// // // Copyright 2015 gRPC authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // // #include #include "src/core/lib/event_engine/shim.h" #include "src/core/lib/gprpp/time.h" #include "src/core/lib/iomgr/port.h" #include "test/core/util/test_config.h" // This test won't work except with posix sockets enabled #ifdef GRPC_POSIX_SOCKET_TCP_SERVER #include #include #include #include #include #include #include #include #ifdef GRPC_HAVE_UNIX_SOCKET #include #endif #include #include #include #include #include #include #include "src/core/lib/address_utils/sockaddr_utils.h" #include "src/core/lib/event_engine/channel_args_endpoint_config.h" #include "src/core/lib/gprpp/crash.h" #include "src/core/lib/gprpp/memory.h" #include "src/core/lib/gprpp/strerror.h" #include "src/core/lib/iomgr/error.h" #include "src/core/lib/iomgr/iomgr.h" #include "src/core/lib/iomgr/resolve_address.h" #include "src/core/lib/iomgr/tcp_server.h" #include "src/core/lib/resource_quota/api.h" #include "test/core/util/port.h" #define LOG_TEST(x) gpr_log(GPR_INFO, "%s", #x) static gpr_mu* g_mu; static grpc_pollset* g_pollset; static int g_nconnects = 0; typedef struct { // Owns a ref to server. grpc_tcp_server* server; unsigned port_index; unsigned fd_index; int server_fd; } on_connect_result; typedef struct { grpc_tcp_server* server; // arg is this server_weak_ref. grpc_closure server_shutdown; } server_weak_ref; #define MAX_URI 1024 typedef struct { grpc_resolved_address addr; char str[MAX_URI]; } test_addr; #define MAX_ADDRS 100 typedef struct { size_t naddrs; test_addr addrs[MAX_ADDRS]; } test_addrs; static on_connect_result g_result = {nullptr, 0, 0, -1}; static char family_name_buf[1024]; static const char* sock_family_name(int family) { if (family == AF_INET) { return "AF_INET"; } else if (family == AF_INET6) { return "AF_INET6"; } else if (family == AF_UNSPEC) { return "AF_UNSPEC"; } else { sprintf(family_name_buf, "%d", family); return family_name_buf; } } static void on_connect_result_init(on_connect_result* result) { result->server = nullptr; result->port_index = 0; result->fd_index = 0; result->server_fd = -1; } static void on_connect_result_set(on_connect_result* result, const grpc_tcp_server_acceptor* acceptor) { result->server = grpc_tcp_server_ref(acceptor->from_server); result->port_index = acceptor->port_index; result->fd_index = acceptor->fd_index; result->server_fd = grpc_tcp_server_port_fd( result->server, acceptor->port_index, acceptor->fd_index); } static void server_weak_ref_shutdown(void* arg, grpc_error_handle /*error*/) { server_weak_ref* weak_ref = static_cast(arg); weak_ref->server = nullptr; } static void server_weak_ref_init(server_weak_ref* weak_ref) { weak_ref->server = nullptr; GRPC_CLOSURE_INIT(&weak_ref->server_shutdown, server_weak_ref_shutdown, weak_ref, grpc_schedule_on_exec_ctx); } // Make weak_ref->server_shutdown a shutdown_starting cb on server. // grpc_tcp_server promises that the server object will live until // weak_ref->server_shutdown has returned. A strong ref on grpc_tcp_server // should be held until server_weak_ref_set() returns to avoid a race where the // server is deleted before the shutdown_starting cb is added. static void server_weak_ref_set(server_weak_ref* weak_ref, grpc_tcp_server* server) { grpc_tcp_server_shutdown_starting_add(server, &weak_ref->server_shutdown); weak_ref->server = server; } static void test_addr_init_str(test_addr* addr) { std::string str = grpc_sockaddr_to_string(&addr->addr, false).value(); size_t str_len = std::min(str.size(), sizeof(addr->str) - 1); memcpy(addr->str, str.c_str(), str_len); addr->str[str_len] = '\0'; } static void on_connect(void* /*arg*/, grpc_endpoint* tcp, grpc_pollset* /*pollset*/, grpc_tcp_server_acceptor* acceptor) { grpc_endpoint_shutdown(tcp, GRPC_ERROR_CREATE("Connected")); grpc_endpoint_destroy(tcp); on_connect_result temp_result; on_connect_result_set(&temp_result, acceptor); gpr_free(acceptor); gpr_mu_lock(g_mu); g_result = temp_result; g_nconnects++; ASSERT_TRUE( GRPC_LOG_IF_ERROR("pollset_kick", grpc_pollset_kick(g_pollset, nullptr))); gpr_mu_unlock(g_mu); } static void test_no_op(void) { grpc_core::ExecCtx exec_ctx; grpc_tcp_server* s; auto args = grpc_core::CoreConfiguration::Get() .channel_args_preconditioning() .PreconditionChannelArgs(nullptr); ASSERT_EQ( absl::OkStatus(), grpc_tcp_server_create( nullptr, grpc_event_engine::experimental::ChannelArgsEndpointConfig(args), on_connect, nullptr, &s)); grpc_tcp_server_unref(s); } static void test_no_op_with_start(void) { grpc_core::ExecCtx exec_ctx; grpc_tcp_server* s; auto args = grpc_core::CoreConfiguration::Get() .channel_args_preconditioning() .PreconditionChannelArgs(nullptr); ASSERT_EQ( absl::OkStatus(), grpc_tcp_server_create( nullptr, grpc_event_engine::experimental::ChannelArgsEndpointConfig(args), on_connect, nullptr, &s)); LOG_TEST("test_no_op_with_start"); std::vector empty_pollset; grpc_tcp_server_start(s, &empty_pollset); grpc_tcp_server_unref(s); } static void test_no_op_with_port(void) { grpc_core::ExecCtx exec_ctx; grpc_resolved_address resolved_addr; struct sockaddr_in* addr = reinterpret_cast(resolved_addr.addr); grpc_tcp_server* s; auto args = grpc_core::CoreConfiguration::Get() .channel_args_preconditioning() .PreconditionChannelArgs(nullptr); ASSERT_EQ( absl::OkStatus(), grpc_tcp_server_create( nullptr, grpc_event_engine::experimental::ChannelArgsEndpointConfig(args), on_connect, nullptr, &s)); LOG_TEST("test_no_op_with_port"); memset(&resolved_addr, 0, sizeof(resolved_addr)); resolved_addr.len = static_cast(sizeof(struct sockaddr_in)); addr->sin_family = AF_INET; int port = -1; ASSERT_EQ(grpc_tcp_server_add_port(s, &resolved_addr, &port), absl::OkStatus()); ASSERT_GT(port, 0); grpc_tcp_server_unref(s); } static void test_no_op_with_port_and_start(void) { grpc_core::ExecCtx exec_ctx; grpc_resolved_address resolved_addr; struct sockaddr_in* addr = reinterpret_cast(resolved_addr.addr); grpc_tcp_server* s; auto args = grpc_core::CoreConfiguration::Get() .channel_args_preconditioning() .PreconditionChannelArgs(nullptr); ASSERT_EQ( absl::OkStatus(), grpc_tcp_server_create( nullptr, grpc_event_engine::experimental::ChannelArgsEndpointConfig(args), on_connect, nullptr, &s)); LOG_TEST("test_no_op_with_port_and_start"); int port = -1; memset(&resolved_addr, 0, sizeof(resolved_addr)); resolved_addr.len = static_cast(sizeof(struct sockaddr_in)); addr->sin_family = AF_INET; ASSERT_EQ(grpc_tcp_server_add_port(s, &resolved_addr, &port), absl::OkStatus()); ASSERT_GT(port, 0); std::vector empty_pollset; grpc_tcp_server_start(s, &empty_pollset); grpc_tcp_server_unref(s); } static grpc_error_handle tcp_connect(const test_addr* remote, on_connect_result* result) { grpc_core::Timestamp deadline = grpc_core::Timestamp::FromTimespecRoundUp( grpc_timeout_seconds_to_deadline(10)); int clifd; int nconnects_before; const struct sockaddr* remote_addr = reinterpret_cast(remote->addr.addr); gpr_log(GPR_INFO, "Connecting to %s", remote->str); gpr_mu_lock(g_mu); nconnects_before = g_nconnects; on_connect_result_init(&g_result); clifd = socket(remote_addr->sa_family, SOCK_STREAM, 0); if (clifd < 0) { gpr_mu_unlock(g_mu); return GRPC_OS_ERROR(errno, "Failed to create socket"); } gpr_log(GPR_DEBUG, "start connect to %s", remote->str); if (connect(clifd, remote_addr, static_cast(remote->addr.len)) != 0) { gpr_mu_unlock(g_mu); close(clifd); return GRPC_OS_ERROR(errno, "connect"); } gpr_log(GPR_DEBUG, "wait"); while (g_nconnects == nconnects_before && deadline > grpc_core::Timestamp::Now()) { grpc_pollset_worker* worker = nullptr; grpc_error_handle err; if ((err = grpc_pollset_work(g_pollset, &worker, deadline)) != absl::OkStatus()) { gpr_mu_unlock(g_mu); close(clifd); return err; } gpr_mu_unlock(g_mu); gpr_mu_lock(g_mu); } gpr_log(GPR_DEBUG, "wait done"); if (g_nconnects != nconnects_before + 1) { gpr_mu_unlock(g_mu); close(clifd); return GRPC_ERROR_CREATE("Didn't connect"); } close(clifd); *result = g_result; gpr_mu_unlock(g_mu); gpr_log(GPR_INFO, "Result (%d, %d) fd %d", result->port_index, result->fd_index, result->server_fd); grpc_tcp_server_unref(result->server); return absl::OkStatus(); } // Tests a tcp server on "::" listeners with multiple ports. If channel_args is // non-NULL, pass them to the server. If dst_addrs is non-NULL, use valid addrs // as destination addrs (port is not set). If dst_addrs is NULL, use listener // addrs as destination addrs. If test_dst_addrs is true, test connectivity with // each destination address, set grpc_resolved_address::len=0 for failures, but // don't fail the overall unitest. static void test_connect(size_t num_connects, const grpc_channel_args* channel_args, test_addrs* dst_addrs, bool test_dst_addrs) { grpc_core::ExecCtx exec_ctx; grpc_resolved_address resolved_addr; grpc_resolved_address resolved_addr1; struct sockaddr_storage* const addr = reinterpret_cast(resolved_addr.addr); struct sockaddr_storage* const addr1 = reinterpret_cast(resolved_addr1.addr); unsigned svr_fd_count; int port; int svr_port; unsigned svr1_fd_count; int svr1_port; grpc_tcp_server* s; const unsigned num_ports = 2; auto new_channel_args = grpc_core::CoreConfiguration::Get() .channel_args_preconditioning() .PreconditionChannelArgs(channel_args); ASSERT_EQ(absl::OkStatus(), grpc_tcp_server_create( nullptr, grpc_event_engine::experimental::ChannelArgsEndpointConfig( new_channel_args), on_connect, nullptr, &s)); unsigned port_num; server_weak_ref weak_ref; server_weak_ref_init(&weak_ref); server_weak_ref_set(&weak_ref, s); LOG_TEST("test_connect"); gpr_log(GPR_INFO, "clients=%lu, num chan args=%lu, remote IP=%s, test_dst_addrs=%d", static_cast(num_connects), static_cast( channel_args != nullptr ? channel_args->num_args : 0), dst_addrs != nullptr ? "" : "::", test_dst_addrs); memset(&resolved_addr, 0, sizeof(resolved_addr)); memset(&resolved_addr1, 0, sizeof(resolved_addr1)); resolved_addr.len = static_cast(sizeof(struct sockaddr_storage)); resolved_addr1.len = static_cast(sizeof(struct sockaddr_storage)); addr->ss_family = addr1->ss_family = AF_INET; ASSERT_TRUE(GRPC_LOG_IF_ERROR( "grpc_tcp_server_add_port", grpc_tcp_server_add_port(s, &resolved_addr, &svr_port))); gpr_log(GPR_INFO, "Allocated port %d", svr_port); ASSERT_GT(svr_port, 0); // Cannot use wildcard (port==0), because add_port() will try to reuse the // same port as a previous add_port(). svr1_port = grpc_pick_unused_port_or_die(); ASSERT_GT(svr1_port, 0); gpr_log(GPR_INFO, "Picked unused port %d", svr1_port); grpc_sockaddr_set_port(&resolved_addr1, svr1_port); ASSERT_EQ(grpc_tcp_server_add_port(s, &resolved_addr1, &port), absl::OkStatus()); ASSERT_EQ(port, svr1_port); // Bad port_index. ASSERT_EQ(grpc_tcp_server_port_fd_count(s, 2), 0); ASSERT_LT(grpc_tcp_server_port_fd(s, 2, 0), 0); // Bad fd_index. ASSERT_LT(grpc_tcp_server_port_fd(s, 0, 100), 0); ASSERT_LT(grpc_tcp_server_port_fd(s, 1, 100), 0); // Got at least one fd per port. svr_fd_count = grpc_tcp_server_port_fd_count(s, 0); ASSERT_GE(svr_fd_count, 1); svr1_fd_count = grpc_tcp_server_port_fd_count(s, 1); ASSERT_GE(svr1_fd_count, 1); std::vector test_pollset; test_pollset.push_back(g_pollset); grpc_tcp_server_start(s, &test_pollset); if (dst_addrs != nullptr) { int ports[] = {svr_port, svr1_port}; for (port_num = 0; port_num < num_ports; ++port_num) { size_t dst_idx; size_t num_tested = 0; for (dst_idx = 0; dst_idx < dst_addrs->naddrs; ++dst_idx) { test_addr dst = dst_addrs->addrs[dst_idx]; on_connect_result result; grpc_error_handle err; if (dst.addr.len == 0) { gpr_log(GPR_DEBUG, "Skipping test of non-functional local IP %s", dst.str); continue; } ASSERT_TRUE(grpc_sockaddr_set_port(&dst.addr, ports[port_num])); test_addr_init_str(&dst); ++num_tested; on_connect_result_init(&result); if ((err = tcp_connect(&dst, &result)) == absl::OkStatus() && result.server_fd >= 0 && result.server == s) { continue; } gpr_log(GPR_ERROR, "Failed to connect to %s: %s", dst.str, grpc_core::StatusToString(err).c_str()); ASSERT_TRUE(test_dst_addrs); dst_addrs->addrs[dst_idx].addr.len = 0; } ASSERT_GT(num_tested, 0); } } else { for (port_num = 0; port_num < num_ports; ++port_num) { const unsigned num_fds = grpc_tcp_server_port_fd_count(s, port_num); unsigned fd_num; for (fd_num = 0; fd_num < num_fds; ++fd_num) { int fd = grpc_tcp_server_port_fd(s, port_num, fd_num); size_t connect_num; test_addr dst; ASSERT_GE(fd, 0); dst.addr.len = static_cast(sizeof(dst.addr.addr)); ASSERT_EQ(getsockname(fd, (struct sockaddr*)dst.addr.addr, (socklen_t*)&dst.addr.len), 0); ASSERT_LE(dst.addr.len, sizeof(dst.addr.addr)); test_addr_init_str(&dst); gpr_log(GPR_INFO, "(%d, %d) fd %d family %s listening on %s", port_num, fd_num, fd, sock_family_name(addr->ss_family), dst.str); for (connect_num = 0; connect_num < num_connects; ++connect_num) { on_connect_result result; on_connect_result_init(&result); ASSERT_TRUE( GRPC_LOG_IF_ERROR("tcp_connect", tcp_connect(&dst, &result))); ASSERT_EQ(result.server_fd, fd); ASSERT_EQ(result.port_index, port_num); ASSERT_EQ(result.fd_index, fd_num); ASSERT_EQ(result.server, s); ASSERT_EQ( grpc_tcp_server_port_fd(s, result.port_index, result.fd_index), result.server_fd); } } } } // Weak ref to server valid until final unref. ASSERT_NE(weak_ref.server, nullptr); ASSERT_GE(grpc_tcp_server_port_fd(s, 0, 0), 0); grpc_tcp_server_unref(s); grpc_core::ExecCtx::Get()->Flush(); // Weak ref lost. ASSERT_EQ(weak_ref.server, nullptr); } static int pre_allocate_inet_sock(grpc_tcp_server* s, int family, int port, int* fd) { struct sockaddr_in6 address; memset(&address, 0, sizeof(address)); address.sin6_family = family; address.sin6_port = htons(port); int pre_fd = socket(address.sin6_family, SOCK_STREAM, 0); if (pre_fd < 0) { gpr_log(GPR_ERROR, "Unable to create inet socket: %m"); return -1; } const int enable = 1; setsockopt(pre_fd, SOL_SOCKET, SO_REUSEADDR, &enable, sizeof(int)); int b = bind(pre_fd, reinterpret_cast(&address), sizeof(address)); if (b < 0) { gpr_log(GPR_ERROR, "Unable to bind inet socket: %m"); return -1; } int l = listen(pre_fd, SOMAXCONN); if (l < 0) { gpr_log(GPR_ERROR, "Unable to listen on inet socket: %m"); return -1; } grpc_tcp_server_set_pre_allocated_fd(s, pre_fd); *fd = pre_fd; return 0; } static void test_pre_allocated_inet_fd() { grpc_core::ExecCtx exec_ctx; grpc_resolved_address resolved_addr; struct sockaddr_in6* addr = reinterpret_cast(resolved_addr.addr); grpc_tcp_server* s; if (grpc_event_engine::experimental::UseEventEngineListener()) { // TODO(vigneshbabu): Skip the test when event engine is enabled. // Pre-allocated fd support will be added to event engine later. return; } auto args = grpc_core::CoreConfiguration::Get() .channel_args_preconditioning() .PreconditionChannelArgs(nullptr); ASSERT_EQ( absl::OkStatus(), grpc_tcp_server_create( nullptr, grpc_event_engine::experimental::ChannelArgsEndpointConfig(args), on_connect, nullptr, &s)); LOG_TEST("test_pre_allocated_inet_fd"); // Pre allocate FD int pre_fd; int port = grpc_pick_unused_port_or_die(); int res_pre = pre_allocate_inet_sock(s, AF_INET6, port, &pre_fd); if (res_pre < 0) { grpc_tcp_server_unref(s); close(pre_fd); return; } ASSERT_EQ(grpc_tcp_server_pre_allocated_fd(s), pre_fd); // Add port int pt; memset(&resolved_addr, 0, sizeof(resolved_addr)); resolved_addr.len = static_cast(sizeof(struct sockaddr_in)); addr->sin6_family = AF_INET6; addr->sin6_port = htons(port); ASSERT_EQ(grpc_tcp_server_add_port(s, &resolved_addr, &pt), absl::OkStatus()); ASSERT_GE(grpc_tcp_server_port_fd_count(s, 0), 1); ASSERT_EQ(grpc_tcp_server_port_fd(s, 0, 0), pre_fd); // Start server std::vector test_pollset; test_pollset.push_back(g_pollset); grpc_tcp_server_start(s, &test_pollset); // Test connection test_addr dst; dst.addr.len = static_cast(sizeof(dst.addr.addr)); ASSERT_EQ(getsockname(pre_fd, (struct sockaddr*)dst.addr.addr, (socklen_t*)&dst.addr.len), 0); ASSERT_LE(dst.addr.len, sizeof(dst.addr.addr)); test_addr_init_str(&dst); on_connect_result result; on_connect_result_init(&result); ASSERT_EQ(tcp_connect(&dst, &result), absl::OkStatus()); ASSERT_EQ(result.server_fd, pre_fd); ASSERT_EQ(result.server, s); ASSERT_EQ(grpc_tcp_server_port_fd(s, result.port_index, result.fd_index), result.server_fd); grpc_tcp_server_unref(s); close(pre_fd); } #ifdef GRPC_HAVE_UNIX_SOCKET static int pre_allocate_unix_sock(grpc_tcp_server* s, const char* path, int* fd) { struct sockaddr_un address; memset(&address, 0, sizeof(struct sockaddr_un)); address.sun_family = AF_UNIX; strcpy(address.sun_path, path); int pre_fd = socket(address.sun_family, SOCK_STREAM, 0); if (pre_fd < 0) { gpr_log(GPR_ERROR, "Unable to create unix socket: %m"); return -1; } int b = bind(pre_fd, reinterpret_cast(&address), sizeof(address)); if (b < 0) { gpr_log(GPR_ERROR, "Unable to bind unix socket: %m"); return -1; } int l = listen(pre_fd, SOMAXCONN); if (l < 0) { gpr_log(GPR_ERROR, "Unable to listen on unix socket: %m"); return -1; } grpc_tcp_server_set_pre_allocated_fd(s, pre_fd); *fd = pre_fd; return 0; } static void test_pre_allocated_unix_fd() { grpc_core::ExecCtx exec_ctx; grpc_resolved_address resolved_addr; struct sockaddr_un* addr = reinterpret_cast(resolved_addr.addr); grpc_tcp_server* s; if (grpc_event_engine::experimental::UseEventEngineListener()) { // TODO(vigneshbabu): Skip the test when event engine is enabled. // Pre-allocated fd support will be added to event engine later. return; } auto args = grpc_core::CoreConfiguration::Get() .channel_args_preconditioning() .PreconditionChannelArgs(nullptr); ASSERT_EQ( absl::OkStatus(), grpc_tcp_server_create( nullptr, grpc_event_engine::experimental::ChannelArgsEndpointConfig(args), on_connect, nullptr, &s)); LOG_TEST("test_pre_allocated_unix_fd"); // Pre allocate FD int pre_fd; char path[100]; srand(time(nullptr)); memset(path, 0, sizeof(path)); sprintf(path, "/tmp/pre_fd_test_%d", rand()); int res_pre = pre_allocate_unix_sock(s, path, &pre_fd); if (res_pre < 0) { grpc_tcp_server_unref(s); close(pre_fd); unlink(path); return; } ASSERT_EQ(grpc_tcp_server_pre_allocated_fd(s), pre_fd); // Add port int pt; memset(&resolved_addr, 0, sizeof(resolved_addr)); resolved_addr.len = static_cast(sizeof(struct sockaddr_un)); addr->sun_family = AF_UNIX; strcpy(addr->sun_path, path); ASSERT_EQ(grpc_tcp_server_add_port(s, &resolved_addr, &pt), absl::OkStatus()); ASSERT_GE(grpc_tcp_server_port_fd_count(s, 0), 1); ASSERT_EQ(grpc_tcp_server_port_fd(s, 0, 0), pre_fd); // Start server std::vector test_pollset; test_pollset.push_back(g_pollset); grpc_tcp_server_start(s, &test_pollset); // Test connection test_addr dst; dst.addr.len = static_cast(sizeof(dst.addr.addr)); ASSERT_EQ(getsockname(pre_fd, (struct sockaddr*)dst.addr.addr, (socklen_t*)&dst.addr.len), 0); ASSERT_LE(dst.addr.len, sizeof(dst.addr.addr)); test_addr_init_str(&dst); on_connect_result result; on_connect_result_init(&result); grpc_error_handle res_conn = tcp_connect(&dst, &result); // If the path no longer exists, errno is 2. This can happen when // runninig the test multiple times in parallel. Do not fail the test if (absl::IsUnknown(res_conn) && res_conn.raw_code() == 2) { gpr_log(GPR_ERROR, "Unable to test pre_allocated unix socket: path does not exist"); grpc_tcp_server_unref(s); close(pre_fd); return; } ASSERT_EQ(res_conn, absl::OkStatus()); ASSERT_EQ(result.server_fd, pre_fd); ASSERT_EQ(result.server, s); ASSERT_EQ(grpc_tcp_server_port_fd(s, result.port_index, result.fd_index), result.server_fd); grpc_tcp_server_unref(s); close(pre_fd); unlink(path); } #endif // GRPC_HAVE_UNIX_SOCKET static void destroy_pollset(void* p, grpc_error_handle /*error*/) { grpc_pollset_destroy(static_cast(p)); } TEST(TcpServerPosixTest, MainTest) { grpc_closure destroyed; grpc_arg chan_args[1]; chan_args[0].type = GRPC_ARG_INTEGER; chan_args[0].key = const_cast(GRPC_ARG_EXPAND_WILDCARD_ADDRS); chan_args[0].value.integer = 1; const grpc_channel_args channel_args = {1, chan_args}; struct ifaddrs* ifa = nullptr; struct ifaddrs* ifa_it; // Zalloc dst_addrs to avoid oversized frames. test_addrs* dst_addrs = grpc_core::Zalloc(); grpc_init(); // wait a few seconds to make sure IPv6 link-local addresses can be bound // if we are running under docker container that has just started. // See https://github.com/moby/moby/issues/38491 // See https://github.com/grpc/grpc/issues/15610 gpr_sleep_until(grpc_timeout_seconds_to_deadline(4)); { grpc_core::ExecCtx exec_ctx; g_pollset = static_cast(gpr_zalloc(grpc_pollset_size())); grpc_pollset_init(g_pollset, &g_mu); test_no_op(); test_no_op_with_start(); test_no_op_with_port(); test_no_op_with_port_and_start(); test_pre_allocated_inet_fd(); #ifdef GRPC_HAVE_UNIX_SOCKET test_pre_allocated_unix_fd(); #endif if (getifaddrs(&ifa) != 0 || ifa == nullptr) { FAIL() << "getifaddrs: " << grpc_core::StrError(errno); } dst_addrs->naddrs = 0; for (ifa_it = ifa; ifa_it != nullptr && dst_addrs->naddrs < MAX_ADDRS; ifa_it = ifa_it->ifa_next) { if (ifa_it->ifa_addr == nullptr) { continue; } else if (ifa_it->ifa_addr->sa_family == AF_INET) { dst_addrs->addrs[dst_addrs->naddrs].addr.len = static_cast(sizeof(struct sockaddr_in)); } else if (ifa_it->ifa_addr->sa_family == AF_INET6) { dst_addrs->addrs[dst_addrs->naddrs].addr.len = static_cast(sizeof(struct sockaddr_in6)); } else { continue; } memcpy(dst_addrs->addrs[dst_addrs->naddrs].addr.addr, ifa_it->ifa_addr, dst_addrs->addrs[dst_addrs->naddrs].addr.len); ASSERT_TRUE( grpc_sockaddr_set_port(&dst_addrs->addrs[dst_addrs->naddrs].addr, 0)); test_addr_init_str(&dst_addrs->addrs[dst_addrs->naddrs]); ++dst_addrs->naddrs; } freeifaddrs(ifa); ifa = nullptr; // Connect to same addresses as listeners. test_connect(1, nullptr, nullptr, false); test_connect(10, nullptr, nullptr, false); // Set dst_addrs->addrs[i].len=0 for dst_addrs that are unreachable with a // "::" listener. test_connect(1, nullptr, dst_addrs, true); // Test connect(2) with dst_addrs. test_connect(1, &channel_args, dst_addrs, false); // Test connect(2) with dst_addrs. test_connect(10, &channel_args, dst_addrs, false); GRPC_CLOSURE_INIT(&destroyed, destroy_pollset, g_pollset, grpc_schedule_on_exec_ctx); grpc_pollset_shutdown(g_pollset, &destroyed); } grpc_shutdown(); gpr_free(dst_addrs); gpr_free(g_pollset); } #endif // GRPC_POSIX_SOCKET_SERVER int main(int argc, char** argv) { grpc::testing::TestEnvironment env(&argc, argv); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }