1 /* 2 * Automatically generated from ./test/regress.rpc 3 * by event_rpcgen.py/0.1. DO NOT EDIT THIS FILE. 4 */ 5 6 #include <stdlib.h> 7 #include <string.h> 8 #include <assert.h> 9 #include <event2/event-config.h> 10 #include <event2/event.h> 11 #include <event2/buffer.h> 12 #include <event2/tag.h> 13 14 #if defined(EVENT____func__) && !defined(__func__) 15 #define __func__ EVENT____func__ 16 #endif 17 18 19 #include "regress.gen.h" 20 21 void event_warn(const char *fmt, ...); 22 void event_warnx(const char *fmt, ...); 23 24 25 /* 26 * Implementation of msg 27 */ 28 29 static struct msg_access_ msg_base__ = { 30 msg_from_name_assign, 31 msg_from_name_get, 32 msg_to_name_assign, 33 msg_to_name_get, 34 msg_attack_assign, 35 msg_attack_get, 36 msg_run_assign, 37 msg_run_get, 38 msg_run_add, 39 }; 40 41 struct msg * 42 msg_new(void) 43 { 44 return msg_new_with_arg(NULL); 45 } 46 47 struct msg * 48 msg_new_with_arg(void *unused) 49 { 50 struct msg *tmp; 51 if ((tmp = malloc(sizeof(struct msg))) == NULL) { 52 event_warn("%s: malloc", __func__); 53 return (NULL); 54 } 55 tmp->base = &msg_base__; 56 57 tmp->from_name_data = NULL; 58 tmp->from_name_set = 0; 59 60 tmp->to_name_data = NULL; 61 tmp->to_name_set = 0; 62 63 tmp->attack_data = NULL; 64 tmp->attack_set = 0; 65 66 tmp->run_data = NULL; 67 tmp->run_length = 0; 68 tmp->run_num_allocated = 0; 69 tmp->run_set = 0; 70 71 return (tmp); 72 } 73 74 75 76 77 static int 78 msg_run_expand_to_hold_more(struct msg *msg) 79 { 80 int tobe_allocated = msg->run_num_allocated; 81 struct run** new_data = NULL; 82 tobe_allocated = !tobe_allocated ? 1 : tobe_allocated << 1; 83 new_data = (struct run**) realloc(msg->run_data, 84 tobe_allocated * sizeof(struct run*)); 85 if (new_data == NULL) 86 return -1; 87 msg->run_data = new_data; 88 msg->run_num_allocated = tobe_allocated; 89 return 0;} 90 91 struct run* 92 msg_run_add(struct msg *msg) 93 { 94 if (++msg->run_length >= msg->run_num_allocated) { 95 if (msg_run_expand_to_hold_more(msg)<0) 96 goto error; 97 } 98 msg->run_data[msg->run_length - 1] = run_new(); 99 if (msg->run_data[msg->run_length - 1] == NULL) 100 goto error; 101 msg->run_set = 1; 102 return (msg->run_data[msg->run_length - 1]); 103 error: 104 --msg->run_length; 105 return (NULL); 106 } 107 108 int 109 msg_from_name_assign(struct msg *msg, 110 const char * value) 111 { 112 if (msg->from_name_data != NULL) 113 free(msg->from_name_data); 114 if ((msg->from_name_data = strdup(value)) == NULL) 115 return (-1); 116 msg->from_name_set = 1; 117 return (0); 118 } 119 120 int 121 msg_to_name_assign(struct msg *msg, 122 const char * value) 123 { 124 if (msg->to_name_data != NULL) 125 free(msg->to_name_data); 126 if ((msg->to_name_data = strdup(value)) == NULL) 127 return (-1); 128 msg->to_name_set = 1; 129 return (0); 130 } 131 132 int 133 msg_attack_assign(struct msg *msg, 134 const struct kill* value) 135 { 136 struct evbuffer *tmp = NULL; 137 if (msg->attack_set) { 138 kill_clear(msg->attack_data); 139 msg->attack_set = 0; 140 } else { 141 msg->attack_data = kill_new(); 142 if (msg->attack_data == NULL) { 143 event_warn("%s: kill_new()", __func__); 144 goto error; 145 } 146 } 147 if ((tmp = evbuffer_new()) == NULL) { 148 event_warn("%s: evbuffer_new()", __func__); 149 goto error; 150 } 151 kill_marshal(tmp, value); 152 if (kill_unmarshal(msg->attack_data, tmp) == -1) { 153 event_warnx("%s: kill_unmarshal", __func__); 154 goto error; 155 } 156 msg->attack_set = 1; 157 evbuffer_free(tmp); 158 return (0); 159 error: 160 if (tmp != NULL) 161 evbuffer_free(tmp); 162 if (msg->attack_data != NULL) { 163 kill_free(msg->attack_data); 164 msg->attack_data = NULL; 165 } 166 return (-1); 167 } 168 169 int 170 msg_run_assign(struct msg *msg, int off, 171 const struct run* value) 172 { 173 if (!msg->run_set || off < 0 || off >= msg->run_length) 174 return (-1); 175 176 { 177 int had_error = 0; 178 struct evbuffer *tmp = NULL; 179 run_clear(msg->run_data[off]); 180 if ((tmp = evbuffer_new()) == NULL) { 181 event_warn("%s: evbuffer_new()", __func__); 182 had_error = 1; 183 goto done; 184 } 185 run_marshal(tmp, value); 186 if (run_unmarshal(msg->run_data[off], tmp) == -1) { 187 event_warnx("%s: run_unmarshal", __func__); 188 had_error = 1; 189 goto done; 190 } 191 done:if (tmp != NULL) 192 evbuffer_free(tmp); 193 if (had_error) { 194 run_clear(msg->run_data[off]); 195 return (-1); 196 } 197 } 198 return (0); 199 } 200 201 int 202 msg_from_name_get(struct msg *msg, char * *value) 203 { 204 if (msg->from_name_set != 1) 205 return (-1); 206 *value = msg->from_name_data; 207 return (0); 208 } 209 210 int 211 msg_to_name_get(struct msg *msg, char * *value) 212 { 213 if (msg->to_name_set != 1) 214 return (-1); 215 *value = msg->to_name_data; 216 return (0); 217 } 218 219 int 220 msg_attack_get(struct msg *msg, struct kill* *value) 221 { 222 if (msg->attack_set != 1) { 223 msg->attack_data = kill_new(); 224 if (msg->attack_data == NULL) 225 return (-1); 226 msg->attack_set = 1; 227 } 228 *value = msg->attack_data; 229 return (0); 230 } 231 232 int 233 msg_run_get(struct msg *msg, int offset, 234 struct run* *value) 235 { 236 if (!msg->run_set || offset < 0 || offset >= msg->run_length) 237 return (-1); 238 *value = msg->run_data[offset]; 239 return (0); 240 } 241 242 void 243 msg_clear(struct msg *tmp) 244 { 245 if (tmp->from_name_set == 1) { 246 free(tmp->from_name_data); 247 tmp->from_name_data = NULL; 248 tmp->from_name_set = 0; 249 } 250 if (tmp->to_name_set == 1) { 251 free(tmp->to_name_data); 252 tmp->to_name_data = NULL; 253 tmp->to_name_set = 0; 254 } 255 if (tmp->attack_set == 1) { 256 kill_free(tmp->attack_data); 257 tmp->attack_data = NULL; 258 tmp->attack_set = 0; 259 } 260 if (tmp->run_set == 1) { 261 int i; 262 for (i = 0; i < tmp->run_length; ++i) { 263 run_free(tmp->run_data[i]); 264 } 265 free(tmp->run_data); 266 tmp->run_data = NULL; 267 tmp->run_set = 0; 268 tmp->run_length = 0; 269 tmp->run_num_allocated = 0; 270 } 271 } 272 273 void 274 msg_free(struct msg *tmp) 275 { 276 if (tmp->from_name_data != NULL) 277 free (tmp->from_name_data); 278 if (tmp->to_name_data != NULL) 279 free (tmp->to_name_data); 280 if (tmp->attack_data != NULL) 281 kill_free(tmp->attack_data); 282 if (tmp->run_set == 1) { 283 int i; 284 for (i = 0; i < tmp->run_length; ++i) { 285 run_free(tmp->run_data[i]); 286 } 287 free(tmp->run_data); 288 tmp->run_data = NULL; 289 tmp->run_set = 0; 290 tmp->run_length = 0; 291 tmp->run_num_allocated = 0; 292 } 293 free(tmp->run_data); 294 free(tmp); 295 } 296 297 void 298 msg_marshal(struct evbuffer *evbuf, const struct msg *tmp){ 299 evtag_marshal_string(evbuf, MSG_FROM_NAME, tmp->from_name_data); 300 evtag_marshal_string(evbuf, MSG_TO_NAME, tmp->to_name_data); 301 if (tmp->attack_set) { 302 evtag_marshal_kill(evbuf, MSG_ATTACK, tmp->attack_data); 303 } 304 if (tmp->run_set) { 305 { 306 int i; 307 for (i = 0; i < tmp->run_length; ++i) { 308 evtag_marshal_run(evbuf, MSG_RUN, tmp->run_data[i]); 309 } 310 } 311 } 312 } 313 314 int 315 msg_unmarshal(struct msg *tmp, struct evbuffer *evbuf) 316 { 317 ev_uint32_t tag; 318 while (evbuffer_get_length(evbuf) > 0) { 319 if (evtag_peek(evbuf, &tag) == -1) 320 return (-1); 321 switch (tag) { 322 323 case MSG_FROM_NAME: 324 325 if (tmp->from_name_set) 326 return (-1); 327 if (evtag_unmarshal_string(evbuf, MSG_FROM_NAME, &tmp->from_name_data) == -1) { 328 event_warnx("%s: failed to unmarshal from_name", __func__); 329 return (-1); 330 } 331 tmp->from_name_set = 1; 332 break; 333 334 case MSG_TO_NAME: 335 336 if (tmp->to_name_set) 337 return (-1); 338 if (evtag_unmarshal_string(evbuf, MSG_TO_NAME, &tmp->to_name_data) == -1) { 339 event_warnx("%s: failed to unmarshal to_name", __func__); 340 return (-1); 341 } 342 tmp->to_name_set = 1; 343 break; 344 345 case MSG_ATTACK: 346 347 if (tmp->attack_set) 348 return (-1); 349 tmp->attack_data = kill_new(); 350 if (tmp->attack_data == NULL) 351 return (-1); 352 if (evtag_unmarshal_kill(evbuf, MSG_ATTACK, tmp->attack_data) == -1) { 353 event_warnx("%s: failed to unmarshal attack", __func__); 354 return (-1); 355 } 356 tmp->attack_set = 1; 357 break; 358 359 case MSG_RUN: 360 361 if (tmp->run_length >= tmp->run_num_allocated && 362 msg_run_expand_to_hold_more(tmp) < 0) { 363 puts("HEY NOW"); 364 return (-1); 365 } 366 tmp->run_data[tmp->run_length] = run_new(); 367 if (tmp->run_data[tmp->run_length] == NULL) 368 return (-1); 369 if (evtag_unmarshal_run(evbuf, MSG_RUN, tmp->run_data[tmp->run_length]) == -1) { 370 event_warnx("%s: failed to unmarshal run", __func__); 371 return (-1); 372 } 373 ++tmp->run_length; 374 tmp->run_set = 1; 375 break; 376 377 default: 378 return -1; 379 } 380 } 381 382 if (msg_complete(tmp) == -1) 383 return (-1); 384 return (0); 385 } 386 387 int 388 msg_complete(struct msg *msg) 389 { 390 if (!msg->from_name_set) 391 return (-1); 392 if (!msg->to_name_set) 393 return (-1); 394 if (msg->attack_set && kill_complete(msg->attack_data) == -1) 395 return (-1); 396 { 397 int i; 398 for (i = 0; i < msg->run_length; ++i) { 399 if (msg->run_set && run_complete(msg->run_data[i]) == -1) 400 return (-1); 401 } 402 } 403 return (0); 404 } 405 406 int 407 evtag_unmarshal_msg(struct evbuffer *evbuf, ev_uint32_t need_tag, struct msg *msg) 408 { 409 ev_uint32_t tag; 410 int res = -1; 411 412 struct evbuffer *tmp = evbuffer_new(); 413 414 if (evtag_unmarshal(evbuf, &tag, tmp) == -1 || tag != need_tag) 415 goto error; 416 417 if (msg_unmarshal(msg, tmp) == -1) 418 goto error; 419 420 res = 0; 421 422 error: 423 evbuffer_free(tmp); 424 return (res); 425 } 426 427 void 428 evtag_marshal_msg(struct evbuffer *evbuf, ev_uint32_t tag, const struct msg *msg) 429 { 430 struct evbuffer *buf_ = evbuffer_new(); 431 assert(buf_ != NULL); 432 msg_marshal(buf_, msg); 433 evtag_marshal_buffer(evbuf, tag, buf_); 434 evbuffer_free(buf_); 435 } 436 437 /* 438 * Implementation of kill 439 */ 440 441 static struct kill_access_ kill_base__ = { 442 kill_weapon_assign, 443 kill_weapon_get, 444 kill_action_assign, 445 kill_action_get, 446 kill_how_often_assign, 447 kill_how_often_get, 448 kill_how_often_add, 449 }; 450 451 struct kill * 452 kill_new(void) 453 { 454 return kill_new_with_arg(NULL); 455 } 456 457 struct kill * 458 kill_new_with_arg(void *unused) 459 { 460 struct kill *tmp; 461 if ((tmp = malloc(sizeof(struct kill))) == NULL) { 462 event_warn("%s: malloc", __func__); 463 return (NULL); 464 } 465 tmp->base = &kill_base__; 466 467 tmp->weapon_data = NULL; 468 tmp->weapon_set = 0; 469 470 tmp->action_data = NULL; 471 tmp->action_set = 0; 472 473 tmp->how_often_data = NULL; 474 tmp->how_often_length = 0; 475 tmp->how_often_num_allocated = 0; 476 tmp->how_often_set = 0; 477 478 return (tmp); 479 } 480 481 482 483 static int 484 kill_how_often_expand_to_hold_more(struct kill *msg) 485 { 486 int tobe_allocated = msg->how_often_num_allocated; 487 ev_uint32_t* new_data = NULL; 488 tobe_allocated = !tobe_allocated ? 1 : tobe_allocated << 1; 489 new_data = (ev_uint32_t*) realloc(msg->how_often_data, 490 tobe_allocated * sizeof(ev_uint32_t)); 491 if (new_data == NULL) 492 return -1; 493 msg->how_often_data = new_data; 494 msg->how_often_num_allocated = tobe_allocated; 495 return 0;} 496 497 ev_uint32_t * 498 kill_how_often_add(struct kill *msg, const ev_uint32_t value) 499 { 500 if (++msg->how_often_length >= msg->how_often_num_allocated) { 501 if (kill_how_often_expand_to_hold_more(msg)<0) 502 goto error; 503 } 504 msg->how_often_data[msg->how_often_length - 1] = value; 505 msg->how_often_set = 1; 506 return &(msg->how_often_data[msg->how_often_length - 1]); 507 error: 508 --msg->how_often_length; 509 return (NULL); 510 } 511 512 int 513 kill_weapon_assign(struct kill *msg, 514 const char * value) 515 { 516 if (msg->weapon_data != NULL) 517 free(msg->weapon_data); 518 if ((msg->weapon_data = strdup(value)) == NULL) 519 return (-1); 520 msg->weapon_set = 1; 521 return (0); 522 } 523 524 int 525 kill_action_assign(struct kill *msg, 526 const char * value) 527 { 528 if (msg->action_data != NULL) 529 free(msg->action_data); 530 if ((msg->action_data = strdup(value)) == NULL) 531 return (-1); 532 msg->action_set = 1; 533 return (0); 534 } 535 536 int 537 kill_how_often_assign(struct kill *msg, int off, 538 const ev_uint32_t value) 539 { 540 if (!msg->how_often_set || off < 0 || off >= msg->how_often_length) 541 return (-1); 542 543 { 544 msg->how_often_data[off] = value; 545 } 546 return (0); 547 } 548 549 int 550 kill_weapon_get(struct kill *msg, char * *value) 551 { 552 if (msg->weapon_set != 1) 553 return (-1); 554 *value = msg->weapon_data; 555 return (0); 556 } 557 558 int 559 kill_action_get(struct kill *msg, char * *value) 560 { 561 if (msg->action_set != 1) 562 return (-1); 563 *value = msg->action_data; 564 return (0); 565 } 566 567 int 568 kill_how_often_get(struct kill *msg, int offset, 569 ev_uint32_t *value) 570 { 571 if (!msg->how_often_set || offset < 0 || offset >= msg->how_often_length) 572 return (-1); 573 *value = msg->how_often_data[offset]; 574 return (0); 575 } 576 577 void 578 kill_clear(struct kill *tmp) 579 { 580 if (tmp->weapon_set == 1) { 581 free(tmp->weapon_data); 582 tmp->weapon_data = NULL; 583 tmp->weapon_set = 0; 584 } 585 if (tmp->action_set == 1) { 586 free(tmp->action_data); 587 tmp->action_data = NULL; 588 tmp->action_set = 0; 589 } 590 if (tmp->how_often_set == 1) { 591 free(tmp->how_often_data); 592 tmp->how_often_data = NULL; 593 tmp->how_often_set = 0; 594 tmp->how_often_length = 0; 595 tmp->how_often_num_allocated = 0; 596 } 597 } 598 599 void 600 kill_free(struct kill *tmp) 601 { 602 if (tmp->weapon_data != NULL) 603 free (tmp->weapon_data); 604 if (tmp->action_data != NULL) 605 free (tmp->action_data); 606 if (tmp->how_often_set == 1) { 607 free(tmp->how_often_data); 608 tmp->how_often_data = NULL; 609 tmp->how_often_set = 0; 610 tmp->how_often_length = 0; 611 tmp->how_often_num_allocated = 0; 612 } 613 free(tmp->how_often_data); 614 free(tmp); 615 } 616 617 void 618 kill_marshal(struct evbuffer *evbuf, const struct kill *tmp){ 619 evtag_marshal_string(evbuf, KILL_WEAPON, tmp->weapon_data); 620 evtag_marshal_string(evbuf, KILL_ACTION, tmp->action_data); 621 if (tmp->how_often_set) { 622 { 623 int i; 624 for (i = 0; i < tmp->how_often_length; ++i) { 625 evtag_marshal_int(evbuf, KILL_HOW_OFTEN, tmp->how_often_data[i]); 626 } 627 } 628 } 629 } 630 631 int 632 kill_unmarshal(struct kill *tmp, struct evbuffer *evbuf) 633 { 634 ev_uint32_t tag; 635 while (evbuffer_get_length(evbuf) > 0) { 636 if (evtag_peek(evbuf, &tag) == -1) 637 return (-1); 638 switch (tag) { 639 640 case KILL_WEAPON: 641 642 if (tmp->weapon_set) 643 return (-1); 644 if (evtag_unmarshal_string(evbuf, KILL_WEAPON, &tmp->weapon_data) == -1) { 645 event_warnx("%s: failed to unmarshal weapon", __func__); 646 return (-1); 647 } 648 tmp->weapon_set = 1; 649 break; 650 651 case KILL_ACTION: 652 653 if (tmp->action_set) 654 return (-1); 655 if (evtag_unmarshal_string(evbuf, KILL_ACTION, &tmp->action_data) == -1) { 656 event_warnx("%s: failed to unmarshal action", __func__); 657 return (-1); 658 } 659 tmp->action_set = 1; 660 break; 661 662 case KILL_HOW_OFTEN: 663 664 if (tmp->how_often_length >= tmp->how_often_num_allocated && 665 kill_how_often_expand_to_hold_more(tmp) < 0) { 666 puts("HEY NOW"); 667 return (-1); 668 } 669 if (evtag_unmarshal_int(evbuf, KILL_HOW_OFTEN, &tmp->how_often_data[tmp->how_often_length]) == -1) { 670 event_warnx("%s: failed to unmarshal how_often", __func__); 671 return (-1); 672 } 673 ++tmp->how_often_length; 674 tmp->how_often_set = 1; 675 break; 676 677 default: 678 return -1; 679 } 680 } 681 682 if (kill_complete(tmp) == -1) 683 return (-1); 684 return (0); 685 } 686 687 int 688 kill_complete(struct kill *msg) 689 { 690 if (!msg->weapon_set) 691 return (-1); 692 if (!msg->action_set) 693 return (-1); 694 return (0); 695 } 696 697 int 698 evtag_unmarshal_kill(struct evbuffer *evbuf, ev_uint32_t need_tag, struct kill *msg) 699 { 700 ev_uint32_t tag; 701 int res = -1; 702 703 struct evbuffer *tmp = evbuffer_new(); 704 705 if (evtag_unmarshal(evbuf, &tag, tmp) == -1 || tag != need_tag) 706 goto error; 707 708 if (kill_unmarshal(msg, tmp) == -1) 709 goto error; 710 711 res = 0; 712 713 error: 714 evbuffer_free(tmp); 715 return (res); 716 } 717 718 void 719 evtag_marshal_kill(struct evbuffer *evbuf, ev_uint32_t tag, const struct kill *msg) 720 { 721 struct evbuffer *buf_ = evbuffer_new(); 722 assert(buf_ != NULL); 723 kill_marshal(buf_, msg); 724 evtag_marshal_buffer(evbuf, tag, buf_); 725 evbuffer_free(buf_); 726 } 727 728 /* 729 * Implementation of run 730 */ 731 732 static struct run_access_ run_base__ = { 733 run_how_assign, 734 run_how_get, 735 run_some_bytes_assign, 736 run_some_bytes_get, 737 run_fixed_bytes_assign, 738 run_fixed_bytes_get, 739 run_notes_assign, 740 run_notes_get, 741 run_notes_add, 742 run_large_number_assign, 743 run_large_number_get, 744 run_other_numbers_assign, 745 run_other_numbers_get, 746 run_other_numbers_add, 747 }; 748 749 struct run * 750 run_new(void) 751 { 752 return run_new_with_arg(NULL); 753 } 754 755 struct run * 756 run_new_with_arg(void *unused) 757 { 758 struct run *tmp; 759 if ((tmp = malloc(sizeof(struct run))) == NULL) { 760 event_warn("%s: malloc", __func__); 761 return (NULL); 762 } 763 tmp->base = &run_base__; 764 765 tmp->how_data = NULL; 766 tmp->how_set = 0; 767 768 tmp->some_bytes_data = NULL; 769 tmp->some_bytes_length = 0; 770 tmp->some_bytes_set = 0; 771 772 memset(tmp->fixed_bytes_data, 0, sizeof(tmp->fixed_bytes_data)); 773 tmp->fixed_bytes_set = 0; 774 775 tmp->notes_data = NULL; 776 tmp->notes_length = 0; 777 tmp->notes_num_allocated = 0; 778 tmp->notes_set = 0; 779 780 tmp->large_number_data = 0; 781 tmp->large_number_set = 0; 782 783 tmp->other_numbers_data = NULL; 784 tmp->other_numbers_length = 0; 785 tmp->other_numbers_num_allocated = 0; 786 tmp->other_numbers_set = 0; 787 788 return (tmp); 789 } 790 791 792 793 794 static int 795 run_notes_expand_to_hold_more(struct run *msg) 796 { 797 int tobe_allocated = msg->notes_num_allocated; 798 char ** new_data = NULL; 799 tobe_allocated = !tobe_allocated ? 1 : tobe_allocated << 1; 800 new_data = (char **) realloc(msg->notes_data, 801 tobe_allocated * sizeof(char *)); 802 if (new_data == NULL) 803 return -1; 804 msg->notes_data = new_data; 805 msg->notes_num_allocated = tobe_allocated; 806 return 0;} 807 808 char * * 809 run_notes_add(struct run *msg, const char * value) 810 { 811 if (++msg->notes_length >= msg->notes_num_allocated) { 812 if (run_notes_expand_to_hold_more(msg)<0) 813 goto error; 814 } 815 if (value != NULL) { 816 msg->notes_data[msg->notes_length - 1] = strdup(value); 817 if (msg->notes_data[msg->notes_length - 1] == NULL) { 818 goto error; 819 } 820 } else { 821 msg->notes_data[msg->notes_length - 1] = NULL; 822 } 823 msg->notes_set = 1; 824 return &(msg->notes_data[msg->notes_length - 1]); 825 error: 826 --msg->notes_length; 827 return (NULL); 828 } 829 830 831 static int 832 run_other_numbers_expand_to_hold_more(struct run *msg) 833 { 834 int tobe_allocated = msg->other_numbers_num_allocated; 835 ev_uint32_t* new_data = NULL; 836 tobe_allocated = !tobe_allocated ? 1 : tobe_allocated << 1; 837 new_data = (ev_uint32_t*) realloc(msg->other_numbers_data, 838 tobe_allocated * sizeof(ev_uint32_t)); 839 if (new_data == NULL) 840 return -1; 841 msg->other_numbers_data = new_data; 842 msg->other_numbers_num_allocated = tobe_allocated; 843 return 0;} 844 845 ev_uint32_t * 846 run_other_numbers_add(struct run *msg, const ev_uint32_t value) 847 { 848 if (++msg->other_numbers_length >= msg->other_numbers_num_allocated) { 849 if (run_other_numbers_expand_to_hold_more(msg)<0) 850 goto error; 851 } 852 msg->other_numbers_data[msg->other_numbers_length - 1] = value; 853 msg->other_numbers_set = 1; 854 return &(msg->other_numbers_data[msg->other_numbers_length - 1]); 855 error: 856 --msg->other_numbers_length; 857 return (NULL); 858 } 859 860 int 861 run_how_assign(struct run *msg, 862 const char * value) 863 { 864 if (msg->how_data != NULL) 865 free(msg->how_data); 866 if ((msg->how_data = strdup(value)) == NULL) 867 return (-1); 868 msg->how_set = 1; 869 return (0); 870 } 871 872 int 873 run_some_bytes_assign(struct run *msg, const ev_uint8_t * value, ev_uint32_t len) 874 { 875 if (msg->some_bytes_data != NULL) 876 free (msg->some_bytes_data); 877 msg->some_bytes_data = malloc(len); 878 if (msg->some_bytes_data == NULL) 879 return (-1); 880 msg->some_bytes_set = 1; 881 msg->some_bytes_length = len; 882 memcpy(msg->some_bytes_data, value, len); 883 return (0); 884 } 885 886 int 887 run_fixed_bytes_assign(struct run *msg, const ev_uint8_t *value) 888 { 889 msg->fixed_bytes_set = 1; 890 memcpy(msg->fixed_bytes_data, value, 24); 891 return (0); 892 } 893 894 int 895 run_notes_assign(struct run *msg, int off, 896 const char * value) 897 { 898 if (!msg->notes_set || off < 0 || off >= msg->notes_length) 899 return (-1); 900 901 { 902 if (msg->notes_data[off] != NULL) 903 free(msg->notes_data[off]); 904 msg->notes_data[off] = strdup(value); 905 if (msg->notes_data[off] == NULL) { 906 event_warnx("%s: strdup", __func__); 907 return (-1); 908 } 909 } 910 return (0); 911 } 912 913 int 914 run_large_number_assign(struct run *msg, const ev_uint64_t value) 915 { 916 msg->large_number_set = 1; 917 msg->large_number_data = value; 918 return (0); 919 } 920 921 int 922 run_other_numbers_assign(struct run *msg, int off, 923 const ev_uint32_t value) 924 { 925 if (!msg->other_numbers_set || off < 0 || off >= msg->other_numbers_length) 926 return (-1); 927 928 { 929 msg->other_numbers_data[off] = value; 930 } 931 return (0); 932 } 933 934 int 935 run_how_get(struct run *msg, char * *value) 936 { 937 if (msg->how_set != 1) 938 return (-1); 939 *value = msg->how_data; 940 return (0); 941 } 942 943 int 944 run_some_bytes_get(struct run *msg, ev_uint8_t * *value, ev_uint32_t *plen) 945 { 946 if (msg->some_bytes_set != 1) 947 return (-1); 948 *value = msg->some_bytes_data; 949 *plen = msg->some_bytes_length; 950 return (0); 951 } 952 953 int 954 run_fixed_bytes_get(struct run *msg, ev_uint8_t **value) 955 { 956 if (msg->fixed_bytes_set != 1) 957 return (-1); 958 *value = msg->fixed_bytes_data; 959 return (0); 960 } 961 962 int 963 run_notes_get(struct run *msg, int offset, 964 char * *value) 965 { 966 if (!msg->notes_set || offset < 0 || offset >= msg->notes_length) 967 return (-1); 968 *value = msg->notes_data[offset]; 969 return (0); 970 } 971 972 int 973 run_large_number_get(struct run *msg, ev_uint64_t *value) 974 { 975 if (msg->large_number_set != 1) 976 return (-1); 977 *value = msg->large_number_data; 978 return (0); 979 } 980 981 int 982 run_other_numbers_get(struct run *msg, int offset, 983 ev_uint32_t *value) 984 { 985 if (!msg->other_numbers_set || offset < 0 || offset >= msg->other_numbers_length) 986 return (-1); 987 *value = msg->other_numbers_data[offset]; 988 return (0); 989 } 990 991 void 992 run_clear(struct run *tmp) 993 { 994 if (tmp->how_set == 1) { 995 free(tmp->how_data); 996 tmp->how_data = NULL; 997 tmp->how_set = 0; 998 } 999 if (tmp->some_bytes_set == 1) { 1000 free (tmp->some_bytes_data); 1001 tmp->some_bytes_data = NULL; 1002 tmp->some_bytes_length = 0; 1003 tmp->some_bytes_set = 0; 1004 } 1005 tmp->fixed_bytes_set = 0; 1006 memset(tmp->fixed_bytes_data, 0, sizeof(tmp->fixed_bytes_data)); 1007 if (tmp->notes_set == 1) { 1008 int i; 1009 for (i = 0; i < tmp->notes_length; ++i) { 1010 if (tmp->notes_data[i] != NULL) free(tmp->notes_data[i]); 1011 } 1012 free(tmp->notes_data); 1013 tmp->notes_data = NULL; 1014 tmp->notes_set = 0; 1015 tmp->notes_length = 0; 1016 tmp->notes_num_allocated = 0; 1017 } 1018 tmp->large_number_set = 0; 1019 if (tmp->other_numbers_set == 1) { 1020 free(tmp->other_numbers_data); 1021 tmp->other_numbers_data = NULL; 1022 tmp->other_numbers_set = 0; 1023 tmp->other_numbers_length = 0; 1024 tmp->other_numbers_num_allocated = 0; 1025 } 1026 } 1027 1028 void 1029 run_free(struct run *tmp) 1030 { 1031 if (tmp->how_data != NULL) 1032 free (tmp->how_data); 1033 if (tmp->some_bytes_data != NULL) 1034 free(tmp->some_bytes_data); 1035 if (tmp->notes_set == 1) { 1036 int i; 1037 for (i = 0; i < tmp->notes_length; ++i) { 1038 if (tmp->notes_data[i] != NULL) free(tmp->notes_data[i]); 1039 } 1040 free(tmp->notes_data); 1041 tmp->notes_data = NULL; 1042 tmp->notes_set = 0; 1043 tmp->notes_length = 0; 1044 tmp->notes_num_allocated = 0; 1045 } 1046 free(tmp->notes_data); 1047 if (tmp->other_numbers_set == 1) { 1048 free(tmp->other_numbers_data); 1049 tmp->other_numbers_data = NULL; 1050 tmp->other_numbers_set = 0; 1051 tmp->other_numbers_length = 0; 1052 tmp->other_numbers_num_allocated = 0; 1053 } 1054 free(tmp->other_numbers_data); 1055 free(tmp); 1056 } 1057 1058 void 1059 run_marshal(struct evbuffer *evbuf, const struct run *tmp){ 1060 evtag_marshal_string(evbuf, RUN_HOW, tmp->how_data); 1061 if (tmp->some_bytes_set) { 1062 evtag_marshal(evbuf, RUN_SOME_BYTES, tmp->some_bytes_data, tmp->some_bytes_length); 1063 } 1064 evtag_marshal(evbuf, RUN_FIXED_BYTES, tmp->fixed_bytes_data, (24)); 1065 if (tmp->notes_set) { 1066 { 1067 int i; 1068 for (i = 0; i < tmp->notes_length; ++i) { 1069 evtag_marshal_string(evbuf, RUN_NOTES, tmp->notes_data[i]); 1070 } 1071 } 1072 } 1073 if (tmp->large_number_set) { 1074 evtag_marshal_int64(evbuf, RUN_LARGE_NUMBER, tmp->large_number_data); 1075 } 1076 if (tmp->other_numbers_set) { 1077 { 1078 int i; 1079 for (i = 0; i < tmp->other_numbers_length; ++i) { 1080 evtag_marshal_int(evbuf, RUN_OTHER_NUMBERS, tmp->other_numbers_data[i]); 1081 } 1082 } 1083 } 1084 } 1085 1086 int 1087 run_unmarshal(struct run *tmp, struct evbuffer *evbuf) 1088 { 1089 ev_uint32_t tag; 1090 while (evbuffer_get_length(evbuf) > 0) { 1091 if (evtag_peek(evbuf, &tag) == -1) 1092 return (-1); 1093 switch (tag) { 1094 1095 case RUN_HOW: 1096 1097 if (tmp->how_set) 1098 return (-1); 1099 if (evtag_unmarshal_string(evbuf, RUN_HOW, &tmp->how_data) == -1) { 1100 event_warnx("%s: failed to unmarshal how", __func__); 1101 return (-1); 1102 } 1103 tmp->how_set = 1; 1104 break; 1105 1106 case RUN_SOME_BYTES: 1107 1108 if (tmp->some_bytes_set) 1109 return (-1); 1110 if (evtag_payload_length(evbuf, &tmp->some_bytes_length) == -1) 1111 return (-1); 1112 if (tmp->some_bytes_length > evbuffer_get_length(evbuf)) 1113 return (-1); 1114 if ((tmp->some_bytes_data = malloc(tmp->some_bytes_length)) == NULL) 1115 return (-1); 1116 if (evtag_unmarshal_fixed(evbuf, RUN_SOME_BYTES, tmp->some_bytes_data, tmp->some_bytes_length) == -1) { 1117 event_warnx("%s: failed to unmarshal some_bytes", __func__); 1118 return (-1); 1119 } 1120 tmp->some_bytes_set = 1; 1121 break; 1122 1123 case RUN_FIXED_BYTES: 1124 1125 if (tmp->fixed_bytes_set) 1126 return (-1); 1127 if (evtag_unmarshal_fixed(evbuf, RUN_FIXED_BYTES, tmp->fixed_bytes_data, (24)) == -1) { 1128 event_warnx("%s: failed to unmarshal fixed_bytes", __func__); 1129 return (-1); 1130 } 1131 tmp->fixed_bytes_set = 1; 1132 break; 1133 1134 case RUN_NOTES: 1135 1136 if (tmp->notes_length >= tmp->notes_num_allocated && 1137 run_notes_expand_to_hold_more(tmp) < 0) { 1138 puts("HEY NOW"); 1139 return (-1); 1140 } 1141 if (evtag_unmarshal_string(evbuf, RUN_NOTES, &tmp->notes_data[tmp->notes_length]) == -1) { 1142 event_warnx("%s: failed to unmarshal notes", __func__); 1143 return (-1); 1144 } 1145 ++tmp->notes_length; 1146 tmp->notes_set = 1; 1147 break; 1148 1149 case RUN_LARGE_NUMBER: 1150 1151 if (tmp->large_number_set) 1152 return (-1); 1153 if (evtag_unmarshal_int64(evbuf, RUN_LARGE_NUMBER, &tmp->large_number_data) == -1) { 1154 event_warnx("%s: failed to unmarshal large_number", __func__); 1155 return (-1); 1156 } 1157 tmp->large_number_set = 1; 1158 break; 1159 1160 case RUN_OTHER_NUMBERS: 1161 1162 if (tmp->other_numbers_length >= tmp->other_numbers_num_allocated && 1163 run_other_numbers_expand_to_hold_more(tmp) < 0) { 1164 puts("HEY NOW"); 1165 return (-1); 1166 } 1167 if (evtag_unmarshal_int(evbuf, RUN_OTHER_NUMBERS, &tmp->other_numbers_data[tmp->other_numbers_length]) == -1) { 1168 event_warnx("%s: failed to unmarshal other_numbers", __func__); 1169 return (-1); 1170 } 1171 ++tmp->other_numbers_length; 1172 tmp->other_numbers_set = 1; 1173 break; 1174 1175 default: 1176 return -1; 1177 } 1178 } 1179 1180 if (run_complete(tmp) == -1) 1181 return (-1); 1182 return (0); 1183 } 1184 1185 int 1186 run_complete(struct run *msg) 1187 { 1188 if (!msg->how_set) 1189 return (-1); 1190 if (!msg->fixed_bytes_set) 1191 return (-1); 1192 return (0); 1193 } 1194 1195 int 1196 evtag_unmarshal_run(struct evbuffer *evbuf, ev_uint32_t need_tag, struct run *msg) 1197 { 1198 ev_uint32_t tag; 1199 int res = -1; 1200 1201 struct evbuffer *tmp = evbuffer_new(); 1202 1203 if (evtag_unmarshal(evbuf, &tag, tmp) == -1 || tag != need_tag) 1204 goto error; 1205 1206 if (run_unmarshal(msg, tmp) == -1) 1207 goto error; 1208 1209 res = 0; 1210 1211 error: 1212 evbuffer_free(tmp); 1213 return (res); 1214 } 1215 1216 void 1217 evtag_marshal_run(struct evbuffer *evbuf, ev_uint32_t tag, const struct run *msg) 1218 { 1219 struct evbuffer *buf_ = evbuffer_new(); 1220 assert(buf_ != NULL); 1221 run_marshal(buf_, msg); 1222 evtag_marshal_buffer(evbuf, tag, buf_); 1223 evbuffer_free(buf_); 1224 } 1225 1226