/* * Copyright (c) 2017 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 #include #include #include #include #include #include #include #define SOCK_SERVER_USE_EPOLL 1 #define VPPCOM_SESSION_ATTR_UNIT_TEST 0 #if SOCK_SERVER_USE_EPOLL #include #if !defined(VCL_TEST) #include #endif #endif #ifdef VCL_TEST #if VPPCOM_SESSION_ATTR_UNIT_TEST #define BUFLEN sizeof (uint64_t) * 16 uint64_t buffer[16]; uint32_t buflen = BUFLEN; uint32_t *flags = (uint32_t *) buffer; #endif #endif typedef struct { uint8_t is_alloc; int fd; uint8_t *buf; uint32_t buf_size; vcl_test_cfg_t cfg; vcl_test_stats_t stats; #ifdef VCL_TEST vppcom_endpt_t endpt; uint8_t ip[16]; #endif } sock_server_conn_t; typedef struct { uint32_t port; uint32_t address_ip6; uint32_t transport_udp; } sock_server_cfg_t; #define SOCK_SERVER_MAX_TEST_CONN 10 #define SOCK_SERVER_MAX_EPOLL_EVENTS 10 typedef struct { int listen_fd; sock_server_cfg_t cfg; #if SOCK_SERVER_USE_EPOLL int epfd; struct epoll_event listen_ev; struct epoll_event wait_events[SOCK_SERVER_MAX_EPOLL_EVENTS]; #if !defined (VCL_TEST) int af_unix_listen_fd; int af_unix_fd; struct epoll_event af_unix_listen_ev; struct sockaddr_un serveraddr; uint32_t af_unix_xacts; #endif #endif size_t num_conn; size_t conn_pool_size; sock_server_conn_t *conn_pool; int nfds; fd_set rd_fdset; fd_set wr_fdset; struct timeval timeout; } sock_server_main_t; sock_server_main_t sock_server_main; #if ! SOCK_SERVER_USE_EPOLL static inline int get_nfds (void) { sock_server_main_t *ssm = &sock_server_main; int i, nfds; for (nfds = i = 0; i < FD_SETSIZE; i++) { if (FD_ISSET (i, &ssm->rd_fdset) || FD_ISSET (i, &ssm->wr_fdset)) nfds = i + 1; } return nfds; } static inline void conn_fdset_set (sock_server_conn_t * conn, fd_set * fdset) { sock_server_main_t *ssm = &sock_server_main; FD_SET (conn->fd, fdset); ssm->nfds = get_nfds (); } static inline void conn_fdset_clr (sock_server_conn_t * conn, fd_set * fdset) { sock_server_main_t *ssm = &sock_server_main; FD_CLR (conn->fd, fdset); ssm->nfds = get_nfds (); } #endif static inline void conn_pool_expand (size_t expand_size) { sock_server_main_t *ssm = &sock_server_main; sock_server_conn_t *conn_pool; size_t new_size = ssm->conn_pool_size + expand_size; int i; conn_pool = realloc (ssm->conn_pool, new_size * sizeof (*ssm->conn_pool)); if (conn_pool) { for (i = ssm->conn_pool_size; i < new_size; i++) { sock_server_conn_t *conn = &conn_pool[i]; memset (conn, 0, sizeof (*conn)); vcl_test_cfg_init (&conn->cfg); vcl_test_buf_alloc (&conn->cfg, 1 /* is_rxbuf */ , &conn->buf, &conn->buf_size); conn->cfg.txbuf_size = conn->cfg.rxbuf_size; } ssm->conn_pool = conn_pool; ssm->conn_pool_size = new_size; } else { int errno_val = errno; perror ("ERROR in conn_pool_expand()"); fprintf (stderr, "SERVER: ERROR: Memory allocation " "failed (errno = %d)!\n", errno_val); } } static inline sock_server_conn_t * conn_pool_alloc (void) { sock_server_main_t *ssm = &sock_server_main; int i; for (i = 0; i < ssm->conn_pool_size; i++) { if (!ssm->conn_pool[i].is_alloc) { #ifdef VCL_TEST ssm->conn_pool[i].endpt.ip = ssm->conn_pool[i].ip; #endif ssm->conn_pool[i].is_alloc = 1; return (&ssm->conn_pool[i]); } } return 0; } static inline void conn_pool_free (sock_server_conn_t * conn) { #if ! SOCK_SERVER_USE_EPOLL sock_server_main_t *ssm = &sock_server_main; conn_fdset_clr (conn, &ssm->rd_fdset); conn_fdset_clr (conn, &ssm->wr_fdset); #endif conn->fd = 0; conn->is_alloc = 0; } static inline void sync_config_and_reply (sock_server_conn_t * conn, vcl_test_cfg_t * rx_cfg) { conn->cfg = *rx_cfg; vcl_test_buf_alloc (&conn->cfg, 1 /* is_rxbuf */ , &conn->buf, &conn->buf_size); conn->cfg.txbuf_size = conn->cfg.rxbuf_size; if (conn->cfg.verbose) { printf ("\nSERVER (fd %d): Replying to cfg message!\n", conn->fd); vcl_test_cfg_dump (&conn->cfg, 0 /* is_client */ ); } (void) sock_test_write (conn->fd, (uint8_t *) & conn->cfg, sizeof (conn->cfg), NULL, conn->cfg.verbose); } static void stream_test_server_start_stop (sock_server_conn_t * conn, vcl_test_cfg_t * rx_cfg) { sock_server_main_t *ssm = &sock_server_main; int client_fd = conn->fd; vcl_test_t test = rx_cfg->test; if (rx_cfg->ctrl_handle == conn->fd) { int i; clock_gettime (CLOCK_REALTIME, &conn->stats.stop); for (i = 0; i < ssm->conn_pool_size; i++) { sock_server_conn_t *tc = &ssm->conn_pool[i]; if (tc->cfg.ctrl_handle == conn->fd) { vcl_test_stats_accumulate (&conn->stats, &tc->stats); if (conn->cfg.verbose) { static char buf[64]; sprintf (buf, "SERVER (fd %d) RESULTS", tc->fd); vcl_test_stats_dump (buf, &tc->stats, 1 /* show_rx */ , test == VCL_TEST_TYPE_BI /* show tx */ , conn->cfg.verbose); } } } vcl_test_stats_dump ("SERVER RESULTS", &conn->stats, 1 /* show_rx */ , (test == VCL_TEST_TYPE_BI) /* show_tx */ , conn->cfg.verbose); vcl_test_cfg_dump (&conn->cfg, 0 /* is_client */ ); if (conn->cfg.verbose) { printf (" sock server main\n" VCL_TEST_SEPARATOR_STRING " buf: %p\n" " buf size: %u (0x%08x)\n" VCL_TEST_SEPARATOR_STRING, conn->buf, conn->buf_size, conn->buf_size); } sync_config_and_reply (conn, rx_cfg); printf ("\nSERVER (fd %d): %s-directional Stream Test Complete!\n" SOCK_TEST_BANNER_STRING "\n", conn->fd, test == VCL_TEST_TYPE_BI ? "Bi" : "Uni"); } else { printf ("\n" SOCK_TEST_BANNER_STRING "SERVER (fd %d): %s-directional Stream Test!\n" " Sending client the test cfg to start streaming data...\n", client_fd, test == VCL_TEST_TYPE_BI ? "Bi" : "Uni"); rx_cfg->ctrl_handle = (rx_cfg->ctrl_handle == ~0) ? conn->fd : rx_cfg->ctrl_handle; sync_config_and_reply (conn, rx_cfg); /* read the 1st chunk, record start time */ memset (&conn->stats, 0, sizeof (conn->stats)); clock_gettime (CLOCK_REALTIME, &conn->stats.start); } } static inline void stream_test_server (sock_server_conn_t * conn, int rx_bytes) { int client_fd = conn->fd; vcl_test_t test = conn->cfg.test; if (test == VCL_TEST_TYPE_BI) (void) sock_test_write (client_fd, conn->buf, rx_bytes, &conn->stats, conn->cfg.verbose); if (conn->stats.rx_bytes >= conn->cfg.total_bytes) { clock_gettime (CLOCK_REALTIME, &conn->stats.stop); } } #if SOCK_SERVER_USE_EPOLL && !defined (VCL_TEST) static inline void af_unix_echo (void) { sock_server_main_t *ssm = &sock_server_main; int af_unix_client_fd; int rv; int errno_val; uint8_t buffer[256]; size_t nbytes = strlen (SOCK_TEST_MIXED_EPOLL_DATA) + 1; #if HAVE_ACCEPT4 af_unix_client_fd = accept4 (ssm->af_unix_listen_fd, (struct sockaddr *) NULL, NULL, NULL); #else af_unix_client_fd = accept (ssm->af_unix_listen_fd, (struct sockaddr *) NULL, NULL); #endif if (af_unix_client_fd < 0) { errno_val = errno; perror ("ERROR in af_unix_accept()"); fprintf (stderr, "SERVER: ERROR: accept failed " "(errno = %d)!\n", errno_val); return; } printf ("SERVER: Got an AF_UNIX connection -- fd = %d (0x%08x)!\n", af_unix_client_fd, af_unix_client_fd); memset (buffer, 0, sizeof (buffer)); rv = read (af_unix_client_fd, buffer, nbytes); if (rv < 0) { errno_val = errno; perror ("ERROR in af_unix_echo(): read() failed"); fprintf (stderr, "SERVER: ERROR: read(af_unix_client_fd %d (0x%x), " "\"%s\", nbytes %lu) failed (errno = %d)!\n", af_unix_client_fd, af_unix_client_fd, buffer, nbytes, errno_val); goto done; } printf ("SERVER (AF_UNIX): RX (%d bytes) - '%s'\n", rv, buffer); if (!strncmp (SOCK_TEST_MIXED_EPOLL_DATA, (const char *) buffer, nbytes)) { rv = write (af_unix_client_fd, buffer, nbytes); if (rv < 0) { errno_val = errno; perror ("ERROR in af_unix_echo(): write() failed"); fprintf (stderr, "SERVER: ERROR: write(af_unix_client_fd %d (0x%x), " "\"%s\", nbytes %ld) failed (errno = %d)!\n", af_unix_client_fd, af_unix_client_fd, buffer, nbytes, errno_val); goto done; } printf ("SERVER (AF_UNIX): TX (%d bytes) - '%s'\n", rv, buffer); ssm->af_unix_xacts++; } done: close (af_unix_client_fd); } #endif static inline void new_client (void) { sock_server_main_t *ssm = &sock_server_main; int client_fd; sock_server_conn_t *conn; if (ssm->conn_pool_size < (ssm->num_conn + SOCK_SERVER_MAX_TEST_CONN + 1)) conn_pool_expand (SOCK_SERVER_MAX_TEST_CONN + 1); conn = conn_pool_alloc (); if (!conn) { fprintf (stderr, "\nSERVER: ERROR: No free connections!\n"); return; } #ifdef VCL_TEST client_fd = vppcom_session_accept (ssm->listen_fd, &conn->endpt, 0); if (client_fd < 0) errno = -client_fd; #elif HAVE_ACCEPT4 client_fd = accept4 (ssm->listen_fd, (struct sockaddr *) NULL, NULL, NULL); #else client_fd = accept (ssm->listen_fd, (struct sockaddr *) NULL, NULL); #endif if (client_fd < 0) { int errno_val; errno_val = errno; perror ("ERROR in new_client()"); fprintf (stderr, "SERVER: ERROR: accept failed " "(errno = %d)!\n", errno_val); return; } printf ("SERVER: Got a connection -- fd = %d (0x%08x)!\n", client_fd, client_fd); conn->fd = client_fd; #if ! SOCK_SERVER_USE_EPOLL conn_fdset_set (conn, &ssm->rd_fdset); ssm->nfds++; #else { struct epoll_event ev; int rv; ev.events = EPOLLIN; ev.data.u64 = conn - ssm->conn_pool; #ifdef VCL_TEST rv = vppcom_epoll_ctl (ssm->epfd, EPOLL_CTL_ADD, client_fd, &ev); if (rv) errno = -rv; #else rv = epoll_ctl (ssm->epfd, EPOLL_CTL_ADD, client_fd, &ev); #endif if (rv < 0) { int errno_val; errno_val = errno; perror ("ERROR in new_client()"); fprintf (stderr, "SERVER: ERROR: epoll_ctl failed (errno = %d)!\n", errno_val); } else ssm->nfds++; } #endif } void print_usage_and_exit (void) { fprintf (stderr, "sock_test_server [OPTIONS] \n" " OPTIONS\n" " -h Print this message and exit.\n" " -6 Use IPv6\n" " -u Use UDP transport layer\n"); exit (1); } int main (int argc, char **argv) { sock_server_main_t *ssm = &sock_server_main; int client_fd, rv, main_rv = 0; int tx_bytes, rx_bytes, nbytes; sock_server_conn_t *conn; vcl_test_cfg_t *rx_cfg; uint32_t xtra = 0; uint64_t xtra_bytes = 0; struct sockaddr_storage servaddr; int errno_val; int c, v, i; uint16_t port = VCL_TEST_SERVER_PORT; #if ! SOCK_SERVER_USE_EPOLL fd_set _rfdset, *rfdset = &_rfdset; #endif #ifdef VCL_TEST vppcom_endpt_t endpt; #else uint32_t servaddr_size; #if ! SOCK_SERVER_USE_EPOLL fd_set _wfdset, *wfdset = &_wfdset; #endif #endif opterr = 0; while ((c = getopt (argc, argv, "6D")) != -1) switch (c) { case '6': ssm->cfg.address_ip6 = 1; break; case 'D': ssm->cfg.transport_udp = 1; break; case '?': switch (optopt) { default: if (isprint (optopt)) fprintf (stderr, "SERVER: ERROR: Unknown " "option `-%c'.\n", optopt); else fprintf (stderr, "SERVER: ERROR: Unknown " "option character `\\x%x'.\n", optopt); } /* fall thru */ case 'h': default: print_usage_and_exit (); } if (argc < (optind + 1)) { fprintf (stderr, "SERVER: ERROR: Insufficient number of arguments!\n"); print_usage_and_exit (); } if (sscanf (argv[optind], "%d", &v) == 1) port = (uint16_t) v; else { fprintf (stderr, "SERVER: ERROR: Invalid port (%s)!\n", argv[optind]); print_usage_and_exit (); } conn_pool_expand (SOCK_SERVER_MAX_TEST_CONN + 1); #ifdef VCL_TEST rv = vppcom_app_create ("vcl_test_server"); if (rv) { errno = -rv; ssm->listen_fd = -1; } else { ssm->listen_fd = vppcom_session_create (ssm->cfg.transport_udp ? VPPCOM_PROTO_UDP : VPPCOM_PROTO_TCP, 0 /* is_nonblocking */ ); } #else ssm->listen_fd = socket (ssm->cfg.address_ip6 ? AF_INET6 : AF_INET, ssm->cfg.transport_udp ? SOCK_DGRAM : SOCK_STREAM, 0); #if SOCK_SERVER_USE_EPOLL && !defined (VCL_TEST) unlink ((const char *) SOCK_TEST_AF_UNIX_FILENAME); ssm->af_unix_listen_fd = socket (AF_UNIX, SOCK_STREAM, 0); if (ssm->af_unix_listen_fd < 0) { errno_val = errno; perror ("ERROR in main(): socket(AF_UNIX) failed"); fprintf (stderr, "SERVER: ERROR: socket(AF_UNIX, SOCK_STREAM, 0) failed " "(errno = %d)!\n", errno_val); return ssm->af_unix_listen_fd; } memset (&ssm->serveraddr, 0, sizeof (ssm->serveraddr)); ssm->serveraddr.sun_family = AF_UNIX; strcpy (ssm->serveraddr.sun_path, SOCK_TEST_AF_UNIX_FILENAME); rv = bind (ssm->af_unix_listen_fd, (struct sockaddr *) &ssm->serveraddr, SUN_LEN (&ssm->serveraddr)); if (rv < 0) { errno_val = errno; perror ("ERROR in main(): bind(SOCK_TEST_AF_UNIX_FILENAME) failed"); fprintf (stderr, "SERVER: ERROR: bind() fd %d, \"%s\": " "failed (errno = %d)!\n", ssm->af_unix_listen_fd, SOCK_TEST_AF_UNIX_FILENAME, errno_val); close (ssm->af_unix_listen_fd); unlink ((const char *) SOCK_TEST_AF_UNIX_FILENAME); return rv; } rv = listen (ssm->af_unix_listen_fd, 10); if (rv < 0) { errno_val = errno; perror ("ERROR in main(): listen(AF_UNIX) failed"); fprintf (stderr, "SERVER: ERROR: listen() fd %d, \"%s\": " "failed (errno = %d)!\n", ssm->af_unix_listen_fd, SOCK_TEST_AF_UNIX_FILENAME, errno_val); close (ssm->af_unix_listen_fd); unlink ((const char *) SOCK_TEST_AF_UNIX_FILENAME); return rv; } #endif /* SOCK_SERVER_USE_EPOLL */ #endif if (ssm->listen_fd < 0) { errno_val = errno; perror ("ERROR in main()"); fprintf (stderr, "SERVER: ERROR: socket() failed " "(errno = %d)!\n", errno_val); return ssm->listen_fd; } memset (&servaddr, 0, sizeof (servaddr)); if (ssm->cfg.address_ip6) { struct sockaddr_in6 *server_addr = (struct sockaddr_in6 *) &servaddr; #ifndef VCL_TEST servaddr_size = sizeof (*server_addr); #endif server_addr->sin6_family = AF_INET6; server_addr->sin6_addr = in6addr_any; server_addr->sin6_port = htons (port); } else { struct sockaddr_in *server_addr = (struct sockaddr_in *) &servaddr; #ifndef VCL_TEST servaddr_size = sizeof (*server_addr); #endif server_addr->sin_family = AF_INET; server_addr->sin_addr.s_addr = htonl (INADDR_ANY); server_addr->sin_port = htons (port); } #ifdef VCL_TEST if (ssm->cfg.address_ip6) { struct sockaddr_in6 *server_addr = (struct sockaddr_in6 *) &servaddr; endpt.is_ip4 = 0; endpt.ip = (uint8_t *) & server_addr->sin6_addr; endpt.port = (uint16_t) server_addr->sin6_port; } else { struct sockaddr_in *server_addr = (struct sockaddr_in *) &servaddr; endpt.is_ip4 = 1; endpt.ip = (uint8_t *) & server_addr->sin_addr; endpt.port = (uint16_t) server_addr->sin_port; } rv = vppcom_session_bind (ssm->listen_fd, &endpt); if (rv) { errno = -rv; rv = -1; } #else rv = bind (ssm->listen_fd, (struct sockaddr *) &servaddr, servaddr_size); #endif if (rv < 0) { errno_val = errno; perror ("ERROR in main()"); fprintf (stderr, "SERVER: ERROR: bind failed (errno = %d)!\n", errno_val); return rv; } #ifdef VCL_TEST rv = vppcom_session_listen (ssm->listen_fd, 10); if (rv) { errno = -rv; rv = -1; } #else rv = listen (ssm->listen_fd, 10); #endif if (rv < 0) { errno_val = errno; perror ("ERROR in main()"); fprintf (stderr, "SERVER: ERROR: listen failed " "(errno = %d)!\n", errno_val); return rv; } #if ! SOCK_SERVER_USE_EPOLL FD_ZERO (&ssm->wr_fdset); FD_ZERO (&ssm->rd_fdset); FD_SET (ssm->listen_fd, &ssm->rd_fdset); ssm->nfds = ssm->listen_fd + 1; #else #ifdef VCL_TEST ssm->epfd = vppcom_epoll_create (); if (ssm->epfd < 0) errno = -ssm->epfd; #else ssm->epfd = epoll_create (1); #endif if (ssm->epfd < 0) { errno_val = errno; perror ("ERROR in main()"); fprintf (stderr, "SERVER: ERROR: epoll_create failed (errno = %d)!\n", errno_val); return ssm->epfd; } ssm->listen_ev.events = EPOLLIN; ssm->listen_ev.data.u32 = ~0; #ifdef VCL_TEST rv = vppcom_epoll_ctl (ssm->epfd, EPOLL_CTL_ADD, ssm->listen_fd, &ssm->listen_ev); if (rv < 0) errno = -rv; #else ssm->af_unix_listen_ev.events = EPOLLIN; ssm->af_unix_listen_ev.data.u32 = SOCK_TEST_AF_UNIX_ACCEPT_DATA; rv = epoll_ctl (ssm->epfd, EPOLL_CTL_ADD, ssm->af_unix_listen_fd, &ssm->af_unix_listen_ev); if (rv < 0) { errno_val = errno; perror ("ERROR in main(): mixed epoll_ctl(EPOLL_CTL_ADD)"); fprintf (stderr, "SERVER: ERROR: mixed epoll_ctl(epfd %d (0x%x), " "EPOLL_CTL_ADD, af_unix_listen_fd %d (0x%x), EPOLLIN) failed " "(errno = %d)!\n", ssm->epfd, ssm->epfd, ssm->af_unix_listen_fd, ssm->af_unix_listen_fd, errno_val); close (ssm->af_unix_listen_fd); unlink ((const char *) SOCK_TEST_AF_UNIX_FILENAME); return rv; } rv = epoll_ctl (ssm->epfd, EPOLL_CTL_ADD, ssm->listen_fd, &ssm->listen_ev); #endif if (rv < 0) { errno_val = errno; perror ("ERROR in main()"); fprintf (stderr, "SERVER: ERROR: epoll_ctl failed " "(errno = %d)!\n", errno_val); return rv; } #endif printf ("\nSERVER: Waiting for a client to connect on port %d...\n", port); while (1) { #if ! SOCK_SERVER_USE_EPOLL _rfdset = ssm->rd_fdset; #ifdef VCL_TEST rv = vppcom_select (ssm->nfds, (uint64_t *) rfdset, NULL, NULL, 0); #else { struct timeval timeout; timeout = ssm->timeout; _wfdset = ssm->wr_fdset; rv = select (ssm->nfds, rfdset, wfdset, NULL, &timeout); } #endif if (rv < 0) { perror ("select()"); fprintf (stderr, "\nSERVER: ERROR: select() failed -- aborting!\n"); main_rv = -1; goto done; } else if (rv == 0) continue; if (FD_ISSET (ssm->listen_fd, rfdset)) new_client (); for (i = 0; i < ssm->conn_pool_size; i++) { if (!ssm->conn_pool[i].is_alloc) continue; conn = &ssm->conn_pool[i]; #else int num_ev; #ifdef VCL_TEST num_ev = vppcom_epoll_wait (ssm->epfd, ssm->wait_events, SOCK_SERVER_MAX_EPOLL_EVENTS, 60.0); if (num_ev < 0) errno = -num_ev; #else num_ev = epoll_wait (ssm->epfd, ssm->wait_events, SOCK_SERVER_MAX_EPOLL_EVENTS, 60000); #endif if (num_ev < 0) { perror ("epoll_wait()"); fprintf (stderr, "\nSERVER: ERROR: epoll_wait() " "failed -- aborting!\n"); main_rv = -1; goto done; } if (num_ev == 0) { fprintf (stderr, "\nSERVER: epoll_wait() timeout!\n"); continue; } for (i = 0; i < num_ev; i++) { conn = &ssm->conn_pool[ssm->wait_events[i].data.u32]; if (ssm->wait_events[i].events & (EPOLLHUP | EPOLLRDHUP)) { #ifdef VCL_TEST vppcom_session_close (conn->fd); #else close (conn->fd); #endif continue; } if (ssm->wait_events[i].data.u32 == ~0) { new_client (); continue; } #if !defined (VCL_TEST) else if (ssm->wait_events[i].data.u32 == SOCK_TEST_AF_UNIX_ACCEPT_DATA) { af_unix_echo (); continue; } #endif #endif client_fd = conn->fd; #if ! SOCK_SERVER_USE_EPOLL if (FD_ISSET (client_fd, rfdset)) #else if (EPOLLIN & ssm->wait_events[i].events) #endif { read_again: rx_bytes = sock_test_read (client_fd, conn->buf, conn->buf_size, &conn->stats); if (rx_bytes > 0) { rx_cfg = (vcl_test_cfg_t *) conn->buf; if (rx_cfg->magic == VCL_TEST_CFG_CTRL_MAGIC) { if (rx_cfg->verbose) { printf ("SERVER (fd %d): Received a cfg message!\n", client_fd); vcl_test_cfg_dump (rx_cfg, 0 /* is_client */ ); } if (rx_bytes != sizeof (*rx_cfg)) { printf ("SERVER (fd %d): Invalid cfg message " "size (%d)!\n Should be %lu bytes.\n", client_fd, rx_bytes, sizeof (*rx_cfg)); conn->cfg.rxbuf_size = 0; conn->cfg.num_writes = 0; if (conn->cfg.verbose) { printf ("SERVER (fd %d): Replying to " "cfg message!\n", client_fd); vcl_test_cfg_dump (rx_cfg, 0 /* is_client */ ); } sock_test_write (client_fd, (uint8_t *) & conn->cfg, sizeof (conn->cfg), NULL, conn->cfg.verbose); continue; } switch (rx_cfg->test) { case VCL_TEST_TYPE_NONE: case VCL_TEST_TYPE_ECHO: sync_config_and_reply (conn, rx_cfg); break; case VCL_TEST_TYPE_BI: case VCL_TEST_TYPE_UNI: stream_test_server_start_stop (conn, rx_cfg); break; case VCL_TEST_TYPE_EXIT: printf ("SERVER: Have a great day, " "connection %d!\n", client_fd); #ifdef VCL_TEST vppcom_session_close (client_fd); #else close (client_fd); #endif conn_pool_free (conn); printf ("SERVER: Closed client fd %d\n", client_fd); #if ! SOCK_SERVER_USE_EPOLL if (ssm->nfds == (ssm->listen_fd + 1)) #else ssm->nfds--; if (!ssm->nfds) #endif { printf ("SERVER: All client connections " "closed.\n\nSERVER: " "May the force be with you!\n\n"); goto done; } break; default: fprintf (stderr, "SERVER: ERROR: Unknown test type!\n"); vcl_test_cfg_dump (rx_cfg, 0 /* is_client */ ); break; } continue; } else if ((conn->cfg.test == VCL_TEST_TYPE_UNI) || (conn->cfg.test == VCL_TEST_TYPE_BI)) { stream_test_server (conn, rx_bytes); if (ioctl (conn->fd, FIONREAD)) goto read_again; continue; } else if (isascii (conn->buf[0])) { // If it looks vaguely like a string, make sure it's terminated ((char *) conn->buf)[rx_bytes < conn->buf_size ? rx_bytes : conn->buf_size - 1] = 0; printf ("SERVER (fd %d): RX (%d bytes) - '%s'\n", conn->fd, rx_bytes, conn->buf); } } else // rx_bytes < 0 { if (errno == ECONNRESET) { printf ("\nSERVER: Connection reset by remote peer.\n" " Y'all have a great day now!\n\n"); break; } else continue; } if (isascii (conn->buf[0])) { /* If it looks vaguely like a string, * make sure it's terminated */ ((char *) conn->buf)[rx_bytes < conn->buf_size ? rx_bytes : conn->buf_size - 1] = 0; if (xtra) fprintf (stderr, "SERVER: ERROR: " "FIFO not drained in previous test!\n" " extra chunks %u (0x%x)\n" " extra bytes %lu (0x%lx)\n", xtra, xtra, xtra_bytes, xtra_bytes); xtra = 0; xtra_bytes = 0; if (conn->cfg.verbose) printf ("SERVER (fd %d): Echoing back\n", client_fd); nbytes = strlen ((const char *) conn->buf) + 1; tx_bytes = sock_test_write (client_fd, conn->buf, nbytes, &conn->stats, conn->cfg.verbose); if (tx_bytes >= 0) printf ("SERVER (fd %d): TX (%d bytes) - '%s'\n", conn->fd, tx_bytes, conn->buf); } else // Extraneous read data from non-echo tests??? { xtra++; xtra_bytes += rx_bytes; } } } } done: #ifdef VCL_TEST vppcom_session_close (ssm->listen_fd); vppcom_app_destroy (); #else close (ssm->listen_fd); #if SOCK_SERVER_USE_EPOLL && !defined (VCL_TEST) close (ssm->af_unix_listen_fd); unlink ((const char *) SOCK_TEST_AF_UNIX_FILENAME); #endif /* SOCK_SERVER_USE_EPOLL */ #endif if (ssm->conn_pool) free (ssm->conn_pool); return main_rv; } /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */