Fix IPsec intf tx node setup at intf creation - vpp

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author	Matthew Smith <mgsmith@netgate.com>	2018-07-05 14:45:58 -0500
committer	Damjan Marion <dmarion@me.com>	2018-07-08 11:22:17 +0000
commit	0e36bbfd1b058b4febe895bad3d254851194ad6c (patch)
tree	f9da50cd132b03071fac16f36d5ee37aae142b90 /src/vnet/plugin
parent	7b13e0df704b5262a4602c51126a4f12ff00ca35 (diff)

Fix IPsec intf tx node setup at intf creation

When using a DPDK cryptodev with IPsec, sending outbound packets results in a crash on division by zero if using an algorithm not supported by the OpenSSL ESP nodes. This includes AES-GCM and MD5. At IPsec intf creation time, the next node at slot IPSEC_OUTPUT_NEXT_ESP_ENCRYPT for ipsec_if_tx_node_fn is set to the node named esp-encrypt. This is the OpenSSL ESP encrypt function. If DPDK cryptodevs are configured, dpdk-esp-encrypt is the correct next node. Change to setting the next node according to the value in ipsec_main.esp_encrypt_node_index. That value is set to esp-encrypt by default. If DPDK cryptodevs are configured it gets set to dpdk-esp-encrypt. Change-Id: I83896c76b975d74aead247a162c85eccca9575a8 Signed-off-by: Matthew Smith <mgsmith@netgate.com>

Diffstat (limited to 'src/vnet/plugin')

0 files changed, 0 insertions, 0 deletions

/* * 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. */ #ifndef __sock_test_h__ #define __sock_test_h__ #include <netdb.h> #include <errno.h> #include <stdlib.h> #include <string.h> #define SOCK_TEST_TOKEN_HELP "#H" #define SOCK_TEST_TOKEN_EXIT "#X" #define SOCK_TEST_TOKEN_VERBOSE "#V" #define SOCK_TEST_TOKEN_TXBUF_SIZE "#T:" #define SOCK_TEST_TOKEN_NUM_TEST_SCKTS "#I:" #define SOCK_TEST_TOKEN_NUM_WRITES "#N:" #define SOCK_TEST_TOKEN_RXBUF_SIZE "#R:" #define SOCK_TEST_TOKEN_SHOW_CFG "#C" #define SOCK_TEST_TOKEN_RUN_UNI "#U" #define SOCK_TEST_TOKEN_RUN_BI "#B" #define SOCK_TEST_BANNER_STRING \ "============================================\n" #define SOCK_TEST_SEPARATOR_STRING \ " -----------------------------\n" #define ONE_GIG (1024*1024*1024) #define SOCK_TEST_SERVER_PORT 22000 #define SOCK_TEST_LOCALHOST_IPADDR "127.0.0.1" #define SOCK_TEST_CFG_CTRL_MAGIC 0xfeedface #define SOCK_TEST_CFG_NUM_WRITES_DEF 1000000 #define SOCK_TEST_CFG_TXBUF_SIZE_DEF 8192 #define SOCK_TEST_CFG_RXBUF_SIZE_DEF (64*SOCK_TEST_CFG_TXBUF_SIZE_DEF) #define SOCK_TEST_CFG_BUF_SIZE_MIN 128 #define SOCK_TEST_CFG_MAX_TEST_SCKTS 5 typedef enum { SOCK_TEST_TYPE_NONE, SOCK_TEST_TYPE_ECHO, SOCK_TEST_TYPE_UNI, SOCK_TEST_TYPE_BI, SOCK_TEST_TYPE_EXIT, } sock_test_t; typedef struct __attribute__ ((packed)) { uint32_t magic; uint32_t test; uint32_t ctrl_handle; uint32_t num_test_sockets; uint32_t verbose; uint64_t rxbuf_size; uint64_t txbuf_size; uint64_t num_writes; uint64_t total_bytes; } sock_test_cfg_t; typedef struct { uint64_t rx_xacts; uint64_t rx_bytes; uint32_t rx_eagain; uint32_t rx_incomp; uint64_t tx_xacts; uint64_t tx_bytes; uint32_t tx_eagain; uint32_t tx_incomp; struct timespec start; struct timespec stop; } sock_test_stats_t; typedef struct { int fd; uint32_t txbuf_size; char *txbuf; uint32_t rxbuf_size; char *rxbuf; sock_test_cfg_t cfg; sock_test_stats_t stats; } sock_test_socket_t; static inline void sock_test_stats_accumulate (sock_test_stats_t * accum, sock_test_stats_t * incr) { accum->rx_xacts += incr->rx_xacts; accum->rx_bytes += incr->rx_bytes; accum->rx_eagain += incr->rx_eagain; accum->rx_incomp += incr->rx_incomp; accum->tx_xacts += incr->tx_xacts; accum->tx_bytes += incr->tx_bytes; accum->tx_eagain += incr->tx_eagain; accum->tx_incomp += incr->tx_incomp; } static inline void sock_test_cfg_init (sock_test_cfg_t *cfg) { cfg->magic = SOCK_TEST_CFG_CTRL_MAGIC; cfg->test = SOCK_TEST_TYPE_NONE; cfg->ctrl_handle = ~0; cfg->num_test_sockets = 1; cfg->verbose = 0; cfg->rxbuf_size = SOCK_TEST_CFG_RXBUF_SIZE_DEF; cfg->num_writes = SOCK_TEST_CFG_NUM_WRITES_DEF; cfg->txbuf_size = SOCK_TEST_CFG_TXBUF_SIZE_DEF; cfg->total_bytes = cfg->num_writes * cfg->txbuf_size; } static inline int sock_test_cfg_verify (sock_test_cfg_t *cfg, sock_test_cfg_t *valid_cfg) { /* Note: txbuf & rxbuf on server are the same buffer, * so txbuf_size is not included in this check. */ return ((cfg->magic == valid_cfg->magic) && (cfg->test == valid_cfg->test) && (cfg->verbose == valid_cfg->verbose) && (cfg->rxbuf_size == valid_cfg->rxbuf_size) && (cfg->num_writes == valid_cfg->num_writes) && (cfg->total_bytes == valid_cfg->total_bytes)); } static inline void sock_test_buf_alloc (sock_test_cfg_t *cfg, uint8_t is_rxbuf, uint8_t **buf, uint32_t *bufsize) { uint32_t alloc_size = is_rxbuf ? cfg->rxbuf_size : cfg->txbuf_size; uint8_t *lb = realloc (*buf, (size_t) alloc_size); if (lb) { if (is_rxbuf) cfg->rxbuf_size = *bufsize = alloc_size; else cfg->txbuf_size = *bufsize = alloc_size; *buf = lb; } else { int errno_val = errno; perror ("ERROR in sock_test_buf_alloc()"); fprintf (stderr, "ERROR: Buffer allocation failed (errno = %d)!\n" " Using buffer size %d instead of desired" " size (%d)\n", errno_val, *bufsize, alloc_size); } } static inline void sock_test_socket_buf_alloc (sock_test_socket_t *socket) { socket->rxbuf_size = socket->cfg.rxbuf_size; socket->txbuf_size = socket->cfg.txbuf_size; sock_test_buf_alloc (&socket->cfg, 0 /* is_rxbuf */ , (uint8_t **) &socket->txbuf, &socket->txbuf_size); sock_test_buf_alloc (&socket->cfg, 1 /* is_rxbuf */ , (uint8_t **) &socket->rxbuf, &socket->rxbuf_size); } static inline char * sock_test_type_str (sock_test_t t) { switch (t) { case SOCK_TEST_TYPE_NONE: return "NONE"; case SOCK_TEST_TYPE_ECHO: return "ECHO"; case SOCK_TEST_TYPE_UNI: return "UNI"; case SOCK_TEST_TYPE_BI: return "BI"; case SOCK_TEST_TYPE_EXIT: return "EXIT"; default: return "Unknown"; } } static inline void sock_test_cfg_dump (sock_test_cfg_t * cfg, uint8_t is_client) { char *spc = " "; printf (" test config (%p):\n" SOCK_TEST_SEPARATOR_STRING " magic: 0x%08x\n" "%-5s test: %s (%d)\n" " ctrl handle: %d (0x%x)\n" "%-5s num test sockets: %u (0x%08x)\n" "%-5s verbose: %s (%d)\n" "%-5s rxbuf size: %lu (0x%08lx)\n" "%-5s txbuf size: %lu (0x%08lx)\n" "%-5s num writes: %lu (0x%08lx)\n" " client tx bytes: %lu (0x%08lx)\n" SOCK_TEST_SEPARATOR_STRING, (void *) cfg, cfg->magic, is_client && (cfg->test == SOCK_TEST_TYPE_UNI) ? "'"SOCK_TEST_TOKEN_RUN_UNI"'" : is_client && (cfg->test == SOCK_TEST_TYPE_BI) ? "'"SOCK_TEST_TOKEN_RUN_BI"'" : spc, sock_test_type_str (cfg->test), cfg->test, cfg->ctrl_handle, cfg->ctrl_handle, is_client ? "'"SOCK_TEST_TOKEN_NUM_TEST_SCKTS"'" : spc, cfg->num_test_sockets, cfg->num_test_sockets, is_client ? "'"SOCK_TEST_TOKEN_VERBOSE"'" : spc, cfg->verbose ? "on" : "off", cfg->verbose, is_client ? "'"SOCK_TEST_TOKEN_RXBUF_SIZE"'" : spc, cfg->rxbuf_size, cfg->rxbuf_size, is_client ? "'"SOCK_TEST_TOKEN_TXBUF_SIZE"'" : spc, cfg->txbuf_size, cfg->txbuf_size, is_client ? "'"SOCK_TEST_TOKEN_NUM_WRITES"'" : spc, cfg->num_writes, cfg->num_writes, cfg->total_bytes, cfg->total_bytes); } static inline void sock_test_stats_dump (char * header, sock_test_stats_t * stats, uint8_t show_rx, uint8_t show_tx, uint8_t verbose) { struct timespec diff; double duration, rate; uint64_t total_bytes; if ((stats->stop.tv_nsec - stats->start.tv_nsec) < 0) { diff.tv_sec = stats->stop.tv_sec - stats->start.tv_sec - 1; diff.tv_nsec = stats->stop.tv_nsec - stats->start.tv_nsec + 1000000000; } else { diff.tv_sec = stats->stop.tv_sec - stats->start.tv_sec; diff.tv_nsec = stats->stop.tv_nsec - stats->start.tv_nsec; } duration = (double) diff.tv_sec + (1e-9 * diff.tv_nsec); total_bytes = stats->tx_bytes + stats->rx_bytes; rate = (double) total_bytes * 8 / duration / ONE_GIG; printf ("\n%s: Streamed %lu bytes\n" " in %lf seconds (%lf Gbps %s-duplex)!\n", header, total_bytes, duration, rate, (show_rx && show_tx) ? "full" : "half"); if (show_tx) { printf (SOCK_TEST_SEPARATOR_STRING " tx stats (0x%p):\n" SOCK_TEST_SEPARATOR_STRING " writes: %lu (0x%08lx)\n" " tx bytes: %lu (0x%08lx)\n" " tx eagain: %u (0x%08x)\n" " tx incomplete: %u (0x%08x)\n", (void *)stats, stats->tx_xacts, stats->tx_xacts, stats->tx_bytes, stats->tx_bytes, stats->tx_eagain, stats->tx_eagain, stats->tx_incomp, stats->tx_incomp); } if (show_rx) { printf (SOCK_TEST_SEPARATOR_STRING " rx stats (0x%p):\n" SOCK_TEST_SEPARATOR_STRING " reads: %lu (0x%08lx)\n" " rx bytes: %lu (0x%08lx)\n" " rx eagain: %u (0x%08x)\n" " rx incomplete: %u (0x%08x)\n", (void *)stats, stats->rx_xacts, stats->rx_xacts, stats->rx_bytes, stats->rx_bytes, stats->rx_eagain, stats->rx_eagain, stats->rx_incomp, stats->rx_incomp); } if (verbose) printf (" start.tv_sec: %ld\n" " start.tv_nsec: %ld\n" " stop.tv_sec: %ld\n" " stop.tv_nsec: %ld\n", stats->start.tv_sec, stats->start.tv_nsec, stats->stop.tv_sec, stats->stop.tv_nsec); printf (SOCK_TEST_SEPARATOR_STRING); } static inline int sock_test_read (int fd, uint8_t *buf, uint32_t nbytes, sock_test_stats_t *stats) { int rx_bytes, errno_val; do { if (stats) stats->rx_xacts++; #ifdef VCL_TEST rx_bytes = vppcom_session_read (fd, buf, nbytes); if (rx_bytes < 0) { errno = -rx_bytes; rx_bytes = -1; } #else rx_bytes = read (fd, buf, nbytes); #endif if (stats) { if ((rx_bytes == 0) || ((rx_bytes < 0) && ((errno == EAGAIN) || (errno == EWOULDBLOCK)))) stats->rx_eagain++; else if (rx_bytes < nbytes) stats->rx_incomp++; } } while ((rx_bytes == 0) || ((rx_bytes < 0) && ((errno == EAGAIN) || (errno == EWOULDBLOCK)))); if (rx_bytes < 0) { errno_val = errno; perror ("ERROR in sock_test_read()"); fprintf (stderr, "ERROR: socket read failed (errno = %d)!\n", errno_val); errno = errno_val; } else if (stats) stats->rx_bytes += rx_bytes; return (rx_bytes); } static inline int sock_test_write (int fd, uint8_t *buf, uint32_t nbytes, sock_test_stats_t *stats, uint32_t verbose) { int tx_bytes = 0; int nbytes_left = nbytes; int rv, errno_val; do { if (stats) stats->tx_xacts++; #ifdef VCL_TEST rv = vppcom_session_write (fd, buf, nbytes_left); if (rv < 0) { errno = -rv; rv = -1; } #else rv = write (fd, buf, nbytes_left); #endif if (rv < 0) { if ((errno == EAGAIN) || (errno == EWOULDBLOCK)) { if (stats) stats->tx_eagain++; continue; } else break; } tx_bytes += rv; if (tx_bytes != nbytes) { nbytes_left = nbytes_left - rv; if (stats) stats->tx_incomp++; if (verbose) { printf ("WARNING: bytes written (%d) != bytes to write (%d)!\n", tx_bytes, nbytes); } } } while (tx_bytes != nbytes); if (tx_bytes < 0) { errno_val = errno; perror ("ERROR in sock_test_write()"); fprintf (stderr, "ERROR: socket write failed (errno = %d)!\n", errno_val); } else if (stats) stats->tx_bytes += tx_bytes; return (tx_bytes); } #endif /* __sock_test_h__ */


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