/* Copyright (c) 2017 - 2021 LiteSpeed Technologies Inc. See LICENSE. */ /* * lsquic_packet_in.h */ #ifndef LSQUIC_PACKET_IN_H #define LSQUIC_PACKET_IN_H 1 struct lsquic_packet_in; struct lsquic_cid; struct data_frame { const unsigned char *df_data; /* Pointer to data */ uint64_t df_offset; /* Stream offset */ uint16_t df_read_off; /* Read offset */ uint16_t df_size; /* Size of df_data */ signed char df_fin; /* FIN? */ }; typedef struct stream_frame { /* Stream frames are stored in a list inside "di nocopy" (if "di nocopy" * is used). */ TAILQ_ENTRY(stream_frame) next_frame; /* `data_frame.df_data' points somewhere into the packet payload. The * packet object is reference-counted. When the frame is freed, the * packet is released via lsquic_packet_in_put(). */ struct lsquic_packet_in *packet_in; struct data_frame data_frame; lsquic_stream_id_t stream_id; /* Parsed from packet */ } stream_frame_t; #define DF_OFF(frame) (frame)->data_frame.df_offset #define DF_ROFF(frame) (DF_OFF(frame) + (frame)->data_frame.df_read_off) #define DF_FIN(frame) (frame)->data_frame.df_fin #define DF_SIZE(frame) (frame)->data_frame.df_size #define DF_END(frame) (DF_OFF(frame) + DF_SIZE(frame)) typedef struct lsquic_packet_in { TAILQ_ENTRY(lsquic_packet_in) pi_next; lsquic_time_t pi_received; /* Time received */ lsquic_cid_t pi_dcid; #define pi_conn_id pi_dcid lsquic_packno_t pi_packno; enum quic_ft_bit pi_frame_types; unsigned short pi_header_sz; /* Points to payload */ unsigned short pi_data_sz; /* Data plus header */ /* A packet may be referred to by one or more frames and packets_in * list. */ unsigned short pi_refcnt; unsigned short pi_hsk_stream; /* Offset to handshake stream * frame, only valid if * PI_HSK_STREAM is set. */ enum { PI_DECRYPTED = (1 << 0), PI_OWN_DATA = (1 << 1), /* We own pi_data */ PI_CONN_ID = (1 << 2), /* pi_conn_id is set */ PI_HSK_STREAM = (1 << 3), /* Has handshake data (mini only) */ PI_FROM_MINI = (1 << 4), /* Handed off by mini connection */ #define PIBIT_ENC_LEV_SHIFT 5 PI_ENC_LEV_BIT_0= (1 << 5), /* Encodes encryption level */ PI_ENC_LEV_BIT_1= (1 << 6), /* (see enum enc_level). */ PI_GQUIC = (1 << 7), PI_UNUSED_8 = (1 << 8), /* <-- hole, reuse me! */ #define PIBIT_ECN_SHIFT 9 PI_ECN_BIT_0 = (1 << 9), PI_ECN_BIT_1 = (1 <<10), #define PIBIT_SPIN_SHIFT 11 PI_SPIN_BIT = (1 <<11), #define PIBIT_BITS_SHIFT 12 PI_BITS_BIT_0 = (1 <<12), PI_BITS_BIT_1 = (1 <<13), /* Square bit and loss bit flags are used for logging */ PI_LOG_QL_BITS = (1 <<14), PI_SQUARE_BIT = (1 <<15), PI_LOSS_BIT = (1 <<16), } pi_flags; /* pi_token and pi_token_size are set in Initial and Retry packets */ unsigned short pi_token_size; /* Size of the token */ unsigned char pi_token; /* Offset to token */ /* pi_odcid and pi_odcid_len are only set in Retry packets for I-D < 25 */ unsigned char pi_odcid; /* Offset to Original DCID */ unsigned char pi_odcid_len; /* Size of ODCID */ unsigned char pi_scid_off; /* Offset to SCID */ unsigned char pi_scid_len; /* Size of SCID */ unsigned char pi_quic_ver; /* Offset to QUIC version */ unsigned char pi_nonce; /* Offset to nonce */ enum header_type pi_header_type:8; unsigned char pi_path_id; /* If PI_OWN_DATA flag is not set, `pi_data' points to user-supplied * packet data, which is NOT TO BE MODIFIED. */ unsigned char *pi_data; } lsquic_packet_in_t; #define lsquic_packet_in_public_flags(p) ((p)->pi_data[0]) #define lsquic_packet_in_is_gquic_prst(p) \ (((p)->pi_flags & PI_GQUIC) \ && (lsquic_packet_in_public_flags(p) & PACKET_PUBLIC_FLAGS_RST)) #define lsquic_packet_in_is_verneg(p) \ (((p)->pi_flags & PI_GQUIC) ? \ lsquic_packet_in_public_flags(p) & PACKET_PUBLIC_FLAGS_VERSION : \ (p)->pi_header_type == HETY_VERNEG) #define lsquic_packet_in_packno_bits(p) \ (((p)->pi_flags >> PIBIT_BITS_SHIFT) & 3) #define lsquic_packet_in_upref(p) (++(p)->pi_refcnt) #define lsquic_packet_in_get(p) (lsquic_packet_in_upref(p), (p)) #define lsquic_packet_in_nonce(p) \ ((p)->pi_nonce ? (p)->pi_data + (p)->pi_nonce : NULL) #define lsquic_packet_in_enc_level(p) \ (((p)->pi_flags >> PIBIT_ENC_LEV_SHIFT) & 0x3) #define lsquic_packet_in_ecn(p) \ (((p)->pi_flags >> PIBIT_ECN_SHIFT) & 0x3) #define lsquic_packet_in_spin_bit(p) (((p)->pi_flags & PI_SPIN_BIT) > 0) /* PATH_CHALLENGE, PATH_RESPONSE, NEW_CONNECTION_ID, and PADDING frames * are "probing frames", and all other frames are "non-probing frames". * A packet containing only probing frames is a "probing packet", and a * packet containing any other frame is a "non-probing packet". * * [draft-ietf-quic-transport-20], Section 9.1 */ #define lsquic_packet_in_non_probing(p) \ (!!((p)->pi_frame_types & ~(QUIC_FTBIT_PATH_CHALLENGE \ |QUIC_FTBIT_PATH_RESPONSE|QUIC_FTBIT_PADDING \ |QUIC_FTBIT_NEW_CONNECTION_ID))) /* The version iterator is used on a version negotiation packet only. * The iterator functions return 1 when next version is returned and * 0 when there are no more versions. */ struct ver_iter { const struct lsquic_packet_in *packet_in; unsigned off; }; int lsquic_packet_in_ver_first (const lsquic_packet_in_t *packet_in, struct ver_iter *, lsquic_ver_tag_t *ver_tag); int lsquic_packet_in_ver_next (struct ver_iter *, lsquic_ver_tag_t *ver_tag); size_t lsquic_packet_in_mem_used (const struct lsquic_packet_in *); void lsquic_scid_from_packet_in (const struct lsquic_packet_in *, struct lsquic_cid *); #endif