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|
/*
* nghttp2 - HTTP/2 C Library
*
* Copyright (c) 2021 Tatsuhiro Tsujikawa
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "shrpx_quic_connection_handler.h"
#include <openssl/rand.h>
#include <ngtcp2/ngtcp2.h>
#include <ngtcp2/ngtcp2_crypto.h>
#include "shrpx_worker.h"
#include "shrpx_client_handler.h"
#include "shrpx_log.h"
#include "shrpx_http3_upstream.h"
#include "shrpx_connection_handler.h"
#include "ssl_compat.h"
namespace shrpx {
namespace {
void stateless_reset_bucket_regen_timercb(struct ev_loop *loop, ev_timer *w,
int revents) {
auto quic_conn_handler = static_cast<QUICConnectionHandler *>(w->data);
quic_conn_handler->on_stateless_reset_bucket_regen();
}
} // namespace
QUICConnectionHandler::QUICConnectionHandler(Worker *worker)
: worker_{worker},
stateless_reset_bucket_{SHRPX_QUIC_STATELESS_RESET_BURST} {
ev_timer_init(&stateless_reset_bucket_regen_timer_,
stateless_reset_bucket_regen_timercb, 0., 1.);
stateless_reset_bucket_regen_timer_.data = this;
}
QUICConnectionHandler::~QUICConnectionHandler() {
ev_timer_stop(worker_->get_loop(), &stateless_reset_bucket_regen_timer_);
}
int QUICConnectionHandler::handle_packet(const UpstreamAddr *faddr,
const Address &remote_addr,
const Address &local_addr,
const ngtcp2_pkt_info &pi,
std::span<const uint8_t> data) {
int rv;
ngtcp2_version_cid vc;
rv = ngtcp2_pkt_decode_version_cid(&vc, data.data(), data.size(),
SHRPX_QUIC_SCIDLEN);
switch (rv) {
case 0:
break;
case NGTCP2_ERR_VERSION_NEGOTIATION:
send_version_negotiation(faddr, vc.version, {vc.dcid, vc.dcidlen},
{vc.scid, vc.scidlen}, remote_addr, local_addr);
return 0;
default:
return 0;
}
auto config = get_config();
ngtcp2_cid dcid_key;
ngtcp2_cid_init(&dcid_key, vc.dcid, vc.dcidlen);
auto conn_handler = worker_->get_connection_handler();
ClientHandler *handler;
auto &quicconf = config->quic;
auto it = connections_.find(dcid_key);
if (it == std::end(connections_)) {
auto cwit = close_waits_.find(dcid_key);
if (cwit != std::end(close_waits_)) {
auto cw = (*cwit).second;
cw->handle_packet(faddr, remote_addr, local_addr, pi, data);
return 0;
}
if (data[0] & 0x80) {
if (generate_quic_hashed_connection_id(dcid_key, remote_addr, local_addr,
dcid_key) != 0) {
return 0;
}
it = connections_.find(dcid_key);
if (it == std::end(connections_)) {
auto cwit = close_waits_.find(dcid_key);
if (cwit != std::end(close_waits_)) {
auto cw = (*cwit).second;
cw->handle_packet(faddr, remote_addr, local_addr, pi, data);
return 0;
}
}
}
}
if (it == std::end(connections_)) {
ConnectionID decrypted_dcid;
auto &qkms = conn_handler->get_quic_keying_materials();
const QUICKeyingMaterial *qkm = nullptr;
if (vc.dcidlen == SHRPX_QUIC_SCIDLEN) {
qkm = select_quic_keying_material(
*qkms.get(), vc.dcid[0] & SHRPX_QUIC_DCID_KM_ID_MASK);
if (decrypt_quic_connection_id(decrypted_dcid,
vc.dcid + SHRPX_QUIC_CID_WORKER_ID_OFFSET,
qkm->cid_decryption_ctx) != 0) {
return 0;
}
if (qkm != &qkms->keying_materials.front() ||
decrypted_dcid.worker != worker_->get_worker_id()) {
auto quic_lwp =
conn_handler->match_quic_lingering_worker_process_worker_id(
decrypted_dcid.worker);
if (quic_lwp) {
if (conn_handler->forward_quic_packet_to_lingering_worker_process(
quic_lwp, remote_addr, local_addr, pi, data) == 0) {
return 0;
}
return 0;
}
}
}
// new connection
auto &upstreamconf = config->conn.upstream;
if (worker_->get_worker_stat()->num_connections >=
upstreamconf.worker_connections) {
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Too many connections >="
<< upstreamconf.worker_connections;
}
return 0;
}
ngtcp2_pkt_hd hd;
ngtcp2_cid odcid, *podcid = nullptr;
std::span<const uint8_t> token;
ngtcp2_token_type token_type = NGTCP2_TOKEN_TYPE_UNKNOWN;
switch (ngtcp2_accept(&hd, data.data(), data.size())) {
case 0: {
// If we get Initial and it has the Worker ID of this worker, it
// is likely that client is intentionally use the prefix. Just
// drop it.
if (vc.dcidlen == SHRPX_QUIC_SCIDLEN) {
if (qkm != &qkms->keying_materials.front()) {
qkm = &qkms->keying_materials.front();
if (decrypt_quic_connection_id(
decrypted_dcid, vc.dcid + SHRPX_QUIC_CID_WORKER_ID_OFFSET,
qkm->cid_decryption_ctx) != 0) {
return 0;
}
}
if (decrypted_dcid.worker == worker_->get_worker_id()) {
return 0;
}
}
if (worker_->get_graceful_shutdown()) {
send_connection_close(faddr, hd.version, hd.dcid, hd.scid, remote_addr,
local_addr, NGTCP2_CONNECTION_REFUSED,
data.size() * 3);
return 0;
}
if (hd.tokenlen == 0) {
if (quicconf.upstream.require_token) {
send_retry(faddr, vc.version, {vc.dcid, vc.dcidlen},
{vc.scid, vc.scidlen}, remote_addr, local_addr,
data.size() * 3);
return 0;
}
break;
}
switch (hd.token[0]) {
case NGTCP2_CRYPTO_TOKEN_MAGIC_RETRY: {
if (vc.dcidlen != SHRPX_QUIC_SCIDLEN) {
// Initial packets with Retry token must have DCID chosen by
// server.
return 0;
}
auto qkm = select_quic_keying_material(
*qkms.get(), vc.dcid[0] & SHRPX_QUIC_DCID_KM_ID_MASK);
if (verify_retry_token(odcid, {hd.token, hd.tokenlen}, hd.version,
hd.dcid, &remote_addr.su.sa, remote_addr.len,
qkm->secret) != 0) {
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Failed to validate Retry token from remote="
<< util::to_numeric_addr(&remote_addr);
}
// 2nd Retry packet is not allowed, so send CONNECTION_CLOSE
// with INVALID_TOKEN.
send_connection_close(faddr, hd.version, hd.dcid, hd.scid,
remote_addr, local_addr, NGTCP2_INVALID_TOKEN,
data.size() * 3);
return 0;
}
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Successfully validated Retry token from remote="
<< util::to_numeric_addr(&remote_addr);
}
podcid = &odcid;
token = {hd.token, hd.tokenlen};
token_type = NGTCP2_TOKEN_TYPE_RETRY;
break;
}
case NGTCP2_CRYPTO_TOKEN_MAGIC_REGULAR: {
// If a token is a regular token, it must be at least
// NGTCP2_MIN_INITIAL_DCIDLEN bytes long.
if (vc.dcidlen < NGTCP2_MIN_INITIAL_DCIDLEN) {
return 0;
}
if (hd.tokenlen != NGTCP2_CRYPTO_MAX_REGULAR_TOKENLEN + 1) {
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Failed to validate token from remote="
<< util::to_numeric_addr(&remote_addr);
}
if (quicconf.upstream.require_token) {
send_retry(faddr, vc.version, {vc.dcid, vc.dcidlen},
{vc.scid, vc.scidlen}, remote_addr, local_addr,
data.size() * 3);
return 0;
}
break;
}
auto qkm = select_quic_keying_material(
*qkms.get(), hd.token[NGTCP2_CRYPTO_MAX_REGULAR_TOKENLEN]);
if (verify_token({hd.token, hd.tokenlen}, &remote_addr.su.sa,
remote_addr.len, qkm->secret) != 0) {
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Failed to validate token from remote="
<< util::to_numeric_addr(&remote_addr);
}
if (quicconf.upstream.require_token) {
send_retry(faddr, vc.version, {vc.dcid, vc.dcidlen},
{vc.scid, vc.scidlen}, remote_addr, local_addr,
data.size() * 3);
return 0;
}
break;
}
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Successfully validated token from remote="
<< util::to_numeric_addr(&remote_addr);
}
token = {hd.token, hd.tokenlen};
token_type = NGTCP2_TOKEN_TYPE_NEW_TOKEN;
break;
}
default:
if (quicconf.upstream.require_token) {
send_retry(faddr, vc.version, {vc.dcid, vc.dcidlen},
{vc.scid, vc.scidlen}, remote_addr, local_addr,
data.size() * 3);
return 0;
}
break;
}
break;
}
default:
if (!(data[0] & 0x80) && vc.dcidlen == SHRPX_QUIC_SCIDLEN &&
decrypted_dcid.worker != worker_->get_worker_id()) {
if (!config->single_thread && conn_handler->forward_quic_packet(
faddr, remote_addr, local_addr, pi,
decrypted_dcid.worker, data) == 0) {
return 0;
}
if (data.size() >= SHRPX_QUIC_SCIDLEN + 22) {
send_stateless_reset(faddr, data.size(), {vc.dcid, vc.dcidlen},
remote_addr, local_addr);
}
}
return 0;
}
handler = handle_new_connection(faddr, remote_addr, local_addr, hd, podcid,
token, token_type);
if (handler == nullptr) {
return 0;
}
} else {
handler = (*it).second;
}
if (handler->read_quic(faddr, remote_addr, local_addr, pi, data) != 0) {
delete handler;
return 0;
}
handler->signal_write();
return 0;
}
ClientHandler *QUICConnectionHandler::handle_new_connection(
const UpstreamAddr *faddr, const Address &remote_addr,
const Address &local_addr, const ngtcp2_pkt_hd &hd, const ngtcp2_cid *odcid,
std::span<const uint8_t> token, ngtcp2_token_type token_type) {
std::array<char, NI_MAXHOST> host;
std::array<char, NI_MAXSERV> service;
int rv;
rv = getnameinfo(&remote_addr.su.sa, remote_addr.len, host.data(),
host.size(), service.data(), service.size(),
NI_NUMERICHOST | NI_NUMERICSERV);
if (rv != 0) {
LOG(ERROR) << "getnameinfo() failed: " << gai_strerror(rv);
return nullptr;
}
auto ssl_ctx = worker_->get_quic_sv_ssl_ctx();
assert(ssl_ctx);
auto ssl = tls::create_ssl(ssl_ctx);
if (ssl == nullptr) {
return nullptr;
}
#ifdef NGHTTP2_GENUINE_OPENSSL
assert(SSL_is_quic(ssl));
#endif // NGHTTP2_GENUINE_OPENSSL
SSL_set_accept_state(ssl);
auto config = get_config();
auto &quicconf = config->quic;
if (quicconf.upstream.early_data) {
#ifdef NGHTTP2_GENUINE_OPENSSL
SSL_set_quic_early_data_enabled(ssl, 1);
#elif defined(NGHTTP2_OPENSSL_IS_BORINGSSL)
SSL_set_early_data_enabled(ssl, 1);
#endif // NGHTTP2_OPENSSL_IS_BORINGSSL
}
// Disable TLS session ticket if we don't have working ticket
// keys.
if (!worker_->get_ticket_keys()) {
SSL_set_options(ssl, SSL_OP_NO_TICKET);
}
auto handler = std::make_unique<ClientHandler>(
worker_, faddr->fd, ssl, StringRef{host.data()},
StringRef{service.data()}, remote_addr.su.sa.sa_family, faddr);
auto upstream = std::make_unique<Http3Upstream>(handler.get());
if (upstream->init(faddr, remote_addr, local_addr, hd, odcid, token,
token_type) != 0) {
return nullptr;
}
handler->setup_http3_upstream(std::move(upstream));
return handler.release();
}
namespace {
uint32_t generate_reserved_version(const Address &addr, uint32_t version) {
uint32_t h = 0x811C9DC5u;
const uint8_t *p = reinterpret_cast<const uint8_t *>(&addr.su.sa);
const uint8_t *ep = p + addr.len;
for (; p != ep; ++p) {
h ^= *p;
h *= 0x01000193u;
}
version = htonl(version);
p = (const uint8_t *)&version;
ep = p + sizeof(version);
for (; p != ep; ++p) {
h ^= *p;
h *= 0x01000193u;
}
h &= 0xf0f0f0f0u;
h |= 0x0a0a0a0au;
return h;
}
} // namespace
int QUICConnectionHandler::send_retry(
const UpstreamAddr *faddr, uint32_t version,
std::span<const uint8_t> ini_dcid, std::span<const uint8_t> ini_scid,
const Address &remote_addr, const Address &local_addr, size_t max_pktlen) {
std::array<char, NI_MAXHOST> host;
std::array<char, NI_MAXSERV> port;
if (getnameinfo(&remote_addr.su.sa, remote_addr.len, host.data(), host.size(),
port.data(), port.size(),
NI_NUMERICHOST | NI_NUMERICSERV) != 0) {
return -1;
}
auto config = get_config();
auto &quicconf = config->quic;
auto conn_handler = worker_->get_connection_handler();
auto &qkms = conn_handler->get_quic_keying_materials();
auto &qkm = qkms->keying_materials.front();
ngtcp2_cid retry_scid;
if (generate_quic_retry_connection_id(retry_scid, quicconf.server_id, qkm.id,
qkm.cid_encryption_ctx) != 0) {
return -1;
}
ngtcp2_cid idcid, iscid;
ngtcp2_cid_init(&idcid, ini_dcid.data(), ini_dcid.size());
ngtcp2_cid_init(&iscid, ini_scid.data(), ini_scid.size());
std::array<uint8_t, NGTCP2_CRYPTO_MAX_RETRY_TOKENLEN> tokenbuf;
auto token =
generate_retry_token(tokenbuf, version, &remote_addr.su.sa,
remote_addr.len, retry_scid, idcid, qkm.secret);
if (!token) {
return -1;
}
std::vector<uint8_t> buf;
buf.resize(std::min(max_pktlen, static_cast<size_t>(256)));
auto nwrite = ngtcp2_crypto_write_retry(buf.data(), buf.size(), version,
&iscid, &retry_scid, &idcid,
token->data(), token->size());
if (nwrite < 0) {
LOG(ERROR) << "ngtcp2_crypto_write_retry: " << ngtcp2_strerror(nwrite);
return -1;
}
buf.resize(nwrite);
quic_send_packet(faddr, &remote_addr.su.sa, remote_addr.len,
&local_addr.su.sa, local_addr.len, ngtcp2_pkt_info{}, buf,
buf.size());
if (generate_quic_hashed_connection_id(idcid, remote_addr, local_addr,
idcid) != 0) {
return -1;
}
auto d =
static_cast<ev_tstamp>(NGTCP2_DEFAULT_INITIAL_RTT * 3) / NGTCP2_SECONDS;
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Enter close-wait period " << d << "s with " << buf.size()
<< " bytes sentinel packet";
}
auto cw = std::make_unique<CloseWait>(worker_, std::vector<ngtcp2_cid>{idcid},
std::move(buf), d);
add_close_wait(cw.release());
return 0;
}
int QUICConnectionHandler::send_version_negotiation(
const UpstreamAddr *faddr, uint32_t version,
std::span<const uint8_t> ini_dcid, std::span<const uint8_t> ini_scid,
const Address &remote_addr, const Address &local_addr) {
auto sv = std::to_array({
generate_reserved_version(remote_addr, version),
NGTCP2_PROTO_VER_V1,
});
std::array<uint8_t, NGTCP2_MAX_UDP_PAYLOAD_SIZE> buf;
uint8_t rand_byte;
util::random_bytes(&rand_byte, &rand_byte + 1, worker_->get_randgen());
auto nwrite = ngtcp2_pkt_write_version_negotiation(
buf.data(), buf.size(), rand_byte, ini_scid.data(), ini_scid.size(),
ini_dcid.data(), ini_dcid.size(), sv.data(), sv.size());
if (nwrite < 0) {
LOG(ERROR) << "ngtcp2_pkt_write_version_negotiation: "
<< ngtcp2_strerror(nwrite);
return -1;
}
auto pkt = std::span{std::begin(buf), static_cast<size_t>(nwrite)};
return quic_send_packet(faddr, &remote_addr.su.sa, remote_addr.len,
&local_addr.su.sa, local_addr.len, ngtcp2_pkt_info{},
pkt, pkt.size());
}
int QUICConnectionHandler::send_stateless_reset(const UpstreamAddr *faddr,
size_t pktlen,
std::span<const uint8_t> dcid,
const Address &remote_addr,
const Address &local_addr) {
if (stateless_reset_bucket_ == 0) {
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Stateless Reset bucket has been depleted";
}
return 0;
}
--stateless_reset_bucket_;
if (!ev_is_active(&stateless_reset_bucket_regen_timer_)) {
ev_timer_again(worker_->get_loop(), &stateless_reset_bucket_regen_timer_);
}
std::array<uint8_t, NGTCP2_STATELESS_RESET_TOKENLEN> token;
ngtcp2_cid cid;
ngtcp2_cid_init(&cid, dcid.data(), dcid.size());
auto conn_handler = worker_->get_connection_handler();
auto &qkms = conn_handler->get_quic_keying_materials();
auto &qkm = qkms->keying_materials.front();
if (auto rv = generate_quic_stateless_reset_token(
token.data(), cid, qkm.secret.data(), qkm.secret.size());
rv != 0) {
return -1;
}
// SCID + minimum expansion - NGTCP2_STATELESS_RESET_TOKENLEN
constexpr size_t max_rand_byteslen =
NGTCP2_MAX_CIDLEN + 22 - NGTCP2_STATELESS_RESET_TOKENLEN;
size_t rand_byteslen;
if (pktlen <= 43) {
// As per
// https://datatracker.ietf.org/doc/html/rfc9000#section-10.3
rand_byteslen = pktlen - NGTCP2_STATELESS_RESET_TOKENLEN - 1;
} else {
rand_byteslen = max_rand_byteslen;
}
std::array<uint8_t, max_rand_byteslen> rand_bytes;
if (RAND_bytes(rand_bytes.data(), rand_byteslen) != 1) {
return -1;
}
std::array<uint8_t, NGTCP2_MAX_UDP_PAYLOAD_SIZE> buf;
auto nwrite = ngtcp2_pkt_write_stateless_reset(
buf.data(), buf.size(), token.data(), rand_bytes.data(), rand_byteslen);
if (nwrite < 0) {
LOG(ERROR) << "ngtcp2_pkt_write_stateless_reset: "
<< ngtcp2_strerror(nwrite);
return -1;
}
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Send stateless_reset to remote="
<< util::to_numeric_addr(&remote_addr)
<< " dcid=" << util::format_hex(dcid);
}
auto pkt = std::span{std::begin(buf), static_cast<size_t>(nwrite)};
return quic_send_packet(faddr, &remote_addr.su.sa, remote_addr.len,
&local_addr.su.sa, local_addr.len, ngtcp2_pkt_info{},
pkt, pkt.size());
}
int QUICConnectionHandler::send_connection_close(
const UpstreamAddr *faddr, uint32_t version, const ngtcp2_cid &ini_dcid,
const ngtcp2_cid &ini_scid, const Address &remote_addr,
const Address &local_addr, uint64_t error_code, size_t max_pktlen) {
std::array<uint8_t, NGTCP2_MAX_UDP_PAYLOAD_SIZE> buf;
max_pktlen = std::min(max_pktlen, buf.size());
auto nwrite = ngtcp2_crypto_write_connection_close(
buf.data(), max_pktlen, version, &ini_scid, &ini_dcid, error_code,
nullptr, 0);
if (nwrite < 0) {
LOG(ERROR) << "ngtcp2_crypto_write_connection_close failed";
return -1;
}
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "Send Initial CONNECTION_CLOSE with error_code=" << log::hex
<< error_code << log::dec
<< " to remote=" << util::to_numeric_addr(&remote_addr)
<< " dcid="
<< util::format_hex(std::span{ini_scid.data, ini_scid.datalen})
<< " scid="
<< util::format_hex(std::span{ini_dcid.data, ini_dcid.datalen});
}
auto pkt = std::span{std::begin(buf), static_cast<size_t>(nwrite)};
return quic_send_packet(faddr, &remote_addr.su.sa, remote_addr.len,
&local_addr.su.sa, local_addr.len, ngtcp2_pkt_info{},
pkt, pkt.size());
}
void QUICConnectionHandler::add_connection_id(const ngtcp2_cid &cid,
ClientHandler *handler) {
connections_.emplace(cid, handler);
}
void QUICConnectionHandler::remove_connection_id(const ngtcp2_cid &cid) {
connections_.erase(cid);
}
void QUICConnectionHandler::add_close_wait(CloseWait *cw) {
for (auto &cid : cw->scids) {
close_waits_.emplace(cid, cw);
}
}
void QUICConnectionHandler::remove_close_wait(const CloseWait *cw) {
for (auto &cid : cw->scids) {
close_waits_.erase(cid);
}
}
void QUICConnectionHandler::on_stateless_reset_bucket_regen() {
assert(stateless_reset_bucket_ < SHRPX_QUIC_STATELESS_RESET_BURST);
if (++stateless_reset_bucket_ == SHRPX_QUIC_STATELESS_RESET_BURST) {
ev_timer_stop(worker_->get_loop(), &stateless_reset_bucket_regen_timer_);
}
}
static void close_wait_timeoutcb(struct ev_loop *loop, ev_timer *w,
int revents) {
auto cw = static_cast<CloseWait *>(w->data);
if (LOG_ENABLED(INFO)) {
LOG(INFO) << "close-wait period finished";
}
auto quic_conn_handler = cw->worker->get_quic_connection_handler();
quic_conn_handler->remove_close_wait(cw);
delete cw;
}
CloseWait::CloseWait(Worker *worker, std::vector<ngtcp2_cid> scids,
std::vector<uint8_t> pkt, ev_tstamp period)
: worker{worker},
scids{std::move(scids)},
pkt{std::move(pkt)},
bytes_recv{0},
bytes_sent{0},
num_pkts_recv{0},
next_pkts_recv{1} {
++worker->get_worker_stat()->num_close_waits;
ev_timer_init(&timer, close_wait_timeoutcb, period, 0.);
timer.data = this;
ev_timer_start(worker->get_loop(), &timer);
}
CloseWait::~CloseWait() {
auto loop = worker->get_loop();
ev_timer_stop(loop, &timer);
auto worker_stat = worker->get_worker_stat();
--worker_stat->num_close_waits;
if (worker->get_graceful_shutdown() && worker_stat->num_connections == 0 &&
worker_stat->num_close_waits == 0) {
ev_break(loop);
}
}
int CloseWait::handle_packet(const UpstreamAddr *faddr,
const Address &remote_addr,
const Address &local_addr,
const ngtcp2_pkt_info &pi,
std::span<const uint8_t> data) {
if (pkt.empty()) {
return 0;
}
++num_pkts_recv;
bytes_recv += data.size();
if (bytes_sent + pkt.size() > 3 * bytes_recv ||
next_pkts_recv > num_pkts_recv) {
return 0;
}
auto rv = quic_send_packet(faddr, &remote_addr.su.sa, remote_addr.len,
&local_addr.su.sa, local_addr.len,
ngtcp2_pkt_info{}, pkt, pkt.size());
if (rv != 0) {
return -1;
}
next_pkts_recv *= 2;
bytes_sent += pkt.size();
return 0;
}
} // namespace shrpx
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