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|
/*
* Copyright (c) 2019 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <sys/socket.h>
#include <vnet/session/application.h>
#include <vnet/session/transport.h>
#include <vnet/session/session.h>
#include <vlib/unix/plugin.h>
#include <vpp/app/version.h>
#include <openssl/pem.h>
#include <vppinfra/lock.h>
#include <quic/quic.h>
#include <quicly/streambuf.h>
#include <picotls/openssl.h>
#include <picotls/pembase64.h>
static quic_main_t quic_main;
static void quic_update_timer (quic_ctx_t * ctx);
static int64_t quic_get_time (quicly_now_cb * self);
static void quic_connection_closed (u32 conn_index);
static void quic_disconnect (u32 ctx_index, u32 thread_index);
#define QUIC_INT_MAX 0x3FFFFFFFFFFFFFFF
u32
quic_ctx_half_open_alloc (void)
{
quic_main_t *qm = &quic_main;
u8 will_expand = 0;
quic_ctx_t *ctx;
u32 ctx_index;
pool_get_aligned_will_expand (qm->half_open_ctx_pool, will_expand, 0);
if (PREDICT_FALSE (will_expand && vlib_num_workers ()))
{
clib_rwlock_writer_lock (&qm->half_open_rwlock);
pool_get (qm->half_open_ctx_pool, ctx);
ctx_index = ctx - qm->half_open_ctx_pool;
clib_rwlock_writer_unlock (&qm->half_open_rwlock);
}
else
{
/* reader lock assumption: only main thread will call pool_get */
clib_rwlock_reader_lock (&qm->half_open_rwlock);
pool_get (qm->half_open_ctx_pool, ctx);
ctx_index = ctx - qm->half_open_ctx_pool;
clib_rwlock_reader_unlock (&qm->half_open_rwlock);
}
memset (ctx, 0, sizeof (*ctx));
return ctx_index;
}
void
quic_ctx_half_open_free (u32 ho_index)
{
quic_main_t *qm = &quic_main;
clib_rwlock_writer_lock (&qm->half_open_rwlock);
pool_put_index (qm->half_open_ctx_pool, ho_index);
clib_rwlock_writer_unlock (&qm->half_open_rwlock);
}
quic_ctx_t *
quic_ctx_half_open_get (u32 ctx_index)
{
quic_main_t *qm = &quic_main;
clib_rwlock_reader_lock (&qm->half_open_rwlock);
return pool_elt_at_index (qm->half_open_ctx_pool, ctx_index);
}
void
quic_ctx_half_open_reader_unlock ()
{
clib_rwlock_reader_unlock (&quic_main.half_open_rwlock);
}
u32
quic_ctx_half_open_index (quic_ctx_t * ctx)
{
return (ctx - quic_main.half_open_ctx_pool);
}
u32
quic_ctx_alloc ()
{
u8 thread_index = vlib_get_thread_index ();
quic_main_t *qm = &quic_main;
quic_ctx_t *ctx;
pool_get (qm->ctx_pool[thread_index], ctx);
memset (ctx, 0, sizeof (quic_ctx_t));
ctx->c_thread_index = thread_index;
return ctx - qm->ctx_pool[thread_index];
}
static void
quic_ctx_free (quic_ctx_t * ctx)
{
QUIC_DBG (2, "Free ctx %u", ctx->c_c_index);
u32 thread_index = ctx->c_thread_index;
if (CLIB_DEBUG)
memset (ctx, 0xfb, sizeof (*ctx));
pool_put (quic_main.ctx_pool[thread_index], ctx);
}
static quic_ctx_t *
quic_ctx_get (u32 ctx_index)
{
return pool_elt_at_index (quic_main.ctx_pool[vlib_get_thread_index ()],
ctx_index);
}
static quic_ctx_t *
quic_ctx_get_w_thread (u32 ctx_index, u8 thread_index)
{
return pool_elt_at_index (quic_main.ctx_pool[thread_index], ctx_index);
}
static void
quic_disconnect_transport (quic_ctx_t * ctx)
{
QUIC_DBG (2, "Called quic_disconnect_transport");
vnet_disconnect_args_t a = {
.handle = ctx->c_quic_ctx_id.quic_session,
.app_index = quic_main.app_index,
};
if (vnet_disconnect_session (&a))
clib_warning ("UDP session disconnect errored");
}
static int
quic_send_datagram (session_t * session, quicly_datagram_t * packet)
{
QUIC_DBG (2, "Called quic_send_datagram at %ld", quic_get_time (NULL));
u32 max_enqueue;
session_dgram_hdr_t hdr;
int rv;
u32 len;
svm_fifo_t *f;
transport_connection_t *tc;
len = packet->data.len;
f = session->tx_fifo;
tc = session_get_transport (session);
max_enqueue = svm_fifo_max_enqueue (f);
if (max_enqueue <= sizeof (session_dgram_hdr_t))
return 1;
max_enqueue -= sizeof (session_dgram_hdr_t);
if (max_enqueue < len)
return 1;
// Build packet header for fifo
hdr.data_length = len;
hdr.data_offset = 0;
hdr.is_ip4 = tc->is_ip4;
clib_memcpy (&hdr.lcl_ip, &tc->lcl_ip, sizeof (ip46_address_t));
hdr.lcl_port = tc->lcl_port;
// Read dest address from quicly-provided sockaddr
if (hdr.is_ip4)
{
ASSERT (packet->sa.sa_family == AF_INET);
struct sockaddr_in *sa4 = (struct sockaddr_in *) &packet->sa;
hdr.rmt_port = sa4->sin_port;
hdr.rmt_ip.ip4.as_u32 = sa4->sin_addr.s_addr;
}
else
{
ASSERT (packet->sa.sa_family == AF_INET6);
struct sockaddr_in6 *sa6 = (struct sockaddr_in6 *) &packet->sa;
hdr.rmt_port = sa6->sin6_port;
clib_memcpy (&hdr.rmt_ip.ip6, &sa6->sin6_addr, 16);
}
rv = svm_fifo_enqueue_nowait (f, sizeof (hdr), (u8 *) & hdr);
ASSERT (rv == sizeof (hdr));
if (svm_fifo_enqueue_nowait (f, len, packet->data.base) != len)
return 1;
return 0;
}
static int
quic_send_packets (quic_ctx_t * ctx)
{
//QUIC_DBG (2, "Called quic_send_packets");
quicly_datagram_t *packets[16];
session_t *quic_session;
quicly_conn_t *conn;
size_t num_packets, i;
int ret;
quic_session = session_get_from_handle (ctx->c_quic_ctx_id.quic_session);
conn = ctx->c_quic_ctx_id.conn;
if (!conn)
return 0;
do
{
num_packets = sizeof (packets) / sizeof (packets[0]);
if ((ret = quicly_send (conn, packets, &num_packets)) == 0)
{
for (i = 0; i != num_packets; ++i)
{
if (quic_send_datagram (quic_session, packets[i]))
{
QUIC_DBG (2, "quic_send_datagram failed");
goto stop_sending;
}
ret = 0;
quicly_default_free_packet_cb.cb
(&quicly_default_free_packet_cb, packets[i]);
}
}
else
{
QUIC_DBG (2, "quicly_send returned %d, closing connection\n", ret);
return ret;
}
}
while (ret == 0 && num_packets == sizeof (packets) / sizeof (packets[0]));
stop_sending:
if (svm_fifo_set_event (quic_session->tx_fifo))
session_send_io_evt_to_thread (quic_session->tx_fifo, FIFO_EVENT_APP_TX);
quic_update_timer (ctx);
return 0;
}
/*****************************************************************************
* START QUICLY CALLBACKS
* Called from QUIC lib
*****************************************************************************/
static int
quic_on_stop_sending (quicly_stream_t * stream, int error_code)
{
QUIC_DBG (2, "received STOP_SENDING: %d", error_code);
return 0;
}
static int
quic_on_receive_reset (quicly_stream_t * stream, int error_code)
{
QUIC_DBG (2, "received RESET_STREAM: %d", error_code);
return 0;
}
static int
quic_on_receive (quicly_stream_t * stream, size_t off, const void *src,
size_t len)
{
QUIC_DBG (2, "received data: %lu bytes", len);
u32 to_enqueue, ctx_id;
quic_ctx_t *ctx;
session_t *app_session;
svm_fifo_t *rx_fifo;
app_worker_t *app_wrk;
ctx_id = (u64) * quicly_get_data (stream->conn);
ctx = quic_ctx_get (ctx_id);
app_session = session_get_from_handle (ctx->c_quic_ctx_id.app_session);
rx_fifo = app_session->rx_fifo;
to_enqueue = svm_fifo_max_enqueue (rx_fifo);
if (to_enqueue > len)
to_enqueue = len;
// TODO what happens to the excess bytes?
svm_fifo_enqueue_nowait (rx_fifo, to_enqueue, src);
// Notify app
app_wrk = app_worker_get_if_valid (app_session->app_wrk_index);
if (PREDICT_TRUE (app_wrk != 0))
app_worker_lock_and_send_event (app_wrk, app_session, SESSION_IO_EVT_RX);
return 0;
}
static const quicly_stream_callbacks_t quic_stream_callbacks = {
.on_destroy = quicly_streambuf_destroy,
.on_send_shift = quicly_streambuf_egress_shift,
.on_send_emit = quicly_streambuf_egress_emit,
.on_send_stop = quic_on_stop_sending,
.on_receive = quic_on_receive,
.on_receive_reset = quic_on_receive_reset
};
static int
quic_on_stream_open (quicly_stream_open_cb * self, quicly_stream_t * stream)
{
QUIC_DBG (2, "on_stream_open called");
int ret;
if ((ret =
quicly_streambuf_create (stream, sizeof (quicly_streambuf_t))) != 0)
{
return ret;
}
stream->callbacks = &quic_stream_callbacks;
return 0;
}
static quicly_stream_open_cb on_stream_open = { &quic_on_stream_open };
static void
quic_on_conn_close (quicly_closed_by_peer_cb * self, quicly_conn_t * conn,
int code, uint64_t frame_type,
const char *reason, size_t reason_len)
{
QUIC_DBG (2, "connection closed, reason: %s", reason);
u32 ctx_index = (u64) * quicly_get_data (conn);
quic_connection_closed (ctx_index);
}
static quicly_closed_by_peer_cb on_closed_by_peer = { &quic_on_conn_close };
/*****************************************************************************
* END QUICLY CALLBACKS
*****************************************************************************/
/* single-entry session cache */
struct st_util_session_cache_t
{
ptls_encrypt_ticket_t super;
uint8_t id[32];
ptls_iovec_t data;
};
static int
encrypt_ticket_cb (ptls_encrypt_ticket_t * _self, ptls_t * tls,
int is_encrypt, ptls_buffer_t * dst, ptls_iovec_t src)
{
struct st_util_session_cache_t *self = (void *) _self;
int ret;
if (is_encrypt)
{
/* replace the cached entry along with a newly generated session id */
free (self->data.base);
if ((self->data.base = malloc (src.len)) == NULL)
return PTLS_ERROR_NO_MEMORY;
ptls_get_context (tls)->random_bytes (self->id, sizeof (self->id));
memcpy (self->data.base, src.base, src.len);
self->data.len = src.len;
/* store the session id in buffer */
if ((ret = ptls_buffer_reserve (dst, sizeof (self->id))) != 0)
return ret;
memcpy (dst->base + dst->off, self->id, sizeof (self->id));
dst->off += sizeof (self->id);
}
else
{
/* check if session id is the one stored in cache */
if (src.len != sizeof (self->id))
return PTLS_ERROR_SESSION_NOT_FOUND;
if (memcmp (self->id, src.base, sizeof (self->id)) != 0)
return PTLS_ERROR_SESSION_NOT_FOUND;
/* return the cached value */
if ((ret = ptls_buffer_reserve (dst, self->data.len)) != 0)
return ret;
memcpy (dst->base + dst->off, self->data.base, self->data.len);
dst->off += self->data.len;
}
return 0;
}
static struct st_util_session_cache_t sc = {
.super = {
.cb = encrypt_ticket_cb,
},
};
/* *INDENT-OFF* */
static ptls_context_t quic_tlsctx = {
.random_bytes = ptls_openssl_random_bytes,
.get_time = &ptls_get_time,
.key_exchanges = ptls_openssl_key_exchanges,
.cipher_suites = ptls_openssl_cipher_suites,
.certificates = {
.list = NULL,
.count = 0
},
.esni = NULL,
.on_client_hello = NULL,
.emit_certificate = NULL,
.sign_certificate = NULL,
.verify_certificate = NULL,
.ticket_lifetime = 86400,
.max_early_data_size = 8192,
.hkdf_label_prefix__obsolete = NULL,
.require_dhe_on_psk = 1,
.encrypt_ticket = &sc.super,
};
/* *INDENT-ON* */
static int
ptls_compare_separator_line (const char *line, const char *begin_or_end,
const char *label)
{
int ret = strncmp (line, "-----", 5);
size_t text_index = 5;
if (ret == 0)
{
size_t begin_or_end_length = strlen (begin_or_end);
ret = strncmp (line + text_index, begin_or_end, begin_or_end_length);
text_index += begin_or_end_length;
}
if (ret == 0)
{
ret = line[text_index] - ' ';
text_index++;
}
if (ret == 0)
{
size_t label_length = strlen (label);
ret = strncmp (line + text_index, label, label_length);
text_index += label_length;
}
if (ret == 0)
{
ret = strncmp (line + text_index, "-----", 5);
}
return ret;
}
static int
ptls_get_bio_pem_object (BIO * bio, const char *label, ptls_buffer_t * buf)
{
int ret = PTLS_ERROR_PEM_LABEL_NOT_FOUND;
char line[256];
ptls_base64_decode_state_t state;
/* Get the label on a line by itself */
while (BIO_gets (bio, line, 256))
{
if (ptls_compare_separator_line (line, "BEGIN", label) == 0)
{
ret = 0;
ptls_base64_decode_init (&state);
break;
}
}
/* Get the data in the buffer */
while (ret == 0 && BIO_gets (bio, line, 256))
{
if (ptls_compare_separator_line (line, "END", label) == 0)
{
if (state.status == PTLS_BASE64_DECODE_DONE
|| (state.status == PTLS_BASE64_DECODE_IN_PROGRESS
&& state.nbc == 0))
{
ret = 0;
}
else
{
ret = PTLS_ERROR_INCORRECT_BASE64;
}
break;
}
else
{
ret = ptls_base64_decode (line, &state, buf);
}
}
return ret;
}
int
ptls_load_bio_pem_objects (BIO * bio, const char *label, ptls_iovec_t * list,
size_t list_max, size_t * nb_objects)
{
int ret = 0;
size_t count = 0;
*nb_objects = 0;
if (ret == 0)
{
while (count < list_max)
{
ptls_buffer_t buf;
ptls_buffer_init (&buf, "", 0);
ret = ptls_get_bio_pem_object (bio, label, &buf);
if (ret == 0)
{
if (buf.off > 0 && buf.is_allocated)
{
list[count].base = buf.base;
list[count].len = buf.off;
count++;
}
else
{
ptls_buffer_dispose (&buf);
}
}
else
{
ptls_buffer_dispose (&buf);
break;
}
}
}
if (ret == PTLS_ERROR_PEM_LABEL_NOT_FOUND && count > 0)
{
ret = 0;
}
*nb_objects = count;
return ret;
}
#define PTLS_MAX_CERTS_IN_CONTEXT 16
int
ptls_load_bio_certificates (ptls_context_t * ctx, BIO * bio)
{
int ret = 0;
ctx->certificates.list =
(ptls_iovec_t *) malloc (PTLS_MAX_CERTS_IN_CONTEXT *
sizeof (ptls_iovec_t));
if (ctx->certificates.list == NULL)
{
ret = PTLS_ERROR_NO_MEMORY;
}
else
{
ret =
ptls_load_bio_pem_objects (bio, "CERTIFICATE", ctx->certificates.list,
PTLS_MAX_CERTS_IN_CONTEXT,
&ctx->certificates.count);
}
return ret;
}
static inline void
load_bio_certificate_chain (ptls_context_t * ctx, const char *cert_data)
{
BIO *cert_bio;
cert_bio = BIO_new_mem_buf (cert_data, -1);
if (ptls_load_bio_certificates (ctx, cert_bio) != 0)
{
BIO_free (cert_bio);
fprintf (stderr, "failed to load certificate:%s\n", strerror (errno));
exit (1);
}
BIO_free (cert_bio);
}
static inline void
load_bio_private_key (ptls_context_t * ctx, const char *pk_data)
{
static ptls_openssl_sign_certificate_t sc;
EVP_PKEY *pkey;
BIO *key_bio;
key_bio = BIO_new_mem_buf (pk_data, -1);
pkey = PEM_read_bio_PrivateKey (key_bio, NULL, NULL, NULL);
BIO_free (key_bio);
if (pkey == NULL)
{
fprintf (stderr, "failed to read private key from app configuration\n");
exit (1);
}
ptls_openssl_init_sign_certificate (&sc, pkey);
EVP_PKEY_free (pkey);
ctx->sign_certificate = &sc.super;
}
static void
quic_connection_closed (u32 ctx_index)
{
QUIC_DBG (2, "QUIC connection closed");
quic_ctx_t *ctx;
ctx = quic_ctx_get (ctx_index);
// TODO if connection is not established, just delete the session
// Do not try to send anything anymore
ctx->stream = NULL;
quicly_free (ctx->c_quic_ctx_id.conn);
ctx->c_quic_ctx_id.conn = NULL;
session_transport_closing_notify (&ctx->connection);
}
static int64_t
quic_get_time (quicly_now_cb * self)
{
// TODO read value set by set_time_now?
// (needs to change it not to call this function)
vlib_main_t *vlib_main = vlib_get_main ();
f64 time = vlib_time_now (vlib_main);
return (int64_t) (time * 1000.f);
}
quicly_now_cb quicly_vpp_now_cb = { quic_get_time };
static void
allocate_quicly_ctx (application_t * app, u8 is_client)
{
QUIC_DBG (2, "Called allocate_quicly_ctx");
struct
{
quicly_context_t _;
char cid_key[17];
} *ctx_data;
quicly_context_t *quicly_ctx;
char *cid_key;
ctx_data = malloc (sizeof (*ctx_data));
quicly_ctx = &ctx_data->_;
app->quicly_ctx = (u64 *) quicly_ctx;
memcpy (quicly_ctx, &quicly_default_context, sizeof (quicly_context_t));
quicly_ctx->tls = &quic_tlsctx;
quicly_ctx->stream_open = &on_stream_open;
quicly_ctx->closed_by_peer = &on_closed_by_peer;
quicly_ctx->now = &quicly_vpp_now_cb;
quicly_amend_ptls_context (quicly_ctx->tls);
quicly_ctx->event_log.mask = INT64_MAX;
quicly_ctx->event_log.cb = quicly_new_default_event_log_cb (stderr);
quicly_ctx->transport_params.max_data = QUIC_INT_MAX;
quicly_ctx->transport_params.max_streams_uni = QUIC_INT_MAX;
quicly_ctx->transport_params.max_streams_bidi = QUIC_INT_MAX;
quicly_ctx->transport_params.max_stream_data.bidi_local = QUIC_INT_MAX;
quicly_ctx->transport_params.max_stream_data.bidi_remote = QUIC_INT_MAX;
quicly_ctx->transport_params.max_stream_data.uni = QUIC_INT_MAX;
if (!is_client)
{
load_bio_private_key (quicly_ctx->tls, (char *) app->tls_key);
load_bio_certificate_chain (quicly_ctx->tls, (char *) app->tls_cert);
cid_key = ctx_data->cid_key;
quicly_ctx->tls->random_bytes (cid_key, 16);
cid_key[16] = 0;
quicly_ctx->encrypt_cid =
quicly_new_default_encrypt_cid_cb (&ptls_openssl_bfecb,
&ptls_openssl_sha256,
ptls_iovec_init (cid_key,
strlen
(cid_key)));
quicly_ctx->decrypt_cid =
quicly_new_default_decrypt_cid_cb (&ptls_openssl_bfecb,
&ptls_openssl_sha256,
ptls_iovec_init (cid_key,
strlen
(cid_key)));
}
}
/*****************************************************************************
* BEGIN TIMERS HANDLING
*****************************************************************************/
static u32
quic_set_time_now (u32 thread_index)
{
quic_main.wrk_ctx[thread_index].time_now = quic_get_time (NULL);
return quic_main.wrk_ctx[thread_index].time_now;
}
static void
quic_timer_expired (u32 conn_index)
{
quic_ctx_t *ctx;
QUIC_DBG (2, "Timer expired for conn %u at %ld", conn_index,
quic_get_time (NULL));
ctx = quic_ctx_get (conn_index);
ctx->c_quic_ctx_id.timer_handle = QUIC_TIMER_HANDLE_INVALID;
if (quic_send_packets (ctx))
{
quic_connection_closed (conn_index);
}
}
static void
quic_update_timer (quic_ctx_t * ctx)
{
tw_timer_wheel_1t_3w_1024sl_ov_t *tw;
int64_t next_timeout;
// This timeout is in ms which is the unit of our timer
next_timeout = quicly_get_first_timeout (ctx->c_quic_ctx_id.conn);
tw = &quic_main.wrk_ctx[vlib_get_thread_index ()].timer_wheel;
f64 next_timeout_f = ((f64) next_timeout) / 1000.f;
clib_warning ("Timer set to %ld (%lf)", next_timeout, next_timeout_f);
if (ctx->c_quic_ctx_id.timer_handle == QUIC_TIMER_HANDLE_INVALID)
{
if (next_timeout == INT64_MAX)
return;
ctx->c_quic_ctx_id.timer_handle =
tw_timer_start_1t_3w_1024sl_ov (tw, ctx->c_c_index, 0,
next_timeout_f);
}
else
{
if (next_timeout == INT64_MAX)
{
tw_timer_stop_1t_3w_1024sl_ov (tw, ctx->c_quic_ctx_id.timer_handle);
ctx->c_quic_ctx_id.timer_handle = QUIC_TIMER_HANDLE_INVALID;
}
else
tw_timer_update_1t_3w_1024sl_ov (tw, ctx->c_quic_ctx_id.timer_handle,
next_timeout_f);
}
}
static void
quic_expired_timers_dispatch (u32 * expired_timers)
{
int i;
for (i = 0; i < vec_len (expired_timers); i++)
{
quic_timer_expired (expired_timers[i]);
}
}
/*****************************************************************************
* END TIMERS HANDLING
*
* BEGIN TRANSPORT PROTO FUNCTIONS
*****************************************************************************/
int
quic_connect (transport_endpoint_cfg_t * tep)
{
QUIC_DBG (2, "Called quic_connect");
vnet_connect_args_t _cargs = { {}, }, *cargs = &_cargs;
session_endpoint_cfg_t *sep;
quic_main_t *qm = &quic_main;
quic_ctx_t *ctx;
app_worker_t *app_wrk;
application_t *app;
u32 ctx_index;
int error;
sep = (session_endpoint_cfg_t *) tep;
ctx_index = quic_ctx_half_open_alloc ();
ctx = quic_ctx_half_open_get (ctx_index);
ctx->c_quic_ctx_id.parent_app_wrk_idx = sep->app_wrk_index;
ctx->c_s_index = 0xFAFAFAFA;
ctx->c_quic_ctx_id.udp_is_ip4 = sep->is_ip4;
ctx->c_quic_ctx_id.timer_handle = QUIC_TIMER_HANDLE_INVALID;
ctx->c_quic_ctx_id.conn_state = QUIC_CONN_STATE_HANDSHAKE;
ctx->client_opaque = sep->opaque;
if (sep->hostname)
{
ctx->srv_hostname = format (0, "%v", sep->hostname);
vec_terminate_c_string (ctx->srv_hostname);
}
else
{
// needed by quic for crypto + determining client / server
ctx->srv_hostname =
format (0, "%U", format_ip46_address, &sep->ip, sep->is_ip4);
}
quic_ctx_half_open_reader_unlock ();
clib_memcpy (&cargs->sep, sep, sizeof (session_endpoint_cfg_t));
cargs->sep.transport_proto = TRANSPORT_PROTO_UDP;
cargs->app_index = qm->app_index;
cargs->api_context = ctx_index;
app_wrk = app_worker_get (sep->app_wrk_index);
app = application_get (app_wrk->app_index);
ctx->c_quic_ctx_id.parent_app_id = app_wrk->app_index;
cargs->sep_ext.ns_index = app->ns_index;
allocate_quicly_ctx (app, 1 /* is client */ );
if ((error = vnet_connect (cargs)))
return error;
QUIC_DBG (1, "New connect request %u", ctx_index);
return 0;
}
static void
quic_disconnect (u32 ctx_index, u32 thread_index)
{
QUIC_DBG (2, "Called quic_disconnect");
tw_timer_wheel_1t_3w_1024sl_ov_t *tw;
quic_ctx_t *ctx;
QUIC_DBG (1, "Disconnecting %x", ctx_index);
ctx = quic_ctx_get (ctx_index);
if (ctx->c_quic_ctx_id.timer_handle != QUIC_TIMER_HANDLE_INVALID)
{
tw = &quic_main.wrk_ctx[vlib_get_thread_index ()].timer_wheel;
tw_timer_stop_1t_3w_1024sl_ov (tw, ctx->c_quic_ctx_id.timer_handle);
}
quic_disconnect_transport (ctx);
// This removes the session from the lookup table and frees it.
session_transport_delete_notify (&ctx->connection);
quic_ctx_free (ctx);
}
u32
quic_start_listen (u32 app_listen_session_index, transport_endpoint_t * tep)
{
QUIC_DBG (2, "Called quic_start_listen");
vnet_listen_args_t _bargs, *args = &_bargs;
quic_main_t *qm = &quic_main;
session_handle_t udp_handle;
session_endpoint_cfg_t *sep;
session_t *quic_listen_session, *app_listen_session;
app_worker_t *app_wrk;
application_t *app;
quic_ctx_t *lctx;
u32 lctx_index;
app_listener_t *app_listener;
sep = (session_endpoint_cfg_t *) tep;
app_wrk = app_worker_get (sep->app_wrk_index);
app = application_get (app_wrk->app_index);
allocate_quicly_ctx (app, 0 /* is_client */ );
sep->transport_proto = TRANSPORT_PROTO_UDP;
memset (args, 0, sizeof (*args));
args->app_index = qm->app_index;
args->sep_ext = *sep;
args->sep_ext.ns_index = app->ns_index;
if (vnet_listen (args))
return -1;
lctx_index = quic_ctx_alloc (); // listener
udp_handle = args->handle;
app_listener = app_listener_get_w_handle (udp_handle);
quic_listen_session = app_listener_get_session (app_listener);
quic_listen_session->opaque = lctx_index;
app_listen_session = listen_session_get (app_listen_session_index);
lctx = quic_ctx_get (lctx_index); // listener
lctx->is_listener = 1;
lctx->c_quic_ctx_id.parent_app_wrk_idx = sep->app_wrk_index;
lctx->c_quic_ctx_id.parent_app_id = app_wrk->app_index;
lctx->c_quic_ctx_id.quic_session = udp_handle;
lctx->c_quic_ctx_id.app_session =
listen_session_get_handle (app_listen_session);
lctx->c_quic_ctx_id.udp_is_ip4 = sep->is_ip4;
QUIC_DBG (1, "Started listening %d", lctx_index);
return lctx_index;
}
u32
quic_stop_listen (u32 lctx_index)
{
QUIC_DBG (2, "Called quic_stop_listen");
quic_ctx_t *lctx;
lctx = quic_ctx_get (lctx_index); // listener
vnet_unlisten_args_t a = {
.handle = lctx->c_quic_ctx_id.quic_session,
.app_index = quic_main.app_index,
.wrk_map_index = 0 /* default wrk */
};
if (vnet_unlisten (&a))
clib_warning ("unlisten errored");
// TODO: crypto state cleanup
quic_ctx_free (lctx); // listener
return 0;
}
transport_connection_t *
quic_connection_get (u32 ctx_index, u32 thread_index)
{
QUIC_DBG (2, "Called quic_connection_get");
quic_ctx_t *ctx;
ctx = quic_ctx_get_w_thread (ctx_index, thread_index);
return &ctx->connection;
}
transport_connection_t *
quic_listener_get (u32 listener_index)
{
QUIC_DBG (2, "Called quic_listener_get");
quic_ctx_t *ctx;
ctx = quic_ctx_get (listener_index);
return &ctx->connection;
}
static void
quic_update_time (f64 now, u8 thread_index)
{
tw_timer_wheel_1t_3w_1024sl_ov_t *tw;
tw = &quic_main.wrk_ctx[thread_index].timer_wheel;
quic_set_time_now (thread_index);
tw_timer_expire_timers_1t_3w_1024sl_ov (tw, now);
}
static u8 *
format_quic_connection (u8 * s, va_list * args)
{
s = format (s, "[QUIC] connection");
return s;
}
static u8 *
format_quic_half_open (u8 * s, va_list * args)
{
u32 qc_index = va_arg (*args, u32);
quic_ctx_t *ctx = quic_ctx_half_open_get (qc_index);
s = format (s, "[QUIC] half-open app %u", ctx->c_quic_ctx_id.parent_app_id);
quic_ctx_half_open_reader_unlock ();
return s;
}
// TODO improve
static u8 *
format_quic_listener (u8 * s, va_list * args)
{
s = format (s, "[QUIC] listener");
return s;
}
/*****************************************************************************
* END TRANSPORT PROTO FUNCTIONS
*
* START SESSION CALLBACKS
* Called from UDP layer
*****************************************************************************/
static inline void
quic_build_sockaddr (struct sockaddr *sa, socklen_t * salen,
ip46_address_t * addr, u16 port, u8 is_ip4)
{
if (is_ip4)
{
struct sockaddr_in *sa4 = (struct sockaddr_in *) sa;
sa4->sin_family = AF_INET;
sa4->sin_port = port;
sa4->sin_addr.s_addr = addr->ip4.as_u32;
*salen = sizeof (struct sockaddr_in);
}
else
{
struct sockaddr_in6 *sa6 = (struct sockaddr_in6 *) sa;
sa6->sin6_family = AF_INET6;
sa6->sin6_port = port;
clib_memcpy (&sa6->sin6_addr, &addr->ip6, 16);
*salen = sizeof (struct sockaddr_in6);
}
}
static int
quic_delayed_notify_app_connected (void *ctx_index)
{
QUIC_DBG (1, "quic_notify_app_connected");
session_t *app_session;
app_worker_t *app_wrk;
quic_ctx_t *ctx;
ctx = quic_ctx_get ((u32) (u64) ctx_index);
app_wrk = app_worker_get_if_valid (ctx->c_quic_ctx_id.parent_app_wrk_idx);
if (!app_wrk)
{
quic_disconnect_transport (ctx);
return -1;
}
app_session = session_alloc (ctx->c_thread_index);
QUIC_DBG (1, "Created app_session, id %u", app_session->session_index);
ctx->c_s_index = app_session->session_index;
app_session->app_wrk_index = ctx->c_quic_ctx_id.parent_app_wrk_idx;
app_session->connection_index = ctx->c_c_index;
app_session->session_type =
session_type_from_proto_and_ip (TRANSPORT_PROTO_QUIC,
ctx->c_quic_ctx_id.udp_is_ip4);
if (app_worker_init_connected (app_wrk, app_session)) // TODO dont allocate fifos
{
quic_disconnect (ctx->c_c_index, vlib_get_thread_index ());
return app_worker_connect_notify (app_wrk, NULL, ctx->client_opaque);
}
app_session->session_state = SESSION_STATE_CONNECTING;
if (app_worker_connect_notify (app_wrk, app_session, ctx->client_opaque))
{
QUIC_DBG (1, "failed to notify app");
quic_disconnect (ctx->c_c_index, vlib_get_thread_index ());
return -1;
}
ctx->c_quic_ctx_id.app_session = session_handle (app_session);
app_session->session_state = SESSION_STATE_LISTENING;
session_lookup_add_connection (&ctx->connection,
session_handle (app_session));
return 0;
}
int
quic_session_connected_callback (u32 quic_app_index, u32 ho_ctx_idx,
session_t * s, u8 is_fail)
{
QUIC_DBG (2, "Called quic_session_connected_callback");
// This should always be called before quic_connect returns since UDP always
// connects instantly.
struct sockaddr_in6 sa6;
struct sockaddr *sa = (struct sockaddr *) &sa6;
socklen_t salen;
transport_connection_t *tc;
quic_ctx_t *ho_ctx, *ctx;
u32 ctx_index;
int ret;
application_t *app;
app_worker_t *app_wrk;
ho_ctx = quic_ctx_half_open_get (ho_ctx_idx);
if (is_fail)
{
u32 api_context;
int rv = 0;
app_wrk =
app_worker_get_if_valid (ho_ctx->c_quic_ctx_id.parent_app_wrk_idx);
if (app_wrk)
{
api_context = ho_ctx->c_s_index;
app_worker_connect_notify (app_wrk, 0, api_context);
}
quic_ctx_half_open_reader_unlock ();
quic_ctx_half_open_free (ho_ctx_idx);
return rv;
}
app_wrk =
app_worker_get_if_valid (ho_ctx->c_quic_ctx_id.parent_app_wrk_idx);
if (!app_wrk)
{
QUIC_DBG (1, "Appwrk not found");
return -1;
}
app = application_get (app_wrk->app_index);
ctx_index = quic_ctx_alloc ();
ctx = quic_ctx_get (ctx_index);
clib_memcpy (ctx, ho_ctx, sizeof (*ctx));
quic_ctx_half_open_reader_unlock (); // TODO: this is a race
quic_ctx_half_open_free (ho_ctx_idx);
ctx->c_thread_index = vlib_get_thread_index ();
ctx->c_c_index = ctx_index;
QUIC_DBG (1, "Quic connect for returned %u. New connection [%u]%x",
is_fail, vlib_get_thread_index (), (ctx) ? ctx_index : ~0);
ctx->c_quic_ctx_id.quic_session = session_handle (s);
s->opaque = ctx_index;
s->session_state = SESSION_STATE_READY;
// Init QUIC lib connection
// Generate required sockaddr & salen
tc = session_get_transport (s);
quic_build_sockaddr (sa, &salen, &tc->rmt_ip, tc->rmt_port, tc->is_ip4);
ret =
quicly_connect (&ctx->c_quic_ctx_id.conn,
(quicly_context_t *) app->quicly_ctx,
(char *) ctx->srv_hostname, sa, salen,
&quic_main.next_cid, &quic_main.hs_properties, NULL);
++quic_main.next_cid.master_id;
// Save context handle in quicly connection
*quicly_get_data (ctx->c_quic_ctx_id.conn) = (void *) (u64) ctx_index;
assert (ret == 0);
if (quic_send_packets (ctx))
{
quic_connection_closed (ctx_index);
}
return ret;
}
void
quic_session_disconnect_callback (session_t * s)
{
clib_warning ("UDP session disconnected???");
}
void
quic_session_reset_callback (session_t * s)
{
clib_warning ("UDP session reset???");
}
int
quic_session_accepted_callback (session_t * s)
{
/* never called */
return 0;
}
static int
quic_add_segment_callback (u32 client_index, u64 seg_handle)
{
QUIC_DBG (2, "Called quic_add_segment_callback");
QUIC_DBG (2, "NOT IMPLEMENTED");
/* No-op for builtin */
return 0;
}
static int
quic_del_segment_callback (u32 client_index, u64 seg_handle)
{
QUIC_DBG (2, "Called quic_del_segment_callback");
QUIC_DBG (2, "NOT IMPLEMENTED");
/* No-op for builtin */
return 0;
}
int
quic_add_vpp_q_builtin_tx_evt (session_t * s)
{
if (svm_fifo_set_event (s->tx_fifo))
session_send_io_evt_to_thread_custom (s, s->thread_index,
FIFO_EVENT_BUILTIN_TX);
return 0;
}
void
quic_open_stream_if_ready (quic_ctx_t * ctx)
{
quicly_conn_t *conn = ctx->c_quic_ctx_id.conn;
if (ctx->stream)
{
QUIC_DBG (2, "----------- > FOUND Stream id %d",
ctx->stream->stream_id);
QUIC_DBG (2, "----------- > FOUND Stream is_open %d",
ctx->stream->sendstate.is_open);
return;
}
if (quicly_connection_is_ready (conn))
assert (!quicly_open_stream (conn, &ctx->stream, 0));
QUIC_DBG (2, "Stream id %d", ctx->stream->stream_id);
QUIC_DBG (2, "Stream is_open %d", ctx->stream->sendstate.is_open);
}
int
quic_custom_tx_callback (void *session)
{
QUIC_DBG (2, "Called quic_custom_tx_callback");
session_t *app_session = (session_t *) session;
quic_ctx_t *ctx;
svm_fifo_t *f;
u32 deq_max;
u8 *data;
if (PREDICT_FALSE
(app_session->session_state >= SESSION_STATE_TRANSPORT_CLOSING))
return 0;
ctx = quic_ctx_get (app_session->connection_index);
quic_open_stream_if_ready (ctx);
if (!ctx->stream)
{
quic_add_vpp_q_builtin_tx_evt (app_session);
return 0;
}
f = app_session->tx_fifo;
deq_max = svm_fifo_max_dequeue (f);
if (!deq_max)
return 0;
data = svm_fifo_head (f);
if (quicly_streambuf_egress_write (ctx->stream, data, deq_max))
{
assert (0);
return 0;
}
QUIC_DBG (2, "Sent %u bytes", deq_max);
svm_fifo_dequeue_drop (f, deq_max);
if (quic_send_packets (ctx))
{
quic_connection_closed (ctx->c_c_index);
}
return 0;
}
int
quic_find_packet_ctx (quic_ctx_t ** ctx, quicly_conn_t ** conn,
struct sockaddr *sa, socklen_t salen,
quicly_decoded_packet_t packet)
{
quic_ctx_t *ctx_;
quicly_conn_t *conn_;
/* *INDENT-OFF* */
pool_foreach (ctx_, quic_main.ctx_pool[vlib_get_thread_index()],
({
conn_ = ctx_->c_quic_ctx_id.conn;
if (conn_ && !ctx_->is_listener)
{
if (quicly_is_destination(conn_, sa, salen, &packet))
{
*conn = conn_;
*ctx = ctx_;
QUIC_DBG (2, "connection_found");
return 0;
}
}
}));
/* *INDENT-ON* */
return 0;
}
static int
quic_receive (quic_ctx_t * ctx, quicly_conn_t * conn,
quicly_decoded_packet_t packet)
{
quicly_receive (conn, &packet);
// Conn may be set to null if the connection is terminated
if (ctx->c_quic_ctx_id.conn
&& ctx->c_quic_ctx_id.conn_state == QUIC_CONN_STATE_HANDSHAKE)
{
if (quicly_connection_is_ready (conn))
{
ctx->c_quic_ctx_id.conn_state = QUIC_CONN_STATE_READY;
if (quicly_is_client (conn))
session_send_rpc_evt_to_thread_force (vlib_get_thread_index (),
&quic_delayed_notify_app_connected,
(void *) (u64)
ctx->c_c_index);
}
}
if (quic_send_packets (ctx))
{
quic_connection_closed (ctx->c_c_index);
}
return 0;
}
static int
quic_delayed_create_app_session (void *ctx_index)
{
quic_ctx_t *lctx, *ctx;
session_t *app_session, *app_listen_session;
app_worker_t *app_wrk;
int rv;
ctx = quic_ctx_get ((u32) (u64) ctx_index);
app_session = session_alloc (ctx->c_thread_index);
app_session->session_state = SESSION_STATE_LISTENING;
ctx->c_s_index = app_session->session_index;
lctx = quic_ctx_get (ctx->c_quic_ctx_id.listener_ctx_id);
app_listen_session =
listen_session_get_from_handle (lctx->c_quic_ctx_id.app_session);
app_session->app_wrk_index = lctx->c_quic_ctx_id.parent_app_wrk_idx;
app_session->connection_index = ctx->c_c_index;
app_session->session_type = app_listen_session->session_type;
app_session->listener_index = app_listen_session->session_index;
app_session->app_index = quic_main.app_index;
// TODO: don't alloc fifos when we don't transfer data on this session
if ((rv = app_worker_init_accepted (app_session)))
{
QUIC_DBG (1, "failed to allocate fifos");
session_free (app_session);
return rv;
}
ctx->c_quic_ctx_id.app_session = session_handle (app_session);
ctx->c_quic_ctx_id.parent_app_id = lctx->c_quic_ctx_id.parent_app_id;
ctx->c_quic_ctx_id.udp_is_ip4 = lctx->c_quic_ctx_id.udp_is_ip4;
ctx->c_quic_ctx_id.parent_app_wrk_idx = app_session->app_wrk_index;
session_lookup_add_connection (&ctx->connection,
session_handle (app_session));
app_wrk = app_worker_get (app_session->app_wrk_index);
rv = app_worker_accept_notify (app_wrk, app_session);
if (rv)
{
QUIC_DBG (1, "failed to notify accept worker app");
return rv;
}
return 0;
}
static int
quic_create_connection (quicly_context_t * quicly_ctx,
u64 quic_session_handle, u32 lctx_index,
quicly_conn_t * conn, struct sockaddr *sa,
socklen_t salen, quicly_decoded_packet_t packet)
{
quic_ctx_t *ctx;
u32 ctx_index;
/* new connection, accept and create context if packet is valid */
// TODO: check if socket is actually listening?
QUIC_DBG (2, "New connection created");
if (quicly_accept (&conn, quicly_ctx, sa, salen,
&packet, ptls_iovec_init (NULL, 0),
&quic_main.next_cid, NULL) != 0)
{
// Invalid packet, pass
assert (conn == NULL);
QUIC_DBG (2, "Accept failed");
return 0;
}
assert (conn != NULL);
++quic_main.next_cid.master_id;
// Create context
ctx_index = quic_ctx_alloc ();
ctx = quic_ctx_get (ctx_index);
// Save ctx handle in quicly connection
*quicly_get_data (conn) = (void *) (u64) ctx_index;
ctx->c_thread_index = vlib_get_thread_index ();
ctx->c_c_index = ctx_index;
ctx->c_quic_ctx_id.quic_session = quic_session_handle;
ctx->c_quic_ctx_id.listener_ctx_id = lctx_index;
ctx->c_quic_ctx_id.timer_handle = QUIC_TIMER_HANDLE_INVALID;
ctx->c_quic_ctx_id.conn = conn;
session_send_rpc_evt_to_thread_force (vlib_get_thread_index (),
&quic_delayed_create_app_session,
(void *) (u64) ctx_index);
if (quic_send_packets (ctx))
{
quic_connection_closed (ctx_index);
}
return 0;
}
static int
quic_reset_connection (quicly_context_t * quicly_ctx, u64 quic_session_handle,
struct sockaddr *sa, socklen_t salen,
quicly_decoded_packet_t packet)
{
/* short header packet; potentially a dead connection. No need to check the length of the incoming packet,
* because loop is prevented by authenticating the CID (by checking node_id and thread_id). If the peer is also
* sending a reset, then the next CID is highly likely to contain a non-authenticating CID, ... */
QUIC_DBG (2, "Sending stateless reset");
quicly_datagram_t *dgram;
session_t *quic_session;
if (packet.cid.dest.plaintext.node_id == 0
&& packet.cid.dest.plaintext.thread_id == 0)
{
dgram = quicly_send_stateless_reset (quicly_ctx, sa, salen,
&packet.cid.dest.plaintext);
quic_session = session_get_from_handle (quic_session_handle);
if (quic_send_datagram (quic_session, dgram)) // TODO : missing event on fifo
QUIC_DBG (2, "Send reset failed");
}
return 0;
}
int
quic_app_rx_callback (session_t * quic_session)
{
// Read data from UDP rx_fifo and pass it to the quicly conn.
QUIC_DBG (2, "Called quic_app_rx_callback");
quicly_decoded_packet_t packet;
session_dgram_hdr_t ph;
application_t *app;
quicly_conn_t *conn = NULL;
quic_ctx_t *lctx, *ctx = NULL;
svm_fifo_t *f;
size_t plen;
struct sockaddr_in6 sa6;
struct sockaddr *sa = (struct sockaddr *) &sa6;
socklen_t salen;
u32 max_deq, len;
u8 *data;
u32 lctx_index = quic_session->opaque;
u64 quic_session_handle = session_handle (quic_session);
f = quic_session->rx_fifo;
do
{
conn = NULL;
max_deq = svm_fifo_max_dequeue (f);
if (max_deq < sizeof (session_dgram_hdr_t))
{
svm_fifo_unset_event (f);
return 0;
}
QUIC_DBG (2, "Processing one packet at %ld", quic_get_time (NULL));
svm_fifo_unset_event (f);
svm_fifo_peek (f, 0, sizeof (ph), (u8 *) & ph);
ASSERT (ph.data_length >= ph.data_offset);
len = ph.data_length - ph.data_offset;
quic_build_sockaddr (sa, &salen, &ph.rmt_ip, ph.rmt_port, ph.is_ip4);
// Quicly can read len bytes from the fifo at offset:
// ph.data_offset + SESSION_CONN_HDR_LEN
data = svm_fifo_head (f) + ph.data_offset + SESSION_CONN_HDR_LEN;
lctx = quic_ctx_get (lctx_index);
app = application_get (lctx->c_quic_ctx_id.parent_app_id);
plen =
quicly_decode_packet ((quicly_context_t *) app->quicly_ctx, &packet,
data, len);
if (plen != SIZE_MAX)
{
quic_find_packet_ctx (&ctx, &conn, sa, salen, packet);
if (conn != NULL)
quic_receive (ctx, conn, packet);
else if (QUICLY_PACKET_IS_LONG_HEADER (packet.octets.base[0]))
quic_create_connection ((quicly_context_t *) app->quicly_ctx,
quic_session_handle, lctx_index, conn,
sa, salen, packet);
else if (((quicly_context_t *) app->quicly_ctx)->encrypt_cid)
quic_reset_connection ((quicly_context_t *) app->quicly_ctx,
quic_session_handle, sa, salen, packet);
}
svm_fifo_dequeue_drop (f,
ph.data_length + ph.data_offset +
SESSION_CONN_HDR_LEN);
}
while (1);
return 0;
}
/*****************************************************************************
* END TRANSPORT PROTO FUNCTIONS
*****************************************************************************/
/* *INDENT-OFF* */
static session_cb_vft_t quic_app_cb_vft = {
.session_accept_callback = quic_session_accepted_callback,
.session_disconnect_callback = quic_session_disconnect_callback,
.session_connected_callback = quic_session_connected_callback,
.session_reset_callback = quic_session_reset_callback,
.add_segment_callback = quic_add_segment_callback,
.del_segment_callback = quic_del_segment_callback,
.builtin_app_rx_callback = quic_app_rx_callback,
};
const static transport_proto_vft_t quic_proto = {
.connect = quic_connect,
.close = quic_disconnect,
.start_listen = quic_start_listen,
.stop_listen = quic_stop_listen,
.get_connection = quic_connection_get,
.get_listener = quic_listener_get,
.update_time = quic_update_time,
.custom_tx = quic_custom_tx_callback,
.tx_type = TRANSPORT_TX_INTERNAL,
.service_type = TRANSPORT_SERVICE_APP,
.format_connection = format_quic_connection,
.format_half_open = format_quic_half_open,
.format_listener = format_quic_listener,
};
/* *INDENT-ON* */
static clib_error_t *
quic_init (vlib_main_t * vm)
{
QUIC_DBG (2, "Called quic_init");
u32 add_segment_size = (4096ULL << 20) - 1, segment_size = 512 << 20;
vlib_thread_main_t *vtm = vlib_get_thread_main ();
vnet_app_attach_args_t _a, *a = &_a;
u64 options[APP_OPTIONS_N_OPTIONS];
quic_main_t *qm = &quic_main;
u32 fifo_size = 64 << 10;
u32 num_threads;
num_threads = 1 /* main thread */ + vtm->n_threads;
memset (a, 0, sizeof (*a));
memset (options, 0, sizeof (options));
a->session_cb_vft = &quic_app_cb_vft;
a->api_client_index = APP_INVALID_INDEX;
a->options = options;
a->name = format (0, "quic");
a->options[APP_OPTIONS_SEGMENT_SIZE] = segment_size;
a->options[APP_OPTIONS_ADD_SEGMENT_SIZE] = add_segment_size;
a->options[APP_OPTIONS_RX_FIFO_SIZE] = fifo_size;
a->options[APP_OPTIONS_TX_FIFO_SIZE] = fifo_size;
a->options[APP_OPTIONS_FLAGS] = APP_OPTIONS_FLAGS_IS_BUILTIN;
a->options[APP_OPTIONS_FLAGS] |= APP_OPTIONS_FLAGS_USE_GLOBAL_SCOPE;
a->options[APP_OPTIONS_FLAGS] |= APP_OPTIONS_FLAGS_IS_TRANSPORT_APP;
if (vnet_application_attach (a))
{
clib_warning ("failed to attach quic app");
return clib_error_return (0, "failed to attach quic app");
}
vec_validate (qm->ctx_pool, num_threads - 1);
vec_validate (qm->wrk_ctx, num_threads - 1);
// Timers, one per thread.
tw_timer_wheel_1t_3w_1024sl_ov_t *tw;
/* *INDENT-OFF* */
foreach_vlib_main (({
tw = &qm->wrk_ctx[ii].timer_wheel;
tw_timer_wheel_init_1t_3w_1024sl_ov (tw, quic_expired_timers_dispatch,
10e-3 /* timer period 1ms */ , ~0);
tw->last_run_time = vlib_time_now (this_vlib_main);
}));
/* *INDENT-ON* */
if (!qm->ca_cert_path)
qm->ca_cert_path = QUIC_DEFAULT_CA_CERT_PATH;
qm->app_index = a->app_index;
clib_rwlock_init (&qm->half_open_rwlock);
qm->tstamp_ticks_per_clock = vm->clib_time.seconds_per_clock
/ QUIC_TSTAMP_RESOLUTION;
transport_register_protocol (TRANSPORT_PROTO_QUIC, &quic_proto,
FIB_PROTOCOL_IP4, ~0);
transport_register_protocol (TRANSPORT_PROTO_QUIC, &quic_proto,
FIB_PROTOCOL_IP6, ~0);
vec_free (a->name);
return 0;
}
quic_main_t *
vnet_quic_get_main (void)
{
return &quic_main;
}
VLIB_INIT_FUNCTION (quic_init);
/* *INDENT-OFF* */
VLIB_PLUGIN_REGISTER () =
{
.version = VPP_BUILD_VER,
.description = "Quic Transport Protocol",
};
/* *INDENT-ON* */
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
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