lsquic.h revision 497ec21d
1/* Copyright (c) 2017 - 2021 LiteSpeed Technologies Inc. See LICENSE. */ 2#ifndef __LSQUIC_H__ 3#define __LSQUIC_H__ 4 5/** 6 * @file 7 * public API for using liblsquic is defined in this file. 8 * 9 */ 10 11#include <stdarg.h> 12#include <lsquic_types.h> 13#ifndef WIN32 14#include <sys/uio.h> 15#include <time.h> 16#else 17#include <vc_compat.h> 18#endif 19 20struct sockaddr; 21 22#ifdef __cplusplus 23extern "C" { 24#endif 25 26#define LSQUIC_MAJOR_VERSION 3 27#define LSQUIC_MINOR_VERSION 0 28#define LSQUIC_PATCH_VERSION 4 29 30/** 31 * Engine flags: 32 */ 33 34/** Server mode */ 35#define LSENG_SERVER (1 << 0) 36 37/** Use HTTP behavior */ 38#define LSENG_HTTP (1 << 1) 39 40#define LSENG_HTTP_SERVER (LSENG_SERVER|LSENG_HTTP) 41 42/** 43 * This is a list of QUIC versions that we know of. List of supported 44 * versions is in LSQUIC_SUPPORTED_VERSIONS. 45 */ 46enum lsquic_version 47{ 48 /** 49 * Q043. Support for processing PRIORITY frames. Since this library 50 * has supported PRIORITY frames from the beginning, this version is 51 * exactly the same as LSQVER_042. 52 */ 53 LSQVER_043, 54 55 /** 56 * Q046. Use IETF Draft-17 compatible packet headers. 57 */ 58 LSQVER_046, 59 60 /** 61 * Q050. Variable-length QUIC server connection IDs. Use CRYPTO frames 62 * for handshake. IETF header format matching invariants-06. Packet 63 * number encryption. Initial packets are obfuscated. 64 */ 65 LSQVER_050, 66 67 /** 68 * IETF QUIC Draft-27 69 */ 70 LSQVER_ID27, 71 72 /** 73 * IETF QUIC Draft-29 74 */ 75 LSQVER_ID29, 76 77 /** 78 * IETF QUIC v1. 79 */ 80 LSQVER_I001, 81 82 /** 83 * Special version to trigger version negotiation. 84 * [draft-ietf-quic-transport-11], Section 3. 85 */ 86 LSQVER_VERNEG, 87 88 N_LSQVER 89}; 90 91/** 92 * We currently support versions 43, 46, 50, Draft-27, Draft-29, 93 * and IETF QUIC v1. 94 * @see lsquic_version 95 */ 96#define LSQUIC_SUPPORTED_VERSIONS ((1 << N_LSQVER) - 1) 97 98/** 99 * List of versions in which the server never includes CID in short packets. 100 */ 101#define LSQUIC_FORCED_TCID0_VERSIONS ((1 << LSQVER_046)|(1 << LSQVER_050)) 102 103#define LSQUIC_EXPERIMENTAL_VERSIONS ( \ 104 (1 << LSQVER_VERNEG)) 105 106#define LSQUIC_DEPRECATED_VERSIONS ((1 << LSQVER_ID27)) 107 108#define LSQUIC_GQUIC_HEADER_VERSIONS (1 << LSQVER_043) 109 110#define LSQUIC_IETF_VERSIONS ((1 << LSQVER_ID27) \ 111 | (1 << LSQVER_ID29) \ 112 | (1 << LSQVER_I001) | (1 << LSQVER_VERNEG)) 113 114#define LSQUIC_IETF_DRAFT_VERSIONS ((1 << LSQVER_ID27) \ 115 | (1 << LSQVER_ID29) \ 116 | (1 << LSQVER_VERNEG)) 117 118enum lsquic_hsk_status 119{ 120 /** 121 * The handshake failed. 122 */ 123 LSQ_HSK_FAIL, 124 /** 125 * The handshake succeeded without session resumption. 126 */ 127 LSQ_HSK_OK, 128 /** 129 * The handshake succeeded with session resumption. 130 */ 131 LSQ_HSK_RESUMED_OK, 132 /** 133 * Session resumption failed. Retry the connection without session 134 * resumption. 135 */ 136 LSQ_HSK_RESUMED_FAIL, 137}; 138 139/** 140 * @struct lsquic_stream_if 141 * @brief The definitions of callback functions called by lsquic_stream to 142 * process events. 143 * 144 */ 145struct lsquic_stream_if { 146 147 /** 148 * Use @ref lsquic_conn_get_ctx to get back the context. It is 149 * OK for this function to return NULL. 150 */ 151 lsquic_conn_ctx_t *(*on_new_conn)(void *stream_if_ctx, 152 lsquic_conn_t *c); 153 154 /** This is called when our side received GOAWAY frame. After this, 155 * new streams should not be created. The callback is optional. 156 */ 157 void (*on_goaway_received)(lsquic_conn_t *c); 158 void (*on_conn_closed)(lsquic_conn_t *c); 159 160 /** If you need to initiate a connection, call lsquic_conn_make_stream(). 161 * This will cause `on_new_stream' callback to be called when appropriate 162 * (this operation is delayed when maximum number of outgoing streams is 163 * reached). 164 * 165 * After `on_close' is called, the stream is no longer accessible. 166 */ 167 lsquic_stream_ctx_t * 168 (*on_new_stream)(void *stream_if_ctx, lsquic_stream_t *s); 169 170 void (*on_read) (lsquic_stream_t *s, lsquic_stream_ctx_t *h); 171 void (*on_write) (lsquic_stream_t *s, lsquic_stream_ctx_t *h); 172 void (*on_close) (lsquic_stream_t *s, lsquic_stream_ctx_t *h); 173 /* Called when datagram is ready to be written */ 174 ssize_t (*on_dg_write)(lsquic_conn_t *c, void *, size_t); 175 /* Called when datagram is read from a packet. This callback is required 176 * when es_datagrams is true. Take care to process it quickly, as this 177 * is called during lsquic_engine_packet_in(). 178 */ 179 void (*on_datagram)(lsquic_conn_t *, const void *buf, size_t); 180 /* This callback in only called in client mode */ 181 /** 182 * When handshake is completed, this optional callback is called. 183 */ 184 void (*on_hsk_done)(lsquic_conn_t *c, enum lsquic_hsk_status s); 185 /** 186 * When client receives a token in NEW_TOKEN frame, this callback is called. 187 * The callback is optional. 188 */ 189 void (*on_new_token)(lsquic_conn_t *c, const unsigned char *token, 190 size_t token_size); 191 /** 192 * This optional callback lets client record information needed to 193 * perform a session resumption next time around. 194 * 195 * For IETF QUIC, this is called only if ea_get_ssl_ctx() is *not* set, 196 * in which case the library creates its own SSL_CTX. 197 * 198 * Note: this callback will be deprecated when gQUIC support is removed. 199 */ 200 void (*on_sess_resume_info)(lsquic_conn_t *c, const unsigned char *, size_t); 201 /** 202 * Optional callback is called as soon as the peer resets a stream. 203 * The argument `how' is either 0, 1, or 2, meaning "read", "write", and 204 * "read and write", respectively (just like in shutdown(2)). This 205 * signals the user to stop reading, writing, or both. 206 * 207 * Note that resets differ in gQUIC and IETF QUIC. In gQUIC, `how' is 208 * always 2; in IETF QUIC, `how' is either 0 or 1 because one can reset 209 * just one direction in IETF QUIC. 210 */ 211 void (*on_reset) (lsquic_stream_t *s, lsquic_stream_ctx_t *h, int how); 212 /** 213 * Optional callback is called when a CONNECTION_CLOSE frame is received. 214 * This allows the application to log low-level diagnostic information about 215 * errors received with the CONNECTION_CLOSE frame. If app_error is -1 then 216 * it is considered unknown if this is an app_error or not. 217 */ 218 void (*on_conncloseframe_received)(lsquic_conn_t *c, 219 int app_error, uint64_t error_code, 220 const char *reason, int reason_len); 221}; 222 223struct ssl_ctx_st; 224struct ssl_st; 225struct ssl_session_st; 226struct lsxpack_header; 227 228/** 229 * QUIC engine in server mode needs access to certificates. This is 230 * accomplished by providing a callback and a context to the engine 231 * constructor. 232 */ 233 234/* `sni' may be NULL if engine is not HTTP mode and client TLS transport 235 * parameters did not include the SNI. 236 */ 237typedef struct ssl_ctx_st * (*lsquic_lookup_cert_f)( 238 void *lsquic_cert_lookup_ctx, const struct sockaddr *local, const char *sni); 239 240/** 241 * Minimum flow control window is set to 16 KB for both client and server. 242 * This means we can send up to this amount of data before handshake gets 243 * completed. 244 */ 245#define LSQUIC_MIN_FCW (16 * 1024) 246 247/* Each LSQUIC_DF_* value corresponds to es_* entry in 248 * lsquic_engine_settings below. 249 */ 250 251/** 252 * By default, deprecated and experimental versions are not included. 253 */ 254#define LSQUIC_DF_VERSIONS (LSQUIC_SUPPORTED_VERSIONS & \ 255 ~LSQUIC_DEPRECATED_VERSIONS & \ 256 ~LSQUIC_EXPERIMENTAL_VERSIONS) 257 258#define LSQUIC_DF_CFCW_SERVER (3 * 1024 * 1024 / 2) 259#define LSQUIC_DF_CFCW_CLIENT (15 * 1024 * 1024) 260#define LSQUIC_DF_SFCW_SERVER (1 * 1024 * 1024) 261#define LSQUIC_DF_SFCW_CLIENT (6 * 1024 * 1024) 262#define LSQUIC_DF_MAX_STREAMS_IN 100 263 264/* IQUIC uses different names for these: */ 265#define LSQUIC_DF_INIT_MAX_DATA_SERVER LSQUIC_DF_CFCW_SERVER 266#define LSQUIC_DF_INIT_MAX_DATA_CLIENT LSQUIC_DF_CFCW_CLIENT 267#define LSQUIC_DF_INIT_MAX_STREAM_DATA_BIDI_REMOTE_SERVER LSQUIC_DF_SFCW_SERVER 268#define LSQUIC_DF_INIT_MAX_STREAM_DATA_BIDI_LOCAL_SERVER 0 269#define LSQUIC_DF_INIT_MAX_STREAM_DATA_BIDI_REMOTE_CLIENT 0 270#define LSQUIC_DF_INIT_MAX_STREAM_DATA_BIDI_LOCAL_CLIENT LSQUIC_DF_SFCW_CLIENT 271#define LSQUIC_DF_INIT_MAX_STREAMS_BIDI LSQUIC_DF_MAX_STREAMS_IN 272#define LSQUIC_DF_INIT_MAX_STREAMS_UNI_CLIENT 100 273#define LSQUIC_DF_INIT_MAX_STREAMS_UNI_SERVER 3 274/* XXX What's a good value here? */ 275#define LSQUIC_DF_INIT_MAX_STREAM_DATA_UNI_CLIENT (32 * 1024) 276#define LSQUIC_DF_INIT_MAX_STREAM_DATA_UNI_SERVER (12 * 1024) 277 278/** 279 * Default idle connection time in seconds. 280 */ 281#define LSQUIC_DF_IDLE_TIMEOUT 30 282 283/** 284 * Default ping period in seconds. 285 */ 286#define LSQUIC_DF_PING_PERIOD 15 287 288/** 289 * Default handshake timeout in microseconds. 290 */ 291#define LSQUIC_DF_HANDSHAKE_TO (10 * 1000 * 1000) 292 293#define LSQUIC_DF_IDLE_CONN_TO (LSQUIC_DF_IDLE_TIMEOUT * 1000 * 1000) 294#define LSQUIC_DF_SILENT_CLOSE 1 295 296/** Default value of maximum header list size. If set to non-zero value, 297 * SETTINGS_MAX_HEADER_LIST_SIZE will be sent to peer after handshake is 298 * completed (assuming the peer supports this setting frame type). 299 */ 300#define LSQUIC_DF_MAX_HEADER_LIST_SIZE 0 301 302/** Default value of UAID (user-agent ID). */ 303#define LSQUIC_DF_UA "LSQUIC" 304 305#define LSQUIC_DF_STTL 86400 306#define LSQUIC_DF_MAX_INCHOATE (1 * 1000 * 1000) 307/** Do not use NSTP by default */ 308#define LSQUIC_DF_SUPPORT_NSTP 0 309/** TODO: IETF QUIC clients do not support push */ 310#define LSQUIC_DF_SUPPORT_PUSH 1 311#define LSQUIC_DF_SUPPORT_TCID0 1 312/** By default, LSQUIC ignores Public Reset packets. */ 313#define LSQUIC_DF_HONOR_PRST 0 314 315/** 316 * By default, LSQUIC will not send Public Reset packets in response to 317 * packets that specify unknown connections. 318 */ 319#define LSQUIC_DF_SEND_PRST 0 320 321/** By default, infinite loop checks are turned on */ 322#define LSQUIC_DF_PROGRESS_CHECK 1000 323 324/** By default, read/write events are dispatched in a loop */ 325#define LSQUIC_DF_RW_ONCE 0 326 327/** By default, the threshold is not enabled */ 328#define LSQUIC_DF_PROC_TIME_THRESH 0 329 330/** By default, packets are paced */ 331#define LSQUIC_DF_PACE_PACKETS 1 332 333/** Default clock granularity is 1000 microseconds */ 334#define LSQUIC_DF_CLOCK_GRANULARITY 1000 335 336/** The default value is 8 for simplicity */ 337#define LSQUIC_DF_SCID_LEN 8 338 339/** The default value is 60 CIDs per minute */ 340#define LSQUIC_DF_SCID_ISS_RATE 60 341 342#define LSQUIC_DF_QPACK_DEC_MAX_BLOCKED 100 343#define LSQUIC_DF_QPACK_DEC_MAX_SIZE 4096 344#define LSQUIC_DF_QPACK_ENC_MAX_BLOCKED 100 345#define LSQUIC_DF_QPACK_ENC_MAX_SIZE 4096 346 347/* By default, QPACK experiments are turned off */ 348#define LSQUIC_DF_QPACK_EXPERIMENT 0 349 350/** ECN is disabled by default */ 351#define LSQUIC_DF_ECN 0 352 353/** Allow migration by default */ 354#define LSQUIC_DF_ALLOW_MIGRATION 1 355 356/** Use QL loss bits by default */ 357#define LSQUIC_DF_QL_BITS 2 358 359/** Turn spin bit on by default */ 360#define LSQUIC_DF_SPIN 1 361 362/** Turn on delayed ACKs extension by default */ 363#define LSQUIC_DF_DELAYED_ACKS 1 364 365/** 366 * Defaults for the Packet Tolerance PID Controller (PTPC) used by the 367 * Delayed ACKs extension: 368 */ 369#define LSQUIC_DF_PTPC_PERIODICITY 3 370#define LSQUIC_DF_PTPC_MAX_PACKTOL 150 371#define LSQUIC_DF_PTPC_DYN_TARGET 1 372#define LSQUIC_DF_PTPC_TARGET 1.0 373#define LSQUIC_DF_PTPC_PROP_GAIN 0.8 374#define LSQUIC_DF_PTPC_INT_GAIN 0.35 375#define LSQUIC_DF_PTPC_ERR_THRESH 0.05 376#define LSQUIC_DF_PTPC_ERR_DIVISOR 0.05 377 378/** Turn on timestamp extension by default */ 379#define LSQUIC_DF_TIMESTAMPS 1 380 381/* Use Adaptive CC by default */ 382#define LSQUIC_DF_CC_ALGO 3 383 384/* Default value of the CC RTT threshold is 1.5 ms */ 385#define LSQUIC_DF_CC_RTT_THRESH 1500 386 387/** Turn off datagram extension by default */ 388#define LSQUIC_DF_DATAGRAMS 0 389 390/** Assume optimistic NAT by default. */ 391#define LSQUIC_DF_OPTIMISTIC_NAT 1 392 393/** Turn on Extensible HTTP Priorities by default. */ 394#define LSQUIC_DF_EXT_HTTP_PRIO 1 395 396/** By default, incoming packet size is not limited. */ 397#define LSQUIC_DF_MAX_UDP_PAYLOAD_SIZE_RX 0 398 399/** 400 * By default, greasing the QUIC bit is enabled (if peer sent 401 * the "grease_quic_bit" transport parameter). 402 */ 403#define LSQUIC_DF_GREASE_QUIC_BIT 1 404 405/** By default, DPLPMTUD is enabled */ 406#define LSQUIC_DF_DPLPMTUD 1 407 408/** By default, this value is left up to the engine. */ 409#define LSQUIC_DF_BASE_PLPMTU 0 410 411/** By default, this value is left up to the engine. */ 412#define LSQUIC_DF_MAX_PLPMTU 0 413 414/** By default, drop no-progress connections after 60 seconds on the server */ 415#define LSQUIC_DF_NOPROGRESS_TIMEOUT_SERVER 60 416 417/** By default, do not use no-progress timeout on the client */ 418#define LSQUIC_DF_NOPROGRESS_TIMEOUT_CLIENT 0 419 420/** By default, we use the minimum timer of 1000 milliseconds */ 421#define LSQUIC_DF_MTU_PROBE_TIMER 1000 422 423/** By default, calling on_close() is not delayed */ 424#define LSQUIC_DF_DELAY_ONCLOSE 0 425 426/** 427 * By default, maximum batch size is not specified, leaving it up to the 428 * library. 429 */ 430#define LSQUIC_DF_MAX_BATCH_SIZE 0 431 432/** Transport parameter sanity checks are performed by default. */ 433#define LSQUIC_DF_CHECK_TP_SANITY 1 434 435struct lsquic_engine_settings { 436 /** 437 * This is a bit mask wherein each bit corresponds to a value in 438 * enum lsquic_version. Client starts negotiating with the highest 439 * version and goes down. Server supports either of the versions 440 * specified here. 441 * 442 * This setting applies to both Google and IETF QUIC. 443 * 444 * @see lsquic_version 445 */ 446 unsigned es_versions; 447 448 /** 449 * Initial default CFCW. 450 * 451 * In server mode, per-connection values may be set lower than 452 * this if resources are scarce. 453 * 454 * Do not set es_cfcw and es_sfcw lower than @ref LSQUIC_MIN_FCW. 455 * 456 * @see es_max_cfcw 457 */ 458 unsigned es_cfcw; 459 460 /** 461 * Initial default SFCW. 462 * 463 * In server mode, per-connection values may be set lower than 464 * this if resources are scarce. 465 * 466 * Do not set es_cfcw and es_sfcw lower than @ref LSQUIC_MIN_FCW. 467 * 468 * @see es_max_sfcw 469 */ 470 unsigned es_sfcw; 471 472 /** 473 * This value is used to specify maximum allowed value CFCW is allowed 474 * to reach due to window auto-tuning. By default, this value is zero, 475 * which means that CFCW is not allowed to increase from its initial 476 * value. 477 * 478 * This setting is applicable to both gQUIC and IETF QUIC. 479 * 480 * @see es_cfcw, @see es_init_max_data. 481 */ 482 unsigned es_max_cfcw; 483 484 /** 485 * This value is used to specify the maximum value stream flow control 486 * window is allowed to reach due to auto-tuning. By default, this 487 * value is zero, meaning that auto-tuning is turned off. 488 * 489 * This setting is applicable to both gQUIC and IETF QUIC. 490 * 491 * @see es_sfcw, @see es_init_max_stream_data_bidi_remote, 492 * @see es_init_max_stream_data_bidi_local. 493 */ 494 unsigned es_max_sfcw; 495 496 /** MIDS */ 497 unsigned es_max_streams_in; 498 499 /** 500 * Handshake timeout in microseconds. 501 * 502 * For client, this can be set to an arbitrary value (zero turns the 503 * timeout off). 504 * 505 * For server, this value is limited to about 16 seconds. Do not set 506 * it to zero. 507 */ 508 unsigned long es_handshake_to; 509 510 /** ICSL in microseconds; GQUIC only */ 511 unsigned long es_idle_conn_to; 512 513 /** 514 * When true, CONNECTION_CLOSE is not sent when connection times out. 515 * The server will also not send a reply to client's CONNECTION_CLOSE. 516 * 517 * Corresponds to SCLS (silent close) gQUIC option. 518 */ 519 int es_silent_close; 520 521 /** 522 * This corresponds to SETTINGS_MAX_HEADER_LIST_SIZE 523 * (RFC 7540, Section 6.5.2). 0 means no limit. Defaults 524 * to @ref LSQUIC_DF_MAX_HEADER_LIST_SIZE. 525 */ 526 unsigned es_max_header_list_size; 527 528 /** UAID -- User-Agent ID. Defaults to @ref LSQUIC_DF_UA. */ 529 const char *es_ua; 530 531 /** 532 * More parameters for server 533 */ 534 uint64_t es_sttl; /* SCFG TTL in seconds */ 535 536 uint32_t es_pdmd; /* One fixed value X509 */ 537 uint32_t es_aead; /* One fixed value AESG */ 538 uint32_t es_kexs; /* One fixed value C255 */ 539 540 /* Maximum number of incoming connections in inchoate state. This is 541 * only applicable in server mode. 542 */ 543 unsigned es_max_inchoate; 544 545 /** 546 * Setting this value to 0 means that 547 * 548 * For client: 549 * a) we send a SETTINGS frame to indicate that we do not support server 550 * push; and 551 * b) All incoming pushed streams get reset immediately. 552 * (For maximum effect, set es_max_streams_in to 0.) 553 * 554 * For server: 555 * lsquic_conn_push_stream() will return -1. 556 */ 557 int es_support_push; 558 559 /** 560 * If set to true value, the server will not include connection ID in 561 * outgoing packets if client's CHLO specifies TCID=0. 562 * 563 * For client, this means including TCID=0 into CHLO message. Note that 564 * in this case, the engine tracks connections by the 565 * (source-addr, dest-addr) tuple, thereby making it necessary to create 566 * a socket for each connection. 567 * 568 * This option has no effect in Q046 and Q050, as the server never includes 569 * CIDs in the short packets. 570 * 571 * This setting is applicable to gQUIC only. 572 * 573 * The default is @ref LSQUIC_DF_SUPPORT_TCID0. 574 */ 575 int es_support_tcid0; 576 577 /** 578 * Q037 and higher support "No STOP_WAITING frame" mode. When set, the 579 * client will send NSTP option in its Client Hello message and will not 580 * sent STOP_WAITING frames, while ignoring incoming STOP_WAITING frames, 581 * if any. Note that if the version negotiation happens to downgrade the 582 * client below Q037, this mode will *not* be used. 583 * 584 * This option does not affect the server, as it must support NSTP mode 585 * if it was specified by the client. 586 * 587 * This setting is applicable to gQUIC only. 588 */ 589 int es_support_nstp; 590 591 /** 592 * If set to true value, the library will drop connections when it 593 * receives corresponding Public Reset packet. The default is to 594 * ignore these packets. 595 * 596 * The default is @ref LSQUIC_DF_HONOR_PRST. 597 */ 598 int es_honor_prst; 599 600 /** 601 * If set to true value, the library will send Public Reset packets 602 * in response to incoming packets with unknown Connection IDs. 603 * The default is @ref LSQUIC_DF_SEND_PRST. 604 */ 605 int es_send_prst; 606 607 /** 608 * A non-zero value enables internal checks that identify suspected 609 * infinite loops in user @ref on_read and @ref on_write callbacks 610 * and break them. An infinite loop may occur if user code keeps 611 * on performing the same operation without checking status, e.g. 612 * reading from a closed stream etc. 613 * 614 * The value of this parameter is as follows: should a callback return 615 * this number of times in a row without making progress (that is, 616 * reading, writing, or changing stream state), loop break will occur. 617 * 618 * The defaut value is @ref LSQUIC_DF_PROGRESS_CHECK. 619 */ 620 unsigned es_progress_check; 621 622 /** 623 * A non-zero value make stream dispatch its read-write events once 624 * per call. 625 * 626 * When zero, read and write events are dispatched until the stream 627 * is no longer readable or writeable, respectively, or until the 628 * user signals unwillingness to read or write using 629 * @ref lsquic_stream_wantread() or @ref lsquic_stream_wantwrite() 630 * or shuts down the stream. 631 * 632 * This also applies to the on_dg_write() callback. 633 * 634 * The default value is @ref LSQUIC_DF_RW_ONCE. 635 */ 636 int es_rw_once; 637 638 /** 639 * If set, this value specifies the number of microseconds that 640 * @ref lsquic_engine_process_conns() and 641 * @ref lsquic_engine_send_unsent_packets() are allowed to spend 642 * before returning. 643 * 644 * This is not an exact science and the connections must make 645 * progress, so the deadline is checked after all connections get 646 * a chance to tick (in the case of @ref lsquic_engine_process_conns()) 647 * and at least one batch of packets is sent out. 648 * 649 * When processing function runs out of its time slice, immediate 650 * calls to @ref lsquic_engine_has_unsent_packets() return false. 651 * 652 * The default value is @ref LSQUIC_DF_PROC_TIME_THRESH. 653 */ 654 unsigned es_proc_time_thresh; 655 656 /** 657 * If set to true, packet pacing is implemented per connection. 658 * 659 * The default value is @ref LSQUIC_DF_PACE_PACKETS. 660 */ 661 int es_pace_packets; 662 663 /** 664 * Clock granularity information is used by the pacer. The value 665 * is in microseconds; default is @ref LSQUIC_DF_CLOCK_GRANULARITY. 666 */ 667 unsigned es_clock_granularity; 668 669 /** 670 * Congestion control algorithm to use. 671 * 672 * 0: Use default (@ref LSQUIC_DF_CC_ALGO) 673 * 1: Cubic 674 * 2: BBRv1 675 * 3: Adaptive (Cubic or BBRv1) 676 */ 677 unsigned es_cc_algo; 678 679 /** 680 * Congestion controller RTT threshold in microseconds. 681 * 682 * Adaptive congestion control uses BBRv1 until RTT is determined. At 683 * that point a permanent choice of congestion controller is made. If 684 * RTT is smaller than or equal to es_cc_rtt_thresh, congestion 685 * controller is switched to Cubic; otherwise, BBRv1 is picked. 686 * 687 * The default value is @ref LSQUIC_DF_CC_RTT_THRESH. 688 */ 689 unsigned es_cc_rtt_thresh; 690 691 /** 692 * No progress timeout. 693 * 694 * If connection does not make progress for this number of seconds, the 695 * connection is dropped. Here, progress is defined as user streams 696 * being written to or read from. 697 * 698 * If this value is zero, this timeout is disabled. 699 * 700 * Default value is @ref LSQUIC_DF_NOPROGRESS_TIMEOUT_SERVER in server 701 * mode and @ref LSQUIC_DF_NOPROGRESS_TIMEOUT_CLIENT in client mode. 702 */ 703 unsigned es_noprogress_timeout; 704 705 /* The following settings are specific to IETF QUIC. */ 706 /* vvvvvvvvvvv */ 707 708 /** 709 * Initial max data. 710 * 711 * This is a transport parameter. 712 * 713 * Depending on the engine mode, the default value is either 714 * @ref LSQUIC_DF_INIT_MAX_DATA_CLIENT or 715 * @ref LSQUIC_DF_INIT_MAX_DATA_SERVER. 716 */ 717 unsigned es_init_max_data; 718 719 /** 720 * Initial maximum amount of stream data allowed to be sent on streams 721 * created by remote end (peer). 722 * 723 * This is a transport parameter. 724 * 725 * Depending on the engine mode, the default value is either 726 * @ref LSQUIC_DF_INIT_MAX_STREAM_DATA_BIDI_REMOTE_CLIENT or 727 * @ref LSQUIC_DF_INIT_MAX_STREAM_DATA_BIDI_REMOTE_SERVER. 728 */ 729 unsigned es_init_max_stream_data_bidi_remote; 730 731 /** 732 * Initial maximum amount of stream data allowed to be sent on streams 733 * created by remote end (peer). 734 * 735 * This is a transport parameter. 736 * 737 * Depending on the engine mode, the default value is either 738 * @ref LSQUIC_DF_INIT_MAX_STREAM_DATA_BIDI_LOCAL_CLIENT or 739 * @ref LSQUIC_DF_INIT_MAX_STREAM_DATA_BIDI_LOCAL_SERVER. 740 */ 741 unsigned es_init_max_stream_data_bidi_local; 742 743 /** 744 * Initial max stream data for unidirectional streams initiated 745 * by remote endpoint. 746 * 747 * This is a transport parameter. 748 * 749 * Depending on the engine mode, the default value is either 750 * @ref LSQUIC_DF_INIT_MAX_STREAM_DATA_UNI_CLIENT or 751 * @ref LSQUIC_DF_INIT_MAX_STREAM_DATA_UNI_SERVER. 752 */ 753 unsigned es_init_max_stream_data_uni; 754 755 /** 756 * Maximum initial number of bidirectional stream. 757 * 758 * This is a transport parameter. 759 * 760 * Default value is @ref LSQUIC_DF_INIT_MAX_STREAMS_BIDI. 761 */ 762 unsigned es_init_max_streams_bidi; 763 764 /** 765 * Maximum initial number of unidirectional stream. 766 * 767 * This is a transport parameter. 768 * 769 * Default value is @ref LSQUIC_DF_INIT_MAX_STREAMS_UNI_CLIENT or 770 * @ref LSQUIC_DF_INIT_MAX_STREAM_DATA_UNI_SERVER. 771 */ 772 unsigned es_init_max_streams_uni; 773 774 /** 775 * Idle connection timeout. 776 * 777 * This is a transport parameter. 778 * 779 * (Note: es_idle_conn_to is not reused because it is in microseconds, 780 * which, I now realize, was not a good choice. Since it will be 781 * obsoleted some time after the switchover to IETF QUIC, we do not 782 * have to keep on using strange units.) 783 * 784 * Default value is @ref LSQUIC_DF_IDLE_TIMEOUT. 785 * 786 * Maximum value is 600 seconds. 787 */ 788 unsigned es_idle_timeout; 789 790 /** 791 * Ping period. If set to non-zero value, the connection will generate and 792 * send PING frames in the absence of other activity. 793 * 794 * By default, the server does not send PINGs and the period is set to zero. 795 * The client's defaut value is @ref LSQUIC_DF_PING_PERIOD. 796 */ 797 unsigned es_ping_period; 798 799 /** 800 * Source Connection ID length. Only applicable to the IETF QUIC 801 * versions. Valid values are 0 through 20, inclusive. 802 * 803 * Default value is @ref LSQUIC_DF_SCID_LEN. 804 */ 805 unsigned es_scid_len; 806 807 /** 808 * Source Connection ID issuance rate. Only applicable to the IETF QUIC 809 * versions. This field is measured in CIDs per minute. Using value 0 810 * indicates that there is no rate limit for CID issuance. 811 * 812 * Default value is @ref LSQUIC_DF_SCID_ISS_RATE. 813 */ 814 unsigned es_scid_iss_rate; 815 816 /** 817 * Maximum size of the QPACK dynamic table that the QPACK decoder will 818 * use. 819 * 820 * The default is @ref LSQUIC_DF_QPACK_DEC_MAX_SIZE. 821 */ 822 unsigned es_qpack_dec_max_size; 823 824 /** 825 * Maximum number of blocked streams that the QPACK decoder is willing 826 * to tolerate. 827 * 828 * The default is @ref LSQUIC_DF_QPACK_DEC_MAX_BLOCKED. 829 */ 830 unsigned es_qpack_dec_max_blocked; 831 832 /** 833 * Maximum size of the dynamic table that the encoder is willing to use. 834 * The actual size of the dynamic table will not exceed the minimum of 835 * this value and the value advertized by peer. 836 * 837 * The default is @ref LSQUIC_DF_QPACK_ENC_MAX_SIZE. 838 */ 839 unsigned es_qpack_enc_max_size; 840 841 /** 842 * Maximum number of blocked streams that the QPACK encoder is willing 843 * to risk. The actual number of blocked streams will not exceed the 844 * minimum of this value and the value advertized by peer. 845 * 846 * The default is @ref LSQUIC_DF_QPACK_ENC_MAX_BLOCKED. 847 */ 848 unsigned es_qpack_enc_max_blocked; 849 850 /** 851 * Enable ECN support. 852 * 853 * The default is @ref LSQUIC_DF_ECN 854 */ 855 int es_ecn; 856 857 /** 858 * Allow peer to migrate connection. 859 * 860 * The default is @ref LSQUIC_DF_ALLOW_MIGRATION 861 */ 862 int es_allow_migration; 863 864 /** 865 * Use QL loss bits. Allowed values are: 866 * 0: Do not use loss bits 867 * 1: Allow loss bits 868 * 2: Allow and send loss bits 869 * 870 * Default value is @ref LSQUIC_DF_QL_BITS 871 */ 872 int es_ql_bits; 873 874 /** 875 * Enable spin bit. Allowed values are 0 and 1. 876 * 877 * Default value is @ref LSQUIC_DF_SPIN 878 */ 879 int es_spin; 880 881 /** 882 * Enable delayed ACKs extension. Allowed values are 0 and 1. 883 * 884 * Default value is @ref LSQUIC_DF_DELAYED_ACKS 885 */ 886 int es_delayed_acks; 887 888 /** 889 * Enable timestamps extension. Allowed values are 0 and 1. 890 * 891 * Default value is @ref LSQUIC_DF_TIMESTAMPS 892 */ 893 int es_timestamps; 894 895 /** 896 * Maximum packet size we are willing to receive. This is sent to 897 * peer in transport parameters: the library does not enforce this 898 * limit for incoming packets. 899 * 900 * If set to zero, limit is not set. 901 * 902 * Default value is @ref LSQUIC_DF_MAX_UDP_PAYLOAD_SIZE_RX 903 */ 904 unsigned short es_max_udp_payload_size_rx; 905 906 /** 907 * Enable the "QUIC bit grease" extension. When set to a true value, 908 * lsquic will grease the QUIC bit on the outgoing QUIC packets if 909 * the peer sent the "grease_quic_bit" transport parameter. 910 * 911 * Default value is @ref LSQUIC_DF_GREASE_QUIC_BIT 912 */ 913 int es_grease_quic_bit; 914 915 /** 916 * If set to true value, enable DPLPMTUD -- Datagram Packetization 917 * Layer Path MTU Discovery. 918 * 919 * Default value is @ref LSQUIC_DF_DPLPMTUD 920 */ 921 int es_dplpmtud; 922 923 /** 924 * PLPMTU size expected to work for most paths. 925 * 926 * If set to zero, this value is calculated based on QUIC and IP versions. 927 * 928 * Default value is @ref LSQUIC_DF_BASE_PLPMTU. 929 */ 930 unsigned short es_base_plpmtu; 931 932 /** 933 * Largest PLPMTU size the engine will try. 934 * 935 * If set to zero, picking this value is left to the engine. 936 * 937 * Default value is @ref LSQUIC_DF_MAX_PLPMTU. 938 */ 939 unsigned short es_max_plpmtu; 940 941 /** 942 * This value specifies how long the DPLPMTUD probe timer is, in 943 * milliseconds. [draft-ietf-tsvwg-datagram-plpmtud-17] says: 944 * 945 " PROBE_TIMER: The PROBE_TIMER is configured to expire after a period 946 " longer than the maximum time to receive an acknowledgment to a 947 " probe packet. This value MUST NOT be smaller than 1 second, and 948 " SHOULD be larger than 15 seconds. Guidance on selection of the 949 " timer value are provided in section 3.1.1 of the UDP Usage 950 " Guidelines [RFC8085]. 951 * 952 * If set to zero, the default is used. 953 * 954 * Default value is @ref LSQUIC_DF_MTU_PROBE_TIMER. 955 */ 956 unsigned es_mtu_probe_timer; 957 958 /** 959 * Enable datagram extension. Allowed values are 0 and 1. 960 * 961 * Default value is @ref LSQUIC_DF_DATAGRAMS 962 */ 963 int es_datagrams; 964 965 /** 966 * If set to true, changes in peer port are assumed to be due to a 967 * benign NAT rebinding and path characteristics -- MTU, RTT, and 968 * CC state -- are not reset. 969 * 970 * Default value is @ref LSQUIC_DF_OPTIMISTIC_NAT. 971 */ 972 int es_optimistic_nat; 973 974 /** 975 * If set to true, Extensible HTTP Priorities are enabled. This 976 * is HTTP/3-only setting. 977 * 978 * Default value is @ref LSQUIC_DF_EXT_HTTP_PRIO 979 */ 980 int es_ext_http_prio; 981 982 /** 983 * If set to 1, QPACK statistics are logged per connection. 984 * 985 * If set to 2, QPACK experiments are run. In this mode, encoder 986 * and decoder setting values are randomly selected (from the range 987 * [0, whatever is specified in es_qpack_(enc|dec)_*]) and these 988 * values along with compression ratio and user agent are logged at 989 * NOTICE level when connection is destroyed. The purpose of these 990 * experiments is to use compression performance statistics to figure 991 * out a good set of default values. 992 * 993 * Default value is @ref LSQUIC_DF_QPACK_EXPERIMENT. 994 */ 995 int es_qpack_experiment; 996 997 /** 998 * Settings for the Packet Tolerance PID Controller (PTPC) used for 999 * the Delayed ACKs logic. Periodicity is how often the number of 1000 * incoming ACKs is sampled. Periodicity's units is the number of 1001 * RTTs. Target is the average number of incoming ACKs per RTT we 1002 * want to achieve. Error threshold defines the range of error values 1003 * within which no action is taken. For example, error threshold of 1004 * 0.03 means that adjustment actions will be taken only when the 1005 * error is outside of the [-0.03, 0.03] range. Proportional and 1006 * integral gains have their usual meanings described here: 1007 * https://en.wikipedia.org/wiki/PID_controller#Controller_theory 1008 * 1009 * The average is normalized as follows: 1010 * AvgNormalized = Avg * e / Target # Where 'e' is 2.71828... 1011 * 1012 * The error is then calculated as ln(AvgNormalized) - 1. This gives 1013 * us a logarithmic scale that is convenient to use for adjustment 1014 * calculations. The error divisor is used to calculate the packet 1015 * tolerance adjustment: 1016 * Adjustment = Error / ErrorDivisor 1017 * 1018 * WARNING. The library comes with sane defaults. Only fiddle with 1019 * these knobs if you know what you are doing. 1020 */ 1021 unsigned es_ptpc_periodicity; /* LSQUIC_DF_PTPC_PERIODICITY */ 1022 unsigned es_ptpc_max_packtol; /* LSQUIC_DF_PTPC_MAX_PACKTOL */ 1023 int es_ptpc_dyn_target; /* LSQUIC_DF_PTPC_DYN_TARGET */ 1024 float es_ptpc_target, /* LSQUIC_DF_PTPC_TARGET */ 1025 es_ptpc_prop_gain, /* LSQUIC_DF_PTPC_PROP_GAIN */ 1026 es_ptpc_int_gain, /* LSQUIC_DF_PTPC_INT_GAIN */ 1027 es_ptpc_err_thresh, /* LSQUIC_DF_PTPC_ERR_THRESH */ 1028 es_ptpc_err_divisor; /* LSQUIC_DF_PTPC_ERR_DIVISOR */ 1029 1030 /** 1031 * When set to true, the on_close() callback will be delayed until the 1032 * peer acknowledges all data sent on the stream. (Or until the connection 1033 * is destroyed in some manner -- either explicitly closed by the user or 1034 * as a result of an engine shutdown.) 1035 * 1036 * Default value is @ref LSQUIC_DF_DELAY_ONCLOSE 1037 */ 1038 int es_delay_onclose; 1039 1040 /** 1041 * If set to a non-zero value, specified maximum batch size. (The 1042 * batch of packets passed to @ref ea_packets_out() callback). Must 1043 * be no larger than 1024. 1044 * 1045 * Default value is @ref LSQUIC_DF_MAX_BATCH_SIZE 1046 */ 1047 unsigned es_max_batch_size; 1048 1049 /** 1050 * When true, sanity checks are performed on peer's transport parameter 1051 * values. If some limits are set suspiciously low, the connection won't 1052 * be established. 1053 * 1054 * Default value is @ref LSQUIC_DF_CHECK_TP_SANITY 1055 */ 1056 int es_check_tp_sanity; 1057}; 1058 1059/* Initialize `settings' to default values */ 1060void 1061lsquic_engine_init_settings (struct lsquic_engine_settings *, 1062 unsigned lsquic_engine_flags); 1063 1064/** 1065 * Check settings for errors. 1066 * 1067 * @param settings Settings struct. 1068 * 1069 * @param flags Engine flags. 1070 * 1071 * @param err_buf Optional pointer to buffer into which error string 1072 * is written. 1073 1074 * @param err_buf_sz Size of err_buf. No more than this number of bytes 1075 * will be written to err_buf, including the NUL byte. 1076 * 1077 * @retval 0 Settings have no errors. 1078 * @retval -1 There are errors in settings. 1079 */ 1080int 1081lsquic_engine_check_settings (const struct lsquic_engine_settings *settings, 1082 unsigned lsquic_engine_flags, 1083 char *err_buf, size_t err_buf_sz); 1084 1085struct lsquic_out_spec 1086{ 1087 struct iovec *iov; 1088 size_t iovlen; 1089 const struct sockaddr *local_sa; 1090 const struct sockaddr *dest_sa; 1091 void *peer_ctx; 1092 lsquic_conn_ctx_t *conn_ctx; /* will be NULL when sending out the first batch of handshake packets */ 1093 int ecn; /* Valid values are 0 - 3. See RFC 3168 */ 1094}; 1095 1096/** 1097 * Returns number of packets successfully sent out or -1 on error. -1 should 1098 * only be returned if no packets were sent out. If -1 is returned or if the 1099 * return value is smaller than `n_packets_out', this indicates that sending 1100 * of packets is not possible. 1101 * 1102 * If not all packets could be sent out, errno is examined. If it is not 1103 * EAGAIN or EWOULDBLOCK, the connection whose packet cause the error is 1104 * closed forthwith. 1105 * 1106 * No packets will be attempted to be sent out until 1107 * @ref lsquic_engine_send_unsent_packets() is called. 1108 */ 1109typedef int (*lsquic_packets_out_f)( 1110 void *packets_out_ctx, 1111 const struct lsquic_out_spec *out_spec, 1112 unsigned n_packets_out 1113); 1114 1115/** 1116 * The shared hash interface is used to share data between multiple LSQUIC 1117 * instances. 1118 */ 1119struct lsquic_shared_hash_if 1120{ 1121 /** 1122 * If you want your item to never expire, set `expiry' to zero. 1123 * Returns 0 on success, -1 on failure. 1124 * 1125 * If inserted successfully, `free()' will be called on `data' and 'key' 1126 * pointer when the element is deleted, whether due to expiration 1127 * or explicit deletion. 1128 */ 1129 int (*shi_insert)(void *shi_ctx, void *key, unsigned key_sz, 1130 void *data, unsigned data_sz, time_t expiry); 1131 /** 1132 * Returns 0 on success, -1 on failure. 1133 */ 1134 int (*shi_delete)(void *shi_ctx, const void *key, unsigned key_sz); 1135 1136 /** 1137 * `data' is pointed to the result and `data_sz' is set to the 1138 * object size. The implementation may choose to copy the object 1139 * into buffer pointed to by `data', so you should have it ready. 1140 * 1141 * @retval 1 found. 1142 * @retval 0 not found. 1143 * @retval -1 error (perhaps not enough room in `data' if copy was 1144 * attempted). 1145 */ 1146 int (*shi_lookup)(void *shi_ctx, const void *key, unsigned key_sz, 1147 void **data, unsigned *data_sz); 1148}; 1149 1150/** 1151 * The packet out memory interface is used by LSQUIC to get buffers to 1152 * which outgoing packets will be written before they are passed to 1153 * ea_packets_out callback. 1154 * 1155 * If not specified, malloc() and free() are used. 1156 */ 1157struct lsquic_packout_mem_if 1158{ 1159 /** 1160 * Allocate buffer for sending. 1161 */ 1162 void * (*pmi_allocate) (void *pmi_ctx, void *peer_ctx, lsquic_conn_ctx_t *, unsigned short sz, 1163 char is_ipv6); 1164 /** 1165 * This function is used to release the allocated buffer after it is 1166 * sent via @ref ea_packets_out. 1167 */ 1168 void (*pmi_release) (void *pmi_ctx, void *peer_ctx, void *buf, 1169 char is_ipv6); 1170 /** 1171 * If allocated buffer is not going to be sent, return it to the caller 1172 * using this function. 1173 */ 1174 void (*pmi_return) (void *pmi_ctx, void *peer_ctx, void *buf, 1175 char is_ipv6); 1176}; 1177 1178typedef void (*lsquic_cids_update_f)(void *ctx, void **peer_ctx, 1179 const lsquic_cid_t *cids, unsigned n_cids); 1180 1181struct stack_st_X509; 1182 1183enum lsquic_hsi_flag { 1184 /** 1185 * Turn HTTP/1.x mode on or off. In this mode, decoded name and value 1186 * pair are separated by ": " and "\r\n" is appended to the end of the 1187 * string. By default, this mode is off. 1188 */ 1189 LSQUIC_HSI_HTTP1X = 1 << 1, 1190 /** Include name hash into lsxpack_header */ 1191 LSQUIC_HSI_HASH_NAME = 1 << 2, 1192 /** Include nameval hash into lsxpack_header */ 1193 LSQUIC_HSI_HASH_NAMEVAL = 1 << 3, 1194}; 1195 1196struct lsquic_hset_if 1197{ 1198 /** 1199 * Create a new header set. This object is (and must be) fetched from a 1200 * stream by calling @ref lsquic_stream_get_hset() before the stream can 1201 * be read. 1202 * 1203 * `stream' may be set to NULL in server mode. 1204 */ 1205 void * (*hsi_create_header_set)(void *hsi_ctx, lsquic_stream_t *stream, 1206 int is_push_promise); 1207 /** 1208 * Return a header set prepared for decoding. If `hdr' is NULL, this 1209 * means return a new structure with at least `space' bytes available 1210 * in the decoder buffer. On success, a newly prepared header is 1211 * returned. 1212 * 1213 * If `hdr' is not NULL, it means there was not enough decoder buffer 1214 * and it must be increased to at least `space' bytes. `buf', `val_len', 1215 * and `name_offset' member of the `hdr' structure may change. On 1216 * success, the return value is the same as `hdr'. 1217 * 1218 * If NULL is returned, the space cannot be allocated. 1219 */ 1220 struct lsxpack_header * 1221 (*hsi_prepare_decode)(void *hdr_set, 1222 struct lsxpack_header *hdr, 1223 size_t space); 1224 /** 1225 * Process new header. Return 0 on success, a positive value if a header 1226 * error occured, or a negative value on any other error. 1227 * 1228 * A positive return value will result in cancellation of associated 1229 * stream. 1230 * 1231 * A negative return value will result in connection being aborted. 1232 * 1233 * `hdr_set' is the header set object returned by 1234 * @ref hsi_create_header_set(). 1235 * 1236 * `hdr' is the header returned by @ref `hsi_prepare_decode'. 1237 * 1238 * If `hdr' is NULL, this means that no more header are going to be 1239 * added to the set. 1240 */ 1241 int (*hsi_process_header)(void *hdr_set, struct lsxpack_header *hdr); 1242 /** 1243 * Discard header set. This is called for unclaimed header sets and 1244 * header sets that had an error. 1245 */ 1246 void (*hsi_discard_header_set)(void *hdr_set); 1247 /** 1248 * These flags specify properties of decoded headers passed to 1249 * hsi_process_header(). This is only applicable to QPACK headers; 1250 * HPACK library header properties are based on compilation, not 1251 * run-time, options. 1252 */ 1253 enum lsquic_hsi_flag hsi_flags; 1254}; 1255 1256/** 1257 * This struct contains a list of all callbacks that are used by the engine 1258 * to communicate with the user code. Most of these are optional, while 1259 * the following are mandatory: 1260 * 1261 * @ref ea_stream_if The stream interface. 1262 * @ref ea_packets_out Function to send packets. 1263 * @ref ea_lookup_cert Function to look up certificates by SNI (used 1264 * in server mode). 1265 * 1266 * A pointer to this structure is passed to engine constructor 1267 * @ref lsquic_engine_new(). 1268 */ 1269struct lsquic_engine_api 1270{ 1271 const struct lsquic_engine_settings *ea_settings; /* Optional */ 1272 /** Stream interface is required to manage connections and streams. */ 1273 const struct lsquic_stream_if *ea_stream_if; 1274 void *ea_stream_if_ctx; 1275 /** Function to send packets out is required. */ 1276 lsquic_packets_out_f ea_packets_out; 1277 void *ea_packets_out_ctx; 1278 /** Function to look up certificates by SNI is used in server mode. */ 1279 lsquic_lookup_cert_f ea_lookup_cert; 1280 void *ea_cert_lu_ctx; 1281 /** Mandatory callback for server, optional for client. */ 1282 struct ssl_ctx_st * (*ea_get_ssl_ctx)(void *peer_ctx, 1283 const struct sockaddr *local); 1284 /** 1285 * Shared hash interface is optional. If set to zero, performance of 1286 * multiple LSQUIC instances will be degraded. 1287 */ 1288 const struct lsquic_shared_hash_if *ea_shi; 1289 void *ea_shi_ctx; 1290 /** 1291 * Memory interface is optional. 1292 */ 1293 const struct lsquic_packout_mem_if *ea_pmi; 1294 void *ea_pmi_ctx; 1295 /** 1296 * Optional interface to report new and old source connection IDs. 1297 */ 1298 lsquic_cids_update_f ea_new_scids; 1299 lsquic_cids_update_f ea_live_scids; 1300 lsquic_cids_update_f ea_old_scids; 1301 void *ea_cids_update_ctx; 1302 /** 1303 * Function to verify server certificate. The chain contains at least 1304 * one element. The first element in the chain is the server 1305 * certificate. The chain belongs to the library. If you want to 1306 * retain it, call sk_X509_up_ref(). 1307 * 1308 * 0 is returned on success, -1 on error. 1309 * 1310 * If the function pointer is not set, no verification is performed 1311 * (the connection is allowed to proceed). 1312 */ 1313 int (*ea_verify_cert)(void *verify_ctx, 1314 struct stack_st_X509 *chain); 1315 void *ea_verify_ctx; 1316 1317 /** 1318 * Optional header set interface. If not specified, the incoming headers 1319 * are converted to HTTP/1.x format and are read from stream and have to 1320 * be parsed again. 1321 */ 1322 const struct lsquic_hset_if *ea_hsi_if; 1323 void *ea_hsi_ctx; 1324 1325 /** 1326 * If set, engine will print cumulative connection statistics to this 1327 * file just before it is destroyed. (Must be compiled with 1328 * -DLSQUIC_CONN_STATS=1). 1329 */ 1330 void /* FILE, really */ *ea_stats_fh; 1331 1332 /** 1333 * The optional ALPN string is used by the client if @ref LSENG_HTTP 1334 * is not set. 1335 */ 1336 const char *ea_alpn; 1337 1338 /** 1339 * Optional interface to control the creation of connection IDs 1340 */ 1341 void (*ea_generate_scid)(void *ctx, 1342 lsquic_conn_t *, lsquic_cid_t *, unsigned); 1343 /** Passed to ea_generate_scid() */ 1344 void *ea_gen_scid_ctx; 1345}; 1346 1347/** 1348 * Create new engine. 1349 * 1350 * @param lsquic_engine_flags A bitmask of @ref LSENG_SERVER and 1351 * @ref LSENG_HTTP 1352 * 1353 * @param api Required parameter that specifies 1354 * various callbacks. 1355 * 1356 * The engine can be instantiated either in server mode (when LSENG_SERVER 1357 * is set) or client mode. If you need both server and client in your 1358 * program, create two engines (or as many as you'd like). 1359 */ 1360lsquic_engine_t * 1361lsquic_engine_new (unsigned lsquic_engine_flags, 1362 const struct lsquic_engine_api *api); 1363 1364/** 1365 * Create a client connection to peer identified by `peer_ctx'. 1366 * 1367 * To let the engine specify QUIC version, use N_LSQVER. If session resumption 1368 * information is supplied, version is picked from there instead. 1369 * 1370 * If `base_plpmtu' is set to zero, it is selected based on the 1371 * engine settings, QUIC version, and IP version. 1372 */ 1373lsquic_conn_t * 1374lsquic_engine_connect (lsquic_engine_t *, enum lsquic_version, 1375 const struct sockaddr *local_sa, 1376 const struct sockaddr *peer_sa, 1377 void *peer_ctx, lsquic_conn_ctx_t *conn_ctx, 1378 const char *hostname, unsigned short base_plpmtu, 1379 const unsigned char *sess_resume, size_t sess_resume_len, 1380 /** Resumption token: optional */ 1381 const unsigned char *token, size_t token_sz); 1382 1383/** 1384 * Pass incoming packet to the QUIC engine. This function can be called 1385 * more than once in a row. After you add one or more packets, call 1386 * lsquic_engine_process_conns() to schedule output, if any. 1387 * 1388 * @retval 0 Packet was processed by a real connection. 1389 * 1390 * @retval 1 Packet was handled successfully, but not by a connection. 1391 * This may happen with version negotiation and public reset 1392 * packets as well as some packets that may be ignored. 1393 * 1394 * @retval -1 An error occurred. Possible reasons are failure to allocate 1395 * memory and invalid @param sa_local in client mode. 1396 */ 1397int 1398lsquic_engine_packet_in (lsquic_engine_t *, 1399 const unsigned char *packet_in_data, size_t packet_in_size, 1400 const struct sockaddr *sa_local, const struct sockaddr *sa_peer, 1401 void *peer_ctx, int ecn); 1402 1403/** 1404 * Process tickable connections. This function must be called often enough so 1405 * that packets and connections do not expire. 1406 */ 1407void 1408lsquic_engine_process_conns (lsquic_engine_t *engine); 1409 1410/** 1411 * Returns true if engine has some unsent packets. This happens if 1412 * @ref ea_packets_out() could not send everything out or if processing 1413 * deadline was exceeded (see @ref es_proc_time_thresh). 1414 */ 1415int 1416lsquic_engine_has_unsent_packets (lsquic_engine_t *engine); 1417 1418/** 1419 * Send out as many unsent packets as possibe: until we are out of unsent 1420 * packets or until @ref ea_packets_out() fails. 1421 * 1422 * If @ref ea_packets_out() does fail cannot send all packets, this 1423 * function must be called to signify that sending of packets is possible 1424 * again. 1425 */ 1426void 1427lsquic_engine_send_unsent_packets (lsquic_engine_t *engine); 1428 1429/** 1430 * Destroy engine and all connections and streams in it and free all 1431 * memory associated with this engine. 1432 */ 1433void 1434lsquic_engine_destroy (lsquic_engine_t *); 1435 1436/** Return max allowed outbound streams less current outbound streams. */ 1437unsigned 1438lsquic_conn_n_avail_streams (const lsquic_conn_t *); 1439 1440/** 1441 * Create a new request stream. This causes @ref on_new_stream() callback 1442 * to be called. If creating more requests is not permitted at the moment 1443 * (due to number of concurrent streams limit), stream creation is registered 1444 * as "pending" and the stream is created later when number of streams dips 1445 * under the limit again. Any number of pending streams can be created. 1446 * Use @ref lsquic_conn_n_pending_streams() and 1447 * @ref lsquic_conn_cancel_pending_streams() to manage pending streams. 1448 * 1449 * If connection is going away, @ref on_new_stream() is called with the 1450 * stream parameter set to NULL. 1451 */ 1452void 1453lsquic_conn_make_stream (lsquic_conn_t *); 1454 1455/** Return number of delayed streams currently pending */ 1456unsigned 1457lsquic_conn_n_pending_streams (const lsquic_conn_t *); 1458 1459/** Cancel `n' pending streams. Returns new number of pending streams. */ 1460unsigned 1461lsquic_conn_cancel_pending_streams (lsquic_conn_t *, unsigned n); 1462 1463/** 1464 * Mark connection as going away: send GOAWAY frame and do not accept 1465 * any more incoming streams, nor generate streams of our own. 1466 * 1467 * Only applicable to HTTP/3 and GQUIC connections. Otherwise a no-op. 1468 */ 1469void 1470lsquic_conn_going_away (lsquic_conn_t *); 1471 1472/** 1473 * This forces connection close. on_conn_closed and on_close callbacks 1474 * will be called. 1475 */ 1476void 1477lsquic_conn_close (lsquic_conn_t *); 1478 1479/** 1480 * Set whether you want to read from stream. If @param is_want is true, 1481 * @ref on_read() will be called when there is readable data in the 1482 * stream. If @param is false, @ref on_read() will not be called. 1483 * 1484 * Returns previous value of this flag. 1485 */ 1486int 1487lsquic_stream_wantread (lsquic_stream_t *s, int is_want); 1488 1489/** 1490 * Read up to @param len bytes from stream into @param buf. Returns number 1491 * of bytes read or -1 on error, in which case errno is set. Possible 1492 * errno values: 1493 * 1494 * EBADF The stream is closed. 1495 * ECONNRESET The stream has been reset. 1496 * EWOULDBLOCK There is no data to be read. 1497 * 1498 * Return value of zero indicates EOF. 1499 */ 1500ssize_t 1501lsquic_stream_read (lsquic_stream_t *s, void *buf, size_t len); 1502 1503/** 1504 * Similar to @ref lsquic_stream_read(), but reads data into @param vec. 1505 */ 1506ssize_t 1507lsquic_stream_readv (lsquic_stream_t *s, const struct iovec *vec, int iovcnt); 1508 1509/** 1510 * This function allows user-supplied callback to read the stream contents. 1511 * It is meant to be used for zero-copy stream processing. 1512 * 1513 * Return value and errors are same as in @ref lsquic_stream_read(). 1514 */ 1515ssize_t 1516lsquic_stream_readf (lsquic_stream_t *s, 1517 /** 1518 * The callback takes four parameters: 1519 * - Pointer to user-supplied context; 1520 * - Pointer to the data; 1521 * - Data size (can be zero); and 1522 * - Indicator whether the FIN follows the data. 1523 * 1524 * The callback returns number of bytes processed. If this number is zero 1525 * or is smaller than `len', reading from stream stops. 1526 */ 1527 size_t (*readf)(void *ctx, const unsigned char *buf, size_t len, int fin), 1528 void *ctx); 1529 1530/** 1531 * Set whether you want to write to stream. If @param is_want is true, 1532 * @ref on_write() will be called when it is possible to write data to 1533 * the stream. If @param is false, @ref on_write() will not be called. 1534 * 1535 * Returns previous value of this flag. 1536 */ 1537int 1538lsquic_stream_wantwrite (lsquic_stream_t *s, int is_want); 1539 1540/** 1541 * Write `len' bytes to the stream. Returns number of bytes written, which 1542 * may be smaller that `len'. 1543 * 1544 * A negative return value indicates a serious error (the library is likely 1545 * to have aborted the connection because of it). 1546 */ 1547ssize_t 1548lsquic_stream_write (lsquic_stream_t *s, const void *buf, size_t len); 1549 1550/** 1551 * Like @ref lsquic_stream_write(), but read data from @param vec. 1552 */ 1553ssize_t 1554lsquic_stream_writev (lsquic_stream_t *s, const struct iovec *vec, int count); 1555 1556/** 1557 * Write to streams using a single call to a preadv-like function. 1558 */ 1559ssize_t 1560lsquic_stream_pwritev (lsquic_stream_t *s, 1561 ssize_t (*preadv)(void *user_data, const struct iovec *iov, int iovcnt), 1562 void *user_data, size_t n_to_write); 1563 1564/** 1565 * Used as argument to @ref lsquic_stream_writef() 1566 */ 1567struct lsquic_reader 1568{ 1569 /** 1570 * Not a ssize_t because the read function is not supposed to return 1571 * an error. If an error occurs in the read function (for example, when 1572 * reading from a file fails), it is supposed to deal with the error 1573 * itself. 1574 */ 1575 size_t (*lsqr_read) (void *lsqr_ctx, void *buf, size_t count); 1576 /** 1577 * Return number of bytes remaining in the reader. 1578 */ 1579 size_t (*lsqr_size) (void *lsqr_ctx); 1580 void *lsqr_ctx; 1581}; 1582 1583/** 1584 * Write to stream using @ref lsquic_reader. This is the most generic of 1585 * the write functions -- @ref lsquic_stream_write() and 1586 * @ref lsquic_stream_writev() utilize the same mechanism. 1587 * 1588 * @retval Number of bytes written or -1 on error. 1589 */ 1590ssize_t 1591lsquic_stream_writef (lsquic_stream_t *, struct lsquic_reader *); 1592 1593/** 1594 * Flush any buffered data. This triggers packetizing even a single byte 1595 * into a separate frame. Flushing a closed stream is an error. 1596 * 1597 * @retval 0 Success 1598 * @retval -1 Failure 1599 */ 1600int 1601lsquic_stream_flush (lsquic_stream_t *s); 1602 1603/** 1604 * @typedef lsquic_http_headers_t 1605 * @brief HTTP header list structure. Contains a list of HTTP headers in key/value pairs. 1606 * used in API functions to pass headers. 1607 */ 1608struct lsquic_http_headers 1609{ 1610 int count; 1611 struct lsxpack_header *headers; 1612}; 1613 1614/** 1615 * Send headers in @param headers. This function must be called before 1616 * writing to the stream. The value of @param eos is ignored in IETF QUIC. 1617 */ 1618int 1619lsquic_stream_send_headers (lsquic_stream_t *s, 1620 const lsquic_http_headers_t *headers, int eos); 1621 1622/** 1623 * Get header set associated with the stream. The header set is created by 1624 * @ref hsi_create_header_set() callback. After this call, the ownership of 1625 * the header set is transferred to the caller. 1626 * 1627 * This call must precede calls to @ref lsquic_stream_read() and 1628 * @ref lsquic_stream_readv(). 1629 * 1630 * If the optional header set interface (@ref ea_hsi_if) is not specified, 1631 * this function returns NULL. 1632 */ 1633void * 1634lsquic_stream_get_hset (lsquic_stream_t *); 1635 1636/** 1637 * A server may push a stream. This call creates a new stream in reference 1638 * to stream `s'. It will behave as if the client made a request: it will 1639 * trigger on_new_stream() event and it can be used as a regular client- 1640 * initiated stream. 1641 * 1642 * `hdr_set' must be set. It is passed as-is to @lsquic_stream_get_hset. 1643 * 1644 * @retval 0 Stream pushed successfully. 1645 * @retval 1 Stream push failed because it is disabled or because we hit 1646 * stream limit or connection is going away. 1647 * @retval -1 Stream push failed because of an internal error. 1648 */ 1649int 1650lsquic_conn_push_stream (lsquic_conn_t *c, void *hdr_set, lsquic_stream_t *s, 1651 const lsquic_http_headers_t *headers); 1652 1653/** 1654 * Only makes sense in server mode: the client cannot push a stream and this 1655 * function always returns false in client mode. 1656 */ 1657int 1658lsquic_conn_is_push_enabled (lsquic_conn_t *); 1659 1660/** Possible values for how are 0, 1, and 2. See shutdown(2). */ 1661int lsquic_stream_shutdown(lsquic_stream_t *s, int how); 1662 1663int lsquic_stream_close(lsquic_stream_t *s); 1664 1665/** 1666 * Return true if peer has not ACKed all data written to the stream. This 1667 * includes both packetized and buffered data. 1668 */ 1669int 1670lsquic_stream_has_unacked_data (lsquic_stream_t *s); 1671 1672/** 1673 * Get certificate chain returned by the server. This can be used for 1674 * server certificate verification. 1675 * 1676 * The caller releases the stack using sk_X509_free(). 1677 */ 1678struct stack_st_X509 * 1679lsquic_conn_get_server_cert_chain (lsquic_conn_t *); 1680 1681/** Returns ID of the stream */ 1682lsquic_stream_id_t 1683lsquic_stream_id (const lsquic_stream_t *s); 1684 1685/** 1686 * Returns stream ctx associated with the stream. (The context is what 1687 * is returned by @ref on_new_stream callback). 1688 */ 1689lsquic_stream_ctx_t * 1690lsquic_stream_get_ctx (const lsquic_stream_t *s); 1691 1692/** 1693 * Set user-supplied context associated with the stream. 1694 */ 1695void 1696lsquic_stream_set_ctx (lsquic_stream_t *stream, lsquic_stream_ctx_t *ctx); 1697 1698/** Returns true if this is a pushed stream */ 1699int 1700lsquic_stream_is_pushed (const lsquic_stream_t *s); 1701 1702/** 1703 * Returns true if this stream was rejected, false otherwise. Use this as 1704 * an aid to distinguish between errors. 1705 */ 1706int 1707lsquic_stream_is_rejected (const lsquic_stream_t *s); 1708 1709/** 1710 * Refuse pushed stream. Call it from @ref on_new_stream. 1711 * 1712 * No need to call lsquic_stream_close() after this. on_close will be called. 1713 * 1714 * @see lsquic_stream_is_pushed 1715 */ 1716int 1717lsquic_stream_refuse_push (lsquic_stream_t *s); 1718 1719/** 1720 * Get information associated with pushed stream: 1721 * 1722 * @param ref_stream_id Stream ID in response to which push promise was 1723 * sent. 1724 * @param hdr_set Header set. This object was passed to or generated 1725 * by @ref lsquic_conn_push_stream(). 1726 * 1727 * @retval 0 Success. 1728 * @retval -1 This is not a pushed stream. 1729 */ 1730int 1731lsquic_stream_push_info (const lsquic_stream_t *, 1732 lsquic_stream_id_t *ref_stream_id, void **hdr_set); 1733 1734/** Return current priority of the stream */ 1735unsigned lsquic_stream_priority (const lsquic_stream_t *s); 1736 1737/** 1738 * Set stream priority. Valid priority values are 1 through 256, inclusive. 1739 * Lower value means higher priority. 1740 * 1741 * @retval 0 Success. 1742 * @retval -1 Priority value is invalid. 1743 */ 1744int lsquic_stream_set_priority (lsquic_stream_t *s, unsigned priority); 1745 1746/* 1747 * Definitions for Extensible HTTP Priorities: 1748 * https://tools.ietf.org/html/draft-ietf-httpbis-priority-01 1749 */ 1750/* This is maximum *value* -- but it's the lowest *priority* */ 1751#define LSQUIC_MAX_HTTP_URGENCY 7 1752#define LSQUIC_DEF_HTTP_URGENCY 3 1753#define LSQUIC_DEF_HTTP_INCREMENTAL 0 1754 1755struct lsquic_ext_http_prio 1756{ 1757 unsigned char urgency; 1758 signed char incremental; 1759}; 1760 1761/** 1762 * Get Extensible HTTP Priorities associated with the stream. 1763 * 1764 * Returns zero on success of a negative value on failure. A failure occurs 1765 * if this is not an HTTP/3 stream or if Extensible HTTP Priorities haven't 1766 * been enabled. See @ref es_ext_http_prio. 1767 */ 1768int 1769lsquic_stream_get_http_prio (lsquic_stream_t *, struct lsquic_ext_http_prio *); 1770 1771/** 1772 * Set Extensible HTTP Priorities of the stream. 1773 * 1774 * Returns zero on success of a negative value on failure. A failure occurs 1775 * if some internal error occured or if this is not an HTTP/3 stream or if 1776 * Extensible HTTP Priorities haven't been enabled. See @ref es_ext_http_prio. 1777 */ 1778int 1779lsquic_stream_set_http_prio (lsquic_stream_t *, 1780 const struct lsquic_ext_http_prio *); 1781 1782/** 1783 * Get a pointer to the connection object. Use it with lsquic_conn_* 1784 * functions. 1785 */ 1786lsquic_conn_t * lsquic_stream_conn(const lsquic_stream_t *s); 1787 1788/** Get connection ID */ 1789const lsquic_cid_t * 1790lsquic_conn_id (const lsquic_conn_t *c); 1791 1792/** Get pointer to the engine */ 1793lsquic_engine_t * 1794lsquic_conn_get_engine (lsquic_conn_t *c); 1795 1796int 1797lsquic_conn_get_sockaddr(lsquic_conn_t *c, 1798 const struct sockaddr **local, const struct sockaddr **peer); 1799 1800/* Returns previous value */ 1801int 1802lsquic_conn_want_datagram_write (lsquic_conn_t *, int is_want); 1803 1804/* Get minimum datagram size. By default, this value is zero. */ 1805size_t 1806lsquic_conn_get_min_datagram_size (lsquic_conn_t *); 1807 1808/* Set minimum datagram size. This is the minumum value of the buffer passed 1809 * to the on_dg_write() callback. 1810 */ 1811int 1812lsquic_conn_set_min_datagram_size (lsquic_conn_t *, size_t sz); 1813 1814struct lsquic_logger_if { 1815 int (*log_buf)(void *logger_ctx, const char *buf, size_t len); 1816}; 1817 1818/** 1819 * Enumerate timestamp styles supported by LSQUIC logger mechanism. 1820 */ 1821enum lsquic_logger_timestamp_style { 1822 /** 1823 * No timestamp is generated. 1824 */ 1825 LLTS_NONE, 1826 1827 /** 1828 * The timestamp consists of 24 hours, minutes, seconds, and 1829 * milliseconds. Example: 13:43:46.671 1830 */ 1831 LLTS_HHMMSSMS, 1832 1833 /** 1834 * Like above, plus date, e.g: 2017-03-21 13:43:46.671 1835 */ 1836 LLTS_YYYYMMDD_HHMMSSMS, 1837 1838 /** 1839 * This is Chrome-like timestamp used by proto-quic. The timestamp 1840 * includes month, date, hours, minutes, seconds, and microseconds. 1841 * 1842 * Example: 1223/104613.946956 (instead of 12/23 10:46:13.946956). 1843 * 1844 * This is to facilitate reading two logs side-by-side. 1845 */ 1846 LLTS_CHROMELIKE, 1847 1848 /** 1849 * The timestamp consists of 24 hours, minutes, seconds, and 1850 * microseconds. Example: 13:43:46.671123 1851 */ 1852 LLTS_HHMMSSUS, 1853 1854 /** 1855 * Date and time using microsecond resolution, 1856 * e.g: 2017-03-21 13:43:46.671123 1857 */ 1858 LLTS_YYYYMMDD_HHMMSSUS, 1859 1860 N_LLTS 1861}; 1862 1863/** 1864 * Call this if you want to do something with LSQUIC log messages, as they 1865 * are thrown out by default. 1866 */ 1867void lsquic_logger_init(const struct lsquic_logger_if *, void *logger_ctx, 1868 enum lsquic_logger_timestamp_style); 1869 1870/** 1871 * Set log level for all LSQUIC modules. Acceptable values are debug, info, 1872 * notice, warning, error, alert, emerg, crit (case-insensitive). 1873 * 1874 * @retval 0 Success. 1875 * @retval -1 Failure: log_level is not valid. 1876 */ 1877int 1878lsquic_set_log_level (const char *log_level); 1879 1880/** 1881 * E.g. "event=debug" 1882 */ 1883int 1884lsquic_logger_lopt (const char *optarg); 1885 1886/** 1887 * Return the list of QUIC versions (as bitmask) this engine instance 1888 * supports. 1889 */ 1890unsigned lsquic_engine_quic_versions (const lsquic_engine_t *); 1891 1892/** 1893 * This is one of the flags that can be passed to @ref lsquic_global_init. 1894 * Use it to initialize LSQUIC for use in client mode. 1895 */ 1896#define LSQUIC_GLOBAL_CLIENT (1 << 0) 1897 1898/** 1899 * This is one of the flags that can be passed to @ref lsquic_global_init. 1900 * Use it to initialize LSQUIC for use in server mode. 1901 */ 1902#define LSQUIC_GLOBAL_SERVER (1 << 1) 1903 1904/** 1905 * Initialize LSQUIC. This must be called before any other LSQUIC function 1906 * is called. Returns 0 on success and -1 on failure. 1907 * 1908 * @param flags This a bitmask of @ref LSQUIC_GLOBAL_CLIENT and 1909 * @ref LSQUIC_GLOBAL_SERVER. At least one of these 1910 * flags should be specified. 1911 * 1912 * @retval 0 Success. 1913 * @retval -1 Initialization failed. 1914 * 1915 * @see LSQUIC_GLOBAL_CLIENT 1916 * @see LSQUIC_GLOBAL_SERVER 1917 */ 1918int 1919lsquic_global_init (int flags); 1920 1921/** 1922 * Clean up global state created by @ref lsquic_global_init. Should be 1923 * called after all LSQUIC engine instances are gone. 1924 */ 1925void 1926lsquic_global_cleanup (void); 1927 1928/** 1929 * Get QUIC version used by the connection. 1930 * 1931 * @see lsquic_version 1932 */ 1933enum lsquic_version 1934lsquic_conn_quic_version (const lsquic_conn_t *c); 1935 1936/* Return keysize or -1 on error */ 1937int 1938lsquic_conn_crypto_keysize (const lsquic_conn_t *c); 1939 1940/* Return algorithm keysize or -1 on error */ 1941int 1942lsquic_conn_crypto_alg_keysize (const lsquic_conn_t *c); 1943 1944enum lsquic_crypto_ver 1945{ 1946 LSQ_CRY_QUIC, 1947 LSQ_CRY_TLSv13, 1948}; 1949 1950enum lsquic_crypto_ver 1951lsquic_conn_crypto_ver (const lsquic_conn_t *c); 1952 1953/* Return cipher or NULL on error */ 1954const char * 1955lsquic_conn_crypto_cipher (const lsquic_conn_t *c); 1956 1957/** Translate string QUIC version to LSQUIC QUIC version representation */ 1958enum lsquic_version 1959lsquic_str2ver (const char *str, size_t len); 1960 1961/** Translate ALPN (e.g. "h3", "h3-23", "h3-Q046") to LSQUIC enum */ 1962enum lsquic_version 1963lsquic_alpn2ver (const char *alpn, size_t len); 1964 1965/** 1966 * This function closes all mini connections and marks all full connections 1967 * as going away. In server mode, this also causes the engine to stop 1968 * creating new connections. 1969 */ 1970void 1971lsquic_engine_cooldown (lsquic_engine_t *); 1972 1973/** 1974 * Get user-supplied context associated with the connection. 1975 */ 1976lsquic_conn_ctx_t * 1977lsquic_conn_get_ctx (const lsquic_conn_t *); 1978 1979/** 1980 * Set user-supplied context associated with the connection. 1981 */ 1982void 1983lsquic_conn_set_ctx (lsquic_conn_t *, lsquic_conn_ctx_t *); 1984 1985/** 1986 * Get peer context associated with the connection. 1987 */ 1988void * 1989lsquic_conn_get_peer_ctx (lsquic_conn_t *, const struct sockaddr *local_sa); 1990 1991/** Get SNI sent by the client */ 1992const char * 1993lsquic_conn_get_sni (lsquic_conn_t *); 1994 1995/** 1996 * Abort connection. 1997 */ 1998void 1999lsquic_conn_abort (lsquic_conn_t *); 2000 2001/** 2002 * Helper function: convert list of versions as specified in the argument 2003 * bitmask to string that can be included as argument to "v=" part of the 2004 * Alt-Svc header. 2005 * 2006 * For example (1<<LSQVER_037)|(1<<LSQVER_038) => "37,38" 2007 * 2008 * This is only applicable to Google QUIC versions. 2009 */ 2010const char * 2011lsquic_get_alt_svc_versions (unsigned versions); 2012 2013/** 2014 * Return a NULL-terminated list of HTTP/3 ALPNs, e.g "h3-17", "h3-18", "h3". 2015 */ 2016const char *const * 2017lsquic_get_h3_alpns (unsigned versions); 2018 2019/** 2020 * Returns true if provided buffer could be a valid handshake-stage packet, 2021 * false otherwise. Do not call this function if a connection has already 2022 * been established: it will return incorrect result. 2023 */ 2024int 2025lsquic_is_valid_hs_packet (lsquic_engine_t *, const unsigned char *, size_t); 2026 2027/** 2028 * Parse cid from packet stored in `buf' and store it to `cid'. Returns 0 2029 * on success and -1 on failure. 2030 */ 2031int 2032lsquic_cid_from_packet (const unsigned char *, size_t bufsz, lsquic_cid_t *cid); 2033 2034/** 2035 * On success, offset to the CID is returned (a non-negative value). 2036 * `cid_len' is set to the length of the CID. The server perspective 2037 * is assumed. `server_cid_len' is set to the length of the CIDs that 2038 * server generates. 2039 * 2040 * On failure, a negative value is returned. 2041 */ 2042int 2043lsquic_dcid_from_packet (const unsigned char *, size_t bufsz, 2044 unsigned server_cid_len, unsigned *cid_len); 2045 2046/** 2047 * Returns true if there are connections to be processed, false otherwise. 2048 * If true, `diff' is set to the difference between the earliest advisory 2049 * tick time and now. If the former is in the past, the value of `diff' 2050 * is negative. 2051 */ 2052int 2053lsquic_engine_earliest_adv_tick (lsquic_engine_t *engine, int *diff); 2054 2055/** 2056 * Return number of connections whose advisory tick time is before current 2057 * time plus `from_now' microseconds from now. `from_now' can be negative. 2058 */ 2059unsigned 2060lsquic_engine_count_attq (lsquic_engine_t *engine, int from_now); 2061 2062enum LSQUIC_CONN_STATUS 2063{ 2064 LSCONN_ST_HSK_IN_PROGRESS, 2065 LSCONN_ST_CONNECTED, 2066 LSCONN_ST_HSK_FAILURE, 2067 LSCONN_ST_GOING_AWAY, 2068 LSCONN_ST_TIMED_OUT, 2069 /* If es_honor_prst is not set, the connection will never get public 2070 * reset packets and this flag will not be set. 2071 */ 2072 LSCONN_ST_RESET, 2073 LSCONN_ST_USER_ABORTED, 2074 LSCONN_ST_ERROR, 2075 LSCONN_ST_CLOSED, 2076 LSCONN_ST_PEER_GOING_AWAY, 2077 LSCONN_ST_VERNEG_FAILURE, 2078}; 2079 2080enum LSQUIC_CONN_STATUS 2081lsquic_conn_status (lsquic_conn_t *, char *errbuf, size_t bufsz); 2082 2083extern const char *const 2084lsquic_ver2str[N_LSQVER]; 2085 2086/* Return connection associated with this SSL object */ 2087lsquic_conn_t * 2088lsquic_ssl_to_conn (const struct ssl_st *); 2089 2090/* Return session resumption information that can be used on subsequenct 2091 * connection as argument to lsquic_engine_connect(). Call from inside 2092 * SSL's new session callback. 2093 * 2094 * Returns 0 on success. In this case, `buf' is made to point to newly 2095 * allocated memory containing `buf_sz' bytes. It is the caller's 2096 * responsibility to free the memory. 2097 */ 2098int 2099lsquic_ssl_sess_to_resume_info (struct ssl_st *, struct ssl_session_st *, 2100 unsigned char **buf, size_t *buf_sz); 2101 2102#ifdef __cplusplus 2103} 2104#endif 2105 2106#endif //__LSQUIC_H__ 2107 2108