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Diffstat (limited to '')
-rw-r--r-- | lib/isc/tests/netmgr_test.c | 2218 |
1 files changed, 2218 insertions, 0 deletions
diff --git a/lib/isc/tests/netmgr_test.c b/lib/isc/tests/netmgr_test.c new file mode 100644 index 0000000..8e30359 --- /dev/null +++ b/lib/isc/tests/netmgr_test.c @@ -0,0 +1,2218 @@ +/* + * 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. + */ + +#if HAVE_CMOCKA +#include <sched.h> /* IWYU pragma: keep */ +#include <setjmp.h> +#include <signal.h> +#include <stdarg.h> +#include <stdlib.h> +#include <unistd.h> +#include <uv.h> + +#define UNIT_TESTING +#include <cmocka.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 "uv_wrap.h" +#define KEEP_BEFORE + +#include "../netmgr/netmgr-int.h" +#include "../netmgr/udp.c" +#include "../netmgr/uv-compat.c" +#include "../netmgr/uv-compat.h" +#include "../netmgr_p.h" +#include "isctest.h" + +typedef void (*stream_connect_function)(isc_nm_t *nm); + +static void +connect_connect_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg); +static void +connect_read_cb(isc_nmhandle_t *handle, isc_result_t eresult, + isc_region_t *region, void *cbarg); + +isc_nm_t *listen_nm = NULL; +isc_nm_t *connect_nm = NULL; + +static isc_sockaddr_t udp_listen_addr; +static isc_sockaddr_t udp_connect_addr; + +static isc_sockaddr_t tcp_listen_addr; +static isc_sockaddr_t tcp_connect_addr; + +static uint64_t send_magic = 0; +static uint64_t stop_magic = 0; + +static isc_region_t send_msg = { .base = (unsigned char *)&send_magic, + .length = sizeof(send_magic) }; + +static isc_region_t stop_msg = { .base = (unsigned char *)&stop_magic, + .length = sizeof(stop_magic) }; + +static atomic_bool do_send = false; +static unsigned int workers = 0; + +static atomic_int_fast64_t nsends; +static int_fast64_t esends; /* expected sends */ + +static atomic_int_fast64_t ssends = 0; +static atomic_int_fast64_t sreads = 0; +static atomic_int_fast64_t saccepts = 0; + +static atomic_int_fast64_t cconnects = 0; +static atomic_int_fast64_t csends = 0; +static atomic_int_fast64_t creads = 0; +static atomic_int_fast64_t ctimeouts = 0; + +static isc_refcount_t active_cconnects; +static isc_refcount_t active_csends; +static isc_refcount_t active_creads; +static isc_refcount_t active_ssends; +static isc_refcount_t active_sreads; + +static isc_quota_t listener_quota; +static atomic_bool check_listener_quota; + +static bool skip_long_tests = false; + +static bool allow_send_back = false; +static bool noanswer = false; + +static isc_nm_recv_cb_t connect_readcb = NULL; + +#define SKIP_IN_CI \ + if (skip_long_tests) { \ + skip(); \ + return; \ + } + +#define NSENDS 100 + +/* Timeout for soft-timeout tests (0.05 seconds) */ +#define T_SOFT 50 + +/* Timeouts in miliseconds */ +#define T_INIT 120 * 1000 +#define T_IDLE 120 * 1000 +#define T_KEEPALIVE 120 * 1000 +#define T_ADVERTISED 120 * 1000 +#define T_CONNECT 30 * 1000 + +/* Wait for 1 second (1000 * 1000 microseconds) */ +#define WAIT_REPEATS 1000 +#define T_WAIT 1000 /* In microseconds */ + +#define WAIT_FOR(v, op, val) \ + { \ + X(v); \ + int_fast64_t __r = WAIT_REPEATS; \ + int_fast64_t __o = 0; \ + do { \ + int_fast64_t __l = atomic_load(&v); \ + if (__l op val) { \ + break; \ + }; \ + if (__o == __l) { \ + __r--; \ + } else { \ + __r = WAIT_REPEATS; \ + } \ + __o = __l; \ + isc_test_nap(T_WAIT); \ + } while (__r > 0); \ + X(v); \ + P(__r); \ + assert_true(atomic_load(&v) op val); \ + } + +#define WAIT_FOR_EQ(v, val) WAIT_FOR(v, ==, val) +#define WAIT_FOR_NE(v, val) WAIT_FOR(v, !=, val) +#define WAIT_FOR_LE(v, val) WAIT_FOR(v, <=, val) +#define WAIT_FOR_LT(v, val) WAIT_FOR(v, <, val) +#define WAIT_FOR_GE(v, val) WAIT_FOR(v, >=, val) +#define WAIT_FOR_GT(v, val) WAIT_FOR(v, >, val) + +#define DONE() atomic_store(&do_send, false); + +#define CHECK_RANGE_FULL(v) \ + { \ + int __v = atomic_load(&v); \ + assert_true(__v > 1); \ + } + +#define CHECK_RANGE_HALF(v) \ + { \ + int __v = atomic_load(&v); \ + assert_true(__v > 1); \ + } + +/* Enable this to print values while running tests */ +#undef PRINT_DEBUG +#ifdef PRINT_DEBUG +#define X(v) \ + fprintf(stderr, "%s:%s:%d:%s = %" PRId64 "\n", __func__, __FILE__, \ + __LINE__, #v, atomic_load(&v)) +#define P(v) fprintf(stderr, #v " = %" PRId64 "\n", v) +#define F() \ + fprintf(stderr, "%s(%p, %s, %p)\n", __func__, handle, \ + isc_result_totext(eresult), cbarg) +#else +#define X(v) +#define P(v) +#define F() +#endif + +#define atomic_assert_int_eq(val, exp) assert_int_equal(atomic_load(&val), exp) +#define atomic_assert_int_ne(val, exp) \ + assert_int_not_equal(atomic_load(&val), exp) +#define atomic_assert_int_le(val, exp) assert_true(atomic_load(&val) <= exp) +#define atomic_assert_int_lt(val, exp) assert_true(atomic_load(&val) > exp) +#define atomic_assert_int_ge(val, exp) assert_true(atomic_load(&val) >= exp) +#define atomic_assert_int_gt(val, exp) assert_true(atomic_load(&val) > exp) + +static int +_setup(void **state __attribute__((unused))) { + char *p = NULL; + + if (workers == 0) { + workers = isc_os_ncpus(); + } + p = getenv("ISC_TASK_WORKERS"); + if (p != NULL) { + workers = atoi(p); + } + INSIST(workers != 0); + + if (isc_test_begin(NULL, false, workers) != ISC_R_SUCCESS) { + return (-1); + } + + signal(SIGPIPE, SIG_IGN); + + if (getenv("CI") == NULL || getenv("CI_ENABLE_ALL_TESTS") != NULL) { + esends = NSENDS * workers; + } else { + esends = workers; + skip_long_tests = true; + } + + return (0); +} + +static int +_teardown(void **state __attribute__((unused))) { + isc_test_end(); + + return (0); +} + +static int +setup_ephemeral_port(isc_sockaddr_t *addr, sa_family_t family) { + socklen_t addrlen = sizeof(*addr); + uv_os_sock_t fd; + int r; + + isc_sockaddr_fromin6(addr, &in6addr_loopback, 0); + + fd = socket(AF_INET6, family, 0); + if (fd < 0) { + perror("setup_ephemeral_port: socket()"); + return (-1); + } + + r = bind(fd, (const struct sockaddr *)&addr->type.sa, + sizeof(addr->type.sin6)); + if (r != 0) { + perror("setup_ephemeral_port: bind()"); + isc__nm_closesocket(fd); + return (r); + } + + r = getsockname(fd, (struct sockaddr *)&addr->type.sa, &addrlen); + if (r != 0) { + perror("setup_ephemeral_port: getsockname()"); + isc__nm_closesocket(fd); + return (r); + } + +#if IPV6_RECVERR +#define setsockopt_on(socket, level, name) \ + setsockopt(socket, level, name, &(int){ 1 }, sizeof(int)) + + r = setsockopt_on(fd, IPPROTO_IPV6, IPV6_RECVERR); + if (r != 0) { + perror("setup_ephemeral_port"); + isc__nm_closesocket(fd); + return (r); + } +#endif + + return (fd); +} + +static int +nm_setup(void **state __attribute__((unused))) { + uv_os_sock_t tcp_listen_sock = -1; + uv_os_sock_t udp_listen_sock = -1; + + 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 }; + udp_listen_sock = setup_ephemeral_port(&udp_listen_addr, SOCK_DGRAM); + if (udp_listen_sock < 0) { + return (-1); + } + isc__nm_closesocket(udp_listen_sock); + + 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 }; + tcp_listen_sock = setup_ephemeral_port(&tcp_listen_addr, SOCK_STREAM); + if (tcp_listen_sock < 0) { + return (-1); + } + isc__nm_closesocket(tcp_listen_sock); + + atomic_store(&do_send, true); + 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; + + 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)); + isc_nonce_buf(&stop_magic, sizeof(stop_magic)); + if (send_magic == stop_magic) { + return (-1); + } + + isc__netmgr_create(test_mctx, workers, &listen_nm); + assert_non_null(listen_nm); + isc_nm_settimeouts(listen_nm, T_INIT, T_IDLE, T_KEEPALIVE, + T_ADVERTISED); + + isc__netmgr_create(test_mctx, workers, &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; + + return (0); +} + +static int +nm_teardown(void **state __attribute__((unused))) { + UNUSED(state); + + isc__netmgr_destroy(&connect_nm); + assert_null(connect_nm); + + isc__netmgr_destroy(&listen_nm); + assert_null(listen_nm); + + WAIT_FOR_EQ(active_cconnects, 0); + WAIT_FOR_EQ(active_csends, 0); + WAIT_FOR_EQ(active_csends, 0); + WAIT_FOR_EQ(active_ssends, 0); + WAIT_FOR_EQ(active_sreads, 0); + + 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); + + return (0); +} + +/* Callbacks */ + +static void +noop_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 unsigned int +noop_accept_cb(isc_nmhandle_t *handle, unsigned int result, void *cbarg) { + UNUSED(handle); + UNUSED(result); + UNUSED(cbarg); + + return (0); +} + +static void +connect_send_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg); + +static void +connect_send(isc_nmhandle_t *handle); + +static 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(); + + if (eresult != ISC_R_SUCCESS) { + /* Send failed, we need to stop reading too */ + isc_nm_cancelread(handle); + goto unref; + } + + atomic_fetch_add(&csends, 1); +unref: + isc_refcount_decrement(&active_csends); + isc_nmhandle_detach(&sendhandle); +} + +static 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); + if (atomic_fetch_sub(&nsends, 1) > 1) { + isc_nm_send(sendhandle, &send_msg, connect_send_cb, NULL); + } else { + isc_nm_send(sendhandle, &stop_msg, connect_send_cb, NULL); + } +} + +static 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(); + + if (eresult != ISC_R_SUCCESS) { + goto unref; + } + + assert_true(region->length >= sizeof(magic)); + + atomic_fetch_add(&creads, 1); + + memmove(&magic, region->base, sizeof(magic)); + + assert_true(magic == stop_magic || magic == send_magic); + + if (magic == send_magic && allow_send_back) { + connect_send(handle); + return; + } + +unref: + isc_refcount_decrement(&active_creads); + isc_nmhandle_detach(&handle); +} + +static void +connect_connect_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) { + isc_nmhandle_t *readhandle = NULL; + + UNUSED(cbarg); + + F(); + + isc_refcount_decrement(&active_cconnects); + + if (eresult != ISC_R_SUCCESS || connect_readcb == NULL) { + return; + } + + atomic_fetch_add(&cconnects, 1); + + isc_refcount_increment0(&active_creads); + isc_nmhandle_attach(handle, &readhandle); + isc_nm_read(handle, connect_readcb, NULL); + + connect_send(handle); +} + +static 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(); + + if (eresult != ISC_R_SUCCESS) { + goto unref; + } + + atomic_fetch_add(&ssends, 1); +unref: + isc_nmhandle_detach(&sendhandle); + isc_refcount_decrement(&active_ssends); +} + +static 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(); + + if (eresult != ISC_R_SUCCESS) { + goto unref; + } + + atomic_fetch_add(&sreads, 1); + + assert_true(region->length >= sizeof(magic)); + + memmove(&magic, region->base, sizeof(magic)); + assert_true(magic == stop_magic || magic == send_magic); + + if (magic == send_magic) { + if (!noanswer) { + 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); + } + return; + } + +unref: + if (handle == cbarg) { + isc_refcount_decrement(&active_sreads); + isc_nmhandle_detach(&handle); + } +} + +static isc_result_t +listen_accept_cb(isc_nmhandle_t *handle, isc_result_t eresult, void *cbarg) { + UNUSED(handle); + UNUSED(cbarg); + + F(); + + return (eresult); +} + +static 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); + } + + atomic_fetch_add(&saccepts, 1); + + isc_refcount_increment0(&active_sreads); + isc_nmhandle_attach(handle, &readhandle); + isc_nm_read(handle, listen_read_cb, readhandle); + + return (ISC_R_SUCCESS); +} + +typedef void (*connect_func)(isc_nm_t *); + +static isc_threadresult_t +connect_thread(isc_threadarg_t 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); + + while (atomic_load(&do_send)) { + uint_fast32_t active = + isc_refcount_increment0(&active_cconnects); + if (active > workers) { + /* + * If we have more active connections than workers, + * start slowing down the connections to prevent the + * thundering herd problem. + */ + isc_test_nap((active - workers) * 1000); + } + connect(connect_nm); + } + + return ((isc_threadresult_t)0); +} + +/* UDP */ + +static void +udp_connect(isc_nm_t *nm) { + isc_nm_udpconnect(nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); +} + +static void +mock_listenudp_uv_udp_open(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + WILL_RETURN(uv_udp_open, UV_ENOMEM); + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, noop_recv_cb, + NULL, 0, &listen_sock); + assert_int_not_equal(result, ISC_R_SUCCESS); + assert_null(listen_sock); + + RESET_RETURN; +} + +static void +mock_listenudp_uv_udp_bind(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + WILL_RETURN(uv_udp_bind, UV_EADDRINUSE); + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, noop_recv_cb, + NULL, 0, &listen_sock); + assert_int_not_equal(result, ISC_R_SUCCESS); + assert_null(listen_sock); + + RESET_RETURN; +} + +static void +mock_listenudp_uv_udp_recv_start(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + WILL_RETURN(uv_udp_recv_start, UV_EADDRINUSE); + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, noop_recv_cb, + NULL, 0, &listen_sock); + assert_int_not_equal(result, ISC_R_SUCCESS); + assert_null(listen_sock); + + RESET_RETURN; +} + +static void +mock_udpconnect_uv_udp_open(void **state __attribute__((unused))) { + WILL_RETURN(uv_udp_open, UV_ENOMEM); + + connect_readcb = NULL; + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + isc__netmgr_shutdown(connect_nm); + + RESET_RETURN; +} + +static void +mock_udpconnect_uv_udp_bind(void **state __attribute__((unused))) { + WILL_RETURN(uv_udp_bind, UV_ENOMEM); + + connect_readcb = NULL; + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + isc__netmgr_shutdown(connect_nm); + + RESET_RETURN; +} + +#if UV_VERSION_HEX >= UV_VERSION(1, 27, 0) +static void +mock_udpconnect_uv_udp_connect(void **state __attribute__((unused))) { + WILL_RETURN(uv_udp_connect, UV_ENOMEM); + + connect_readcb = NULL; + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + isc__netmgr_shutdown(connect_nm); + + RESET_RETURN; +} +#endif + +static void +mock_udpconnect_uv_recv_buffer_size(void **state __attribute__((unused))) { + WILL_RETURN(uv_recv_buffer_size, UV_ENOMEM); + + connect_readcb = NULL; + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + isc__netmgr_shutdown(connect_nm); + + RESET_RETURN; +} + +static void +mock_udpconnect_uv_send_buffer_size(void **state __attribute__((unused))) { + WILL_RETURN(uv_send_buffer_size, UV_ENOMEM); + + connect_readcb = NULL; + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + isc__netmgr_shutdown(connect_nm); + + RESET_RETURN; +} + +static void +udp_noop(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, noop_recv_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + connect_readcb = NULL; + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + isc__netmgr_shutdown(connect_nm); + + atomic_assert_int_eq(cconnects, 0); + atomic_assert_int_eq(csends, 0); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 0); + atomic_assert_int_eq(ssends, 0); +} + +static void +udp_noresponse(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, noop_recv_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_EQ(csends, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 1); + atomic_assert_int_eq(csends, 1); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 0); + atomic_assert_int_eq(ssends, 0); +} + +static 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_load(&csends) < 5) { + isc_nmhandle_settimeout(handle, T_SOFT); + connect_send(handle); + return; + } + + atomic_fetch_add(&ctimeouts, 1); + + isc_refcount_decrement(&active_creads); + isc_nmhandle_detach(&handle); +} + +static void +udp_timeout_recovery(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + SKIP_IN_CI; + + /* + * Listen using the noop callback so that client reads will time out. + */ + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, noop_recv_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + /* + * 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. + */ + connect_readcb = timeout_retry_cb; + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_SOFT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_GE(csends, 1); + WAIT_FOR_GE(csends, 2); + WAIT_FOR_GE(csends, 3); + WAIT_FOR_GE(csends, 4); + WAIT_FOR_EQ(csends, 5); + WAIT_FOR_EQ(ctimeouts, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); +} + +static void +udp_recv_one(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + atomic_store(&nsends, 1); + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, listen_read_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_LE(nsends, 0); + WAIT_FOR_EQ(csends, 1); + WAIT_FOR_EQ(sreads, 1); + WAIT_FOR_EQ(ssends, 0); + WAIT_FOR_EQ(creads, 0); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 1); + atomic_assert_int_eq(csends, 1); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 1); + atomic_assert_int_eq(ssends, 0); +} + +static void +udp_recv_two(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + atomic_store(&nsends, 2); + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, listen_read_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + + isc_refcount_increment0(&active_cconnects); + isc_nm_udpconnect(connect_nm, &udp_connect_addr, &udp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 2); + WAIT_FOR_LE(nsends, 0); + WAIT_FOR_EQ(csends, 2); + WAIT_FOR_EQ(sreads, 2); + WAIT_FOR_EQ(ssends, 1); + WAIT_FOR_EQ(creads, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 2); + atomic_assert_int_eq(csends, 2); + atomic_assert_int_eq(creads, 1); + atomic_assert_int_eq(sreads, 2); + atomic_assert_int_eq(ssends, 1); +} + +static void +udp_recv_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + + SKIP_IN_CI; + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, listen_read_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, udp_connect, &threads[i]); + } + + WAIT_FOR_GE(cconnects, esends); + WAIT_FOR_GE(csends, esends); + WAIT_FOR_GE(sreads, esends); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + isc__netmgr_shutdown(connect_nm); + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + 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); +} + +static void +udp_recv_half_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + + SKIP_IN_CI; + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, listen_read_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, udp_connect, &threads[i]); + } + + WAIT_FOR_GE(cconnects, esends / 2); + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc__netmgr_shutdown(connect_nm); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_FULL(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +static void +udp_half_recv_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + + SKIP_IN_CI; + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, listen_read_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, udp_connect, &threads[i]); + } + + WAIT_FOR_GE(cconnects, esends / 2); + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + /* Try to send a little while longer */ + isc_test_nap((esends / 2) * 10000); + + isc__netmgr_shutdown(connect_nm); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_FULL(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +static void +udp_half_recv_half_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + + SKIP_IN_CI; + + result = isc_nm_listenudp(listen_nm, &udp_listen_addr, listen_read_cb, + NULL, 0, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, udp_connect, &threads[i]); + } + + WAIT_FOR_GE(cconnects, esends / 2); + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc__netmgr_shutdown(connect_nm); + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_FULL(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +/* Common stream protocols code */ + +static isc_quota_t * +tcp_listener_init_quota(size_t nthreads) { + isc_quota_t *quotap = NULL; + if (atomic_load(&check_listener_quota)) { + unsigned 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, 0); +} + +static stream_connect_function +get_stream_connect_function(void) { + return (tcp_connect); +} + +static isc_result_t +stream_listen(isc_nm_accept_cb_t accept_cb, void *accept_cbarg, + size_t extrahandlesize, int backlog, isc_quota_t *quota, + isc_nmsocket_t **sockp) { + isc_result_t result = ISC_R_SUCCESS; + + result = isc_nm_listentcp(listen_nm, &tcp_listen_addr, accept_cb, + accept_cbarg, extrahandlesize, backlog, quota, + sockp); + + return (result); +} + +static void +stream_connect(isc_nm_cb_t cb, void *cbarg, unsigned int timeout, + size_t extrahandlesize) { + isc_nm_tcpconnect(connect_nm, &tcp_connect_addr, &tcp_listen_addr, cb, + cbarg, timeout, extrahandlesize); +} + +static void +stream_noop(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + result = stream_listen(noop_accept_cb, NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + connect_readcb = NULL; + isc_refcount_increment0(&active_cconnects); + stream_connect(connect_connect_cb, NULL, T_CONNECT, 0); + isc__netmgr_shutdown(connect_nm); + + atomic_assert_int_eq(cconnects, 0); + atomic_assert_int_eq(csends, 0); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 0); + atomic_assert_int_eq(ssends, 0); +} + +static void +stream_noresponse(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + result = stream_listen(noop_accept_cb, NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_refcount_increment0(&active_cconnects); + stream_connect(connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_EQ(csends, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 1); + atomic_assert_int_eq(csends, 1); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 0); + atomic_assert_int_eq(ssends, 0); +} + +static void +stream_timeout_recovery(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + SKIP_IN_CI; + + /* + * Accept connections but don't send responses, forcing client + * reads to time out. + */ + noanswer = true; + result = stream_listen(stream_accept_cb, NULL, 0, 0, NULL, + &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + /* + * 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; + isc_refcount_increment0(&active_cconnects); + stream_connect(connect_connect_cb, NULL, T_SOFT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_GE(csends, 1); + WAIT_FOR_GE(csends, 2); + WAIT_FOR_GE(csends, 3); + WAIT_FOR_GE(csends, 4); + WAIT_FOR_EQ(csends, 5); + WAIT_FOR_EQ(ctimeouts, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); +} + +static void +stream_recv_one(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_quota_t *quotap = tcp_listener_init_quota(1); + + atomic_store(&nsends, 1); + + result = stream_listen(stream_accept_cb, NULL, 0, 0, quotap, + &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_refcount_increment0(&active_cconnects); + stream_connect(connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_LE(nsends, 0); + WAIT_FOR_EQ(csends, 1); + WAIT_FOR_EQ(sreads, 1); + WAIT_FOR_EQ(ssends, 0); + WAIT_FOR_EQ(creads, 0); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 1); + atomic_assert_int_eq(csends, 1); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 1); + atomic_assert_int_eq(ssends, 0); +} + +static void +stream_recv_two(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_quota_t *quotap = tcp_listener_init_quota(1); + + atomic_store(&nsends, 2); + + result = stream_listen(stream_accept_cb, NULL, 0, 0, quotap, + &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_refcount_increment0(&active_cconnects); + stream_connect(connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + + isc_refcount_increment0(&active_cconnects); + stream_connect(connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 2); + WAIT_FOR_LE(nsends, 0); + WAIT_FOR_EQ(csends, 2); + WAIT_FOR_EQ(sreads, 2); + WAIT_FOR_EQ(ssends, 1); + WAIT_FOR_EQ(creads, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 2); + atomic_assert_int_eq(csends, 2); + atomic_assert_int_eq(creads, 1); + atomic_assert_int_eq(sreads, 2); + atomic_assert_int_eq(ssends, 1); +} + +static void +stream_recv_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + isc_quota_t *quotap = tcp_listener_init_quota(workers); + + SKIP_IN_CI; + + result = stream_listen(stream_accept_cb, NULL, 0, 0, quotap, + &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, get_stream_connect_function(), + &threads[i]); + } + + if (allow_send_back) { + WAIT_FOR_GE(cconnects, 1); + } else { + WAIT_FOR_GE(cconnects, esends); + } + WAIT_FOR_GE(csends, esends); + WAIT_FOR_GE(sreads, esends); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + isc__netmgr_shutdown(connect_nm); + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + 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); +} + +static void +stream_recv_half_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + isc_quota_t *quotap = tcp_listener_init_quota(workers); + + SKIP_IN_CI; + + result = stream_listen(stream_accept_cb, NULL, 0, 0, quotap, + &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, get_stream_connect_function(), + &threads[i]); + } + + if (allow_send_back) { + WAIT_FOR_GE(cconnects, 1); + } else { + WAIT_FOR_GE(cconnects, esends / 2); + } + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc__netmgr_shutdown(connect_nm); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_HALF(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +static void +stream_half_recv_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + isc_quota_t *quotap = tcp_listener_init_quota(workers); + + SKIP_IN_CI; + + result = stream_listen(stream_accept_cb, NULL, 0, 0, quotap, + &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, get_stream_connect_function(), + &threads[i]); + } + + if (allow_send_back) { + WAIT_FOR_GE(cconnects, 1); + } else { + WAIT_FOR_GE(cconnects, esends / 2); + } + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + /* Try to send a little while longer */ + isc_test_nap((esends / 2) * 10000); + + isc__netmgr_shutdown(connect_nm); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_HALF(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +static void +stream_half_recv_half_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + isc_quota_t *quotap = tcp_listener_init_quota(workers); + + SKIP_IN_CI; + + result = stream_listen(stream_accept_cb, NULL, 0, 0, quotap, + &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, get_stream_connect_function(), + &threads[i]); + } + + if (allow_send_back) { + WAIT_FOR_GE(cconnects, 1); + } else { + WAIT_FOR_GE(cconnects, esends / 2); + } + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc__netmgr_shutdown(connect_nm); + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_HALF(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +/* TCP */ +static void +tcp_noop(void **state) { + stream_noop(state); +} + +static void +tcp_noresponse(void **state) { + stream_noresponse(state); +} + +static void +tcp_timeout_recovery(void **state) { + stream_timeout_recovery(state); +} + +static void +tcp_recv_one(void **state) { + stream_recv_one(state); +} + +static void +tcp_recv_two(void **state) { + stream_recv_two(state); +} + +static void +tcp_recv_send(void **state) { + SKIP_IN_CI; + stream_recv_send(state); +} + +static void +tcp_recv_half_send(void **state) { + SKIP_IN_CI; + stream_recv_half_send(state); +} + +static void +tcp_half_recv_send(void **state) { + SKIP_IN_CI; + stream_half_recv_send(state); +} + +static void +tcp_half_recv_half_send(void **state) { + SKIP_IN_CI; + stream_half_recv_half_send(state); +} + +static void +tcp_recv_send_sendback(void **state) { + SKIP_IN_CI; + stream_recv_send(state); +} + +static void +tcp_recv_half_send_sendback(void **state) { + SKIP_IN_CI; + stream_recv_half_send(state); +} + +static void +tcp_half_recv_send_sendback(void **state) { + SKIP_IN_CI; + stream_half_recv_send(state); +} + +static void +tcp_half_recv_half_send_sendback(void **state) { + SKIP_IN_CI; + stream_half_recv_half_send(state); +} + +/* TCP Quota */ + +static void +tcp_recv_one_quota(void **state) { + atomic_store(&check_listener_quota, true); + stream_recv_one(state); +} + +static void +tcp_recv_two_quota(void **state) { + atomic_store(&check_listener_quota, true); + stream_recv_two(state); +} + +static void +tcp_recv_send_quota(void **state) { + SKIP_IN_CI; + atomic_store(&check_listener_quota, true); + stream_recv_send(state); +} + +static void +tcp_recv_half_send_quota(void **state) { + SKIP_IN_CI; + atomic_store(&check_listener_quota, true); + stream_recv_half_send(state); +} + +static void +tcp_half_recv_send_quota(void **state) { + SKIP_IN_CI; + atomic_store(&check_listener_quota, true); + stream_half_recv_send(state); +} + +static void +tcp_half_recv_half_send_quota(void **state) { + SKIP_IN_CI; + atomic_store(&check_listener_quota, true); + stream_half_recv_half_send(state); +} + +static void +tcp_recv_send_quota_sendback(void **state) { + SKIP_IN_CI; + atomic_store(&check_listener_quota, true); + allow_send_back = true; + stream_recv_send(state); +} + +static void +tcp_recv_half_send_quota_sendback(void **state) { + SKIP_IN_CI; + atomic_store(&check_listener_quota, true); + allow_send_back = true; + stream_recv_half_send(state); +} + +static void +tcp_half_recv_send_quota_sendback(void **state) { + SKIP_IN_CI; + atomic_store(&check_listener_quota, true); + allow_send_back = true; + stream_half_recv_send(state); +} + +static void +tcp_half_recv_half_send_quota_sendback(void **state) { + SKIP_IN_CI; + atomic_store(&check_listener_quota, true); + allow_send_back = true; + stream_half_recv_half_send(state); +} + +/* TCPDNS */ + +static void +tcpdns_connect(isc_nm_t *nm) { + isc_nm_tcpdnsconnect(nm, &tcp_connect_addr, &tcp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); +} + +static void +tcpdns_noop(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, noop_recv_cb, + NULL, noop_accept_cb, NULL, 0, 0, NULL, + &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + connect_readcb = NULL; + isc_refcount_increment0(&active_cconnects); + isc_nm_tcpdnsconnect(connect_nm, &tcp_connect_addr, &tcp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + isc__netmgr_shutdown(connect_nm); + + atomic_assert_int_eq(cconnects, 0); + atomic_assert_int_eq(csends, 0); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 0); + atomic_assert_int_eq(ssends, 0); +} + +static void +tcpdns_noresponse(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + isc_refcount_increment0(&active_cconnects); + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, noop_recv_cb, + NULL, noop_accept_cb, NULL, 0, 0, NULL, + &listen_sock); + if (result != ISC_R_SUCCESS) { + isc_refcount_decrement(&active_cconnects); + isc_test_nap(1000); + } + assert_int_equal(result, ISC_R_SUCCESS); + + isc_nm_tcpdnsconnect(connect_nm, &tcp_connect_addr, &tcp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_EQ(csends, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 1); + atomic_assert_int_eq(csends, 1); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 0); + atomic_assert_int_eq(ssends, 0); +} + +static void +tcpdns_timeout_recovery(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + SKIP_IN_CI; + + /* + * Accept connections but don't send responses, forcing client + * reads to time out. + */ + noanswer = true; + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, + listen_read_cb, NULL, listen_accept_cb, + NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + /* + * Shorten all the TCP client timeouts to 0.05 seconds, connect, + * then sleep for at least a second for each 'tick'. + * timeout_retry_cb() will give up after five timeouts. + */ + connect_readcb = timeout_retry_cb; + isc_nm_settimeouts(connect_nm, T_SOFT, T_SOFT, T_SOFT, T_SOFT); + isc_refcount_increment0(&active_cconnects); + isc_nm_tcpdnsconnect(connect_nm, &tcp_connect_addr, &tcp_listen_addr, + connect_connect_cb, NULL, T_SOFT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_GE(csends, 1); + WAIT_FOR_GE(csends, 2); + WAIT_FOR_GE(csends, 3); + WAIT_FOR_GE(csends, 4); + WAIT_FOR_EQ(csends, 5); + WAIT_FOR_EQ(ctimeouts, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); +} + +static void +tcpdns_recv_one(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + atomic_store(&nsends, 1); + + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, + listen_read_cb, NULL, listen_accept_cb, + NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_refcount_increment0(&active_cconnects); + isc_nm_tcpdnsconnect(connect_nm, &tcp_connect_addr, &tcp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + WAIT_FOR_LE(nsends, 0); + WAIT_FOR_EQ(csends, 1); + WAIT_FOR_EQ(sreads, 1); + WAIT_FOR_EQ(ssends, 0); + WAIT_FOR_EQ(creads, 0); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 1); + atomic_assert_int_eq(csends, 1); + atomic_assert_int_eq(creads, 0); + atomic_assert_int_eq(sreads, 1); + atomic_assert_int_eq(ssends, 0); +} + +static void +tcpdns_recv_two(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + + atomic_store(&nsends, 2); + + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, + listen_read_cb, NULL, listen_accept_cb, + NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + isc_refcount_increment0(&active_cconnects); + isc_nm_tcpdnsconnect(connect_nm, &tcp_connect_addr, &tcp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 1); + + isc_refcount_increment0(&active_cconnects); + isc_nm_tcpdnsconnect(connect_nm, &tcp_connect_addr, &tcp_listen_addr, + connect_connect_cb, NULL, T_CONNECT, 0); + + WAIT_FOR_EQ(cconnects, 2); + + WAIT_FOR_LE(nsends, 0); + WAIT_FOR_EQ(csends, 2); + WAIT_FOR_EQ(sreads, 2); + WAIT_FOR_EQ(ssends, 1); + WAIT_FOR_EQ(creads, 1); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + isc__netmgr_shutdown(connect_nm); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + atomic_assert_int_eq(cconnects, 2); + atomic_assert_int_eq(csends, 2); + atomic_assert_int_eq(creads, 1); + atomic_assert_int_eq(sreads, 2); + atomic_assert_int_eq(ssends, 1); +} + +static void +tcpdns_recv_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + + SKIP_IN_CI; + + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, + listen_read_cb, NULL, listen_accept_cb, + NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, tcpdns_connect, &threads[i]); + } + + WAIT_FOR_GE(cconnects, esends); + WAIT_FOR_GE(csends, esends); + WAIT_FOR_GE(sreads, esends); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + isc__netmgr_shutdown(connect_nm); + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + 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); +} + +static void +tcpdns_recv_half_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + + SKIP_IN_CI; + + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, + listen_read_cb, NULL, listen_accept_cb, + NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, tcpdns_connect, &threads[i]); + } + + WAIT_FOR_GE(cconnects, esends / 2); + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc__netmgr_shutdown(connect_nm); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_HALF(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +static void +tcpdns_half_recv_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + + SKIP_IN_CI; + + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, + listen_read_cb, NULL, listen_accept_cb, + NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, tcpdns_connect, &threads[i]); + } + + WAIT_FOR_GE(cconnects, esends / 2); + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + /* Try to send a little while longer */ + isc_test_nap((esends / 2) * 10000); + + isc__netmgr_shutdown(connect_nm); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_HALF(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +static void +tcpdns_half_recv_half_send(void **state __attribute__((unused))) { + isc_result_t result = ISC_R_SUCCESS; + isc_nmsocket_t *listen_sock = NULL; + isc_thread_t threads[workers]; + + SKIP_IN_CI; + + result = isc_nm_listentcpdns(listen_nm, &tcp_listen_addr, + listen_read_cb, NULL, listen_accept_cb, + NULL, 0, 0, NULL, &listen_sock); + assert_int_equal(result, ISC_R_SUCCESS); + + memset(threads, 0, sizeof(threads)); + for (size_t i = 0; i < workers; i++) { + isc_thread_create(connect_thread, tcpdns_connect, &threads[i]); + } + + WAIT_FOR_GE(cconnects, esends / 2); + WAIT_FOR_GE(csends, esends / 2); + WAIT_FOR_GE(sreads, esends / 2); + WAIT_FOR_GE(ssends, esends / 2); + WAIT_FOR_GE(creads, esends / 2); + + isc__netmgr_shutdown(connect_nm); + isc_nm_stoplistening(listen_sock); + isc_nmsocket_close(&listen_sock); + assert_null(listen_sock); + + DONE(); + for (size_t i = 0; i < workers; i++) { + isc_thread_join(threads[i], NULL); + } + + X(cconnects); + X(csends); + X(creads); + X(sreads); + X(ssends); + + CHECK_RANGE_HALF(csends); + CHECK_RANGE_HALF(creads); + CHECK_RANGE_HALF(sreads); + CHECK_RANGE_HALF(ssends); +} + +int +main(void) { + const struct CMUnitTest tests[] = { + /* UDP */ + cmocka_unit_test_setup_teardown(mock_listenudp_uv_udp_open, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(mock_listenudp_uv_udp_bind, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown( + mock_listenudp_uv_udp_recv_start, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(mock_udpconnect_uv_udp_open, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(mock_udpconnect_uv_udp_bind, + nm_setup, nm_teardown), +#if UV_VERSION_HEX >= UV_VERSION(1, 27, 0) + cmocka_unit_test_setup_teardown(mock_udpconnect_uv_udp_connect, + nm_setup, nm_teardown), +#endif + cmocka_unit_test_setup_teardown( + mock_udpconnect_uv_recv_buffer_size, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown( + mock_udpconnect_uv_send_buffer_size, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_noop, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_noresponse, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_timeout_recovery, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_recv_one, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_recv_two, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_recv_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_recv_half_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_half_recv_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(udp_half_recv_half_send, + nm_setup, nm_teardown), + + /* TCP */ + cmocka_unit_test_setup_teardown(tcp_noop, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_noresponse, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_timeout_recovery, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_one, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_two, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_half_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_half_recv_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_half_recv_half_send, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_send_sendback, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_half_send_sendback, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(tcp_half_recv_send_sendback, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown( + tcp_half_recv_half_send_sendback, nm_setup, + nm_teardown), + + /* TCP Quota */ + cmocka_unit_test_setup_teardown(tcp_recv_one_quota, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_two_quota, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_send_quota, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_half_send_quota, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(tcp_half_recv_send_quota, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(tcp_half_recv_half_send_quota, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(tcp_recv_send_quota_sendback, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown( + tcp_recv_half_send_quota_sendback, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown( + tcp_half_recv_send_quota_sendback, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown( + tcp_half_recv_half_send_quota_sendback, nm_setup, + nm_teardown), + + /* TCPDNS */ + cmocka_unit_test_setup_teardown(tcpdns_recv_one, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcpdns_recv_two, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcpdns_noop, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcpdns_noresponse, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcpdns_timeout_recovery, + nm_setup, nm_teardown), + cmocka_unit_test_setup_teardown(tcpdns_recv_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcpdns_recv_half_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcpdns_half_recv_send, nm_setup, + nm_teardown), + cmocka_unit_test_setup_teardown(tcpdns_half_recv_half_send, + nm_setup, nm_teardown), + + }; + + return (cmocka_run_group_tests(tests, _setup, _teardown)); +} + +#else /* HAVE_CMOCKA */ + +#include <stdio.h> + +int +main(void) { + printf("1..0 # Skipped: cmocka not available\n"); + return (SKIPPED_TEST_EXIT_CODE); +} + +#endif /* if HAVE_CMOCKA */ |