/* * Copyright (c) 2019 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include echo_main_t echo_main; static void echo_session_prealloc (echo_main_t * em) { /* We need to prealloc to avoid vec resize in threads */ echo_session_t *session; int i; for (i = 0; i < em->n_sessions; i++) { pool_get (em->sessions, session); clib_memset (session, 0, sizeof (*session)); session->session_index = session - em->sessions; session->listener_index = SESSION_INVALID_INDEX; session->session_state = ECHO_SESSION_STATE_INITIAL; } } static void echo_assert_test_suceeded (echo_main_t * em) { if (em->rx_results_diff) CHECK_DIFF (ECHO_FAIL_TEST_ASSERT_RX_TOTAL, em->stats.rx_expected, em->stats.rx_total, "Invalid amount of data received"); else CHECK_SAME (ECHO_FAIL_TEST_ASSERT_RX_TOTAL, em->stats.rx_expected, em->stats.rx_total, "Invalid amount of data received"); if (em->tx_results_diff) CHECK_DIFF (ECHO_FAIL_TEST_ASSERT_TX_TOTAL, em->stats.tx_expected, em->stats.tx_total, "Invalid amount of data sent"); else CHECK_SAME (ECHO_FAIL_TEST_ASSERT_TX_TOTAL, em->stats.tx_expected, em->stats.tx_total, "Invalid amount of data sent"); clib_spinlock_lock (&em->sid_vpp_handles_lock); CHECK_SAME (ECHO_FAIL_TEST_ASSERT_ALL_SESSIONS_CLOSED, 0, hash_elts (em->session_index_by_vpp_handles), "Some sessions are still open"); clib_spinlock_unlock (&em->sid_vpp_handles_lock); } always_inline void echo_session_dequeue_notify (echo_session_t * s) { int rv; if (!svm_fifo_set_event (s->rx_fifo)) return; if ((rv = app_send_io_evt_to_vpp (s->vpp_evt_q, s->rx_fifo->shr->master_session_index, SESSION_IO_EVT_RX, SVM_Q_WAIT))) ECHO_FAIL (ECHO_FAIL_SEND_IO_EVT, "app_send_io_evt_to_vpp errored %d", rv); svm_fifo_clear_deq_ntf (s->rx_fifo); } static void stop_signal (int signum) { echo_main_t *em = &echo_main; em->time_to_stop = 1; } static int connect_to_vpp (echo_main_t *em) { api_main_t *am = vlibapi_get_main (); if (em->use_app_socket_api) return echo_api_connect_app_socket (em); if (em->use_sock_api) { if (vl_socket_client_connect ((char *) em->socket_name, (char *) em->app_name, 0 /* default rx, tx buffer */)) { ECHO_FAIL (ECHO_FAIL_SOCKET_CONNECT, "socket connect failed"); return -1; } if (vl_socket_client_init_shm (0, 1 /* want_pthread */ )) { ECHO_FAIL (ECHO_FAIL_INIT_SHM_API, "init shm api failed"); return -1; } } else { if (vl_client_connect_to_vlib ("/vpe-api", (char *) em->app_name, 32) < 0) { ECHO_FAIL (ECHO_FAIL_SHMEM_CONNECT, "shmem connect failed"); return -1; } } em->vl_input_queue = am->shmem_hdr->vl_input_queue; em->my_client_index = am->my_client_index; return 0; } static void print_global_json_stats (echo_main_t * em) { u8 *start_evt = format (0, "%U", echo_format_timing_event, em->timing.start_event); u8 *end_evt = format (0, "%U", echo_format_timing_event, em->timing.end_event); u8 start_evt_missing = !(em->timing.events_sent & em->timing.start_event); u8 end_evt_missing = (em->rx_results_diff || em->tx_results_diff) ? 0 : !(em->timing.events_sent & em->timing.end_event); f64 deltat = start_evt_missing || end_evt_missing ? 0 : em->timing.end_time - em->timing.start_time; if (start_evt_missing) ECHO_FAIL (ECHO_FAIL_MISSING_START_EVENT, "Expected event %v to happen, but it did not!", start_evt); if (end_evt_missing) ECHO_FAIL (ECHO_FAIL_MISSING_END_EVENT, "Expected event %v to happen, but it did not!", end_evt); fformat (stdout, "vpp_echo JSON stats:\n{\n"); fformat (stdout, " \"role\": \"%s\",\n", em->i_am_master ? "server" : "client"); fformat (stdout, " \"time\": \"%.9f\",\n", deltat); fformat (stdout, " \"start_evt\": \"%v\",\n", start_evt); fformat (stdout, " \"start_evt_missing\": \"%s\",\n", start_evt_missing ? "True" : "False"); fformat (stdout, " \"end_evt\": \"%v\",\n", end_evt); fformat (stdout, " \"end_evt_missing\": \"%s\",\n", end_evt_missing ? "True" : "False"); fformat (stdout, " \"rx_data\": %lld,\n", em->stats.rx_total); fformat (stdout, " \"tx_data\": %lld,\n", em->stats.tx_total); fformat (stdout, " \"rx_bits_per_second\": %.1f,\n", em->stats.rx_total * 8 / deltat); fformat (stdout, " \"tx_bits_per_second\": %.1f,\n", em->stats.tx_total * 8 / deltat); fformat (stdout, " \"closing\": {\n"); fformat (stdout, " \"reset\": { \"q\": %d, \"s\": %d },\n", em->stats.reset_count.q, em->stats.reset_count.s); fformat (stdout, " \"recv evt\": { \"q\": %d, \"s\": %d },\n", em->stats.close_count.q, em->stats.close_count.s); fformat (stdout, " \"send evt\": { \"q\": %d, \"s\": %d },\n", em->stats.active_count.q, em->stats.active_count.s); fformat (stdout, " \"clean\": { \"q\": %d, \"s\": %d },\n", em->stats.clean_count.q, em->stats.clean_count.s); fformat (stdout, " \"accepted\": { \"q\": %d, \"s\": %d },\n", em->stats.accepted_count.q, em->stats.accepted_count.s); fformat (stdout, " \"connected\": { \"q\": %d, \"s\": %d }\n", em->stats.connected_count.q, em->stats.connected_count.s); fformat (stdout, " },\n"); fformat (stdout, " \"results\": {\n"); fformat (stdout, " \"has_failed\": \"%d\",\n", em->has_failed); fformat (stdout, " \"fail_descr\": \"%v\"\n", em->fail_descr); fformat (stdout, " }\n"); fformat (stdout, "}\n"); fflush (stdout); vec_free (start_evt); vec_free (end_evt); } static void print_global_stats (echo_main_t * em) { u8 *start_evt = format (0, "%U", echo_format_timing_event, em->timing.start_event); u8 *end_evt = format (0, "%U", echo_format_timing_event, em->timing.end_event); u8 start_evt_missing = !(em->timing.events_sent & em->timing.start_event); u8 end_evt_missing = (em->rx_results_diff || em->tx_results_diff) ? 0 : !(em->timing.events_sent & em->timing.end_event); f64 deltat = start_evt_missing || end_evt_missing ? 0 : em->timing.end_time - em->timing.start_time; if (start_evt_missing) ECHO_FAIL (ECHO_FAIL_MISSING_START_EVENT, "Expected event %v to happen, but it did not!", start_evt); if (end_evt_missing) ECHO_FAIL (ECHO_FAIL_MISSING_END_EVENT, "Expected event %v to happen, but it did not!", end_evt); fformat (stdout, "Timing %v:%v\n", start_evt, end_evt); if (start_evt_missing) fformat (stdout, "Missing Start Timing Event (%v)!\n", start_evt); if (end_evt_missing) fformat (stdout, "Missing End Timing Event (%v)!\n", end_evt); fformat (stdout, "-------- TX --------\n"); fformat (stdout, "%lld bytes (%lld mbytes, %lld gbytes) in %.6f seconds\n", em->stats.tx_total, em->stats.tx_total / (1ULL << 20), em->stats.tx_total / (1ULL << 30), deltat); if (deltat) fformat (stdout, "%.4f Gbit/second\n", (em->stats.tx_total * 8.0) / deltat / 1e9); fformat (stdout, "-------- RX --------\n"); fformat (stdout, "%lld bytes (%lld mbytes, %lld gbytes) in %.6f seconds\n", em->stats.rx_total, em->stats.rx_total / (1ULL << 20), em->stats.rx_total / (1ULL << 30), deltat); if (deltat) fformat (stdout, "%.4f Gbit/second\n", (em->stats.rx_total * 8.0) / deltat / 1e9); fformat (stdout, "--------------------\n"); fformat (stdout, "Received close on %d streams (and %d Quic conn)\n", em->stats.close_count.s, em->stats.close_count.q); fformat (stdout, "Received reset on %d streams (and %d Quic conn)\n", em->stats.reset_count.s, em->stats.reset_count.q); fformat (stdout, "Sent close on %d streams (and %d Quic conn)\n", em->stats.active_count.s, em->stats.active_count.q); fformat (stdout, "Discarded %d streams (and %d Quic conn)\n", em->stats.clean_count.s, em->stats.clean_count.q); fformat (stdout, "--------------------\n"); fformat (stdout, "Got accept on %d streams (and %d Quic conn)\n", em->stats.accepted_count.s, em->stats.accepted_count.q); fformat (stdout, "Got connected on %d streams (and %d Quic conn)\n", em->stats.connected_count.s, em->stats.connected_count.q); if (em->has_failed) fformat (stdout, "\nFailure Return Status: %d\n%v", em->has_failed, em->fail_descr); vec_free (start_evt); vec_free (end_evt); } void echo_update_count_on_session_close (echo_main_t * em, echo_session_t * s) { ECHO_LOG (2, "[%lu/%lu] -> %U -> [%lu/%lu]", s->bytes_received, s->bytes_received + s->bytes_to_receive, echo_format_session, s, s->bytes_sent, s->bytes_sent + s->bytes_to_send); if (PREDICT_FALSE ((em->stats.rx_total == em->stats.rx_expected) && (em->stats.tx_total == em->stats.tx_expected))) echo_notify_event (em, ECHO_EVT_LAST_BYTE); } static void echo_session_detach_fifos (echo_session_t *s) { echo_main_t *em = &echo_main; fifo_segment_t *fs; if (!s->rx_fifo) return; clib_spinlock_lock (&em->segment_handles_lock); fs = fifo_segment_get_segment_if_valid (&em->segment_main, s->rx_fifo->segment_index); if (!fs) goto done; fifo_segment_free_client_fifo (fs, s->rx_fifo); fifo_segment_free_client_fifo (fs, s->tx_fifo); done: clib_spinlock_unlock (&em->segment_handles_lock); } static void echo_free_sessions (echo_main_t * em) { /* Free marked sessions */ echo_session_t *s; u32 *session_indexes = 0, *session_index; /* *INDENT-OFF* */ pool_foreach (s, em->sessions) { if (s->session_state == ECHO_SESSION_STATE_CLOSED) vec_add1 (session_indexes, s->session_index); } /* *INDENT-ON* */ vec_foreach (session_index, session_indexes) { /* Free session */ s = pool_elt_at_index (em->sessions, *session_index); echo_session_detach_fifos (s); echo_session_handle_add_del (em, s->vpp_session_handle, SESSION_INVALID_INDEX); clib_memset (s, 0xfe, sizeof (*s)); pool_put (em->sessions, s); } } static void test_recv_bytes (echo_main_t * em, echo_session_t * s, u8 * rx_buf, u32 n_read) { u32 i; u8 expected; for (i = 0; i < n_read; i++) { expected = (s->bytes_received + i) & 0xff; if (rx_buf[i] == expected || em->max_test_msg > 0) continue; ECHO_LOG (1, "Session 0x%lx byte %lld was 0x%x expected 0x%x", s->vpp_session_handle, s->bytes_received + i, rx_buf[i], expected); em->max_test_msg--; if (em->max_test_msg == 0) ECHO_LOG (1, "Too many errors, hiding next ones"); if (em->test_return_packets == RETURN_PACKETS_ASSERT) ECHO_FAIL (ECHO_FAIL_TEST_BYTES_ERR, "test-bytes errored"); } } static int recv_data_chunk (echo_main_t * em, echo_session_t * s, u8 * rx_buf) { int n_read; n_read = app_recv ((app_session_t *) s, rx_buf, vec_len (rx_buf)); if (n_read <= 0) return 0; if (svm_fifo_needs_deq_ntf (s->rx_fifo, n_read)) echo_session_dequeue_notify (s); if (em->test_return_packets) test_recv_bytes (em, s, rx_buf, n_read); s->bytes_received += n_read; s->bytes_to_receive -= n_read; clib_atomic_fetch_add (&em->stats.rx_total, n_read); return n_read; } static int send_data_chunk (echo_session_t * s, u8 * tx_buf, int offset, int len) { int n_sent; int bytes_this_chunk = clib_min (s->bytes_to_send, len - offset); echo_main_t *em = &echo_main; if (!bytes_this_chunk) return 0; n_sent = app_send ((app_session_t *) s, tx_buf + offset, bytes_this_chunk, SVM_Q_WAIT); if (n_sent < 0) return 0; s->bytes_to_send -= n_sent; s->bytes_sent += n_sent; clib_atomic_fetch_add (&em->stats.tx_total, n_sent); return n_sent; } static int mirror_data_chunk (echo_main_t * em, echo_session_t * s, u8 * tx_buf, u64 len) { u64 n_sent = 0; while (n_sent < len && !em->time_to_stop) n_sent += send_data_chunk (s, tx_buf, n_sent, len); return n_sent; } static inline void echo_check_closed_listener (echo_main_t * em, echo_session_t * s) { echo_session_t *ls; /* if parent has died, terminate gracefully */ if (s->listener_index == SESSION_INVALID_INDEX) { ECHO_LOG (3, "%U: listener_index == SESSION_INVALID_INDEX", echo_format_session, s); return; } ls = pool_elt_at_index (em->sessions, s->listener_index); if (ls->session_state < ECHO_SESSION_STATE_CLOSING) { ECHO_LOG (3, "%U: ls->session_state (%d) < " "ECHO_SESSION_STATE_CLOSING (%d)", echo_format_session, ls, ls->session_state, ECHO_SESSION_STATE_CLOSING); return; } ECHO_LOG (3, "%U died, close child %U", echo_format_session, ls, echo_format_session, s); echo_update_count_on_session_close (em, s); em->proto_cb_vft->cleanup_cb (s, 1 /* parent_died */ ); } /* * Rx/Tx polling thread per connection */ static void echo_handle_data (echo_main_t * em, echo_session_t * s, u8 * rx_buf) { int n_read, n_sent = 0; n_read = recv_data_chunk (em, s, rx_buf); if ((em->data_source == ECHO_TEST_DATA_SOURCE) && s->bytes_to_send) n_sent = send_data_chunk (s, em->connect_test_data, s->bytes_sent % em->tx_buf_size, em->tx_buf_size); else if (em->data_source == ECHO_RX_DATA_SOURCE) n_sent = mirror_data_chunk (em, s, rx_buf, n_read); if (!s->bytes_to_send && !s->bytes_to_receive) { /* Session is done, need to close */ if (s->session_state == ECHO_SESSION_STATE_AWAIT_DATA) s->session_state = ECHO_SESSION_STATE_CLOSING; else { s->session_state = ECHO_SESSION_STATE_AWAIT_CLOSING; if (em->send_stream_disconnects == ECHO_CLOSE_F_ACTIVE) { echo_send_rpc (em, echo_send_disconnect_session, (echo_rpc_args_t *) & s->vpp_session_handle); clib_atomic_fetch_add (&em->stats.active_count.s, 1); } else if (em->send_stream_disconnects == ECHO_CLOSE_F_NONE) { s->session_state = ECHO_SESSION_STATE_CLOSING; clib_atomic_fetch_add (&em->stats.clean_count.s, 1); } } ECHO_LOG (3, "%U: %U", echo_format_session, s, echo_format_session_state, s->session_state); return; } /* Check for idle clients */ if (em->log_lvl > 1) { if (n_sent || n_read) s->idle_cycles = 0; else if (s->idle_cycles++ == LOG_EVERY_N_IDLE_CYCLES) { s->idle_cycles = 0; ECHO_LOG (2, "Idle client TX:%dB RX:%dB", s->bytes_to_send, s->bytes_to_receive); ECHO_LOG (2, "Idle FIFOs TX:%dB RX:%dB", svm_fifo_max_dequeue (s->tx_fifo), svm_fifo_max_dequeue (s->rx_fifo)); ECHO_LOG (2, "Session 0x%lx state %U", s->vpp_session_handle, echo_format_session_state, s->session_state); } } } static void * echo_data_thread_fn (void *arg) { clib_mem_set_thread_index (); /* First thing to do in client thread */ echo_main_t *em = &echo_main; u32 N = em->n_clients; u32 n = (N + em->n_rx_threads - 1) / em->n_rx_threads; u32 idx = (u64) arg; if (n * idx >= N) { ECHO_LOG (2, "Thread %u exiting, no sessions to care for", idx); pthread_exit (0); } u32 thread_n_sessions = clib_min (n, N - n * idx); u32 i = 0; u32 n_closed_sessions = 0; u32 session_index; u8 *rx_buf = 0; echo_session_t *s; vec_validate (rx_buf, em->rx_buf_size); for (i = 0; !em->time_to_stop; i = (i + 1) % thread_n_sessions) { n_closed_sessions = i == 0 ? 0 : n_closed_sessions; session_index = em->data_thread_args[n * idx + i]; if (session_index == SESSION_INVALID_INDEX) continue; s = pool_elt_at_index (em->sessions, session_index); switch (s->session_state) { case ECHO_SESSION_STATE_READY: case ECHO_SESSION_STATE_AWAIT_DATA: echo_handle_data (em, s, rx_buf); echo_check_closed_listener (em, s); break; case ECHO_SESSION_STATE_AWAIT_CLOSING: ECHO_LOG (3, "%U: %U", echo_format_session, s, echo_format_session_state, s->session_state); echo_check_closed_listener (em, s); break; case ECHO_SESSION_STATE_CLOSING: ECHO_LOG (3, "%U: %U", echo_format_session, s, echo_format_session_state, s->session_state); echo_update_count_on_session_close (em, s); em->proto_cb_vft->cleanup_cb (s, 0 /* parent_died */ ); break; case ECHO_SESSION_STATE_CLOSED: ECHO_LOG (3, "%U: %U", echo_format_session, s, echo_format_session_state, s->session_state); n_closed_sessions++; break; } if (n_closed_sessions == thread_n_sessions) break; } ECHO_LOG (2, "Mission accomplished!"); pthread_exit (0); } static void session_unlisten_handler (session_unlisten_reply_msg_t * mp) { echo_session_t *ls; echo_main_t *em = &echo_main; ls = echo_get_session_from_handle (em, mp->handle); if (!ls) return; em->proto_cb_vft->cleanup_cb (ls, 0 /* parent_died */ ); ls->session_state = ECHO_SESSION_STATE_CLOSED; if (--em->listen_session_cnt == 0) em->state = STATE_DISCONNECTED; } static void session_bound_handler (session_bound_msg_t * mp) { echo_main_t *em = &echo_main; echo_session_t *listen_session; if (mp->retval) { ECHO_FAIL (ECHO_FAIL_BIND, "bind failed: %U", format_api_error, clib_net_to_host_u32 (mp->retval)); return; } ECHO_LOG (1, "listening on %U:%u", format_ip46_address, mp->lcl_ip, mp->lcl_is_ip4 ? IP46_TYPE_IP4 : IP46_TYPE_IP6, clib_net_to_host_u16 (mp->lcl_port)); /* Allocate local session and set it up */ listen_session = echo_session_new (em); listen_session->session_type = ECHO_SESSION_TYPE_LISTEN; listen_session->vpp_session_handle = mp->handle; echo_session_handle_add_del (em, mp->handle, listen_session->session_index); vec_add1 (em->listen_session_indexes, listen_session->session_index); if (++em->listen_session_cnt == em->n_uris) em->state = STATE_LISTEN; if (em->proto_cb_vft->bound_uri_cb) em->proto_cb_vft->bound_uri_cb (mp, listen_session); } static void session_accepted_handler (session_accepted_msg_t * mp) { app_session_evt_t _app_evt, *app_evt = &_app_evt; session_accepted_reply_msg_t *rmp; echo_main_t *em = &echo_main; echo_session_t *session, *ls; if (!(ls = echo_get_session_from_handle (em, mp->listener_handle))) { ECHO_FAIL (ECHO_FAIL_SESSION_ACCEPTED_BAD_LISTENER, "Unknown listener handle 0x%lx", mp->listener_handle); return; } /* Allocate local session and set it up */ session = echo_session_new (em); if (echo_attach_session (mp->segment_handle, mp->server_rx_fifo, mp->server_tx_fifo, mp->vpp_event_queue_address, session)) { ECHO_FAIL (ECHO_FAIL_ACCEPTED_WAIT_FOR_SEG_ALLOC, "accepted wait_for_segment_allocation errored"); return; } session->vpp_session_handle = mp->handle; /* session->transport needed by app_send_dgram */ clib_memcpy_fast (&session->transport.rmt_ip, &mp->rmt.ip, sizeof (ip46_address_t)); session->transport.is_ip4 = mp->rmt.is_ip4; session->transport.rmt_port = mp->rmt.port; clib_memcpy_fast (&session->transport.lcl_ip, &em->uri_elts.ip, sizeof (ip46_address_t)); session->transport.lcl_port = em->uri_elts.port; session->vpp_session_handle = mp->handle; session->listener_index = ls->session_index; session->start = clib_time_now (&em->clib_time); /* Add it to lookup table */ ECHO_LOG (2, "Accepted session 0x%lx S[%u] -> 0x%lx S[%u]", mp->handle, session->session_index, mp->listener_handle, session->listener_index); echo_session_handle_add_del (em, mp->handle, session->session_index); app_alloc_ctrl_evt_to_vpp (session->vpp_evt_q, app_evt, SESSION_CTRL_EVT_ACCEPTED_REPLY); rmp = (session_accepted_reply_msg_t *) app_evt->evt->data; rmp->handle = mp->handle; rmp->context = mp->context; app_send_ctrl_evt_to_vpp (session->vpp_evt_q, app_evt); em->proto_cb_vft->accepted_cb (mp, session); } static void session_connected_handler (session_connected_msg_t * mp) { echo_main_t *em = &echo_main; echo_session_t *session; u32 listener_index = htonl (mp->context); clib_atomic_add_fetch (&em->max_sim_connects, 1); if (mp->retval) { if (em->proto_cb_vft->connected_cb) em-> proto_cb_vft->connected_cb ((session_connected_bundled_msg_t *) mp, listener_index, 1 /* is_failed */ ); return; } session = echo_session_new (em); if (echo_attach_session (mp->segment_handle, mp->server_rx_fifo, mp->server_tx_fifo, mp->vpp_event_queue_address, session)) { ECHO_FAIL (ECHO_FAIL_CONNECTED_WAIT_FOR_SEG_ALLOC, "connected wait_for_segment_allocation errored"); return; } session->vpp_session_handle = mp->handle; session->start = clib_time_now (&em->clib_time); session->listener_index = listener_index; /* session->transport needed by app_send_dgram */ clib_memcpy_fast (&session->transport.lcl_ip, &mp->lcl.ip, sizeof (ip46_address_t)); session->transport.is_ip4 = mp->lcl.is_ip4; session->transport.lcl_port = mp->lcl.port; clib_memcpy_fast (&session->transport.rmt_ip, &em->uri_elts.ip, sizeof (ip46_address_t)); session->transport.rmt_port = em->uri_elts.port; echo_session_handle_add_del (em, mp->handle, session->session_index); em->proto_cb_vft->connected_cb ((session_connected_bundled_msg_t *) mp, session->session_index, 0 /* is_failed */ ); } /* * * End of ECHO callback definitions * */ static void session_disconnected_handler (session_disconnected_msg_t * mp) { app_session_evt_t _app_evt, *app_evt = &_app_evt; session_disconnected_reply_msg_t *rmp; echo_main_t *em = &echo_main; echo_session_t *s; if (!(s = echo_get_session_from_handle (em, mp->handle))) { ECHO_LOG (1, "Invalid vpp_session_handle: 0x%lx", mp->handle); return; } if (s->session_state == ECHO_SESSION_STATE_CLOSED) { ECHO_LOG (2, "%U: already in ECHO_SESSION_STATE_CLOSED", echo_format_session, s); } else { ECHO_LOG (2, "%U: passive close", echo_format_session, s); em->proto_cb_vft->disconnected_cb (mp, s); } app_alloc_ctrl_evt_to_vpp (s->vpp_evt_q, app_evt, SESSION_CTRL_EVT_DISCONNECTED_REPLY); rmp = (session_disconnected_reply_msg_t *) app_evt->evt->data; rmp->retval = 0; rmp->handle = mp->handle; rmp->context = mp->context; app_send_ctrl_evt_to_vpp (s->vpp_evt_q, app_evt); } static void session_reset_handler (session_reset_msg_t * mp) { app_session_evt_t _app_evt, *app_evt = &_app_evt; echo_main_t *em = &echo_main; session_reset_reply_msg_t *rmp; echo_session_t *s = 0; if (!(s = echo_get_session_from_handle (em, mp->handle))) { ECHO_LOG (1, "Invalid vpp_session_handle: 0x%lx", mp->handle); return; } ECHO_LOG (2, "%U: session reset", echo_format_session, s); em->proto_cb_vft->reset_cb (mp, s); app_alloc_ctrl_evt_to_vpp (s->vpp_evt_q, app_evt, SESSION_CTRL_EVT_RESET_REPLY); rmp = (session_reset_reply_msg_t *) app_evt->evt->data; rmp->retval = 0; rmp->handle = mp->handle; app_send_ctrl_evt_to_vpp (s->vpp_evt_q, app_evt); } static int echo_recv_fd (echo_main_t *em, int *fds, int n_fds) { if (em->use_app_socket_api) return echo_sapi_recv_fd (em, fds, n_fds); return echo_bapi_recv_fd (em, fds, n_fds); } static void add_segment_handler (session_app_add_segment_msg_t * mp) { echo_main_t *em = &echo_main; fifo_segment_main_t *sm = &echo_main.segment_main; fifo_segment_create_args_t _a, *a = &_a; int *fds = 0, i; char *seg_name = (char *) mp->segment_name; u64 segment_handle = mp->segment_handle; if (mp->fd_flags & SESSION_FD_F_MEMFD_SEGMENT) { vec_validate (fds, 1); if (echo_recv_fd (em, fds, 1)) { ECHO_LOG (0, "echo_recv_fd failed"); em->time_to_stop = 1; goto failed; } if (echo_segment_attach (segment_handle, seg_name, SSVM_SEGMENT_MEMFD, fds[0])) { ECHO_FAIL (ECHO_FAIL_VL_API_SVM_FIFO_SEG_ATTACH, "svm_fifo_segment_attach ('%s') " "failed on SSVM_SEGMENT_MEMFD", seg_name); goto failed; } vec_free (fds); } else { clib_memset (a, 0, sizeof (*a)); a->segment_name = seg_name; a->segment_size = mp->segment_size; /* Attach to the segment vpp created */ if (fifo_segment_attach (sm, a)) { ECHO_FAIL (ECHO_FAIL_VL_API_FIFO_SEG_ATTACH, "fifo_segment_attach ('%s') failed", seg_name); goto failed; } } ECHO_LOG (2, "Mapped segment 0x%lx", segment_handle); return; failed: for (i = 0; i < vec_len (fds); i++) close (fds[i]); vec_free (fds); } static void del_segment_handler (session_app_del_segment_msg_t * mp) { echo_segment_detach (mp->segment_handle); ECHO_LOG (2, "Unmaped segment 0x%lx", mp->segment_handle); } static void cleanup_handler (session_cleanup_msg_t * mp) { ECHO_LOG (1, "Cleanup confirmed for 0x%lx", mp->handle); } static void handle_mq_event (session_event_t * e) { switch (e->event_type) { case SESSION_CTRL_EVT_BOUND: return session_bound_handler ((session_bound_msg_t *) e->data); case SESSION_CTRL_EVT_ACCEPTED: return session_accepted_handler ((session_accepted_msg_t *) e->data); case SESSION_CTRL_EVT_CONNECTED: return session_connected_handler ((session_connected_msg_t *) e->data); case SESSION_CTRL_EVT_DISCONNECTED: return session_disconnected_handler ((session_disconnected_msg_t *) e->data); case SESSION_CTRL_EVT_RESET: return session_reset_handler ((session_reset_msg_t *) e->data); case SESSION_CTRL_EVT_UNLISTEN_REPLY: return session_unlisten_handler ((session_unlisten_reply_msg_t *) e->data); case SESSION_CTRL_EVT_APP_ADD_SEGMENT: add_segment_handler ((session_app_add_segment_msg_t *) e->data); break; case SESSION_CTRL_EVT_APP_DEL_SEGMENT: del_segment_handler ((session_app_del_segment_msg_t *) e->data); break; case SESSION_CTRL_EVT_CLEANUP: cleanup_handler ((session_cleanup_msg_t *) e->data); break; case SESSION_IO_EVT_RX: break; default: ECHO_LOG (1, "unhandled event %u", e->event_type); } } static void echo_process_rpcs (echo_main_t * em) { echo_rpc_msg_t *rpc; svm_msg_q_msg_t msg; svm_msg_q_t *mq = &em->rpc_msq_queue; while (em->state < STATE_DATA_DONE && !em->time_to_stop) { if (svm_msg_q_is_empty (mq) && svm_msg_q_timedwait (mq, 1)) { continue; } svm_msg_q_sub_raw (mq, &msg); rpc = svm_msg_q_msg_data (mq, &msg); ((echo_rpc_t) rpc->fp) (em, &rpc->args); svm_msg_q_free_msg (mq, &msg); } } static inline void echo_print_periodic_stats (echo_main_t * em) { f64 delta, now = clib_time_now (&em->clib_time); echo_stats_t _st, *st = &_st; echo_stats_t *lst = &em->last_stat_sampling; delta = now - em->last_stat_sampling_ts; if (delta < em->periodic_stats_delta) return; clib_memcpy_fast (st, &em->stats, sizeof (*st)); if (st->rx_total - lst->rx_total) clib_warning ("RX: %U", echo_format_bytes_per_sec, (st->rx_total - lst->rx_total) / delta); if (st->tx_total - lst->tx_total) clib_warning ("TX: %U", echo_format_bytes_per_sec, (st->tx_total - lst->tx_total) / delta); if (st->connected_count.q - lst->connected_count.q) clib_warning ("conn: %d/s", st->connected_count.q - lst->connected_count.q); if (st->accepted_count.q - lst->accepted_count.q) clib_warning ("accept: %d/s", st->accepted_count.q - lst->accepted_count.q); clib_memcpy_fast (lst, st, sizeof (*st)); em->last_stat_sampling_ts = now; } static void * echo_mq_thread_fn (void *arg) { clib_mem_set_thread_index (); /* First thing to do in client thread */ svm_msg_q_msg_t *msg_vec = 0; echo_main_t *em = &echo_main; session_event_t *e; svm_msg_q_msg_t *msg; svm_msg_q_t *mq; int i; vec_validate (msg_vec, em->evt_q_size); vec_reset_length (msg_vec); wait_for_state_change (em, STATE_ATTACHED, 0); mq = em->app_mq; if (em->state < STATE_ATTACHED || !mq) { ECHO_FAIL (ECHO_FAIL_APP_ATTACH, "Application failed to attach"); pthread_exit (0); } while (em->state < STATE_DETACHED && !em->time_to_stop) { if (em->periodic_stats_delta) echo_print_periodic_stats (em); if (svm_msg_q_is_empty (mq) && svm_msg_q_timedwait (mq, 1)) { continue; } for (i = 0; i < svm_msg_q_size (mq); i++) { vec_add2 (msg_vec, msg, 1); svm_msg_q_sub_raw (mq, msg); } for (i = 0; i < vec_len (msg_vec); i++) { msg = vec_elt_at_index (msg_vec, i); e = svm_msg_q_msg_data (mq, msg); handle_mq_event (e); svm_msg_q_free_msg (mq, msg); /* No lock, single thread dequeuing */ } vec_reset_length (msg_vec); } vec_free (msg_vec); pthread_exit (0); } static inline void echo_cycle_ip (echo_main_t * em, ip46_address_t * ip, ip46_address_t * src_ip, u32 i) { u8 *ipu8; u8 l; if (i % em->n_uris == 0) { clib_memcpy_fast (ip, src_ip, sizeof (*ip)); return; } l = em->uri_elts.is_ip4 ? 3 : 15; ipu8 = em->uri_elts.is_ip4 ? ip->ip4.as_u8 : ip->ip6.as_u8; while (ipu8[l] == 0xf) ipu8[l--] = 0; if (l) ipu8[l]++; } static void clients_run (echo_main_t * em) { echo_connect_args_t _a, *a = &_a; u64 i; a->context = SESSION_INVALID_INDEX; a->parent_session_handle = SESSION_INVALID_HANDLE; clib_memset (&a->lcl_ip, 0, sizeof (a->lcl_ip)); echo_notify_event (em, ECHO_EVT_FIRST_QCONNECT); for (i = 0; i < em->n_connects; i++) { echo_cycle_ip (em, &a->ip, &em->uri_elts.ip, i); if (em->lcl_ip_set) echo_cycle_ip (em, &a->lcl_ip, &em->lcl_ip, i); echo_send_connect (em, a); } wait_for_state_change (em, STATE_READY, 0); ECHO_LOG (2, "App is ready"); echo_process_rpcs (em); } static void server_run (echo_main_t * em) { echo_session_t *ls; ip46_address_t _ip, *ip = &_ip; u32 *listen_session_index; u32 i; for (i = 0; i < em->n_uris; i++) { echo_cycle_ip (em, ip, &em->uri_elts.ip, i); echo_send_listen (em, ip); } wait_for_state_change (em, STATE_READY, 0); ECHO_LOG (2, "App is ready"); echo_process_rpcs (em); /* Cleanup */ vec_foreach (listen_session_index, em->listen_session_indexes) { ECHO_LOG (2, "Unbind listen port %d", em->listen_session_cnt); ls = pool_elt_at_index (em->sessions, *listen_session_index); echo_send_unbind (em, ls); } if (wait_for_state_change (em, STATE_DISCONNECTED, TIMEOUT)) { ECHO_FAIL (ECHO_FAIL_SERVER_DISCONNECT_TIMEOUT, "Timeout waiting for state disconnected"); return; } } static void print_usage_and_exit (void) { echo_main_t *em = &echo_main; int i; fprintf (stderr, "Usage: vpp_echo [socket-name SOCKET] [client|server] [uri URI] [OPTIONS]\n" "Generates traffic and assert correct teardown of the hoststack\n" "\n" " socket-name PATH Specify the binary socket path to connect to VPP\n" " use-svm-api Use SVM API to connect to VPP\n" " test-bytes[:assert] Check data correctness when receiving (assert fails on first error)\n" " fifo-size N[K|M|G] Use N[K|M|G] fifos\n" " mq-size N Use mq with N slots for [vpp_echo->vpp] communication\n" " max-sim-connects N Do not allow more than N mq events inflight\n" " rx-buf N[K|M|G] Use N[Kb|Mb|GB] RX buffer\n" " tx-buf N[K|M|G] Use N[Kb|Mb|GB] TX test buffer\n" " appns NAMESPACE Use the namespace NAMESPACE\n" " all-scope all-scope option\n" " local-scope local-scope option\n" " global-scope global-scope option\n" " secret SECRET set namespace secret\n" " chroot prefix PATH Use PATH as memory root path\n" " sclose=[Y|N|W] When stream is done, send[Y]|nop[N]|wait[W] for close\n" " nuris N Cycle through N consecutive (src&dst) ips when creating connections\n" " lcl IP Set the local ip to use as a client (use with nuris to set first src ip)\n" "\n" " time START:END Time between evts START & END, events being :\n" " start - Start of the app\n" " qconnect - first Connection connect sent\n" " qconnected - last Connection connected\n" " sconnect - first Stream connect sent\n" " sconnected - last Stream got connected\n" " lastbyte - Last expected byte received\n" " exit - Exiting of the app\n" " rx-results-diff Rx results different to pass test\n" " tx-results-diff Tx results different to pass test\n" " json Output global stats in json\n" " stats N Output stats evry N secs\n" " log=N Set the log level to [0: no output, 1:errors, 2:log]\n" " crypto [engine] Set the crypto engine [openssl, vpp, picotls, mbedtls]\n" "\n" " nclients N Open N clients sending data\n" " nthreads N Use N busy loop threads for data [in addition to main & msg queue]\n" " TX=1337[K|M|G]|RX Send 1337 [K|M|G]bytes, use TX=RX to reflect the data\n" " RX=1337[K|M|G] Expect 1337 [K|M|G]bytes\n" "\n"); for (i = 0; i < vec_len (em->available_proto_cb_vft); i++) { echo_proto_cb_vft_t *vft = em->available_proto_cb_vft[i]; if (vft && vft->print_usage_cb) vft->print_usage_cb (); } fprintf (stderr, "\nDefault configuration is :\n" " server nclients 1 [quic-streams 1] RX=64Kb TX=RX\n" " client nclients 1 [quic-streams 1] RX=64Kb TX=64Kb\n"); exit (ECHO_FAIL_USAGE); } static int echo_process_each_proto_opts (unformat_input_t * a) { echo_main_t *em = &echo_main; int i, rv; for (i = 0; i < vec_len (em->available_proto_cb_vft); i++) { echo_proto_cb_vft_t *vft = em->available_proto_cb_vft[i]; if (vft && vft->process_opts_cb) if ((rv = vft->process_opts_cb (a))) return rv; } return 0; } static void echo_set_each_proto_defaults_before_opts (echo_main_t * em) { int i; for (i = 0; i < vec_len (em->available_proto_cb_vft); i++) { echo_proto_cb_vft_t *vft = em->available_proto_cb_vft[i]; if (vft && vft->set_defaults_before_opts_cb) vft->set_defaults_before_opts_cb (); } } void echo_process_opts (int argc, char **argv) { echo_main_t *em = &echo_main; unformat_input_t _argv, *a = &_argv; u8 *chroot_prefix; u8 *uri = 0; u8 default_f_active; uword tmp; unformat_init_command_line (a, argv); while (unformat_check_input (a) != UNFORMAT_END_OF_INPUT) { if (echo_process_each_proto_opts (a)) ; else if (unformat (a, "chroot prefix %s", &chroot_prefix)) vl_set_memory_root_path ((char *) chroot_prefix); else if (unformat (a, "uri %s", &uri)) em->uri = format (0, "%s%c", uri, 0); else if (unformat (a, "lcl %U", unformat_ip46_address, &em->lcl_ip)) em->lcl_ip_set = 1; else if (unformat (a, "nuris %u", &em->n_uris)) em->n_sessions = em->n_clients + em->n_uris; else if (unformat (a, "server")) em->i_am_master = 1; else if (unformat (a, "client")) em->i_am_master = 0; else if (unformat (a, "test-bytes:assert")) em->test_return_packets = RETURN_PACKETS_ASSERT; else if (unformat (a, "test-bytes")) em->test_return_packets = RETURN_PACKETS_LOG_WRONG; else if (unformat (a, "socket-name %s", &em->socket_name)) ; else if (unformat (a, "use-app-socket-api")) em->use_app_socket_api = 1; else if (unformat (a, "use-svm-api")) em->use_sock_api = 0; else if (unformat (a, "fifo-size %U", unformat_memory_size, &tmp)) { if (tmp >= 0x100000000ULL) { fprintf (stderr, "ERROR: fifo-size %ld (0x%lx) too large\n", tmp, tmp); print_usage_and_exit (); } em->fifo_size = tmp; } else if (unformat (a, "prealloc-fifos %u", &em->prealloc_fifo_pairs)) ; else if (unformat (a, "rx-buf %U", unformat_data_size, &em->rx_buf_size)) ; else if (unformat (a, "tx-buf %U", unformat_data_size, &em->tx_buf_size)) ; else if (unformat (a, "mq-size %d", &em->evt_q_size)) ; else if (unformat (a, "nclients %d", &em->n_clients)) { em->n_sessions = em->n_clients + em->n_uris; em->n_connects = em->n_clients; } else if (unformat (a, "nthreads %d", &em->n_rx_threads)) ; else if (unformat (a, "crypto %U", echo_unformat_crypto_engine, &tmp)) em->crypto_engine = tmp; else if (unformat (a, "appns %_%v%_", &em->appns_id)) ; else if (unformat (a, "all-scope")) em->appns_flags |= (APP_OPTIONS_FLAGS_USE_GLOBAL_SCOPE | APP_OPTIONS_FLAGS_USE_LOCAL_SCOPE); else if (unformat (a, "local-scope")) em->appns_flags = APP_OPTIONS_FLAGS_USE_LOCAL_SCOPE; else if (unformat (a, "global-scope")) em->appns_flags = APP_OPTIONS_FLAGS_USE_GLOBAL_SCOPE; else if (unformat (a, "secret %lu", &em->appns_secret)) ; else if (unformat (a, "TX=RX")) em->data_source = ECHO_RX_DATA_SOURCE; else if (unformat (a, "TX=%U", unformat_data_size, &em->bytes_to_send)) ; else if (unformat (a, "RX=%U", unformat_data_size, &em->bytes_to_receive)) ; else if (unformat (a, "rx-results-diff")) em->rx_results_diff = 1; else if (unformat (a, "tx-results-diff")) em->tx_results_diff = 1; else if (unformat (a, "json")) em->output_json = 1; else if (unformat (a, "stats %d", &em->periodic_stats_delta)) ; else if (unformat (a, "wait-for-gdb")) em->wait_for_gdb = 1; else if (unformat (a, "log=%d", &em->log_lvl)) ; else if (unformat (a, "sclose=%U", echo_unformat_close, &em->send_stream_disconnects)) ; else if (unformat (a, "time %U:%U", echo_unformat_timing_event, &em->timing.start_event, echo_unformat_timing_event, &em->timing.end_event)) ; else if (unformat (a, "max-sim-connects %d", &em->max_sim_connects)) ; else print_usage_and_exit (); } /* setting default for unset values * * bytes_to_send / bytes_to_receive & data_source */ if (em->bytes_to_receive == (u64) ~ 0) em->bytes_to_receive = 64 << 10; /* default */ if (em->bytes_to_send == (u64) ~ 0) em->bytes_to_send = 64 << 10; /* default */ else if (em->bytes_to_send == 0) em->data_source = ECHO_NO_DATA_SOURCE; else em->data_source = ECHO_TEST_DATA_SOURCE; if (em->data_source == ECHO_INVALID_DATA_SOURCE) em->data_source = em->i_am_master ? ECHO_RX_DATA_SOURCE : ECHO_TEST_DATA_SOURCE; if (em->data_source == ECHO_RX_DATA_SOURCE) em->bytes_to_send = em->bytes_to_receive; /* disconnect flags */ if (em->i_am_master) default_f_active = em->bytes_to_send == 0 ? ECHO_CLOSE_F_ACTIVE : ECHO_CLOSE_F_PASSIVE; else default_f_active = em->bytes_to_receive == 0 ? ECHO_CLOSE_F_PASSIVE : ECHO_CLOSE_F_ACTIVE; if (em->send_stream_disconnects == ECHO_CLOSE_F_INVALID) em->send_stream_disconnects = default_f_active; if (em->max_sim_connects == 0) em->max_sim_connects = em->evt_q_size >> 1; if (em->wait_for_gdb) { volatile u64 nop = 0; clib_warning ("Waiting for gdb..."); while (em->wait_for_gdb) nop++; clib_warning ("Resuming execution (%llu)!", nop); } } static int echo_needs_crypto (echo_main_t *em) { u8 tr = em->uri_elts.transport_proto; if (tr == TRANSPORT_PROTO_QUIC || tr == TRANSPORT_PROTO_TLS) return 1; return 0; } void echo_process_uri (echo_main_t * em) { unformat_input_t _input, *input = &_input; u32 port; unformat_init_string (input, (char *) em->uri, strlen ((char *) em->uri)); if (unformat (input, "%U://%U/%d", unformat_transport_proto, &em->uri_elts.transport_proto, unformat_ip4_address, &em->uri_elts.ip.ip4, &port)) em->uri_elts.is_ip4 = 1; else if (unformat (input, "%U://%U/%d", unformat_transport_proto, &em->uri_elts.transport_proto, unformat_ip6_address, &em->uri_elts.ip.ip6, &port)) em->uri_elts.is_ip4 = 0; else ECHO_FAIL (ECHO_FAIL_INVALID_URI, "Unable to process uri"); em->uri_elts.port = clib_host_to_net_u16 (port); unformat_free (input); } static void __clib_constructor vpp_echo_init () { /* init memory before proto register themselves */ echo_main_t *em = &echo_main; clib_mem_init_thread_safe (0, 256 << 20); clib_memset (em, 0, sizeof (*em)); } static int echo_detach (echo_main_t *em) { if (em->use_app_socket_api) return echo_sapi_detach (em); echo_send_detach (em); if (wait_for_state_change (em, STATE_DETACHED, TIMEOUT)) { ECHO_FAIL (ECHO_FAIL_DETACH, "Couldn't detach from vpp"); return -1; } return 0; } static void echo_add_cert_key (echo_main_t *em) { if (em->use_app_socket_api) echo_sapi_add_cert_key (em); else { echo_send_add_cert_key (em); if (wait_for_state_change (em, STATE_ATTACHED, TIMEOUT)) { ECHO_FAIL (ECHO_FAIL_APP_ATTACH, "Couldn't add crypto context to vpp\n"); exit (1); } } } static int echo_del_cert_key (echo_main_t *em) { if (em->use_app_socket_api) return echo_sapi_del_cert_key (em); echo_send_del_cert_key (em); if (wait_for_state_change (em, STATE_CLEANED_CERT_KEY, TIMEOUT)) { ECHO_FAIL (ECHO_FAIL_DEL_CERT_KEY, "Couldn't cleanup cert and key"); return -1; } return 0; } static void echo_disconnect (echo_main_t *em) { if (em->use_app_socket_api) return; if (em->use_sock_api) vl_socket_client_disconnect (); else vl_client_disconnect_from_vlib (); } static int echo_attach (echo_main_t *em) { if (em->use_app_socket_api) return echo_sapi_attach (em); else { echo_api_hookup (em); echo_send_attach (em); if (wait_for_state_change (em, STATE_ATTACHED_NO_CERT, TIMEOUT)) { ECHO_FAIL (ECHO_FAIL_ATTACH_TO_VPP, "Couldn't attach to vpp, did you run ?"); return -1; } } return 0; } int main (int argc, char **argv) { echo_main_t *em = &echo_main; fifo_segment_main_t *sm = &em->segment_main; u64 i; int *rv; svm_msg_q_cfg_t _cfg, *cfg = &_cfg; u32 rpc_queue_size = 256 << 10; em->session_index_by_vpp_handles = hash_create (0, sizeof (uword)); clib_spinlock_init (&em->sid_vpp_handles_lock); em->shared_segment_handles = hash_create (0, sizeof (uword)); clib_spinlock_init (&em->segment_handles_lock); em->socket_name = format (0, "%s%c", API_SOCKET_FILE, 0); em->use_sock_api = 1; em->fifo_size = 64 << 10; em->prealloc_fifo_pairs = 16; em->n_clients = 1; em->n_connects = 1; em->n_sessions = 2; em->max_test_msg = 50; em->time_to_stop = 0; em->i_am_master = 1; em->n_rx_threads = 4; em->evt_q_size = 256; em->lcl_ip_set = 0; clib_memset (&em->lcl_ip, 0, sizeof (em->lcl_ip)); em->test_return_packets = RETURN_PACKETS_NOTEST; em->timing.start_event = ECHO_EVT_FIRST_QCONNECT; em->timing.end_event = ECHO_EVT_LAST_BYTE; em->bytes_to_receive = ~0; /* defaulted when we know if server/client */ em->bytes_to_send = ~0; /* defaulted when we know if server/client */ em->rx_buf_size = 1 << 20; em->tx_buf_size = 1 << 20; em->data_source = ECHO_INVALID_DATA_SOURCE; em->uri = format (0, "%s%c", "tcp://0.0.0.0/1234", 0); em->n_uris = 1; em->max_sim_connects = 0; em->listen_session_cnt = 0; em->crypto_engine = CRYPTO_ENGINE_NONE; echo_set_each_proto_defaults_before_opts (em); echo_process_opts (argc, argv); echo_process_uri (em); em->proto_cb_vft = em->available_proto_cb_vft[em->uri_elts.transport_proto]; if (!em->proto_cb_vft) { ECHO_FAIL (ECHO_FAIL_PROTOCOL_NOT_SUPPORTED, "Protocol %U is not supported", format_transport_proto, em->uri_elts.transport_proto); goto exit_on_error; } if (em->proto_cb_vft->set_defaults_after_opts_cb) em->proto_cb_vft->set_defaults_after_opts_cb (); em->stats.rx_expected = em->bytes_to_receive * em->n_clients; em->stats.tx_expected = em->bytes_to_send * em->n_clients; vec_validate (em->data_thread_handles, em->n_rx_threads); vec_validate (em->data_thread_args, em->n_clients); for (i = 0; i < em->n_clients; i++) em->data_thread_args[i] = SESSION_INVALID_INDEX; clib_time_init (&em->clib_time); init_error_string_table (); fifo_segment_main_init (sm, HIGH_SEGMENT_BASEVA, 20); vec_validate (em->connect_test_data, em->tx_buf_size); for (i = 0; i < em->tx_buf_size; i++) em->connect_test_data[i] = i & 0xff; /* *INDENT-OFF* */ svm_msg_q_ring_cfg_t rc[1] = { {rpc_queue_size, sizeof (echo_rpc_msg_t), 0}, }; /* *INDENT-ON* */ cfg->consumer_pid = getpid (); cfg->n_rings = 1; cfg->q_nitems = rpc_queue_size; cfg->ring_cfgs = rc; svm_msg_q_attach (&em->rpc_msq_queue, svm_msg_q_alloc (cfg)); signal (SIGINT, stop_signal); signal (SIGQUIT, stop_signal); signal (SIGTERM, stop_signal); em->app_name = format (0, "%s%c", em->i_am_master ? "echo_server" : "echo_client", 0); if (connect_to_vpp (em)) { svm_region_exit (); ECHO_FAIL (ECHO_FAIL_CONNECT_TO_VPP, "Couldn't connect to vpp"); goto exit_on_error; } echo_session_prealloc (em); echo_notify_event (em, ECHO_EVT_START); if (echo_attach (em)) goto exit_on_error; if (echo_needs_crypto (em)) { ECHO_LOG (2, "Adding crypto context %U", echo_format_crypto_engine, em->crypto_engine); echo_add_cert_key (em); } else { em->state = STATE_ATTACHED; } if (pthread_create (&em->mq_thread_handle, NULL /*attr */, echo_mq_thread_fn, 0)) { ECHO_FAIL (ECHO_FAIL_PTHREAD_CREATE, "pthread create errored"); goto exit_on_error; } for (i = 0; i < em->n_rx_threads; i++) if (pthread_create (&em->data_thread_handles[i], NULL /*attr */ , echo_data_thread_fn, (void *) i)) { ECHO_FAIL (ECHO_FAIL_PTHREAD_CREATE, "pthread create errored (index %d)", i); goto exit_on_error; } if (em->i_am_master) server_run (em); else clients_run (em); echo_notify_event (em, ECHO_EVT_EXIT); echo_free_sessions (em); if (echo_needs_crypto (em)) { if (echo_del_cert_key (em)) goto exit_on_error; } if (echo_detach (em)) goto exit_on_error; pthread_join (em->mq_thread_handle, (void **) &rv); if (rv) { ECHO_FAIL (ECHO_FAIL_MQ_PTHREAD, "mq pthread errored %d", rv); goto exit_on_error; } echo_disconnect (em); echo_assert_test_suceeded (em); exit_on_error: ECHO_LOG (1, "Test complete !\n"); if (em->output_json) print_global_json_stats (em); else print_global_stats (em); vec_free (em->fail_descr); vec_free (em->available_proto_cb_vft); exit (em->has_failed); } /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */