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bind9/tests/isc/netmgr_common.c
Daniel Baumann f66ff7eae6
Adding upstream version 1:9.20.9. 
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
2025-06-21 13:32:37 +02:00

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/*
* Copyright (C) Internet Systems Consortium, Inc. ("ISC")
*
* SPDX-License-Identifier: MPL-2.0
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, you can obtain one at https://mozilla.org/MPL/2.0/.
*
* See the COPYRIGHT file distributed with this work for additional
* information regarding copyright ownership.
*/
#include <inttypes.h>
#include <sched.h> /* IWYU pragma: keep */
#include <setjmp.h>
#include <signal.h>
#include <stdarg.h>
#include <stdlib.h>
#include <unistd.h>
/*
* As a workaround, include an OpenSSL header file before including cmocka.h,
* because OpenSSL 3.1.0 uses __attribute__(malloc), conflicting with a
* redefined malloc in cmocka.h.
*/
#include <openssl/err.h>
#define UNIT_TESTING
#include <cmocka.h>
#include <isc/async.h>
#include <isc/nonce.h>
#include <isc/os.h>
#include <isc/quota.h>
#include <isc/refcount.h>
#include <isc/sockaddr.h>
#include <isc/thread.h>
#include <isc/util.h>
#include <isc/uv.h>
#define KEEP_BEFORE
#include "netmgr_common.h"
#include <tests/isc.h>
isc_nm_t *listen_nm = NULL;
isc_nm_t *connect_nm = NULL;
isc_sockaddr_t tcp_listen_addr;
isc_sockaddr_t tcp_connect_addr;
isc_tlsctx_t *tcp_listen_tlsctx = NULL;
isc_tlsctx_t *tcp_connect_tlsctx = NULL;
isc_tlsctx_client_session_cache_t *tcp_tlsctx_client_sess_cache = NULL;
isc_sockaddr_t udp_listen_addr;
isc_sockaddr_t udp_connect_addr;
uint64_t send_magic = 0;
isc_region_t send_msg = { .base = (unsigned char *)&send_magic,
.length = sizeof(send_magic) };
atomic_bool do_send = false;
atomic_int_fast64_t nsends = 0;
int_fast64_t esends = 0; /* expected sends */
atomic_int_fast64_t ssends = 0;
atomic_int_fast64_t sreads = 0;
atomic_int_fast64_t saccepts = 0;
atomic_int_fast64_t cconnects = 0;
atomic_int_fast64_t csends = 0;
atomic_int_fast64_t creads = 0;
atomic_int_fast64_t ctimeouts = 0;
int expected_ssends;
int expected_sreads;
int expected_csends;
int expected_cconnects;
int expected_creads;
int expected_saccepts;
int expected_ctimeouts;
bool ssends_shutdown;
bool sreads_shutdown;
bool saccepts_shutdown;
bool csends_shutdown;
bool cconnects_shutdown;
bool creads_shutdown;
bool ctimeouts_shutdown;
isc_refcount_t active_cconnects = 0;
isc_refcount_t active_csends = 0;
isc_refcount_t active_creads = 0;
isc_refcount_t active_ssends = 0;
isc_refcount_t active_sreads = 0;
isc_nmsocket_t *listen_sock = NULL;
isc_quota_t listener_quota;
atomic_bool check_listener_quota = false;
bool allow_send_back = false;
bool noanswer = false;
bool stream_use_TLS = false;
bool stream_use_PROXY = false;
bool stream_PROXY_over_TLS = false;
bool stream = false;
in_port_t stream_port = 0;
bool udp_use_PROXY = false;
isc_nm_recv_cb_t connect_readcb = NULL;
isc_nm_proxyheader_info_t proxy_info_data;
isc_nm_proxyheader_info_t *proxy_info = NULL;
isc_sockaddr_t proxy_src;
isc_sockaddr_t proxy_dst;
int
setup_netmgr_test(void **state) {
struct in_addr in;
tcp_connect_addr = (isc_sockaddr_t){ .length = 0 };
isc_sockaddr_fromin6(&tcp_connect_addr, &in6addr_loopback, 0);
tcp_listen_addr = (isc_sockaddr_t){ .length = 0 };
isc_sockaddr_fromin6(&tcp_listen_addr, &in6addr_loopback, stream_port);
RUNTIME_CHECK(inet_pton(AF_INET, "1.2.3.4", &in) == 1);
isc_sockaddr_fromin(&proxy_src, &in, 1234);
RUNTIME_CHECK(inet_pton(AF_INET, "4.3.2.1", &in) == 1);
isc_sockaddr_fromin(&proxy_dst, &in, 4321);
isc_nm_proxyheader_info_init(&proxy_info_data, &proxy_src, &proxy_dst,
NULL);
esends = NSENDS * workers;
atomic_store(&nsends, esends);
atomic_store(&saccepts, 0);
atomic_store(&sreads, 0);
atomic_store(&ssends, 0);
atomic_store(&cconnects, 0);
atomic_store(&csends, 0);
atomic_store(&creads, 0);
atomic_store(&ctimeouts, 0);
allow_send_back = false;
expected_cconnects = -1;
expected_csends = -1;
expected_creads = -1;
expected_sreads = -1;
expected_ssends = -1;
expected_saccepts = -1;
expected_ctimeouts = -1;
ssends_shutdown = true;
sreads_shutdown = true;
saccepts_shutdown = true;
csends_shutdown = true;
cconnects_shutdown = true;
creads_shutdown = true;
ctimeouts_shutdown = true;
do_send = false;
isc_refcount_init(&active_cconnects, 0);
isc_refcount_init(&active_csends, 0);
isc_refcount_init(&active_creads, 0);
isc_refcount_init(&active_ssends, 0);
isc_refcount_init(&active_sreads, 0);
isc_nonce_buf(&send_magic, sizeof(send_magic));
setup_loopmgr(state);
isc_netmgr_create(mctx, loopmgr, &listen_nm);
assert_non_null(listen_nm);
isc_nm_settimeouts(listen_nm, T_INIT, T_IDLE, T_KEEPALIVE,
T_ADVERTISED);
isc_netmgr_create(mctx, loopmgr, &connect_nm);
assert_non_null(connect_nm);
isc_nm_settimeouts(connect_nm, T_INIT, T_IDLE, T_KEEPALIVE,
T_ADVERTISED);
isc_quota_init(&listener_quota, 0);
atomic_store(&check_listener_quota, false);
connect_readcb = connect_read_cb;
noanswer = false;
if (isc_tlsctx_createserver(NULL, NULL, &tcp_listen_tlsctx) !=
ISC_R_SUCCESS)
{
return -1;
}
if (isc_tlsctx_createclient(&tcp_connect_tlsctx) != ISC_R_SUCCESS) {
return -1;
}
isc_tlsctx_enable_dot_client_alpn(tcp_connect_tlsctx);
isc_tlsctx_client_session_cache_create(
mctx, tcp_connect_tlsctx,
ISC_TLSCTX_CLIENT_SESSION_CACHE_DEFAULT_SIZE,
&tcp_tlsctx_client_sess_cache);
return 0;
}
int
teardown_netmgr_test(void **state ISC_ATTR_UNUSED) {
UNUSED(state);
isc_tlsctx_client_session_cache_detach(&tcp_tlsctx_client_sess_cache);
isc_tlsctx_free(&tcp_connect_tlsctx);
isc_tlsctx_free(&tcp_listen_tlsctx);
isc_netmgr_destroy(&connect_nm);
assert_null(connect_nm);
isc_netmgr_destroy(&listen_nm);
assert_null(listen_nm);
teardown_loopmgr(state);
isc_refcount_destroy(&active_cconnects);
isc_refcount_destroy(&active_csends);
isc_refcount_destroy(&active_creads);
isc_refcount_destroy(&active_ssends);
isc_refcount_destroy(&active_sreads);
proxy_info = NULL;
return 0;
}
void
stop_listening(void *arg ISC_ATTR_UNUSED) {
isc_nm_stoplistening(listen_sock);
isc_nmsocket_close(&listen_sock);
assert_null(listen_sock);
}
/* Callbacks */
void
noop_recv_cb(isc_nmhandle_t *handle ISC_ATTR_UNUSED,
isc_result_t eresult ISC_ATTR_UNUSED,
isc_region_t *region ISC_ATTR_UNUSED,
void *cbarg ISC_ATTR_UNUSED) {
F();
}
isc_result_t
noop_accept_cb(isc_nmhandle_t *handle ISC_ATTR_UNUSED, isc_result_t eresult,
void *cbarg ISC_ATTR_UNUSED) {
F();
if (eresult == ISC_R_SUCCESS) {
(void)atomic_fetch_add(&saccepts, 1);
}
return ISC_R_SUCCESS;
}
void
connect_send_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg);
void
connect_send(isc_nmhandle_t *handle);
void
connect_send_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
isc_nmhandle_t *sendhandle = handle;
assert_non_null(sendhandle);
UNUSED(cbarg);
F();
switch (eresult) {
case ISC_R_EOF:
case ISC_R_SHUTTINGDOWN:
case ISC_R_CANCELED:
case ISC_R_CONNECTIONRESET:
/* Abort */
if (!stream) {
isc_nm_cancelread(handle);
}
break;
case ISC_R_SUCCESS:
if (have_expected_csends(atomic_fetch_add(&csends, 1) + 1)) {
do_csends_shutdown(loopmgr);
}
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
isc_refcount_decrement(&active_csends);
isc_nmhandle_detach(&sendhandle);
}
void
connect_send(isc_nmhandle_t *handle) {
isc_nmhandle_t *sendhandle = NULL;
isc_refcount_increment0(&active_csends);
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(handle, T_IDLE);
isc_nm_send(sendhandle, &send_msg, connect_send_cb, NULL);
}
void
connect_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
uint64_t magic = 0;
UNUSED(cbarg);
assert_non_null(handle);
F();
switch (eresult) {
case ISC_R_SUCCESS:
assert_true(region->length >= sizeof(magic));
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
if (have_expected_creads(atomic_fetch_add(&creads, 1) + 1)) {
do_creads_shutdown(loopmgr);
}
if (magic == send_magic && allow_send_back) {
connect_send(handle);
return;
}
/* This will initiate one more read callback */
if (stream) {
isc_nmhandle_close(handle);
}
break;
case ISC_R_TIMEDOUT:
case ISC_R_EOF:
case ISC_R_SHUTTINGDOWN:
case ISC_R_CANCELED:
case ISC_R_CONNECTIONRESET:
case ISC_R_CONNREFUSED:
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
isc_refcount_decrement(&active_creads);
isc_nmhandle_detach(&handle);
}
void
connect_connect_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
isc_nmhandle_t *readhandle = NULL;
F();
isc_refcount_decrement(&active_cconnects);
if (eresult != ISC_R_SUCCESS || connect_readcb == NULL) {
return;
}
if (stream_use_PROXY) {
assert_true(isc_nm_is_proxy_handle(handle));
}
/* We are finished, initiate the shutdown */
if (have_expected_cconnects(atomic_fetch_add(&cconnects, 1) + 1)) {
do_cconnects_shutdown(loopmgr);
} else if (do_send) {
isc_async_current(stream_recv_send_connect,
(cbarg == NULL
? get_stream_connect_function()
: (stream_connect_function)cbarg));
}
isc_refcount_increment0(&active_creads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, connect_readcb, NULL);
connect_send(handle);
}
void
listen_send_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
isc_nmhandle_t *sendhandle = handle;
UNUSED(cbarg);
UNUSED(eresult);
assert_non_null(sendhandle);
F();
switch (eresult) {
case ISC_R_CANCELED:
case ISC_R_CONNECTIONRESET:
case ISC_R_EOF:
case ISC_R_SHUTTINGDOWN:
break;
case ISC_R_SUCCESS:
if (have_expected_ssends(atomic_fetch_add(&ssends, 1) + 1)) {
do_ssends_shutdown(loopmgr);
}
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
isc_refcount_decrement(&active_ssends);
isc_nmhandle_detach(&sendhandle);
}
void
listen_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
uint64_t magic = 0;
assert_non_null(handle);
F();
switch (eresult) {
case ISC_R_SUCCESS:
if (udp_use_PROXY || stream_use_PROXY) {
assert_true(isc_nm_is_proxy_handle(handle));
proxy_verify_endpoints(handle);
}
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
if (have_expected_sreads(atomic_fetch_add(&sreads, 1) + 1)) {
do_sreads_shutdown(loopmgr);
}
assert_true(region->length >= sizeof(magic));
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
if (!noanswer) {
/* Answer and continue to listen */
isc_nmhandle_t *sendhandle = NULL;
isc_nmhandle_attach(handle, &sendhandle);
isc_refcount_increment0(&active_ssends);
isc_nmhandle_setwritetimeout(sendhandle, T_IDLE);
isc_nm_send(sendhandle, &send_msg, listen_send_cb,
cbarg);
}
/* Continue to listen */
return;
case ISC_R_CANCELED:
case ISC_R_CONNECTIONRESET:
case ISC_R_EOF:
case ISC_R_SHUTTINGDOWN:
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
isc_refcount_decrement(&active_sreads);
isc_nmhandle_detach(&handle);
}
isc_result_t
listen_accept_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
UNUSED(handle);
UNUSED(cbarg);
F();
if (eresult != ISC_R_SUCCESS) {
return eresult;
}
if (have_expected_saccepts(atomic_fetch_add(&saccepts, 1) + 1)) {
do_saccepts_shutdown(loopmgr);
}
isc_nmhandle_attach(handle, &(isc_nmhandle_t *){ NULL });
isc_refcount_increment0(&active_sreads);
return eresult;
}
isc_result_t
stream_accept_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
isc_nmhandle_t *readhandle = NULL;
UNUSED(cbarg);
F();
if (eresult != ISC_R_SUCCESS) {
return eresult;
}
if (have_expected_saccepts(atomic_fetch_add(&saccepts, 1) + 1)) {
do_saccepts_shutdown(loopmgr);
}
if (stream_use_PROXY) {
assert_true(isc_nm_is_proxy_handle(handle));
proxy_verify_endpoints(handle);
}
isc_refcount_increment0(&active_sreads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, listen_read_cb, readhandle);
return ISC_R_SUCCESS;
}
void
stream_recv_send_connect(void *arg) {
connect_func connect = (connect_func)arg;
isc_sockaddr_t connect_addr;
connect_addr = (isc_sockaddr_t){ .length = 0 };
isc_sockaddr_fromin6(&connect_addr, &in6addr_loopback, 0);
isc_refcount_increment0(&active_cconnects);
connect(connect_nm);
}
/* Common stream protocols code */
void
timeout_retry_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
UNUSED(region);
UNUSED(cbarg);
assert_non_null(handle);
F();
if (eresult == ISC_R_TIMEDOUT &&
atomic_fetch_add(&ctimeouts, 1) + 1 < expected_ctimeouts)
{
isc_nmhandle_settimeout(handle, T_SOFT);
connect_send(handle);
return;
}
isc_refcount_decrement(&active_creads);
isc_nmhandle_detach(&handle);
isc_loopmgr_shutdown(loopmgr);
}
isc_quota_t *
tcp_listener_init_quota(size_t nthreads) {
isc_quota_t *quotap = NULL;
if (atomic_load(&check_listener_quota)) {
unsigned int max_quota = ISC_MAX(nthreads / 2, 1);
isc_quota_max(&listener_quota, max_quota);
quotap = &listener_quota;
}
return quotap;
}
static void
tcp_connect(isc_nm_t *nm) {
isc_nm_tcpconnect(nm, &tcp_connect_addr, &tcp_listen_addr,
connect_connect_cb, NULL, T_CONNECT);
}
static void
tls_connect(isc_nm_t *nm) {
isc_nm_tlsconnect(nm, &tcp_connect_addr, &tcp_listen_addr,
connect_connect_cb, NULL, tcp_connect_tlsctx, NULL,
tcp_tlsctx_client_sess_cache, T_CONNECT,
stream_use_PROXY, NULL);
}
void
set_proxyheader_info(isc_nm_proxyheader_info_t *pi) {
proxy_info = pi;
}
isc_nm_proxyheader_info_t *
get_proxyheader_info(void) {
if (proxy_info != NULL) {
return proxy_info;
}
/*
* There is 50% chance to get the info: so we can test LOCAL headers,
* too.
*/
if (isc_random_uniform(2)) {
return &proxy_info_data;
}
return NULL;
}
static void
proxystream_connect(isc_nm_t *nm) {
isc_tlsctx_t *tlsctx = stream_PROXY_over_TLS ? tcp_connect_tlsctx
: NULL;
isc_tlsctx_client_session_cache_t *sess_cache =
stream_PROXY_over_TLS ? tcp_tlsctx_client_sess_cache : NULL;
isc_nm_proxystreamconnect(nm, &tcp_connect_addr, &tcp_listen_addr,
connect_connect_cb, NULL, T_CONNECT, tlsctx,
NULL, sess_cache, get_proxyheader_info());
}
stream_connect_function
get_stream_connect_function(void) {
if (stream_use_TLS && !stream_PROXY_over_TLS) {
return tls_connect;
} else if (stream_use_PROXY) {
return proxystream_connect;
} else {
return tcp_connect;
}
UNREACHABLE();
}
isc_result_t
stream_listen(isc_nm_accept_cb_t accept_cb, void *accept_cbarg, int backlog,
isc_quota_t *quota, isc_nmsocket_t **sockp) {
isc_result_t result = ISC_R_SUCCESS;
if (stream_use_TLS && !stream_PROXY_over_TLS) {
result = isc_nm_listentls(
listen_nm, ISC_NM_LISTEN_ALL, &tcp_listen_addr,
accept_cb, accept_cbarg, backlog, quota,
tcp_listen_tlsctx, stream_use_PROXY, sockp);
return result;
} else if (stream_use_PROXY) {
isc_tlsctx_t *tlsctx = stream_PROXY_over_TLS ? tcp_listen_tlsctx
: NULL;
result = isc_nm_listenproxystream(
listen_nm, ISC_NM_LISTEN_ALL, &tcp_listen_addr,
accept_cb, accept_cbarg, backlog, quota, tlsctx, sockp);
return result;
} else {
result = isc_nm_listentcp(listen_nm, ISC_NM_LISTEN_ALL,
&tcp_listen_addr, accept_cb,
accept_cbarg, backlog, quota, sockp);
return result;
}
UNREACHABLE();
}
void
stream_connect(isc_nm_cb_t cb, void *cbarg, unsigned int timeout) {
isc_refcount_increment0(&active_cconnects);
if (stream_use_TLS && !stream_PROXY_over_TLS) {
isc_nm_tlsconnect(connect_nm, &tcp_connect_addr,
&tcp_listen_addr, cb, cbarg,
tcp_connect_tlsctx, NULL,
tcp_tlsctx_client_sess_cache, timeout,
stream_use_PROXY, NULL);
return;
} else if (stream_use_PROXY) {
isc_tlsctx_t *tlsctx = stream_PROXY_over_TLS
? tcp_connect_tlsctx
: NULL;
isc_tlsctx_client_session_cache_t *sess_cache =
stream_PROXY_over_TLS ? tcp_tlsctx_client_sess_cache
: NULL;
isc_nm_proxystreamconnect(connect_nm, &tcp_connect_addr,
&tcp_listen_addr, cb, cbarg, timeout,
tlsctx, NULL, sess_cache,
get_proxyheader_info());
return;
} else {
isc_nm_tcpconnect(connect_nm, &tcp_connect_addr,
&tcp_listen_addr, cb, cbarg, timeout);
return;
}
UNREACHABLE();
}
isc_nm_proxy_type_t
get_proxy_type(void) {
if (!stream_use_PROXY) {
return ISC_NM_PROXY_NONE;
} else if (stream_PROXY_over_TLS) {
return ISC_NM_PROXY_ENCRYPTED;
}
return ISC_NM_PROXY_PLAIN;
}
void
connect_success_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
UNUSED(handle);
UNUSED(cbarg);
F();
isc_refcount_decrement(&active_cconnects);
assert_int_equal(eresult, ISC_R_SUCCESS);
if (have_expected_cconnects(atomic_fetch_add(&cconnects, 1) + 1)) {
do_cconnects_shutdown(loopmgr);
return;
}
}
int
stream_noop_setup(void **state ISC_ATTR_UNUSED) {
int r = setup_netmgr_test(state);
expected_cconnects = 1;
return r;
}
int
proxystream_noop_setup(void **state) {
stream_use_PROXY = true;
return stream_noop_setup(state);
}
int
proxystreamtls_noop_setup(void **state) {
stream_PROXY_over_TLS = true;
return proxystream_noop_setup(state);
}
void
stream_noop(void **state ISC_ATTR_UNUSED) {
isc_result_t result = ISC_R_SUCCESS;
result = stream_listen(noop_accept_cb, NULL, 128, NULL, &listen_sock);
assert_int_equal(result, ISC_R_SUCCESS);
isc_loop_teardown(mainloop, stop_listening, listen_sock);
connect_readcb = NULL;
stream_connect(connect_success_cb, NULL, T_CONNECT);
}
int
stream_noop_teardown(void **state ISC_ATTR_UNUSED) {
atomic_assert_int_eq(cconnects, 1);
atomic_assert_int_eq(csends, 0);
atomic_assert_int_eq(creads, 0);
atomic_assert_int_eq(sreads, 0);
atomic_assert_int_eq(ssends, 0);
return teardown_netmgr_test(state);
}
int
proxystream_noop_teardown(void **state) {
int r = stream_noop_teardown(state);
stream_use_PROXY = false;
return r;
}
int
proxystreamtls_noop_teardown(void **state) {
int r = proxystream_noop_teardown(state);
stream_PROXY_over_TLS = false;
return r;
}
static void
noresponse_readcb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
UNUSED(handle);
UNUSED(region);
UNUSED(cbarg);
F();
assert_true(eresult == ISC_R_CANCELED ||
eresult == ISC_R_CONNECTIONRESET || eresult == ISC_R_EOF);
isc_refcount_decrement(&active_creads);
isc_nmhandle_detach(&handle);
isc_loopmgr_shutdown(loopmgr);
}
static void
noresponse_sendcb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
UNUSED(cbarg);
UNUSED(eresult);
F();
assert_non_null(handle);
atomic_fetch_add(&csends, 1);
isc_nmhandle_detach(&handle);
isc_refcount_decrement(&active_csends);
}
static void
noresponse_connectcb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
isc_nmhandle_t *readhandle = NULL;
isc_nmhandle_t *sendhandle = NULL;
F();
isc_refcount_decrement(&active_cconnects);
assert_int_equal(eresult, ISC_R_SUCCESS);
atomic_fetch_add(&cconnects, 1);
isc_refcount_increment0(&active_creads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, noresponse_readcb, NULL);
isc_refcount_increment0(&active_csends);
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(handle, T_IDLE);
isc_nm_send(handle, (isc_region_t *)&send_msg, noresponse_sendcb,
cbarg);
}
int
stream_noresponse_setup(void **state ISC_ATTR_UNUSED) {
int r = setup_netmgr_test(state);
expected_cconnects = 1;
expected_saccepts = 1;
return r;
}
int
proxystream_noresponse_setup(void **state) {
stream_use_PROXY = true;
return stream_noresponse_setup(state);
}
int
proxystream_noresponse_teardown(void **state) {
int r = stream_noresponse_teardown(state);
stream_use_PROXY = false;
return r;
}
int
proxystreamtls_noresponse_setup(void **state) {
stream_PROXY_over_TLS = true;
return proxystream_noresponse_setup(state);
}
int
proxystreamtls_noresponse_teardown(void **state) {
int r = proxystream_noresponse_teardown(state);
stream_PROXY_over_TLS = false;
return r;
}
void
stream_noresponse(void **state ISC_ATTR_UNUSED) {
isc_result_t result = ISC_R_SUCCESS;
result = stream_listen(noop_accept_cb, NULL, 128, NULL, &listen_sock);
assert_int_equal(result, ISC_R_SUCCESS);
isc_loop_teardown(mainloop, stop_listening, listen_sock);
stream_connect(noresponse_connectcb, NULL, T_CONNECT);
}
int
stream_noresponse_teardown(void **state ISC_ATTR_UNUSED) {
X(cconnects);
X(csends);
X(creads);
X(sreads);
X(ssends);
atomic_assert_int_eq(cconnects, 1);
atomic_assert_int_eq(creads, 0);
atomic_assert_int_eq(sreads, 0);
atomic_assert_int_eq(ssends, 0);
return teardown_netmgr_test(state);
}
int
stream_timeout_recovery_setup(void **state ISC_ATTR_UNUSED) {
int r = setup_netmgr_test(state);
expected_ctimeouts = 4;
ctimeouts_shutdown = false;
expected_sreads = 5;
sreads_shutdown = true;
return r;
}
typedef struct proxy_addrs {
isc_sockaddr_t src_addr;
isc_sockaddr_t dst_addr;
} proxy_addrs_t;
static void
proxy2_handler_save_addrs_cb(const isc_result_t result,
const isc_proxy2_command_t cmd, const int socktype,
const isc_sockaddr_t *restrict src_addr,
const isc_sockaddr_t *restrict dst_addr,
const isc_region_t *restrict tlv_data,
const isc_region_t *restrict extra, void *cbarg) {
proxy_addrs_t *addrs = (proxy_addrs_t *)cbarg;
UNUSED(cmd);
UNUSED(socktype);
UNUSED(tlv_data);
UNUSED(extra);
REQUIRE(result == ISC_R_SUCCESS);
if (src_addr != NULL) {
addrs->src_addr = *src_addr;
}
if (dst_addr != NULL) {
addrs->dst_addr = *dst_addr;
}
}
void
proxy_verify_endpoints(isc_nmhandle_t *handle) {
isc_sockaddr_t local, peer;
peer = isc_nmhandle_peeraddr(handle);
local = isc_nmhandle_localaddr(handle);
if (isc_nm_is_proxy_unspec(handle)) {
isc_sockaddr_t real_local, real_peer;
real_peer = isc_nmhandle_real_peeraddr(handle);
real_local = isc_nmhandle_real_localaddr(handle);
assert_true(isc_sockaddr_equal(&peer, &real_peer));
assert_true(isc_sockaddr_equal(&local, &real_local));
} else if (proxy_info == NULL) {
assert_true(isc_sockaddr_equal(&peer, &proxy_src));
assert_true(isc_sockaddr_equal(&local, &proxy_dst));
} else if (proxy_info != NULL && !proxy_info->complete) {
assert_true(isc_sockaddr_equal(
&peer, &proxy_info->proxy_info.src_addr));
assert_true(isc_sockaddr_equal(
&local, &proxy_info->proxy_info.dst_addr));
} else if (proxy_info != NULL && proxy_info->complete) {
proxy_addrs_t addrs = { 0 };
RUNTIME_CHECK(isc_proxy2_header_handle_directly(
&proxy_info->complete_header,
proxy2_handler_save_addrs_cb,
&addrs) == ISC_R_SUCCESS);
assert_true(isc_sockaddr_equal(&peer, &addrs.src_addr));
assert_true(isc_sockaddr_equal(&local, &addrs.dst_addr));
}
}
int
proxystream_timeout_recovery_setup(void **state) {
stream_use_PROXY = true;
return stream_timeout_recovery_setup(state);
}
int
proxystream_timeout_recovery_teardown(void **state) {
int r = stream_timeout_recovery_teardown(state);
stream_use_PROXY = false;
return r;
}
int
proxystreamtls_timeout_recovery_setup(void **state) {
stream_PROXY_over_TLS = true;
return proxystream_timeout_recovery_setup(state);
}
int
proxystreamtls_timeout_recovery_teardown(void **state) {
int r = proxystream_timeout_recovery_teardown(state);
stream_PROXY_over_TLS = false;
return r;
}
void
stream_timeout_recovery(void **state ISC_ATTR_UNUSED) {
isc_result_t result = ISC_R_SUCCESS;
/*
* Accept connections but don't send responses, forcing client
* reads to time out.
*/
noanswer = true;
result = stream_listen(stream_accept_cb, NULL, 128, NULL, &listen_sock);
assert_int_equal(result, ISC_R_SUCCESS);
isc_loop_teardown(mainloop, stop_listening, listen_sock);
/*
* Shorten all the client timeouts to 0.05 seconds.
*/
isc_nm_settimeouts(connect_nm, T_SOFT, T_SOFT, T_SOFT, T_SOFT);
connect_readcb = timeout_retry_cb;
stream_connect(connect_connect_cb, NULL, T_CONNECT);
}
int
stream_timeout_recovery_teardown(void **state ISC_ATTR_UNUSED) {
atomic_assert_int_eq(ctimeouts, expected_ctimeouts);
return teardown_netmgr_test(state);
}
int
stream_recv_one_setup(void **state ISC_ATTR_UNUSED) {
int r = setup_netmgr_test(state);
expected_cconnects = 1;
cconnects_shutdown = false;
expected_csends = 1;
csends_shutdown = false;
expected_saccepts = 1;
saccepts_shutdown = false;
expected_sreads = 1;
sreads_shutdown = false;
expected_ssends = 1;
ssends_shutdown = false;
expected_creads = 1;
creads_shutdown = true;
return r;
}
int
proxystream_recv_one_setup(void **state) {
stream_use_PROXY = true;
return stream_recv_one_setup(state);
}
int
proxystream_recv_one_teardown(void **state) {
int r = stream_recv_one_teardown(state);
stream_use_PROXY = false;
return r;
}
int
proxystreamtls_recv_one_setup(void **state) {
stream_PROXY_over_TLS = true;
return proxystream_recv_one_setup(state);
}
int
proxystreamtls_recv_one_teardown(void **state) {
int r = proxystream_recv_one_teardown(state);
stream_PROXY_over_TLS = false;
return r;
}
void
stream_recv_one(void **state ISC_ATTR_UNUSED) {
isc_result_t result = ISC_R_SUCCESS;
isc_quota_t *quotap = tcp_listener_init_quota(1);
atomic_store(&nsends, 1);
result = stream_listen(stream_accept_cb, NULL, 128, quotap,
&listen_sock);
assert_int_equal(result, ISC_R_SUCCESS);
isc_loop_teardown(mainloop, stop_listening, listen_sock);
stream_connect(connect_connect_cb, NULL, T_CONNECT);
}
int
stream_recv_one_teardown(void **state ISC_ATTR_UNUSED) {
atomic_assert_int_eq(cconnects, expected_cconnects);
atomic_assert_int_eq(csends, expected_csends);
atomic_assert_int_eq(saccepts, expected_saccepts);
atomic_assert_int_eq(sreads, expected_sreads);
atomic_assert_int_eq(ssends, expected_ssends);
atomic_assert_int_eq(creads, expected_creads);
return teardown_netmgr_test(state);
}
int
stream_recv_two_setup(void **state ISC_ATTR_UNUSED) {
int r = setup_netmgr_test(state);
expected_cconnects = 2;
cconnects_shutdown = false;
expected_csends = 2;
csends_shutdown = false;
expected_saccepts = 2;
saccepts_shutdown = false;
expected_sreads = 2;
sreads_shutdown = false;
expected_ssends = 2;
ssends_shutdown = false;
expected_creads = 2;
creads_shutdown = true;
return r;
}
int
proxystream_recv_two_setup(void **state) {
stream_use_PROXY = true;
return stream_recv_two_setup(state);
}
int
proxystream_recv_two_teardown(void **state) {
int r = stream_recv_two_teardown(state);
stream_use_PROXY = false;
return r;
}
int
proxystreamtls_recv_two_setup(void **state) {
stream_PROXY_over_TLS = true;
return proxystream_recv_two_setup(state);
}
int
proxystreamtls_recv_two_teardown(void **state) {
int r = proxystream_recv_two_teardown(state);
stream_PROXY_over_TLS = false;
return r;
}
void
stream_recv_two(void **state ISC_ATTR_UNUSED) {
isc_result_t result = ISC_R_SUCCESS;
isc_quota_t *quotap = tcp_listener_init_quota(1);
atomic_store(&nsends, 2);
result = stream_listen(stream_accept_cb, NULL, 128, quotap,
&listen_sock);
assert_int_equal(result, ISC_R_SUCCESS);
isc_loop_teardown(mainloop, stop_listening, listen_sock);
stream_connect(connect_connect_cb, NULL, T_CONNECT);
stream_connect(connect_connect_cb, NULL, T_CONNECT);
}
int
stream_recv_two_teardown(void **state ISC_ATTR_UNUSED) {
atomic_assert_int_eq(cconnects, expected_cconnects);
atomic_assert_int_eq(csends, expected_csends);
atomic_assert_int_eq(sreads, expected_saccepts);
atomic_assert_int_eq(sreads, expected_sreads);
atomic_assert_int_eq(ssends, expected_ssends);
atomic_assert_int_eq(creads, expected_creads);
return teardown_netmgr_test(state);
}
int
stream_recv_send_setup(void **state ISC_ATTR_UNUSED) {
int r = setup_netmgr_test(state);
expected_cconnects = workers;
cconnects_shutdown = false;
nsends = expected_creads = workers;
do_send = true;
return r;
}
int
proxystream_recv_send_setup(void **state) {
stream_use_PROXY = true;
return stream_recv_send_setup(state);
}
int
proxystream_recv_send_teardown(void **state) {
int r = stream_recv_send_teardown(state);
stream_use_PROXY = false;
return r;
}
int
proxystreamtls_recv_send_setup(void **state) {
stream_PROXY_over_TLS = true;
return proxystream_recv_send_setup(state);
}
int
proxystreamtls_recv_send_teardown(void **state) {
int r = proxystream_recv_send_teardown(state);
stream_PROXY_over_TLS = false;
return r;
}
void
stream_recv_send(void **state ISC_ATTR_UNUSED) {
isc_result_t result = ISC_R_SUCCESS;
isc_quota_t *quotap = tcp_listener_init_quota(workers);
result = stream_listen(stream_accept_cb, NULL, 128, quotap,
&listen_sock);
assert_int_equal(result, ISC_R_SUCCESS);
isc_loop_teardown(mainloop, stop_listening, listen_sock);
for (size_t i = 0; i < workers; i++) {
isc_async_run(isc_loop_get(loopmgr, i),
stream_recv_send_connect,
get_stream_connect_function());
}
}
int
stream_recv_send_teardown(void **state ISC_ATTR_UNUSED) {
X(cconnects);
X(csends);
X(creads);
X(sreads);
X(ssends);
CHECK_RANGE_FULL(csends);
CHECK_RANGE_FULL(creads);
CHECK_RANGE_FULL(sreads);
CHECK_RANGE_FULL(ssends);
return teardown_netmgr_test(state);
}
int
setup_udp_test(void **state) {
setup_loopmgr(state);
setup_netmgr(state);
udp_connect_addr = (isc_sockaddr_t){ .length = 0 };
isc_sockaddr_fromin6(&udp_connect_addr, &in6addr_loopback, 0);
udp_listen_addr = (isc_sockaddr_t){ .length = 0 };
isc_sockaddr_fromin6(&udp_listen_addr, &in6addr_loopback,
udp_use_PROXY ? PROXYUDP_TEST_PORT
: UDP_TEST_PORT);
atomic_store(&sreads, 0);
atomic_store(&ssends, 0);
atomic_store(&cconnects, 0);
atomic_store(&csends, 0);
atomic_store(&creads, 0);
atomic_store(&ctimeouts, 0);
isc_refcount_init(&active_cconnects, 0);
isc_refcount_init(&active_csends, 0);
isc_refcount_init(&active_creads, 0);
isc_refcount_init(&active_ssends, 0);
isc_refcount_init(&active_sreads, 0);
expected_cconnects = -1;
expected_csends = -1;
expected_creads = -1;
expected_sreads = -1;
expected_ssends = -1;
expected_ctimeouts = -1;
ssends_shutdown = true;
sreads_shutdown = true;
csends_shutdown = true;
cconnects_shutdown = true;
creads_shutdown = true;
isc_nonce_buf(&send_magic, sizeof(send_magic));
connect_readcb = connect_read_cb;
return 0;
}
int
teardown_udp_test(void **state) {
UNUSED(state);
isc_refcount_destroy(&active_cconnects);
isc_refcount_destroy(&active_csends);
isc_refcount_destroy(&active_creads);
isc_refcount_destroy(&active_ssends);
isc_refcount_destroy(&active_sreads);
teardown_netmgr(state);
teardown_loopmgr(state);
return 0;
}
static void
udp_connect(isc_nm_cb_t cb, void *cbarg, unsigned int timeout) {
if (udp_use_PROXY) {
isc_nm_proxyudpconnect(netmgr, &udp_connect_addr,
&udp_listen_addr, cb, cbarg, timeout,
NULL);
} else {
isc_nm_udpconnect(netmgr, &udp_connect_addr, &udp_listen_addr,
cb, cbarg, timeout);
}
}
static void
udp_listen_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
if (eresult != ISC_R_SUCCESS) {
isc_refcount_increment0(&active_sreads);
}
listen_read_cb(handle, eresult, region, cbarg);
}
static void
udp_start_listening(uint32_t nworkers, isc_nm_recv_cb_t cb) {
isc_result_t result;
if (udp_use_PROXY) {
result = isc_nm_listenproxyudp(netmgr, nworkers,
&udp_listen_addr, cb, NULL,
&listen_sock);
} else {
result = isc_nm_listenudp(netmgr, nworkers, &udp_listen_addr,
cb, NULL, &listen_sock);
}
assert_int_equal(result, ISC_R_SUCCESS);
isc_loop_teardown(mainloop, stop_listening, listen_sock);
}
static void
udp__send_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
isc_nmhandle_t *sendhandle = handle;
assert_non_null(sendhandle);
F();
switch (eresult) {
case ISC_R_SUCCESS:
if (have_expected_csends(atomic_fetch_add(&csends, 1) + 1)) {
if (csends_shutdown) {
isc_nm_cancelread(handle);
isc_loopmgr_shutdown(loopmgr);
}
}
break;
case ISC_R_SHUTTINGDOWN:
case ISC_R_CANCELED:
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
isc_nmhandle_detach(&sendhandle);
isc_refcount_decrement(&active_csends);
}
static void
udp__connect_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg);
static void
udp_enqueue_connect(void *arg ISC_ATTR_UNUSED) {
isc_sockaddr_t connect_addr;
connect_addr = (isc_sockaddr_t){ .length = 0 };
isc_sockaddr_fromin6(&connect_addr, &in6addr_loopback, 0);
isc_refcount_increment0(&active_cconnects);
udp_connect(udp__connect_cb, NULL, T_CONNECT);
}
static void
udp__connect_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
uint64_t magic = 0;
assert_non_null(handle);
F();
switch (eresult) {
case ISC_R_TIMEDOUT:
/*
* We are operating on the localhost, UDP cannot get lost, but
* it could be delayed, so we read again until we get the
* answer.
*/
isc_nm_read(handle, connect_readcb, cbarg);
return;
case ISC_R_SUCCESS:
assert_true(region->length >= sizeof(magic));
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
if (have_expected_creads(atomic_fetch_add(&creads, 1) + 1)) {
do_creads_shutdown(loopmgr);
}
if (magic == send_magic && allow_send_back) {
connect_send(handle);
return;
}
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
isc_refcount_decrement(&active_creads);
isc_nmhandle_detach(&handle);
}
static void
udp__connect_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) {
isc_nmhandle_t *readhandle = NULL;
isc_nmhandle_t *sendhandle = NULL;
F();
isc_refcount_decrement(&active_cconnects);
switch (eresult) {
case ISC_R_SUCCESS:
if (udp_use_PROXY) {
assert_true(isc_nm_is_proxy_handle(handle));
}
if (have_expected_cconnects(atomic_fetch_add(&cconnects, 1) +
1))
{
do_cconnects_shutdown(loopmgr);
} else if (do_send) {
isc_async_current(udp_enqueue_connect, cbarg);
}
isc_refcount_increment0(&active_creads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, connect_readcb, cbarg);
isc_refcount_increment0(&active_csends);
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(handle, T_IDLE);
isc_nm_send(sendhandle, (isc_region_t *)&send_msg, udp__send_cb,
cbarg);
break;
case ISC_R_ADDRINUSE:
/* Try again */
udp_enqueue_connect(NULL);
break;
case ISC_R_SHUTTINGDOWN:
case ISC_R_CANCELED:
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
}
int
udp_noop_setup(void **state) {
setup_udp_test(state);
expected_cconnects = 1;
cconnects_shutdown = true;
return 0;
}
int
udp_noop_teardown(void **state) {
atomic_assert_int_eq(cconnects, 1);
teardown_udp_test(state);
return 0;
}
void
udp_noop(void **arg ISC_ATTR_UNUSED) {
/* isc_result_t result = ISC_R_SUCCESS; */
/* result = isc_nm_listenudp(netmgr, ISC_NM_LISTEN_ALL,
* &udp_listen_addr, */
/* mock_recv_cb, NULL, &listen_sock); */
/* assert_int_equal(result, ISC_R_SUCCESS); */
/* isc_nm_stoplistening(listen_sock); */
/* isc_nmsocket_close(&listen_sock); */
/* assert_null(listen_sock); */
isc_refcount_increment0(&active_cconnects);
udp_connect(connect_success_cb, NULL, UDP_T_CONNECT);
}
int
proxyudp_noop_setup(void **state) {
udp_use_PROXY = true;
return udp_noop_setup(state);
}
int
proxyudp_noop_teardown(void **state) {
int ret = udp_noop_teardown(state);
udp_use_PROXY = false;
return ret;
}
static void
udp_noresponse_recv_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
UNUSED(handle);
UNUSED(eresult);
UNUSED(region);
UNUSED(cbarg);
}
static void
udp_noresponse_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
UNUSED(region);
UNUSED(cbarg);
assert_int_equal(eresult, ISC_R_TIMEDOUT);
isc_refcount_decrement(&active_creads);
atomic_fetch_add(&creads, 1);
isc_nmhandle_detach(&handle);
isc_loopmgr_shutdown(loopmgr);
}
static void
udp_noresponse_send_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
UNUSED(cbarg);
assert_non_null(handle);
assert_int_equal(eresult, ISC_R_SUCCESS);
atomic_fetch_add(&csends, 1);
isc_nmhandle_detach(&handle);
isc_refcount_decrement(&active_csends);
}
static void
udp_noresponse_connect_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
isc_nmhandle_t *readhandle = NULL;
isc_nmhandle_t *sendhandle = NULL;
isc_refcount_decrement(&active_cconnects);
assert_int_equal(eresult, ISC_R_SUCCESS);
/* Read */
isc_refcount_increment0(&active_creads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, udp_noresponse_read_cb, cbarg);
/* Send */
isc_refcount_increment0(&active_csends);
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(handle, T_IDLE);
isc_nm_send(sendhandle, (isc_region_t *)&send_msg,
udp_noresponse_send_cb, cbarg);
atomic_fetch_add(&cconnects, 1);
}
int
udp_noresponse_setup(void **state) {
setup_udp_test(state);
expected_csends = 1;
return 0;
}
int
udp_noresponse_teardown(void **state) {
atomic_assert_int_eq(csends, expected_csends);
teardown_udp_test(state);
return 0;
}
void
udp_noresponse(void **arg ISC_ATTR_UNUSED) {
udp_start_listening(ISC_NM_LISTEN_ONE, udp_noresponse_recv_cb);
isc_refcount_increment0(&active_cconnects);
udp_connect(udp_noresponse_connect_cb, listen_sock, UDP_T_SOFT);
}
int
proxyudp_noresponse_setup(void **state) {
udp_use_PROXY = true;
return udp_noresponse_setup(state);
}
int
proxyudp_noresponse_teardown(void **state) {
int ret = udp_noresponse_teardown(state);
udp_use_PROXY = false;
return ret;
}
static void
udp_timeout_recovery_ssend_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
UNUSED(cbarg);
isc_refcount_decrement(&active_ssends);
assert_non_null(handle);
assert_int_equal(eresult, ISC_R_SUCCESS);
atomic_fetch_add(&ssends, 1);
isc_nmhandle_detach(&handle);
}
static void
udp_timeout_recovery_recv_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
uint64_t magic = 0;
isc_nmhandle_t *sendhandle = NULL;
int _creads = atomic_fetch_add(&creads, 1) + 1;
assert_non_null(handle);
assert_int_equal(eresult, ISC_R_SUCCESS);
assert_true(region->length == sizeof(magic));
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
assert_true(_creads < 6);
if (_creads == 5) {
isc_nmhandle_attach(handle, &sendhandle);
isc_refcount_increment0(&active_ssends);
isc_nmhandle_setwritetimeout(sendhandle, T_IDLE);
isc_nm_send(sendhandle, (isc_region_t *)&send_msg,
udp_timeout_recovery_ssend_cb, cbarg);
}
}
static void
udp_timeout_recovery_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
UNUSED(region);
UNUSED(cbarg);
assert_non_null(handle);
F();
if (eresult == ISC_R_TIMEDOUT &&
atomic_fetch_add(&ctimeouts, 1) + 1 < expected_ctimeouts)
{
isc_nmhandle_settimeout(handle, T_SOFT);
return;
}
isc_refcount_decrement(&active_creads);
isc_nmhandle_detach(&handle);
atomic_fetch_add(&creads, 1);
isc_loopmgr_shutdown(loopmgr);
}
static void
udp_timeout_recovery_send_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
UNUSED(cbarg);
assert_non_null(handle);
assert_int_equal(eresult, ISC_R_SUCCESS);
atomic_fetch_add(&csends, 1);
isc_nmhandle_detach(&handle);
isc_refcount_decrement(&active_csends);
}
static void
udp_timeout_recovery_connect_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
isc_nmhandle_t *readhandle = NULL;
isc_nmhandle_t *sendhandle = NULL;
F();
isc_refcount_decrement(&active_cconnects);
assert_int_equal(eresult, ISC_R_SUCCESS);
/* Read */
isc_refcount_increment0(&active_creads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, udp_timeout_recovery_read_cb, cbarg);
/* Send */
isc_refcount_increment0(&active_csends);
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(handle, T_IDLE);
isc_nm_send(sendhandle, (isc_region_t *)&send_msg,
udp_timeout_recovery_send_cb, cbarg);
atomic_fetch_add(&cconnects, 1);
}
int
udp_timeout_recovery_setup(void **state) {
setup_udp_test(state);
expected_cconnects = 1;
expected_csends = 1;
expected_creads = 1;
expected_ctimeouts = 4;
return 0;
}
int
udp_timeout_recovery_teardown(void **state) {
atomic_assert_int_eq(cconnects, expected_cconnects);
atomic_assert_int_eq(csends, expected_csends);
atomic_assert_int_eq(csends, expected_creads);
atomic_assert_int_eq(ctimeouts, expected_ctimeouts);
teardown_udp_test(state);
return 0;
}
void
udp_timeout_recovery(void **arg ISC_ATTR_UNUSED) {
/*
* Listen using the noop callback so that client reads will time out.
*/
udp_start_listening(ISC_NM_LISTEN_ONE, udp_timeout_recovery_recv_cb);
/*
* Connect with client timeout set to 0.05 seconds, then sleep for at
* least a second for each 'tick'. timeout_retry_cb() will give up
* after five timeouts.
*/
isc_refcount_increment0(&active_cconnects);
udp_connect(udp_timeout_recovery_connect_cb, listen_sock, UDP_T_SOFT);
}
int
proxyudp_timeout_recovery_setup(void **state) {
udp_use_PROXY = true;
return udp_timeout_recovery_setup(state);
}
int
proxyudp_timeout_recovery_teardown(void **state) {
int ret = udp_timeout_recovery_teardown(state);
udp_use_PROXY = false;
return ret;
}
static void
udp_shutdown_connect_async_cb(void *arg ISC_ATTR_UNUSED);
static void
udp_shutdown_connect_connect_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
UNUSED(handle);
UNUSED(cbarg);
isc_refcount_decrement(&active_cconnects);
/*
* The first UDP connect is faster than asynchronous shutdown procedure,
* restart the UDP connect again and expect the failure only in the
* second loop.
*/
if (atomic_fetch_add(&cconnects, 1) == 0) {
assert_int_equal(eresult, ISC_R_SUCCESS);
isc_async_current(udp_shutdown_connect_async_cb, netmgr);
} else {
assert_int_equal(eresult, ISC_R_SHUTTINGDOWN);
}
}
static void
udp_shutdown_connect_async_cb(void *arg ISC_ATTR_UNUSED) {
isc_refcount_increment0(&active_cconnects);
udp_connect(udp_shutdown_connect_connect_cb, NULL, T_SOFT);
}
int
udp_shutdown_connect_setup(void **state) {
setup_udp_test(state);
expected_cconnects = 2;
return 0;
}
int
udp_shutdown_connect_teardown(void **state) {
atomic_assert_int_eq(cconnects, expected_cconnects);
teardown_udp_test(state);
return 0;
}
void
udp_shutdown_connect(void **arg ISC_ATTR_UNUSED) {
isc_loopmgr_shutdown(loopmgr);
/*
* isc_nm_udpconnect() is synchronous, so we need to launch this on the
* async loop.
*/
isc_async_current(udp_shutdown_connect_async_cb, netmgr);
}
int
proxyudp_shutdown_connect_setup(void **state) {
udp_use_PROXY = true;
return udp_shutdown_connect_setup(state);
}
int
proxyudp_shutdown_connect_teardown(void **state) {
int ret = udp_shutdown_connect_teardown(state);
udp_use_PROXY = false;
return ret;
}
static void
udp_shutdown_read_recv_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
uint64_t magic = 0;
UNUSED(cbarg);
assert_non_null(handle);
F();
assert_int_equal(eresult, ISC_R_SUCCESS);
assert_true(region->length == sizeof(magic));
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
}
static void
udp_shutdown_read_send_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
UNUSED(cbarg);
F();
assert_non_null(handle);
assert_int_equal(eresult, ISC_R_SUCCESS);
atomic_fetch_add(&csends, 1);
isc_loopmgr_shutdown(loopmgr);
isc_nmhandle_detach(&handle);
isc_refcount_decrement(&active_csends);
}
static void
udp_shutdown_read_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
UNUSED(region);
UNUSED(cbarg);
assert_true(eresult == ISC_R_SHUTTINGDOWN || eresult == ISC_R_TIMEDOUT);
isc_refcount_decrement(&active_creads);
atomic_fetch_add(&creads, 1);
isc_nmhandle_detach(&handle);
}
static void
udp_shutdown_read_connect_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
isc_nmhandle_t *readhandle = NULL;
isc_nmhandle_t *sendhandle = NULL;
isc_refcount_decrement(&active_cconnects);
assert_int_equal(eresult, ISC_R_SUCCESS);
/* Read */
isc_refcount_increment0(&active_creads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, udp_shutdown_read_read_cb, cbarg);
assert_true(handle->sock->reading);
/* Send */
isc_refcount_increment0(&active_csends);
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(handle, T_IDLE);
isc_nm_send(sendhandle, (isc_region_t *)&send_msg,
udp_shutdown_read_send_cb, cbarg);
atomic_fetch_add(&cconnects, 1);
}
int
udp_shutdown_read_setup(void **state) {
setup_udp_test(state);
expected_cconnects = 1;
expected_creads = 1;
return 0;
}
int
udp_shutdown_read_teardown(void **state) {
atomic_assert_int_eq(cconnects, expected_cconnects);
atomic_assert_int_eq(creads, expected_creads);
teardown_udp_test(state);
return 0;
}
void
udp_shutdown_read(void **arg ISC_ATTR_UNUSED) {
udp_start_listening(ISC_NM_LISTEN_ONE, udp_shutdown_read_recv_cb);
isc_refcount_increment0(&active_cconnects);
udp_connect(udp_shutdown_read_connect_cb, NULL, UDP_T_SOFT);
}
int
proxyudp_shutdown_read_setup(void **state) {
udp_use_PROXY = true;
return udp_shutdown_read_setup(state);
}
int
proxyudp_shutdown_read_teardown(void **state) {
int ret = udp_shutdown_read_teardown(state);
udp_use_PROXY = false;
return ret;
}
static void
udp_cancel_read_recv_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
uint64_t magic = 0;
UNUSED(cbarg);
assert_non_null(handle);
F();
assert_int_equal(eresult, ISC_R_SUCCESS);
assert_true(region->length == sizeof(magic));
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
}
static void
udp_cancel_read_send_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
UNUSED(cbarg);
F();
assert_non_null(handle);
assert_int_equal(eresult, ISC_R_SUCCESS);
atomic_fetch_add(&csends, 1);
isc_nm_cancelread(handle);
isc_nmhandle_detach(&handle);
isc_refcount_decrement(&active_csends);
}
static void
udp_cancel_read_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
isc_nmhandle_t *sendhandle = NULL;
isc_nmhandle_t *readhandle = NULL;
UNUSED(region);
F();
switch (eresult) {
case ISC_R_TIMEDOUT:
/* Read again */
isc_refcount_increment0(&active_creads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, udp_cancel_read_read_cb, cbarg);
/* Send only once */
if (isc_refcount_increment0(&active_csends) == 0) {
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(handle, T_IDLE);
isc_nm_send(sendhandle, (isc_region_t *)&send_msg,
udp_cancel_read_send_cb, cbarg);
}
break;
case ISC_R_CANCELED:
/* The read has been canceled */
atomic_fetch_add(&creads, 1);
isc_loopmgr_shutdown(loopmgr);
break;
default:
UNREACHABLE();
}
isc_refcount_decrement(&active_creads);
isc_nmhandle_detach(&handle);
}
static void
udp_cancel_read_connect_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
isc_nmhandle_t *readhandle = NULL;
isc_refcount_decrement(&active_cconnects);
assert_int_equal(eresult, ISC_R_SUCCESS);
isc_refcount_increment0(&active_creads);
isc_nmhandle_attach(handle, &readhandle);
isc_nm_read(handle, udp_cancel_read_read_cb, cbarg);
atomic_fetch_add(&cconnects, 1);
}
int
udp_cancel_read_setup(void **state) {
setup_udp_test(state);
expected_cconnects = 1;
expected_creads = 1;
return 0;
}
int
udp_cancel_read_teardown(void **state) {
atomic_assert_int_eq(cconnects, expected_cconnects);
atomic_assert_int_eq(creads, expected_creads);
teardown_udp_test(state);
return 0;
}
void
udp_cancel_read(void **arg ISC_ATTR_UNUSED) {
udp_start_listening(ISC_NM_LISTEN_ONE, udp_cancel_read_recv_cb);
isc_refcount_increment0(&active_cconnects);
udp_connect(udp_cancel_read_connect_cb, NULL, UDP_T_SOFT);
}
int
proxyudp_cancel_read_setup(void **state) {
udp_use_PROXY = true;
return udp_cancel_read_setup(state);
}
int
proxyudp_cancel_read_teardown(void **state) {
int ret = udp_cancel_read_teardown(state);
udp_use_PROXY = false;
return ret;
}
int
udp_recv_one_setup(void **state) {
setup_udp_test(state);
connect_readcb = udp__connect_read_cb;
expected_cconnects = 1;
cconnects_shutdown = false;
expected_csends = 1;
csends_shutdown = false;
expected_sreads = 1;
sreads_shutdown = false;
expected_ssends = 1;
ssends_shutdown = false;
expected_creads = 1;
creads_shutdown = true;
return 0;
}
int
udp_recv_one_teardown(void **state) {
atomic_assert_int_eq(cconnects, expected_cconnects);
atomic_assert_int_eq(csends, expected_csends);
atomic_assert_int_eq(sreads, expected_sreads);
atomic_assert_int_eq(ssends, expected_ssends);
atomic_assert_int_eq(creads, expected_creads);
teardown_udp_test(state);
return 0;
}
void
udp_recv_one(void **arg ISC_ATTR_UNUSED) {
udp_start_listening(ISC_NM_LISTEN_ONE, udp_listen_read_cb);
udp_enqueue_connect(NULL);
}
int
proxyudp_recv_one_setup(void **state) {
udp_use_PROXY = true;
return udp_recv_one_setup(state);
}
int
proxyudp_recv_one_teardown(void **state) {
int ret = udp_recv_one_teardown(state);
udp_use_PROXY = false;
return ret;
}
int
udp_recv_two_setup(void **state) {
setup_udp_test(state);
connect_readcb = udp__connect_read_cb;
expected_cconnects = 2;
cconnects_shutdown = false;
expected_csends = 2;
csends_shutdown = false;
expected_sreads = 2;
sreads_shutdown = false;
expected_ssends = 2;
ssends_shutdown = false;
expected_creads = 2;
creads_shutdown = true;
return 0;
}
int
udp_recv_two_teardown(void **state) {
atomic_assert_int_eq(cconnects, expected_cconnects);
atomic_assert_int_eq(csends, expected_csends);
atomic_assert_int_eq(sreads, expected_sreads);
atomic_assert_int_eq(ssends, expected_ssends);
atomic_assert_int_eq(creads, expected_creads);
teardown_udp_test(state);
return 0;
}
void
udp_recv_two(void **arg ISC_ATTR_UNUSED) {
udp_start_listening(ISC_NM_LISTEN_ONE, udp_listen_read_cb);
udp_enqueue_connect(NULL);
udp_enqueue_connect(NULL);
}
int
proxyudp_recv_two_setup(void **state) {
udp_use_PROXY = true;
return udp_recv_two_setup(state);
}
int
proxyudp_recv_two_teardown(void **state) {
int ret = udp_recv_two_teardown(state);
udp_use_PROXY = false;
return ret;
}
int
udp_recv_send_setup(void **state) {
setup_udp_test(state);
/* Allow some leeway (+1) as datagram service is unreliable */
expected_cconnects = (workers + 1) * NSENDS;
cconnects_shutdown = false;
expected_creads = workers * NSENDS;
do_send = true;
return 0;
}
int
udp_recv_send_teardown(void **state) {
atomic_assert_int_ge(cconnects, expected_creads);
atomic_assert_int_ge(csends, expected_creads);
atomic_assert_int_ge(sreads, expected_creads);
atomic_assert_int_ge(ssends, expected_creads);
atomic_assert_int_ge(creads, expected_creads);
teardown_udp_test(state);
return 0;
}
void
udp_recv_send(void **arg ISC_ATTR_UNUSED) {
udp_start_listening(ISC_NM_LISTEN_ALL, udp_listen_read_cb);
for (size_t i = 0; i < workers; i++) {
isc_async_run(isc_loop_get(loopmgr, i), udp_enqueue_connect,
NULL);
}
}
int
proxyudp_recv_send_setup(void **state) {
udp_use_PROXY = true;
return udp_recv_send_setup(state);
}
int
proxyudp_recv_send_teardown(void **state) {
int ret = udp_recv_send_teardown(state);
udp_use_PROXY = false;
return ret;
}
static void
udp_double_read_send_cb(isc_nmhandle_t *handle, isc_result_t eresult,
void *cbarg) {
assert_non_null(handle);
F();
isc_refcount_decrement(&active_ssends);
switch (eresult) {
case ISC_R_SUCCESS:
if (have_expected_ssends(atomic_fetch_add(&ssends, 1) + 1)) {
do_ssends_shutdown(loopmgr);
} else {
isc_nmhandle_t *sendhandle = NULL;
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(sendhandle, T_IDLE);
isc_refcount_increment0(&active_ssends);
isc_nm_send(sendhandle, &send_msg,
udp_double_read_send_cb, cbarg);
break;
}
break;
case ISC_R_CANCELED:
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
isc_nmhandle_detach(&handle);
}
static void
udp_double_read_listen_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
uint64_t magic = 0;
assert_non_null(handle);
F();
switch (eresult) {
case ISC_R_EOF:
case ISC_R_SHUTTINGDOWN:
case ISC_R_CANCELED:
break;
case ISC_R_SUCCESS:
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
assert_true(region->length >= sizeof(magic));
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
isc_nmhandle_t *sendhandle = NULL;
isc_nmhandle_attach(handle, &sendhandle);
isc_nmhandle_setwritetimeout(sendhandle, T_IDLE);
isc_refcount_increment0(&active_ssends);
isc_nm_send(sendhandle, &send_msg, udp_double_read_send_cb,
cbarg);
return;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
isc_refcount_decrement(&active_sreads);
isc_nmhandle_detach(&handle);
}
static void
udp_double_read_cb(isc_nmhandle_t *handle, isc_result_t eresult,
isc_region_t *region, void *cbarg) {
uint64_t magic = 0;
bool detach = false;
assert_non_null(handle);
F();
switch (eresult) {
case ISC_R_TIMEDOUT:
/*
* We are operating on the localhost, UDP cannot get lost, but
* it could be delayed, so we read again until we get the
* answer.
*/
detach = false;
break;
case ISC_R_SUCCESS:
assert_true(region->length >= sizeof(magic));
memmove(&magic, region->base, sizeof(magic));
assert_true(magic == send_magic);
if (have_expected_creads(atomic_fetch_add(&creads, 1) + 1)) {
do_creads_shutdown(loopmgr);
detach = true;
}
if (magic == send_magic && allow_send_back) {
connect_send(handle);
return;
}
break;
case ISC_R_EOF:
case ISC_R_SHUTTINGDOWN:
case ISC_R_CANCELED:
case ISC_R_CONNECTIONRESET:
detach = true;
break;
default:
fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle,
isc_result_totext(eresult), cbarg);
assert_int_equal(eresult, ISC_R_SUCCESS);
}
if (detach) {
isc_refcount_decrement(&active_creads);
isc_nmhandle_detach(&handle);
} else {
isc_nm_read(handle, connect_readcb, cbarg);
}
}
int
udp_double_read_setup(void **state) {
setup_udp_test(state);
expected_cconnects = 1;
cconnects_shutdown = false;
expected_csends = 1;
csends_shutdown = false;
expected_sreads = 1;
sreads_shutdown = false;
expected_ssends = 2;
ssends_shutdown = false;
expected_creads = 2;
creads_shutdown = true;
connect_readcb = udp_double_read_cb;
return 0;
}
int
udp_double_read_teardown(void **state) {
atomic_assert_int_eq(creads, expected_creads);
teardown_udp_test(state);
return 0;
}
void
udp_double_read(void **arg ISC_ATTR_UNUSED) {
udp_start_listening(ISC_NM_LISTEN_ALL, udp_double_read_listen_cb);
udp_enqueue_connect(NULL);
}
int
proxyudp_double_read_setup(void **state) {
udp_use_PROXY = true;
return udp_double_read_setup(state);
}
int
proxyudp_double_read_teardown(void **state) {
int ret = udp_double_read_teardown(state);
udp_use_PROXY = false;
return ret;
}
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