 return arg->op.prio; 1635} 1636 1637/* Note, *tok does not get freed, but will most likely be saved */ 1638static enum event_type 1639process_op(struct event_format *event, struct print_arg *arg, char **tok) 1640{ 1641 struct print_arg *left, *right = NULL; 1642 enum event_type type; 1643 char *token; 1644 1645 /* the op is passed in via tok */ 1646 token = *tok; 1647 1648 if (arg->type == PRINT_OP && !arg->op.left) { 1649 /* handle single op */ 1650 if (token[1]) { 1651 die("bad op token %s", token); 1652 goto out_free; 1653 } 1654 switch (token[0]) { 1655 case '~': 1656 case '!': 1657 case '+': 1658 case '-': 1659 break; 1660 default: 1661 do_warning("bad op token %s", token); 1662 goto out_free; 1663 1664 } 1665 1666 /* make an empty left */ 1667 left = alloc_arg(); 1668 left->type = PRINT_NULL; 1669 arg->op.left = left; 1670 1671 right = alloc_arg(); 1672 arg->op.right = right; 1673 1674 /* do not free the token, it belongs to an op */ 1675 *tok = NULL; 1676 type = process_arg(event, right, tok); 1677 1678 } else if (strcmp(token, "?") == 0) { 1679 1680 left = alloc_arg(); 1681 /* copy the top arg to the left */ 1682 *left = *arg; 1683 1684 arg->type = PRINT_OP; 1685 arg->op.op = token; 1686 arg->op.left = left; 1687 arg->op.prio = 0; 1688 1689 type = process_cond(event, arg, tok); 1690 1691 } else if (strcmp(token, ">>") == 0 || 1692 strcmp(token, "<<") == 0 || 1693 strcmp(token, "&") == 0 || 1694 strcmp(token, "|") == 0 || 1695 strcmp(token, "&&") == 0 || 1696 strcmp(token, "||") == 0 || 1697 strcmp(token, "-") == 0 || 1698 strcmp(token, "+") == 0 || 1699 strcmp(token, "*") == 0 || 1700 strcmp(token, "^") == 0 || 1701 strcmp(token, "/") == 0 || 1702 strcmp(token, "<") == 0 || 1703 strcmp(token, ">") == 0 || 1704 strcmp(token, "==") == 0 || 1705 strcmp(token, "!=") == 0) { 1706 1707 left = alloc_arg(); 1708 1709 /* copy the top arg to the left */ 1710 *left = *arg; 1711 1712 arg->type = PRINT_OP; 1713 arg->op.op = token; 1714 arg->op.left = left; 1715 1716 if (set_op_prio(arg) == -1) { 1717 event->flags |= EVENT_FL_FAILED; 1718 /* arg->op.op (= token) will be freed at out_free */ 1719 arg->op.op = NULL; 1720 goto out_free; 1721 } 1722 1723 type = read_token_item(&token); 1724 *tok = token; 1725 1726 /* could just be a type pointer */ 1727 if ((strcmp(arg->op.op, "*") == 0) && 1728 type == EVENT_DELIM && (strcmp(token, ")") == 0)) { 1729 if (left->type != PRINT_ATOM) 1730 die("bad pointer type"); 1731 left->atom.atom = realloc(left->atom.atom, 1732 strlen(left->atom.atom) + 3); 1733 strcat(left->atom.atom, " *"); 1734 free(arg->op.op); 1735 *arg = *left; 1736 free(left); 1737 1738 return type; 1739 } 1740 1741 right = alloc_arg(); 1742 type = process_arg_token(event, right, tok, type); 1743 arg->op.right = right; 1744 1745 } else if (strcmp(token, "[") == 0) { 1746 1747 left = alloc_arg(); 1748 *left = *arg; 1749 1750 arg->type = PRINT_OP; 1751 arg->op.op = token; 1752 arg->op.left = left; 1753 1754 arg->op.prio = 0; 1755 1756 type = process_array(event, arg, tok); 1757 1758 } else { 1759 do_warning("unknown op '%s'", token); 1760 event->flags |= EVENT_FL_FAILED; 1761 /* the arg is now the left side */ 1762 goto out_free; 1763 } 1764 1765 if (type == EVENT_OP && strcmp(*tok, ":") != 0) { 1766 int prio; 1767 1768 /* higher prios need to be closer to the root */ 1769 prio = get_op_prio(*tok); 1770 1771 if (prio > arg->op.prio) 1772 return process_op(event, arg, tok); 1773 1774 return process_op(event, right, tok); 1775 } 1776 1777 return type; 1778 1779 out_free: 1780 free_token(token); 1781 *tok = NULL; 1782 return EVENT_ERROR; 1783} 1784 1785static enum event_type 1786process_entry(struct event_format *event __unused, struct print_arg *arg, 1787 char **tok) 1788{ 1789 enum event_type type; 1790 char *field; 1791 char *token; 1792 1793 if (read_expected(EVENT_OP, "->") < 0) 1794 goto out_err; 1795 1796 if (read_expect_type(EVENT_ITEM, &token) < 0) 1797 goto out_free; 1798 field = token; 1799 1800 arg->type = PRINT_FIELD; 1801 arg->field.name = field; 1802 1803 if (is_flag_field) { 1804 arg->field.field = pevent_find_any_field(event, arg->field.name); 1805 arg->field.field->flags |= FIELD_IS_FLAG; 1806 is_flag_field = 0; 1807 } else if (is_symbolic_field) { 1808 arg->field.field = pevent_find_any_field(event, arg->field.name); 1809 arg->field.field->flags |= FIELD_IS_SYMBOLIC; 1810 is_symbolic_field = 0; 1811 } 1812 1813 type = read_token(&token); 1814 *tok = token; 1815 1816 return type; 1817 1818 out_free: 1819 free_token(token); 1820 out_err: 1821 *tok = NULL; 1822 return EVENT_ERROR; 1823} 1824 1825static char *arg_eval (struct print_arg *arg); 1826 1827static unsigned long long 1828eval_type_str(unsigned long long val, const char *type, int pointer) 1829{ 1830 int sign = 0; 1831 char *ref; 1832 int len; 1833 1834 len = strlen(type); 1835 1836 if (pointer) { 1837 1838 if (type[len-1] != '*') { 1839 do_warning("pointer expected with non pointer type"); 1840 return val; 1841 } 1842 1843 ref = malloc_or_die(len); 1844 memcpy(ref, type, len); 1845 1846 /* chop off the " *" */ 1847 ref[len - 2] = 0; 1848 1849 val = eval_type_str(val, ref, 0); 1850 free(ref); 1851 return val; 1852 } 1853 1854 /* check if this is a pointer */ 1855 if (type[len - 1] == '*') 1856 return val; 1857 1858 /* Try to figure out the arg size*/ 1859 if (strncmp(type, "struct", 6) == 0) 1860 /* all bets off */ 1861 return val; 1862 1863 if (strcmp(type, "u8") == 0) 1864 return val & 0xff; 1865 1866 if (strcmp(type, "u16") == 0) 1867 return val & 0xffff; 1868 1869 if (strcmp(type, "u32") == 0) 1870 return val & 0xffffffff; 1871 1872 if (strcmp(type, "u64") == 0 || 1873 strcmp(type, "s64")) 1874 return val; 1875 1876 if (strcmp(type, "s8") == 0) 1877 return (unsigned long long)(char)val & 0xff; 1878 1879 if (strcmp(type, "s16") == 0) 1880 return (unsigned long long)(short)val & 0xffff; 1881 1882 if (strcmp(type, "s32") == 0) 1883 return (unsigned long long)(int)val & 0xffffffff; 1884 1885 if (strncmp(type, "unsigned ", 9) == 0) { 1886 sign = 0; 1887 type += 9; 1888 } 1889 1890 if (strcmp(type, "char") == 0) { 1891 if (sign) 1892 return (unsigned long long)(char)val & 0xff; 1893 else 1894 return val & 0xff; 1895 } 1896 1897 if (strcmp(type, "short") == 0) { 1898 if (sign) 1899 return (unsigned long long)(short)val & 0xffff; 1900 else 1901 return val & 0xffff; 1902 } 1903 1904 if (strcmp(type, "int") == 0) { 1905 if (sign) 1906 return (unsigned long long)(int)val & 0xffffffff; 1907 else 1908 return val & 0xffffffff; 1909 } 1910 1911 return val; 1912} 1913 1914/* 1915 * Try to figure out the type. 1916 */ 1917static unsigned long long 1918eval_type(unsigned long long val, struct print_arg *arg, int pointer) 1919{ 1920 if (arg->type != PRINT_TYPE) 1921 die("expected type argument"); 1922 1923 return eval_type_str(val, arg->typecast.type, pointer); 1924} 1925 1926static int arg_num_eval(struct print_arg *arg, long long *val) 1927{ 1928 long long left, right; 1929 int ret = 1; 1930 1931 switch (arg->type) { 1932 case PRINT_ATOM: 1933 *val = strtoll(arg->atom.atom, NULL, 0); 1934 break; 1935 case PRINT_TYPE: 1936 ret = arg_num_eval(arg->typecast.item, val); 1937 if (!ret) 1938 break; 1939 *val = eval_type(*val, arg, 0); 1940 break; 1941 case PRINT_OP: 1942 switch (arg->op.op[0]) { 1943 case '|': 1944 ret = arg_num_eval(arg->op.left, &left); 1945 if (!ret) 1946 break; 1947 ret = arg_num_eval(arg->op.right, &right); 1948 if (!ret) 1949 break; 1950 if (arg->op.op[1]) 1951 *val = left || right; 1952 else 1953 *val = left | right; 1954 break; 1955 case '&': 1956 ret = arg_num_eval(arg->op.left, &left); 1957 if (!ret) 1958 break; 1959 ret = arg_num_eval(arg->op.right, &right); 1960 if (!ret) 1961 break; 1962 if (arg->op.op[1]) 1963 *val = left && right; 1964 else 1965 *val = left & right; 1966 break; 1967 case '<': 1968 ret = arg_num_eval(arg->op.left, &left); 1969 if (!ret) 1970 break; 1971 ret = arg_num_eval(arg->op.right, &right); 1972 if (!ret) 1973 break; 1974 switch (arg->op.op[1]) { 1975 case 0: 1976 *val = left < right; 1977 break; 1978 case '<': 1979 *val = left << right; 1980 break; 1981 case '=': 1982 *val = left <= right; 1983 break; 1984 default: 1985 do_warning("unknown op '%s'", arg->op.op); 1986 ret = 0; 1987 } 1988 break; 1989 case '>': 1990 ret = arg_num_eval(arg->op.left, &left); 1991 if (!ret) 1992 break; 1993 ret = arg_num_eval(arg->op.right, &right); 1994 if (!ret) 1995 break; 1996 switch (arg->op.op[1]) { 1997 case 0: 1998 *val = left > right; 1999 break; 2000 case '>': 2001 *val = left >> right; 2002 break; 2003 case '=': 2004 *val = left >= right; 2005 break; 2006 default: 2007 do_warning("unknown op '%s'", arg->op.op); 2008 ret = 0; 2009 } 2010 break; 2011 case '=': 2012 ret = arg_num_eval(arg->op.left, &left); 2013 if (!ret) 2014 break; 2015 ret = arg_num_eval(arg->op.right, &right); 2016 if (!ret) 2017 break; 2018 2019 if (arg->op.op[1] != '=') { 2020 do_warning("unknown op '%s'", arg->op.op); 2021 ret = 0; 2022 } else 2023 *val = left == right; 2024 break; 2025 case '!': 2026 ret = arg_num_eval(arg->op.left, &left); 2027 if (!ret) 2028 break; 2029 ret = arg_num_eval(arg->op.right, &right); 2030 if (!ret) 2031 break; 2032 2033 switch (arg->op.op[1]) { 2034 case '=': 2035 *val = left != right; 2036 break; 2037 default: 2038 do_warning("unknown op '%s'", arg->op.op); 2039 ret = 0; 2040 } 2041 break; 2042 case '-': 2043 /* check for negative */ 2044 if (arg->op.left->type == PRINT_NULL) 2045 left = 0; 2046 else 2047 ret = arg_num_eval(arg->op.left, &left); 2048 if (!ret) 2049 break; 2050 ret = arg_num_eval(arg->op.right, &right); 2051 if (!ret) 2052 break; 2053 *val = left - right; 2054 break; 2055 case '+': 2056 if (arg->op.left->type == PRINT_NULL) 2057 left = 0; 2058 else 2059 ret = arg_num_eval(arg->op.left, &left); 2060 if (!ret) 2061 break; 2062 ret = arg_num_eval(arg->op.right, &right); 2063 if (!ret) 2064 break; 2065 *val = left + right; 2066 break; 2067 default: 2068 do_warning("unknown op '%s'", arg->op.op); 2069 ret = 0; 2070 } 2071 break; 2072 2073 case PRINT_NULL: 2074 case PRINT_FIELD ... PRINT_SYMBOL: 2075 case PRINT_STRING: 2076 case PRINT_BSTRING: 2077 default: 2078 do_warning("invalid eval type %d", arg->type); 2079 ret = 0; 2080 2081 } 2082 return ret; 2083} 2084 2085static char *arg_eval (struct print_arg *arg) 2086{ 2087 long long val; 2088 static char buf[20]; 2089 2090 switch (arg->type) { 2091 case PRINT_ATOM: 2092 return arg->atom.atom; 2093 case PRINT_TYPE: 2094 return arg_eval(arg->typecast.item); 2095 case PRINT_OP: 2096 if (!arg_num_eval(arg, &val)) 2097 break; 2098 sprintf(buf, "%lld", val); 2099 return buf; 2100 2101 case PRINT_NULL: 2102 case PRINT_FIELD ... PRINT_SYMBOL: 2103 case PRINT_STRING: 2104 case PRINT_BSTRING: 2105 default: 2106 die("invalid eval type %d", arg->type); 2107 break; 2108 } 2109 2110 return NULL; 2111} 2112 2113static enum event_type 2114process_fields(struct event_format *event, struct print_flag_sym **list, char **tok) 2115{ 2116 enum event_type type; 2117 struct print_arg *arg = NULL; 2118 struct print_flag_sym *field; 2119 char *token = *tok; 2120 char *value; 2121 2122 do { 2123 free_token(token); 2124 type = read_token_item(&token); 2125 if (test_type_token(type, token, EVENT_OP, "{")) 2126 break; 2127 2128 arg = alloc_arg(); 2129 2130 free_token(token); 2131 type = process_arg(event, arg, &token); 2132 2133 if (type == EVENT_OP) 2134 type = process_op(event, arg, &token); 2135 2136 if (type == EVENT_ERROR) 2137 goto out_free; 2138 2139 if (test_type_token(type, token, EVENT_DELIM, ",")) 2140 goto out_free; 2141 2142 field = malloc_or_die(sizeof(*field)); 2143 memset(field, 0, sizeof(*field)); 2144 2145 value = arg_eval(arg); 2146 if (value == NULL) 2147 goto out_free; 2148 field->value = strdup(value); 2149 2150 free_arg(arg); 2151 arg = alloc_arg(); 2152 2153 free_token(token); 2154 type = process_arg(event, arg, &token); 2155 if (test_type_token(type, token, EVENT_OP, "}")) 2156 goto out_free; 2157 2158 value = arg_eval(arg); 2159 if (value == NULL) 2160 goto out_free; 2161 field->str = strdup(value); 2162 free_arg(arg); 2163 arg = NULL; 2164 2165 *list = field; 2166 list = &field->next; 2167 2168 free_token(token); 2169 type = read_token_item(&token); 2170 } while (type == EVENT_DELIM && strcmp(token, ",") == 0); 2171 2172 *tok = token; 2173 return type; 2174 2175out_free: 2176 free_arg(arg); 2177 free_token(token); 2178 *tok = NULL; 2179 2180 return EVENT_ERROR; 2181} 2182 2183static enum event_type 2184process_flags(struct event_format *event, struct print_arg *arg, char **tok) 2185{ 2186 struct print_arg *field; 2187 enum event_type type; 2188 char *token; 2189 2190 memset(arg, 0, sizeof(*arg)); 2191 arg->type = PRINT_FLAGS; 2192 2193 field = alloc_arg(); 2194 2195 type = process_arg(event, field, &token); 2196 2197 /* Handle operations in the first argument */ 2198 while (type == EVENT_OP) 2199 type = process_op(event, field, &token); 2200 2201 if (test_type_token(type, token, EVENT_DELIM, ",")) 2202 goto out_free; 2203 free_token(token); 2204 2205 arg->flags.field = field; 2206 2207 type = read_token_item(&token); 2208 if (event_item_type(type)) { 2209 arg->flags.delim = token; 2210 type = read_token_item(&token); 2211 } 2212 2213 if (test_type_token(type, token, EVENT_DELIM, ",")) 2214 goto out_free; 2215 2216 type = process_fields(event, &arg->flags.flags, &token); 2217 if (test_type_token(type, token, EVENT_DELIM, ")")) 2218 goto out_free; 2219 2220 free_token(token); 2221 type = read_token_item(tok); 2222 return type; 2223 2224 out_free: 2225 free_token(token); 2226 *tok = NULL; 2227 return EVENT_ERROR; 2228} 2229 2230static enum event_type 2231process_symbols(struct event_format *event, struct print_arg *arg, char **tok) 2232{ 2233 struct print_arg *field; 2234 enum event_type type; 2235 char *token; 2236 2237 memset(arg, 0, sizeof(*arg)); 2238 arg->type = PRINT_SYMBOL; 2239 2240 field = alloc_arg(); 2241 2242 type = process_arg(event, field, &token); 2243 if (test_type_token(type, token, EVENT_DELIM, ",")) 2244 goto out_free; 2245 2246 arg->symbol.field = field; 2247 2248 type = process_fields(event, &arg->symbol.symbols, &token); 2249 if (test_type_token(type, token, EVENT_DELIM, ")")) 2250 goto out_free; 2251 2252 free_token(token); 2253 type = read_token_item(tok); 2254 return type; 2255 2256 out_free: 2257 free_token(token); 2258 *tok = NULL; 2259 return EVENT_ERROR; 2260} 2261 2262static enum event_type 2263process_dynamic_array(struct event_format *event, struct print_arg *arg, char **tok) 2264{ 2265 struct format_field *field; 2266 enum event_type type; 2267 char *token; 2268 2269 memset(arg, 0, sizeof(*arg)); 2270 arg->type = PRINT_DYNAMIC_ARRAY; 2271 2272 /* 2273 * The item within the parenthesis is another field that holds 2274 * the index into where the array starts. 2275 */ 2276 type = read_token(&token); 2277 *tok = token; 2278 if (type != EVENT_ITEM) 2279 goto out_free; 2280 2281 /* Find the field */ 2282 2283 field = pevent_find_field(event, token); 2284 if (!field) 2285 goto out_free; 2286 2287 arg->dynarray.field = field; 2288 arg->dynarray.index = 0; 2289 2290 if (read_expected(EVENT_DELIM, ")") < 0) 2291 goto out_free; 2292 2293 free_token(token); 2294 type = read_token_item(&token); 2295 *tok = token; 2296 if (type != EVENT_OP || strcmp(token, "[") != 0) 2297 return type; 2298 2299 free_token(token); 2300 arg = alloc_arg(); 2301 type = process_arg(event, arg, &token); 2302 if (type == EVENT_ERROR) 2303 goto out_free_arg; 2304 2305 if (!test_type_token(type, token, EVENT_OP, "]")) 2306 goto out_free_arg; 2307 2308 free_token(token); 2309 type = read_token_item(tok); 2310 return type; 2311 2312 out_free_arg: 2313 free_arg(arg); 2314 out_free: 2315 free_token(token); 2316 *tok = NULL; 2317 return EVENT_ERROR; 2318} 2319 2320static enum event_type 2321process_paren(struct event_format *event, struct print_arg *arg, char **tok) 2322{ 2323 struct print_arg *item_arg; 2324 enum event_type type; 2325 char *token; 2326 2327 type = process_arg(event, arg, &token); 2328 2329 if (type == EVENT_ERROR) 2330 goto out_free; 2331 2332 if (type == EVENT_OP) 2333 type = process_op(event, arg, &token); 2334 2335 if (type == EVENT_ERROR) 2336 goto out_free; 2337 2338 if (test_type_token(type, token, EVENT_DELIM, ")")) 2339 goto out_free; 2340 2341 free_token(token); 2342 type = read_token_item(&token); 2343 2344 /* 2345 * If the next token is an item or another open paren, then 2346 * this was a typecast. 2347 */ 2348 if (event_item_type(type) || 2349 (type == EVENT_DELIM && strcmp(token, "(") == 0)) { 2350 2351 /* make this a typecast and contine */ 2352 2353 /* prevous must be an atom */ 2354 if (arg->type != PRINT_ATOM) 2355 die("previous needed to be PRINT_ATOM"); 2356 2357 item_arg = alloc_arg(); 2358 2359 arg->type = PRINT_TYPE; 2360 arg->typecast.type = arg->atom.atom; 2361 arg->typecast.item = item_arg; 2362 type = process_arg_token(event, item_arg, &token, type); 2363 2364 } 2365 2366 *tok = token; 2367 return type; 2368 2369 out_free: 2370 free_token(token); 2371 *tok = NULL; 2372 return EVENT_ERROR; 2373} 2374 2375 2376static enum event_type 2377process_str(struct event_format *event __unused, struct print_arg *arg, char **tok) 2378{ 2379 enum event_type type; 2380 char *token; 2381 2382 if (read_expect_type(EVENT_ITEM, &token) < 0) 2383 goto out_free; 2384 2385 arg->type = PRINT_STRING; 2386 arg->string.string = token; 2387 arg->string.offset = -1; 2388 2389 if (read_expected(EVENT_DELIM, ")") < 0) 2390 goto out_err; 2391 2392 type = read_token(&token); 2393 *tok = token; 2394 2395 return type; 2396 2397 out_free: 2398 free_token(token); 2399 out_err: 2400 *tok = NULL; 2401 return EVENT_ERROR; 2402} 2403 2404static struct pevent_function_handler * 2405find_func_handler(struct pevent *pevent, char *func_name) 2406{ 2407 struct pevent_function_handler *func; 2408 2409 for (func = pevent->func_handlers; func; func = func->next) { 2410 if (strcmp(func->name, func_name) == 0) 2411 break; 2412 } 2413 2414 return func; 2415} 2416 2417static void remove_func_handler(struct pevent *pevent, char *func_name) 2418{ 2419 struct pevent_function_handler *func; 2420 struct pevent_function_handler **next; 2421 2422 next = &pevent->func_handlers; 2423 while ((func = *next)) { 2424 if (strcmp(func->name, func_name) == 0) { 2425 *next = func->next; 2426 free_func_handle(func); 2427 break; 2428 } 2429 next = &func->next; 2430 } 2431} 2432 2433static enum event_type 2434process_func_handler(struct event_format *event, struct pevent_function_handler *func, 2435 struct print_arg *arg, char **tok) 2436{ 2437 struct print_arg **next_arg; 2438 struct print_arg *farg; 2439 enum event_type type; 2440 char *token; 2441 char *test; 2442 int i; 2443 2444 arg->type = PRINT_FUNC; 2445 arg->func.func = func; 2446 2447 *tok = NULL; 2448 2449 next_arg = &(arg->func.args); 2450 for (i = 0; i < func->nr_args; i++) { 2451 farg = alloc_arg(); 2452 type = process_arg(event, farg, &token); 2453 if (i < (func->nr_args - 1)) 2454 test = ","; 2455 else 2456 test = ")"; 2457 2458 if (test_type_token(type, token, EVENT_DELIM, test)) { 2459 free_arg(farg); 2460 free_token(token); 2461 return EVENT_ERROR; 2462 } 2463 2464 *next_arg = farg; 2465 next_arg = &(farg->next); 2466 free_token(token); 2467 } 2468 2469 type = read_token(&token); 2470 *tok = token; 2471 2472 return type; 2473} 2474 2475static enum event_type 2476process_function(struct event_format *event, struct print_arg *arg, 2477 char *token, char **tok) 2478{ 2479 struct pevent_function_handler *func; 2480 2481 if (strcmp(token, "__print_flags") == 0) { 2482 free_token(token); 2483 is_flag_field = 1; 2484 return process_flags(event, arg, tok); 2485 } 2486 if (strcmp(token, "__print_symbolic") == 0) { 2487 free_token(token); 2488 is_symbolic_field = 1; 2489 return process_symbols(event, arg, tok); 2490 } 2491 if (strcmp(token, "__get_str") == 0) { 2492 free_token(token); 2493 return process_str(event, arg, tok); 2494 } 2495 if (strcmp(token, "__get_dynamic_array") == 0) { 2496 free_token(token); 2497 return process_dynamic_array(event, arg, tok); 2498 } 2499 2500 func = find_func_handler(event->pevent, token); 2501 if (func) { 2502 free_token(token); 2503 return process_func_handler(event, func, arg, tok); 2504 } 2505 2506 do_warning("function %s not defined", token); 2507 free_token(token); 2508 return EVENT_ERROR; 2509} 2510 2511static enum event_type 2512process_arg_token(struct event_format *event, struct print_arg *arg, 2513 char **tok, enum event_type type) 2514{ 2515 char *token; 2516 char *atom; 2517 2518 token = *tok; 2519 2520 switch (type) { 2521 case EVENT_ITEM: 2522 if (strcmp(token, "REC") == 0) { 2523 free_token(token); 2524 type = process_entry(event, arg, &token); 2525 break; 2526 } 2527 atom = token; 2528 /* test the next token */ 2529 type = read_token_item(&token); 2530 2531 /* 2532 * If the next token is a parenthesis, then this 2533 * is a function. 2534 */ 2535 if (type == EVENT_DELIM && strcmp(token, "(") == 0) { 2536 free_token(token); 2537 token = NULL; 2538 /* this will free atom. */ 2539 type = process_function(event, arg, atom, &token); 2540 break; 2541 } 2542 /* atoms can be more than one token long */ 2543 while (type == EVENT_ITEM) { 2544 atom = realloc(atom, strlen(atom) + strlen(token) + 2); 2545 strcat(atom, " "); 2546 strcat(atom, token); 2547 free_token(token); 2548 type = read_token_item(&token); 2549 } 2550 2551 arg->type = PRINT_ATOM; 2552 arg->atom.atom = atom; 2553 break; 2554 2555 case EVENT_DQUOTE: 2556 case EVENT_SQUOTE: 2557 arg->type = PRINT_ATOM; 2558 arg->atom.atom = token; 2559 type = read_token_item(&token); 2560 break; 2561 case EVENT_DELIM: 2562 if (strcmp(token, "(") == 0) { 2563 free_token(token); 2564 type = process_paren(event, arg, &token); 2565 break; 2566 } 2567 case EVENT_OP: 2568 /* handle single ops */ 2569 arg->type = PRINT_OP; 2570 arg->op.op = token; 2571 arg->op.left = NULL; 2572 type = process_op(event, arg, &token); 2573 2574 /* On error, the op is freed */ 2575 if (type == EVENT_ERROR) 2576 arg->op.op = NULL; 2577 2578 /* return error type if errored */ 2579 break; 2580 2581 case EVENT_ERROR ... EVENT_NEWLINE: 2582 default: 2583 die("unexpected type %d", type); 2584 } 2585 *tok = token; 2586 2587 return type; 2588} 2589 2590static int event_read_print_args(struct event_format *event, struct print_arg **list) 2591{ 2592 enum event_type type = EVENT_ERROR; 2593 struct print_arg *arg; 2594 char *token; 2595 int args = 0; 2596 2597 do { 2598 if (type == EVENT_NEWLINE) { 2599 type = read_token_item(&token); 2600 continue; 2601 } 2602 2603 arg = alloc_arg(); 2604 2605 type = process_arg(event, arg, &token); 2606 2607 if (type == EVENT_ERROR) { 2608 free_token(token); 2609 free_arg(arg); 2610 return -1; 2611 } 2612 2613 *list = arg; 2614 args++; 2615 2616 if (type == EVENT_OP) { 2617 type = process_op(event, arg, &token); 2618 free_token(token); 2619 if (type == EVENT_ERROR) { 2620 *list = NULL; 2621 free_arg(arg); 2622 return -1; 2623 } 2624 list = &arg->next; 2625 continue; 2626 } 2627 2628 if (type == EVENT_DELIM && strcmp(token, ",") == 0) { 2629 free_token(token); 2630 *list = arg; 2631 list = &arg->next; 2632 continue; 2633 } 2634 break; 2635 } while (type != EVENT_NONE); 2636 2637 if (type != EVENT_NONE && type != EVENT_ERROR) 2638 free_token(token); 2639 2640 return args; 2641} 2642 2643static int event_read_print(struct event_format *event) 2644{ 2645 enum event_type type; 2646 char *token; 2647 int ret; 2648 2649 if (read_expected_item(EVENT_ITEM, "print") < 0) 2650 return -1; 2651 2652 if (read_expected(EVENT_ITEM, "fmt") < 0) 2653 return -1; 2654 2655 if (read_expected(EVENT_OP, ":") < 0) 2656 return -1; 2657 2658 if (read_expect_type(EVENT_DQUOTE, &token) < 0) 2659 goto fail; 2660 2661 concat: 2662 event->print_fmt.format = token; 2663 event->print_fmt.args = NULL; 2664 2665 /* ok to have no arg */ 2666 type = read_token_item(&token); 2667 2668 if (type == EVENT_NONE) 2669 return 0; 2670 2671 /* Handle concatenation of print lines */ 2672 if (type == EVENT_DQUOTE) { 2673 char *cat; 2674 2675 cat = malloc_or_die(strlen(event->print_fmt.format) + 2676 strlen(token) + 1); 2677 strcpy(cat, event->print_fmt.format); 2678 strcat(cat, token); 2679 free_token(token); 2680 free_token(event->print_fmt.format); 2681 event->print_fmt.format = NULL; 2682 token = cat; 2683 goto concat; 2684 } 2685 2686 if (test_type_token(type, token, EVENT_DELIM, ",")) 2687 goto fail; 2688 2689 free_token(token); 2690 2691 ret = event_read_print_args(event, &event->print_fmt.args); 2692 if (ret < 0) 2693 return -1; 2694 2695 return ret; 2696 2697 fail: 2698 free_token(token); 2699 return -1; 2700} 2701 2702/** 2703 * pevent_find_common_field - return a common field by event 2704 * @event: handle for the event 2705 * @name: the name of the common field to return 2706 * 2707 * Returns a common field from the event by the given @name. 2708 * This only searchs the common fields and not all field. 2709 */ 2710struct format_field * 2711pevent_find_common_field(struct event_format *event, const char *name) 2712{ 2713 struct format_field *format; 2714 2715 for (format = event->format.common_fields; 2716 format; format = format->next) { 2717 if (strcmp(format->name, name) == 0) 2718 break; 2719 } 2720 2721 return format; 2722} 2723 2724/** 2725 * pevent_find_field - find a non-common field 2726 * @event: handle for the event 2727 * @name: the name of the non-common field 2728 * 2729 * Returns a non-common field by the given @name. 2730 * This does not search common fields. 2731 */ 2732struct format_field * 2733pevent_find_field(struct event_format *event, const char *name) 2734{ 2735 struct format_field *format; 2736 2737 for (format = event->format.fields; 2738 format; format = format->next) { 2739 if (strcmp(format->name, name) == 0) 2740 break; 2741 } 2742 2743 return format; 2744} 2745 2746/** 2747 * pevent_find_any_field - find any field by name 2748 * @event: handle for the event 2749 * @name: the name of the field 2750 * 2751 * Returns a field by the given @name. 2752 * This searchs the common field names first, then 2753 * the non-common ones if a common one was not found. 2754 */ 2755struct format_field * 2756pevent_find_any_field(struct event_format *event, const char *name) 2757{ 2758 struct format_field *format; 2759 2760 format = pevent_find_common_field(event, name); 2761 if (format) 2762 return format; 2763 return pevent_find_field(event, name); 2764} 2765 2766/** 2767 * pevent_read_number - read a number from data 2768 * @pevent: handle for the pevent 2769 * @ptr: the raw data 2770 * @size: the size of the data that holds the number 2771 * 2772 * Returns the number (converted to host) from the 2773 * raw data. 2774 */ 2775unsigned long long pevent_read_number(struct pevent *pevent, 2776 const void *ptr, int size) 2777{ 2778 switch (size) { 2779 case 1: 2780 return *(unsigned char *)ptr; 2781 case 2: 2782 return data2host2(pevent, ptr); 2783 case 4: 2784 return data2host4(pevent, ptr); 2785 case 8: 2786 return data2host8(pevent, ptr); 2787 default: 2788 /* BUG! */ 2789 return 0; 2790 } 2791} 2792 2793/** 2794 * pevent_read_number_field - read a number from data 2795 * @field: a handle to the field 2796 * @data: the raw data to read 2797 * @value: the value to place the number in 2798 * 2799 * Reads raw data according to a field offset and size, 2800 * and translates it into @value. 2801 * 2802 * Returns 0 on success, -1 otherwise. 2803 */ 2804int pevent_read_number_field(struct format_field *field, const void *data, 2805 unsigned long long *value) 2806{ 2807 if (!field) 2808 return -1; 2809 switch (field->size) { 2810 case 1: 2811 case 2: 2812 case 4: 2813 case 8: 2814 *value = pevent_read_number(field->event->pevent, 2815 data + field->offset, field->size); 2816 return 0; 2817 default: 2818 return -1; 2819 } 2820} 2821 2822static int get_common_info(struct pevent *pevent, 2823 const char *type, int *offset, int *size) 2824{ 2825 struct event_format *event; 2826 struct format_field *field; 2827 2828 /* 2829 * All events should have the same common elements. 2830 * Pick any event to find where the type is; 2831 */ 2832 if (!pevent->events) 2833 die("no event_list!"); 2834 2835 event = pevent->events[0]; 2836 field = pevent_find_common_field(event, type); 2837 if (!field) 2838 die("field '%s' not found", type); 2839 2840 *offset = field->offset; 2841 *size = field->size; 2842 2843 return 0; 2844} 2845 2846static int __parse_common(struct pevent *pevent, void *data, 2847 int *size, int *offset, const char *name) 2848{ 2849 int ret; 2850 2851 if (!*size) { 2852 ret = get_common_info(pevent, name, offset, size); 2853 if (ret < 0) 2854 return ret; 2855 } 2856 return pevent_read_number(pevent, data + *offset, *size); 2857} 2858 2859static int trace_parse_common_type(struct pevent *pevent, void *data) 2860{ 2861 return __parse_common(pevent, data, 2862 &pevent->type_size, &pevent->type_offset, 2863 "common_type"); 2864} 2865 2866static int parse_common_pid(struct pevent *pevent, void *data) 2867{ 2868 return __parse_common(pevent, data, 2869 &pevent->pid_size, &pevent->pid_offset, 2870 "common_pid"); 2871} 2872 2873static int parse_common_pc(struct pevent *pevent, void *data) 2874{ 2875 return __parse_common(pevent, data, 2876 &pevent->pc_size, &pevent->pc_offset, 2877 "common_preempt_count"); 2878} 2879 2880static int parse_common_flags(struct pevent *pevent, void *data) 2881{ 2882 return __parse_common(pevent, data, 2883 &pevent->flags_size, &pevent->flags_offset, 2884 "common_flags"); 2885} 2886 2887static int parse_common_lock_depth(struct pevent *pevent, void *data) 2888{ 2889 int ret; 2890 2891 ret = __parse_common(pevent, data, 2892 &pevent->ld_size, &pevent->ld_offset, 2893 "common_lock_depth"); 2894 if (ret < 0) 2895 return -1; 2896 2897 return ret; 2898} 2899 2900static int events_id_cmp(const void *a, const void *b); 2901 2902/** 2903 * pevent_find_event - find an event by given id 2904 * @pevent: a handle to the pevent 2905 * @id: the id of the event 2906 * 2907 * Returns an event that has a given @id. 2908 */ 2909struct event_format *pevent_find_event(struct pevent *pevent, int id) 2910{ 2911 struct event_format **eventptr; 2912 struct event_format key; 2913 struct event_format *pkey = &key; 2914 2915 /* Check cache first */ 2916 if (pevent->last_event && pevent->last_event->id == id) 2917 return pevent->last_event; 2918 2919 key.id = id; 2920 2921 eventptr = bsearch(&pkey, pevent->events, pevent->nr_events, 2922 sizeof(*pevent->events), events_id_cmp); 2923 2924 if (eventptr) { 2925 pevent->last_event = *eventptr; 2926 return *eventptr; 2927 } 2928 2929 return NULL; 2930} 2931 2932/** 2933 * pevent_find_event_by_name - find an event by given name 2934 * @pevent: a handle to the pevent 2935 * @sys: the system name to search for 2936 * @name: the name of the event to search for 2937 * 2938 * This returns an event with a given @name and under the system 2939 * @sys. If @sys is NULL the first event with @name is returned. 2940 */ 2941struct event_format * 2942pevent_find_event_by_name(struct pevent *pevent, 2943 const char *sys, const char *name) 2944{ 2945 struct event_format *event; 2946 int i; 2947 2948 if (pevent->last_event && 2949 strcmp(pevent->last_event->name, name) == 0 && 2950 (!sys || strcmp(pevent->last_event->system, sys) == 0)) 2951 return pevent->last_event; 2952 2953 for (i = 0; i < pevent->nr_events; i++) { 2954 event = pevent->events[i]; 2955 if (strcmp(event->name, name) == 0) { 2956 if (!sys) 2957 break; 2958 if (strcmp(event->system, sys) == 0) 2959 break; 2960 } 2961 } 2962 if (i == pevent->nr_events) 2963 event = NULL; 2964 2965 pevent->last_event = event; 2966 return event; 2967} 2968 2969static unsigned long long 2970eval_num_arg(void *data, int size, struct event_format *event, struct print_arg *arg) 2971{ 2972 struct pevent *pevent = event->pevent; 2973 unsigned long long val = 0; 2974 unsigned long long left, right; 2975 struct print_arg *typearg = NULL; 2976 struct print_arg *larg; 2977 unsigned long offset; 2978 unsigned int field_size; 2979 2980 switch (arg->type) { 2981 case PRINT_NULL: 2982 /* ?? */ 2983 return 0; 2984 case PRINT_ATOM: 2985 return strtoull(arg->atom.atom, NULL, 0); 2986 case PRINT_FIELD: 2987 if (!arg->field.field) { 2988 arg->field.field = pevent_find_any_field(event, arg->field.name); 2989 if (!arg->field.field) 2990 die("field %s not found", arg->field.name); 2991 } 2992 /* must be a number */ 2993 val = pevent_read_number(pevent, data + arg->field.field->offset, 2994 arg->field.field->size); 2995 break; 2996 case PRINT_FLAGS: 2997 case PRINT_SYMBOL: 2998 break; 2999 case PRINT_TYPE: 3000 val = eval_num_arg(data, size, event, arg->typecast.item); 3001 return eval_type(val, arg, 0); 3002 case PRINT_STRING: 3003 case PRINT_BSTRING: 3004 return 0; 3005 case PRINT_FUNC: { 3006 struct trace_seq s; 3007 trace_seq_init(&s); 3008 val = process_defined_func(&s, data, size, event, arg); 3009 trace_seq_destroy(&s); 3010 return val; 3011 } 3012 case PRINT_OP: 3013 if (strcmp(arg->op.op, "[") == 0) { 3014 /* 3015 * Arrays are special, since we don't want 3016 * to read the arg as is. 3017 */ 3018 right = eval_num_arg(data, size, event, arg->op.right); 3019 3020 /* handle typecasts */ 3021 larg = arg->op.left; 3022 while (larg->type == PRINT_TYPE) { 3023 if (!typearg) 3024 typearg = larg; 3025 larg = larg->typecast.item; 3026 } 3027 3028 /* Default to long size */ 3029 field_size = pevent->long_size; 3030 3031 switch (larg->type) { 3032 case PRINT_DYNAMIC_ARRAY: 3033 offset = pevent_read_number(pevent, 3034 data + larg->dynarray.field->offset, 3035 larg->dynarray.field->size); 3036 if (larg->dynarray.field->elementsize) 3037 field_size = larg->dynarray.field->elementsize; 3038 /* 3039 * The actual length of the dynamic array is stored 3040 * in the top half of the field, and the offset 3041 * is in the bottom half of the 32 bit field. 3042 */ 3043 offset &= 0xffff; 3044 offset += right; 3045 break; 3046 case PRINT_FIELD: 3047 if (!larg->field.field) { 3048 larg->field.field = 3049 pevent_find_any_field(event, larg->field.name); 3050 if (!larg->field.field) 3051 die("field %s not found", larg->field.name); 3052 } 3053 field_size = larg->field.field->elementsize; 3054 offset = larg->field.field->offset + 3055 right * larg->field.field->elementsize; 3056 break; 3057 default: 3058 goto default_op; /* oops, all bets off */ 3059 } 3060 val = pevent_read_number(pevent, 3061 data + offset, field_size); 3062 if (typearg) 3063 val = eval_type(val, typearg, 1); 3064 break; 3065 } else if (strcmp(arg->op.op, "?") == 0) { 3066 left = eval_num_arg(data, size, event, arg->op.left); 3067 arg = arg->op.right; 3068 if (left) 3069 val = eval_num_arg(data, size, event, arg->op.left); 3070 else 3071 val = eval_num_arg(data, size, event, arg->op.right); 3072 break; 3073 } 3074 default_op: 3075 left = eval_num_arg(data, size, event, arg->op.left); 3076 right = eval_num_arg(data, size, event, arg->op.right); 3077 switch (arg->op.op[0]) { 3078 case '!': 3079 switch (arg->op.op[1]) { 3080 case 0: 3081 val = !right; 3082 break; 3083 case '=': 3084 val = left != right; 3085 break; 3086 default: 3087 die("unknown op '%s'", arg->op.op); 3088 } 3089 break; 3090 case '~': 3091 val = ~right; 3092 break; 3093 case '|': 3094 if (arg->op.op[1]) 3095 val = left || right; 3096 else 3097 val = left | right; 3098 break; 3099 case '&': 3100 if (arg->op.op[1]) 3101 val = left && right; 3102 else 3103 val = left & right; 3104 break; 3105 case '<': 3106 switch (arg->op.op[1]) { 3107 case 0: 3108 val = left < right; 3109 break; 3110 case '<': 3111 val = left << right; 3112 break; 3113 case '=': 3114 val = left <= right; 3115 break; 3116 default: 3117 die("unknown op '%s'", arg->op.op); 3118 } 3119 break; 3120 case '>': 3121 switch (arg->op.op[1]) { 3122 case 0: 3123 val = left > right; 3124 break; 3125 case '>': 3126 val = left >> right; 3127 break; 3128 case '=': 3129 val = left >= right; 3130 break; 3131 default: 3132 die("unknown op '%s'", arg->op.op); 3133 } 3134 break; 3135 case '=': 3136 if (arg->op.op[1] != '=') 3137 die("unknown op '%s'", arg->op.op); 3138 val = left == right; 3139 break; 3140 case '-': 3141 val = left - right; 3142 break; 3143 case '+': 3144 val = left + right; 3145 break; 3146 case '/': 3147 val = left / right; 3148 break; 3149 case '*': 3150 val = left * right; 3151 break; 3152 default: 3153 die("unknown op '%s'", arg->op.op); 3154 } 3155 break; 3156 default: /* not sure what to do there */ 3157 return 0; 3158 } 3159 return val; 3160} 3161 3162struct flag { 3163 const char *name; 3164 unsigned long long value; 3165}; 3166 3167static const struct flag flags[] = { 3168 { "HI_SOFTIRQ", 0 }, 3169 { "TIMER_SOFTIRQ", 1 }, 3170 { "NET_TX_SOFTIRQ", 2 }, 3171 { "NET_RX_SOFTIRQ", 3 }, 3172 { "BLOCK_SOFTIRQ", 4 }, 3173 { "BLOCK_IOPOLL_SOFTIRQ", 5 }, 3174 { "TASKLET_SOFTIRQ", 6 }, 3175 { "SCHED_SOFTIRQ", 7 }, 3176 { "HRTIMER_SOFTIRQ", 8 }, 3177 { "RCU_SOFTIRQ", 9 }, 3178 3179 { "HRTIMER_NORESTART", 0 }, 3180 { "HRTIMER_RESTART", 1 }, 3181}; 3182 3183static unsigned long long eval_flag(const char *flag) 3184{ 3185 int i; 3186 3187 /* 3188 * Some flags in the format files do not get converted. 3189 * If the flag is not numeric, see if it is something that 3190 * we already know about. 3191 */ 3192 if (isdigit(flag[0])) 3193 return strtoull(flag, NULL, 0); 3194 3195 for (i = 0; i < (int)(sizeof(flags)/sizeof(flags[0])); i++) 3196 if (strcmp(flags[i].name, flag) == 0) 3197 return flags[i].value; 3198 3199 return 0; 3200} 3201 3202static void print_str_to_seq(struct trace_seq *s, const char *format, 3203 int len_arg, const char *str) 3204{ 3205 if (len_arg >= 0) 3206 trace_seq_printf(s, format, len_arg, str); 3207 else 3208 trace_seq_printf(s, format, str); 3209} 3210 3211static void print_str_arg(struct trace_seq *s, void *data, int size, 3212 struct event_format *event, const char *format, 3213 int len_arg, struct print_arg *arg) 3214{ 3215 struct pevent *pevent = event->pevent; 3216 struct print_flag_sym *flag; 3217 unsigned long long val, fval; 3218 unsigned long addr; 3219 char *str; 3220 int print; 3221 int len; 3222 3223 switch (arg->type) { 3224 case PRINT_NULL: 3225 /* ?? */ 3226 return; 3227 case PRINT_ATOM: 3228 print_str_to_seq(s, format, len_arg, arg->atom.atom); 3229 return; 3230 case PRINT_FIELD: 3231 if (!arg->field.field) { 3232 arg->field.field = pevent_find_any_field(event, arg->field.name); 3233 if (!arg->field.field) 3234 die("field %s not found", arg->field.name); 3235 } 3236 /* Zero sized fields, mean the rest of the data */ 3237 len = arg->field.field->size ? : size - arg->field.field->offset; 3238 3239 /* 3240 * Some events pass in pointers. If this is not an array 3241 * and the size is the same as long_size, assume that it 3242 * is a pointer. 3243 */ 3244 if (!(arg->field.field->flags & FIELD_IS_ARRAY) && 3245 arg->field.field->size == pevent->long_size) { 3246 addr = *(unsigned long *)(data + arg->field.field->offset); 3247 trace_seq_printf(s, "%lx", addr); 3248 break; 3249 } 3250 str = malloc_or_die(len + 1); 3251 memcpy(str, data + arg->field.field->offset, len); 3252 str[len] = 0; 3253 print_str_to_seq(s, format, len_arg, str); 3254 free(str); 3255 break; 3256 case PRINT_FLAGS: 3257 val = eval_num_arg(data, size, event, arg->flags.field); 3258 print = 0; 3259 for (flag = arg->flags.flags; flag; flag = flag->next) { 3260 fval = eval_flag(flag->value); 3261 if (!val && !fval) { 3262 print_str_to_seq(s, format, len_arg, flag->str); 3263 break; 3264 } 3265 if (fval && (val & fval) == fval) { 3266 if (print && arg->flags.delim) 3267 trace_seq_puts(s, arg->flags.delim); 3268 print_str_to_seq(s, format, len_arg, flag->str); 3269 print = 1; 3270 val &= ~fval; 3271 } 3272 } 3273 break; 3274 case PRINT_SYMBOL: 3275 val = eval_num_arg(data, size, event, arg->symbol.field); 3276 for (flag = arg->symbol.symbols; flag; flag = flag->next) { 3277 fval = eval_flag(flag->value); 3278 if (val == fval) { 3279 print_str_to_seq(s, format, len_arg, flag->str); 3280 break; 3281 } 3282 } 3283 break; 3284 3285 case PRINT_TYPE: 3286 break; 3287 case PRINT_STRING: { 3288 int str_offset; 3289 3290 if (arg->string.offset == -1) { 3291 struct format_field *f; 3292 3293 f = pevent_find_any_field(event, arg->string.string); 3294 arg->string.offset = f->offset; 3295 } 3296 str_offset = data2host4(pevent, data + arg->string.offset); 3297 str_offset &= 0xffff; 3298 print_str_to_seq(s, format, len_arg, ((char *)data) + str_offset); 3299 break; 3300 } 3301 case PRINT_BSTRING: 3302 trace_seq_printf(s, format, arg->string.string); 3303 break; 3304 case PRINT_OP: 3305 /* 3306 * The only op for string should be ? : 3307 */ 3308 if (arg->op.op[0] != '?') 3309 return; 3310 val = eval_num_arg(data, size, event, arg->op.left); 3311 if (val) 3312 print_str_arg(s, data, size, event, 3313 format, len_arg, arg->op.right->op.left); 3314 else 3315 print_str_arg(s, data, size, event, 3316 format, len_arg, arg->op.right->op.right); 3317 break; 3318 case PRINT_FUNC: 3319 process_defined_func(s, data, size, event, arg); 3320 break; 3321 default: 3322 /* well... */ 3323 break; 3324 } 3325} 3326 3327static unsigned long long 3328process_defined_func(struct trace_seq *s, void *data, int size, 3329 struct event_format *event, struct print_arg *arg) 3330{ 3331 struct pevent_function_handler *func_handle = arg->func.func; 3332 struct pevent_func_params *param; 3333 unsigned long long *args; 3334 unsigned long long ret; 3335 struct print_arg *farg; 3336 struct trace_seq str; 3337 struct save_str { 3338 struct save_str *next; 3339 char *str; 3340 } *strings = NULL, *string; 3341 int i; 3342 3343 if (!func_handle->nr_args) { 3344 ret = (*func_handle->func)(s, NULL); 3345 goto out; 3346 } 3347 3348 farg = arg->func.args; 3349 param = func_handle->params; 3350 3351 args = malloc_or_die(sizeof(*args) * func_handle->nr_args); 3352 for (i = 0; i < func_handle->nr_args; i++) { 3353 switch (param->type) { 3354 case PEVENT_FUNC_ARG_INT: 3355 case PEVENT_FUNC_ARG_LONG: 3356 case PEVENT_FUNC_ARG_PTR: 3357 args[i] = eval_num_arg(data, size, event, farg); 3358 break; 3359 case PEVENT_FUNC_ARG_STRING: 3360 trace_seq_init(&str); 3361 print_str_arg(&str, data, size, event, "%s", -1, farg); 3362 trace_seq_terminate(&str); 3363 string = malloc_or_die(sizeof(*string)); 3364 string->next = strings; 3365 string->str = strdup(str.buffer); 3366 strings = string; 3367 trace_seq_destroy(&str); 3368 break; 3369 default: 3370 /* 3371 * Something went totally wrong, this is not 3372 * an input error, something in this code broke. 3373 */ 3374 die("Unexpected end of arguments\n"); 3375 break; 3376 } 3377 farg = farg->next; 3378 param = param->next; 3379 } 3380 3381 ret = (*func_handle->func)(s, args); 3382 free(args); 3383 while (strings) { 3384 string = strings; 3385 strings = string->next; 3386 free(string->str); 3387 free(string); 3388 } 3389 3390 out: 3391 /* TBD : handle return type here */ 3392 return ret; 3393} 3394 3395static struct print_arg *make_bprint_args(char *fmt, void *data, int size, struct event_format *event) 3396{ 3397 struct pevent *pevent = event->pevent; 3398 struct format_field *field, *ip_field; 3399 struct print_arg *args, *arg, **next; 3400 unsigned long long ip, val; 3401 char *ptr; 3402 void *bptr; 3403 3404 field = pevent->bprint_buf_field; 3405 ip_field = pevent->bprint_ip_field; 3406 3407 if (!field) { 3408 field = pevent_find_field(event, "buf"); 3409 if (!field) 3410 die("can't find buffer field for binary printk"); 3411 ip_field = pevent_find_field(event, "ip"); 3412 if (!ip_field) 3413 die("can't find ip field for binary printk"); 3414 pevent->bprint_buf_field = field; 3415 pevent->bprint_ip_field = ip_field; 3416 } 3417 3418 ip = pevent_read_number(pevent, data + ip_field->offset, ip_field->size); 3419 3420 /* 3421 * The first arg is the IP pointer. 3422 */ 3423 args = alloc_arg(); 3424 arg = args; 3425 arg->next = NULL; 3426 next = &arg->next; 3427 3428 arg->type = PRINT_ATOM; 3429 arg->atom.atom = malloc_or_die(32); 3430 sprintf(arg->atom.atom, "%lld", ip); 3431 3432 /* skip the first "%pf : " */ 3433 for (ptr = fmt + 6, bptr = data + field->offset; 3434 bptr < data + size && *ptr; ptr++) { 3435 int ls = 0; 3436 3437 if (*ptr == '%') { 3438 process_again: 3439 ptr++; 3440 switch (*ptr) { 3441 case '%': 3442 break; 3443 case 'l': 3444 ls++; 3445 goto process_again; 3446 case 'L': 3447 ls = 2; 3448 goto process_again; 3449 case '0' ... '9': 3450 goto process_again; 3451 case 'p': 3452 ls = 1; 3453 /* fall through */ 3454 case 'd': 3455 case 'u': 3456 case 'x': 3457 case 'i': 3458 /* the pointers are always 4 bytes aligned */ 3459 bptr = (void *)(((unsigned long)bptr + 3) & 3460 ~3); 3461 switch (ls) { 3462 case 0: 3463 ls = 4; 3464 break; 3465 case 1: 3466 ls = pevent->long_size; 3467 break; 3468 case 2: 3469 ls = 8; 3470 default: 3471 break; 3472 } 3473 val = pevent_read_number(pevent, bptr, ls); 3474 bptr += ls; 3475 arg = alloc_arg(); 3476 arg->next = NULL; 3477 arg->type = PRINT_ATOM; 3478 arg->atom.atom = malloc_or_die(32); 3479 sprintf(arg->atom.atom, "%lld", val); 3480 *next = arg; 3481 next = &arg->next; 3482 break; 3483 case 's': 3484 arg = alloc_arg(); 3485 arg->next = NULL; 3486 arg->type = PRINT_BSTRING; 3487 arg->string.string = strdup(bptr); 3488 bptr += strlen(bptr) + 1; 3489 *next = arg; 3490 next = &arg->next; 3491 default: 3492 break; 3493 } 3494 } 3495 } 3496 3497 return args; 3498} 3499 3500static void free_args(struct print_arg *args) 3501{ 3502 struct print_arg *next; 3503 3504 while (args) { 3505 next = args->next; 3506 3507 free_arg(args); 3508 args = next; 3509 } 3510} 3511 3512static char * 3513get_bprint_format(void *data, int size __unused, struct event_format *event) 3514{ 3515 struct pevent *pevent = event->pevent; 3516 unsigned long long addr; 3517 struct format_field *field; 3518 struct printk_map *printk; 3519 char *format; 3520 char *p; 3521 3522 field = pevent->bprint_fmt_field; 3523 3524 if (!field) { 3525 field = pevent_find_field(event, "fmt"); 3526 if (!field) 3527 die("can't find format field for binary printk"); 3528 pevent->bprint_fmt_field = field; 3529 } 3530 3531 addr = pevent_read_number(pevent, data + field->offset, field->size); 3532 3533 printk = find_printk(pevent, addr); 3534 if (!printk) { 3535 format = malloc_or_die(45); 3536 sprintf(format, "%%pf : (NO FORMAT FOUND at %llx)\n", 3537 addr); 3538 return format; 3539 } 3540 3541 p = printk->printk; 3542 /* Remove any quotes. */ 3543 if (*p == '"') 3544 p++; 3545 format = malloc_or_die(strlen(p) + 10); 3546 sprintf(format, "%s : %s", "%pf", p); 3547 /* remove ending quotes and new line since we will add one too */ 3548 p = format + strlen(format) - 1; 3549 if (*p == '"') 3550 *p = 0; 3551 3552 p -= 2; 3553 if (strcmp(p, "\\n") == 0) 3554 *p = 0; 3555 3556 return format; 3557} 3558 3559static void print_mac_arg(struct trace_seq *s, int mac, void *data, int size, 3560 struct event_format *event, struct print_arg *arg) 3561{ 3562 unsigned char *buf; 3563 char *fmt = "%.2x:%.2x:%.2x:%.2x:%.2x:%.2x"; 3564 3565 if (arg->type == PRINT_FUNC) { 3566 process_defined_func(s, data, size, event, arg); 3567 return; 3568 } 3569 3570 if (arg->type != PRINT_FIELD) { 3571 trace_seq_printf(s, "ARG TYPE NOT FIELD BUT %d", 3572 arg->type); 3573 return; 3574 } 3575 3576 if (mac == 'm') 3577 fmt = "%.2x%.2x%.2x%.2x%.2x%.2x"; 3578 if (!arg->field.field) { 3579 arg->field.field = 3580 pevent_find_any_field(event, arg->field.name); 3581 if (!arg->field.field) 3582 die("field %s not found", arg->field.name); 3583 } 3584 if (arg->field.field->size != 6) { 3585 trace_seq_printf(s, "INVALIDMAC"); 3586 return; 3587 } 3588 buf = data + arg->field.field->offset; 3589 trace_seq_printf(s, fmt, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5]); 3590} 3591 3592static void print_event_fields(struct trace_seq *s, void *data, int size, 3593 struct event_format *event) 3594{ 3595 struct format_field *field; 3596 unsigned long long val; 3597 unsigned int offset, len, i; 3598 3599 field = event->format.fields; 3600 while (field) { 3601 trace_seq_printf(s, " %s=", field->name); 3602 if (field->flags & FIELD_IS_ARRAY) { 3603 offset = field->offset; 3604 len = field->size; 3605 if (field->flags & FIELD_IS_DYNAMIC) { 3606 val = pevent_read_number(event->pevent, data + offset, len); 3607 offset = val; 3608 len = offset >> 16; 3609 offset &= 0xffff; 3610 } 3611 if (field->flags & FIELD_IS_STRING) { 3612 trace_seq_printf(s, "%s", (char *)data + offset); 3613 } else { 3614 trace_seq_puts(s, "ARRAY["); 3615 for (i = 0; i < len; i++) { 3616 if (i) 3617 trace_seq_puts(s, ", "); 3618 trace_seq_printf(s, "%02x", 3619 *((unsigned char *)data + offset + i)); 3620 } 3621 trace_seq_putc(s, ']'); 3622 } 3623 } else { 3624 val = pevent_read_number(event->pevent, data + field->offset, 3625 field->size); 3626 if (field->flags & FIELD_IS_POINTER) { 3627 trace_seq_printf(s, "0x%llx", val); 3628 } else if (field->flags & FIELD_IS_SIGNED) { 3629 switch (field->size) { 3630 case 4: 3631 /* 3632 * If field is long then print it in hex. 3633 * A long usually stores pointers. 3634 */ 3635 if (field->flags & FIELD_IS_LONG) 3636 trace_seq_printf(s, "0x%x", (int)val); 3637 else 3638 trace_seq_printf(s, "%d", (int)val); 3639 break; 3640 case 2: 3641 trace_seq_printf(s, "%2d", (short)val); 3642 break; 3643 case 1: 3644 trace_seq_printf(s, "%1d", (char)val); 3645 break; 3646 default: 3647 trace_seq_printf(s, "%lld", val); 3648 } 3649 } else { 3650 if (field->flags & FIELD_IS_LONG) 3651 trace_seq_printf(s, "0x%llx", val); 3652 else 3653 trace_seq_printf(s, "%llu", val); 3654 } 3655 } 3656 field = field->next; 3657 } 3658} 3659 3660static void pretty_print(struct trace_seq *s, void *data, int size, struct event_format *event) 3661{ 3662 struct pevent *pevent = event->pevent; 3663 struct print_fmt *print_fmt = &event->print_fmt; 3664 struct print_arg *arg = print_fmt->args; 3665 struct print_arg *args = NULL; 3666 const char *ptr = print_fmt->format; 3667 unsigned long long val; 3668 struct func_map *func; 3669 const char *saveptr; 3670 char *bprint_fmt = NULL; 3671 char format[32]; 3672 int show_func; 3673 int len_as_arg; 3674 int len_arg; 3675 int len; 3676 int ls; 3677 3678 if (event->flags & EVENT_FL_FAILED) { 3679 trace_seq_printf(s, "[FAILED TO PARSE]"); 3680 print_event_fields(s, data, size, event); 3681 return; 3682 } 3683 3684 if (event->flags & EVENT_FL_ISBPRINT) { 3685 bprint_fmt = get_bprint_format(data, size, event); 3686 args = make_bprint_args(bprint_fmt, data, size, event); 3687 arg = args; 3688 ptr = bprint_fmt; 3689 } 3690 3691 for (; *ptr; ptr++) { 3692 ls = 0; 3693 if (*ptr == '\\') { 3694 ptr++; 3695 switch (*ptr) { 3696 case 'n': 3697 trace_seq_putc(s, '\n'); 3698 break; 3699 case 't': 3700 trace_seq_putc(s, '\t'); 3701 break; 3702 case 'r': 3703 trace_seq_putc(s, '\r'); 3704 break; 3705 case '\\': 3706 trace_seq_putc(s, '\\'); 3707 break; 3708 default: 3709 trace_seq_putc(s, *ptr); 3710 break; 3711 } 3712 3713 } else if (*ptr == '%') { 3714 saveptr = ptr; 3715 show_func = 0; 3716 len_as_arg = 0; 3717 cont_process: 3718 ptr++; 3719 switch (*ptr) { 3720 case '%': 3721 trace_seq_putc(s, '%'); 3722 break; 3723 case '#': 3724 /* FIXME: need to handle properly */ 3725 goto cont_process; 3726 case 'h': 3727 ls--; 3728 goto cont_process; 3729 case 'l': 3730 ls++; 3731 goto cont_process; 3732 case 'L': 3733 ls = 2; 3734 goto cont_process; 3735 case '*': 3736 /* The argument is the length. */ 3737 if (!arg) 3738 die("no argument match"); 3739 len_arg = eval_num_arg(data, size, event, arg); 3740 len_as_arg = 1; 3741 arg = arg->next; 3742 goto cont_process; 3743 case '.': 3744 case 'z': 3745 case 'Z': 3746 case '0' ... '9': 3747 goto cont_process; 3748 case 'p': 3749 if (pevent->long_size == 4) 3750 ls = 1; 3751 else 3752 ls = 2; 3753 3754 if (*(ptr+1) == 'F' || 3755 *(ptr+1) == 'f') { 3756 ptr++; 3757 show_func = *ptr; 3758 } else if (*(ptr+1) == 'M' || *(ptr+1) == 'm') { 3759 print_mac_arg(s, *(ptr+1), data, size, event, arg); 3760 ptr++; 3761 break; 3762 } 3763 3764 /* fall through */ 3765 case 'd': 3766 case 'i': 3767 case 'x': 3768 case 'X': 3769 case 'u': 3770 if (!arg) 3771 die("no argument match"); 3772 3773 len = ((unsigned long)ptr + 1) - 3774 (unsigned long)saveptr; 3775 3776 /* should never happen */ 3777 if (len > 31) 3778 die("bad format!"); 3779 3780 memcpy(format, saveptr, len); 3781 format[len] = 0; 3782 3783 val = eval_num_arg(data, size, event, arg); 3784 arg = arg->next; 3785 3786 if (show_func) { 3787 func = find_func(pevent, val); 3788 if (func) { 3789 trace_seq_puts(s, func->func); 3790 if (show_func == 'F') 3791 trace_seq_printf(s, 3792 "+0x%llx", 3793 val - func->addr); 3794 break; 3795 } 3796 } 3797 if (pevent->long_size == 8 && ls) { 3798 char *p; 3799 3800 ls = 2; 3801 /* make %l into %ll */ 3802 p = strchr(format, 'l'); 3803 if (p) 3804 memmove(p, p+1, strlen(p)+1); 3805 else if (strcmp(format, "%p") == 0) 3806 strcpy(format, "0x%llx"); 3807 } 3808 switch (ls) { 3809 case -2: 3810 if (len_as_arg) 3811 trace_seq_printf(s, format, len_arg, (char)val); 3812 else 3813 trace_seq_printf(s, format, (char)val); 3814 break; 3815 case -1: 3816 if (len_as_arg) 3817 trace_seq_printf(s, format, len_arg, (short)val); 3818 else 3819 trace_seq_printf(s, format, (short)val); 3820 break; 3821 case 0: 3822 if (len_as_arg) 3823 trace_seq_printf(s, format, len_arg, (int)val); 3824 else 3825 trace_seq_printf(s, format, (int)val); 3826 break; 3827 case 1: 3828 if (len_as_arg) 3829 trace_seq_printf(s, format, len_arg, (long)val); 3830 else 3831 trace_seq_printf(s, format, (long)val); 3832 break; 3833 case 2: 3834 if (len_as_arg) 3835 trace_seq_printf(s, format, len_arg, 3836 (long long)val); 3837 else 3838 trace_seq_printf(s, format, (long long)val); 3839 break; 3840 default: 3841 die("bad count (%d)", ls); 3842 } 3843 break; 3844 case 's': 3845 if (!arg) 3846 die("no matching argument"); 3847 3848 len = ((unsigned long)ptr + 1) - 3849 (unsigned long)saveptr; 3850 3851 /* should never happen */ 3852 if (len > 31) 3853 die("bad format!"); 3854 3855 memcpy(format, saveptr, len); 3856 format[len] = 0; 3857 if (!len_as_arg) 3858 len_arg = -1; 3859 print_str_arg(s, data, size, event, 3860 format, len_arg, arg); 3861 arg = arg->next; 3862 break; 3863 default: 3864 trace_seq_printf(s, ">%c<", *ptr); 3865 3866 } 3867 } else 3868 trace_seq_putc(s, *ptr); 3869 } 3870 3871 if (args) { 3872 free_args(args); 3873 free(bprint_fmt); 3874 } 3875} 3876 3877/** 3878 * pevent_data_lat_fmt - parse the data for the latency format 3879 * @pevent: a handle to the pevent 3880 * @s: the trace_seq to write to 3881 * @data: the raw data to read from 3882 * @size: currently unused. 3883 * 3884 * This parses out the Latency format (interrupts disabled, 3885 * need rescheduling, in hard/soft interrupt, preempt count 3886 * and lock depth) and places it into the trace_seq. 3887 */ 3888void pevent_data_lat_fmt(struct pevent *pevent, 3889 struct trace_seq *s, struct pevent_record *record) 3890{ 3891 static int check_lock_depth = 1; 3892 static int lock_depth_exists; 3893 unsigned int lat_flags; 3894 unsigned int pc; 3895 int lock_depth; 3896 int hardirq; 3897 int softirq; 3898 void *data = record->data; 3899 3900 lat_flags = parse_common_flags(pevent, data); 3901 pc = parse_common_pc(pevent, data); 3902 /* lock_depth may not always exist */ 3903 if (check_lock_depth) { 3904 struct format_field *field; 3905 struct event_format *event; 3906 3907 check_lock_depth = 0; 3908 event = pevent->events[0]; 3909 field = pevent_find_common_field(event, "common_lock_depth"); 3910 if (field) 3911 lock_depth_exists = 1; 3912 } 3913 if (lock_depth_exists) 3914 lock_depth = parse_common_lock_depth(pevent, data); 3915 3916 hardirq = lat_flags & TRACE_FLAG_HARDIRQ; 3917 softirq = lat_flags & TRACE_FLAG_SOFTIRQ; 3918 3919 trace_seq_printf(s, "%c%c%c", 3920 (lat_flags & TRACE_FLAG_IRQS_OFF) ? 'd' : 3921 (lat_flags & TRACE_FLAG_IRQS_NOSUPPORT) ? 3922 'X' : '.', 3923 (lat_flags & TRACE_FLAG_NEED_RESCHED) ? 3924 'N' : '.', 3925 (hardirq && softirq) ? 'H' : 3926 hardirq ? 'h' : softirq ? 's' : '.'); 3927 3928 if (pc) 3929 trace_seq_printf(s, "%x", pc); 3930 else 3931 trace_seq_putc(s, '.'); 3932 3933 if (lock_depth_exists) { 3934 if (lock_depth < 0) 3935 trace_seq_putc(s, '.'); 3936 else 3937 trace_seq_printf(s, "%d", lock_depth); 3938 } 3939 3940 trace_seq_terminate(s); 3941} 3942 3943/** 3944 * pevent_data_type - parse out the given event type 3945 * @pevent: a handle to the pevent 3946 * @rec: the record to read from 3947 * 3948 * This returns the event id from the @rec. 3949 */ 3950int pevent_data_type(struct pevent *pevent, struct pevent_record *rec) 3951{ 3952 return trace_parse_common_type(pevent, rec->data); 3953} 3954 3955/** 3956 * pevent_data_event_from_type - find the event by a given type 3957 * @pevent: a handle to the pevent 3958 * @type: the type of the event. 3959 * 3960 * This returns the event form a given @type; 3961 */ 3962struct event_format *pevent_data_event_from_type(struct pevent *pevent, int type) 3963{ 3964 return pevent_find_event(pevent, type); 3965} 3966 3967/** 3968 * pevent_data_pid - parse the PID from raw data 3969 * @pevent: a handle to the pevent 3970 * @rec: the record to parse 3971 * 3972 * This returns the PID from a raw data. 3973 */ 3974int pevent_data_pid(struct pevent *pevent, struct pevent_record *rec) 3975{ 3976 return parse_common_pid(pevent, rec->data); 3977} 3978 3979/** 3980 * pevent_data_comm_from_pid - return the command line from PID 3981 * @pevent: a handle to the pevent 3982 * @pid: the PID of the task to search for 3983 * 3984 * This returns a pointer to the command line that has the given 3985 * @pid. 3986 */ 3987const char *pevent_data_comm_from_pid(struct pevent *pevent, int pid) 3988{ 3989 const char *comm; 3990 3991 comm = find_cmdline(pevent, pid); 3992 return comm; 3993} 3994 3995/** 3996 * pevent_data_comm_from_pid - parse the data into the print format 3997 * @s: the trace_seq to write to 3998 * @event: the handle to the event 3999 * @cpu: the cpu the event was recorded on 4000 * @data: the raw data 4001 * @size: the size of the raw data 4002 * @nsecs: the timestamp of the event 4003 * 4004 * This parses the raw @data using the given @event information and 4005 * writes the print format into the trace_seq. 4006 */ 4007void pevent_event_info(struct trace_seq *s, struct event_format *event, 4008 struct pevent_record *record) 4009{ 4010 int print_pretty = 1; 4011 4012 if (event->pevent->print_raw) 4013 print_event_fields(s, record->data, record->size, event); 4014 else { 4015 4016 if (event->handler) 4017 print_pretty = event->handler(s, record, event, 4018 event->context); 4019 4020 if (print_pretty) 4021 pretty_print(s, record->data, record->size, event); 4022 } 4023 4024 trace_seq_terminate(s); 4025} 4026 4027void pevent_print_event(struct pevent *pevent, struct trace_seq *s, 4028 struct pevent_record *record) 4029{ 4030 static char *spaces = " "; /* 20 spaces */ 4031 struct event_format *event; 4032 unsigned long secs; 4033 unsigned long usecs; 4034 unsigned long nsecs; 4035 const char *comm; 4036 void *data = record->data; 4037 int type; 4038 int pid; 4039 int len; 4040 int p; 4041 4042 secs = record->ts / NSECS_PER_SEC; 4043 nsecs = record->ts - secs * NSECS_PER_SEC; 4044 4045 if (record->size < 0) { 4046 do_warning("ug! negative record size %d", record->size); 4047 return; 4048 } 4049 4050 type = trace_parse_common_type(pevent, data); 4051 4052 event = pevent_find_event(pevent, type); 4053 if (!event) { 4054 do_warning("ug! no event found for type %d", type); 4055 return; 4056 } 4057 4058 pid = parse_common_pid(pevent, data); 4059 comm = find_cmdline(pevent, pid); 4060 4061 if (pevent->latency_format) { 4062 trace_seq_printf(s, "%8.8s-%-5d %3d", 4063 comm, pid, record->cpu); 4064 pevent_data_lat_fmt(pevent, s, record); 4065 } else 4066 trace_seq_printf(s, "%16s-%-5d [%03d]", comm, pid, record->cpu); 4067 4068 if (pevent->flags & PEVENT_NSEC_OUTPUT) { 4069 usecs = nsecs; 4070 p = 9; 4071 } else { 4072 usecs = (nsecs + 500) / NSECS_PER_USEC; 4073 p = 6; 4074 } 4075 4076 trace_seq_printf(s, " %5lu.%0*lu: %s: ", secs, p, usecs, event->name); 4077 4078 /* Space out the event names evenly. */ 4079 len = strlen(event->name); 4080 if (len < 20) 4081 trace_seq_printf(s, "%.*s", 20 - len, spaces); 4082 4083 pevent_event_info(s, event, record); 4084} 4085 4086static int events_id_cmp(const void *a, const void *b) 4087{ 4088 struct event_format * const * ea = a; 4089 struct event_format * const * eb = b; 4090 4091 if ((*ea)->id < (*eb)->id) 4092 return -1; 4093 4094 if ((*ea)->id > (*eb)->id) 4095 return 1; 4096 4097 return 0; 4098} 4099 4100static int events_name_cmp(const void *a, const void *b) 4101{ 4102 struct event_format * const * ea = a; 4103 struct event_format * const * eb = b; 4104 int res; 4105 4106 res = strcmp((*ea)->name, (*eb)->name); 4107 if (res) 4108 return res; 4109 4110 res = strcmp((*ea)->system, (*eb)->system); 4111 if (res) 4112 return res; 4113 4114 return events_id_cmp(a, b); 4115} 4116 4117static int events_system_cmp(const void *a, const void *b) 4118{ 4119 struct event_format * const * ea = a; 4120 struct event_format * const * eb = b; 4121 int res; 4122 4123 res = strcmp((*ea)->system, (*eb)->system); 4124 if (res) 4125 return res; 4126 4127 res = strcmp((*ea)->name, (*eb)->name); 4128 if (res) 4129 return res; 4130 4131 return events_id_cmp(a, b); 4132} 4133 4134struct event_format **pevent_list_events(struct pevent *pevent, enum event_sort_type sort_type) 4135{ 4136 struct event_format **events; 4137 int (*sort)(const void *a, const void *b); 4138 4139 events = pevent->sort_events; 4140 4141 if (events && pevent->last_type == sort_type) 4142 return events; 4143 4144 if (!events) { 4145 events = malloc(sizeof(*events) * (pevent->nr_events + 1)); 4146 if (!events) 4147 return NULL; 4148 4149 memcpy(events, pevent->events, sizeof(*events) * pevent->nr_events); 4150 events[pevent->nr_events] = NULL; 4151 4152 pevent->sort_events = events; 4153 4154 /* the internal events are sorted by id */ 4155 if (sort_type == EVENT_SORT_ID) { 4156 pevent->last_type = sort_type; 4157 return events; 4158 } 4159 } 4160 4161 switch (sort_type) { 4162 case EVENT_SORT_ID: 4163 sort = events_id_cmp; 4164 break; 4165 case EVENT_SORT_NAME: 4166 sort = events_name_cmp; 4167 break; 4168 case EVENT_SORT_SYSTEM: 4169 sort = events_system_cmp; 4170 break; 4171 default: 4172 return events; 4173 } 4174 4175 qsort(events, pevent->nr_events, sizeof(*events), sort); 4176 pevent->last_type = sort_type; 4177 4178 return events; 4179} 4180 4181static struct format_field ** 4182get_event_fields(const char *type, const char *name, 4183 int count, struct format_field *list) 4184{ 4185 struct format_field **fields; 4186 struct format_field *field; 4187 int i = 0; 4188 4189 fields = malloc_or_die(sizeof(*fields) * (count + 1)); 4190 for (field = list; field; field = field->next) { 4191 fields[i++] = field; 4192 if (i == count + 1) { 4193 do_warning("event %s has more %s fields than specified", 4194 name, type); 4195 i--; 4196 break; 4197 } 4198 } 4199 4200 if (i != count) 4201 do_warning("event %s has less %s fields than specified", 4202 name, type); 4203 4204 fields[i] = NULL; 4205 4206 return fields; 4207} 4208 4209/** 4210 * pevent_event_common_fields - return a list of common fields for an event 4211 * @event: the event to return the common fields of. 4212 * 4213 * Returns an allocated array of fields. The last item in the array is NULL. 4214 * The array must be freed with free(). 4215 */ 4216struct format_field **pevent_event_common_fields(struct event_format *event) 4217{ 4218 return get_event_fields("common", event->name, 4219 event->format.nr_common, 4220 event->format.common_fields); 4221} 4222 4223/** 4224 * pevent_event_fields - return a list of event specific fields for an event 4225 * @event: the event to return the fields of. 4226 * 4227 * Returns an allocated array of fields. The last item in the array is NULL. 4228 * The array must be freed with free(). 4229 */ 4230struct format_field **pevent_event_fields(struct event_format *event) 4231{ 4232 return get_event_fields("event", event->name, 4233 event->format.nr_fields, 4234 event->format.fields); 4235} 4236 4237static void print_fields(struct trace_seq *s, struct print_flag_sym *field) 4238{ 4239 trace_seq_printf(s, "{ %s, %s }", field->value, field->str); 4240 if (field->next) { 4241 trace_seq_puts(s, ", "); 4242 print_fields(s, field->next); 4243 } 4244} 4245 4246/* for debugging */ 4247static void print_args(struct print_arg *args) 4248{ 4249 int print_paren = 1; 4250 struct trace_seq s; 4251 4252 switch (args->type) { 4253 case PRINT_NULL: 4254 printf("null"); 4255 break; 4256 case PRINT_ATOM: 4257 printf("%s", args->atom.atom); 4258 break; 4259 case PRINT_FIELD: 4260 printf("REC->%s", args->field.name); 4261 break; 4262 case PRINT_FLAGS: 4263 printf("__print_flags("); 4264 print_args(args->flags.field); 4265 printf(", %s, ", args->flags.delim); 4266 trace_seq_init(&s); 4267 print_fields(&s, args->flags.flags); 4268 trace_seq_do_printf(&s); 4269 trace_seq_destroy(&s); 4270 printf(")"); 4271 break; 4272 case PRINT_SYMBOL: 4273 printf("__print_symbolic("); 4274 print_args(args->symbol.field); 4275 printf(", "); 4276 trace_seq_init(&s); 4277 print_fields(&s, args->symbol.symbols); 4278 trace_seq_do_printf(&s); 4279 trace_seq_destroy(&s); 4280 printf(")"); 4281 break; 4282 case PRINT_STRING: 4283 case PRINT_BSTRING: 4284 printf("__get_str(%s)", args->string.string); 4285 break; 4286 case PRINT_TYPE: 4287 printf("(%s)", args->typecast.type); 4288 print_args(args->typecast.item); 4289 break; 4290 case PRINT_OP: 4291 if (strcmp(args->op.op, ":") == 0) 4292 print_paren = 0; 4293 if (print_paren) 4294 printf("("); 4295 print_args(args->op.left); 4296 printf(" %s ", args->op.op); 4297 print_args(args->op.right); 4298 if (print_paren) 4299 printf(")"); 4300 break; 4301 default: 4302 /* we should warn... */ 4303 return; 4304 } 4305 if (args->next) { 4306 printf("\n"); 4307 print_args(args->next); 4308 } 4309} 4310 4311static void parse_header_field(const char *field, 4312 int *offset, int *size, int mandatory) 4313{ 4314 unsigned long long save_input_buf_ptr; 4315 unsigned long long save_input_buf_siz; 4316 char *token; 4317 int type; 4318 4319 save_input_buf_ptr = input_buf_ptr; 4320 save_input_buf_siz = input_buf_siz; 4321 4322 if (read_expected(EVENT_ITEM, "field") < 0) 4323 return; 4324 if (read_expected(EVENT_OP, ":") < 0) 4325 return; 4326 4327 /* type */ 4328 if (read_expect_type(EVENT_ITEM, &token) < 0) 4329 goto fail; 4330 free_token(token); 4331 4332 /* 4333 * If this is not a mandatory field, then test it first. 4334 */ 4335 if (mandatory) { 4336 if (read_expected(EVENT_ITEM, field) < 0) 4337 return; 4338 } else { 4339 if (read_expect_type(EVENT_ITEM, &token) < 0) 4340 goto fail; 4341 if (strcmp(token, field) != 0) 4342 goto discard; 4343 free_token(token); 4344 } 4345 4346 if (read_expected(EVENT_OP, ";") < 0) 4347 return; 4348 if (read_expected(EVENT_ITEM, "offset") < 0) 4349 return; 4350 if (read_expected(EVENT_OP, ":") < 0) 4351 return; 4352 if (read_expect_type(EVENT_ITEM, &token) < 0) 4353 goto fail; 4354 *offset = atoi(token); 4355 free_token(token); 4356 if (read_expected(EVENT_OP, ";") < 0) 4357 return; 4358 if (read_expected(EVENT_ITEM, "size") < 0) 4359 return; 4360 if (read_expected(EVENT_OP, ":") < 0) 4361 return; 4362 if (read_expect_type(EVENT_ITEM, &token) < 0) 4363 goto fail; 4364 *size = atoi(token); 4365 free_token(token); 4366 if (read_expected(EVENT_OP, ";") < 0) 4367 return; 4368 type = read_token(&token); 4369 if (type != EVENT_NEWLINE) { 4370 /* newer versions of the kernel have a "signed" type */ 4371 if (type != EVENT_ITEM) 4372 goto fail; 4373 4374 if (strcmp(token, "signed") != 0) 4375 goto fail; 4376 4377 free_token(token); 4378 4379 if (read_expected(EVENT_OP, ":") < 0) 4380 return; 4381 4382 if (read_expect_type(EVENT_ITEM, &token)) 4383 goto fail; 4384 4385 free_token(token); 4386 if (read_expected(EVENT_OP, ";") < 0) 4387 return; 4388 4389 if (read_expect_type(EVENT_NEWLINE, &token)) 4390 goto fail; 4391 } 4392 fail: 4393 free_token(token); 4394 return; 4395 4396 discard: 4397 input_buf_ptr = save_input_buf_ptr; 4398 input_buf_siz = save_input_buf_siz; 4399 *offset = 0; 4400 *size = 0; 4401 free_token(token); 4402} 4403 4404/** 4405 * pevent_parse_header_page - parse the data stored in the header page 4406 * @pevent: the handle to the pevent 4407 * @buf: the buffer storing the header page format string 4408 * @size: the size of @buf 4409 * @long_size: the long size to use if there is no header 4410 * 4411 * This parses the header page format for information on the 4412 * ring buffer used. The @buf should be copied from 4413 * 4414 * /sys/kernel/debug/tracing/events/header_page 4415 */ 4416int pevent_parse_header_page(struct pevent *pevent, char *buf, unsigned long size, 4417 int long_size) 4418{ 4419 int ignore; 4420 4421 if (!size) { 4422 /* 4423 * Old kernels did not have header page info. 4424 * Sorry but we just use what we find here in user space. 4425 */ 4426 pevent->header_page_ts_size = sizeof(long long); 4427 pevent->header_page_size_size = long_size; 4428 pevent->header_page_data_offset = sizeof(long long) + long_size; 4429 pevent->old_format = 1; 4430 return -1; 4431 } 4432 init_input_buf(buf, size); 4433 4434 parse_header_field("timestamp", &pevent->header_page_ts_offset, 4435 &pevent->header_page_ts_size, 1); 4436 parse_header_field("commit", &pevent->header_page_size_offset, 4437 &pevent->header_page_size_size, 1); 4438 parse_header_field("overwrite", &pevent->header_page_overwrite, 4439 &ignore, 0); 4440 parse_header_field("data", &pevent->header_page_data_offset, 4441 &pevent->header_page_data_size, 1); 4442 4443 return 0; 4444} 4445 4446static int event_matches(struct event_format *event, 4447 int id, const char *sys_name, 4448 const char *event_name) 4449{ 4450 if (id >= 0 && id != event->id) 4451 return 0; 4452 4453 if (event_name && (strcmp(event_name, event->name) != 0)) 4454 return 0; 4455 4456 if (sys_name && (strcmp(sys_name, event->system) != 0)) 4457 return 0; 4458 4459 return 1; 4460} 4461 4462static void free_handler(struct event_handler *handle) 4463{ 4464 free((void *)handle->sys_name); 4465 free((void *)handle->event_name); 4466 free(handle); 4467} 4468 4469static int find_event_handle(struct pevent *pevent, struct event_format *event) 4470{ 4471 struct event_handler *handle, **next; 4472 4473 for (next = &pevent->handlers; *next; 4474 next = &(*next)->next) { 4475 handle = *next; 4476 if (event_matches(event, handle->id, 4477 handle->sys_name, 4478 handle->event_name)) 4479 break; 4480 } 4481 4482 if (!(*next)) 4483 return 0; 4484 4485 pr_stat("overriding event (%d) %s:%s with new print handler", 4486 event->id, event->system, event->name); 4487 4488 event->handler = handle->func; 4489 event->context = handle->context; 4490 4491 *next = handle->next; 4492 free_handler(handle); 4493 4494 return 1; 4495} 4496 4497/** 4498 * pevent_parse_event - parse the event format 4499 * @pevent: the handle to the pevent 4500 * @buf: the buffer storing the event format string 4501 * @size: the size of @buf 4502 * @sys: the system the event belongs to 4503 * 4504 * This parses the event format and creates an event structure 4505 * to quickly parse raw data for a given event. 4506 * 4507 * These files currently come from: 4508 * 4509 * /sys/kernel/debug/tracing/events/.../.../format 4510 */ 4511int pevent_parse_event(struct pevent *pevent, 4512 const char *buf, unsigned long size, 4513 const char *sys) 4514{ 4515 struct event_format *event; 4516 int ret; 4517 4518 init_input_buf(buf, size); 4519 4520 event = alloc_event(); 4521 if (!event) 4522 return -ENOMEM; 4523 4524 event->name = event_read_name(); 4525 if (!event->name) { 4526 /* Bad event? */ 4527 free(event); 4528 return -1; 4529 } 4530 4531 if (strcmp(sys, "ftrace") == 0) { 4532 4533 event->flags |= EVENT_FL_ISFTRACE; 4534 4535 if (strcmp(event->name, "bprint") == 0) 4536 event->flags |= EVENT_FL_ISBPRINT; 4537 } 4538 4539 event->id = event_read_id(); 4540 if (event->id < 0) 4541 die("failed to read event id"); 4542 4543 event->system = strdup(sys); 4544 4545 /* Add pevent to event so that it can be referenced */ 4546 event->pevent = pevent; 4547 4548 ret = event_read_format(event); 4549 if (ret < 0) { 4550 do_warning("failed to read event format for %s", event->name); 4551 goto event_failed; 4552 } 4553 4554 /* 4555 * If the event has an override, don't print warnings if the event 4556 * print format fails to parse. 4557 */ 4558 if (find_event_handle(pevent, event)) 4559 show_warning = 0; 4560 4561 ret = event_read_print(event); 4562 if (ret < 0) { 4563 do_warning("failed to read event print fmt for %s", 4564 event->name); 4565 show_warning = 1; 4566 goto event_failed; 4567 } 4568 show_warning = 1; 4569 4570 add_event(pevent, event); 4571 4572 if (!ret && (event->flags & EVENT_FL_ISFTRACE)) { 4573 struct format_field *field; 4574 struct print_arg *arg, **list; 4575 4576 /* old ftrace had no args */ 4577 4578 list = &event->print_fmt.args; 4579 for (field = event->format.fields; field; field = field->next) { 4580 arg = alloc_arg(); 4581 *list = arg; 4582 list = &arg->next; 4583 arg->type = PRINT_FIELD; 4584 arg->field.name = strdup(field->name); 4585 arg->field.field = field; 4586 } 4587 return 0; 4588 } 4589 4590#define PRINT_ARGS 0 4591 if (PRINT_ARGS && event->print_fmt.args) 4592 print_args(event->print_fmt.args); 4593 4594 return 0; 4595 4596 event_failed: 4597 event->flags |= EVENT_FL_FAILED; 4598 /* still add it even if it failed */ 4599 add_event(pevent, event); 4600 return -1; 4601} 4602 4603int get_field_val(struct trace_seq *s, struct format_field *field, 4604 const char *name, struct pevent_record *record, 4605 unsigned long long *val, int err) 4606{ 4607 if (!field) { 4608 if (err) 4609 trace_seq_printf(s, "<CANT FIND FIELD %s>", name); 4610 return -1; 4611 } 4612 4613 if (pevent_read_number_field(field, record->data, val)) { 4614 if (err) 4615 trace_seq_printf(s, " %s=INVALID", name); 4616 return -1; 4617 } 4618 4619 return 0; 4620} 4621 4622/** 4623 * pevent_get_field_raw - return the raw pointer into the data field 4624 * @s: The seq to print to on error 4625 * @event: the event that the field is for 4626 * @name: The name of the field 4627 * @record: The record with the field name. 4628 * @len: place to store the field length. 4629 * @err: print default error if failed. 4630 * 4631 * Returns a pointer into record->data of the field and places 4632 * the length of the field in @len. 4633 * 4634 * On failure, it returns NULL. 4635 */ 4636void *pevent_get_field_raw(struct trace_seq *s, struct event_format *event, 4637 const char *name, struct pevent_record *record, 4638 int *len, int err) 4639{ 4640 struct format_field *field; 4641 void *data = record->data; 4642 unsigned offset; 4643 int dummy; 4644 4645 if (!event) 4646 return NULL; 4647 4648 field = pevent_find_field(event, name); 4649 4650 if (!field) { 4651 if (err) 4652 trace_seq_printf(s, "<CANT FIND FIELD %s>", name); 4653 return NULL; 4654 } 4655 4656 /* Allow @len to be NULL */ 4657 if (!len) 4658 len = &dummy; 4659 4660 offset = field->offset; 4661 if (field->flags & FIELD_IS_DYNAMIC) { 4662 offset = pevent_read_number(event->pevent, 4663 data + offset, field->size); 4664 *len = offset >> 16; 4665 offset &= 0xffff; 4666 } else 4667 *len = field->size; 4668 4669 return data + offset; 4670} 4671 4672/** 4673 * pevent_get_field_val - find a field and return its value 4674 * @s: The seq to print to on error 4675 * @event: the event that the field is for 4676 * @name: The name of the field 4677 * @record: The record with the field name. 4678 * @val: place to store the value of the field. 4679 * @err: print default error if failed. 4680 * 4681 * Returns 0 on success -1 on field not found. 4682 */ 4683int pevent_get_field_val(struct trace_seq *s, struct event_format *event, 4684 const char *name, struct pevent_record *record, 4685 unsigned long long *val, int err) 4686{ 4687 struct format_field *field; 4688 4689 if (!event) 4690 return -1; 4691 4692 field = pevent_find_field(event, name); 4693 4694 return get_field_val(s, field, name, record, val, err); 4695} 4696 4697/** 4698 * pevent_get_common_field_val - find a common field and return its value 4699 * @s: The seq to print to on error 4700 * @event: the event that the field is for 4701 * @name: The name of the field 4702 * @record: The record with the field name. 4703 * @val: place to store the value of the field. 4704 * @err: print default error if failed. 4705 * 4706 * Returns 0 on success -1 on field not found. 4707 */ 4708int pevent_get_common_field_val(struct trace_seq *s, struct event_format *event, 4709 const char *name, struct pevent_record *record, 4710 unsigned long long *val, int err) 4711{ 4712 struct format_field *field; 4713 4714 if (!event) 4715 return -1; 4716 4717 field = pevent_find_common_field(event, name); 4718 4719 return get_field_val(s, field, name, record, val, err); 4720} 4721 4722/** 4723 * pevent_get_any_field_val - find a any field and return its value 4724 * @s: The seq to print to on error 4725 * @event: the event that the field is for 4726 * @name: The name of the field 4727 * @record: The record with the field name. 4728 * @val: place to store the value of the field. 4729 * @err: print default error if failed. 4730 * 4731 * Returns 0 on success -1 on field not found. 4732 */ 4733int pevent_get_any_field_val(struct trace_seq *s, struct event_format *event, 4734 const char *name, struct pevent_record *record, 4735 unsigned long long *val, int err) 4736{ 4737 struct format_field *field; 4738 4739 if (!event) 4740 return -1; 4741 4742 field = pevent_find_any_field(event, name); 4743 4744 return get_field_val(s, field, name, record, val, err); 4745} 4746 4747/** 4748 * pevent_print_num_field - print a field and a format 4749 * @s: The seq to print to 4750 * @fmt: The printf format to print the field with. 4751 * @event: the event that the field is for 4752 * @name: The name of the field 4753 * @record: The record with the field name. 4754 * @err: print default error if failed. 4755 * 4756 * Returns: 0 on success, -1 field not fould, or 1 if buffer is full. 4757 */ 4758int pevent_print_num_field(struct trace_seq *s, const char *fmt, 4759 struct event_format *event, const char *name, 4760 struct pevent_record *record, int err) 4761{ 4762 struct format_field *field = pevent_find_field(event, name); 4763 unsigned long long val; 4764 4765 if (!field) 4766 goto failed; 4767 4768 if (pevent_read_number_field(field, record->data, &val)) 4769 goto failed; 4770 4771 return trace_seq_printf(s, fmt, val); 4772 4773 failed: 4774 if (err) 4775 trace_seq_printf(s, "CAN'T FIND FIELD \"%s\"", name); 4776 return -1; 4777} 4778 4779static void free_func_handle(struct pevent_function_handler *func) 4780{ 4781 struct pevent_func_params *params; 4782 4783 free(func->name); 4784 4785 while (func->params) { 4786 params = func->params; 4787 func->params = params->next; 4788 free(params); 4789 } 4790 4791 free(func); 4792} 4793 4794/** 4795 * pevent_register_print_function - register a helper function 4796 * @pevent: the handle to the pevent 4797 * @func: the function to process the helper function 4798 * @name: the name of the helper function 4799 * @parameters: A list of enum pevent_func_arg_type 4800 * 4801 * Some events may have helper functions in the print format arguments. 4802 * This allows a plugin to dynmically create a way to process one 4803 * of these functions. 4804 * 4805 * The @parameters is a variable list of pevent_func_arg_type enums that 4806 * must end with PEVENT_FUNC_ARG_VOID. 4807 */ 4808int pevent_register_print_function(struct pevent *pevent, 4809 pevent_func_handler func, 4810 enum pevent_func_arg_type ret_type, 4811 char *name, ...) 4812{ 4813 struct pevent_function_handler *func_handle; 4814 struct pevent_func_params **next_param; 4815 struct pevent_func_params *param; 4816 enum pevent_func_arg_type type; 4817 va_list ap; 4818 4819 func_handle = find_func_handler(pevent, name); 4820 if (func_handle) { 4821 /* 4822 * This is most like caused by the users own 4823 * plugins updating the function. This overrides the 4824 * system defaults. 4825 */ 4826 pr_stat("override of function helper '%s'", name); 4827 remove_func_handler(pevent, name); 4828 } 4829 4830 func_handle = malloc_or_die(sizeof(*func_handle)); 4831 memset(func_handle, 0, sizeof(*func_handle)); 4832 4833 func_handle->ret_type = ret_type; 4834 func_handle->name = strdup(name); 4835 func_handle->func = func; 4836 if (!func_handle->name) 4837 die("Failed to allocate function name"); 4838 4839 next_param = &(func_handle->params); 4840 va_start(ap, name); 4841 for (;;) { 4842 type = va_arg(ap, enum pevent_func_arg_type); 4843 if (type == PEVENT_FUNC_ARG_VOID) 4844 break; 4845 4846 if (type < 0 || type >= PEVENT_FUNC_ARG_MAX_TYPES) { 4847 warning("Invalid argument type %d", type); 4848 goto out_free; 4849 } 4850 4851 param = malloc_or_die(sizeof(*param)); 4852 param->type = type; 4853 param->next = NULL; 4854 4855 *next_param = param; 4856 next_param = &(param->next); 4857 4858 func_handle->nr_args++; 4859 } 4860 va_end(ap); 4861 4862 func_handle->next = pevent->func_handlers; 4863 pevent->func_handlers = func_handle; 4864 4865 return 0; 4866 out_free: 4867 va_end(ap); 4868 free_func_handle(func_handle); 4869 return -1; 4870} 4871 4872/** 4873 * pevent_register_event_handle - register a way to parse an event 4874 * @pevent: the handle to the pevent 4875 * @id: the id of the event to register 4876 * @sys_name: the system name the event belongs to 4877 * @event_name: the name of the event 4878 * @func: the function to call to parse the event information 4879 * 4880 * This function allows a developer to override the parsing of 4881 * a given event. If for some reason the default print format 4882 * is not sufficient, this function will register a function 4883 * for an event to be used to parse the data instead. 4884 * 4885 * If @id is >= 0, then it is used to find the event. 4886 * else @sys_name and @event_name are used. 4887 */ 4888int pevent_register_event_handler(struct pevent *pevent, 4889 int id, char *sys_name, char *event_name, 4890 pevent_event_handler_func func, 4891 void *context) 4892{ 4893 struct event_format *event; 4894 struct event_handler *handle; 4895 4896 if (id >= 0) { 4897 /* search by id */ 4898 event = pevent_find_event(pevent, id); 4899 if (!event) 4900 goto not_found; 4901 if (event_name && (strcmp(event_name, event->name) != 0)) 4902 goto not_found; 4903 if (sys_name && (strcmp(sys_name, event->system) != 0)) 4904 goto not_found; 4905 } else { 4906 event = pevent_find_event_by_name(pevent, sys_name, event_name); 4907 if (!event) 4908 goto not_found; 4909 } 4910 4911 pr_stat("overriding event (%d) %s:%s with new print handler", 4912 event->id, event->system, event->name); 4913 4914 event->handler = func; 4915 event->context = context; 4916 return 0; 4917 4918 not_found: 4919 /* Save for later use. */ 4920 handle = malloc_or_die(sizeof(*handle)); 4921 memset(handle, 0, sizeof(*handle)); 4922 handle->id = id; 4923 if (event_name) 4924 handle->event_name = strdup(event_name); 4925 if (sys_name) 4926 handle->sys_name = strdup(sys_name); 4927 4928 handle->func = func; 4929 handle->next = pevent->handlers; 4930 pevent->handlers = handle; 4931 handle->context = context; 4932 4933 return -1; 4934} 4935 4936/** 4937 * pevent_alloc - create a pevent handle 4938 */ 4939struct pevent *pevent_alloc(void) 4940{ 4941 struct pevent *pevent; 4942 4943 pevent = malloc(sizeof(*pevent)); 4944 if (!pevent) 4945 return NULL; 4946 memset(pevent, 0, sizeof(*pevent)); 4947 pevent->ref_count = 1; 4948 4949 return pevent; 4950} 4951 4952void pevent_ref(struct pevent *pevent) 4953{ 4954 pevent->ref_count++; 4955} 4956 4957static void free_format_fields(struct format_field *field) 4958{ 4959 struct format_field *next; 4960 4961 while (field) { 4962 next = field->next; 4963 free(field->type); 4964 free(field->name); 4965 free(field); 4966 field = next; 4967 } 4968} 4969 4970static void free_formats(struct format *format) 4971{ 4972 free_format_fields(format->common_fields); 4973 free_format_fields(format->fields); 4974} 4975 4976static void free_event(struct event_format *event) 4977{ 4978 free(event->name); 4979 free(event->system); 4980 4981 free_formats(&event->format); 4982 4983 free(event->print_fmt.format); 4984 free_args(event->print_fmt.args); 4985 4986 free(event); 4987} 4988 4989/** 4990 * pevent_free - free a pevent handle 4991 * @pevent: the pevent handle to free 4992 */ 4993void pevent_free(struct pevent *pevent) 4994{ 4995 struct cmdline_list *cmdlist, *cmdnext; 4996 struct func_list *funclist, *funcnext; 4997 struct printk_list *printklist, *printknext; 4998 struct pevent_function_handler *func_handler; 4999 struct event_handler *handle; 5000 int i; 5001 5002 if (!pevent) 5003 return; 5004 5005 cmdlist = pevent->cmdlist; 5006 funclist = pevent->funclist; 5007 printklist = pevent->printklist; 5008 5009 pevent->ref_count--; 5010 if (pevent->ref_count) 5011 return; 5012 5013 if (pevent->cmdlines) { 5014 for (i = 0; i < pevent->cmdline_count; i++) 5015 free(pevent->cmdlines[i].comm); 5016 free(pevent->cmdlines); 5017 } 5018 5019 while (cmdlist) { 5020 cmdnext = cmdlist->next; 5021 free(cmdlist->comm); 5022 free(cmdlist); 5023 cmdlist = cmdnext; 5024 } 5025 5026 if (pevent->func_map) { 5027 for (i = 0; i < pevent->func_count; i++) { 5028 free(pevent->func_map[i].func); 5029 free(pevent->func_map[i].mod); 5030 } 5031 free(pevent->func_map); 5032 } 5033 5034 while (funclist) { 5035 funcnext = funclist->next; 5036 free(funclist->func); 5037 free(funclist->mod); 5038 free(funclist); 5039 funclist = funcnext; 5040 } 5041 5042 while (pevent->func_handlers) { 5043 func_handler = pevent->func_handlers; 5044 pevent->func_handlers = func_handler->next; 5045 free_func_handle(func_handler); 5046 } 5047 5048 if (pevent->printk_map) { 5049 for (i = 0; i < pevent->printk_count; i++) 5050 free(pevent->printk_map[i].printk); 5051 free(pevent->printk_map); 5052 } 5053 5054 while (printklist) { 5055 printknext = printklist->next; 5056 free(printklist->printk); 5057 free(printklist); 5058 printklist = printknext; 5059 } 5060 5061 for (i = 0; i < pevent->nr_events; i++) 5062 free_event(pevent->events[i]); 5063 5064 while (pevent->handlers) { 5065 handle = pevent->handlers; 5066 pevent->handlers = handle->next; 5067 free_handler(handle); 5068 } 5069 5070 free(pevent->events); 5071 free(pevent->sort_events); 5072 5073 free(pevent); 5074} 5075 5076void pevent_unref(struct pevent *pevent) 5077{ 5078 pevent_free(pevent); 5079}