/* * ngtcp2 * * Copyright (c) 2017 ngtcp2 contributors * Copyright (c) 2017 nghttp2 contributors * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef NGTCP2_H #define NGTCP2_H /* Define WIN32 when build target is Win32 API (borrowed from libcurl) */ #if (defined(_WIN32) || defined(__WIN32__)) && !defined(WIN32) # define WIN32 #endif #ifdef _MSC_VER # pragma warning(push) # pragma warning(disable : 4324) #endif #include #if defined(_MSC_VER) && (_MSC_VER < 1800) /* MSVC < 2013 does not have inttypes.h because it is not C99 compliant. See compiler macros and version number in https://sourceforge.net/p/predef/wiki/Compilers/ */ # include #else /* !defined(_MSC_VER) || (_MSC_VER >= 1800) */ # include #endif /* !defined(_MSC_VER) || (_MSC_VER >= 1800) */ #include #include #include #ifndef NGTCP2_USE_GENERIC_SOCKADDR # ifdef WIN32 # ifndef WIN32_LEAN_AND_MEAN # define WIN32_LEAN_AND_MEAN # endif # include # else # include # include # endif #endif #ifdef AF_INET # define NGTCP2_AF_INET AF_INET #else # define NGTCP2_AF_INET 2 #endif #ifdef AF_INET6 # define NGTCP2_AF_INET6 AF_INET6 #else # define NGTCP2_AF_INET6 23 # define NGTCP2_USE_GENERIC_IPV6_SOCKADDR #endif #include #ifdef NGTCP2_STATICLIB # define NGTCP2_EXTERN #elif defined(WIN32) # ifdef BUILDING_NGTCP2 # define NGTCP2_EXTERN __declspec(dllexport) # else /* !BUILDING_NGTCP2 */ # define NGTCP2_EXTERN __declspec(dllimport) # endif /* !BUILDING_NGTCP2 */ #else /* !defined(WIN32) */ # ifdef BUILDING_NGTCP2 # define NGTCP2_EXTERN __attribute__((visibility("default"))) # else /* !BUILDING_NGTCP2 */ # define NGTCP2_EXTERN # endif /* !BUILDING_NGTCP2 */ #endif /* !defined(WIN32) */ #ifdef _MSC_VER # define NGTCP2_ALIGN(N) __declspec(align(N)) #else /* !_MSC_VER */ # define NGTCP2_ALIGN(N) __attribute__((aligned(N))) #endif /* !_MSC_VER */ #ifdef __cplusplus extern "C" { #endif /** * @typedef * * :type:`ngtcp2_ssize` is signed counterpart of size_t. */ typedef ptrdiff_t ngtcp2_ssize; /** * @functypedef * * :type:`ngtcp2_malloc` is a custom memory allocator to replace * :manpage:`malloc(3)`. The |user_data| is * :member:`ngtcp2_mem.user_data`. */ typedef void *(*ngtcp2_malloc)(size_t size, void *user_data); /** * @functypedef * * :type:`ngtcp2_free` is a custom memory allocator to replace * :manpage:`free(3)`. The |user_data| is * :member:`ngtcp2_mem.user_data`. */ typedef void (*ngtcp2_free)(void *ptr, void *user_data); /** * @functypedef * * :type:`ngtcp2_calloc` is a custom memory allocator to replace * :manpage:`calloc(3)`. The |user_data| is the * :member:`ngtcp2_mem.user_data`. */ typedef void *(*ngtcp2_calloc)(size_t nmemb, size_t size, void *user_data); /** * @functypedef * * :type:`ngtcp2_realloc` is a custom memory allocator to replace * :manpage:`realloc(3)`. The |user_data| is the * :member:`ngtcp2_mem.user_data`. */ typedef void *(*ngtcp2_realloc)(void *ptr, size_t size, void *user_data); /** * @struct * * :type:`ngtcp2_mem` is a custom memory allocator. The * :member:`user_data` field is passed to each allocator function. * This can be used, for example, to achieve per-connection memory * pool. * * In the following example code, ``my_malloc``, ``my_free``, * ``my_calloc`` and ``my_realloc`` are the replacement of the * standard allocators :manpage:`malloc(3)`, :manpage:`free(3)`, * :manpage:`calloc(3)` and :manpage:`realloc(3)` respectively:: * * void *my_malloc_cb(size_t size, void *user_data) { * (void)user_data; * return my_malloc(size); * } * * void my_free_cb(void *ptr, void *user_data) { * (void)user_data; * my_free(ptr); * } * * void *my_calloc_cb(size_t nmemb, size_t size, void *user_data) { * (void)user_data; * return my_calloc(nmemb, size); * } * * void *my_realloc_cb(void *ptr, size_t size, void *user_data) { * (void)user_data; * return my_realloc(ptr, size); * } * * void conn_new() { * ngtcp2_mem mem = {NULL, my_malloc_cb, my_free_cb, my_calloc_cb, * my_realloc_cb}; * * ... * } */ typedef struct ngtcp2_mem { /** * :member:`user_data` is an arbitrary user supplied data. This * is passed to each allocator function. */ void *user_data; /** * :member:`malloc` is a custom allocator function to replace * :manpage:`malloc(3)`. */ ngtcp2_malloc malloc; /** * :member:`free` is a custom allocator function to replace * :manpage:`free(3)`. */ ngtcp2_free free; /** * :member:`calloc` is a custom allocator function to replace * :manpage:`calloc(3)`. */ ngtcp2_calloc calloc; /** * :member:`realloc` is a custom allocator function to replace * :manpage:`realloc(3)`. */ ngtcp2_realloc realloc; } ngtcp2_mem; /** * @macrosection * * Time related macros */ /** * @macro * * :macro:`NGTCP2_SECONDS` is a count of tick which corresponds to 1 second. */ #define NGTCP2_SECONDS ((ngtcp2_duration)1000000000ULL) /** * @macro * * :macro:`NGTCP2_MILLISECONDS` is a count of tick which corresponds * to 1 millisecond. */ #define NGTCP2_MILLISECONDS ((ngtcp2_duration)1000000ULL) /** * @macro * * :macro:`NGTCP2_MICROSECONDS` is a count of tick which corresponds * to 1 microsecond. */ #define NGTCP2_MICROSECONDS ((ngtcp2_duration)1000ULL) /** * @macro * * :macro:`NGTCP2_NANOSECONDS` is a count of tick which corresponds to * 1 nanosecond. */ #define NGTCP2_NANOSECONDS ((ngtcp2_duration)1ULL) /** * @macrosection * * QUIC protocol version macros */ /** * @macro * * :macro:`NGTCP2_PROTO_VER_V1` is the QUIC version 1. */ #define NGTCP2_PROTO_VER_V1 ((uint32_t)0x00000001u) /** * @macro * * :macro:`NGTCP2_PROTO_VER_V2` is the QUIC version 2. * * https://quicwg.org/quic-v2/draft-ietf-quic-v2.html */ #define NGTCP2_PROTO_VER_V2 ((uint32_t)0x6b3343cfu) /** * @macro * * :macro:`NGTCP2_PROTO_VER_DRAFT_MAX` is the maximum QUIC draft * version that this library supports. */ #define NGTCP2_PROTO_VER_DRAFT_MAX 0xff000020u /** * @macro * * :macro:`NGTCP2_PROTO_VER_DRAFT_MIN` is the minimum QUIC draft * version that this library supports. */ #define NGTCP2_PROTO_VER_DRAFT_MIN 0xff00001du /** * @macro * * :macro:`NGTCP2_PROTO_VER_MAX` is the highest QUIC version that this * library supports. */ #define NGTCP2_PROTO_VER_MAX NGTCP2_PROTO_VER_V1 /** * @macro * * :macro:`NGTCP2_PROTO_VER_MIN` is the lowest QUIC version that this * library supports. */ #define NGTCP2_PROTO_VER_MIN NGTCP2_PROTO_VER_DRAFT_MIN /** * @macro * * :macro:`NGTCP2_RESERVED_VERSION_MASK` is the bit mask of reserved * version. */ #define NGTCP2_RESERVED_VERSION_MASK 0x0a0a0a0au /** * @macrosection * * UDP datagram related macros */ /** * @macro * * :macro:`NGTCP2_MAX_UDP_PAYLOAD_SIZE` is the default maximum UDP * datagram payload size that this endpoint transmits. */ #define NGTCP2_MAX_UDP_PAYLOAD_SIZE 1200 /** * @macro * * :macro:`NGTCP2_MAX_PMTUD_UDP_PAYLOAD_SIZE` is the maximum UDP * datagram payload size that Path MTU Discovery can discover. */ #define NGTCP2_MAX_PMTUD_UDP_PAYLOAD_SIZE 1452 /** * @macrosection * * QUIC specific macros */ /** * @macro * * :macro:`NGTCP2_MAX_VARINT` is the maximum value which can be * encoded in variable-length integer encoding. */ #define NGTCP2_MAX_VARINT ((1ULL << 62) - 1) /** * @macro * * :macro:`NGTCP2_STATELESS_RESET_TOKENLEN` is the length of Stateless * Reset Token. */ #define NGTCP2_STATELESS_RESET_TOKENLEN 16 /** * @macro * * :macro:`NGTCP2_MIN_STATELESS_RESET_RANDLEN` is the minimum length * of random bytes (Unpredictable Bits) in Stateless Reset packet */ #define NGTCP2_MIN_STATELESS_RESET_RANDLEN 5 /** * @macro * * :macro:`NGTCP2_PATH_CHALLENGE_DATALEN` is the length of * PATH_CHALLENGE data. */ #define NGTCP2_PATH_CHALLENGE_DATALEN 8 /** * @macro * * :macro:`NGTCP2_RETRY_KEY_DRAFT` is an encryption key to create * integrity tag of Retry packet. It is used for QUIC draft versions. */ #define NGTCP2_RETRY_KEY_DRAFT \ "\xcc\xce\x18\x7e\xd0\x9a\x09\xd0\x57\x28\x15\x5a\x6c\xb9\x6b\xe1" /** * @macro * * :macro:`NGTCP2_RETRY_NONCE_DRAFT` is nonce used when generating * integrity tag of Retry packet. It is used for QUIC draft versions. */ #define NGTCP2_RETRY_NONCE_DRAFT \ "\xe5\x49\x30\xf9\x7f\x21\x36\xf0\x53\x0a\x8c\x1c" /** * @macro * * :macro:`NGTCP2_RETRY_KEY_V1` is an encryption key to create * integrity tag of Retry packet. It is used for QUIC v1. */ #define NGTCP2_RETRY_KEY_V1 \ "\xbe\x0c\x69\x0b\x9f\x66\x57\x5a\x1d\x76\x6b\x54\xe3\x68\xc8\x4e" /** * @macro * * :macro:`NGTCP2_RETRY_NONCE_V1` is nonce used when generating integrity * tag of Retry packet. It is used for QUIC v1. */ #define NGTCP2_RETRY_NONCE_V1 "\x46\x15\x99\xd3\x5d\x63\x2b\xf2\x23\x98\x25\xbb" /** * @macro * * :macro:`NGTCP2_RETRY_KEY_V2` is an encryption key to create * integrity tag of Retry packet. It is used for QUIC v2. * * https://quicwg.org/quic-v2/draft-ietf-quic-v2.html */ #define NGTCP2_RETRY_KEY_V2 \ "\x8f\xb4\xb0\x1b\x56\xac\x48\xe2\x60\xfb\xcb\xce\xad\x7c\xcc\x92" /** * @macro * * :macro:`NGTCP2_RETRY_NONCE_V2` is nonce used when generating * integrity tag of Retry packet. It is used for QUIC v2. * * https://quicwg.org/quic-v2/draft-ietf-quic-v2.html */ #define NGTCP2_RETRY_NONCE_V2 "\xd8\x69\x69\xbc\x2d\x7c\x6d\x99\x90\xef\xb0\x4a" /** * @macro * * :macro:`NGTCP2_HP_MASKLEN` is the length of header protection mask. */ #define NGTCP2_HP_MASKLEN 5 /** * @macro * * :macro:`NGTCP2_HP_SAMPLELEN` is the number bytes sampled when * encrypting a packet header. */ #define NGTCP2_HP_SAMPLELEN 16 /** * @macro * * :macro:`NGTCP2_DEFAULT_INITIAL_RTT` is a default initial RTT. */ #define NGTCP2_DEFAULT_INITIAL_RTT (333 * NGTCP2_MILLISECONDS) /** * @macro * * :macro:`NGTCP2_MAX_CIDLEN` is the maximum length of Connection ID. */ #define NGTCP2_MAX_CIDLEN 20 /** * @macro * * :macro:`NGTCP2_MIN_CIDLEN` is the minimum length of Connection ID. */ #define NGTCP2_MIN_CIDLEN 1 /** * @macro * * :macro:`NGTCP2_MIN_INITIAL_DCIDLEN` is the minimum length of * Destination Connection ID in Client Initial packet if it does not * bear token from Retry packet. */ #define NGTCP2_MIN_INITIAL_DCIDLEN 8 /** * @macro * * :macro:`NGTCP2_DEFAULT_HANDSHAKE_TIMEOUT` is the default handshake * timeout. */ #define NGTCP2_DEFAULT_HANDSHAKE_TIMEOUT (10 * NGTCP2_SECONDS) /** * @macrosection * * ECN related macros */ /** * @macro * * :macro:`NGTCP2_ECN_NOT_ECT` indicates no ECN marking. */ #define NGTCP2_ECN_NOT_ECT 0x0 /** * @macro * * :macro:`NGTCP2_ECN_ECT_1` is ECT(1) codepoint. */ #define NGTCP2_ECN_ECT_1 0x1 /** * @macro * * :macro:`NGTCP2_ECN_ECT_0` is ECT(0) codepoint. */ #define NGTCP2_ECN_ECT_0 0x2 /** * @macro * * :macro:`NGTCP2_ECN_CE` is CE codepoint. */ #define NGTCP2_ECN_CE 0x3 /** * @macro * * :macro:`NGTCP2_ECN_MASK` is a bit mask to get ECN marking. */ #define NGTCP2_ECN_MASK 0x3 #define NGTCP2_PKT_INFO_VERSION_V1 1 #define NGTCP2_PKT_INFO_VERSION NGTCP2_PKT_INFO_VERSION_V1 /** * @struct * * :type:`ngtcp2_pkt_info` is a packet metadata. */ typedef struct NGTCP2_ALIGN(8) ngtcp2_pkt_info { /** * :member:`ecn` is ECN marking and when passing * `ngtcp2_conn_read_pkt()`, and it should be either * :macro:`NGTCP2_ECN_NOT_ECT`, :macro:`NGTCP2_ECN_ECT_1`, * :macro:`NGTCP2_ECN_ECT_0`, or :macro:`NGTCP2_ECN_CE`. */ uint32_t ecn; } ngtcp2_pkt_info; /** * @macrosection * * ngtcp2 library error codes */ /** * @macro * * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` indicates that a passed * argument is invalid. */ #define NGTCP2_ERR_INVALID_ARGUMENT -201 /** * @macro * * :macro:`NGTCP2_ERR_NOBUF` indicates that a provided buffer does not * have enough space to store data. */ #define NGTCP2_ERR_NOBUF -203 /** * @macro * * :macro:`NGTCP2_ERR_PROTO` indicates a general protocol error. */ #define NGTCP2_ERR_PROTO -205 /** * @macro * * :macro:`NGTCP2_ERR_INVALID_STATE` indicates that a requested * operation is not allowed at the current connection state. */ #define NGTCP2_ERR_INVALID_STATE -206 /** * @macro * * :macro:`NGTCP2_ERR_ACK_FRAME` indicates that an invalid ACK frame * is received. */ #define NGTCP2_ERR_ACK_FRAME -207 /** * @macro * * :macro:`NGTCP2_ERR_STREAM_ID_BLOCKED` indicates that there is no * spare stream ID available. */ #define NGTCP2_ERR_STREAM_ID_BLOCKED -208 /** * @macro * * :macro:`NGTCP2_ERR_STREAM_IN_USE` indicates that a stream ID is * already in use. */ #define NGTCP2_ERR_STREAM_IN_USE -209 /** * @macro * * :macro:`NGTCP2_ERR_STREAM_DATA_BLOCKED` indicates that stream data * cannot be sent because of flow control. */ #define NGTCP2_ERR_STREAM_DATA_BLOCKED -210 /** * @macro * * :macro:`NGTCP2_ERR_FLOW_CONTROL` indicates flow control error. */ #define NGTCP2_ERR_FLOW_CONTROL -211 /** * @macro * * :macro:`NGTCP2_ERR_CONNECTION_ID_LIMIT` indicates that the number * of received Connection ID exceeds acceptable limit. */ #define NGTCP2_ERR_CONNECTION_ID_LIMIT -212 /** * @macro * * :macro:`NGTCP2_ERR_STREAM_LIMIT` indicates that a remote endpoint * opens more streams that is permitted. */ #define NGTCP2_ERR_STREAM_LIMIT -213 /** * @macro * * :macro:`NGTCP2_ERR_FINAL_SIZE` indicates that inconsistent final * size of a stream. */ #define NGTCP2_ERR_FINAL_SIZE -214 /** * @macro * * :macro:`NGTCP2_ERR_CRYPTO` indicates crypto (TLS) related error. */ #define NGTCP2_ERR_CRYPTO -215 /** * @macro * * :macro:`NGTCP2_ERR_PKT_NUM_EXHAUSTED` indicates that packet number * is exhausted. */ #define NGTCP2_ERR_PKT_NUM_EXHAUSTED -216 /** * @macro * * :macro:`NGTCP2_ERR_REQUIRED_TRANSPORT_PARAM` indicates that a * required transport parameter is missing. */ #define NGTCP2_ERR_REQUIRED_TRANSPORT_PARAM -217 /** * @macro * * :macro:`NGTCP2_ERR_MALFORMED_TRANSPORT_PARAM` indicates that a * transport parameter is malformed. */ #define NGTCP2_ERR_MALFORMED_TRANSPORT_PARAM -218 /** * @macro * * :macro:`NGTCP2_ERR_FRAME_ENCODING` indicates there is an error in * frame encoding. */ #define NGTCP2_ERR_FRAME_ENCODING -219 /** * @macro * * :macro:`NGTCP2_ERR_DECRYPT` indicates a decryption failure. */ #define NGTCP2_ERR_DECRYPT -220 /** * @macro * * :macro:`NGTCP2_ERR_STREAM_SHUT_WR` indicates no more data can be * sent to a stream. */ #define NGTCP2_ERR_STREAM_SHUT_WR -221 /** * @macro * * :macro:`NGTCP2_ERR_STREAM_NOT_FOUND` indicates that a stream was not * found. */ #define NGTCP2_ERR_STREAM_NOT_FOUND -222 /** * @macro * * :macro:`NGTCP2_ERR_STREAM_STATE` indicates that a requested * operation is not allowed at the current stream state. */ #define NGTCP2_ERR_STREAM_STATE -226 /** * @macro * * :macro:`NGTCP2_ERR_RECV_VERSION_NEGOTIATION` indicates that Version * Negotiation packet was received. */ #define NGTCP2_ERR_RECV_VERSION_NEGOTIATION -229 /** * @macro * * :macro:`NGTCP2_ERR_CLOSING` indicates that connection is in closing * state. */ #define NGTCP2_ERR_CLOSING -230 /** * @macro * * :macro:`NGTCP2_ERR_DRAINING` indicates that connection is in * draining state. */ #define NGTCP2_ERR_DRAINING -231 /** * @macro * * :macro:`NGTCP2_ERR_TRANSPORT_PARAM` indicates a general transport * parameter error. */ #define NGTCP2_ERR_TRANSPORT_PARAM -234 /** * @macro * * :macro:`NGTCP2_ERR_DISCARD_PKT` indicates a packet was discarded. */ #define NGTCP2_ERR_DISCARD_PKT -235 /** * @macro * * :macro:`NGTCP2_ERR_CONN_ID_BLOCKED` indicates that there is no * spare Connection ID available. */ #define NGTCP2_ERR_CONN_ID_BLOCKED -237 /** * @macro * * :macro:`NGTCP2_ERR_INTERNAL` indicates an internal error. */ #define NGTCP2_ERR_INTERNAL -238 /** * @macro * * :macro:`NGTCP2_ERR_CRYPTO_BUFFER_EXCEEDED` indicates that a crypto * buffer exceeded. */ #define NGTCP2_ERR_CRYPTO_BUFFER_EXCEEDED -239 /** * @macro * * :macro:`NGTCP2_ERR_WRITE_MORE` indicates * :macro:`NGTCP2_WRITE_STREAM_FLAG_MORE` is used and a function call * succeeded. */ #define NGTCP2_ERR_WRITE_MORE -240 /** * @macro * * :macro:`NGTCP2_ERR_RETRY` indicates that server should send Retry * packet. */ #define NGTCP2_ERR_RETRY -241 /** * @macro * * :macro:`NGTCP2_ERR_DROP_CONN` indicates that an endpoint should * drop connection immediately. */ #define NGTCP2_ERR_DROP_CONN -242 /** * @macro * * :macro:`NGTCP2_ERR_AEAD_LIMIT_REACHED` indicates AEAD encryption * limit is reached and key update is not available. An endpoint * should drop connection immediately. */ #define NGTCP2_ERR_AEAD_LIMIT_REACHED -243 /** * @macro * * :macro:`NGTCP2_ERR_NO_VIABLE_PATH` indicates that path validation * could not probe that a path is capable of sending UDP datagram * payload of size at least 1200 bytes. */ #define NGTCP2_ERR_NO_VIABLE_PATH -244 /** * @macro * * :macro:`NGTCP2_ERR_VERSION_NEGOTIATION` indicates that server * should send Version Negotiation packet. */ #define NGTCP2_ERR_VERSION_NEGOTIATION -245 /** * @macro * * :macro:`NGTCP2_ERR_HANDSHAKE_TIMEOUT` indicates that QUIC * connection is not established before the specified deadline. */ #define NGTCP2_ERR_HANDSHAKE_TIMEOUT -246 /** * @macro * * :macro:`NGTCP2_ERR_VERSION_NEGOTIATION_FAILURE` indicates the * version negotiation failed. */ #define NGTCP2_ERR_VERSION_NEGOTIATION_FAILURE -247 /** * @macro * * :macro:`NGTCP2_ERR_IDLE_CLOSE` indicates the connection should be * closed silently because of idle timeout. */ #define NGTCP2_ERR_IDLE_CLOSE -248 /** * @macro * * :macro:`NGTCP2_ERR_FATAL` indicates that error codes less than this * value is fatal error. When this error is returned, an endpoint * should drop connection immediately. */ #define NGTCP2_ERR_FATAL -500 /** * @macro * * :macro:`NGTCP2_ERR_NOMEM` indicates out of memory. */ #define NGTCP2_ERR_NOMEM -501 /** * @macro * * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` indicates that user defined * callback function failed. */ #define NGTCP2_ERR_CALLBACK_FAILURE -502 /** * @macrosection * * QUIC packet header flags */ /** * @macro * * :macro:`NGTCP2_PKT_FLAG_NONE` indicates no flag set. */ #define NGTCP2_PKT_FLAG_NONE 0x00u /** * @macro * * :macro:`NGTCP2_PKT_FLAG_LONG_FORM` indicates the Long header packet * header. */ #define NGTCP2_PKT_FLAG_LONG_FORM 0x01u /** * @macro * * :macro:`NGTCP2_PKT_FLAG_FIXED_BIT_CLEAR` indicates that Fixed Bit * (aka QUIC bit) is not set. */ #define NGTCP2_PKT_FLAG_FIXED_BIT_CLEAR 0x02u /** * @macro * * :macro:`NGTCP2_PKT_FLAG_KEY_PHASE` indicates Key Phase bit set. */ #define NGTCP2_PKT_FLAG_KEY_PHASE 0x04u /** * @enum * * :type:`ngtcp2_pkt_type` defines QUIC version-independent QUIC * packet types. */ typedef enum ngtcp2_pkt_type { /** * :enum:`NGTCP2_PKT_VERSION_NEGOTIATION` is defined by libngtcp2 * for convenience. */ NGTCP2_PKT_VERSION_NEGOTIATION = 0x80, /** * :enum:`NGTCP2_PKT_STATELESS_RESET` is defined by libngtcp2 for * convenience. */ NGTCP2_PKT_STATELESS_RESET = 0x81, /** * :enum:`NGTCP2_PKT_INITIAL` indicates Initial packet. */ NGTCP2_PKT_INITIAL = 0x10, /** * :enum:`NGTCP2_PKT_0RTT` indicates 0RTT packet. */ NGTCP2_PKT_0RTT = 0x11, /** * :enum:`NGTCP2_PKT_HANDSHAKE` indicates Handshake packet. */ NGTCP2_PKT_HANDSHAKE = 0x12, /** * :enum:`NGTCP2_PKT_RETRY` indicates Retry packet. */ NGTCP2_PKT_RETRY = 0x13, /** * :enum:`NGTCP2_PKT_1RTT` is defined by libngtcp2 for convenience. */ NGTCP2_PKT_1RTT = 0x40 } ngtcp2_pkt_type; /** * @macrosection * * QUIC transport error code */ /** * @macro * * :macro:`NGTCP2_NO_ERROR` is QUIC transport error code ``NO_ERROR``. */ #define NGTCP2_NO_ERROR 0x0u /** * @macro * * :macro:`NGTCP2_INTERNAL_ERROR` is QUIC transport error code * ``INTERNAL_ERROR``. */ #define NGTCP2_INTERNAL_ERROR 0x1u /** * @macro * * :macro:`NGTCP2_CONNECTION_REFUSED` is QUIC transport error code * ``CONNECTION_REFUSED``. */ #define NGTCP2_CONNECTION_REFUSED 0x2u /** * @macro * * :macro:`NGTCP2_FLOW_CONTROL_ERROR` is QUIC transport error code * ``FLOW_CONTROL_ERROR``. */ #define NGTCP2_FLOW_CONTROL_ERROR 0x3u /** * @macro * * :macro:`NGTCP2_STREAM_LIMIT_ERROR` is QUIC transport error code * ``STREAM_LIMIT_ERROR``. */ #define NGTCP2_STREAM_LIMIT_ERROR 0x4u /** * @macro * * :macro:`NGTCP2_STREAM_STATE_ERROR` is QUIC transport error code * ``STREAM_STATE_ERROR``. */ #define NGTCP2_STREAM_STATE_ERROR 0x5u /** * @macro * * :macro:`NGTCP2_FINAL_SIZE_ERROR` is QUIC transport error code * ``FINAL_SIZE_ERROR``. */ #define NGTCP2_FINAL_SIZE_ERROR 0x6u /** * @macro * * :macro:`NGTCP2_FRAME_ENCODING_ERROR` is QUIC transport error code * ``FRAME_ENCODING_ERROR``. */ #define NGTCP2_FRAME_ENCODING_ERROR 0x7u /** * @macro * * :macro:`NGTCP2_TRANSPORT_PARAMETER_ERROR` is QUIC transport error * code ``TRANSPORT_PARAMETER_ERROR``. */ #define NGTCP2_TRANSPORT_PARAMETER_ERROR 0x8u /** * @macro * * :macro:`NGTCP2_CONNECTION_ID_LIMIT_ERROR` is QUIC transport error * code ``CONNECTION_ID_LIMIT_ERROR``. */ #define NGTCP2_CONNECTION_ID_LIMIT_ERROR 0x9u /** * @macro * * :macro:`NGTCP2_PROTOCOL_VIOLATION` is QUIC transport error code * ``PROTOCOL_VIOLATION``. */ #define NGTCP2_PROTOCOL_VIOLATION 0xau /** * @macro * * :macro:`NGTCP2_INVALID_TOKEN` is QUIC transport error code * ``INVALID_TOKEN``. */ #define NGTCP2_INVALID_TOKEN 0xbu /** * @macro * * :macro:`NGTCP2_APPLICATION_ERROR` is QUIC transport error code * ``APPLICATION_ERROR``. */ #define NGTCP2_APPLICATION_ERROR 0xcu /** * @macro * * :macro:`NGTCP2_CRYPTO_BUFFER_EXCEEDED` is QUIC transport error code * ``CRYPTO_BUFFER_EXCEEDED``. */ #define NGTCP2_CRYPTO_BUFFER_EXCEEDED 0xdu /** * @macro * * :macro:`NGTCP2_KEY_UPDATE_ERROR` is QUIC transport error code * ``KEY_UPDATE_ERROR``. */ #define NGTCP2_KEY_UPDATE_ERROR 0xeu /** * @macro * * :macro:`NGTCP2_AEAD_LIMIT_REACHED` is QUIC transport error code * ``AEAD_LIMIT_REACHED``. */ #define NGTCP2_AEAD_LIMIT_REACHED 0xfu /** * @macro * * :macro:`NGTCP2_NO_VIABLE_PATH` is QUIC transport error code * ``NO_VIABLE_PATH``. */ #define NGTCP2_NO_VIABLE_PATH 0x10u /** * @macro * * :macro:`NGTCP2_CRYPTO_ERROR` is QUIC transport error code * ``CRYPTO_ERROR``. */ #define NGTCP2_CRYPTO_ERROR 0x100u /** * @macro * * :macro:`NGTCP2_VERSION_NEGOTIATION_ERROR` is QUIC transport error * code ``VERSION_NEGOTIATION_ERROR``. * * https://datatracker.ietf.org/doc/html/draft-ietf-quic-version-negotiation-14 */ #define NGTCP2_VERSION_NEGOTIATION_ERROR 0x11 /** * @enum * * :type:`ngtcp2_path_validation_result` defines path validation * result code. */ typedef enum ngtcp2_path_validation_result { /** * :enum:`NGTCP2_PATH_VALIDATION_RESULT_SUCCESS` indicates * successful validation. */ NGTCP2_PATH_VALIDATION_RESULT_SUCCESS, /** * :enum:`NGTCP2_PATH_VALIDATION_RESULT_FAILURE` indicates * validation failure. */ NGTCP2_PATH_VALIDATION_RESULT_FAILURE, /** * :enum:`NGTCP2_PATH_VALIDATION_RESULT_ABORTED` indicates that path * validation was aborted. */ NGTCP2_PATH_VALIDATION_RESULT_ABORTED } ngtcp2_path_validation_result; /** * @typedef * * :type:`ngtcp2_tstamp` is a timestamp with nanosecond resolution. * ``UINT64_MAX`` is an invalid value. */ typedef uint64_t ngtcp2_tstamp; /** * @typedef * * :type:`ngtcp2_duration` is a period of time in nanosecond * resolution. ``UINT64_MAX`` is an invalid value. */ typedef uint64_t ngtcp2_duration; /** * @struct * * :type:`ngtcp2_cid` holds a Connection ID. */ typedef struct ngtcp2_cid { /** * :member:`datalen` is the length of Connection ID. */ size_t datalen; /** * :member:`data` is the buffer to store Connection ID. */ uint8_t data[NGTCP2_MAX_CIDLEN]; } ngtcp2_cid; /** * @struct * * :type:`ngtcp2_vec` is struct iovec compatible structure to * reference arbitrary array of bytes. */ typedef struct ngtcp2_vec { /** * :member:`base` points to the data. */ uint8_t *base; /** * :member:`len` is the number of bytes which the buffer pointed by * base contains. */ size_t len; } ngtcp2_vec; /** * @function * * `ngtcp2_cid_init` initializes Connection ID |cid| with the byte * string pointed by |data| and its length is |datalen|. |datalen| * must be at most :macro:`NGTCP2_MAX_CIDLEN`. */ NGTCP2_EXTERN void ngtcp2_cid_init(ngtcp2_cid *cid, const uint8_t *data, size_t datalen); /** * @function * * `ngtcp2_cid_eq` returns nonzero if |a| and |b| share the same * Connection ID. */ NGTCP2_EXTERN int ngtcp2_cid_eq(const ngtcp2_cid *a, const ngtcp2_cid *b); /** * @struct * * :type:`ngtcp2_pkt_hd` represents QUIC packet header. */ typedef struct ngtcp2_pkt_hd { /** * :member:`dcid` is Destination Connection ID. */ ngtcp2_cid dcid; /** * :member:`scid` is Source Connection ID. */ ngtcp2_cid scid; /** * :member:`pkt_num` is a packet number. */ int64_t pkt_num; /** * :member:`token` contains token for Initial * packet. */ const uint8_t *token; /** * :member:`tokenlen` is the length of :member:`token`. */ size_t tokenlen; /** * :member:`pkt_numlen` is the number of bytes spent to encode * :member:`pkt_num`. */ size_t pkt_numlen; /** * :member:`len` is the sum of :member:`pkt_numlen` and the length * of QUIC packet payload. */ size_t len; /** * :member:`version` is QUIC version. */ uint32_t version; /** * :member:`type` is a type of QUIC packet. See * :type:`ngtcp2_pkt_type`. */ uint8_t type; /** * :member:`flags` is zero or more of :macro:`NGTCP2_PKT_FLAG_* * `. */ uint8_t flags; } ngtcp2_pkt_hd; /** * @struct * * :type:`ngtcp2_pkt_stateless_reset` represents Stateless Reset. */ typedef struct ngtcp2_pkt_stateless_reset { /** * :member:`stateless_reset_token` contains stateless reset token. */ uint8_t stateless_reset_token[NGTCP2_STATELESS_RESET_TOKENLEN]; /** * :member:`rand` points a buffer which contains random bytes * section. */ const uint8_t *rand; /** * :member:`randlen` is the number of random bytes. */ size_t randlen; } ngtcp2_pkt_stateless_reset; /** * @enum * * :type:`ngtcp2_transport_params_type` defines TLS message type which * carries transport parameters. */ typedef enum ngtcp2_transport_params_type { /** * :enum:`NGTCP2_TRANSPORT_PARAMS_TYPE_CLIENT_HELLO` is Client Hello * TLS message. */ NGTCP2_TRANSPORT_PARAMS_TYPE_CLIENT_HELLO, /** * :enum:`NGTCP2_TRANSPORT_PARAMS_TYPE_ENCRYPTED_EXTENSIONS` is * Encrypted Extensions TLS message. */ NGTCP2_TRANSPORT_PARAMS_TYPE_ENCRYPTED_EXTENSIONS } ngtcp2_transport_params_type; /** * @macrosection * * QUIC transport parameters related macros */ /** * @macro * * :macro:`NGTCP2_DEFAULT_MAX_RECV_UDP_PAYLOAD_SIZE` is the default * value of max_udp_payload_size transport parameter. */ #define NGTCP2_DEFAULT_MAX_RECV_UDP_PAYLOAD_SIZE 65527 /** * @macro * * :macro:`NGTCP2_DEFAULT_ACK_DELAY_EXPONENT` is a default value of * scaling factor of ACK Delay field in ACK frame. */ #define NGTCP2_DEFAULT_ACK_DELAY_EXPONENT 3 /** * @macro * * :macro:`NGTCP2_DEFAULT_MAX_ACK_DELAY` is a default value of the * maximum amount of time in nanoseconds by which endpoint delays * sending acknowledgement. */ #define NGTCP2_DEFAULT_MAX_ACK_DELAY (25 * NGTCP2_MILLISECONDS) /** * @macro * * :macro:`NGTCP2_DEFAULT_ACTIVE_CONNECTION_ID_LIMIT` is the default * value of active_connection_id_limit transport parameter value if * omitted. */ #define NGTCP2_DEFAULT_ACTIVE_CONNECTION_ID_LIMIT 2 /** * @macro * * :macro:`NGTCP2_TLSEXT_QUIC_TRANSPORT_PARAMETERS_V1` is TLS * extension type of quic_transport_parameters. */ #define NGTCP2_TLSEXT_QUIC_TRANSPORT_PARAMETERS_V1 0x39u /** * @macro * * :macro:`NGTCP2_TLSEXT_QUIC_TRANSPORT_PARAMETERS_DRAFT` is TLS * extension type of quic_transport_parameters used during draft * development. */ #define NGTCP2_TLSEXT_QUIC_TRANSPORT_PARAMETERS_DRAFT 0xffa5u #ifdef NGTCP2_USE_GENERIC_SOCKADDR typedef struct ngtcp2_sockaddr { uint16_t sa_family; uint8_t sa_data[14]; } ngtcp2_sockaddr; typedef struct ngtcp2_in_addr { uint32_t s_addr; } ngtcp2_in_addr; typedef struct ngtcp2_sockaddr_in { uint16_t sin_family; uint16_t sin_port; ngtcp2_in_addr sin_addr; uint8_t sin_zero[8]; } ngtcp2_sockaddr_in; # define NGTCP2_SS_MAXSIZE 128 # define NGTCP2_SS_ALIGNSIZE (sizeof(uint64_t)) # define NGTCP2_SS_PAD1SIZE (NGTCP2_SS_ALIGNSIZE - sizeof(uint16_t)) # define NGTCP2_SS_PAD2SIZE \ (NGTCP2_SS_MAXSIZE - \ (sizeof(uint16_t) + NGTCP2_SS_PAD1SIZE + NGTCP2_SS_ALIGNSIZE)) typedef struct ngtcp2_sockaddr_storage { uint16_t ss_family; uint8_t _ss_pad1[NGTCP2_SS_PAD1SIZE]; uint64_t _ss_align; uint8_t _ss_pad2[NGTCP2_SS_PAD2SIZE]; } ngtcp2_sockaddr_storage; # undef NGTCP2_SS_PAD2SIZE # undef NGTCP2_SS_PAD1SIZE # undef NGTCP2_SS_ALIGNSIZE # undef NGTCP2_SS_MAXSIZE typedef uint32_t ngtcp2_socklen; #else /** * @typedef * * :type:`ngtcp2_sockaddr` is typedefed to struct sockaddr. If * :macro:`NGTCP2_USE_GENERIC_SOCKADDR` is defined, it is typedefed to * the generic struct sockaddr defined in ngtcp2.h. */ typedef struct sockaddr ngtcp2_sockaddr; /** * @typedef * * :type:`ngtcp2_sockaddr_storage` is typedefed to struct * sockaddr_storage. If :macro:`NGTCP2_USE_GENERIC_SOCKADDR` is * defined, it is typedefed to the generic struct sockaddr_storage * defined in ngtcp2.h. */ typedef struct sockaddr_storage ngtcp2_sockaddr_storage; /** * @typedef * * :type:`ngtcp2_sockaddr_in` is typedefed to struct sockaddr_in. If * :macro:`NGTCP2_USE_GENERIC_SOCKADDR` is defined, it is typedefed to * the generic struct sockaddr_in defined in ngtcp2.h. */ typedef struct sockaddr_in ngtcp2_sockaddr_in; /** * @typedef * * :type:`ngtcp2_socklen` is typedefed to socklen_t. If * :macro:`NGTCP2_USE_GENERIC_SOCKADDR` is defined, it is typedefed to * uint32_t. */ typedef socklen_t ngtcp2_socklen; #endif #if defined(NGTCP2_USE_GENERIC_SOCKADDR) || \ defined(NGTCP2_USE_GENERIC_IPV6_SOCKADDR) typedef struct ngtcp2_in6_addr { uint8_t in6_addr[16]; } ngtcp2_in6_addr; typedef struct ngtcp2_sockaddr_in6 { uint16_t sin6_family; uint16_t sin6_port; uint32_t sin6_flowinfo; ngtcp2_in6_addr sin6_addr; uint32_t sin6_scope_id; } ngtcp2_sockaddr_in6; #else /** * @typedef * * :type:`ngtcp2_sockaddr_in6` is typedefed to struct sockaddr_in6. * If :macro:`NGTCP2_USE_GENERIC_SOCKADDR` is defined, it is typedefed * to the generic struct sockaddr_in6 defined in ngtcp2.h. */ typedef struct sockaddr_in6 ngtcp2_sockaddr_in6; #endif /** * @struct * * :type:`ngtcp2_sockaddr_union` conveniently includes all supported * address types. */ typedef union ngtcp2_sockaddr_union { ngtcp2_sockaddr sa; ngtcp2_sockaddr_in in; ngtcp2_sockaddr_in6 in6; } ngtcp2_sockaddr_union; /** * @struct * * :type:`ngtcp2_preferred_addr` represents preferred address * structure. */ typedef struct ngtcp2_preferred_addr { /** * :member:`cid` is a Connection ID. */ ngtcp2_cid cid; /** * :member:`ipv4` contains IPv4 address and port. */ ngtcp2_sockaddr_in ipv4; /** * :member:`ipv6` contains IPv4 address and port. */ ngtcp2_sockaddr_in6 ipv6; /** * :member:`ipv4_present` indicates that :member:`ipv4` contains * IPv4 address and port. */ uint8_t ipv4_present; /** * :member:`ipv6_present` indicates that :member:`ipv6` contains * IPv6 address and port. */ uint8_t ipv6_present; /** * :member:`stateless_reset_token` contains stateless reset token. */ uint8_t stateless_reset_token[NGTCP2_STATELESS_RESET_TOKENLEN]; } ngtcp2_preferred_addr; /** * @struct * * :type:`ngtcp2_version_info` represents version_information * structure. */ typedef struct ngtcp2_version_info { /** * :member:`chosen_version` is the version chosen by the sender. */ uint32_t chosen_version; /** * :member:`available_versions` points the wire image of * available_versions field. The each version is therefore in * network byte order. */ const uint8_t *available_versions; /** * :member:`available_versionslen` is the number of bytes pointed by * :member:`available_versions`, not the number of versions * included. */ size_t available_versionslen; } ngtcp2_version_info; #define NGTCP2_TRANSPORT_PARAMS_VERSION_V1 1 #define NGTCP2_TRANSPORT_PARAMS_VERSION NGTCP2_TRANSPORT_PARAMS_VERSION_V1 /** * @struct * * :type:`ngtcp2_transport_params` represents QUIC transport * parameters. */ typedef struct ngtcp2_transport_params { /** * :member:`preferred_address` contains preferred address if * :member:`preferred_address_present` is nonzero. */ ngtcp2_preferred_addr preferred_address; /** * :member:`original_dcid` is the Destination Connection ID field * from the first Initial packet from client. Server must specify * this field. It is expected that application knows the original * Destination Connection ID even if it sends Retry packet, for * example, by including it in retry token. Otherwise, application * should not specify this field. */ ngtcp2_cid original_dcid; /** * :member:`initial_scid` is the Source Connection ID field from the * first Initial packet the endpoint sends. Application should not * specify this field. */ ngtcp2_cid initial_scid; /** * :member:`retry_scid` is the Source Connection ID field from Retry * packet. Only server uses this field. If server application * received Initial packet with retry token from client and server * verified its token, server application must set Destination * Connection ID field from the Initial packet to this field and set * :member:`retry_scid_present` to nonzero. Server application must * verify that the Destination Connection ID from Initial packet was * sent in Retry packet by, for example, including the Connection ID * in a token, or including it in AAD when encrypting a token. */ ngtcp2_cid retry_scid; /** * :member:`initial_max_stream_data_bidi_local` is the size of flow * control window of locally initiated stream. This is the number * of bytes that the remote endpoint can send and the local endpoint * must ensure that it has enough buffer to receive them. */ uint64_t initial_max_stream_data_bidi_local; /** * :member:`initial_max_stream_data_bidi_remote` is the size of flow * control window of remotely initiated stream. This is the number * of bytes that the remote endpoint can send and the local endpoint * must ensure that it has enough buffer to receive them. */ uint64_t initial_max_stream_data_bidi_remote; /** * :member:`initial_max_stream_data_uni` is the size of flow control * window of remotely initiated unidirectional stream. This is the * number of bytes that the remote endpoint can send and the local * endpoint must ensure that it has enough buffer to receive them. */ uint64_t initial_max_stream_data_uni; /** * :member:`initial_max_data` is the connection level flow control * window. */ uint64_t initial_max_data; /** * :member:`initial_max_streams_bidi` is the number of concurrent * streams that the remote endpoint can create. */ uint64_t initial_max_streams_bidi; /** * :member:`initial_max_streams_uni` is the number of concurrent * unidirectional streams that the remote endpoint can create. */ uint64_t initial_max_streams_uni; /** * :member:`max_idle_timeout` is a duration during which sender * allows quiescent. */ ngtcp2_duration max_idle_timeout; /** * :member:`max_udp_payload_size` is the maximum datagram size that * the endpoint can receive. */ uint64_t max_udp_payload_size; /** * :member:`active_connection_id_limit` is the maximum number of * Connection ID that sender can store. */ uint64_t active_connection_id_limit; /** * :member:`ack_delay_exponent` is the exponent used in ACK Delay * field in ACK frame. */ uint64_t ack_delay_exponent; /** * :member:`max_ack_delay` is the maximum acknowledgement delay by * which the endpoint will delay sending acknowledgements. */ ngtcp2_duration max_ack_delay; /** * :member:`max_datagram_frame_size` is the maximum size of DATAGRAM * frame that this endpoint willingly receives. Specifying 0 * disables DATAGRAM support. See * https://datatracker.ietf.org/doc/html/rfc9221 */ uint64_t max_datagram_frame_size; /** * :member:`stateless_reset_token_present` is nonzero if * :member:`stateless_reset_token` field is set. */ uint8_t stateless_reset_token_present; /** * :member:`disable_active_migration` is nonzero if the endpoint * does not support active connection migration. */ uint8_t disable_active_migration; /** * :member:`retry_scid_present` is nonzero if :member:`retry_scid` * field is set. */ uint8_t retry_scid_present; /** * :member:`preferred_address_present` is nonzero if * :member:`preferred_address` is set. */ uint8_t preferred_address_present; /** * :member:`stateless_reset_token` contains stateless reset token. */ uint8_t stateless_reset_token[NGTCP2_STATELESS_RESET_TOKENLEN]; /** * :member:`grease_quic_bit` is nonzero if sender supports "Greasing * the QUIC Bit" extension. See :rfc:`9287`. Note that the local * endpoint always enables greasing QUIC bit regardless of this * field value. */ uint8_t grease_quic_bit; /** * :member:`version_info` contains version_information field if * :member:`version_info_present` is nonzero. Application should * not specify this field. */ ngtcp2_version_info version_info; /** * :member:`version_info_present` is nonzero if * :member:`version_info` is set. Application should not specify * this field. */ uint8_t version_info_present; } ngtcp2_transport_params; /** * @enum * * :type:`ngtcp2_pktns_id` defines packet number space identifier. */ typedef enum ngtcp2_pktns_id { /** * :enum:`NGTCP2_PKTNS_ID_INITIAL` is the Initial packet number * space. */ NGTCP2_PKTNS_ID_INITIAL, /** * :enum:`NGTCP2_PKTNS_ID_HANDSHAKE` is the Handshake packet number * space. */ NGTCP2_PKTNS_ID_HANDSHAKE, /** * :enum:`NGTCP2_PKTNS_ID_APPLICATION` is the Application data * packet number space. */ NGTCP2_PKTNS_ID_APPLICATION, /** * :enum:`NGTCP2_PKTNS_ID_MAX` is defined to get the number of * packet number spaces. */ NGTCP2_PKTNS_ID_MAX } ngtcp2_pktns_id; #define NGTCP2_CONN_STAT_VERSION_V1 1 #define NGTCP2_CONN_STAT_VERSION NGTCP2_CONN_STAT_VERSION_V1 /** * @struct * * :type:`ngtcp2_conn_stat` holds various connection statistics, and * computed data for recovery and congestion controller. */ typedef struct ngtcp2_conn_stat { /** * :member:`latest_rtt` is the latest RTT sample which is not * adjusted by acknowledgement delay. */ ngtcp2_duration latest_rtt; /** * :member:`min_rtt` is the minimum RTT seen so far. It is not * adjusted by acknowledgement delay. */ ngtcp2_duration min_rtt; /** * :member:`smoothed_rtt` is the smoothed RTT. */ ngtcp2_duration smoothed_rtt; /** * :member:`rttvar` is a mean deviation of observed RTT. */ ngtcp2_duration rttvar; /** * :member:`initial_rtt` is the initial RTT which is used when no * RTT sample is available. */ ngtcp2_duration initial_rtt; /** * :member:`first_rtt_sample_ts` is the timestamp when the first RTT * sample is obtained. */ ngtcp2_tstamp first_rtt_sample_ts; /** * :member:`pto_count` is the count of successive PTO timer * expiration. */ size_t pto_count; /** * :member:`loss_detection_timer` is the deadline of the current * loss detection timer. */ ngtcp2_tstamp loss_detection_timer; /** * :member:`last_tx_pkt_ts` corresponds to * time_of_last_ack_eliciting_packet in :rfc:`9002`. */ ngtcp2_tstamp last_tx_pkt_ts[NGTCP2_PKTNS_ID_MAX]; /** * :member:`loss_time` corresponds to loss_time in :rfc:`9002`. */ ngtcp2_tstamp loss_time[NGTCP2_PKTNS_ID_MAX]; /** * :member:`cwnd` is the size of congestion window. */ uint64_t cwnd; /** * :member:`ssthresh` is slow start threshold. */ uint64_t ssthresh; /** * :member:`congestion_recovery_start_ts` is the timestamp when * congestion recovery started. */ ngtcp2_tstamp congestion_recovery_start_ts; /** * :member:`bytes_in_flight` is the number in bytes of all sent * packets which have not been acknowledged. */ uint64_t bytes_in_flight; /** * :member:`max_tx_udp_payload_size` is the maximum size of UDP * datagram payload that this endpoint transmits. It is used by * congestion controller to compute congestion window. */ size_t max_tx_udp_payload_size; /** * :member:`delivery_rate_sec` is the current sending rate measured * in byte per second. */ uint64_t delivery_rate_sec; /** * :member:`pacing_rate` is the current packet sending rate computed * by a congestion controller. 0 if a congestion controller does * not set pacing rate. Even if this value is set to 0, the library * paces packets. */ double pacing_rate; /** * :member:`send_quantum` is the maximum size of a data aggregate * scheduled and transmitted together. */ size_t send_quantum; } ngtcp2_conn_stat; /** * @enum * * :type:`ngtcp2_cc_algo` defines congestion control algorithms. */ typedef enum ngtcp2_cc_algo { /** * :enum:`NGTCP2_CC_ALGO_RENO` represents Reno. */ NGTCP2_CC_ALGO_RENO = 0x00, /** * :enum:`NGTCP2_CC_ALGO_CUBIC` represents Cubic. */ NGTCP2_CC_ALGO_CUBIC = 0x01, /** * :enum:`NGTCP2_CC_ALGO_BBR` represents BBR. */ NGTCP2_CC_ALGO_BBR = 0x02, /** * :enum:`NGTCP2_CC_ALGO_BBR2` represents BBR v2. */ NGTCP2_CC_ALGO_BBR2 = 0x03 } ngtcp2_cc_algo; /** * @functypedef * * :type:`ngtcp2_printf` is a callback function for logging. * |user_data| is the same object passed to `ngtcp2_conn_client_new` * or `ngtcp2_conn_server_new`. */ typedef void (*ngtcp2_printf)(void *user_data, const char *format, ...); /** * @macrosection * * QLog related macros */ /** * @macro * * :macro:`NGTCP2_QLOG_WRITE_FLAG_NONE` indicates no flag set. */ #define NGTCP2_QLOG_WRITE_FLAG_NONE 0x00u /** * @macro * * :macro:`NGTCP2_QLOG_WRITE_FLAG_FIN` indicates that this is the * final call to :type:`ngtcp2_qlog_write` in the current connection. */ #define NGTCP2_QLOG_WRITE_FLAG_FIN 0x01u /** * @struct * * :type:`ngtcp2_rand_ctx` is a wrapper around native random number * generator. It is opaque to the ngtcp2 library. This might be * useful if application needs to specify random number generator per * thread or per connection. */ typedef struct ngtcp2_rand_ctx { /** * :member:`native_handle` is a pointer to an underlying random * number generator. */ void *native_handle; } ngtcp2_rand_ctx; /** * @functypedef * * :type:`ngtcp2_qlog_write` is a callback function which is called to * write qlog |data| of length |datalen| bytes. |flags| is bitwise OR * of zero or more of :macro:`NGTCP2_QLOG_WRITE_FLAG_* * `. If * :macro:`NGTCP2_QLOG_WRITE_FLAG_FIN` is set, |datalen| may be 0. */ typedef void (*ngtcp2_qlog_write)(void *user_data, uint32_t flags, const void *data, size_t datalen); /** * @struct * * :type:`ngtcp2_qlog_settings` is a set of settings for qlog. */ typedef struct ngtcp2_qlog_settings { /** * :member:`odcid` is Original Destination Connection ID sent by * client. It is used as group_id and ODCID fields. Client ignores * this field and uses dcid parameter passed to * `ngtcp2_conn_client_new()`. */ ngtcp2_cid odcid; /** * :member:`write` is a callback function to write qlog. Setting * ``NULL`` disables qlog. */ ngtcp2_qlog_write write; } ngtcp2_qlog_settings; #define NGTCP2_SETTINGS_VERSION_V1 1 #define NGTCP2_SETTINGS_VERSION NGTCP2_SETTINGS_VERSION_V1 /** * @struct * * :type:`ngtcp2_settings` defines QUIC connection settings. */ typedef struct ngtcp2_settings { /** * :member:`qlog` is qlog settings. */ ngtcp2_qlog_settings qlog; /** * :member:`cc_algo` specifies congestion control algorithm. */ ngtcp2_cc_algo cc_algo; /** * :member:`initial_ts` is an initial timestamp given to the * library. */ ngtcp2_tstamp initial_ts; /** * :member:`initial_rtt` is an initial RTT. */ ngtcp2_duration initial_rtt; /** * :member:`log_printf` is a function that the library uses to write * logs. ``NULL`` means no logging output. It is nothing to do * with qlog. */ ngtcp2_printf log_printf; /** * :member:`max_tx_udp_payload_size` is the maximum size of UDP * datagram payload that this endpoint transmits. It is used by * congestion controller to compute congestion window. */ size_t max_tx_udp_payload_size; /** * :member:`token` is a token from Retry packet or NEW_TOKEN frame. * * Server sets this field if it received the token in Client Initial * packet and successfully validated. * * Client sets this field if it intends to send token in its Initial * packet. * * `ngtcp2_conn_server_new` and `ngtcp2_conn_client_new` make a copy * of token. */ const uint8_t *token; /** * :member:`tokenlen` is the length of :member:`token`. */ size_t tokenlen; /** * :member:`rand_ctx` is an optional random number generator to be * passed to :type:`ngtcp2_rand` callback. */ ngtcp2_rand_ctx rand_ctx; /** * :member:`max_window` is the maximum connection-level flow control * window if connection-level window auto-tuning is enabled. The * connection-level window auto tuning is enabled if nonzero value * is specified in this field. The initial value of window size is * :member:`ngtcp2_transport_params.initial_max_data`. The window * size is scaled up to the value specified in this field. */ uint64_t max_window; /** * :member:`max_stream_window` is the maximum stream-level flow * control window if stream-level window auto-tuning is enabled. * The stream-level window auto-tuning is enabled if nonzero value * is specified in this field. The initial value of window size is * :member:`ngtcp2_transport_params.initial_max_stream_data_bidi_remote`, * :member:`ngtcp2_transport_params.initial_max_stream_data_bidi_local`, * or :member:`ngtcp2_transport_params.initial_max_stream_data_uni`, * depending on the type of stream. The window size is scaled up to * the value specified in this field. */ uint64_t max_stream_window; /** * :member:`ack_thresh` is the minimum number of the received ACK * eliciting packets that triggers the immediate acknowledgement. */ size_t ack_thresh; /** * :member:`no_tx_udp_payload_size_shaping`, if set to nonzero, * instructs the library not to limit the UDP payload size to * :macro:`NGTCP2_MAX_UDP_PAYLOAD_SIZE` (which can be extended by * Path MTU Discovery) and instead use the mininum size among the * given buffer size, :member:`max_tx_udp_payload_size`, and the * received max_udp_payload QUIC transport parameter. */ int no_tx_udp_payload_size_shaping; /** * :member:`handshake_timeout` is the period of time before giving * up QUIC connection establishment. If QUIC handshake is not * complete within this period, `ngtcp2_conn_handle_expiry` returns * :macro:`NGTCP2_ERR_HANDSHAKE_TIMEOUT` error. The deadline is * :member:`initial_ts` + :member:`handshake_timeout`. If this * field is set to ``UINT64_MAX``, no handshake timeout is set. */ ngtcp2_duration handshake_timeout; /** * :member:`preferred_versions` is the array of versions that are * preferred by the local endpoint. All versions set in this array * must be supported by the library, and compatible to QUIC v1. The * reserved versions are not allowed. They are sorted in the order * of preference. * * On compatible version negotiation, server will negotiate one of * those versions contained in this array if there is some overlap * between these versions and the versions offered by the client. * If there is no overlap, but the client chosen version is * supported by the library, the server chooses the client chosen * version as the negotiated version. This version set corresponds * to Offered Versions in QUIC Version Negotiation draft, and it * should be included in Version Negotiation packet. * * Client uses this field and :member:`original_version` to prevent * version downgrade attack if it reacted upon Version Negotiation * packet. If this field is specified, client must include * |client_chosen_version| passed to `ngtcp2_conn_client_new` unless * |client_chosen_version| is a reserved version. */ const uint32_t *preferred_versions; /** * :member:`preferred_versionslen` is the number of versions that * are contained in the array pointed by * :member:`preferred_versions`. */ size_t preferred_versionslen; /** * :member:`available_versions` is the array of versions that are * going to be set in :member:`available_versions * ` field of outgoing * version_information QUIC transport parameter. * * For server, this corresponds to Fully-Deployed Versions in QUIC * Version Negotiation draft. If this field is set not, it is set * to :member:`preferred_versions` internally if * :member:`preferred_versionslen` is not zero. If this field is * not set, and :member:`preferred_versionslen` is zero, this field * is set to :macro:`NGTCP2_PROTO_VER_V1` internally. * * Client must include |client_chosen_version| passed to * `ngtcp2_conn_client_new` in this array if this field is set and * |client_chosen_version| is not a reserved version. If this field * is not set, |client_chosen_version| passed to * `ngtcp2_conn_client_new` will be set in this field internally * unless |client_chosen_version| is a reserved version. */ const uint32_t *available_versions; /** * :member:`available_versionslen` is the number of versions that * are contained in the array pointed by * :member:`available_versions`. */ size_t available_versionslen; /** * :member:`original_version` is the original version that client * initially used to make a connection attempt. If it is set, and * it differs from |client_chosen_version| passed to * `ngtcp2_conn_client_new`, the library assumes that client reacted * upon Version Negotiation packet. Server does not use this field. */ uint32_t original_version; /** * :member:`no_pmtud`, if set to nonzero, disables Path MTU * Discovery. */ int no_pmtud; } ngtcp2_settings; /** * @struct * * :type:`ngtcp2_addr` is the endpoint address. */ typedef struct ngtcp2_addr { /** * :member:`addr` points to the buffer which contains endpoint * address. It must not be ``NULL``. */ ngtcp2_sockaddr *addr; /** * :member:`addrlen` is the length of addr. */ ngtcp2_socklen addrlen; } ngtcp2_addr; /** * @struct * * :type:`ngtcp2_path` is the network endpoints where a packet is sent * and received. */ typedef struct ngtcp2_path { /** * :member:`local` is the address of local endpoint. */ ngtcp2_addr local; /** * :member:`remote` is the address of remote endpoint. */ ngtcp2_addr remote; /** * :member:`user_data` is an arbitrary data and opaque to the * library. * * Note that :type:`ngtcp2_path` is generally passed to * :type:`ngtcp2_conn` by an application, and :type:`ngtcp2_conn` * stores their copies. Unfortunately, there is no way for the * application to know when :type:`ngtcp2_conn` finishes using a * specific :type:`ngtcp2_path` object in mid connection, which * means that the application cannot free the data pointed by this * field. Therefore, it is advised to use this field only when the * data pointed by this field persists in an entire lifetime of the * connection. */ void *user_data; } ngtcp2_path; /** * @struct * * :type:`ngtcp2_path_storage` is a convenient struct to have buffers * to store the longest addresses. */ typedef struct ngtcp2_path_storage { /** * :member:`path` stores network path. */ ngtcp2_path path; /** * :member:`local_addrbuf` is a buffer to store local address. */ ngtcp2_sockaddr_union local_addrbuf; /** * :member:`remote_addrbuf` is a buffer to store remote address. */ ngtcp2_sockaddr_union remote_addrbuf; } ngtcp2_path_storage; /** * @struct * * :type:`ngtcp2_crypto_md` is a wrapper around native message digest * object. */ typedef struct ngtcp2_crypto_md { /** * :member:`native_handle` is a pointer to an underlying message * digest object. */ void *native_handle; } ngtcp2_crypto_md; /** * @struct * * :type:`ngtcp2_crypto_aead` is a wrapper around native AEAD object. */ typedef struct ngtcp2_crypto_aead { /** * :member:`native_handle` is a pointer to an underlying AEAD * object. */ void *native_handle; /** * :member:`max_overhead` is the number of additional bytes which * AEAD encryption needs on encryption. */ size_t max_overhead; } ngtcp2_crypto_aead; /** * @struct * * :type:`ngtcp2_crypto_cipher` is a wrapper around native cipher * object. */ typedef struct ngtcp2_crypto_cipher { /** * :member:`native_handle` is a pointer to an underlying cipher * object. */ void *native_handle; } ngtcp2_crypto_cipher; /** * @struct * * :type:`ngtcp2_crypto_aead_ctx` is a wrapper around native AEAD * cipher context object. It should be initialized with a specific * key. ngtcp2 library reuses this context object to encrypt or * decrypt multiple packets. */ typedef struct ngtcp2_crypto_aead_ctx { /** * :member:`native_handle` is a pointer to an underlying AEAD * context object. */ void *native_handle; } ngtcp2_crypto_aead_ctx; /** * @struct * * :type:`ngtcp2_crypto_cipher_ctx` is a wrapper around native cipher * context object. It should be initialized with a specific key. * ngtcp2 library reuses this context object to encrypt or decrypt * multiple packet headers. */ typedef struct ngtcp2_crypto_cipher_ctx { /** * :member:`native_handle` is a pointer to an underlying cipher * context object. */ void *native_handle; } ngtcp2_crypto_cipher_ctx; /** * @struct * * :type:`ngtcp2_crypto_ctx` is a convenient structure to bind all * crypto related objects in one place. Use * `ngtcp2_crypto_ctx_initial` to initialize this struct for Initial * packet encryption. For Handshake and 1RTT packets, use * `ngtcp2_crypto_ctx_tls`. */ typedef struct ngtcp2_crypto_ctx { /** * :member:`aead` is AEAD object. */ ngtcp2_crypto_aead aead; /** * :member:`md` is message digest object. */ ngtcp2_crypto_md md; /** * :member:`hp` is header protection cipher. */ ngtcp2_crypto_cipher hp; /** * :member:`max_encryption` is the number of encryption which this * key can be used with. */ uint64_t max_encryption; /** * :member:`max_decryption_failure` is the number of decryption * failure with this key. */ uint64_t max_decryption_failure; } ngtcp2_crypto_ctx; /** * @function * * `ngtcp2_encode_transport_params` encodes |params| in |dest| of * length |destlen|. * * If |dest| is NULL, and |destlen| is zero, this function just * returns the number of bytes required to store the encoded transport * parameters. * * This function returns the number of written, or one of the * following negative error codes: * * :macro:`NGTCP2_ERR_NOBUF` * Buffer is too small. * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * |exttype| is invalid. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_encode_transport_params_versioned( uint8_t *dest, size_t destlen, ngtcp2_transport_params_type exttype, int transport_params_version, const ngtcp2_transport_params *params); /** * @function * * `ngtcp2_decode_transport_params` decodes transport parameters in * |data| of length |datalen|, and stores the result in the object * pointed by |params|. * * If the optional parameters are missing, the default value is * assigned. * * The following fields may point to somewhere inside the buffer * pointed by |data| of length |datalen|: * * - :member:`ngtcp2_transport_params.version_info.available_versions * ` * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_REQUIRED_TRANSPORT_PARAM` * The required parameter is missing. * :macro:`NGTCP2_ERR_MALFORMED_TRANSPORT_PARAM` * The input is malformed. */ NGTCP2_EXTERN int ngtcp2_decode_transport_params_versioned( int transport_params_version, ngtcp2_transport_params *params, ngtcp2_transport_params_type exttype, const uint8_t *data, size_t datalen); /** * @function * * `ngtcp2_decode_transport_params_new` decodes transport parameters * in |data| of length |datalen|, and stores the result in the object * allocated dynamically. The pointer to the allocated object is * assigned to |*pparams|. Unlike `ngtcp2_decode_transport_params`, * all direct and indirect fields are also allocated dynamically if * needed. * * |mem| is a memory allocator to allocate memory. If |mem| is * ``NULL``, the memory allocator returned by `ngtcp2_mem_default()` * is used. * * If the optional parameters are missing, the default value is * assigned. * * `ngtcp2_transport_params_del` frees the memory allocated by this * function. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_REQUIRED_TRANSPORT_PARAM` * The required parameter is missing. * :macro:`NGTCP2_ERR_MALFORMED_TRANSPORT_PARAM` * The input is malformed. * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_decode_transport_params_new( ngtcp2_transport_params **pparams, ngtcp2_transport_params_type exttype, const uint8_t *data, size_t datalen, const ngtcp2_mem *mem); /** * @function * * `ngtcp2_transport_params_del` frees the |params| which must be * dynamically allocated by `ngtcp2_decode_transport_params_new`. * * |mem| is a memory allocator that allocated |params|. If |mem| is * ``NULL``, the memory allocator returned by `ngtcp2_mem_default()` * is used. * * If |params| is ``NULL``, this function does nothing. */ NGTCP2_EXTERN void ngtcp2_transport_params_del(ngtcp2_transport_params *params, const ngtcp2_mem *mem); /** * @struct * * :type:`ngtcp2_version_cid` is a convenient struct to store the * result of `ngtcp2_pkt_decode_version_cid`. */ typedef struct ngtcp2_version_cid { /** * :member:`version` stores QUIC version. */ uint32_t version; /** * :member:`dcid` points to the Destination Connection ID. */ const uint8_t *dcid; /** * :member:`dcidlen` is the length of the Destination Connection ID * pointed by :member:`dcid`. */ size_t dcidlen; /** * :member:`scid` points to the Source Connection ID. */ const uint8_t *scid; /** * :member:`scidlen` is the length of the Source Connection ID * pointed by :member:`scid`. */ size_t scidlen; } ngtcp2_version_cid; /** * @function * * `ngtcp2_pkt_decode_version_cid` extracts QUIC version, Destination * Connection ID and Source Connection ID from the packet pointed by * |data| of length |datalen|. This function can handle Connection ID * up to 255 bytes unlike `ngtcp2_pkt_decode_hd_long` or * `ngtcp2_pkt_decode_hd_short` which are only capable of handling * Connection ID less than or equal to :macro:`NGTCP2_MAX_CIDLEN`. * Longer Connection ID is only valid if the version is unsupported * QUIC version. * * If the given packet is Long header packet, this function extracts * the version from the packet and assigns it to * :member:`dest->version `. It also * extracts the pointer to the Destination Connection ID and its * length and assigns them to :member:`dest->dcid * ` and :member:`dest->dcidlen * ` respectively. Similarly, it extracts * the pointer to the Source Connection ID and its length and assigns * them to :member:`dest->scid ` and * :member:`dest->scidlen ` respectively. * * If the given packet is Short header packet, :member:`dest->version * ` will be 0, :member:`dest->scid * ` will be ``NULL``, and * :member:`dest->scidlen ` will be 0. * Because the Short header packet does not have the length of * Destination Connection ID, the caller has to pass the length in * |short_dcidlen|. This function extracts the pointer to the * Destination Connection ID and assigns it to :member:`dest->dcid * `. |short_dcidlen| is assigned to * :member:`dest->dcidlen `. * * If Version Negotiation is required, this function returns * :macro:`NGTCP2_ERR_VERSION_NEGOTIATION`. Unlike the other error * cases, all fields of |dest| are assigned as described above. * * This function returns 0 if it succeeds. Otherwise, one of the * following negative error code: * * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * The function could not decode the packet header. * :macro:`NGTCP2_ERR_VERSION_NEGOTIATION` * Version Negotiation packet should be sent. */ NGTCP2_EXTERN int ngtcp2_pkt_decode_version_cid(ngtcp2_version_cid *dest, const uint8_t *data, size_t datalen, size_t short_dcidlen); /** * @function * * `ngtcp2_pkt_decode_hd_long` decodes QUIC long packet header in * |pkt| of length |pktlen|. This function only parses the input just * before packet number field. * * This function does not verify that length field is correct. In * other words, this function succeeds even if length > |pktlen|. * * This function can handle Connection ID up to * :macro:`NGTCP2_MAX_CIDLEN`. Consider to use * `ngtcp2_pkt_decode_version_cid` to get longer Connection ID. * * This function handles Version Negotiation specially. If version * field is 0, |pkt| must contain Version Negotiation packet. Version * Negotiation packet has random type in wire format. For * convenience, this function sets * :enum:`ngtcp2_pkt_type.NGTCP2_PKT_VERSION_NEGOTIATION` to * :member:`dest->type `, clears * :macro:`NGTCP2_PKT_FLAG_LONG_FORM` flag from :member:`dest->flags * `, and sets 0 to :member:`dest->len * `. Version Negotiation packet occupies a single * packet. * * It stores the result in the object pointed by |dest|, and returns * the number of bytes decoded to read the packet header if it * succeeds, or one of the following error codes: * * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * Packet is too short; or it is not a long header */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_pkt_decode_hd_long(ngtcp2_pkt_hd *dest, const uint8_t *pkt, size_t pktlen); /** * @function * * `ngtcp2_pkt_decode_hd_short` decodes QUIC short header packet * header in |pkt| of length |pktlen|. |dcidlen| is the length of * DCID in packet header. Short header packet does not encode the * length of connection ID, thus we need the input from the outside. * This function only parses the input just before packet number * field. This function can handle Connection ID up to * :macro:`NGTCP2_MAX_CIDLEN`. Consider to use * `ngtcp2_pkt_decode_version_cid` to get longer Connection ID. It * stores the result in the object pointed by |dest|, and returns the * number of bytes decoded to read the packet header if it succeeds, * or one of the following error codes: * * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * Packet is too short; or it is not a short header */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_pkt_decode_hd_short(ngtcp2_pkt_hd *dest, const uint8_t *pkt, size_t pktlen, size_t dcidlen); /** * @function * * `ngtcp2_pkt_write_stateless_reset` writes Stateless Reset packet in * the buffer pointed by |dest| whose length is |destlen|. * |stateless_reset_token| is a pointer to the Stateless Reset Token, * and its length must be :macro:`NGTCP2_STATELESS_RESET_TOKENLEN` * bytes long. |rand| specifies the random octets preceding Stateless * Reset Token. The length of |rand| is specified by |randlen| which * must be at least :macro:`NGTCP2_MIN_STATELESS_RESET_RANDLEN` bytes * long. * * If |randlen| is too long to write them all in the buffer, |rand| is * written to the buffer as much as possible, and is truncated. * * This function returns the number of bytes written to the buffer, or * one of the following negative error codes: * * :macro:`NGTCP2_ERR_NOBUF` * Buffer is too small. * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * |randlen| is strictly less than * :macro:`NGTCP2_MIN_STATELESS_RESET_RANDLEN`. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_pkt_write_stateless_reset( uint8_t *dest, size_t destlen, const uint8_t *stateless_reset_token, const uint8_t *rand, size_t randlen); /** * @function * * `ngtcp2_pkt_write_version_negotiation` writes Version Negotiation * packet in the buffer pointed by |dest| whose length is |destlen|. * |unused_random| should be generated randomly. |dcid| is the * destination connection ID which appears in a packet as a source * connection ID sent by client which caused version negotiation. * Similarly, |scid| is the source connection ID which appears in a * packet as a destination connection ID sent by client. |sv| is a * list of supported versions, and |nsv| specifies the number of * supported versions included in |sv|. * * This function returns the number of bytes written to the buffer, or * one of the following negative error codes: * * :macro:`NGTCP2_ERR_NOBUF` * Buffer is too small. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_pkt_write_version_negotiation( uint8_t *dest, size_t destlen, uint8_t unused_random, const uint8_t *dcid, size_t dcidlen, const uint8_t *scid, size_t scidlen, const uint32_t *sv, size_t nsv); /** * @struct * * :type:`ngtcp2_conn` represents a single QUIC connection. */ typedef struct ngtcp2_conn ngtcp2_conn; /** * @functypedef * * :type:`ngtcp2_client_initial` is invoked when client application * asks TLS stack to produce first TLS cryptographic handshake data. * * This implementation of this callback must get the first handshake * data from TLS stack and pass it to ngtcp2 library using * `ngtcp2_conn_submit_crypto_data` function. Make sure that before * calling `ngtcp2_conn_submit_crypto_data` function, client * application must create initial packet protection keys and IVs, and * provide them to ngtcp2 library using * `ngtcp2_conn_install_initial_key`. * * This callback function must return 0 if it succeeds, or * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library call * return immediately. */ typedef int (*ngtcp2_client_initial)(ngtcp2_conn *conn, void *user_data); /** * @functypedef * * :type:`ngtcp2_recv_client_initial` is invoked when server receives * Initial packet from client. An server application must implement * this callback, and generate initial keys and IVs for both * transmission and reception. Install them using * `ngtcp2_conn_install_initial_key`. |dcid| is the destination * connection ID which client generated randomly. It is used to * derive initial packet protection keys. * * The callback function must return 0 if it succeeds. If an error * occurs, return :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the * library call return immediately. */ typedef int (*ngtcp2_recv_client_initial)(ngtcp2_conn *conn, const ngtcp2_cid *dcid, void *user_data); /** * @enum * * :type:`ngtcp2_crypto_level` is encryption level. */ typedef enum ngtcp2_crypto_level { /** * :enum:`NGTCP2_CRYPTO_LEVEL_INITIAL` is Initial Keys encryption * level. */ NGTCP2_CRYPTO_LEVEL_INITIAL, /** * :enum:`NGTCP2_CRYPTO_LEVEL_HANDSHAKE` is Handshake Keys * encryption level. */ NGTCP2_CRYPTO_LEVEL_HANDSHAKE, /** * :enum:`NGTCP2_CRYPTO_LEVEL_APPLICATION` is Application Data * (1-RTT) Keys encryption level. */ NGTCP2_CRYPTO_LEVEL_APPLICATION, /** * :enum:`NGTCP2_CRYPTO_LEVEL_EARLY` is Early Data (0-RTT) Keys * encryption level. */ NGTCP2_CRYPTO_LEVEL_EARLY } ngtcp2_crypto_level; /** * @functypedef * * :type`ngtcp2_recv_crypto_data` is invoked when crypto data is * received. The received data is pointed to by |data|, and its * length is |datalen|. The |offset| specifies the offset where * |data| is positioned. |user_data| is the arbitrary pointer passed * to `ngtcp2_conn_client_new` or `ngtcp2_conn_server_new`. The * ngtcp2 library ensures that the crypto data is passed to the * application in the increasing order of |offset|. |datalen| is * always strictly greater than 0. |crypto_level| indicates the * encryption level where this data is received. Crypto data can * never be received in * :enum:`ngtcp2_crypto_level.NGTCP2_CRYPTO_LEVEL_EARLY`. * * The application should provide the given data to TLS stack. * * The callback function must return 0 if it succeeds, or one of the * following negative error codes: * * - :macro:`NGTCP2_ERR_CRYPTO` * - :macro:`NGTCP2_ERR_REQUIRED_TRANSPORT_PARAM` * - :macro:`NGTCP2_ERR_MALFORMED_TRANSPORT_PARAM` * - :macro:`NGTCP2_ERR_TRANSPORT_PARAM` * - :macro:`NGTCP2_ERR_PROTO` * - :macro:`NGTCP2_ERR_VERSION_NEGOTIATION_FAILURE` * - :macro:`NGTCP2_ERR_NOMEM` * - :macro:`NGTCP2_ERR_CALLBACK_FAILURE` * * If the other value is returned, it is treated as * :macro:`NGTCP2_ERR_CALLBACK_FAILURE`. * * If application encounters fatal error, return * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library call * return immediately. */ typedef int (*ngtcp2_recv_crypto_data)(ngtcp2_conn *conn, ngtcp2_crypto_level crypto_level, uint64_t offset, const uint8_t *data, size_t datalen, void *user_data); /** * @functypedef * * :type:`ngtcp2_handshake_completed` is invoked when QUIC * cryptographic handshake has completed. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_handshake_completed)(ngtcp2_conn *conn, void *user_data); /** * @functypedef * * :type:`ngtcp2_handshake_confirmed` is invoked when QUIC * cryptographic handshake is confirmed. The handshake confirmation * means that both endpoints agree that handshake has finished. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_handshake_confirmed)(ngtcp2_conn *conn, void *user_data); /** * @functypedef * * :type:`ngtcp2_recv_version_negotiation` is invoked when Version * Negotiation packet is received. |hd| is the pointer to the QUIC * packet header object. The vector |sv| of |nsv| elements contains * the QUIC version the server supports. Since Version Negotiation is * only sent by server, this callback function is used by client only. * * The callback function must return 0 if it succeeds, or * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library call * return immediately. */ typedef int (*ngtcp2_recv_version_negotiation)(ngtcp2_conn *conn, const ngtcp2_pkt_hd *hd, const uint32_t *sv, size_t nsv, void *user_data); /** * @functypedef * * :type:`ngtcp2_recv_retry` is invoked when Retry packet is received. * This callback is client use only. * * Application must regenerate packet protection key, IV, and header * protection key for Initial packets using the destination connection * ID obtained by :member:`hd->scid ` and install * them by calling `ngtcp2_conn_install_initial_key()`. * * 0-RTT data accepted by the ngtcp2 library will be automatically * retransmitted as 0-RTT data by the library. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_recv_retry)(ngtcp2_conn *conn, const ngtcp2_pkt_hd *hd, void *user_data); /** * @functypedef * * :type:`ngtcp2_encrypt` is invoked when the ngtcp2 library asks the * application to encrypt packet payload. The packet payload to * encrypt is passed as |plaintext| of length |plaintextlen|. The * AEAD cipher is |aead|. |aead_ctx| is the AEAD cipher context * object which is initialized with encryption key. The nonce is * passed as |nonce| of length |noncelen|. The Additional * Authenticated Data is passed as |aad| of length |aadlen|. * * The implementation of this callback must encrypt |plaintext| using * the negotiated cipher suite and write the ciphertext into the * buffer pointed by |dest|. |dest| has enough capacity to store the * ciphertext and any additional AEAD tag data. * * |dest| and |plaintext| may point to the same buffer. * * The callback function must return 0 if it succeeds, or * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library call * return immediately. */ typedef int (*ngtcp2_encrypt)(uint8_t *dest, const ngtcp2_crypto_aead *aead, const ngtcp2_crypto_aead_ctx *aead_ctx, const uint8_t *plaintext, size_t plaintextlen, const uint8_t *nonce, size_t noncelen, const uint8_t *aad, size_t aadlen); /** * @functypedef * * :type:`ngtcp2_decrypt` is invoked when the ngtcp2 library asks the * application to decrypt packet payload. The packet payload to * decrypt is passed as |ciphertext| of length |ciphertextlen|. The * AEAD cipher is |aead|. |aead_ctx| is the AEAD cipher context * object which is initialized with decryption key. The nonce is * passed as |nonce| of length |noncelen|. The Additional * Authenticated Data is passed as |aad| of length |aadlen|. * * The implementation of this callback must decrypt |ciphertext| using * the negotiated cipher suite and write the ciphertext into the * buffer pointed by |dest|. |dest| has enough capacity to store the * cleartext. * * |dest| and |ciphertext| may point to the same buffer. * * The callback function must return 0 if it succeeds. If TLS stack * fails to decrypt data, return :macro:`NGTCP2_ERR_DECRYPT`. For any * other errors, return :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which * makes the library call return immediately. */ typedef int (*ngtcp2_decrypt)(uint8_t *dest, const ngtcp2_crypto_aead *aead, const ngtcp2_crypto_aead_ctx *aead_ctx, const uint8_t *ciphertext, size_t ciphertextlen, const uint8_t *nonce, size_t noncelen, const uint8_t *aad, size_t aadlen); /** * @functypedef * * :type:`ngtcp2_hp_mask` is invoked when the ngtcp2 library asks the * application to produce a mask to encrypt or decrypt packet header. * The encryption cipher is |hp|. |hp_ctx| is the cipher context * object which is initialized with header protection key. The sample * is passed as |sample| which is :macro:`NGTCP2_HP_SAMPLELEN` bytes * long. * * The implementation of this callback must produce a mask using the * header protection cipher suite specified by QUIC specification and * write the result into the buffer pointed by |dest|. The length of * the mask must be at least :macro:`NGTCP2_HP_MASKLEN`. The library * only uses the first :macro:`NGTCP2_HP_MASKLEN` bytes of the * produced mask. The buffer pointed by |dest| is guaranteed to have * at least :macro:`NGTCP2_HP_SAMPLELEN` bytes available for * convenience. * * The callback function must return 0 if it succeeds, or * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library call * return immediately. */ typedef int (*ngtcp2_hp_mask)(uint8_t *dest, const ngtcp2_crypto_cipher *hp, const ngtcp2_crypto_cipher_ctx *hp_ctx, const uint8_t *sample); /** * @macrosection * * Stream data flags */ /** * @macro * * :macro:`NGTCP2_STREAM_DATA_FLAG_NONE` indicates no flag set. */ #define NGTCP2_STREAM_DATA_FLAG_NONE 0x00u /** * @macro * * :macro:`NGTCP2_STREAM_DATA_FLAG_FIN` indicates that this chunk of * data is final piece of an incoming stream. */ #define NGTCP2_STREAM_DATA_FLAG_FIN 0x01u /** * @macro * * :macro:`NGTCP2_STREAM_DATA_FLAG_EARLY` indicates that this chunk of * data contains data received in 0RTT packet and the handshake has * not completed yet, which means that the data might be replayed. */ #define NGTCP2_STREAM_DATA_FLAG_EARLY 0x02u /** * @functypedef * * :type:`ngtcp2_recv_stream_data` is invoked when stream data is * received. The stream is specified by |stream_id|. |flags| is the * bitwise-OR of zero or more of :macro:`NGTCP2_STREAM_DATA_FLAG_* * `. If |flags| & * :macro:`NGTCP2_STREAM_DATA_FLAG_FIN` is nonzero, this portion of * the data is the last data in this stream. |offset| is the offset * where this data begins. The library ensures that data is passed to * the application in the non-decreasing order of |offset| without any * overlap. The data is passed as |data| of length |datalen|. * |datalen| may be 0 if and only if |fin| is nonzero. * * If :macro:`NGTCP2_STREAM_DATA_FLAG_EARLY` is set in |flags|, it * indicates that a part of or whole data was received in 0RTT packet * and a handshake has not completed yet. * * The callback function must return 0 if it succeeds, or * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library return * immediately. */ typedef int (*ngtcp2_recv_stream_data)(ngtcp2_conn *conn, uint32_t flags, int64_t stream_id, uint64_t offset, const uint8_t *data, size_t datalen, void *user_data, void *stream_user_data); /** * @functypedef * * :type:`ngtcp2_stream_open` is a callback function which is called * when remote stream is opened by peer. This function is not called * if stream is opened by implicitly (we might reconsider this * behaviour). * * The implementation of this callback should return 0 if it succeeds. * Returning :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library * call return immediately. */ typedef int (*ngtcp2_stream_open)(ngtcp2_conn *conn, int64_t stream_id, void *user_data); /** * @macrosection * * Stream close flags */ /** * @macro * * :macro:`NGTCP2_STREAM_CLOSE_FLAG_NONE` indicates no flag set. */ #define NGTCP2_STREAM_CLOSE_FLAG_NONE 0x00u /** * @macro * * :macro:`NGTCP2_STREAM_CLOSE_FLAG_APP_ERROR_CODE_SET` indicates that * app_error_code parameter is set. */ #define NGTCP2_STREAM_CLOSE_FLAG_APP_ERROR_CODE_SET 0x01u /** * @functypedef * * :type:`ngtcp2_stream_close` is invoked when a stream is closed. * This callback is not called when QUIC connection is closed before * existing streams are closed. |flags| is the bitwise-OR of zero or * more of :macro:`NGTCP2_STREAM_CLOSE_FLAG_* * `. |app_error_code| indicates the * error code of this closure if * :macro:`NGTCP2_STREAM_CLOSE_FLAG_APP_ERROR_CODE_SET` is set in * |flags|. If it is not set, the stream was closed without any error * code, which generally means success. * * |app_error_code| is the first application error code sent by a * local endpoint, or received from a remote endpoint. If a stream is * closed cleanly, no application error code is exchanged. Since QUIC * stack does not know the application error code which indicates "no * errors", |app_error_code| is set to 0 and * :macro:`NGTCP2_STREAM_CLOSE_FLAG_APP_ERROR_CODE_SET` is not set in * |flags| in this case. * * The implementation of this callback should return 0 if it succeeds. * Returning :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library * call return immediately. */ typedef int (*ngtcp2_stream_close)(ngtcp2_conn *conn, uint32_t flags, int64_t stream_id, uint64_t app_error_code, void *user_data, void *stream_user_data); /** * @functypedef * * :type:`ngtcp2_stream_reset` is invoked when a stream identified by * |stream_id| is reset by a remote endpoint. * * The implementation of this callback should return 0 if it succeeds. * Returning :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library * call return immediately. */ typedef int (*ngtcp2_stream_reset)(ngtcp2_conn *conn, int64_t stream_id, uint64_t final_size, uint64_t app_error_code, void *user_data, void *stream_user_data); /** * @functypedef * * :type:`ngtcp2_acked_stream_data_offset` is a callback function * which is called when stream data is acked, and application can free * the data. The acked range of data is [offset, offset + datalen). * For a given stream_id, this callback is called sequentially in * increasing order of |offset| without any overlap. |datalen| is * normally strictly greater than 0. One exception is that when a * packet which includes STREAM frame which has fin flag set, and 0 * length data, this callback is invoked with 0 passed as |datalen|. * * If a stream is closed prematurely and stream data is still * in-flight, this callback function is not called for those data. * * The implementation of this callback should return 0 if it succeeds. * Returning :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library * call return immediately. */ typedef int (*ngtcp2_acked_stream_data_offset)( ngtcp2_conn *conn, int64_t stream_id, uint64_t offset, uint64_t datalen, void *user_data, void *stream_user_data); /** * @functypedef * * :type:`ngtcp2_recv_stateless_reset` is a callback function which is * called when Stateless Reset packet is received. The stateless * reset details are given in |sr|. * * The implementation of this callback should return 0 if it succeeds. * Returning :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library * call return immediately. */ typedef int (*ngtcp2_recv_stateless_reset)(ngtcp2_conn *conn, const ngtcp2_pkt_stateless_reset *sr, void *user_data); /** * @functypedef * * :type:`ngtcp2_extend_max_streams` is a callback function which is * called every time max stream ID is strictly extended. * |max_streams| is the cumulative number of streams which an endpoint * can open. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_extend_max_streams)(ngtcp2_conn *conn, uint64_t max_streams, void *user_data); /** * @functypedef * * :type:`ngtcp2_extend_max_stream_data` is a callback function which * is invoked when max stream data is extended. |stream_id| * identifies the stream. |max_data| is a cumulative number of bytes * the endpoint can send on this stream. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_extend_max_stream_data)(ngtcp2_conn *conn, int64_t stream_id, uint64_t max_data, void *user_data, void *stream_user_data); /** * @functypedef * * :type:`ngtcp2_rand` is a callback function to get randomized byte * string from application. Application must fill random |destlen| * bytes to the buffer pointed by |dest|. The generated bytes are * used only in non-cryptographic context. */ typedef void (*ngtcp2_rand)(uint8_t *dest, size_t destlen, const ngtcp2_rand_ctx *rand_ctx); /** * @functypedef * * :type:`ngtcp2_get_new_connection_id` is a callback function to ask * an application for new connection ID. Application must generate * new unused connection ID with the exact |cidlen| bytes and store it * in |cid|. It also has to generate stateless reset token into * |token|. The length of stateless reset token is * :macro:`NGTCP2_STATELESS_RESET_TOKENLEN` and it is guaranteed that * the buffer pointed by |cid| has the sufficient space to store the * token. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_get_new_connection_id)(ngtcp2_conn *conn, ngtcp2_cid *cid, uint8_t *token, size_t cidlen, void *user_data); /** * @functypedef * * :type:`ngtcp2_remove_connection_id` is a callback function which * notifies the application that connection ID |cid| is no longer used * by remote endpoint. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_remove_connection_id)(ngtcp2_conn *conn, const ngtcp2_cid *cid, void *user_data); /** * @functypedef * * :type:`ngtcp2_update_key` is a callback function which tells the * application that it must generate new packet protection keying * materials and AEAD cipher context objects with new keys. The * current set of secrets are given as |current_rx_secret| and * |current_tx_secret| of length |secretlen|. They are decryption and * encryption secrets respectively. * * The application has to generate new secrets and keys for both * encryption and decryption, and write decryption secret and IV to * the buffer pointed by |rx_secret| and |rx_iv| respectively. It * also has to create new AEAD cipher context object with new * decryption key and initialize |rx_aead_ctx| with it. Similarly, * write encryption secret and IV to the buffer pointed by |tx_secret| * and |tx_iv|. Create new AEAD cipher context object with new * encryption key and initialize |tx_aead_ctx| with it. All given * buffers have the enough capacity to store secret, key and IV. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_update_key)( ngtcp2_conn *conn, uint8_t *rx_secret, uint8_t *tx_secret, ngtcp2_crypto_aead_ctx *rx_aead_ctx, uint8_t *rx_iv, ngtcp2_crypto_aead_ctx *tx_aead_ctx, uint8_t *tx_iv, const uint8_t *current_rx_secret, const uint8_t *current_tx_secret, size_t secretlen, void *user_data); /** * @macrosection * * Path validation related macros */ /** * @macro * * :macro:`NGTCP2_PATH_VALIDATION_FLAG_NONE` indicates no flag set. */ #define NGTCP2_PATH_VALIDATION_FLAG_NONE 0x00u /** * @macro * * :macro:`NGTCP2_PATH_VALIDATION_FLAG_PREFERRED_ADDR` indicates the * validation involving server preferred address. This flag is only * set for client. */ #define NGTCP2_PATH_VALIDATION_FLAG_PREFERRED_ADDR 0x01u /** * @functypedef * * :type:`ngtcp2_path_validation` is a callback function which tells * the application the outcome of path validation. |flags| is zero or * more of :macro:`NGTCP2_PATH_VALIDATION_FLAG_* * `. |path| is the path that was * validated. If |res| is * :enum:`ngtcp2_path_validation_result.NGTCP2_PATH_VALIDATION_RESULT_SUCCESS`, * the path validation succeeded. If |res| is * :enum:`ngtcp2_path_validation_result.NGTCP2_PATH_VALIDATION_RESULT_FAILURE`, * the path validation failed. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_path_validation)(ngtcp2_conn *conn, uint32_t flags, const ngtcp2_path *path, ngtcp2_path_validation_result res, void *user_data); /** * @functypedef * * :type:`ngtcp2_select_preferred_addr` is a callback function which * asks a client application to choose server address from preferred * addresses |paddr| received from server. An application should * write a network path for a selected preferred address in |dest|. * More specifically, the selected preferred address must be set to * :member:`dest->remote `, a client source * address must be set to :member:`dest->local `. * If a client source address does not change for the new server * address, leave :member:`dest->local ` * unmodified, or copy the value of :member:`local * ` field of the current network path obtained * from `ngtcp2_conn_get_path()`. Both :member:`dest->local.addr * ` and :member:`dest->remote.addr * ` point to buffers which are at least * ``sizeof(struct sockaddr_storage)`` bytes long, respectively. If * an application denies the preferred addresses, just leave |dest| * unmodified (or set :member:`dest->remote.addrlen * ` to 0) and return 0. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_select_preferred_addr)(ngtcp2_conn *conn, ngtcp2_path *dest, const ngtcp2_preferred_addr *paddr, void *user_data); /** * @enum * * :type:`ngtcp2_connection_id_status_type` defines a set of status * for Destination Connection ID. */ typedef enum ngtcp2_connection_id_status_type { /** * :enum:`NGTCP2_CONNECTION_ID_STATUS_TYPE_ACTIVATE` indicates that * a local endpoint starts using new destination Connection ID. */ NGTCP2_CONNECTION_ID_STATUS_TYPE_ACTIVATE, /** * :enum:`NGTCP2_CONNECTION_ID_STATUS_TYPE_DEACTIVATE` indicates * that a local endpoint stops using a given destination Connection * ID. */ NGTCP2_CONNECTION_ID_STATUS_TYPE_DEACTIVATE } ngtcp2_connection_id_status_type; /** * @functypedef * * :type:`ngtcp2_connection_id_status` is a callback function which is * called when the status of Connection ID changes. * * |token| is the associated stateless reset token and it is ``NULL`` * if no token is present. * * |type| is the one of the value defined in * :type:`ngtcp2_connection_id_status_type`. The new value might be * added in the future release. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_connection_id_status)(ngtcp2_conn *conn, int type, uint64_t seq, const ngtcp2_cid *cid, const uint8_t *token, void *user_data); /** * @functypedef * * :type:`ngtcp2_recv_new_token` is a callback function which is * called when new token is received from server. * * |token| is the received token of length |tokenlen| bytes long. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_recv_new_token)(ngtcp2_conn *conn, const uint8_t *token, size_t tokenlen, void *user_data); /** * @functypedef * * :type:`ngtcp2_delete_crypto_aead_ctx` is a callback function which * must delete the native object pointed by * :member:`aead_ctx->native_handle * `. */ typedef void (*ngtcp2_delete_crypto_aead_ctx)(ngtcp2_conn *conn, ngtcp2_crypto_aead_ctx *aead_ctx, void *user_data); /** * @functypedef * * :type:`ngtcp2_delete_crypto_cipher_ctx` is a callback function * which must delete the native object pointed by * :member:`cipher_ctx->native_handle * `. */ typedef void (*ngtcp2_delete_crypto_cipher_ctx)( ngtcp2_conn *conn, ngtcp2_crypto_cipher_ctx *cipher_ctx, void *user_data); /** * @macrosection * * Datagram flags */ /** * @macro * * :macro:`NGTCP2_DATAGRAM_FLAG_NONE` indicates no flag set. */ #define NGTCP2_DATAGRAM_FLAG_NONE 0x00u /** * @macro * * :macro:`NGTCP2_DATAGRAM_FLAG_EARLY` indicates that DATAGRAM frame * is received in 0RTT packet and the handshake has not completed yet, * which means that the data might be replayed. */ #define NGTCP2_DATAGRAM_FLAG_EARLY 0x01u /** * @functypedef * * :type:`ngtcp2_recv_datagram` is invoked when DATAGRAM frame is * received. |flags| is bitwise-OR of zero or more of * :macro:`NGTCP2_DATAGRAM_FLAG_* `. * * If :macro:`NGTCP2_DATAGRAM_FLAG_EARLY` is set in |flags|, it * indicates that DATAGRAM frame was received in 0RTT packet and a * handshake has not completed yet. * * The callback function must return 0 if it succeeds, or * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library return * immediately. */ typedef int (*ngtcp2_recv_datagram)(ngtcp2_conn *conn, uint32_t flags, const uint8_t *data, size_t datalen, void *user_data); /** * @functypedef * * :type:`ngtcp2_ack_datagram` is invoked when a packet which contains * DATAGRAM frame which is identified by |dgram_id| is acknowledged. * |dgram_id| is the valued passed to `ngtcp2_conn_writev_datagram`. * * The callback function must return 0 if it succeeds, or * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library return * immediately. */ typedef int (*ngtcp2_ack_datagram)(ngtcp2_conn *conn, uint64_t dgram_id, void *user_data); /** * @functypedef * * :type:`ngtcp2_lost_datagram` is invoked when a packet which * contains DATAGRAM frame which is identified by |dgram_id| is * declared lost. |dgram_id| is the valued passed to * `ngtcp2_conn_writev_datagram`. Note that the loss might be * spurious, and DATAGRAM frame might be acknowledged later. * * The callback function must return 0 if it succeeds, or * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` which makes the library return * immediately. */ typedef int (*ngtcp2_lost_datagram)(ngtcp2_conn *conn, uint64_t dgram_id, void *user_data); /** * @functypedef * * :type:`ngtcp2_get_path_challenge_data` is a callback function to * ask an application for new data that is sent in PATH_CHALLENGE * frame. Application must generate new unpredictable exactly * :macro:`NGTCP2_PATH_CHALLENGE_DATALEN` bytes of random data and * store them into the buffer pointed by |data|. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_get_path_challenge_data)(ngtcp2_conn *conn, uint8_t *data, void *user_data); /** * @functypedef * * :type:`ngtcp2_stream_stop_sending` is invoked when a stream is no * longer read by a local endpoint before it receives all stream data. * This function is called at most once per stream. |app_error_code| * is the error code passed to `ngtcp2_conn_shutdown_stream_read` or * `ngtcp2_conn_shutdown_stream`. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_stream_stop_sending)(ngtcp2_conn *conn, int64_t stream_id, uint64_t app_error_code, void *user_data, void *stream_user_data); /** * @functypedef * * :type:`ngtcp2_version_negotiation` is invoked when the compatible * version negotiation takes place. For client, it is called when it * sees a change in version field of a long header packet. This * callback function might be called multiple times for client. For * server, it is called once when the version is negotiated. * * The implementation of this callback must install new Initial keys * for |version|. Use `ngtcp2_conn_install_vneg_initial_key` to * install keys. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_version_negotiation)(ngtcp2_conn *conn, uint32_t version, const ngtcp2_cid *client_dcid, void *user_data); /** * @functypedef * * :type:`ngtcp2_recv_key` is invoked when new key is installed to * |conn| during QUIC cryptographic handshake. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_recv_key)(ngtcp2_conn *conn, ngtcp2_crypto_level level, void *user_data); /** * @functypedef * * :type:`ngtcp2_early_data_rejected` is invoked when early data was * rejected by server, or client decided not to attempt early data. * * The callback function must return 0 if it succeeds. Returning * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` makes the library call return * immediately. */ typedef int (*ngtcp2_early_data_rejected)(ngtcp2_conn *conn, void *user_data); #define NGTCP2_CALLBACKS_VERSION_V1 1 #define NGTCP2_CALLBACKS_VERSION NGTCP2_CALLBACKS_VERSION_V1 /** * @struct * * :type:`ngtcp2_callbacks` holds a set of callback functions. */ typedef struct ngtcp2_callbacks { /** * :member:`client_initial` is a callback function which is invoked * when client asks TLS stack to produce first TLS cryptographic * handshake message. This callback function must be specified for * a client application. */ ngtcp2_client_initial client_initial; /** * :member:`recv_client_initial` is a callback function which is * invoked when a server receives the first packet from client. * This callback function must be specified for a server application. */ ngtcp2_recv_client_initial recv_client_initial; /** * :member:`recv_crypto_data` is a callback function which is * invoked when cryptographic data (CRYPTO frame, in other words, * TLS message) is received. This callback function must be * specified. */ ngtcp2_recv_crypto_data recv_crypto_data; /** * :member:`handshake_completed` is a callback function which is * invoked when QUIC cryptographic handshake has completed. This * callback function is optional. */ ngtcp2_handshake_completed handshake_completed; /** * :member:`recv_version_negotiation` is a callback function which * is invoked when Version Negotiation packet is received by a * client. This callback function is optional. */ ngtcp2_recv_version_negotiation recv_version_negotiation; /** * :member:`encrypt` is a callback function which is invoked to * encrypt a QUIC packet. This callback function must be specified. */ ngtcp2_encrypt encrypt; /** * :member:`decrypt` is a callback function which is invoked to * decrypt a QUIC packet. This callback function must be specified. */ ngtcp2_decrypt decrypt; /** * :member:`hp_mask` is a callback function which is invoked to get * a mask to encrypt or decrypt packet header. This callback * function must be specified. */ ngtcp2_hp_mask hp_mask; /** * :member:`recv_stream_data` is a callback function which is * invoked when STREAM data, which includes application data, is * received. This callback function is optional. */ ngtcp2_recv_stream_data recv_stream_data; /** * :member:`acked_stream_data_offset` is a callback function which * is invoked when STREAM data, which includes application data, is * acknowledged by a remote endpoint. It tells an application the * largest offset of acknowledged STREAM data without a gap so that * application can free memory for the data. This callback function * is optional. */ ngtcp2_acked_stream_data_offset acked_stream_data_offset; /** * :member:`stream_open` is a callback function which is invoked * when new remote stream is opened by a remote endpoint. This * callback function is optional. */ ngtcp2_stream_open stream_open; /** * :member:`stream_close` is a callback function which is invoked * when a stream is closed. This callback function is optional. */ ngtcp2_stream_close stream_close; /** * :member:`recv_stateless_reset` is a callback function which is * invoked when Stateless Reset packet is received. This callback * function is optional. */ ngtcp2_recv_stateless_reset recv_stateless_reset; /** * :member:`recv_retry` is a callback function which is invoked when * a client receives Retry packet. For client, this callback * function must be specified. Server never receive Retry packet. */ ngtcp2_recv_retry recv_retry; /** * :member:`extend_max_local_streams_bidi` is a callback function * which is invoked when the number of bidirectional stream which a * local endpoint can open is increased. This callback function is * optional. */ ngtcp2_extend_max_streams extend_max_local_streams_bidi; /** * :member:`extend_max_local_streams_uni` is a callback function * which is invoked when the number of unidirectional stream which a * local endpoint can open is increased. This callback function is * optional. */ ngtcp2_extend_max_streams extend_max_local_streams_uni; /** * :member:`rand` is a callback function which is invoked when the * library needs sequence of random data. This callback function * must be specified. */ ngtcp2_rand rand; /** * :member:`get_new_connection_id` is a callback function which is * invoked when the library needs new connection ID. This callback * function must be specified. */ ngtcp2_get_new_connection_id get_new_connection_id; /** * :member:`remove_connection_id` is a callback function which * notifies an application that connection ID is no longer used by a * remote endpoint. This callback function is optional. */ ngtcp2_remove_connection_id remove_connection_id; /** * :member:`update_key` is a callback function which is invoked when * the library tells an application that it must update keying * materials and install new keys. This callback function must be * specified. */ ngtcp2_update_key update_key; /** * :member:`path_validation` is a callback function which is invoked * when path validation completed. This callback function is * optional. */ ngtcp2_path_validation path_validation; /** * :member:`select_preferred_addr` is a callback function which is * invoked when the library asks a client to select preferred * address presented by a server. This callback function is * optional. */ ngtcp2_select_preferred_addr select_preferred_addr; /** * :member:`stream_reset` is a callback function which is invoked * when a stream is reset by a remote endpoint. This callback * function is optional. */ ngtcp2_stream_reset stream_reset; /** * :member:`extend_max_remote_streams_bidi` is a callback function * which is invoked when the number of bidirectional streams which a * remote endpoint can open is increased. This callback function is * optional. */ ngtcp2_extend_max_streams extend_max_remote_streams_bidi; /** * :member:`extend_max_remote_streams_uni` is a callback function * which is invoked when the number of unidirectional streams which * a remote endpoint can open is increased. This callback function * is optional. */ ngtcp2_extend_max_streams extend_max_remote_streams_uni; /** * :member:`extend_max_stream_data` is callback function which is * invoked when the maximum offset of STREAM data that a local * endpoint can send is increased. This callback function is * optional. */ ngtcp2_extend_max_stream_data extend_max_stream_data; /** * :member:`dcid_status` is a callback function which is invoked * when the new destination Connection ID is activated or the * activated destination Connection ID is now deactivated. This * callback function is optional. */ ngtcp2_connection_id_status dcid_status; /** * :member:`handshake_confirmed` is a callback function which is * invoked when both endpoints agree that handshake has finished. * This field is ignored by server because handshake_completed * indicates the handshake confirmation for server. This callback * function is optional. */ ngtcp2_handshake_confirmed handshake_confirmed; /** * :member:`recv_new_token` is a callback function which is invoked * when new token is received from server. This field is ignored by * server. This callback function is optional. */ ngtcp2_recv_new_token recv_new_token; /** * :member:`delete_crypto_aead_ctx` is a callback function which * deletes a given AEAD cipher context object. This callback * function must be specified. */ ngtcp2_delete_crypto_aead_ctx delete_crypto_aead_ctx; /** * :member:`delete_crypto_cipher_ctx` is a callback function which * deletes a given cipher context object. This callback function * must be specified. */ ngtcp2_delete_crypto_cipher_ctx delete_crypto_cipher_ctx; /** * :member:`recv_datagram` is a callback function which is invoked * when DATAGRAM frame is received. This callback function is * optional. */ ngtcp2_recv_datagram recv_datagram; /** * :member:`ack_datagram` is a callback function which is invoked * when a packet containing DATAGRAM frame is acknowledged. This * callback function is optional. */ ngtcp2_ack_datagram ack_datagram; /** * :member:`lost_datagram` is a callback function which is invoked * when a packet containing DATAGRAM frame is declared lost. This * callback function is optional. */ ngtcp2_lost_datagram lost_datagram; /** * :member:`get_path_challenge_data` is a callback function which is * invoked when the library needs new PATH_CHALLENGE data. This * callback must be specified. */ ngtcp2_get_path_challenge_data get_path_challenge_data; /** * :member:`stream_stop_sending` is a callback function which is * invoked when a local endpoint no longer reads from a stream * before it receives all stream data. This callback function is * optional. */ ngtcp2_stream_stop_sending stream_stop_sending; /** * :member:`version_negotiation` is a callback function which is * invoked when the compatible version negotiation takes place. * This callback function must be specified. */ ngtcp2_version_negotiation version_negotiation; /** * :member:`recv_rx_key` is a callback function which is invoked * when a new key for decrypting packets is installed during QUIC * cryptographic handshake. It is not called for * :enum:`ngtcp2_crypto_level.NGTCP2_CRYPTO_LEVEL_INITIAL`. */ ngtcp2_recv_key recv_rx_key; /** * :member:`recv_tx_key` is a callback function which is invoked * when a new key for encrypting packets is installed during QUIC * cryptographic handshake. It is not called for * :enum:`ngtcp2_crypto_level.NGTCP2_CRYPTO_LEVEL_INITIAL`. */ ngtcp2_recv_key recv_tx_key; /** * :member:`ngtcp2_early_data_rejected` is a callback function which * is invoked when an attempt to send early data by client was * rejected by server, or client decided not to attempt early data. * This callback function is only used by client. */ ngtcp2_early_data_rejected early_data_rejected; } ngtcp2_callbacks; /** * @function * * `ngtcp2_pkt_write_connection_close` writes Initial packet * containing CONNECTION_CLOSE frame with the given |error_code| and * the optional |reason| of length |reasonlen| to the buffer pointed * by |dest| of length |destlen|. All encryption parameters are for * Initial packet encryption. The packet number is always 0. * * The primary use case of this function is for server to send * CONNECTION_CLOSE frame in Initial packet to close connection * without committing the state when validating Retry token fails. * * This function returns the number of bytes written if it succeeds, * or one of the following negative error codes: * * :macro:`NGTCP2_ERR_NOBUF` * Buffer is too small. * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` * Callback function failed. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_pkt_write_connection_close( uint8_t *dest, size_t destlen, uint32_t version, const ngtcp2_cid *dcid, const ngtcp2_cid *scid, uint64_t error_code, const uint8_t *reason, size_t reasonlen, ngtcp2_encrypt encrypt, const ngtcp2_crypto_aead *aead, const ngtcp2_crypto_aead_ctx *aead_ctx, const uint8_t *iv, ngtcp2_hp_mask hp_mask, const ngtcp2_crypto_cipher *hp, const ngtcp2_crypto_cipher_ctx *hp_ctx); /** * @function * * `ngtcp2_pkt_write_retry` writes Retry packet in the buffer pointed * by |dest| whose length is |destlen|. |dcid| is the destination * connection ID which appeared in a packet as a source connection ID * sent by client. |scid| is a server chosen source connection ID. * |odcid| specifies Original Destination Connection ID which appeared * in a packet as a destination connection ID sent by client. |token| * specifies Retry Token, and |tokenlen| specifies its length. |aead| * must be AEAD_AES_128_GCM. |aead_ctx| must be initialized with * :macro:`NGTCP2_RETRY_KEY` as an encryption key. * * This function returns the number of bytes written to the buffer, or * one of the following negative error codes: * * :macro:`NGTCP2_ERR_NOBUF` * Buffer is too small. * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` * Callback function failed. * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * :member:`odcid->datalen ` is less than * :macro:`NGTCP2_MIN_INITIAL_DCIDLEN`. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_pkt_write_retry( uint8_t *dest, size_t destlen, uint32_t version, const ngtcp2_cid *dcid, const ngtcp2_cid *scid, const ngtcp2_cid *odcid, const uint8_t *token, size_t tokenlen, ngtcp2_encrypt encrypt, const ngtcp2_crypto_aead *aead, const ngtcp2_crypto_aead_ctx *aead_ctx); /** * @function * * `ngtcp2_accept` is used by server implementation, and decides * whether packet |pkt| of length |pktlen| from client is acceptable * for the very initial packet to a connection. * * If |dest| is not ``NULL`` and the function returns 0, or * :macro:`NGTCP2_ERR_RETRY`, the decoded packet header is stored to * the object pointed by |dest|. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_RETRY` * Retry packet should be sent. * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * The packet is not acceptable for the very first packet to a new * connection; or the function failed to parse the packet header. */ NGTCP2_EXTERN int ngtcp2_accept(ngtcp2_pkt_hd *dest, const uint8_t *pkt, size_t pktlen); /** * @function * * `ngtcp2_conn_client_new` creates new :type:`ngtcp2_conn`, and * initializes it as client. |dcid| is randomized destination * connection ID. |scid| is source connection ID. * |client_chosen_version| is a QUIC version that a client chooses. * |path| is the network path where this QUIC connection is being * established and must not be ``NULL``. |callbacks|, |settings|, and * |params| must not be ``NULL``, and the function make a copy of each * of them. |params| is local QUIC transport parameters and sent to a * remote endpoint during handshake. |user_data| is the arbitrary * pointer which is passed to the user-defined callback functions. If * |mem| is ``NULL``, the memory allocator returned by * `ngtcp2_mem_default()` is used. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_client_new_versioned( ngtcp2_conn **pconn, const ngtcp2_cid *dcid, const ngtcp2_cid *scid, const ngtcp2_path *path, uint32_t client_chosen_version, int callbacks_version, const ngtcp2_callbacks *callbacks, int settings_version, const ngtcp2_settings *settings, int transport_params_version, const ngtcp2_transport_params *params, const ngtcp2_mem *mem, void *user_data); /** * @function * * `ngtcp2_conn_server_new` creates new :type:`ngtcp2_conn`, and * initializes it as server. |dcid| is a destination connection ID. * |scid| is a source connection ID. |path| is the network path where * this QUIC connection is being established and must not be ``NULL``. * |client_chosen_version| is a QUIC version that a client chooses. * |callbacks|, |settings|, and |params| must not be ``NULL``, and the * function make a copy of each of them. |params| is local QUIC * transport parameters and sent to a remote endpoint during * handshake. |user_data| is the arbitrary pointer which is passed to * the user-defined callback functions. If |mem| is ``NULL``, the * memory allocator returned by `ngtcp2_mem_default()` is used. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_server_new_versioned( ngtcp2_conn **pconn, const ngtcp2_cid *dcid, const ngtcp2_cid *scid, const ngtcp2_path *path, uint32_t client_chosen_version, int callbacks_version, const ngtcp2_callbacks *callbacks, int settings_version, const ngtcp2_settings *settings, int transport_params_version, const ngtcp2_transport_params *params, const ngtcp2_mem *mem, void *user_data); /** * @function * * `ngtcp2_conn_del` frees resources allocated for |conn|. It also * frees memory pointed by |conn|. */ NGTCP2_EXTERN void ngtcp2_conn_del(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_read_pkt` decrypts QUIC packet given in |pkt| of * length |pktlen| and processes it. |path| is the network path the * packet is delivered and must not be ``NULL``. |pi| is packet * metadata and may be ``NULL``. This function performs QUIC handshake * as well. * * This function must not be called from inside the callback * functions. * * This function returns 0 if it succeeds, or negative error codes. * If :macro:`NGTCP2_ERR_RETRY` is returned, application must be a * server and it must perform address validation by sending Retry * packet and discard the connection state. If * :macro:`NGTCP2_ERR_DROP_CONN` is returned, server application must * drop the connection silently (without sending any CONNECTION_CLOSE * frame) and discard connection state. If * :macro:`NGTCP2_ERR_DRAINING` is returned, a connection has entered * the draining state, and no further packet transmission is allowed. * If :macro:`NGTCP2_ERR_CRYPTO` is returned, the error happened in * TLS stack and `ngtcp2_conn_get_tls_alert` returns TLS alert if set. * * If any other negative errors are returned, call * `ngtcp2_conn_write_connection_close` to get terminal packet, and * sending it makes QUIC connection enter the closing state. */ NGTCP2_EXTERN int ngtcp2_conn_read_pkt_versioned(ngtcp2_conn *conn, const ngtcp2_path *path, int pkt_info_version, const ngtcp2_pkt_info *pi, const uint8_t *pkt, size_t pktlen, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_write_pkt` is equivalent to calling * `ngtcp2_conn_writev_stream` with -1 as stream_id, no stream data, and * :macro:`NGTCP2_WRITE_STREAM_FLAG_NONE` as flags. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_conn_write_pkt_versioned( ngtcp2_conn *conn, ngtcp2_path *path, int pkt_info_version, ngtcp2_pkt_info *pi, uint8_t *dest, size_t destlen, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_handshake_completed` tells |conn| that the TLS stack * declares TLS handshake completion. This does not mean QUIC * handshake has completed. The library needs extra conditions to be * met. */ NGTCP2_EXTERN void ngtcp2_conn_handshake_completed(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_handshake_completed` returns nonzero if QUIC handshake * has completed. */ NGTCP2_EXTERN int ngtcp2_conn_get_handshake_completed(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_install_initial_key` installs packet protection keying * materials for Initial packets. |rx_aead_ctx| is AEAD cipher * context object and must be initialized with a decryption key. * |rx_iv| is IV of length |rx_ivlen| for decryption. |rx_hp_ctx| is * a packet header protection cipher context object for decryption. * Similarly, |tx_aead_ctx|, |tx_iv| and |tx_hp_ctx| are for * encrypting outgoing packets and are the same length with the * decryption counterpart . If they have already been set, they are * overwritten. * * |ivlen| must be the minimum length of AEAD nonce, or 8 bytes if * that is larger. * * If this function succeeds, |conn| takes ownership of |rx_aead_ctx|, * |rx_hp_ctx|, |tx_aead_ctx|, and |tx_hp_ctx|. * :type:`ngtcp2_delete_crypto_aead_ctx` and * :type:`ngtcp2_delete_crypto_cipher_ctx` will be called to delete * these objects when they are no longer used. If this function * fails, the caller is responsible to delete them. * * After receiving Retry packet, the DCID most likely changes. In * that case, client application must generate these keying materials * again based on new DCID and install them again. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_install_initial_key( ngtcp2_conn *conn, const ngtcp2_crypto_aead_ctx *rx_aead_ctx, const uint8_t *rx_iv, const ngtcp2_crypto_cipher_ctx *rx_hp_ctx, const ngtcp2_crypto_aead_ctx *tx_aead_ctx, const uint8_t *tx_iv, const ngtcp2_crypto_cipher_ctx *tx_hp_ctx, size_t ivlen); /** * @function * * `ngtcp2_conn_install_vneg_initial_key` installs packet protection * keying materials for Initial packets on compatible version * negotiation for |version|. |rx_aead_ctx| is AEAD cipher context * object and must be initialized with a decryption key. |rx_iv| is * IV of length |rx_ivlen| for decryption. |rx_hp_ctx| is a packet * header protection cipher context object for decryption. Similarly, * |tx_aead_ctx|, |tx_iv| and |tx_hp_ctx| are for encrypting outgoing * packets and are the same length with the decryption counterpart . * If they have already been set, they are overwritten. * * |ivlen| must be the minimum length of AEAD nonce, or 8 bytes if * that is larger. * * If this function succeeds, |conn| takes ownership of |rx_aead_ctx|, * |rx_hp_ctx|, |tx_aead_ctx|, and |tx_hp_ctx|. * :type:`ngtcp2_delete_crypto_aead_ctx` and * :type:`ngtcp2_delete_crypto_cipher_ctx` will be called to delete * these objects when they are no longer used. If this function * fails, the caller is responsible to delete them. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_install_vneg_initial_key( ngtcp2_conn *conn, uint32_t version, const ngtcp2_crypto_aead_ctx *rx_aead_ctx, const uint8_t *rx_iv, const ngtcp2_crypto_cipher_ctx *rx_hp_ctx, const ngtcp2_crypto_aead_ctx *tx_aead_ctx, const uint8_t *tx_iv, const ngtcp2_crypto_cipher_ctx *tx_hp_ctx, size_t ivlen); /** * @function * * `ngtcp2_conn_install_rx_handshake_key` installs packet protection * keying materials for decrypting incoming Handshake packets. * |aead_ctx| is AEAD cipher context object which must be initialized * with a decryption key. |iv| is IV of length |ivlen|. |hp_ctx| is * a packet header protection cipher context object. * * |ivlen| must be the minimum length of AEAD nonce, or 8 bytes if * that is larger. * * If this function succeeds, |conn| takes ownership of |aead_ctx|, * and |hp_ctx|. :type:`ngtcp2_delete_crypto_aead_ctx` and * :type:`ngtcp2_delete_crypto_cipher_ctx` will be called to delete * these objects when they are no longer used. If this function * fails, the caller is responsible to delete them. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_install_rx_handshake_key( ngtcp2_conn *conn, const ngtcp2_crypto_aead_ctx *aead_ctx, const uint8_t *iv, size_t ivlen, const ngtcp2_crypto_cipher_ctx *hp_ctx); /** * @function * * `ngtcp2_conn_install_tx_handshake_key` installs packet protection * keying materials for encrypting outgoing Handshake packets. * |aead_ctx| is AEAD cipher context object which must be initialized * with an encryption key. |iv| is IV of length |ivlen|. |hp_ctx| is * a packet header protection cipher context object. * * |ivlen| must be the minimum length of AEAD nonce, or 8 bytes if * that is larger. * * If this function succeeds, |conn| takes ownership of |aead_ctx| and * |hp_ctx|. :type:`ngtcp2_delete_crypto_aead_ctx` and * :type:`ngtcp2_delete_crypto_cipher_ctx` will be called to delete * these objects when they are no longer used. If this function * fails, the caller is responsible to delete them. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_install_tx_handshake_key( ngtcp2_conn *conn, const ngtcp2_crypto_aead_ctx *aead_ctx, const uint8_t *iv, size_t ivlen, const ngtcp2_crypto_cipher_ctx *hp_ctx); /** * @function * * `ngtcp2_conn_install_early_key` installs packet protection AEAD * cipher context object |aead_ctx|, IV |iv| of length |ivlen|, and * packet header protection cipher context object |hp_ctx| to encrypt * (for client) or decrypt (for server) 0RTT packets. * * |ivlen| must be the minimum length of AEAD nonce, or 8 bytes if * that is larger. * * If this function succeeds, |conn| takes ownership of |aead_ctx| and * |hp_ctx|. :type:`ngtcp2_delete_crypto_aead_ctx` and * :type:`ngtcp2_delete_crypto_cipher_ctx` will be called to delete * these objects when they are no longer used. If this function * fails, the caller is responsible to delete them. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_install_early_key( ngtcp2_conn *conn, const ngtcp2_crypto_aead_ctx *aead_ctx, const uint8_t *iv, size_t ivlen, const ngtcp2_crypto_cipher_ctx *hp_ctx); /** * @function * * `ngtcp2_conn_install_rx_key` installs packet protection keying * materials for decrypting Short header packets. |secret| of length * |secretlen| is the decryption secret which is used to derive keying * materials passed to this function. |aead_ctx| is AEAD cipher * context object which must be initialized with a decryption key. * |iv| is IV of length |ivlen|. |hp_ctx| is a packet header * protection cipher context object. * * |ivlen| must be the minimum length of AEAD nonce, or 8 bytes if * that is larger. * * If this function succeeds, |conn| takes ownership of |aead_ctx| and * |hp_ctx|. :type:`ngtcp2_delete_crypto_aead_ctx` and * :type:`ngtcp2_delete_crypto_cipher_ctx` will be called to delete * these objects when they are no longer used. If this function * fails, the caller is responsible to delete them. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_install_rx_key( ngtcp2_conn *conn, const uint8_t *secret, size_t secretlen, const ngtcp2_crypto_aead_ctx *aead_ctx, const uint8_t *iv, size_t ivlen, const ngtcp2_crypto_cipher_ctx *hp_ctx); /** * @function * * `ngtcp2_conn_install_tx_key` installs packet protection keying * materials for encrypting Short header packets. |secret| of length * |secretlen| is the encryption secret which is used to derive keying * materials passed to this function. |aead_ctx| is AEAD cipher * context object which must be initialized with an encryption key. * |iv| is IV of length |ivlen|. |hp_ctx| is a packet header * protection cipher context object. * * |ivlen| must be the minimum length of AEAD nonce, or 8 bytes if * that is larger. * * If this function succeeds, |conn| takes ownership of |aead_ctx| and * |hp_ctx|. :type:`ngtcp2_delete_crypto_aead_ctx` and * :type:`ngtcp2_delete_crypto_cipher_ctx` will be called to delete * these objects when they are no longer used. If this function * fails, the caller is responsible to delete them. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_install_tx_key( ngtcp2_conn *conn, const uint8_t *secret, size_t secretlen, const ngtcp2_crypto_aead_ctx *aead_ctx, const uint8_t *iv, size_t ivlen, const ngtcp2_crypto_cipher_ctx *hp_ctx); /** * @function * * `ngtcp2_conn_initiate_key_update` initiates the key update. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_INVALID_STATE` * The previous key update has not been confirmed yet; or key * update is too frequent; or new keys are not available yet. */ NGTCP2_EXTERN int ngtcp2_conn_initiate_key_update(ngtcp2_conn *conn, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_set_tls_error` sets the TLS related error |liberr| in * |conn|. |liberr| must be one of ngtcp2 library error codes (which * is defined as NGTCP2_ERR_* macro, such as * :macro:`NGTCP2_ERR_DECRYPT`). In general, error code should be * propagated via return value, but sometimes ngtcp2 API is called * inside callback function of TLS stack and it does not allow to * return ngtcp2 error code directly. In this case, implementation * can set the error code (e.g., * :macro:`NGTCP2_ERR_MALFORMED_TRANSPORT_PARAM`) using this function. */ NGTCP2_EXTERN void ngtcp2_conn_set_tls_error(ngtcp2_conn *conn, int liberr); /** * @function * * `ngtcp2_conn_get_tls_error` returns the value set by * `ngtcp2_conn_set_tls_error`. If no value is set, this function * returns 0. */ NGTCP2_EXTERN int ngtcp2_conn_get_tls_error(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_set_tls_alert` sets a TLS alert |alert| generated by a * local endpoint to |conn|. */ NGTCP2_EXTERN void ngtcp2_conn_set_tls_alert(ngtcp2_conn *conn, uint8_t alert); /** * @function * * `ngtcp2_conn_get_tls_alert` returns the value set by * `ngtcp2_conn_set_tls_alert`. If no value is set, this function * returns 0. */ NGTCP2_EXTERN uint8_t ngtcp2_conn_get_tls_alert(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_set_keep_alive_timeout` sets keep-alive timeout. If * nonzero value is given, after a connection is idle at least in a * given amount of time, a keep-alive packet is sent. If 0 is set, * keep-alive functionality is disabled and this is the default. */ NGTCP2_EXTERN void ngtcp2_conn_set_keep_alive_timeout(ngtcp2_conn *conn, ngtcp2_duration timeout); /** * @function * * `ngtcp2_conn_get_expiry` returns the next expiry time. It returns * ``UINT64_MAX`` if there is no next expiry. * * Call `ngtcp2_conn_handle_expiry()` and `ngtcp2_conn_write_pkt` (or * `ngtcp2_conn_writev_stream`) if expiry time is passed. */ NGTCP2_EXTERN ngtcp2_tstamp ngtcp2_conn_get_expiry(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_handle_expiry` handles expired timer. It does nothing * if timer is not expired. */ NGTCP2_EXTERN int ngtcp2_conn_handle_expiry(ngtcp2_conn *conn, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_get_pto` returns Probe Timeout (PTO). */ NGTCP2_EXTERN ngtcp2_duration ngtcp2_conn_get_pto(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_decode_remote_transport_params` decodes QUIC transport * parameters from the buffer pointed by |data| of length |datalen|, * and sets the result to |conn|. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_REQUIRED_TRANSPORT_PARAM` * The required parameter is missing. * :macro:`NGTCP2_ERR_MALFORMED_TRANSPORT_PARAM` * The input is malformed. * :macro:`NGTCP2_ERR_TRANSPORT_PARAM` * Failed to validate the remote QUIC transport parameters. * :macro:`NGTCP2_ERR_VERSION_NEGOTIATION_FAILURE` * Version negotiation failure. * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` * User callback failed */ NGTCP2_EXTERN int ngtcp2_conn_decode_remote_transport_params(ngtcp2_conn *conn, const uint8_t *data, size_t datalen); /** * @function * * `ngtcp2_conn_get_remote_transport_params` returns a pointer to the * remote QUIC transport parameters. If no remote transport * parameters are set, it returns NULL. */ NGTCP2_EXTERN const ngtcp2_transport_params * ngtcp2_conn_get_remote_transport_params(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_set_early_remote_transport_params` sets |params| as * transport parameters previously received from a server. The * parameters are used to send early data. QUIC requires that client * application should remember transport parameters along with a * session ticket. * * At least following fields should be set: * * - initial_max_stream_id_bidi * - initial_max_stream_id_uni * - initial_max_stream_data_bidi_local * - initial_max_stream_data_bidi_remote * - initial_max_stream_data_uni * - initial_max_data * - active_connection_id_limit * - max_datagram_frame_size (if DATAGRAM extension was negotiated) * * The following fields are ignored: * * - ack_delay_exponent * - max_ack_delay * - initial_scid * - original_dcid * - preferred_address and preferred_address_present * - retry_scid and retry_scid_present * - stateless_reset_token and stateless_reset_token_present */ NGTCP2_EXTERN void ngtcp2_conn_set_early_remote_transport_params_versioned( ngtcp2_conn *conn, int transport_params_version, const ngtcp2_transport_params *params); /** * @function * * `ngtcp2_conn_set_local_transport_params` sets the local transport * parameters |params|. This function can only be called by server. * Although the local transport parameters are passed to * `ngtcp2_conn_server_new`, server might want to update them after * ALPN is chosen. In that case, server can update the transport * parameter with this function. Server must call this function * before calling `ngtcp2_conn_install_tx_handshake_key`. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_INVALID_STATE` * `ngtcp2_conn_install_tx_handshake_key` has been called. */ NGTCP2_EXTERN int ngtcp2_conn_set_local_transport_params_versioned( ngtcp2_conn *conn, int transport_params_version, const ngtcp2_transport_params *params); /** * @function * * `ngtcp2_conn_get_local_transport_params` returns a pointer to the * local QUIC transport parameters. */ NGTCP2_EXTERN const ngtcp2_transport_params * ngtcp2_conn_get_local_transport_params(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_encode_local_transport_params` encodes the local QUIC * transport parameters in |dest| of length |destlen|. This is * equivalent to calling `ngtcp2_conn_get_local_transport_params` and * then `ngtcp2_encode_transport_params`. * * This function returns the number of written, or one of the * following negative error codes: * * :macro:`NGTCP2_ERR_NOBUF` * Buffer is too small. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_conn_encode_local_transport_params( ngtcp2_conn *conn, uint8_t *dest, size_t destlen); /** * @function * * `ngtcp2_conn_open_bidi_stream` opens new bidirectional stream. The * |stream_user_data| is the user data specific to the stream. The * open stream ID is stored in |*pstream_id|. * * Application can call this function before handshake completes. For * 0RTT packet, application can call this function after calling * `ngtcp2_conn_set_early_remote_transport_params`. For 1RTT packet, * application can call this function after calling * `ngtcp2_conn_decode_remote_transport_params` and * `ngtcp2_conn_install_tx_key`. If ngtcp2 crypto support library is * used, application can call this function after calling * `ngtcp2_crypto_derive_and_install_tx_key` for 1RTT packet. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory * :macro:`NGTCP2_ERR_STREAM_ID_BLOCKED` * The remote peer does not allow |stream_id| yet. */ NGTCP2_EXTERN int ngtcp2_conn_open_bidi_stream(ngtcp2_conn *conn, int64_t *pstream_id, void *stream_user_data); /** * @function * * `ngtcp2_conn_open_uni_stream` opens new unidirectional stream. The * |stream_user_data| is the user data specific to the stream. The * open stream ID is stored in |*pstream_id|. * * Application can call this function before handshake completes. For * 0RTT packet, application can call this function after calling * `ngtcp2_conn_set_early_remote_transport_params`. For 1RTT packet, * application can call this function after calling * `ngtcp2_conn_decode_remote_transport_params` and * `ngtcp2_conn_install_tx_key`. If ngtcp2 crypto support library is * used, application can call this function after calling * `ngtcp2_crypto_derive_and_install_tx_key` for 1RTT packet. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory * :macro:`NGTCP2_ERR_STREAM_ID_BLOCKED` * The remote peer does not allow |stream_id| yet. */ NGTCP2_EXTERN int ngtcp2_conn_open_uni_stream(ngtcp2_conn *conn, int64_t *pstream_id, void *stream_user_data); /** * @function * * `ngtcp2_conn_shutdown_stream` closes stream denoted by |stream_id| * abruptly. |app_error_code| is one of application error codes, and * indicates the reason of shutdown. Successful call of this function * does not immediately erase the state of the stream. The actual * deletion is done when the remote endpoint sends acknowledgement. * Calling this function is equivalent to call * `ngtcp2_conn_shutdown_stream_read`, and * `ngtcp2_conn_shutdown_stream_write` sequentially with the following * differences. If |stream_id| refers to a local unidirectional * stream, this function only shutdowns write side of the stream. If * |stream_id| refers to a remote unidirectional stream, this function * only shutdowns read side of the stream. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory */ NGTCP2_EXTERN int ngtcp2_conn_shutdown_stream(ngtcp2_conn *conn, int64_t stream_id, uint64_t app_error_code); /** * @function * * `ngtcp2_conn_shutdown_stream_write` closes write-side of stream * denoted by |stream_id| abruptly. |app_error_code| is one of * application error codes, and indicates the reason of shutdown. If * this function succeeds, no application data is sent to the remote * endpoint. It discards all data which has not been acknowledged * yet. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * |stream_id| refers to a remote unidirectional stream. */ NGTCP2_EXTERN int ngtcp2_conn_shutdown_stream_write(ngtcp2_conn *conn, int64_t stream_id, uint64_t app_error_code); /** * @function * * `ngtcp2_conn_shutdown_stream_read` closes read-side of stream * denoted by |stream_id| abruptly. |app_error_code| is one of * application error codes, and indicates the reason of shutdown. If * this function succeeds, no application data is forwarded to an * application layer. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * |stream_id| refers to a local unidirectional stream. */ NGTCP2_EXTERN int ngtcp2_conn_shutdown_stream_read(ngtcp2_conn *conn, int64_t stream_id, uint64_t app_error_code); /** * @macrosection * * Write stream data flags */ /** * @macro * * :macro:`NGTCP2_WRITE_STREAM_FLAG_NONE` indicates no flag set. */ #define NGTCP2_WRITE_STREAM_FLAG_NONE 0x00u /** * @macro * * :macro:`NGTCP2_WRITE_STREAM_FLAG_MORE` indicates that more data may * come and should be coalesced into the same packet if possible. */ #define NGTCP2_WRITE_STREAM_FLAG_MORE 0x01u /** * @macro * * :macro:`NGTCP2_WRITE_STREAM_FLAG_FIN` indicates that the passed * data is the final part of a stream. */ #define NGTCP2_WRITE_STREAM_FLAG_FIN 0x02u /** * @function * * `ngtcp2_conn_write_stream` is just like * `ngtcp2_conn_writev_stream`. The only difference is that it * conveniently accepts a single buffer. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_conn_write_stream_versioned( ngtcp2_conn *conn, ngtcp2_path *path, int pkt_info_version, ngtcp2_pkt_info *pi, uint8_t *dest, size_t destlen, ngtcp2_ssize *pdatalen, uint32_t flags, int64_t stream_id, const uint8_t *data, size_t datalen, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_writev_stream` writes a packet containing stream data * of stream denoted by |stream_id|. The buffer of the packet is * pointed by |dest| of length |destlen|. This function performs QUIC * handshake as well. * * |destlen| should be at least * :member:`ngtcp2_settings.max_tx_udp_payload_size`. * * Specifying -1 to |stream_id| means no new stream data to send. * * If |path| is not ``NULL``, this function stores the network path * with which the packet should be sent. Each addr field must point * to the buffer which should be at least ``sizeof(struct * sockaddr_storage)`` bytes long. The assignment might not be done * if nothing is written to |dest|. * * If |pi| is not ``NULL``, this function stores packet metadata in it * if it succeeds. The metadata includes ECN markings. When calling * this function again after it returns * :macro:`NGTCP2_ERR_WRITE_MORE`, caller must pass the same |pi| to * this function. * * If the all given data is encoded as STREAM frame in |dest|, and if * |flags| & :macro:`NGTCP2_WRITE_STREAM_FLAG_FIN` is nonzero, fin * flag is set to outgoing STREAM frame. Otherwise, fin flag in * STREAM frame is not set. * * This packet may contain frames other than STREAM frame. The packet * might not contain STREAM frame if other frames occupy the packet. * In that case, |*pdatalen| would be -1 if |pdatalen| is not * ``NULL``. * * If |flags| & :macro:`NGTCP2_WRITE_STREAM_FLAG_FIN` is nonzero, and * 0 length STREAM frame is successfully serialized, |*pdatalen| would * be 0. * * The number of data encoded in STREAM frame is stored in |*pdatalen| * if it is not ``NULL``. The caller must keep the portion of data * covered by |*pdatalen| bytes in tact until * :type:`ngtcp2_acked_stream_data_offset` indicates that they are * acknowledged by a remote endpoint or the stream is closed. * * If |flags| equals to :macro:`NGTCP2_WRITE_STREAM_FLAG_NONE`, this * function produces a single payload of UDP packet. If the given * stream data is small (e.g., few bytes), the packet might be * severely under filled. Too many small packet might increase * overall packet processing costs. Unless there are retransmissions, * by default, application can only send 1 STREAM frame in one QUIC * packet. In order to include more than 1 STREAM frame in one QUIC * packet, specify :macro:`NGTCP2_WRITE_STREAM_FLAG_MORE` in |flags|. * This is analogous to ``MSG_MORE`` flag in :manpage:`send(2)`. If * the :macro:`NGTCP2_WRITE_STREAM_FLAG_MORE` is used, there are 4 * outcomes: * * - The function returns the written length of packet just like * without :macro:`NGTCP2_WRITE_STREAM_FLAG_MORE`. This is because * packet is nearly full and the library decided to make a complete * packet. |*pdatalen| might be -1 or >= 0. It may return 0 which * indicates that no packet transmission is possible at the moment * for some reason. * * - The function returns :macro:`NGTCP2_ERR_WRITE_MORE`. In this * case, |*pdatalen| >= 0 is asserted. It indicates that * application can still call this function with different stream * data (or `ngtcp2_conn_writev_datagram` if it has data to send in * unreliable datagram) to pack them into the same packet. * Application has to specify the same |conn|, |path|, |pi|, |dest|, * |destlen|, and |ts| parameters, otherwise the behaviour is * undefined. The application can change |flags|. * * - The function returns one of the following negative error codes: * :macro:`NGTCP2_ERR_STREAM_DATA_BLOCKED`, * :macro:`NGTCP2_ERR_STREAM_NOT_FOUND`, * :macro:`NGTCP2_ERR_STREAM_SHUT_WR`. In this case, |*pdatalen| == * -1 is asserted. Application can still write the stream data of * the other streams by calling this function (or * `ngtcp2_conn_writev_datagram` if it has data to send in * unreliable datagram) to pack them into the same packet. * Application has to specify the same |conn|, |path|, |pi|, |dest|, * |destlen|, and |ts| parameters, otherwise the behaviour is * undefined. The application can change |flags|. * * - The other negative error codes might be returned just like * without :macro:`NGTCP2_WRITE_STREAM_FLAG_MORE`. These errors * should be treated as a connection error. * * When application uses :macro:`NGTCP2_WRITE_STREAM_FLAG_MORE` at * least once, it must not call other ngtcp2 API functions * (application can still call `ngtcp2_conn_write_connection_close` to * handle error from this function), just keep calling this function * (or `ngtcp2_conn_write_pkt`, or `ngtcp2_conn_writev_datagram`) * until it returns 0, a positive number (which indicates a complete * packet is ready), or the error codes other than * :macro:`NGTCP2_ERR_WRITE_MORE`, * :macro:`NGTCP2_ERR_STREAM_DATA_BLOCKED`, * :macro:`NGTCP2_ERR_STREAM_NOT_FOUND`, and * :macro:`NGTCP2_ERR_STREAM_SHUT_WR`. If there is no stream data to * include, call this function with |stream_id| as -1 to stop * coalescing and write a packet. * * This function returns 0 if it cannot write any frame because buffer * is too small, or packet is congestion limited. Application should * keep reading and wait for congestion window to grow. * * This function must not be called from inside the callback * functions. * * `ngtcp2_conn_update_pkt_tx_time` must be called after this * function. Application may call this function multiple times before * calling `ngtcp2_conn_update_pkt_tx_time`. * * This function returns the number of bytes written in |dest| if it * succeeds, or one of the following negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory * :macro:`NGTCP2_ERR_STREAM_NOT_FOUND` * Stream does not exist * :macro:`NGTCP2_ERR_STREAM_SHUT_WR` * Stream is half closed (local); or stream is being reset. * :macro:`NGTCP2_ERR_PKT_NUM_EXHAUSTED` * Packet number is exhausted, and cannot send any more packet. * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` * User callback failed * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * The total length of stream data is too large. * :macro:`NGTCP2_ERR_STREAM_DATA_BLOCKED` * Stream is blocked because of flow control. * :macro:`NGTCP2_ERR_WRITE_MORE` * (Only when :macro:`NGTCP2_WRITE_STREAM_FLAG_MORE` is specified) * Application can call this function to pack more stream data * into the same packet. See above to know how it works. * * In general, if the error code which satisfies * `ngtcp2_err_is_fatal(err) ` != 0 is returned, * the application should just close the connection by calling * `ngtcp2_conn_write_connection_close` or just delete the QUIC * connection using `ngtcp2_conn_del`. It is undefined to call the * other library functions. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_conn_writev_stream_versioned( ngtcp2_conn *conn, ngtcp2_path *path, int pkt_info_version, ngtcp2_pkt_info *pi, uint8_t *dest, size_t destlen, ngtcp2_ssize *pdatalen, uint32_t flags, int64_t stream_id, const ngtcp2_vec *datav, size_t datavcnt, ngtcp2_tstamp ts); /** * @macrosection * * Write datagram flags */ /** * @macro * * :macro:`NGTCP2_WRITE_DATAGRAM_FLAG_NONE` indicates no flag set. */ #define NGTCP2_WRITE_DATAGRAM_FLAG_NONE 0x00u /** * @macro * * :macro:`NGTCP2_WRITE_DATAGRAM_FLAG_MORE` indicates that more data * may come and should be coalesced into the same packet if possible. */ #define NGTCP2_WRITE_DATAGRAM_FLAG_MORE 0x01u /** * @function * * `ngtcp2_conn_writev_datagram` writes a packet containing unreliable * data in DATAGRAM frame. The buffer of the packet is pointed by * |dest| of length |destlen|. This function performs QUIC handshake * as well. * * |destlen| should be at least * :member:`ngtcp2_settings.max_tx_udp_payload_size`. * * For |path| and |pi| parameters, refer to * `ngtcp2_conn_writev_stream`. * * If the given data is written to the buffer, nonzero value is * assigned to |*paccepted| if it is not NULL. The data in DATAGRAM * frame cannot be fragmented; writing partial data is not possible. * * |dgram_id| is an opaque identifier which should uniquely identify * the given DATAGRAM. It is passed to :type:`ngtcp2_ack_datagram` * callback when a packet that contains DATAGRAM frame is * acknowledged. It is passed to :type:`ngtcp2_lost_datagram` * callback when a packet that contains DATAGRAM frame is declared * lost. If an application uses neither of those callbacks, it can * sets 0 to this parameter. * * This function might write other frames other than DATAGRAM, just * like `ngtcp2_conn_writev_stream`. * * If the function returns 0, it means that no more data cannot be * sent because of congestion control limit; or, data does not fit * into the provided buffer; or, a local endpoint, as a server, is * unable to send data because of its amplification limit. In this * case, |*paccepted| is assigned zero if it is not NULL. * * If :macro:`NGTCP2_WRITE_DATAGRAM_FLAG_MORE` is set in |flags|, * there are 3 outcomes: * * - The function returns the written length of packet just like * without :macro:`NGTCP2_WRITE_DATAGRAM_FLAG_MORE`. This is * because packet is nearly full and the library decided to make a * complete packet. |*paccepted| might be zero or nonzero. * * - The function returns :macro:`NGTCP2_ERR_WRITE_MORE`. In this * case, |*paccepted| != 0 is asserted. This indicates that * application can call this function with another unreliable data * (or `ngtcp2_conn_writev_stream` if it has stream data to send) to * pack them into the same packet. Application has to specify the * same |conn|, |path|, |pi|, |dest|, |destlen|, and |ts| * parameters, otherwise the behaviour is undefined. The * application can change |flags|. * * - The other error might be returned just like without * :macro:`NGTCP2_WRITE_DATAGRAM_FLAG_MORE`. * * When application sees :macro:`NGTCP2_ERR_WRITE_MORE`, it must not * call other ngtcp2 API functions (application can still call * `ngtcp2_conn_write_connection_close` to handle error from this * function). Just keep calling `ngtcp2_conn_writev_datagram`, * `ngtcp2_conn_writev_stream` or `ngtcp2_conn_write_pkt` until it * returns a positive number (which indicates a complete packet is * ready). * * This function returns the number of bytes written in |dest| if it * succeeds, or one of the following negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory * :macro:`NGTCP2_ERR_PKT_NUM_EXHAUSTED` * Packet number is exhausted, and cannot send any more packet. * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` * User callback failed * :macro:`NGTCP2_ERR_WRITE_MORE` * (Only when :macro:`NGTCP2_WRITE_DATAGRAM_FLAG_MORE` is * specified) Application can call this function to pack more data * into the same packet. See above to know how it works. * :macro:`NGTCP2_ERR_INVALID_STATE` * A remote endpoint did not express the DATAGRAM frame support. * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * The provisional DATAGRAM frame size exceeds the maximum * DATAGRAM frame size that a remote endpoint can receive. * * In general, if the error code which satisfies * `ngtcp2_err_is_fatal(err) ` != 0 is returned, * the application should just close the connection by calling * `ngtcp2_conn_write_connection_close` or just delete the QUIC * connection using `ngtcp2_conn_del`. It is undefined to call the * other library functions. */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_conn_writev_datagram_versioned( ngtcp2_conn *conn, ngtcp2_path *path, int pkt_info_version, ngtcp2_pkt_info *pi, uint8_t *dest, size_t destlen, int *paccepted, uint32_t flags, uint64_t dgram_id, const ngtcp2_vec *datav, size_t datavcnt, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_is_in_closing_period` returns nonzero if |conn| is in * the closing period. */ NGTCP2_EXTERN int ngtcp2_conn_is_in_closing_period(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_is_in_draining_period` returns nonzero if |conn| is in * the draining period. */ NGTCP2_EXTERN int ngtcp2_conn_is_in_draining_period(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_extend_max_stream_offset` extends stream's max stream * data value by |datalen|. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_extend_max_stream_offset(ngtcp2_conn *conn, int64_t stream_id, uint64_t datalen); /** * @function * * `ngtcp2_conn_extend_max_offset` extends max data offset by * |datalen|. */ NGTCP2_EXTERN void ngtcp2_conn_extend_max_offset(ngtcp2_conn *conn, uint64_t datalen); /** * @function * * `ngtcp2_conn_extend_max_streams_bidi` extends the number of maximum * local bidirectional streams that a remote endpoint can open by |n|. * * The library does not increase maximum stream limit automatically. * The exception is when a stream is closed without * :type:`ngtcp2_stream_open` callback being called. In this case, * stream limit is increased automatically. */ NGTCP2_EXTERN void ngtcp2_conn_extend_max_streams_bidi(ngtcp2_conn *conn, size_t n); /** * @function * * `ngtcp2_conn_extend_max_streams_uni` extends the number of maximum * local unidirectional streams that a remote endpoint can open by * |n|. * * The library does not increase maximum stream limit automatically. * The exception is when a stream is closed without * :type:`ngtcp2_stream_open` callback being called. In this case, * stream limit is increased automatically. */ NGTCP2_EXTERN void ngtcp2_conn_extend_max_streams_uni(ngtcp2_conn *conn, size_t n); /** * @function * * `ngtcp2_conn_get_dcid` returns the non-NULL pointer to destination * connection ID. If no destination connection ID is present, the * return value is not ``NULL``, and its datalen field is 0. */ NGTCP2_EXTERN const ngtcp2_cid *ngtcp2_conn_get_dcid(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_client_initial_dcid` returns the non-NULL pointer * to the Destination Connection ID that client sent in its Initial * packet. */ NGTCP2_EXTERN const ngtcp2_cid * ngtcp2_conn_get_client_initial_dcid(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_num_scid` returns the number of source connection * IDs which the local endpoint has provided to the peer and have not * retired. */ NGTCP2_EXTERN size_t ngtcp2_conn_get_num_scid(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_scid` writes the all source connection IDs which * the local endpoint has provided to the peer and have not retired in * |dest|. The buffer pointed by |dest| must have * ``sizeof(ngtcp2_cid) * n`` bytes available, where n is the return * value of `ngtcp2_conn_get_num_scid()`. */ NGTCP2_EXTERN size_t ngtcp2_conn_get_scid(ngtcp2_conn *conn, ngtcp2_cid *dest); /** * @function * * `ngtcp2_conn_get_num_active_dcid` returns the number of the active * destination connection ID. */ NGTCP2_EXTERN size_t ngtcp2_conn_get_num_active_dcid(ngtcp2_conn *conn); /** * @struct * * :type:`ngtcp2_cid_token` is the convenient struct to store * Connection ID, its associated path, and stateless reset token. */ typedef struct ngtcp2_cid_token { /** * :member:`seq` is the sequence number of this Connection ID. */ uint64_t seq; /** * :member:`cid` is Connection ID. */ ngtcp2_cid cid; /** * :member:`ps` is the path which is associated to this Connection * ID. */ ngtcp2_path_storage ps; /** * :member:`token` is the stateless reset token for this Connection * ID. */ uint8_t token[NGTCP2_STATELESS_RESET_TOKENLEN]; /** * :member:`token_present` is nonzero if token contains stateless * reset token. */ uint8_t token_present; } ngtcp2_cid_token; /** * @function * * `ngtcp2_conn_get_active_dcid` writes the all active destination * connection IDs and tokens to |dest|. The buffer pointed by |dest| * must have ``sizeof(ngtcp2_cid_token) * n`` bytes available, where n * is the return value of `ngtcp2_conn_get_num_active_dcid()`. */ NGTCP2_EXTERN size_t ngtcp2_conn_get_active_dcid(ngtcp2_conn *conn, ngtcp2_cid_token *dest); /** * @function * * `ngtcp2_conn_get_client_chosen_version` returns the client chosen * version. */ NGTCP2_EXTERN uint32_t ngtcp2_conn_get_client_chosen_version(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_negotiated_version` returns the negotiated version. * * Until the version is negotiated, this function returns 0. */ NGTCP2_EXTERN uint32_t ngtcp2_conn_get_negotiated_version(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_early_data_rejected` tells |conn| that early data was * rejected by a server, or client decided not to attempt early data * for some reason. |conn| discards the following connection states: * * - Any opended streams. * - Stream identifier allocations. * - Max data extended by `ngtcp2_conn_extend_max_offset`. * - Max bidi streams extended by `ngtcp2_conn_extend_max_streams_bidi`. * - Max uni streams extended by `ngtcp2_conn_extend_max_streams_uni`. * * Application which wishes to retransmit early data, it has to open * streams and send stream data again. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` * User callback failed */ NGTCP2_EXTERN int ngtcp2_conn_early_data_rejected(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_early_data_rejected` returns nonzero if * `ngtcp2_conn_early_data_rejected` has been called. */ NGTCP2_EXTERN int ngtcp2_conn_get_early_data_rejected(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_conn_stat` assigns connection statistics data to * |*cstat|. */ NGTCP2_EXTERN void ngtcp2_conn_get_conn_stat_versioned(ngtcp2_conn *conn, int conn_stat_version, ngtcp2_conn_stat *cstat); /** * @function * * `ngtcp2_conn_submit_crypto_data` submits crypto stream data |data| * of length |datalen| to the library for transmission. The * encryption level is given in |crypto_level|. * * The library makes a copy of the buffer pointed by |data| of length * |datalen|. Application can discard |data|. */ NGTCP2_EXTERN int ngtcp2_conn_submit_crypto_data(ngtcp2_conn *conn, ngtcp2_crypto_level crypto_level, const uint8_t *data, const size_t datalen); /** * @function * * `ngtcp2_conn_submit_new_token` submits address validation token. * It is sent in NEW_TOKEN frame. Only server can call this function. * |tokenlen| must not be 0. * * This function makes a copy of the buffer pointed by |token| of * length |tokenlen|. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory. */ NGTCP2_EXTERN int ngtcp2_conn_submit_new_token(ngtcp2_conn *conn, const uint8_t *token, size_t tokenlen); /** * @function * * `ngtcp2_conn_set_local_addr` sets local endpoint address |addr| to * the current path of |conn|. */ NGTCP2_EXTERN void ngtcp2_conn_set_local_addr(ngtcp2_conn *conn, const ngtcp2_addr *addr); /** * @function * * `ngtcp2_conn_set_path_user_data` sets the |path_user_data| to the * current path (see :member:`ngtcp2_path.user_data`). */ NGTCP2_EXTERN void ngtcp2_conn_set_path_user_data(ngtcp2_conn *conn, void *path_user_data); /** * @function * * `ngtcp2_conn_get_path` returns the current path. */ NGTCP2_EXTERN const ngtcp2_path *ngtcp2_conn_get_path(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_max_tx_udp_payload_size` returns the maximum UDP * payload size that this local endpoint would send. This is the * value of :member:`ngtcp2_settings.max_tx_udp_payload_size` that is * passed to `ngtcp2_conn_client_new` or `ngtcp2_conn_server_new`. */ NGTCP2_EXTERN size_t ngtcp2_conn_get_max_tx_udp_payload_size(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_path_max_tx_udp_payload_size` returns the maximum * UDP payload size for the current path. If * :member:`ngtcp2_settings.no_tx_udp_payload_size_shaping` is set to * nonzero, this function is equivalent to * `ngtcp2_conn_get_max_tx_udp_payload_size`. Otherwise, it returns * the maximum UDP payload size that is probed for the current path. */ NGTCP2_EXTERN size_t ngtcp2_conn_get_path_max_tx_udp_payload_size(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_initiate_immediate_migration` starts connection * migration to the given |path|. Only client can initiate migration. * This function does immediate migration; while the path validation * is nonetheless performed, this function does not wait for it to * succeed. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_INVALID_STATE` * Migration is disabled; or handshake is not yet confirmed; or * client is migrating to server's preferred address. * :macro:`NGTCP2_ERR_CONN_ID_BLOCKED` * No unused connection ID is available. * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * |local_addr| equals the current local address. * :macro:`NGTCP2_ERR_NOMEM` * Out of memory */ NGTCP2_EXTERN int ngtcp2_conn_initiate_immediate_migration( ngtcp2_conn *conn, const ngtcp2_path *path, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_initiate_migration` starts connection migration to the * given |path|. Only client can initiate migration. Unlike * `ngtcp2_conn_initiate_immediate_migration`, this function starts a * path validation with a new path and migrate to the new path after * successful path validation. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_INVALID_STATE` * Migration is disabled; or handshake is not yet confirmed; or * client is migrating to server's preferred address. * :macro:`NGTCP2_ERR_CONN_ID_BLOCKED` * No unused connection ID is available. * :macro:`NGTCP2_ERR_INVALID_ARGUMENT` * |local_addr| equals the current local address. * :macro:`NGTCP2_ERR_NOMEM` * Out of memory */ NGTCP2_EXTERN int ngtcp2_conn_initiate_migration(ngtcp2_conn *conn, const ngtcp2_path *path, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_get_max_local_streams_uni` returns the cumulative * number of streams which local endpoint can open. */ NGTCP2_EXTERN uint64_t ngtcp2_conn_get_max_local_streams_uni(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_max_data_left` returns the number of bytes that * this local endpoint can send in this connection. */ NGTCP2_EXTERN uint64_t ngtcp2_conn_get_max_data_left(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_max_stream_data_left` returns the number of bytes * that this local endpoint can send to a stream identified by * |stream_id|. If no such stream is found, this function returns 0. */ NGTCP2_EXTERN uint64_t ngtcp2_conn_get_max_stream_data_left(ngtcp2_conn *conn, int64_t stream_id); /** * @function * * `ngtcp2_conn_get_streams_bidi_left` returns the number of * bidirectional streams which the local endpoint can open without * violating stream concurrency limit. */ NGTCP2_EXTERN uint64_t ngtcp2_conn_get_streams_bidi_left(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_streams_uni_left` returns the number of * unidirectional streams which the local endpoint can open without * violating stream concurrency limit. */ NGTCP2_EXTERN uint64_t ngtcp2_conn_get_streams_uni_left(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_cwnd_left` returns the cwnd minus the number of * bytes in flight on the current path. If the former is smaller than * the latter, this function returns 0. */ NGTCP2_EXTERN uint64_t ngtcp2_conn_get_cwnd_left(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_set_initial_crypto_ctx` sets |ctx| for Initial packet * encryption. The passed data will be passed to * :type:`ngtcp2_encrypt`, :type:`ngtcp2_decrypt` and * :type:`ngtcp2_hp_mask` callbacks. */ NGTCP2_EXTERN void ngtcp2_conn_set_initial_crypto_ctx(ngtcp2_conn *conn, const ngtcp2_crypto_ctx *ctx); /** * @function * * `ngtcp2_conn_get_initial_crypto_ctx` returns * :type:`ngtcp2_crypto_ctx` object for Initial packet encryption. */ NGTCP2_EXTERN const ngtcp2_crypto_ctx * ngtcp2_conn_get_initial_crypto_ctx(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_set_crypto_ctx` sets |ctx| for Handshake/1RTT packet * encryption. The passed data will be passed to * :type:`ngtcp2_encrypt`, :type:`ngtcp2_decrypt` and * :type:`ngtcp2_hp_mask` callbacks. */ NGTCP2_EXTERN void ngtcp2_conn_set_crypto_ctx(ngtcp2_conn *conn, const ngtcp2_crypto_ctx *ctx); /** * @function * * `ngtcp2_conn_get_tls_native_handle` returns TLS native handle set by * `ngtcp2_conn_set_tls_native_handle()`. */ NGTCP2_EXTERN void *ngtcp2_conn_get_tls_native_handle(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_set_tls_native_handle` sets TLS native handle * |tls_native_handle| to |conn|. Internally, it is used as an opaque * pointer. */ NGTCP2_EXTERN void ngtcp2_conn_set_tls_native_handle(ngtcp2_conn *conn, void *tls_native_handle); /** * @function * * `ngtcp2_conn_set_retry_aead` sets |aead| and |aead_ctx| for Retry * integrity tag verification. |aead| must be AEAD_AES_128_GCM. * |aead_ctx| must be initialized with :macro:`NGTCP2_RETRY_KEY` as * encryption key. This function must be called if |conn| is * initialized as client. Server does not verify the tag and has no * need to call this function. * * If this function succeeds, |conn| takes ownership of |aead_ctx|. * :type:`ngtcp2_delete_crypto_aead_ctx` will be called to delete this * object when it is no longer used. If this function fails, the * caller is responsible to delete it. */ NGTCP2_EXTERN void ngtcp2_conn_set_retry_aead(ngtcp2_conn *conn, const ngtcp2_crypto_aead *aead, const ngtcp2_crypto_aead_ctx *aead_ctx); /** * @function * * `ngtcp2_conn_get_crypto_ctx` returns :type:`ngtcp2_crypto_ctx` * object for Handshake/1RTT packet encryption. */ NGTCP2_EXTERN const ngtcp2_crypto_ctx * ngtcp2_conn_get_crypto_ctx(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_set_early_crypto_ctx` sets |ctx| for 0RTT packet * encryption. The passed data will be passed to * :type:`ngtcp2_encrypt`, :type:`ngtcp2_decrypt` and * :type:`ngtcp2_hp_mask` callbacks. */ NGTCP2_EXTERN void ngtcp2_conn_set_early_crypto_ctx(ngtcp2_conn *conn, const ngtcp2_crypto_ctx *ctx); /** * @function * * `ngtcp2_conn_get_early_crypto_ctx` returns * :type:`ngtcp2_crypto_ctx` object for 0RTT packet encryption. */ NGTCP2_EXTERN const ngtcp2_crypto_ctx * ngtcp2_conn_get_early_crypto_ctx(ngtcp2_conn *conn); /** * @enum * * :type:`ngtcp2_connection_close_error_code_type` defines connection * error code type. */ typedef enum ngtcp2_connection_close_error_code_type { /** * :enum:`NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT` * indicates the error code is QUIC transport error code. */ NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT, /** * :enum:`NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_APPLICATION` * indicates the error code is application error code. */ NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_APPLICATION, /** * :enum:`NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT_VERSION_NEGOTIATION` * is a special case of QUIC transport error, and it indicates that * client receives Version Negotiation packet. */ NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT_VERSION_NEGOTIATION, /** * :enum:`NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT_IDLE_CLOSE` * is a special case of QUIC transport error, and it indicates that * connection is closed because of idle timeout. */ NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT_IDLE_CLOSE } ngtcp2_connection_close_error_code_type; /** * @struct * * :type:`ngtcp2_connection_close_error` contains connection * error code, its type, and the optional reason phrase. */ typedef struct ngtcp2_connection_close_error { /** * :member:`type` is the type of :member:`error_code`. */ ngtcp2_connection_close_error_code_type type; /** * :member:`error_code` is the error code for connection closure. */ uint64_t error_code; /** * :member:`frame_type` is the type of QUIC frame which triggers * this connection error. This field is set to 0 if the frame type * is unknown. */ uint64_t frame_type; /** * :member:`reason` points to the buffer which contains a reason * phrase. It may be NULL if there is no reason phrase. If it is * received from a remote endpoint, it is truncated to at most 1024 * bytes. */ const uint8_t *reason; /** * :member:`reasonlen` is the length of data pointed by * :member:`reason`. */ size_t reasonlen; } ngtcp2_connection_close_error; /** * @function * * `ngtcp2_connection_close_error_default` initializes |ccerr| with * the default values. It sets the following fields: * * - :member:`type ` = * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT` * - :member:`error_code ` = * :macro:`NGTCP2_NO_ERROR`. * - :member:`frame_type ` = * 0 * - :member:`reason ` = NULL * - :member:`reasonlen ` = 0 */ NGTCP2_EXTERN void ngtcp2_connection_close_error_default(ngtcp2_connection_close_error *ccerr); /** * @function * * `ngtcp2_connection_close_error_set_transport_error` sets * :member:`ccerr->type ` to * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT`, * and :member:`ccerr->error_code * ` to |error_code|. * |reason| is the reason phrase of length |reasonlen|. This function * does not make a copy of the reason phrase. */ NGTCP2_EXTERN void ngtcp2_connection_close_error_set_transport_error( ngtcp2_connection_close_error *ccerr, uint64_t error_code, const uint8_t *reason, size_t reasonlen); /** * @function * * `ngtcp2_connection_close_error_set_transport_error_liberr` sets * type and error_code based on |liberr|. * * If |liberr| is :macro:`NGTCP2_ERR_RECV_VERSION_NEGOTIATION`, * :member:`ccerr->type ` is set * to * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT_VERSION_NEGOTIATION`, * and :member:`ccerr->error_code * ` to * :macro:`NGTCP2_NO_ERROR`. If |liberr| is * :macro:`NGTCP2_ERR_IDLE_CLOSE`, :member:`ccerr->type * ` is set to * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT_IDLE_CLOSE`, * and :member:`ccerr->error_code * ` to * :macro:`NGTCP2_NO_ERROR`. Otherwise, :member:`ccerr->type * ` is set to * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT`, * and :member:`ccerr->error_code * ` is set to an error code * inferred by |liberr| (see * `ngtcp2_err_infer_quic_transport_error_code`). |reason| is the * reason phrase of length |reasonlen|. This function does not make a * copy of the reason phrase. */ NGTCP2_EXTERN void ngtcp2_connection_close_error_set_transport_error_liberr( ngtcp2_connection_close_error *ccerr, int liberr, const uint8_t *reason, size_t reasonlen); /** * @function * * `ngtcp2_connection_close_error_set_transport_error_tls_alert` sets * :member:`ccerr->type ` to * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT`, * and :member:`ccerr->error_code * ` to bitwise-OR of * :macro:`NGTCP2_CRYPTO_ERROR` and |tls_alert|. |reason| is the * reason phrase of length |reasonlen|. This function does not make a * copy of the reason phrase. */ NGTCP2_EXTERN void ngtcp2_connection_close_error_set_transport_error_tls_alert( ngtcp2_connection_close_error *ccerr, uint8_t tls_alert, const uint8_t *reason, size_t reasonlen); /** * @function * * `ngtcp2_connection_close_error_set_application_error` sets * :member:`ccerr->type ` to * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_APPLICATION`, * and :member:`ccerr->error_code * ` to |error_code|. * |reason| is the reason phrase of length |reasonlen|. This function * does not make a copy of the reason phrase. */ NGTCP2_EXTERN void ngtcp2_connection_close_error_set_application_error( ngtcp2_connection_close_error *ccerr, uint64_t error_code, const uint8_t *reason, size_t reasonlen); /** * @function * * `ngtcp2_conn_write_connection_close` writes a packet which contains * CONNECTION_CLOSE frame(s) (type 0x1c or 0x1d) in the buffer pointed * by |dest| whose capacity is |destlen|. * * For client, |destlen| should be at least * :macro:`NGTCP2_MAX_UDP_PAYLOAD_SIZE`. * * If |path| is not ``NULL``, this function stores the network path * with which the packet should be sent. Each addr field must point * to the buffer which should be at least ``sizeof(struct * sockaddr_storage)`` bytes long. The assignment might not be done * if nothing is written to |dest|. * * If |pi| is not ``NULL``, this function stores packet metadata in it * if it succeeds. The metadata includes ECN markings. * * If :member:`ccerr->type ` == * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_TRANSPORT`, * this function sends CONNECTION_CLOSE (type 0x1c) frame. If * :member:`ccerr->type ` == * :enum:`ngtcp2_connection_close_error_code_type.NGTCP2_CONNECTION_CLOSE_ERROR_CODE_TYPE_APPLICATION`, * it sends CONNECTION_CLOSE (type 0x1d) frame. Otherwise, it does * not produce any data, and returns 0. * * This function must not be called from inside the callback * functions. * * At the moment, successful call to this function makes connection * close. We may change this behaviour in the future to allow * graceful shutdown. * * This function returns the number of bytes written in |dest| if it * succeeds, or one of the following negative error codes: * * :macro:`NGTCP2_ERR_NOMEM` * Out of memory * :macro:`NGTCP2_ERR_NOBUF` * Buffer is too small * :macro:`NGTCP2_ERR_INVALID_STATE` * The current state does not allow sending CONNECTION_CLOSE. * :macro:`NGTCP2_ERR_PKT_NUM_EXHAUSTED` * Packet number is exhausted, and cannot send any more packet. * :macro:`NGTCP2_ERR_CALLBACK_FAILURE` * User callback failed */ NGTCP2_EXTERN ngtcp2_ssize ngtcp2_conn_write_connection_close_versioned( ngtcp2_conn *conn, ngtcp2_path *path, int pkt_info_version, ngtcp2_pkt_info *pi, uint8_t *dest, size_t destlen, const ngtcp2_connection_close_error *ccerr, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_get_connection_close_error` stores the received * connection close error in |ccerr|. */ NGTCP2_EXTERN void ngtcp2_conn_get_connection_close_error(ngtcp2_conn *conn, ngtcp2_connection_close_error *ccerr); /** * @function * * `ngtcp2_conn_is_local_stream` returns nonzero if |stream_id| denotes the * stream which a local endpoint issues. */ NGTCP2_EXTERN int ngtcp2_conn_is_local_stream(ngtcp2_conn *conn, int64_t stream_id); /** * @function * * `ngtcp2_conn_is_server` returns nonzero if |conn| is initialized as * server. */ NGTCP2_EXTERN int ngtcp2_conn_is_server(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_after_retry` returns nonzero if |conn| as a client has * received Retry packet from server and successfully validated it. */ NGTCP2_EXTERN int ngtcp2_conn_after_retry(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_set_stream_user_data` sets |stream_user_data| to the * stream identified by |stream_id|. * * This function returns 0 if it succeeds, or one of the following * negative error codes: * * :macro:`NGTCP2_ERR_STREAM_NOT_FOUND` * Stream does not exist */ NGTCP2_EXTERN int ngtcp2_conn_set_stream_user_data(ngtcp2_conn *conn, int64_t stream_id, void *stream_user_data); /** * @function * * `ngtcp2_conn_update_pkt_tx_time` sets the time instant of the next * packet transmission. This function must be called after (multiple * invocation of) `ngtcp2_conn_writev_stream`. If packet aggregation * (e.g., packet batching, GSO) is used, call this function after all * aggregated datagrams are sent, which indicates multiple invocation * of `ngtcp2_conn_writev_stream`. */ NGTCP2_EXTERN void ngtcp2_conn_update_pkt_tx_time(ngtcp2_conn *conn, ngtcp2_tstamp ts); /** * @function * * `ngtcp2_conn_get_send_quantum` returns the maximum number of bytes * that can be sent in one go without packet spacing. */ NGTCP2_EXTERN size_t ngtcp2_conn_get_send_quantum(ngtcp2_conn *conn); /** * @function * * `ngtcp2_conn_get_stream_loss_count` returns the number of packets * that contain STREAM frame for a stream identified by |stream_id| * and are declared to be lost. The number may include the spurious * losses. If no stream identified by |stream_id| is found, this * function returns 0. */ NGTCP2_EXTERN size_t ngtcp2_conn_get_stream_loss_count(ngtcp2_conn *conn, int64_t stream_id); /** * @function * * `ngtcp2_strerror` returns the text representation of |liberr|. * |liberr| must be one of ngtcp2 library error codes (which is * defined as NGTCP2_ERR_* macro, such as * :macro:`NGTCP2_ERR_DECRYPT`). */ NGTCP2_EXTERN const char *ngtcp2_strerror(int liberr); /** * @function * * `ngtcp2_err_is_fatal` returns nonzero if |liberr| is a fatal error. * |liberr| must be one of ngtcp2 library error codes (which is * defined as NGTCP2_ERR_* macro, such as * :macro:`NGTCP2_ERR_DECRYPT`). */ NGTCP2_EXTERN int ngtcp2_err_is_fatal(int liberr); /** * @function * * `ngtcp2_err_infer_quic_transport_error_code` returns a QUIC * transport error code which corresponds to |liberr|. |liberr| must * be one of ngtcp2 library error codes (which is defined as * NGTCP2_ERR_* macro, such as :macro:`NGTCP2_ERR_DECRYPT`). */ NGTCP2_EXTERN uint64_t ngtcp2_err_infer_quic_transport_error_code(int liberr); /** * @function * * `ngtcp2_addr_init` initializes |dest| with the given arguments and * returns |dest|. */ NGTCP2_EXTERN ngtcp2_addr *ngtcp2_addr_init(ngtcp2_addr *dest, const ngtcp2_sockaddr *addr, ngtcp2_socklen addrlen); /** * @function * * `ngtcp2_addr_copy_byte` copies |addr| of length |addrlen| into the * buffer pointed by :member:`dest->addr `. * :member:`dest->addrlen ` is updated to have * |addrlen|. This function assumes that :member:`dest->addr * ` points to a buffer which has a sufficient * capacity to store the copy. */ NGTCP2_EXTERN void ngtcp2_addr_copy_byte(ngtcp2_addr *dest, const ngtcp2_sockaddr *addr, ngtcp2_socklen addrlen); /** * @function * * `ngtcp2_path_storage_init` initializes |ps| with the given * arguments. This function copies |local_addr| and |remote_addr|. */ NGTCP2_EXTERN void ngtcp2_path_storage_init(ngtcp2_path_storage *ps, const ngtcp2_sockaddr *local_addr, ngtcp2_socklen local_addrlen, const ngtcp2_sockaddr *remote_addr, ngtcp2_socklen remote_addrlen, void *user_data); /** * @function * * `ngtcp2_path_storage_zero` initializes |ps| with the zero length * addresses. */ NGTCP2_EXTERN void ngtcp2_path_storage_zero(ngtcp2_path_storage *ps); /** * @function * * `ngtcp2_settings_default` initializes |settings| with the default * values. First this function fills |settings| with 0 and set the * default value to the following fields: * * * :type:`cc_algo ` = * :enum:`ngtcp2_cc_algo.NGTCP2_CC_ALGO_CUBIC` * * :type:`initial_rtt ` = * :macro:`NGTCP2_DEFAULT_INITIAL_RTT` * * :type:`ack_thresh ` = 2 * * :type:`max_tx_udp_payload_size * ` = 1452 * * :type:`handshake_timeout ` = * :macro:`NGTCP2_DEFAULT_HANDSHAKE_TIMEOUT`. */ NGTCP2_EXTERN void ngtcp2_settings_default_versioned(int settings_version, ngtcp2_settings *settings); /** * @function * * `ngtcp2_transport_params_default` initializes |params| with the * default values. First this function fills |params| with 0 and set * the default value to the following fields: * * * :type:`max_udp_payload_size * ` = * :macro:`NGTCP2_DEFAULT_MAX_RECV_UDP_PAYLOAD_SIZE` * * :type:`ack_delay_exponent * ` = * :macro:`NGTCP2_DEFAULT_ACK_DELAY_EXPONENT` * * :type:`max_ack_delay ` = * :macro:`NGTCP2_DEFAULT_MAX_ACK_DELAY` * * :type:`active_connection_id_limit * ` = * :macro:`NGTCP2_DEFAULT_ACTIVE_CONNECTION_ID_LIMIT` */ NGTCP2_EXTERN void ngtcp2_transport_params_default_versioned(int transport_params_version, ngtcp2_transport_params *params); /** * @function * * `ngtcp2_mem_default` returns the default, system standard memory * allocator. */ NGTCP2_EXTERN const ngtcp2_mem *ngtcp2_mem_default(void); /** * @macrosection * * ngtcp2_info macros */ /** * @macro * * :macro:`NGTCP2_VERSION_AGE` is the age of :type:`ngtcp2_info` */ #define NGTCP2_VERSION_AGE 1 /** * @struct * * :type:`ngtcp2_info` is what `ngtcp2_version()` returns. It holds * information about the particular ngtcp2 version. */ typedef struct ngtcp2_info { /** * :member:`age` is the age of this struct. This instance of ngtcp2 * sets it to :macro:`NGTCP2_VERSION_AGE` but a future version may * bump it and add more struct fields at the bottom */ int age; /** * :member:`version_num` is the :macro:`NGTCP2_VERSION_NUM` number * (since age ==1) */ int version_num; /** * :member:`version_str` points to the :macro:`NGTCP2_VERSION` * string (since age ==1) */ const char *version_str; /* -------- the above fields all exist when age == 1 */ } ngtcp2_info; /** * @function * * `ngtcp2_version` returns a pointer to a ngtcp2_info struct with * version information about the run-time library in use. The * |least_version| argument can be set to a 24 bit numerical value for * the least accepted version number and if the condition is not met, * this function will return a ``NULL``. Pass in 0 to skip the * version checking. */ NGTCP2_EXTERN const ngtcp2_info *ngtcp2_version(int least_version); /** * @function * * `ngtcp2_is_bidi_stream` returns nonzero if |stream_id| denotes * bidirectional stream. */ NGTCP2_EXTERN int ngtcp2_is_bidi_stream(int64_t stream_id); /** * @function * * `ngtcp2_path_copy` copies |src| into |dest|. This function assumes * that |dest| has enough buffer to store the deep copy of * :member:`src->local ` and :member:`src->remote * `. */ NGTCP2_EXTERN void ngtcp2_path_copy(ngtcp2_path *dest, const ngtcp2_path *src); /** * @function * * `ngtcp2_path_eq` returns nonzero if |a| and |b| shares the same * local and remote addresses. */ NGTCP2_EXTERN int ngtcp2_path_eq(const ngtcp2_path *a, const ngtcp2_path *b); /** * @function * * `ngtcp2_is_supported_version` returns nonzero if the library supports * QUIC version |version|. */ NGTCP2_EXTERN int ngtcp2_is_supported_version(uint32_t version); /* * @function * * `ngtcp2_is_reserved_version` returns nonzero if |version| is a * reserved version. */ NGTCP2_EXTERN int ngtcp2_is_reserved_version(uint32_t version); /** * @function * * `ngtcp2_select_version` selects and returns a version from the * version set |offered_versions| of |offered_versionslen| elements. * |preferred_versions| of |preferred_versionslen| elements specifies * the preference of versions, which is sorted in the order of * preference. All versions included in |preferred_versions| must be * supported by the library, that is, passing a version to * `ngtcp2_is_supported_version` must return nonzero. This function * is intended to be used by client when it receives Version * Negotiation packet. If no version is selected, this function * returns 0. */ NGTCP2_EXTERN uint32_t ngtcp2_select_version(const uint32_t *preferred_versions, size_t preferred_versionslen, const uint32_t *offered_versions, size_t offered_versionslen); /* * Versioned function wrappers */ /* * `ngtcp2_conn_read_pkt` is a wrapper around * `ngtcp2_conn_read_pkt_versioned` to set the correct struct version. */ #define ngtcp2_conn_read_pkt(CONN, PATH, PI, PKT, PKTLEN, TS) \ ngtcp2_conn_read_pkt_versioned((CONN), (PATH), NGTCP2_PKT_INFO_VERSION, \ (PI), (PKT), (PKTLEN), (TS)) /* * `ngtcp2_conn_write_pkt` is a wrapper around * `ngtcp2_conn_write_pkt_versioned` to set the correct struct * version. */ #define ngtcp2_conn_write_pkt(CONN, PATH, PI, DEST, DESTLEN, TS) \ ngtcp2_conn_write_pkt_versioned((CONN), (PATH), NGTCP2_PKT_INFO_VERSION, \ (PI), (DEST), (DESTLEN), (TS)) /* * `ngtcp2_conn_write_stream` is a wrapper around * `ngtcp2_conn_write_stream_versioned` to set the correct struct * version. */ #define ngtcp2_conn_write_stream(CONN, PATH, PI, DEST, DESTLEN, PDATALEN, \ FLAGS, STREAM_ID, DATA, DATALEN, TS) \ ngtcp2_conn_write_stream_versioned( \ (CONN), (PATH), NGTCP2_PKT_INFO_VERSION, (PI), (DEST), (DESTLEN), \ (PDATALEN), (FLAGS), (STREAM_ID), (DATA), (DATALEN), (TS)) /* * `ngtcp2_conn_writev_stream` is a wrapper around * `ngtcp2_conn_writev_stream_versioned` to set the correct struct * version. */ #define ngtcp2_conn_writev_stream(CONN, PATH, PI, DEST, DESTLEN, PDATALEN, \ FLAGS, STREAM_ID, DATAV, DATAVCNT, TS) \ ngtcp2_conn_writev_stream_versioned( \ (CONN), (PATH), NGTCP2_PKT_INFO_VERSION, (PI), (DEST), (DESTLEN), \ (PDATALEN), (FLAGS), (STREAM_ID), (DATAV), (DATAVCNT), (TS)) /* * `ngtcp2_conn_writev_datagram` is a wrapper around * `ngtcp2_conn_writev_datagram_versioned` to set the correct struct * version. */ #define ngtcp2_conn_writev_datagram(CONN, PATH, PI, DEST, DESTLEN, PACCEPTED, \ FLAGS, DGRAM_ID, DATAV, DATAVCNT, TS) \ ngtcp2_conn_writev_datagram_versioned( \ (CONN), (PATH), NGTCP2_PKT_INFO_VERSION, (PI), (DEST), (DESTLEN), \ (PACCEPTED), (FLAGS), (DGRAM_ID), (DATAV), (DATAVCNT), (TS)) /* * `ngtcp2_conn_write_connection_close` is a wrapper around * `ngtcp2_conn_write_connection_close_versioned` to set the correct * struct version. */ #define ngtcp2_conn_write_connection_close(CONN, PATH, PI, DEST, DESTLEN, \ CCERR, TS) \ ngtcp2_conn_write_connection_close_versioned( \ (CONN), (PATH), NGTCP2_PKT_INFO_VERSION, (PI), (DEST), (DESTLEN), \ (CCERR), (TS)) /* * `ngtcp2_encode_transport_params` is a wrapper around * `ngtcp2_encode_transport_params_versioned` to set the correct * struct version. */ #define ngtcp2_encode_transport_params(DEST, DESTLEN, EXTTYPE, PARAMS) \ ngtcp2_encode_transport_params_versioned( \ (DEST), (DESTLEN), (EXTTYPE), NGTCP2_TRANSPORT_PARAMS_VERSION, (PARAMS)) /* * `ngtcp2_decode_transport_params` is a wrapper around * `ngtcp2_decode_transport_params_versioned` to set the correct * struct version. */ #define ngtcp2_decode_transport_params(PARAMS, EXTTYPE, DATA, DATALEN) \ ngtcp2_decode_transport_params_versioned( \ NGTCP2_TRANSPORT_PARAMS_VERSION, (PARAMS), (EXTTYPE), (DATA), (DATALEN)) /* * `ngtcp2_conn_client_new` is a wrapper around * `ngtcp2_conn_client_new_versioned` to set the correct struct * version. */ #define ngtcp2_conn_client_new(PCONN, DCID, SCID, PATH, VERSION, CALLBACKS, \ SETTINGS, PARAMS, MEM, USER_DATA) \ ngtcp2_conn_client_new_versioned( \ (PCONN), (DCID), (SCID), (PATH), (VERSION), NGTCP2_CALLBACKS_VERSION, \ (CALLBACKS), NGTCP2_SETTINGS_VERSION, (SETTINGS), \ NGTCP2_TRANSPORT_PARAMS_VERSION, (PARAMS), (MEM), (USER_DATA)) /* * `ngtcp2_conn_server_new` is a wrapper around * `ngtcp2_conn_server_new_versioned` to set the correct struct * version. */ #define ngtcp2_conn_server_new(PCONN, DCID, SCID, PATH, VERSION, CALLBACKS, \ SETTINGS, PARAMS, MEM, USER_DATA) \ ngtcp2_conn_server_new_versioned( \ (PCONN), (DCID), (SCID), (PATH), (VERSION), NGTCP2_CALLBACKS_VERSION, \ (CALLBACKS), NGTCP2_SETTINGS_VERSION, (SETTINGS), \ NGTCP2_TRANSPORT_PARAMS_VERSION, (PARAMS), (MEM), (USER_DATA)) /* * `ngtcp2_conn_set_early_remote_transport_params` is a wrapper around * `ngtcp2_conn_set_early_remote_transport_params_versioned` to set * the correct struct version. */ #define ngtcp2_conn_set_early_remote_transport_params(CONN, PARAMS) \ ngtcp2_conn_set_early_remote_transport_params_versioned( \ (CONN), NGTCP2_TRANSPORT_PARAMS_VERSION, (PARAMS)) /* * `ngtcp2_conn_set_local_transport_params` is a wrapper around * `ngtcp2_conn_set_local_transport_params_versioned` to set the * correct struct version. */ #define ngtcp2_conn_set_local_transport_params(CONN, PARAMS) \ ngtcp2_conn_set_local_transport_params_versioned( \ (CONN), NGTCP2_TRANSPORT_PARAMS_VERSION, (PARAMS)) /* * `ngtcp2_transport_params_default` is a wrapper around * `ngtcp2_transport_params_default_versioned` to set the correct * struct version. */ #define ngtcp2_transport_params_default(PARAMS) \ ngtcp2_transport_params_default_versioned(NGTCP2_TRANSPORT_PARAMS_VERSION, \ (PARAMS)) /* * `ngtcp2_conn_get_conn_stat` is a wrapper around * `ngtcp2_conn_get_conn_stat_versioned` to set the correct struct * version. */ #define ngtcp2_conn_get_conn_stat(CONN, CSTAT) \ ngtcp2_conn_get_conn_stat_versioned((CONN), NGTCP2_CONN_STAT_VERSION, (CSTAT)) /* * `ngtcp2_settings_default` is a wrapper around * `ngtcp2_settings_default_versioned` to set the correct struct * version. */ #define ngtcp2_settings_default(SETTINGS) \ ngtcp2_settings_default_versioned(NGTCP2_SETTINGS_VERSION, (SETTINGS)) #ifdef _MSC_VER # pragma warning(pop) #endif #ifdef __cplusplus } #endif #endif /* NGTCP2_H */