1 /* 2 * packet.h 3 * 4 * DNS packet definitions 5 * 6 * a Net::DNS like library for C 7 * 8 * (c) NLnet Labs, 2005-2006 9 * 10 * See the file LICENSE for the license 11 */ 12 13 /** 14 * \file 15 * 16 * Contains the definition of ldns_pkt and its parts, as well 17 * as functions to manipulate those. 18 */ 19 20 21 #ifndef LDNS_PACKET_H 22 #define LDNS_PACKET_H 23 24 #define LDNS_MAX_PACKETLEN 65535 25 26 /* allow flags to be given to ldns_pkt_query_new */ 27 #define LDNS_QR 1 /* Query Response flag */ 28 #define LDNS_AA 2 /* Authoritative Answer - server flag */ 29 #define LDNS_TC 4 /* TrunCated - server flag */ 30 #define LDNS_RD 8 /* Recursion Desired - query flag */ 31 #define LDNS_CD 16 /* Checking Disabled - query flag */ 32 #define LDNS_RA 32 /* Recursion Available - server flag */ 33 #define LDNS_AD 64 /* Authenticated Data - server flag */ 34 35 #include <ldns/error.h> 36 #include <ldns/common.h> 37 #include <ldns/rr.h> 38 #include <sys/time.h> 39 40 #ifdef __cplusplus 41 extern "C" { 42 #endif 43 44 /* opcodes for pkt's */ 45 enum ldns_enum_pkt_opcode { 46 LDNS_PACKET_QUERY = 0, 47 LDNS_PACKET_IQUERY = 1, 48 LDNS_PACKET_STATUS = 2, /* there is no 3?? DNS is weird */ 49 LDNS_PACKET_NOTIFY = 4, 50 LDNS_PACKET_UPDATE = 5 51 }; 52 typedef enum ldns_enum_pkt_opcode ldns_pkt_opcode; 53 54 /* rcodes for pkts */ 55 enum ldns_enum_pkt_rcode { 56 LDNS_RCODE_NOERROR = 0, 57 LDNS_RCODE_FORMERR = 1, 58 LDNS_RCODE_SERVFAIL = 2, 59 LDNS_RCODE_NXDOMAIN = 3, 60 LDNS_RCODE_NOTIMPL = 4, 61 LDNS_RCODE_REFUSED = 5, 62 LDNS_RCODE_YXDOMAIN = 6, 63 LDNS_RCODE_YXRRSET = 7, 64 LDNS_RCODE_NXRRSET = 8, 65 LDNS_RCODE_NOTAUTH = 9, 66 LDNS_RCODE_NOTZONE = 10 67 }; 68 typedef enum ldns_enum_pkt_rcode ldns_pkt_rcode; 69 70 /** 71 * Header of a dns packet 72 * 73 * Contains the information about the packet itself, as specified in RFC1035 74 <pre> 75 4.1.1. Header section format 76 77 The header contains the following fields: 78 79 1 1 1 1 1 1 80 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 81 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ 82 | ID | 83 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ 84 |QR| Opcode |AA|TC|RD|RA| Z | RCODE | 85 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ 86 | QDCOUNT | 87 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ 88 | ANCOUNT | 89 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ 90 | NSCOUNT | 91 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ 92 | ARCOUNT | 93 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ 94 95 where: 96 97 ID A 16 bit identifier assigned by the program that 98 generates any kind of query. This identifier is copied 99 the corresponding reply and can be used by the requester 100 to match up replies to outstanding queries. 101 102 QR A one bit field that specifies whether this message is a 103 query (0), or a response (1). 104 105 OPCODE A four bit field that specifies kind of query in this 106 message. This value is set by the originator of a query 107 and copied into the response. The values are: 108 109 0 a standard query (QUERY) 110 111 1 an inverse query (IQUERY) 112 113 2 a server status request (STATUS) 114 115 3-15 reserved for future use 116 117 AA Authoritative Answer - this bit is valid in responses, 118 and specifies that the responding name server is an 119 authority for the domain name in question section. 120 121 Note that the contents of the answer section may have 122 multiple owner names because of aliases. The AA bit 123 124 corresponds to the name which matches the query name, or 125 the first owner name in the answer section. 126 127 TC TrunCation - specifies that this message was truncated 128 due to length greater than that permitted on the 129 transmission channel. 130 131 RD Recursion Desired - this bit may be set in a query and 132 is copied into the response. If RD is set, it directs 133 the name server to pursue the query recursively. 134 Recursive query support is optional. 135 136 RA Recursion Available - this be is set or cleared in a 137 response, and denotes whether recursive query support is 138 available in the name server. 139 140 Z Reserved for future use. Must be zero in all queries 141 and responses. 142 143 RCODE Response code - this 4 bit field is set as part of 144 responses. The values have the following 145 interpretation: 146 147 0 No error condition 148 149 1 Format error - The name server was 150 unable to interpret the query. 151 152 2 Server failure - The name server was 153 unable to process this query due to a 154 problem with the name server. 155 156 3 Name Error - Meaningful only for 157 responses from an authoritative name 158 server, this code signifies that the 159 domain name referenced in the query does 160 not exist. 161 162 4 Not Implemented - The name server does 163 not support the requested kind of query. 164 165 5 Refused - The name server refuses to 166 perform the specified operation for 167 policy reasons. For example, a name 168 server may not wish to provide the 169 information to the particular requester, 170 or a name server may not wish to perform 171 a particular operation (e.g., zone 172 173 transfer) for particular data. 174 175 6-15 Reserved for future use. 176 177 QDCOUNT an unsigned 16 bit integer specifying the number of 178 entries in the question section. 179 180 ANCOUNT an unsigned 16 bit integer specifying the number of 181 resource records in the answer section. 182 183 NSCOUNT an unsigned 16 bit integer specifying the number of name 184 server resource records in the authority records 185 section. 186 187 ARCOUNT an unsigned 16 bit integer specifying the number of 188 resource records in the additional records section. 189 190 </pre> 191 */ 192 struct ldns_struct_hdr 193 { 194 /** Id of a packet */ 195 uint16_t _id; 196 /** Query bit (0=query, 1=answer) */ 197 bool _qr; 198 /** Authoritative answer */ 199 bool _aa; 200 /** Packet truncated */ 201 bool _tc; 202 /** Recursion desired */ 203 bool _rd; 204 /** Checking disabled */ 205 bool _cd; 206 /** Recursion available */ 207 bool _ra; 208 /** Authentic data */ 209 bool _ad; 210 /** Query type */ 211 ldns_pkt_opcode _opcode; /* XXX 8 bits? */ 212 /** Response code */ 213 uint8_t _rcode; 214 /** question sec */ 215 uint16_t _qdcount; 216 /** answer sec */ 217 uint16_t _ancount; 218 /** auth sec */ 219 uint16_t _nscount; 220 /** add sec */ 221 uint16_t _arcount; 222 }; 223 typedef struct ldns_struct_hdr ldns_hdr; 224 225 /** 226 * DNS packet 227 * 228 * This structure contains a complete DNS packet (either a query or an answer) 229 * 230 * It is the complete representation of what you actually send to a 231 * nameserver, and what it sends back (assuming you are the client here). 232 */ 233 struct ldns_struct_pkt 234 { 235 /** Header section */ 236 ldns_hdr *_header; 237 /* extra items needed in a packet */ 238 /** an rdf (A or AAAA) with the IP address of the server it is from */ 239 ldns_rdf *_answerfrom; 240 /** Timestamp of the time the packet was sent or created */ 241 struct timeval timestamp; 242 /** The duration of the query this packet is an answer to */ 243 uint32_t _querytime; 244 /** The size of the wire format of the packet in octets */ 245 size_t _size; 246 /** Optional tsig rr */ 247 ldns_rr *_tsig_rr; 248 /** EDNS0 available buffer size, see RFC2671 */ 249 uint16_t _edns_udp_size; 250 /** EDNS0 Extended rcode */ 251 uint8_t _edns_extended_rcode; 252 /** EDNS Version */ 253 uint8_t _edns_version; 254 /* OPT pseudo-RR presence flag */ 255 uint8_t _edns_present; 256 /** Reserved EDNS data bits */ 257 uint16_t _edns_z; 258 /** Arbitrary EDNS rdata */ 259 ldns_rdf *_edns_data; 260 /** Question section */ 261 ldns_rr_list *_question; 262 /** Answer section */ 263 ldns_rr_list *_answer; 264 /** Authority section */ 265 ldns_rr_list *_authority; 266 /** Additional section */ 267 ldns_rr_list *_additional; 268 }; 269 typedef struct ldns_struct_pkt ldns_pkt; 270 271 /** 272 * The sections of a packet 273 */ 274 enum ldns_enum_pkt_section { 275 LDNS_SECTION_QUESTION = 0, 276 LDNS_SECTION_ANSWER = 1, 277 LDNS_SECTION_AUTHORITY = 2, 278 LDNS_SECTION_ADDITIONAL = 3, 279 /** bogus section, if not interested */ 280 LDNS_SECTION_ANY = 4, 281 /** used to get all non-question rrs from a packet */ 282 LDNS_SECTION_ANY_NOQUESTION = 5 283 }; 284 typedef enum ldns_enum_pkt_section ldns_pkt_section; 285 286 /** 287 * The different types of packets 288 */ 289 enum ldns_enum_pkt_type { 290 LDNS_PACKET_QUESTION, 291 LDNS_PACKET_REFERRAL, 292 LDNS_PACKET_ANSWER, 293 LDNS_PACKET_NXDOMAIN, 294 LDNS_PACKET_NODATA, 295 LDNS_PACKET_UNKNOWN 296 }; 297 typedef enum ldns_enum_pkt_type ldns_pkt_type; 298 299 /* prototypes */ 300 301 /* read */ 302 303 /** 304 * Read the packet id 305 * \param[in] p the packet 306 * \return the packet id 307 */ 308 uint16_t ldns_pkt_id(const ldns_pkt *p); 309 /** 310 * Read the packet's qr bit 311 * \param[in] p the packet 312 * \return value of the bit 313 */ 314 bool ldns_pkt_qr(const ldns_pkt *p); 315 /** 316 * Read the packet's aa bit 317 * \param[in] p the packet 318 * \return value of the bit 319 */ 320 bool ldns_pkt_aa(const ldns_pkt *p); 321 /** 322 * Read the packet's tc bit 323 * \param[in] p the packet 324 * \return value of the bit 325 */ 326 bool ldns_pkt_tc(const ldns_pkt *p); 327 /** 328 * Read the packet's rd bit 329 * \param[in] p the packet 330 * \return value of the bit 331 */ 332 bool ldns_pkt_rd(const ldns_pkt *p); 333 /** 334 * Read the packet's cd bit 335 * \param[in] p the packet 336 * \return value of the bit 337 */ 338 bool ldns_pkt_cd(const ldns_pkt *p); 339 /** 340 * Read the packet's ra bit 341 * \param[in] p the packet 342 * \return value of the bit 343 */ 344 bool ldns_pkt_ra(const ldns_pkt *p); 345 /** 346 * Read the packet's ad bit 347 * \param[in] p the packet 348 * \return value of the bit 349 */ 350 bool ldns_pkt_ad(const ldns_pkt *p); 351 /** 352 * Read the packet's code 353 * \param[in] p the packet 354 * \return the opcode 355 */ 356 ldns_pkt_opcode ldns_pkt_get_opcode(const ldns_pkt *p); 357 /** 358 * Return the packet's respons code 359 * \param[in] p the packet 360 * \return the respons code 361 */ 362 ldns_pkt_rcode ldns_pkt_get_rcode(const ldns_pkt *p); 363 /** 364 * Return the packet's qd count 365 * \param[in] p the packet 366 * \return the qd count 367 */ 368 uint16_t ldns_pkt_qdcount(const ldns_pkt *p); 369 /** 370 * Return the packet's an count 371 * \param[in] p the packet 372 * \return the an count 373 */ 374 uint16_t ldns_pkt_ancount(const ldns_pkt *p); 375 /** 376 * Return the packet's ns count 377 * \param[in] p the packet 378 * \return the ns count 379 */ 380 uint16_t ldns_pkt_nscount(const ldns_pkt *p); 381 /** 382 * Return the packet's ar count 383 * \param[in] p the packet 384 * \return the ar count 385 */ 386 uint16_t ldns_pkt_arcount(const ldns_pkt *p); 387 388 /** 389 * Return the packet's answerfrom 390 * \param[in] p packet 391 * \return the name of the server 392 */ 393 ldns_rdf *ldns_pkt_answerfrom(const ldns_pkt *p); 394 395 /** 396 * Return the packet's timestamp 397 * \param[in] p the packet 398 * \return the timestamp 399 */ 400 struct timeval ldns_pkt_timestamp(const ldns_pkt *p); 401 /** 402 * Return the packet's querytime 403 * \param[in] p the packet 404 * \return the querytime 405 */ 406 uint32_t ldns_pkt_querytime(const ldns_pkt *p); 407 408 /** 409 * Return the packet's size in bytes 410 * \param[in] p the packet 411 * \return the size 412 */ 413 size_t ldns_pkt_size(const ldns_pkt *p); 414 415 /** 416 * Return the number of RRs in the given section. 417 * Returns the sum of all RRs when LDNS_SECTION_ANY is given. 418 * Returns the sum of all non-question RRs when LDNS_SECTION_ANY_NOQUESTION 419 * is given. 420 * \param[in] p the packet 421 * \param[in] s the section 422 * \return the number of RRs in the given section 423 */ 424 uint16_t ldns_pkt_section_count(const ldns_pkt *p, ldns_pkt_section s); 425 426 /** 427 * Return the packet's tsig pseudo rr's 428 * \param[in] p the packet 429 * \return the tsig rr 430 */ 431 ldns_rr *ldns_pkt_tsig(const ldns_pkt *p); 432 433 /** 434 * Return the packet's question section 435 * \param[in] p the packet 436 * \return the section 437 */ 438 ldns_rr_list *ldns_pkt_question(const ldns_pkt *p); 439 /** 440 * Return the packet's answer section 441 * \param[in] p the packet 442 * \return the section 443 */ 444 ldns_rr_list *ldns_pkt_answer(const ldns_pkt *p); 445 /** 446 * Return the packet's authority section 447 * \param[in] p the packet 448 * \return the section 449 */ 450 ldns_rr_list *ldns_pkt_authority(const ldns_pkt *p); 451 /** 452 * Return the packet's additional section 453 * \param[in] p the packet 454 * \return the section 455 */ 456 ldns_rr_list *ldns_pkt_additional(const ldns_pkt *p); 457 /** 458 * Return the packet's question, answer, authority and additional sections 459 * concatenated, in a new rr_list clone. 460 * \param[in] p the packet 461 * \return the rrs 462 */ 463 ldns_rr_list *ldns_pkt_all(const ldns_pkt *p); 464 /** 465 * Return the packet's answer, authority and additional sections concatenated, 466 * in a new rr_list clone. Like ldns_pkt_all but without the questions. 467 * \param[in] p the packet 468 * \return the rrs except the question rrs 469 */ 470 ldns_rr_list *ldns_pkt_all_noquestion(const ldns_pkt *p); 471 472 /** 473 * return all the rr_list's in the packet. Clone the lists, instead 474 * of returning pointers. 475 * \param[in] p the packet to look in 476 * \param[in] s what section(s) to return 477 * \return ldns_rr_list with the rr's or NULL if none were found 478 */ 479 ldns_rr_list *ldns_pkt_get_section_clone(const ldns_pkt *p, ldns_pkt_section s); 480 481 /** 482 * return all the rr with a specific name from a packet. Optionally 483 * specify from which section in the packet 484 * \param[in] p the packet 485 * \param[in] r the name 486 * \param[in] s the packet's section 487 * \return a list with the rr's or NULL if none were found 488 */ 489 ldns_rr_list *ldns_pkt_rr_list_by_name(const ldns_pkt *p, const ldns_rdf *r, ldns_pkt_section s); 490 /** 491 * return all the rr with a specific type from a packet. Optionally 492 * specify from which section in the packet 493 * \param[in] p the packet 494 * \param[in] t the type 495 * \param[in] s the packet's section 496 * \return a list with the rr's or NULL if none were found 497 */ 498 ldns_rr_list *ldns_pkt_rr_list_by_type(const ldns_pkt *p, ldns_rr_type t, ldns_pkt_section s); 499 /** 500 * return all the rr with a specific type and type from a packet. Optionally 501 * specify from which section in the packet 502 * \param[in] packet the packet 503 * \param[in] ownername the name 504 * \param[in] type the type 505 * \param[in] sec the packet's section 506 * \return a list with the rr's or NULL if none were found 507 */ 508 ldns_rr_list *ldns_pkt_rr_list_by_name_and_type(const ldns_pkt *packet, const ldns_rdf *ownername, ldns_rr_type type, ldns_pkt_section sec); 509 510 511 /** 512 * check to see if an rr exist in the packet 513 * \param[in] pkt the packet to examine 514 * \param[in] sec in which section to look 515 * \param[in] rr the rr to look for 516 */ 517 bool ldns_pkt_rr(const ldns_pkt *pkt, ldns_pkt_section sec, const ldns_rr *rr); 518 519 520 /** 521 * sets the flags in a packet. 522 * \param[in] pkt the packet to operate on 523 * \param[in] flags ORed values: LDNS_QR| LDNS_AR for instance 524 * \return true on success otherwise false 525 */ 526 bool ldns_pkt_set_flags(ldns_pkt *pkt, uint16_t flags); 527 528 /** 529 * Set the packet's id 530 * \param[in] p the packet 531 * \param[in] id the id to set 532 */ 533 void ldns_pkt_set_id(ldns_pkt *p, uint16_t id); 534 /** 535 * Set the packet's id to a random value 536 * \param[in] p the packet 537 */ 538 void ldns_pkt_set_random_id(ldns_pkt *p); 539 /** 540 * Set the packet's qr bit 541 * \param[in] p the packet 542 * \param[in] b the value to set (boolean) 543 */ 544 void ldns_pkt_set_qr(ldns_pkt *p, bool b); 545 /** 546 * Set the packet's aa bit 547 * \param[in] p the packet 548 * \param[in] b the value to set (boolean) 549 */ 550 void ldns_pkt_set_aa(ldns_pkt *p, bool b); 551 /** 552 * Set the packet's tc bit 553 * \param[in] p the packet 554 * \param[in] b the value to set (boolean) 555 */ 556 void ldns_pkt_set_tc(ldns_pkt *p, bool b); 557 /** 558 * Set the packet's rd bit 559 * \param[in] p the packet 560 * \param[in] b the value to set (boolean) 561 */ 562 void ldns_pkt_set_rd(ldns_pkt *p, bool b); 563 /** 564 * Set the packet's cd bit 565 * \param[in] p the packet 566 * \param[in] b the value to set (boolean) 567 */ 568 void ldns_pkt_set_cd(ldns_pkt *p, bool b); 569 /** 570 * Set the packet's ra bit 571 * \param[in] p the packet 572 * \param[in] b the value to set (boolean) 573 */ 574 void ldns_pkt_set_ra(ldns_pkt *p, bool b); 575 /** 576 * Set the packet's ad bit 577 * \param[in] p the packet 578 * \param[in] b the value to set (boolean) 579 */ 580 void ldns_pkt_set_ad(ldns_pkt *p, bool b); 581 582 /** 583 * Set the packet's opcode 584 * \param[in] p the packet 585 * \param[in] c the opcode 586 */ 587 void ldns_pkt_set_opcode(ldns_pkt *p, ldns_pkt_opcode c); 588 /** 589 * Set the packet's respons code 590 * \param[in] p the packet 591 * \param[in] c the rcode 592 */ 593 void ldns_pkt_set_rcode(ldns_pkt *p, uint8_t c); 594 /** 595 * Set the packet's qd count 596 * \param[in] p the packet 597 * \param[in] c the count 598 */ 599 void ldns_pkt_set_qdcount(ldns_pkt *p, uint16_t c); 600 /** 601 * Set the packet's an count 602 * \param[in] p the packet 603 * \param[in] c the count 604 */ 605 void ldns_pkt_set_ancount(ldns_pkt *p, uint16_t c); 606 /** 607 * Set the packet's ns count 608 * \param[in] p the packet 609 * \param[in] c the count 610 */ 611 void ldns_pkt_set_nscount(ldns_pkt *p, uint16_t c); 612 /** 613 * Set the packet's arcount 614 * \param[in] p the packet 615 * \param[in] c the count 616 */ 617 void ldns_pkt_set_arcount(ldns_pkt *p, uint16_t c); 618 /** 619 * Set the packet's answering server 620 * \param[in] p the packet 621 * \param[in] r the address 622 */ 623 void ldns_pkt_set_answerfrom(ldns_pkt *p, ldns_rdf *r); 624 /** 625 * Set the packet's query time 626 * \param[in] p the packet 627 * \param[in] t the querytime in msec 628 */ 629 void ldns_pkt_set_querytime(ldns_pkt *p, uint32_t t); 630 /** 631 * Set the packet's size 632 * \param[in] p the packet 633 * \param[in] s the size 634 */ 635 void ldns_pkt_set_size(ldns_pkt *p, size_t s); 636 637 /** 638 * Set the packet's timestamp 639 * \param[in] p the packet 640 * \param[in] timeval the timestamp 641 */ 642 void ldns_pkt_set_timestamp(ldns_pkt *p, struct timeval timeval); 643 /** 644 * Set a packet's section count to x 645 * \param[in] p the packet 646 * \param[in] s the section 647 * \param[in] x the section count 648 */ 649 void ldns_pkt_set_section_count(ldns_pkt *p, ldns_pkt_section s, uint16_t x); 650 /** 651 * Set the packet's tsig rr 652 * \param[in] p the packet 653 * \param[in] t the tsig rr 654 */ 655 void ldns_pkt_set_tsig(ldns_pkt *p, ldns_rr *t); 656 657 /** 658 * looks inside the packet to determine 659 * what kind of packet it is, AUTH, NXDOMAIN, REFERRAL, etc. 660 * \param[in] p the packet to examine 661 * \return the type of packet 662 */ 663 ldns_pkt_type ldns_pkt_reply_type(const ldns_pkt *p); 664 665 /** 666 * return the packet's edns udp size 667 * \param[in] packet the packet 668 * \return the size 669 */ 670 uint16_t ldns_pkt_edns_udp_size(const ldns_pkt *packet); 671 /** 672 * return the packet's edns extended rcode 673 * \param[in] packet the packet 674 * \return the rcode 675 */ 676 uint8_t ldns_pkt_edns_extended_rcode(const ldns_pkt *packet); 677 /** 678 * return the packet's edns version 679 * \param[in] packet the packet 680 * \return the version 681 */ 682 uint8_t ldns_pkt_edns_version(const ldns_pkt *packet); 683 /** 684 * return the packet's edns z value 685 * \param[in] packet the packet 686 * \return the z value 687 */ 688 uint16_t ldns_pkt_edns_z(const ldns_pkt *packet); 689 /** 690 * return the packet's edns data 691 * \param[in] packet the packet 692 * \return the data 693 */ 694 ldns_rdf *ldns_pkt_edns_data(const ldns_pkt *packet); 695 696 /** 697 * return the packet's edns do bit 698 * \param[in] packet the packet 699 * \return the bit's value 700 */ 701 bool ldns_pkt_edns_do(const ldns_pkt *packet); 702 /** 703 * Set the packet's edns do bit 704 * \param[in] packet the packet 705 * \param[in] value the bit's new value 706 */ 707 void ldns_pkt_set_edns_do(ldns_pkt *packet, bool value); 708 709 /** 710 * return the packet's EDNS header bits that are unassigned. 711 */ 712 uint16_t ldns_pkt_edns_unassigned(const ldns_pkt *packet); 713 714 /** 715 * Set the packet's EDNS header bits that are unassigned. 716 * \param[in] packet the packet 717 * \param[in] value the value 718 */ 719 void ldns_pkt_set_edns_unassigned(ldns_pkt *packet, uint16_t value); 720 721 /** 722 * returns true if this packet needs and EDNS rr to be sent. 723 * At the moment the only reason is an expected packet 724 * size larger than 512 bytes, but for instance dnssec would 725 * be a good reason too. 726 * 727 * \param[in] packet the packet to check 728 * \return true if packet needs edns rr 729 */ 730 bool ldns_pkt_edns(const ldns_pkt *packet); 731 732 /** 733 * Set the packet's edns udp size 734 * \param[in] packet the packet 735 * \param[in] s the size 736 */ 737 void ldns_pkt_set_edns_udp_size(ldns_pkt *packet, uint16_t s); 738 /** 739 * Set the packet's edns extended rcode 740 * \param[in] packet the packet 741 * \param[in] c the code 742 */ 743 void ldns_pkt_set_edns_extended_rcode(ldns_pkt *packet, uint8_t c); 744 /** 745 * Set the packet's edns version 746 * \param[in] packet the packet 747 * \param[in] v the version 748 */ 749 void ldns_pkt_set_edns_version(ldns_pkt *packet, uint8_t v); 750 /** 751 * Set the packet's edns z value 752 * \param[in] packet the packet 753 * \param[in] z the value 754 */ 755 void ldns_pkt_set_edns_z(ldns_pkt *packet, uint16_t z); 756 /** 757 * Set the packet's edns data 758 * \param[in] packet the packet 759 * \param[in] data the data 760 */ 761 void ldns_pkt_set_edns_data(ldns_pkt *packet, ldns_rdf *data); 762 763 /** 764 * allocates and initializes a ldns_pkt structure. 765 * \return pointer to the new packet 766 */ 767 ldns_pkt *ldns_pkt_new(void); 768 769 /** 770 * frees the packet structure and all data that it contains. 771 * \param[in] packet The packet structure to free 772 * \return void 773 */ 774 void ldns_pkt_free(ldns_pkt *packet); 775 776 /** 777 * creates a query packet for the given name, type, class. 778 * \param[out] p the packet to be returned 779 * \param[in] rr_name the name to query for (as string) 780 * \param[in] rr_type the type to query for 781 * \param[in] rr_class the class to query for 782 * \param[in] flags packet flags 783 * \return LDNS_STATUS_OK or a ldns_status mesg with the error 784 */ 785 ldns_status ldns_pkt_query_new_frm_str(ldns_pkt **p, const char *rr_name, ldns_rr_type rr_type, ldns_rr_class rr_class , uint16_t flags); 786 787 /** 788 * creates an IXFR request packet for the given name, class. 789 * adds the SOA record to the authority section. 790 * \param[out] p the packet to be returned 791 * \param[in] rr_name the name to query for (as string) 792 * \param[in] rr_class the class to query for 793 * \param[in] flags packet flags 794 * \param[in] soa soa record to be added to the authority section (not copied). 795 * \return LDNS_STATUS_OK or a ldns_status mesg with the error 796 */ 797 ldns_status ldns_pkt_ixfr_request_new_frm_str(ldns_pkt **p, const char *rr_name, ldns_rr_class rr_class, uint16_t flags, ldns_rr* soa); 798 799 /** 800 * creates a packet with a query in it for the given name, type and class. 801 * \param[in] rr_name the name to query for (not copied). 802 * The returned packet will take ownership of rr_name, so the caller should not free it. 803 * \param[in] rr_type the type to query for 804 * \param[in] rr_class the class to query for 805 * \param[in] flags packet flags 806 * \return ldns_pkt* a pointer to the new pkt 807 */ 808 ldns_pkt *ldns_pkt_query_new(ldns_rdf *rr_name, ldns_rr_type rr_type, ldns_rr_class rr_class, uint16_t flags); 809 810 /** 811 * creates an IXFR request packet for the given name, type and class. 812 * adds the SOA record to the authority section. 813 * \param[in] rr_name the name to query for (not copied). 814 * The returned packet will take ownership of rr_name, so the caller should not free it. 815 * \param[in] rr_class the class to query for 816 * \param[in] flags packet flags 817 * \param[in] soa soa record to be added to the authority section (not copied). 818 * \return ldns_pkt* a pointer to the new pkt 819 */ 820 ldns_pkt *ldns_pkt_ixfr_request_new(ldns_rdf *rr_name, ldns_rr_class rr_class, uint16_t flags, ldns_rr* soa); 821 822 /** 823 * clones the given packet, creating a fully allocated copy 824 * 825 * \param[in] pkt the packet to clone 826 * \return ldns_pkt* pointer to the new packet 827 */ 828 ldns_pkt *ldns_pkt_clone(const ldns_pkt *pkt); 829 830 /** 831 * directly set the additional section 832 * \param[in] p packet to operate on 833 * \param[in] rr rrlist to set 834 */ 835 void ldns_pkt_set_additional(ldns_pkt *p, ldns_rr_list *rr); 836 837 /** 838 * directly set the answer section 839 * \param[in] p packet to operate on 840 * \param[in] rr rrlist to set 841 */ 842 void ldns_pkt_set_answer(ldns_pkt *p, ldns_rr_list *rr); 843 844 /** 845 * directly set the question section 846 * \param[in] p packet to operate on 847 * \param[in] rr rrlist to set 848 */ 849 void ldns_pkt_set_question(ldns_pkt *p, ldns_rr_list *rr); 850 851 /** 852 * directly set the auhority section 853 * \param[in] p packet to operate on 854 * \param[in] rr rrlist to set 855 */ 856 void ldns_pkt_set_authority(ldns_pkt *p, ldns_rr_list *rr); 857 858 /** 859 * push an rr on a packet 860 * \param[in] packet packet to operate on 861 * \param[in] section where to put it 862 * \param[in] rr rr to push 863 * \return a boolean which is true when the rr was added 864 */ 865 bool ldns_pkt_push_rr(ldns_pkt *packet, ldns_pkt_section section, ldns_rr *rr); 866 867 /** 868 * push an rr on a packet, provided the RR is not there. 869 * \param[in] pkt packet to operate on 870 * \param[in] sec where to put it 871 * \param[in] rr rr to push 872 * \return a boolean which is true when the rr was added 873 */ 874 bool ldns_pkt_safe_push_rr(ldns_pkt *pkt, ldns_pkt_section sec, ldns_rr *rr); 875 876 /** 877 * push a rr_list on a packet 878 * \param[in] packet packet to operate on 879 * \param[in] section where to put it 880 * \param[in] list the rr_list to push 881 * \return a boolean which is true when the rr was added 882 */ 883 bool ldns_pkt_push_rr_list(ldns_pkt *packet, ldns_pkt_section section, ldns_rr_list *list); 884 885 /** 886 * push an rr_list to a packet, provided the RRs are not already there. 887 * \param[in] pkt packet to operate on 888 * \param[in] sec where to put it 889 * \param[in] list the rr_list to push 890 * \return a boolean which is true when the rr was added 891 */ 892 bool ldns_pkt_safe_push_rr_list(ldns_pkt *pkt, ldns_pkt_section sec, ldns_rr_list *list); 893 894 /** 895 * check if a packet is empty 896 * \param[in] p packet 897 * \return true: empty, false: not empty 898 */ 899 bool ldns_pkt_empty(ldns_pkt *p); 900 901 #ifdef __cplusplus 902 } 903 #endif 904 905 #endif /* LDNS_PACKET_H */ 906