print_link_info(struct link *link, char *out, size_t out_size)
{
struct rte_eth_stats stats;
- struct ether_addr mac_addr;
+ struct rte_ether_addr mac_addr;
struct rte_eth_link eth_link;
uint16_t mtu;
+ int ret;
memset(&stats, 0, sizeof(stats));
rte_eth_stats_get(link->port_id, &stats);
- rte_eth_macaddr_get(link->port_id, &mac_addr);
- rte_eth_link_get(link->port_id, ð_link);
+ ret = rte_eth_macaddr_get(link->port_id, &mac_addr);
+ if (ret != 0) {
+ snprintf(out, out_size, "\n%s: MAC address get failed: %s",
+ link->name, rte_strerror(-ret));
+ return;
+ }
+
+ ret = rte_eth_link_get(link->port_id, ð_link);
+ if (ret < 0) {
+ snprintf(out, out_size, "\n%s: link get failed: %s",
+ link->name, rte_strerror(-ret));
+ return;
+ }
+
rte_eth_dev_get_mtu(link->port_id, &mtu);
snprintf(out, out_size,
static const char cmd_tmgr_subport_profile_help[] =
"tmgr subport profile\n"
" <tb_rate> <tb_size>\n"
-" <tc0_rate> <tc1_rate> <tc2_rate> <tc3_rate>\n"
-" <tc_period>\n";
+" <tc0_rate> <tc1_rate> <tc2_rate> <tc3_rate> <tc4_rate>"
+" <tc5_rate> <tc6_rate> <tc7_rate> <tc8_rate>"
+" <tc9_rate> <tc10_rate> <tc11_rate> <tc12_rate>\n"
+" <tc_period>\n"
+" pps <n_pipes_per_subport>\n"
+" qsize <qsize_tc0> <qsize_tc1> <qsize_tc2>"
+" <qsize_tc3> <qsize_tc4> <qsize_tc5> <qsize_tc6>"
+" <qsize_tc7> <qsize_tc8> <qsize_tc9> <qsize_tc10>"
+" <qsize_tc11> <qsize_tc12>";
static void
cmd_tmgr_subport_profile(char **tokens,
struct rte_sched_subport_params p;
int status, i;
- if (n_tokens != 10) {
+ if (n_tokens != 35) {
snprintf(out, out_size, MSG_ARG_MISMATCH, tokens[0]);
return;
}
- if (parser_read_uint32(&p.tb_rate, tokens[3]) != 0) {
+ if (parser_read_uint64(&p.tb_rate, tokens[3]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tb_rate");
return;
}
- if (parser_read_uint32(&p.tb_size, tokens[4]) != 0) {
+ if (parser_read_uint64(&p.tb_size, tokens[4]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tb_size");
return;
}
for (i = 0; i < RTE_SCHED_TRAFFIC_CLASSES_PER_PIPE; i++)
- if (parser_read_uint32(&p.tc_rate[i], tokens[5 + i]) != 0) {
+ if (parser_read_uint64(&p.tc_rate[i], tokens[5 + i]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tc_rate");
return;
}
- if (parser_read_uint32(&p.tc_period, tokens[9]) != 0) {
+ if (parser_read_uint64(&p.tc_period, tokens[18]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tc_period");
return;
}
+ if (strcmp(tokens[19], "pps") != 0) {
+ snprintf(out, out_size, MSG_ARG_NOT_FOUND, "pps");
+ return;
+ }
+
+ if (parser_read_uint32(&p.n_pipes_per_subport_enabled, tokens[20]) != 0) {
+ snprintf(out, out_size, MSG_ARG_INVALID, "n_pipes_per_subport");
+ return;
+ }
+
+ if (strcmp(tokens[21], "qsize") != 0) {
+ snprintf(out, out_size, MSG_ARG_NOT_FOUND, "qsize");
+ return;
+ }
+
+ for (i = 0; i < RTE_SCHED_TRAFFIC_CLASSES_PER_PIPE; i++)
+ if (parser_read_uint16(&p.qsize[i], tokens[22 + i]) != 0) {
+ snprintf(out, out_size, MSG_ARG_INVALID, "qsize");
+ return;
+ }
+
status = tmgr_subport_profile_add(&p);
if (status != 0) {
snprintf(out, out_size, MSG_CMD_FAIL, tokens[0]);
static const char cmd_tmgr_pipe_profile_help[] =
"tmgr pipe profile\n"
" <tb_rate> <tb_size>\n"
-" <tc0_rate> <tc1_rate> <tc2_rate> <tc3_rate>\n"
+" <tc0_rate> <tc1_rate> <tc2_rate> <tc3_rate> <tc4_rate>"
+" <tc5_rate> <tc6_rate> <tc7_rate> <tc8_rate>"
+" <tc9_rate> <tc10_rate> <tc11_rate> <tc12_rate>\n"
" <tc_period>\n"
" <tc_ov_weight>\n"
-" <wrr_weight0..15>\n";
+" <wrr_weight0..3>\n";
static void
cmd_tmgr_pipe_profile(char **tokens,
struct rte_sched_pipe_params p;
int status, i;
- if (n_tokens != 27) {
+ if (n_tokens != 24) {
snprintf(out, out_size, MSG_ARG_MISMATCH, tokens[0]);
return;
}
- if (parser_read_uint32(&p.tb_rate, tokens[3]) != 0) {
+ if (parser_read_uint64(&p.tb_rate, tokens[3]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tb_rate");
return;
}
- if (parser_read_uint32(&p.tb_size, tokens[4]) != 0) {
+ if (parser_read_uint64(&p.tb_size, tokens[4]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tb_size");
return;
}
for (i = 0; i < RTE_SCHED_TRAFFIC_CLASSES_PER_PIPE; i++)
- if (parser_read_uint32(&p.tc_rate[i], tokens[5 + i]) != 0) {
+ if (parser_read_uint64(&p.tc_rate[i], tokens[5 + i]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tc_rate");
return;
}
- if (parser_read_uint32(&p.tc_period, tokens[9]) != 0) {
+ if (parser_read_uint64(&p.tc_period, tokens[18]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tc_period");
return;
}
-#ifdef RTE_SCHED_SUBPORT_TC_OV
- if (parser_read_uint8(&p.tc_ov_weight, tokens[10]) != 0) {
+ if (parser_read_uint8(&p.tc_ov_weight, tokens[19]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "tc_ov_weight");
return;
}
-#endif
- for (i = 0; i < RTE_SCHED_QUEUES_PER_PIPE; i++)
- if (parser_read_uint8(&p.wrr_weights[i], tokens[11 + i]) != 0) {
+ for (i = 0; i < RTE_SCHED_BE_QUEUES_PER_PIPE; i++)
+ if (parser_read_uint8(&p.wrr_weights[i], tokens[20 + i]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "wrr_weights");
return;
}
"tmgr <tmgr_name>\n"
" rate <rate>\n"
" spp <n_subports_per_port>\n"
-" pps <n_pipes_per_subport>\n"
-" qsize <qsize_tc0> <qsize_tc1> <qsize_tc2> <qsize_tc3>\n"
" fo <frame_overhead>\n"
" mtu <mtu>\n"
" cpu <cpu_id>\n";
struct tmgr_port_params p;
char *name;
struct tmgr_port *tmgr_port;
- int i;
- if (n_tokens != 19) {
+ if (n_tokens != 12) {
snprintf(out, out_size, MSG_ARG_MISMATCH, tokens[0]);
return;
}
return;
}
- if (parser_read_uint32(&p.rate, tokens[3]) != 0) {
+ if (parser_read_uint64(&p.rate, tokens[3]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "rate");
return;
}
return;
}
- if (strcmp(tokens[6], "pps") != 0) {
- snprintf(out, out_size, MSG_ARG_NOT_FOUND, "pps");
- return;
- }
-
- if (parser_read_uint32(&p.n_pipes_per_subport, tokens[7]) != 0) {
- snprintf(out, out_size, MSG_ARG_INVALID, "n_pipes_per_subport");
- return;
- }
-
- if (strcmp(tokens[8], "qsize") != 0) {
- snprintf(out, out_size, MSG_ARG_NOT_FOUND, "qsize");
- return;
- }
-
- for (i = 0; i < RTE_SCHED_TRAFFIC_CLASSES_PER_PIPE; i++)
- if (parser_read_uint16(&p.qsize[i], tokens[9 + i]) != 0) {
- snprintf(out, out_size, MSG_ARG_INVALID, "qsize");
- return;
- }
-
- if (strcmp(tokens[13], "fo") != 0) {
+ if (strcmp(tokens[6], "fo") != 0) {
snprintf(out, out_size, MSG_ARG_NOT_FOUND, "fo");
return;
}
- if (parser_read_uint32(&p.frame_overhead, tokens[14]) != 0) {
+ if (parser_read_uint32(&p.frame_overhead, tokens[7]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "frame_overhead");
return;
}
- if (strcmp(tokens[15], "mtu") != 0) {
+ if (strcmp(tokens[8], "mtu") != 0) {
snprintf(out, out_size, MSG_ARG_NOT_FOUND, "mtu");
return;
}
- if (parser_read_uint32(&p.mtu, tokens[16]) != 0) {
+ if (parser_read_uint32(&p.mtu, tokens[9]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "mtu");
return;
}
- if (strcmp(tokens[17], "cpu") != 0) {
+ if (strcmp(tokens[10], "cpu") != 0) {
snprintf(out, out_size, MSG_ARG_NOT_FOUND, "cpu");
return;
}
- if (parser_read_uint32(&p.cpu_id, tokens[18]) != 0) {
+ if (parser_read_uint32(&p.cpu_id, tokens[11]) != 0) {
snprintf(out, out_size, MSG_ARG_INVALID, "cpu_id");
return;
}
static const char cmd_cryptodev_help[] =
"cryptodev <cryptodev_name>\n"
" dev <device_name> | dev_id <device_id>\n"
-" queue <n_queues> <queue_size>\n";
+" queue <n_queues> <queue_size>\n"
+" max_sessions <n_sessions>";
static void
cmd_cryptodev(char **tokens,
char *name;
memset(¶ms, 0, sizeof(params));
- if (n_tokens != 7) {
+ if (n_tokens != 9) {
snprintf(out, out_size, MSG_ARG_MISMATCH, tokens[0]);
return;
}
if (strcmp(tokens[4], "queue")) {
snprintf(out, out_size, MSG_ARG_NOT_FOUND,
- "4");
+ "queue");
return;
}
return;
}
+ if (strcmp(tokens[7], "max_sessions")) {
+ snprintf(out, out_size, MSG_ARG_NOT_FOUND,
+ "max_sessions");
+ return;
+ }
+
+ if (parser_read_uint32(¶ms.session_pool_size, tokens[8]) < 0) {
+ snprintf(out, out_size, MSG_ARG_INVALID,
+ "queue_size");
+ return;
+ }
+
if (cryptodev_create(name, ¶ms) == NULL) {
snprintf(out, out_size, MSG_CMD_FAIL, tokens[0]);
return;
" tc <n_tc>\n"
" stats none | pkts | bytes | both]\n"
" [tm spp <n_subports_per_port> pps <n_pipes_per_subport>]\n"
-" [encap ether | vlan | qinq | mpls | pppoe |\n"
+" [encap ether | vlan | qinq | mpls | pppoe | qinq_pppoe \n"
" vxlan offset <ether_offset> ipv4 | ipv6 vlan on | off]\n"
" [nat src | dst\n"
" proto udp | tcp]\n"
" stats none | pkts]\n"
" [stats pkts | bytes | both]\n"
" [time]\n"
-" [sym_crypto dev <CRYPTODEV_NAME> offset <op_offset> "
-" mempool_create <mempool_name>\n"
-" mempool_init <mempool_name>]\n"
+" [sym_crypto dev <CRYPTODEV_NAME> offset <op_offset>]\n"
" [tag]\n"
" [decap]\n";
p.encap.encap_mask = 1LLU << RTE_TABLE_ACTION_ENCAP_VXLAN;
n_extra_tokens = 5;
- } else {
+ } else if (strcmp(tokens[t0 + 1], "qinq_pppoe") == 0)
+ p.encap.encap_mask =
+ 1LLU << RTE_TABLE_ACTION_ENCAP_QINQ_PPPOE;
+ else {
snprintf(out, out_size, MSG_ARG_MISMATCH, "encap");
return;
}
if ((t0 < n_tokens) && (strcmp(tokens[t0], "sym_crypto") == 0)) {
struct cryptodev *cryptodev;
- struct mempool *mempool;
- if (n_tokens < t0 + 9 ||
+ if (n_tokens < t0 + 5 ||
strcmp(tokens[t0 + 1], "dev") ||
- strcmp(tokens[t0 + 3], "offset") ||
- strcmp(tokens[t0 + 5], "mempool_create") ||
- strcmp(tokens[t0 + 7], "mempool_init")) {
+ strcmp(tokens[t0 + 3], "offset")) {
snprintf(out, out_size, MSG_ARG_MISMATCH,
"table action profile sym_crypto");
return;
return;
}
- mempool = mempool_find(tokens[t0 + 6]);
- if (mempool == NULL) {
- snprintf(out, out_size, MSG_ARG_INVALID,
- "table action profile sym_crypto");
- return;
- }
- p.sym_crypto.mp_create = mempool->m;
-
- mempool = mempool_find(tokens[t0 + 8]);
- if (mempool == NULL) {
- snprintf(out, out_size, MSG_ARG_INVALID,
- "table action profile sym_crypto");
- return;
- }
- p.sym_crypto.mp_init = mempool->m;
+ p.sym_crypto.mp_create = cryptodev->mp_create;
+ p.sym_crypto.mp_init = cryptodev->mp_init;
p.action_mask |= 1LLU << RTE_TABLE_ACTION_SYM_CRYPTO;
- t0 += 9;
+ t0 += 5;
} /* sym_crypto */
if ((t0 < n_tokens) && (strcmp(tokens[t0], "tag") == 0)) {
uint16_t svlan;
uint16_t ethertype_cvlan;
uint16_t cvlan;
-} __attribute__((__packed__));
+} __rte_packed;
struct pkt_key_ipv4_5tuple {
uint8_t time_to_live;
uint32_t da;
uint16_t sp;
uint16_t dp;
-} __attribute__((__packed__));
+} __rte_packed;
struct pkt_key_ipv6_5tuple {
uint16_t payload_length;
uint8_t da[16];
uint16_t sp;
uint16_t dp;
-} __attribute__((__packed__));
+} __rte_packed;
struct pkt_key_ipv4_addr {
uint32_t addr;
-} __attribute__((__packed__));
+} __rte_packed;
struct pkt_key_ipv6_addr {
uint8_t addr[16];
-} __attribute__((__packed__));
+} __rte_packed;
static uint32_t
parse_match(char **tokens,
* ether <da> <sa>
* | vlan <da> <sa> <pcp> <dei> <vid>
* | qinq <da> <sa> <pcp> <dei> <vid> <pcp> <dei> <vid>
+ * | qinq_pppoe <da> <sa> <pcp> <dei> <vid> <pcp> <dei> <vid> <session_id>
* | mpls unicast | multicast
* <da> <sa>
* label0 <label> <tc> <ttl>
parser_read_uint32(&mtr->meter_profile_id, tokens[1]) ||
strcmp(tokens[2], "policer") ||
strcmp(tokens[3], "g") ||
- parse_policer_action(tokens[4], &mtr->policer[e_RTE_METER_GREEN]) ||
+ parse_policer_action(tokens[4], &mtr->policer[RTE_COLOR_GREEN]) ||
strcmp(tokens[5], "y") ||
- parse_policer_action(tokens[6], &mtr->policer[e_RTE_METER_YELLOW]) ||
+ parse_policer_action(tokens[6], &mtr->policer[RTE_COLOR_YELLOW]) ||
strcmp(tokens[7], "r") ||
- parse_policer_action(tokens[8], &mtr->policer[e_RTE_METER_RED]))
+ parse_policer_action(tokens[8], &mtr->policer[RTE_COLOR_RED]))
return 0;
return 9;
return 1 + 9;
}
+ /* qinq_pppoe */
+ if (n_tokens && (strcmp(tokens[0], "qinq_pppoe") == 0)) {
+ uint32_t svlan_pcp, svlan_dei, svlan_vid;
+ uint32_t cvlan_pcp, cvlan_dei, cvlan_vid;
+
+ if ((n_tokens < 10) ||
+ parse_mac_addr(tokens[1],
+ &a->encap.qinq_pppoe.ether.da) ||
+ parse_mac_addr(tokens[2],
+ &a->encap.qinq_pppoe.ether.sa) ||
+ parser_read_uint32(&svlan_pcp, tokens[3]) ||
+ (svlan_pcp > 0x7) ||
+ parser_read_uint32(&svlan_dei, tokens[4]) ||
+ (svlan_dei > 0x1) ||
+ parser_read_uint32(&svlan_vid, tokens[5]) ||
+ (svlan_vid > 0xFFF) ||
+ parser_read_uint32(&cvlan_pcp, tokens[6]) ||
+ (cvlan_pcp > 0x7) ||
+ parser_read_uint32(&cvlan_dei, tokens[7]) ||
+ (cvlan_dei > 0x1) ||
+ parser_read_uint32(&cvlan_vid, tokens[8]) ||
+ (cvlan_vid > 0xFFF) ||
+ parser_read_uint16(&a->encap.qinq_pppoe.pppoe.session_id,
+ tokens[9]))
+ return 0;
+
+ a->encap.qinq_pppoe.svlan.pcp = svlan_pcp & 0x7;
+ a->encap.qinq_pppoe.svlan.dei = svlan_dei & 0x1;
+ a->encap.qinq_pppoe.svlan.vid = svlan_vid & 0xFFF;
+ a->encap.qinq_pppoe.cvlan.pcp = cvlan_pcp & 0x7;
+ a->encap.qinq_pppoe.cvlan.dei = cvlan_dei & 0x1;
+ a->encap.qinq_pppoe.cvlan.vid = cvlan_vid & 0xFFF;
+ a->encap.type = RTE_TABLE_ACTION_ENCAP_QINQ_PPPOE;
+ a->action_mask |= 1 << RTE_TABLE_ACTION_ENCAP;
+ return 1 + 10;
+
+ }
+
/* mpls */
if (n_tokens && (strcmp(tokens[0], "mpls") == 0)) {
uint32_t label, tc, ttl;
switch (xform[i]->type) {
case RTE_CRYPTO_SYM_XFORM_CIPHER:
- if (xform[i]->cipher.key.data)
- free(xform[i]->cipher.key.data);
if (p->cipher_auth.cipher_iv.val)
free(p->cipher_auth.cipher_iv.val);
if (p->cipher_auth.cipher_iv_update.val)
free(p->cipher_auth.cipher_iv_update.val);
break;
case RTE_CRYPTO_SYM_XFORM_AUTH:
- if (xform[i]->auth.key.data)
- free(xform[i]->cipher.key.data);
if (p->cipher_auth.auth_iv.val)
free(p->cipher_auth.cipher_iv.val);
if (p->cipher_auth.auth_iv_update.val)
free(p->cipher_auth.cipher_iv_update.val);
break;
case RTE_CRYPTO_SYM_XFORM_AEAD:
- if (xform[i]->aead.key.data)
- free(xform[i]->cipher.key.data);
if (p->aead.iv.val)
free(p->aead.iv.val);
if (p->aead.aad.val)
static struct rte_crypto_sym_xform *
parse_table_action_cipher(struct rte_table_action_sym_crypto_params *p,
- char **tokens, uint32_t n_tokens, uint32_t encrypt,
- uint32_t *used_n_tokens)
+ uint8_t *key, uint32_t max_key_len, char **tokens,
+ uint32_t n_tokens, uint32_t encrypt, uint32_t *used_n_tokens)
{
struct rte_crypto_sym_xform *xform_cipher;
int status;
/* cipher_key */
len = strlen(tokens[4]);
- xform_cipher->cipher.key.data = calloc(1, len / 2 + 1);
- if (xform_cipher->cipher.key.data == NULL)
+ if (len / 2 > max_key_len) {
+ status = -ENOMEM;
goto error_exit;
+ }
- status = parse_hex_string(tokens[4],
- xform_cipher->cipher.key.data,
- (uint32_t *)&len);
+ status = parse_hex_string(tokens[4], key, (uint32_t *)&len);
if (status < 0)
goto error_exit;
+ xform_cipher->cipher.key.data = key;
xform_cipher->cipher.key.length = (uint16_t)len;
/* cipher_iv */
return xform_cipher;
error_exit:
- if (xform_cipher->cipher.key.data)
- free(xform_cipher->cipher.key.data);
-
if (p->cipher_auth.cipher_iv.val) {
free(p->cipher_auth.cipher_iv.val);
p->cipher_auth.cipher_iv.val = NULL;
static struct rte_crypto_sym_xform *
parse_table_action_cipher_auth(struct rte_table_action_sym_crypto_params *p,
- char **tokens, uint32_t n_tokens, uint32_t encrypt,
- uint32_t *used_n_tokens)
+ uint8_t *key, uint32_t max_key_len, char **tokens,
+ uint32_t n_tokens, uint32_t encrypt, uint32_t *used_n_tokens)
{
struct rte_crypto_sym_xform *xform_cipher;
struct rte_crypto_sym_xform *xform_auth;
/* auth_key */
len = strlen(tokens[10]);
- xform_auth->auth.key.data = calloc(1, len / 2 + 1);
- if (xform_auth->auth.key.data == NULL)
+ if (len / 2 > max_key_len) {
+ status = -ENOMEM;
goto error_exit;
+ }
- status = parse_hex_string(tokens[10],
- xform_auth->auth.key.data, (uint32_t *)&len);
+ status = parse_hex_string(tokens[10], key, (uint32_t *)&len);
if (status < 0)
goto error_exit;
+ xform_auth->auth.key.data = key;
xform_auth->auth.key.length = (uint16_t)len;
+ key += xform_auth->auth.key.length;
+ max_key_len -= xform_auth->auth.key.length;
+
if (strcmp(tokens[11], "digest_size"))
goto error_exit;
if (status < 0)
goto error_exit;
- xform_cipher = parse_table_action_cipher(p, tokens, 7, encrypt,
- used_n_tokens);
+ xform_cipher = parse_table_action_cipher(p, key, max_key_len, tokens,
+ 7, encrypt, used_n_tokens);
if (xform_cipher == NULL)
goto error_exit;
}
error_exit:
- if (xform_auth->auth.key.data)
- free(xform_auth->auth.key.data);
if (p->cipher_auth.auth_iv.val) {
free(p->cipher_auth.auth_iv.val);
p->cipher_auth.auth_iv.val = 0;
static struct rte_crypto_sym_xform *
parse_table_action_aead(struct rte_table_action_sym_crypto_params *p,
- char **tokens, uint32_t n_tokens, uint32_t encrypt,
- uint32_t *used_n_tokens)
+ uint8_t *key, uint32_t max_key_len, char **tokens,
+ uint32_t n_tokens, uint32_t encrypt, uint32_t *used_n_tokens)
{
struct rte_crypto_sym_xform *xform_aead;
int status;
/* aead_key */
len = strlen(tokens[4]);
- xform_aead->aead.key.data = calloc(1, len / 2 + 1);
- if (xform_aead->aead.key.data == NULL)
+ if (len / 2 > max_key_len) {
+ status = -ENOMEM;
goto error_exit;
+ }
- status = parse_hex_string(tokens[4], xform_aead->aead.key.data,
- (uint32_t *)&len);
+ status = parse_hex_string(tokens[4], key, (uint32_t *)&len);
if (status < 0)
goto error_exit;
+ xform_aead->aead.key.data = key;
xform_aead->aead.key.length = (uint16_t)len;
/* aead_iv */
return xform_aead;
error_exit:
- if (xform_aead->aead.key.data)
- free(xform_aead->aead.key.data);
if (p->aead.iv.val) {
free(p->aead.iv.val);
p->aead.iv.val = NULL;
{
struct rte_table_action_sym_crypto_params *p = &a->sym_crypto;
struct rte_crypto_sym_xform *xform = NULL;
+ uint8_t *key = a->sym_crypto_key;
+ uint32_t max_key_len = SYM_CRYPTO_MAX_KEY_SIZE;
uint32_t used_n_tokens;
uint32_t encrypt;
int status;
tokens += 3;
n_tokens -= 3;
- xform = parse_table_action_cipher(p, tokens, n_tokens, encrypt,
- &used_n_tokens);
+ xform = parse_table_action_cipher(p, key, max_key_len, tokens,
+ n_tokens, encrypt, &used_n_tokens);
} else if (strcmp(tokens[3], "cipher_auth") == 0) {
tokens += 3;
n_tokens -= 3;
- xform = parse_table_action_cipher_auth(p, tokens, n_tokens,
- encrypt, &used_n_tokens);
+ xform = parse_table_action_cipher_auth(p, key, max_key_len,
+ tokens, n_tokens, encrypt, &used_n_tokens);
} else if (strcmp(tokens[3], "aead") == 0) {
tokens += 3;
n_tokens -= 3;
- xform = parse_table_action_aead(p, tokens, n_tokens, encrypt,
- &used_n_tokens);
+ xform = parse_table_action_aead(p, key, max_key_len, tokens,
+ n_tokens, encrypt, &used_n_tokens);
}
if (xform == NULL)
}
}
+static void
+ether_addr_show(FILE *f, struct rte_ether_addr *addr)
+{
+ fprintf(f, "%02x:%02x:%02x:%02x:%02x:%02x",
+ (uint32_t)addr->addr_bytes[0], (uint32_t)addr->addr_bytes[1],
+ (uint32_t)addr->addr_bytes[2], (uint32_t)addr->addr_bytes[3],
+ (uint32_t)addr->addr_bytes[4], (uint32_t)addr->addr_bytes[5]);
+}
+
+static void
+ipv4_addr_show(FILE *f, uint32_t addr)
+{
+ fprintf(f, "%u.%u.%u.%u",
+ addr >> 24,
+ (addr >> 16) & 0xFF,
+ (addr >> 8) & 0xFF,
+ addr & 0xFF);
+}
+
+static void
+ipv6_addr_show(FILE *f, uint8_t *addr)
+{
+ fprintf(f, "%02x%02x:%02x%02x:%02x%02x:%02x%02x:"
+ "%02x%02x:%02x%02x:%02x%02x:%02x%02x:",
+ (uint32_t)addr[0], (uint32_t)addr[1],
+ (uint32_t)addr[2], (uint32_t)addr[3],
+ (uint32_t)addr[4], (uint32_t)addr[5],
+ (uint32_t)addr[6], (uint32_t)addr[7],
+ (uint32_t)addr[8], (uint32_t)addr[9],
+ (uint32_t)addr[10], (uint32_t)addr[11],
+ (uint32_t)addr[12], (uint32_t)addr[13],
+ (uint32_t)addr[14], (uint32_t)addr[15]);
+}
+
+static const char *
+policer_action_string(enum rte_table_action_policer action) {
+ switch (action) {
+ case RTE_TABLE_ACTION_POLICER_COLOR_GREEN: return "G";
+ case RTE_TABLE_ACTION_POLICER_COLOR_YELLOW: return "Y";
+ case RTE_TABLE_ACTION_POLICER_COLOR_RED: return "R";
+ case RTE_TABLE_ACTION_POLICER_DROP: return "D";
+ default: return "?";
+ }
+}
+
+static int
+table_rule_show(const char *pipeline_name,
+ uint32_t table_id,
+ const char *file_name)
+{
+ struct pipeline *p;
+ struct table *table;
+ struct table_rule *rule;
+ FILE *f = NULL;
+ uint32_t i;
+
+ /* Check input params. */
+ if ((pipeline_name == NULL) ||
+ (file_name == NULL))
+ return -1;
+
+ p = pipeline_find(pipeline_name);
+ if ((p == NULL) ||
+ (table_id >= p->n_tables))
+ return -1;
+
+ table = &p->table[table_id];
+
+ /* Open file. */
+ f = fopen(file_name, "w");
+ if (f == NULL)
+ return -1;
+
+ /* Write table rules to file. */
+ TAILQ_FOREACH(rule, &table->rules, node) {
+ struct table_rule_match *m = &rule->match;
+ struct table_rule_action *a = &rule->action;
+
+ fprintf(f, "match ");
+ switch (m->match_type) {
+ case TABLE_ACL:
+ fprintf(f, "acl priority %u ",
+ m->match.acl.priority);
+
+ fprintf(f, m->match.acl.ip_version ? "ipv4 " : "ipv6 ");
+
+ if (m->match.acl.ip_version)
+ ipv4_addr_show(f, m->match.acl.ipv4.sa);
+ else
+ ipv6_addr_show(f, m->match.acl.ipv6.sa);
+
+ fprintf(f, "%u", m->match.acl.sa_depth);
+
+ if (m->match.acl.ip_version)
+ ipv4_addr_show(f, m->match.acl.ipv4.da);
+ else
+ ipv6_addr_show(f, m->match.acl.ipv6.da);
+
+ fprintf(f, "%u", m->match.acl.da_depth);
+
+ fprintf(f, "%u %u %u %u %u ",
+ (uint32_t)m->match.acl.sp0,
+ (uint32_t)m->match.acl.sp1,
+ (uint32_t)m->match.acl.dp0,
+ (uint32_t)m->match.acl.dp1,
+ (uint32_t)m->match.acl.proto);
+ break;
+
+ case TABLE_ARRAY:
+ fprintf(f, "array %u ",
+ m->match.array.pos);
+ break;
+
+ case TABLE_HASH:
+ fprintf(f, "hash raw ");
+ for (i = 0; i < table->params.match.hash.key_size; i++)
+ fprintf(f, "%02x", m->match.hash.key[i]);
+ fprintf(f, " ");
+ break;
+
+ case TABLE_LPM:
+ fprintf(f, "lpm ");
+
+ fprintf(f, m->match.lpm.ip_version ? "ipv4 " : "ipv6 ");
+
+ if (m->match.acl.ip_version)
+ ipv4_addr_show(f, m->match.lpm.ipv4);
+ else
+ ipv6_addr_show(f, m->match.lpm.ipv6);
+
+ fprintf(f, "%u ",
+ (uint32_t)m->match.lpm.depth);
+ break;
+
+ default:
+ fprintf(f, "unknown ");
+ }
+
+ fprintf(f, "action ");
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_FWD)) {
+ fprintf(f, "fwd ");
+ switch (a->fwd.action) {
+ case RTE_PIPELINE_ACTION_DROP:
+ fprintf(f, "drop ");
+ break;
+
+ case RTE_PIPELINE_ACTION_PORT:
+ fprintf(f, "port %u ", a->fwd.id);
+ break;
+
+ case RTE_PIPELINE_ACTION_PORT_META:
+ fprintf(f, "meta ");
+ break;
+
+ case RTE_PIPELINE_ACTION_TABLE:
+ default:
+ fprintf(f, "table %u ", a->fwd.id);
+ }
+ }
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_LB)) {
+ fprintf(f, "balance ");
+ for (i = 0; i < RTE_DIM(a->lb.out); i++)
+ fprintf(f, "%u ", a->lb.out[i]);
+ }
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_MTR)) {
+ fprintf(f, "mtr ");
+ for (i = 0; i < RTE_TABLE_ACTION_TC_MAX; i++)
+ if (a->mtr.tc_mask & (1 << i)) {
+ struct rte_table_action_mtr_tc_params *p =
+ &a->mtr.mtr[i];
+ enum rte_table_action_policer ga =
+ p->policer[RTE_COLOR_GREEN];
+ enum rte_table_action_policer ya =
+ p->policer[RTE_COLOR_YELLOW];
+ enum rte_table_action_policer ra =
+ p->policer[RTE_COLOR_RED];
+
+ fprintf(f, "tc%u meter %u policer g %s y %s r %s ",
+ i,
+ a->mtr.mtr[i].meter_profile_id,
+ policer_action_string(ga),
+ policer_action_string(ya),
+ policer_action_string(ra));
+ }
+ }
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_TM))
+ fprintf(f, "tm subport %u pipe %u ",
+ a->tm.subport_id,
+ a->tm.pipe_id);
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_ENCAP)) {
+ fprintf(f, "encap ");
+ switch (a->encap.type) {
+ case RTE_TABLE_ACTION_ENCAP_ETHER:
+ fprintf(f, "ether ");
+ ether_addr_show(f, &a->encap.ether.ether.da);
+ fprintf(f, " ");
+ ether_addr_show(f, &a->encap.ether.ether.sa);
+ fprintf(f, " ");
+ break;
+
+ case RTE_TABLE_ACTION_ENCAP_VLAN:
+ fprintf(f, "vlan ");
+ ether_addr_show(f, &a->encap.vlan.ether.da);
+ fprintf(f, " ");
+ ether_addr_show(f, &a->encap.vlan.ether.sa);
+ fprintf(f, " pcp %u dei %u vid %u ",
+ a->encap.vlan.vlan.pcp,
+ a->encap.vlan.vlan.dei,
+ a->encap.vlan.vlan.vid);
+ break;
+
+ case RTE_TABLE_ACTION_ENCAP_QINQ:
+ fprintf(f, "qinq ");
+ ether_addr_show(f, &a->encap.qinq.ether.da);
+ fprintf(f, " ");
+ ether_addr_show(f, &a->encap.qinq.ether.sa);
+ fprintf(f, " pcp %u dei %u vid %u pcp %u dei %u vid %u ",
+ a->encap.qinq.svlan.pcp,
+ a->encap.qinq.svlan.dei,
+ a->encap.qinq.svlan.vid,
+ a->encap.qinq.cvlan.pcp,
+ a->encap.qinq.cvlan.dei,
+ a->encap.qinq.cvlan.vid);
+ break;
+
+ case RTE_TABLE_ACTION_ENCAP_MPLS:
+ fprintf(f, "mpls %s ", (a->encap.mpls.unicast) ?
+ "unicast " : "multicast ");
+ ether_addr_show(f, &a->encap.mpls.ether.da);
+ fprintf(f, " ");
+ ether_addr_show(f, &a->encap.mpls.ether.sa);
+ fprintf(f, " ");
+ for (i = 0; i < a->encap.mpls.mpls_count; i++) {
+ struct rte_table_action_mpls_hdr *l =
+ &a->encap.mpls.mpls[i];
+
+ fprintf(f, "label%u %u %u %u ",
+ i,
+ l->label,
+ l->tc,
+ l->ttl);
+ }
+ break;
+
+ case RTE_TABLE_ACTION_ENCAP_PPPOE:
+ fprintf(f, "pppoe ");
+ ether_addr_show(f, &a->encap.pppoe.ether.da);
+ fprintf(f, " ");
+ ether_addr_show(f, &a->encap.pppoe.ether.sa);
+ fprintf(f, " %u ", a->encap.pppoe.pppoe.session_id);
+ break;
+
+ case RTE_TABLE_ACTION_ENCAP_VXLAN:
+ fprintf(f, "vxlan ether ");
+ ether_addr_show(f, &a->encap.vxlan.ether.da);
+ fprintf(f, " ");
+ ether_addr_show(f, &a->encap.vxlan.ether.sa);
+ if (table->ap->params.encap.vxlan.vlan)
+ fprintf(f, " vlan pcp %u dei %u vid %u ",
+ a->encap.vxlan.vlan.pcp,
+ a->encap.vxlan.vlan.dei,
+ a->encap.vxlan.vlan.vid);
+ if (table->ap->params.encap.vxlan.ip_version) {
+ fprintf(f, " ipv4 ");
+ ipv4_addr_show(f, a->encap.vxlan.ipv4.sa);
+ fprintf(f, " ");
+ ipv4_addr_show(f, a->encap.vxlan.ipv4.da);
+ fprintf(f, " %u %u ",
+ (uint32_t)a->encap.vxlan.ipv4.dscp,
+ (uint32_t)a->encap.vxlan.ipv4.ttl);
+ } else {
+ fprintf(f, " ipv6 ");
+ ipv6_addr_show(f, a->encap.vxlan.ipv6.sa);
+ fprintf(f, " ");
+ ipv6_addr_show(f, a->encap.vxlan.ipv6.da);
+ fprintf(f, " %u %u %u ",
+ a->encap.vxlan.ipv6.flow_label,
+ (uint32_t)a->encap.vxlan.ipv6.dscp,
+ (uint32_t)a->encap.vxlan.ipv6.hop_limit);
+ fprintf(f, " udp %u %u vxlan %u ",
+ a->encap.vxlan.udp.sp,
+ a->encap.vxlan.udp.dp,
+ a->encap.vxlan.vxlan.vni);
+ }
+ break;
+
+ default:
+ fprintf(f, "unknown ");
+ }
+ }
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_NAT)) {
+ fprintf(f, "nat %s ", (a->nat.ip_version) ? "ipv4 " : "ipv6 ");
+ if (a->nat.ip_version)
+ ipv4_addr_show(f, a->nat.addr.ipv4);
+ else
+ ipv6_addr_show(f, a->nat.addr.ipv6);
+ fprintf(f, " %u ", (uint32_t)(a->nat.port));
+ }
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_TTL))
+ fprintf(f, "ttl %s ", (a->ttl.decrement) ? "dec" : "keep");
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_STATS))
+ fprintf(f, "stats ");
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_TIME))
+ fprintf(f, "time ");
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_SYM_CRYPTO))
+ fprintf(f, "sym_crypto ");
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_TAG))
+ fprintf(f, "tag %u ", a->tag.tag);
+
+ if (a->action_mask & (1LLU << RTE_TABLE_ACTION_DECAP))
+ fprintf(f, "decap %u ", a->decap.n);
+
+ /* end */
+ fprintf(f, "\n");
+ }
+
+ /* Write table default rule to file. */
+ if (table->rule_default) {
+ struct table_rule_action *a = &table->rule_default->action;
+
+ fprintf(f, "# match default action fwd ");
+
+ switch (a->fwd.action) {
+ case RTE_PIPELINE_ACTION_DROP:
+ fprintf(f, "drop ");
+ break;
+
+ case RTE_PIPELINE_ACTION_PORT:
+ fprintf(f, "port %u ", a->fwd.id);
+ break;
+
+ case RTE_PIPELINE_ACTION_PORT_META:
+ fprintf(f, "meta ");
+ break;
+
+ case RTE_PIPELINE_ACTION_TABLE:
+ default:
+ fprintf(f, "table %u ", a->fwd.id);
+ }
+ } else
+ fprintf(f, "# match default action fwd drop ");
+
+ fprintf(f, "\n");
+
+ /* Close file. */
+ fclose(f);
+
+ return 0;
+}
+
+static const char cmd_pipeline_table_rule_show_help[] =
+"pipeline <pipeline_name> table <table_id> rule show\n"
+" file <file_name>\n";
+
+static void
+cmd_pipeline_table_rule_show(char **tokens,
+ uint32_t n_tokens,
+ char *out,
+ size_t out_size)
+{
+ char *file_name = NULL, *pipeline_name;
+ uint32_t table_id;
+ int status;
+
+ if (n_tokens != 8) {
+ snprintf(out, out_size, MSG_ARG_MISMATCH, tokens[0]);
+ return;
+ }
+
+ pipeline_name = tokens[1];
+
+ if (strcmp(tokens[2], "table") != 0) {
+ snprintf(out, out_size, MSG_ARG_NOT_FOUND, "table");
+ return;
+ }
+
+ if (parser_read_uint32(&table_id, tokens[3]) != 0) {
+ snprintf(out, out_size, MSG_ARG_INVALID, "table_id");
+ return;
+ }
+
+ if (strcmp(tokens[4], "rule") != 0) {
+ snprintf(out, out_size, MSG_ARG_NOT_FOUND, "rule");
+ return;
+ }
+
+ if (strcmp(tokens[5], "show") != 0) {
+ snprintf(out, out_size, MSG_ARG_NOT_FOUND, "show");
+ return;
+ }
+
+ if (strcmp(tokens[6], "file") != 0) {
+ snprintf(out, out_size, MSG_ARG_NOT_FOUND, "file");
+ return;
+ }
+
+ file_name = tokens[7];
+
+ status = table_rule_show(pipeline_name, table_id, file_name);
+ if (status) {
+ snprintf(out, out_size, MSG_CMD_FAIL, tokens[0]);
+ return;
+ }
+}
static const char cmd_pipeline_table_rule_stats_read_help[] =
"pipeline <pipeline_name> table <table_id> rule read stats [clear]\n"
for (dscp = 0, l = 1; ; l++) {
char line[64];
char *tokens[3];
- enum rte_meter_color color;
+ enum rte_color color;
uint32_t tc_id, tc_queue_id, n_tokens = RTE_DIM(tokens);
if (fgets(line, sizeof(line), f) == NULL)
switch (tokens[2][0]) {
case 'g':
case 'G':
- color = e_RTE_METER_GREEN;
+ color = RTE_COLOR_GREEN;
break;
case 'y':
case 'Y':
- color = e_RTE_METER_YELLOW;
+ color = RTE_COLOR_YELLOW;
break;
case 'r':
case 'R':
- color = e_RTE_METER_RED;
+ color = RTE_COLOR_RED;
break;
default:
"\tpipeline table rule add bulk\n"
"\tpipeline table rule delete\n"
"\tpipeline table rule delete default\n"
+ "\tpipeline table rule show\n"
"\tpipeline table rule stats read\n"
"\tpipeline table meter profile add\n"
"\tpipeline table meter profile delete\n"
return;
}
+ if ((n_tokens == 4) &&
+ (strcmp(tokens[2], "rule") == 0) &&
+ (strcmp(tokens[3], "show") == 0)) {
+ snprintf(out, out_size, "\n%s\n",
+ cmd_pipeline_table_rule_show_help);
+ return;
+ }
+
if ((n_tokens == 5) &&
(strcmp(tokens[2], "rule") == 0) &&
(strcmp(tokens[3], "stats") == 0) &&
return;
}
+ if ((n_tokens >= 6) &&
+ (strcmp(tokens[2], "table") == 0) &&
+ (strcmp(tokens[4], "rule") == 0) &&
+ (strcmp(tokens[5], "show") == 0)) {
+ cmd_pipeline_table_rule_show(tokens, n_tokens,
+ out, out_size);
+ return;
+ }
+
if ((n_tokens >= 7) &&
(strcmp(tokens[2], "table") == 0) &&
(strcmp(tokens[4], "rule") == 0) &&
return 0;
cli_rule_file_process_free:
- *rule_list = NULL;
- *n_rules = rule_id;
- *line_number = line_id;
+ if (rule_list != NULL)
+ *rule_list = NULL;
- for ( ; ; ) {
- struct table_rule *rule;
+ if (n_rules != NULL)
+ *n_rules = rule_id;
- rule = TAILQ_FIRST(list);
- if (rule == NULL)
- break;
+ if (line_number != NULL)
+ *line_number = line_id;
- TAILQ_REMOVE(list, rule, node);
- free(rule);
- }
+ if (list != NULL)
+ for ( ; ; ) {
+ struct table_rule *rule;
+
+ rule = TAILQ_FIRST(list);
+ if (rule == NULL)
+ break;
+
+ TAILQ_REMOVE(list, rule, node);
+ free(rule);
+ }
if (f)
fclose(f);