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29fb7f0879
Reviewed-by: Tomas Mraz <tomas@openssl.org> Reviewed-by: Paul Dale <pauli@openssl.org> (Merged from https://github.com/openssl/openssl/pull/20451)
632 lines
19 KiB
C
632 lines
19 KiB
C
/*
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* Copyright 2022 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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#include "internal/quic_demux.h"
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#include "internal/quic_wire_pkt.h"
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#include "internal/common.h"
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#include <openssl/lhash.h>
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#include <openssl/err.h>
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#define URXE_DEMUX_STATE_FREE 0 /* on urx_free list */
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#define URXE_DEMUX_STATE_PENDING 1 /* on urx_pending list */
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#define URXE_DEMUX_STATE_ISSUED 2 /* on neither list */
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#define DEMUX_MAX_MSGS_PER_CALL 32
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#define DEMUX_DEFAULT_MTU 1500
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/* Structure used to track a given connection ID. */
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typedef struct quic_demux_conn_st QUIC_DEMUX_CONN;
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struct quic_demux_conn_st {
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QUIC_DEMUX_CONN *next; /* used when unregistering only */
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QUIC_CONN_ID dst_conn_id;
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ossl_quic_demux_cb_fn *cb;
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void *cb_arg;
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};
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DEFINE_LHASH_OF_EX(QUIC_DEMUX_CONN);
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static unsigned long demux_conn_hash(const QUIC_DEMUX_CONN *conn)
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{
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size_t i;
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unsigned long v = 0;
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assert(conn->dst_conn_id.id_len <= QUIC_MAX_CONN_ID_LEN);
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for (i = 0; i < conn->dst_conn_id.id_len; ++i)
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v ^= ((unsigned long)conn->dst_conn_id.id[i])
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<< ((i * 8) % (sizeof(unsigned long) * 8));
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return v;
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}
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static int demux_conn_cmp(const QUIC_DEMUX_CONN *a, const QUIC_DEMUX_CONN *b)
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{
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return !ossl_quic_conn_id_eq(&a->dst_conn_id, &b->dst_conn_id);
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}
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struct quic_demux_st {
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/* The underlying transport BIO with datagram semantics. */
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BIO *net_bio;
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/*
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* QUIC short packets do not contain the length of the connection ID field,
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* therefore it must be known contextually. The demuxer requires connection
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* IDs of the same length to be used for all incoming packets.
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*/
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size_t short_conn_id_len;
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/*
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* Our current understanding of the upper bound on an incoming datagram size
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* in bytes.
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*/
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size_t mtu;
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/* Time retrieval callback. */
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OSSL_TIME (*now)(void *arg);
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void *now_arg;
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/* Hashtable mapping connection IDs to QUIC_DEMUX_CONN structures. */
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LHASH_OF(QUIC_DEMUX_CONN) *conns_by_id;
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/* The default packet handler, if any. */
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ossl_quic_demux_cb_fn *default_cb;
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void *default_cb_arg;
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/*
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* List of URXEs which are not currently in use (i.e., not filled with
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* unconsumed data). These are moved to the pending list as they are filled.
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*/
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QUIC_URXE_LIST urx_free;
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/*
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* List of URXEs which are filled with received encrypted data. These are
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* removed from this list as we invoke the callbacks for each of them. They
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* are then not on any list managed by us; we forget about them until our
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* user calls ossl_quic_demux_release_urxe to return the URXE to us, at
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* which point we add it to the free list.
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*/
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QUIC_URXE_LIST urx_pending;
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/* Whether to use local address support. */
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char use_local_addr;
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};
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QUIC_DEMUX *ossl_quic_demux_new(BIO *net_bio,
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size_t short_conn_id_len,
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OSSL_TIME (*now)(void *arg),
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void *now_arg)
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{
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QUIC_DEMUX *demux;
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demux = OPENSSL_zalloc(sizeof(QUIC_DEMUX));
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if (demux == NULL)
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return NULL;
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demux->net_bio = net_bio;
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demux->short_conn_id_len = short_conn_id_len;
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/* We update this if possible when we get a BIO. */
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demux->mtu = DEMUX_DEFAULT_MTU;
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demux->now = now;
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demux->now_arg = now_arg;
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demux->conns_by_id
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= lh_QUIC_DEMUX_CONN_new(demux_conn_hash, demux_conn_cmp);
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if (demux->conns_by_id == NULL) {
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OPENSSL_free(demux);
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return NULL;
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}
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if (net_bio != NULL
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&& BIO_dgram_get_local_addr_cap(net_bio)
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&& BIO_dgram_set_local_addr_enable(net_bio, 1))
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demux->use_local_addr = 1;
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return demux;
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}
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static void demux_free_conn_it(QUIC_DEMUX_CONN *conn, void *arg)
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{
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OPENSSL_free(conn);
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}
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static void demux_free_urxl(QUIC_URXE_LIST *l)
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{
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QUIC_URXE *e, *enext;
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for (e = ossl_list_urxe_head(l); e != NULL; e = enext) {
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enext = ossl_list_urxe_next(e);
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ossl_list_urxe_remove(l, e);
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OPENSSL_free(e);
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}
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}
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void ossl_quic_demux_free(QUIC_DEMUX *demux)
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{
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if (demux == NULL)
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return;
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/* Free all connection structures. */
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lh_QUIC_DEMUX_CONN_doall_arg(demux->conns_by_id, demux_free_conn_it, NULL);
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lh_QUIC_DEMUX_CONN_free(demux->conns_by_id);
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/* Free all URXEs we are holding. */
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demux_free_urxl(&demux->urx_free);
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demux_free_urxl(&demux->urx_pending);
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OPENSSL_free(demux);
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}
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void ossl_quic_demux_set_bio(QUIC_DEMUX *demux, BIO *net_bio)
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{
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unsigned int mtu;
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demux->net_bio = net_bio;
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if (net_bio != NULL) {
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/*
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* Try to determine our MTU if possible. The BIO is not required to
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* support this, in which case we remain at the last known MTU, or our
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* initial default.
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*/
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mtu = BIO_dgram_get_mtu(net_bio);
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if (mtu >= QUIC_MIN_INITIAL_DGRAM_LEN)
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ossl_quic_demux_set_mtu(demux, mtu); /* best effort */
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}
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}
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int ossl_quic_demux_set_mtu(QUIC_DEMUX *demux, unsigned int mtu)
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{
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if (mtu < QUIC_MIN_INITIAL_DGRAM_LEN)
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return 0;
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demux->mtu = mtu;
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return 1;
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}
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static QUIC_DEMUX_CONN *demux_get_by_conn_id(QUIC_DEMUX *demux,
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const QUIC_CONN_ID *dst_conn_id)
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{
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QUIC_DEMUX_CONN key;
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if (dst_conn_id->id_len > QUIC_MAX_CONN_ID_LEN)
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return NULL;
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key.dst_conn_id = *dst_conn_id;
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return lh_QUIC_DEMUX_CONN_retrieve(demux->conns_by_id, &key);
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}
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int ossl_quic_demux_register(QUIC_DEMUX *demux,
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const QUIC_CONN_ID *dst_conn_id,
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ossl_quic_demux_cb_fn *cb, void *cb_arg)
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{
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QUIC_DEMUX_CONN *conn;
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if (dst_conn_id == NULL
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|| dst_conn_id->id_len > QUIC_MAX_CONN_ID_LEN
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|| cb == NULL)
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return 0;
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/* Ensure not already registered. */
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if (demux_get_by_conn_id(demux, dst_conn_id) != NULL)
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/* Handler already registered with this connection ID. */
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return 0;
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conn = OPENSSL_zalloc(sizeof(QUIC_DEMUX_CONN));
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if (conn == NULL)
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return 0;
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conn->dst_conn_id = *dst_conn_id;
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conn->cb = cb;
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conn->cb_arg = cb_arg;
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lh_QUIC_DEMUX_CONN_insert(demux->conns_by_id, conn);
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return 1;
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}
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static void demux_unregister(QUIC_DEMUX *demux,
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QUIC_DEMUX_CONN *conn)
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{
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lh_QUIC_DEMUX_CONN_delete(demux->conns_by_id, conn);
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OPENSSL_free(conn);
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}
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int ossl_quic_demux_unregister(QUIC_DEMUX *demux,
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const QUIC_CONN_ID *dst_conn_id)
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{
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QUIC_DEMUX_CONN *conn;
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if (dst_conn_id == NULL
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|| dst_conn_id->id_len > QUIC_MAX_CONN_ID_LEN)
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return 0;
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conn = demux_get_by_conn_id(demux, dst_conn_id);
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if (conn == NULL)
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return 0;
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demux_unregister(demux, conn);
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return 1;
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}
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struct unreg_arg {
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ossl_quic_demux_cb_fn *cb;
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void *cb_arg;
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QUIC_DEMUX_CONN *head;
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};
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static void demux_unregister_by_cb(QUIC_DEMUX_CONN *conn, void *arg_)
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{
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struct unreg_arg *arg = arg_;
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if (conn->cb == arg->cb && conn->cb_arg == arg->cb_arg) {
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conn->next = arg->head;
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arg->head = conn;
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}
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}
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void ossl_quic_demux_unregister_by_cb(QUIC_DEMUX *demux,
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ossl_quic_demux_cb_fn *cb,
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void *cb_arg)
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{
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QUIC_DEMUX_CONN *conn, *cnext;
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struct unreg_arg arg = {0};
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arg.cb = cb;
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arg.cb_arg = cb_arg;
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lh_QUIC_DEMUX_CONN_doall_arg(demux->conns_by_id,
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demux_unregister_by_cb, &arg);
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for (conn = arg.head; conn != NULL; conn = cnext) {
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cnext = conn->next;
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demux_unregister(demux, conn);
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}
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}
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void ossl_quic_demux_set_default_handler(QUIC_DEMUX *demux,
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ossl_quic_demux_cb_fn *cb,
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void *cb_arg)
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{
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demux->default_cb = cb;
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demux->default_cb_arg = cb_arg;
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}
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static QUIC_URXE *demux_alloc_urxe(size_t alloc_len)
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{
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QUIC_URXE *e;
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if (alloc_len >= SIZE_MAX - sizeof(QUIC_URXE))
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return NULL;
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e = OPENSSL_malloc(sizeof(QUIC_URXE) + alloc_len);
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if (e == NULL)
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return NULL;
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ossl_list_urxe_init_elem(e);
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e->alloc_len = alloc_len;
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e->data_len = 0;
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return e;
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}
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static QUIC_URXE *demux_resize_urxe(QUIC_DEMUX *demux, QUIC_URXE *e,
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size_t new_alloc_len)
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{
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QUIC_URXE *e2, *prev;
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if (!ossl_assert(e->demux_state == URXE_DEMUX_STATE_FREE))
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/* Never attempt to resize a URXE which is not on the free list. */
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return NULL;
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prev = ossl_list_urxe_prev(e);
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ossl_list_urxe_remove(&demux->urx_free, e);
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e2 = OPENSSL_realloc(e, sizeof(QUIC_URXE) + new_alloc_len);
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if (e2 == NULL) {
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/* Failed to resize, abort. */
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if (prev == NULL)
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ossl_list_urxe_insert_head(&demux->urx_free, e);
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else
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ossl_list_urxe_insert_after(&demux->urx_free, prev, e);
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return NULL;
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}
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if (prev == NULL)
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ossl_list_urxe_insert_head(&demux->urx_free, e2);
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else
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ossl_list_urxe_insert_after(&demux->urx_free, prev, e2);
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e2->alloc_len = new_alloc_len;
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return e2;
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}
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static QUIC_URXE *demux_reserve_urxe(QUIC_DEMUX *demux, QUIC_URXE *e,
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size_t alloc_len)
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{
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return e->alloc_len < alloc_len ? demux_resize_urxe(demux, e, alloc_len) : e;
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}
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static int demux_ensure_free_urxe(QUIC_DEMUX *demux, size_t min_num_free)
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{
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QUIC_URXE *e;
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while (ossl_list_urxe_num(&demux->urx_free) < min_num_free) {
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e = demux_alloc_urxe(demux->mtu);
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if (e == NULL)
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return 0;
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ossl_list_urxe_insert_tail(&demux->urx_free, e);
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e->demux_state = URXE_DEMUX_STATE_FREE;
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}
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return 1;
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}
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/*
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* Receive datagrams from network, placing them into URXEs.
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*
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* Returns 1 on success or 0 on failure.
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*
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* Precondition: at least one URXE is free
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* Precondition: there are no pending URXEs
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*/
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static int demux_recv(QUIC_DEMUX *demux)
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{
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BIO_MSG msg[DEMUX_MAX_MSGS_PER_CALL];
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size_t rd, i;
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QUIC_URXE *urxe = ossl_list_urxe_head(&demux->urx_free), *unext;
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OSSL_TIME now;
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/* This should never be called when we have any pending URXE. */
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assert(ossl_list_urxe_head(&demux->urx_pending) == NULL);
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assert(urxe->demux_state == URXE_DEMUX_STATE_FREE);
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if (demux->net_bio == NULL)
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/*
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* If no BIO is plugged in, treat this as no datagram being available.
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*/
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return QUIC_DEMUX_PUMP_RES_TRANSIENT_FAIL;
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/*
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* Opportunistically receive as many messages as possible in a single
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* syscall, determined by how many free URXEs are available.
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*/
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for (i = 0; i < (ossl_ssize_t)OSSL_NELEM(msg);
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++i, urxe = ossl_list_urxe_next(urxe)) {
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if (urxe == NULL) {
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/* We need at least one URXE to receive into. */
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if (!ossl_assert(i > 0))
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return QUIC_DEMUX_PUMP_RES_PERMANENT_FAIL;
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break;
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}
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/* Ensure the URXE is big enough. */
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urxe = demux_reserve_urxe(demux, urxe, demux->mtu);
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if (urxe == NULL)
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/* Allocation error, fail. */
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return QUIC_DEMUX_PUMP_RES_PERMANENT_FAIL;
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/* Ensure we zero any fields added to BIO_MSG at a later date. */
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memset(&msg[i], 0, sizeof(BIO_MSG));
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msg[i].data = ossl_quic_urxe_data(urxe);
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msg[i].data_len = urxe->alloc_len;
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msg[i].peer = &urxe->peer;
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BIO_ADDR_clear(&urxe->peer);
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if (demux->use_local_addr)
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msg[i].local = &urxe->local;
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else
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BIO_ADDR_clear(&urxe->local);
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}
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ERR_set_mark();
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if (!BIO_recvmmsg(demux->net_bio, msg, sizeof(BIO_MSG), i, 0, &rd)) {
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if (BIO_err_is_non_fatal(ERR_peek_last_error())) {
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/* Transient error, clear the error and stop. */
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ERR_pop_to_mark();
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return QUIC_DEMUX_PUMP_RES_TRANSIENT_FAIL;
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} else {
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/* Non-transient error, do not clear the error. */
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ERR_clear_last_mark();
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return QUIC_DEMUX_PUMP_RES_PERMANENT_FAIL;
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}
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}
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ERR_clear_last_mark();
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now = demux->now != NULL ? demux->now(demux->now_arg) : ossl_time_zero();
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urxe = ossl_list_urxe_head(&demux->urx_free);
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for (i = 0; i < rd; ++i, urxe = unext) {
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unext = ossl_list_urxe_next(urxe);
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/* Set URXE with actual length of received datagram. */
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urxe->data_len = msg[i].data_len;
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/* Time we received datagram. */
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urxe->time = now;
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/* Move from free list to pending list. */
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ossl_list_urxe_remove(&demux->urx_free, urxe);
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ossl_list_urxe_insert_tail(&demux->urx_pending, urxe);
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urxe->demux_state = URXE_DEMUX_STATE_PENDING;
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}
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return QUIC_DEMUX_PUMP_RES_OK;
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}
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/* Extract destination connection ID from the first packet in a datagram. */
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static int demux_identify_conn_id(QUIC_DEMUX *demux,
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QUIC_URXE *e,
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QUIC_CONN_ID *dst_conn_id)
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{
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return ossl_quic_wire_get_pkt_hdr_dst_conn_id(ossl_quic_urxe_data(e),
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e->data_len,
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demux->short_conn_id_len,
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dst_conn_id);
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}
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/* Identify the connection structure corresponding to a given URXE. */
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static QUIC_DEMUX_CONN *demux_identify_conn(QUIC_DEMUX *demux, QUIC_URXE *e)
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{
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QUIC_CONN_ID dst_conn_id;
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if (!demux_identify_conn_id(demux, e, &dst_conn_id))
|
|
/*
|
|
* Datagram is so badly malformed we can't get the DCID from the first
|
|
* packet in it, so just give up.
|
|
*/
|
|
return NULL;
|
|
|
|
return demux_get_by_conn_id(demux, &dst_conn_id);
|
|
}
|
|
|
|
/* Process a single pending URXE. */
|
|
static int demux_process_pending_urxe(QUIC_DEMUX *demux, QUIC_URXE *e)
|
|
{
|
|
QUIC_DEMUX_CONN *conn;
|
|
|
|
/* The next URXE we process should be at the head of the pending list. */
|
|
if (!ossl_assert(e == ossl_list_urxe_head(&demux->urx_pending)))
|
|
return 0;
|
|
|
|
assert(e->demux_state == URXE_DEMUX_STATE_PENDING);
|
|
|
|
conn = demux_identify_conn(demux, e);
|
|
if (conn == NULL) {
|
|
/*
|
|
* We could not identify a connection. If we have a default packet
|
|
* handler, pass it to the handler. Otherwise, we will never be able to
|
|
* process this datagram, so get rid of it.
|
|
*/
|
|
ossl_list_urxe_remove(&demux->urx_pending, e);
|
|
if (demux->default_cb != NULL) {
|
|
/* Pass to default handler. */
|
|
e->demux_state = URXE_DEMUX_STATE_ISSUED;
|
|
demux->default_cb(e, demux->default_cb_arg);
|
|
} else {
|
|
/* Discard. */
|
|
ossl_list_urxe_insert_tail(&demux->urx_free, e);
|
|
e->demux_state = URXE_DEMUX_STATE_FREE;
|
|
}
|
|
return 1; /* keep processing pending URXEs */
|
|
}
|
|
|
|
/*
|
|
* Remove from list and invoke callback. The URXE now belongs to the
|
|
* callback. (QUIC_DEMUX_CONN never has non-NULL cb.)
|
|
*/
|
|
ossl_list_urxe_remove(&demux->urx_pending, e);
|
|
e->demux_state = URXE_DEMUX_STATE_ISSUED;
|
|
conn->cb(e, conn->cb_arg);
|
|
return 1;
|
|
}
|
|
|
|
/* Process pending URXEs to generate callbacks. */
|
|
static int demux_process_pending_urxl(QUIC_DEMUX *demux)
|
|
{
|
|
QUIC_URXE *e;
|
|
|
|
while ((e = ossl_list_urxe_head(&demux->urx_pending)) != NULL)
|
|
if (!demux_process_pending_urxe(demux, e))
|
|
return 0;
|
|
|
|
return 1;
|
|
}
|
|
|
|
/*
|
|
* Drain the pending URXE list, processing any pending URXEs by making their
|
|
* callbacks. If no URXEs are pending, a network read is attempted first.
|
|
*/
|
|
int ossl_quic_demux_pump(QUIC_DEMUX *demux)
|
|
{
|
|
int ret;
|
|
|
|
if (ossl_list_urxe_head(&demux->urx_pending) == NULL) {
|
|
ret = demux_ensure_free_urxe(demux, DEMUX_MAX_MSGS_PER_CALL);
|
|
if (ret != 1)
|
|
return QUIC_DEMUX_PUMP_RES_PERMANENT_FAIL;
|
|
|
|
ret = demux_recv(demux);
|
|
if (ret != QUIC_DEMUX_PUMP_RES_OK)
|
|
return ret;
|
|
|
|
/*
|
|
* If demux_recv returned successfully, we should always have something.
|
|
*/
|
|
assert(ossl_list_urxe_head(&demux->urx_pending) != NULL);
|
|
}
|
|
|
|
if (!demux_process_pending_urxl(demux))
|
|
return QUIC_DEMUX_PUMP_RES_PERMANENT_FAIL;
|
|
|
|
return QUIC_DEMUX_PUMP_RES_OK;
|
|
}
|
|
|
|
/* Artificially inject a packet into the demuxer for testing purposes. */
|
|
int ossl_quic_demux_inject(QUIC_DEMUX *demux,
|
|
const unsigned char *buf,
|
|
size_t buf_len,
|
|
const BIO_ADDR *peer,
|
|
const BIO_ADDR *local)
|
|
{
|
|
int ret;
|
|
QUIC_URXE *urxe;
|
|
|
|
ret = demux_ensure_free_urxe(demux, 1);
|
|
if (ret != 1)
|
|
return 0;
|
|
|
|
urxe = ossl_list_urxe_head(&demux->urx_free);
|
|
|
|
assert(urxe->demux_state == URXE_DEMUX_STATE_FREE);
|
|
|
|
urxe = demux_reserve_urxe(demux, urxe, buf_len);
|
|
if (urxe == NULL)
|
|
return 0;
|
|
|
|
memcpy(ossl_quic_urxe_data(urxe), buf, buf_len);
|
|
urxe->data_len = buf_len;
|
|
|
|
if (peer != NULL)
|
|
urxe->peer = *peer;
|
|
else
|
|
BIO_ADDR_clear(&urxe->peer);
|
|
|
|
if (local != NULL)
|
|
urxe->local = *local;
|
|
else
|
|
BIO_ADDR_clear(&urxe->local);
|
|
|
|
urxe->time
|
|
= demux->now != NULL ? demux->now(demux->now_arg) : ossl_time_zero();
|
|
|
|
/* Move from free list to pending list. */
|
|
ossl_list_urxe_remove(&demux->urx_free, urxe);
|
|
ossl_list_urxe_insert_tail(&demux->urx_pending, urxe);
|
|
urxe->demux_state = URXE_DEMUX_STATE_PENDING;
|
|
|
|
return demux_process_pending_urxl(demux);
|
|
}
|
|
|
|
/* Called by our user to return a URXE to the free list. */
|
|
void ossl_quic_demux_release_urxe(QUIC_DEMUX *demux,
|
|
QUIC_URXE *e)
|
|
{
|
|
assert(ossl_list_urxe_prev(e) == NULL && ossl_list_urxe_next(e) == NULL);
|
|
assert(e->demux_state == URXE_DEMUX_STATE_ISSUED);
|
|
ossl_list_urxe_insert_tail(&demux->urx_free, e);
|
|
e->demux_state = URXE_DEMUX_STATE_FREE;
|
|
}
|
|
|
|
void ossl_quic_demux_reinject_urxe(QUIC_DEMUX *demux,
|
|
QUIC_URXE *e)
|
|
{
|
|
assert(ossl_list_urxe_prev(e) == NULL && ossl_list_urxe_next(e) == NULL);
|
|
assert(e->demux_state == URXE_DEMUX_STATE_ISSUED);
|
|
ossl_list_urxe_insert_head(&demux->urx_pending, e);
|
|
e->demux_state = URXE_DEMUX_STATE_PENDING;
|
|
}
|