mirror of
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ff3a26b24f
Reviewed-by: Tomas Mraz <tomas@openssl.org> Reviewed-by: Matt Caswell <matt@openssl.org> (Merged from https://github.com/openssl/openssl/pull/22674)
385 lines
15 KiB
C
385 lines
15 KiB
C
/*
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* Copyright 2022-2023 The OpenSSL Project Authors. All Rights Reserved.
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*
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* Licensed under the Apache License 2.0 (the "License"). You may not use
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* this file except in compliance with the License. You can obtain a copy
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* in the file LICENSE in the source distribution or at
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* https://www.openssl.org/source/license.html
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*/
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#ifndef OSSL_QUIC_RECORD_TX_H
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# define OSSL_QUIC_RECORD_TX_H
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# include <openssl/ssl.h>
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# include "internal/quic_wire_pkt.h"
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# include "internal/quic_types.h"
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# include "internal/quic_predef.h"
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# include "internal/quic_record_util.h"
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# ifndef OPENSSL_NO_QUIC
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/*
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* QUIC Record Layer - TX
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* ======================
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*/
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typedef struct ossl_qtx_iovec_st {
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const unsigned char *buf;
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size_t buf_len;
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} OSSL_QTX_IOVEC;
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typedef struct ossl_qtx_st OSSL_QTX;
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typedef int (*ossl_mutate_packet_cb)(const QUIC_PKT_HDR *hdrin,
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const OSSL_QTX_IOVEC *iovecin, size_t numin,
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QUIC_PKT_HDR **hdrout,
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const OSSL_QTX_IOVEC **iovecout,
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size_t *numout,
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void *arg);
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typedef void (*ossl_finish_mutate_cb)(void *arg);
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typedef struct ossl_qtx_args_st {
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OSSL_LIB_CTX *libctx;
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const char *propq;
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/* BIO to transmit to. */
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BIO *bio;
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/* Maximum datagram payload length (MDPL) for TX purposes. */
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size_t mdpl;
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} OSSL_QTX_ARGS;
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/* Instantiates a new QTX. */
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OSSL_QTX *ossl_qtx_new(const OSSL_QTX_ARGS *args);
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/* Frees the QTX. */
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void ossl_qtx_free(OSSL_QTX *qtx);
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/* Set mutator callbacks for test framework support */
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void ossl_qtx_set_mutator(OSSL_QTX *qtx, ossl_mutate_packet_cb mutatecb,
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ossl_finish_mutate_cb finishmutatecb, void *mutatearg);
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/* Setters for the msg_callback and the msg_callback_arg */
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void ossl_qtx_set_msg_callback(OSSL_QTX *qtx, ossl_msg_cb msg_callback,
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SSL *msg_callback_ssl);
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void ossl_qtx_set_msg_callback_arg(OSSL_QTX *qtx, void *msg_callback_arg);
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/*
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* Secret Management
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* -----------------
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*/
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/*
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* Provides a secret to the QTX, which arises due to an encryption level change.
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* enc_level is a QUIC_ENC_LEVEL_* value.
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*
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* This function can be used to initialise the INITIAL encryption level, but you
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* should not do so directly; see the utility function
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* ossl_qrl_provide_initial_secret() instead, which can initialise the INITIAL
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* encryption level of a QRX and QTX simultaneously without duplicating certain
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* key derivation steps.
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*
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* You must call this function for a given EL before transmitting packets at
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* that EL using this QTX, otherwise ossl_qtx_write_pkt will fail.
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*
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* suite_id is a QRL_SUITE_* value which determines the AEAD function used for
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* the QTX.
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*
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* The secret passed is used directly to derive the "quic key", "quic iv" and
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* "quic hp" values.
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*
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* secret_len is the length of the secret buffer in bytes. The buffer must be
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* sized correctly to the chosen suite, else the function fails.
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*
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* This function can only be called once for a given EL, except for the INITIAL
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* EL, as the INITIAL EL can need to be rekeyed if connection retry occurs.
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* Subsequent calls for non-INITIAL ELs fail. Calls made after a corresponding
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* call to ossl_qtx_discard_enc_level for a given EL also fail, including for
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* the INITIAL EL. The secret for a non-INITIAL EL cannot be changed after it is
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* set because QUIC has no facility for introducing additional key material
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* after an EL is setup. (QUIC key updates generate new keys from existing key
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* material and do not introduce new entropy into a connection's key material.)
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*
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* Returns 1 on success or 0 on failure.
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*/
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int ossl_qtx_provide_secret(OSSL_QTX *qtx,
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uint32_t enc_level,
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uint32_t suite_id,
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EVP_MD *md,
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const unsigned char *secret,
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size_t secret_len);
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/*
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* Informs the QTX that it can now discard key material for a given EL. The QTX
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* will no longer be able to generate packets at that EL. This function is
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* idempotent and succeeds if the EL has already been discarded.
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*
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* Returns 1 on success and 0 on failure.
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*/
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int ossl_qtx_discard_enc_level(OSSL_QTX *qtx, uint32_t enc_level);
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/* Returns 1 if the given encryption level is provisioned. */
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int ossl_qtx_is_enc_level_provisioned(OSSL_QTX *qtx, uint32_t enc_level);
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/*
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* Given the value ciphertext_len representing an encrypted packet payload
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* length in bytes, determines how many plaintext bytes it will decrypt to.
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* Returns 0 if the specified EL is not provisioned or ciphertext_len is too
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* small. The result is written to *plaintext_len.
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*/
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int ossl_qtx_calculate_plaintext_payload_len(OSSL_QTX *qtx, uint32_t enc_level,
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size_t ciphertext_len,
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size_t *plaintext_len);
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/*
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* Given the value plaintext_len represented a plaintext packet payload length
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* in bytes, determines how many ciphertext bytes it will encrypt to. The value
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* output does not include packet headers. Returns 0 if the specified EL is not
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* provisioned. The result is written to *ciphertext_len.
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*/
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int ossl_qtx_calculate_ciphertext_payload_len(OSSL_QTX *qtx, uint32_t enc_level,
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size_t plaintext_len,
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size_t *ciphertext_len);
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uint32_t ossl_qrl_get_suite_cipher_tag_len(uint32_t suite_id);
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/*
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* Packet Transmission
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* -------------------
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*/
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struct ossl_qtx_pkt_st {
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/* Logical packet header to be serialized. */
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QUIC_PKT_HDR *hdr;
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/*
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* iovecs expressing the logical packet payload buffer. Zero-length entries
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* are permitted.
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*/
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const OSSL_QTX_IOVEC *iovec;
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size_t num_iovec;
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/* Destination address. Will be passed through to the BIO if non-NULL. */
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const BIO_ADDR *peer;
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/*
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* Local address (optional). Specify as non-NULL only if TX BIO
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* has local address support enabled.
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*/
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const BIO_ADDR *local;
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/*
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* Logical PN. Used for encryption. This will automatically be encoded to
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* hdr->pn, which need not be initialized.
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*/
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QUIC_PN pn;
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/* Packet flags. Zero or more OSSL_QTX_PKT_FLAG_* values. */
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uint32_t flags;
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};
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/*
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* More packets will be written which should be coalesced into a single
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* datagram; do not send this packet yet. To use this, set this flag for all
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* packets but the final packet in a datagram, then send the final packet
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* without this flag set.
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*
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* This flag is not a guarantee and the QTX may transmit immediately anyway if
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* it is not possible to fit any more packets in the current datagram.
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*
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* If the caller change its mind and needs to cause a packet queued with
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* COALESCE after having passed it to this function but without writing another
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* packet, it should call ossl_qtx_flush_pkt().
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*/
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#define OSSL_QTX_PKT_FLAG_COALESCE (1U << 0)
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/*
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* Writes a packet.
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*
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* *pkt need be valid only for the duration of the call to this function.
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*
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* pkt->hdr->data and pkt->hdr->len are unused. The payload buffer is specified
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* via an array of OSSL_QTX_IOVEC structures. The API is designed to support
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* single-copy transmission; data is copied from the iovecs as it is encrypted
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* into an internal staging buffer for transmission.
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*
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* The function may modify and clobber pkt->hdr->data, pkt->hdr->len,
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* pkt->hdr->key_phase and pkt->hdr->pn for its own internal use. No other
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* fields of pkt or pkt->hdr will be modified.
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*
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* It is the callers responsibility to determine how long the PN field in the
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* encoded packet should be by setting pkt->hdr->pn_len. This function takes
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* care of the PN encoding. Set pkt->pn to the desired PN.
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*
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* Note that 1-RTT packets do not have a DCID Length field, therefore the DCID
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* length must be understood contextually. This function assumes the caller
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* knows what it is doing and will serialize a DCID of whatever length is given.
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* It is the caller's responsibility to ensure it uses a consistent DCID length
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* for communication with any given set of remote peers.
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*
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* The packet is queued regardless of whether it is able to be sent immediately.
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* This enables packets to be batched and sent at once on systems which support
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* system calls to send multiple datagrams in a single system call (see
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* BIO_sendmmsg). To flush queued datagrams to the network, see
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* ossl_qtx_flush_net().
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*
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* Returns 1 on success or 0 on failure.
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*/
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int ossl_qtx_write_pkt(OSSL_QTX *qtx, const OSSL_QTX_PKT *pkt);
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/*
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* Finish any incomplete datagrams for transmission which were flagged for
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* coalescing. If there is no current coalescing datagram, this is a no-op.
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*/
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void ossl_qtx_finish_dgram(OSSL_QTX *qtx);
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/*
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* (Attempt to) flush any datagrams which are queued for transmission. Note that
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* this does not cancel coalescing; call ossl_qtx_finish_dgram() first if that
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* is desired. The queue is drained into the OS's sockets as much as possible.
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* To determine if there is still data to be sent after calling this function,
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* use ossl_qtx_get_queue_len_bytes().
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*
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* Returns one of the following values:
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*
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* QTX_FLUSH_NET_RES_OK
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* Either no packets are currently queued for transmission,
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* or at least one packet was successfully submitted.
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*
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* QTX_FLUSH_NET_RES_TRANSIENT_FAIL
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* The underlying network write BIO indicated a transient error
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* (e.g. buffers full).
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*
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* QTX_FLUSH_NET_RES_PERMANENT_FAIL
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* Internal error (e.g. assertion or allocation error)
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* or the underlying network write BIO indicated a non-transient
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* error.
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*/
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#define QTX_FLUSH_NET_RES_OK 1
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#define QTX_FLUSH_NET_RES_TRANSIENT_FAIL (-1)
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#define QTX_FLUSH_NET_RES_PERMANENT_FAIL (-2)
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int ossl_qtx_flush_net(OSSL_QTX *qtx);
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/*
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* Diagnostic function. If there is any datagram pending transmission, pops it
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* and writes the details of the datagram as they would have been passed to
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* *msg. Returns 1, or 0 if there are no datagrams pending. For test use only.
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*/
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int ossl_qtx_pop_net(OSSL_QTX *qtx, BIO_MSG *msg);
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/* Returns number of datagrams which are fully-formed but not yet sent. */
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size_t ossl_qtx_get_queue_len_datagrams(OSSL_QTX *qtx);
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/*
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* Returns number of payload bytes across all datagrams which are fully-formed
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* but not yet sent. Does not count any incomplete coalescing datagram.
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*/
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size_t ossl_qtx_get_queue_len_bytes(OSSL_QTX *qtx);
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/*
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* Returns number of bytes in the current coalescing datagram, or 0 if there is
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* no current coalescing datagram. Returns 0 after a call to
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* ossl_qtx_finish_dgram().
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*/
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size_t ossl_qtx_get_cur_dgram_len_bytes(OSSL_QTX *qtx);
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/*
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* Returns number of queued coalesced packets which have not been put into a
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* datagram yet. If this is non-zero, ossl_qtx_flush_pkt() needs to be called.
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*/
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size_t ossl_qtx_get_unflushed_pkt_count(OSSL_QTX *qtx);
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/*
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* Change the BIO being used by the QTX. May be NULL if actual transmission is
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* not currently required. Does not up-ref the BIO; the caller is responsible
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* for ensuring the lifetime of the BIO exceeds the lifetime of the QTX.
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*/
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void ossl_qtx_set_bio(OSSL_QTX *qtx, BIO *bio);
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/* Changes the MDPL. */
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int ossl_qtx_set_mdpl(OSSL_QTX *qtx, size_t mdpl);
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/* Retrieves the current MDPL. */
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size_t ossl_qtx_get_mdpl(OSSL_QTX *qtx);
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/*
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* Key Update
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* ----------
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*
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* For additional discussion of key update considerations, see QRX header file.
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*/
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/*
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* Triggers a key update. The key update will be started by inverting the Key
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* Phase bit of the next packet transmitted; no key update occurs until the next
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* packet is transmitted. Thus, this function should generally be called
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* immediately before queueing the next packet.
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*
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* There are substantial requirements imposed by RFC 9001 on under what
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* circumstances a key update can be initiated. The caller is responsible for
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* meeting most of these requirements. For example, this function cannot be
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* called too soon after a previous key update has occurred. Key updates also
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* cannot be initiated until the 1-RTT encryption level is reached.
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*
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* As a sanity check, this function will fail and return 0 if the non-1RTT
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* encryption levels have not yet been dropped.
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*
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* The caller may decide itself to initiate a key update, but it also MUST
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* initiate a key update where it detects that the peer has initiated a key
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* update. The caller is responsible for initiating a TX key update by calling
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* this function in this circumstance; thus, the caller is responsible for
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* coupling the RX and TX QUIC record layers in this way.
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*/
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int ossl_qtx_trigger_key_update(OSSL_QTX *qtx);
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/*
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* Key Expiration
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* --------------
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*/
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/*
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* Returns the number of packets which have been encrypted for transmission with
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* the current set of TX keys (the current "TX key epoch"). Reset to zero after
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* a key update and incremented for each packet queued. If enc_level is not
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* valid or relates to an EL which is not currently available, returns
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* UINT64_MAX.
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*/
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uint64_t ossl_qtx_get_cur_epoch_pkt_count(OSSL_QTX *qtx, uint32_t enc_level);
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/*
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* Returns the maximum number of packets which the record layer will permit to
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* be encrypted using the current set of TX keys. If this limit is reached (that
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* is, if the counter returned by ossl_qrx_tx_get_cur_epoch_pkt_count() reaches
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* this value), as a safety measure, the QTX will not permit any further packets
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* to be queued. All calls to ossl_qrx_write_pkt that try to send packets of a
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* kind which need to be encrypted will fail. It is not possible to recover from
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* this condition and the QTX must then be destroyed; therefore, callers should
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* ensure they always trigger a key update well in advance of reaching this
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* limit.
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*
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* The value returned by this function is based on the ciphersuite configured
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* for the given encryption level. If keys have not been provisioned for the
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* specified enc_level or the enc_level argument is invalid, this function
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* returns UINT64_MAX, which is not a valid value. Note that it is not possible
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* to perform a key update at any encryption level other than 1-RTT, therefore
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* if this limit is reached at earlier encryption levels (which should not be
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* possible) the connection must be terminated. Since this condition precludes
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* the transmission of further packets, the only possible signalling of such an
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* error condition to a peer is a Stateless Reset packet.
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*/
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uint64_t ossl_qtx_get_max_epoch_pkt_count(OSSL_QTX *qtx, uint32_t enc_level);
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/*
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* Get the 1-RTT EL key epoch number for the QTX. This is intended for
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* diagnostic purposes. Returns 0 if 1-RTT EL is not provisioned yet.
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*/
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uint64_t ossl_qtx_get_key_epoch(OSSL_QTX *qtx);
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# endif
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#endif
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