/*
- * Copyright (c) 2009, 2010, 2011 Nicira Networks.
+ * Copyright (c) 2009, 2010, 2011, 2012 Nicira, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
/* Fields in a rule. */
#define CLS_FIELDS \
- /* struct flow all-caps */ \
- /* FWW_* bit(s) member name name */ \
- /* -------------------------- ----------- -------- */ \
- CLS_FIELD(0, tun_id, TUN_ID) \
- CLS_FIELD(0, nw_src, NW_SRC) \
- CLS_FIELD(0, nw_dst, NW_DST) \
- CLS_FIELD(FWW_IN_PORT, in_port, IN_PORT) \
- CLS_FIELD(0, vlan_tci, VLAN_TCI) \
- CLS_FIELD(FWW_DL_TYPE, dl_type, DL_TYPE) \
- CLS_FIELD(FWW_TP_SRC, tp_src, TP_SRC) \
- CLS_FIELD(FWW_TP_DST, tp_dst, TP_DST) \
- CLS_FIELD(FWW_DL_SRC, dl_src, DL_SRC) \
- CLS_FIELD(FWW_DL_DST | FWW_ETH_MCAST, dl_dst, DL_DST) \
- CLS_FIELD(FWW_NW_PROTO, nw_proto, NW_PROTO) \
- CLS_FIELD(FWW_NW_DSCP, nw_tos, NW_DSCP)
+ /* struct flow all-caps */ \
+ /* member name name */ \
+ /* ----------- -------- */ \
+ CLS_FIELD(tun_id, TUN_ID) \
+ CLS_FIELD(metadata, METADATA) \
+ CLS_FIELD(nw_src, NW_SRC) \
+ CLS_FIELD(nw_dst, NW_DST) \
+ CLS_FIELD(in_port, IN_PORT) \
+ CLS_FIELD(vlan_tci, VLAN_TCI) \
+ CLS_FIELD(dl_type, DL_TYPE) \
+ CLS_FIELD(tp_src, TP_SRC) \
+ CLS_FIELD(tp_dst, TP_DST) \
+ CLS_FIELD(dl_src, DL_SRC) \
+ CLS_FIELD(dl_dst, DL_DST) \
+ CLS_FIELD(nw_proto, NW_PROTO) \
+ CLS_FIELD(nw_tos, NW_DSCP)
/* Field indexes.
*
* (These are also indexed into struct classifier's 'tables' array.) */
enum {
-#define CLS_FIELD(WILDCARDS, MEMBER, NAME) CLS_F_IDX_##NAME,
+#define CLS_FIELD(MEMBER, NAME) CLS_F_IDX_##NAME,
CLS_FIELDS
#undef CLS_FIELD
CLS_N_FIELDS
struct cls_field {
int ofs; /* Offset in struct flow. */
int len; /* Length in bytes. */
- flow_wildcards_t wildcards; /* FWW_* bit or bits for this field. */
const char *name; /* Name (for debugging). */
};
static const struct cls_field cls_fields[CLS_N_FIELDS] = {
-#define CLS_FIELD(WILDCARDS, MEMBER, NAME) \
+#define CLS_FIELD(MEMBER, NAME) \
{ offsetof(struct flow, MEMBER), \
sizeof ((struct flow *)0)->MEMBER, \
- WILDCARDS, \
#NAME },
CLS_FIELDS
#undef CLS_FIELD
return rule ? CONTAINER_OF(rule, struct test_rule, cls_rule) : NULL;
}
+static struct test_rule *make_rule(int wc_fields, unsigned int priority,
+ int value_pat);
+static void free_rule(struct test_rule *);
+static struct test_rule *clone_rule(const struct test_rule *);
+
/* Trivial (linear) classifier. */
struct tcls {
size_t n_rules;
{
size_t i;
- assert(!flow_wildcards_is_exact(&rule->cls_rule.wc)
- || rule->cls_rule.priority == UINT_MAX);
for (i = 0; i < tcls->n_rules; i++) {
const struct cls_rule *pos = &tcls->rules[i]->cls_rule;
if (cls_rule_equal(pos, &rule->cls_rule)) {
/* Exact match. */
- free(tcls->rules[i]);
- tcls->rules[i] = xmemdup(rule, sizeof *rule);
+ free_rule(tcls->rules[i]);
+ tcls->rules[i] = clone_rule(rule);
return tcls->rules[i];
} else if (pos->priority < rule->cls_rule.priority) {
break;
memmove(&tcls->rules[i + 1], &tcls->rules[i],
sizeof *tcls->rules * (tcls->n_rules - i));
}
- tcls->rules[i] = xmemdup(rule, sizeof *rule);
+ tcls->rules[i] = clone_rule(rule);
tcls->n_rules++;
return tcls->rules[i];
}
int f_idx;
for (f_idx = 0; f_idx < CLS_N_FIELDS; f_idx++) {
- const struct cls_field *f = &cls_fields[f_idx];
bool eq;
- if (f->wildcards) {
- void *wild_field = (char *) &wild->flow + f->ofs;
- void *fixed_field = (char *) fixed + f->ofs;
- eq = ((wild->wc.wildcards & f->wildcards) == f->wildcards
- || !memcmp(wild_field, fixed_field, f->len));
- } else if (f_idx == CLS_F_IDX_NW_SRC) {
- eq = !((fixed->nw_src ^ wild->flow.nw_src) & wild->wc.nw_src_mask);
+ if (f_idx == CLS_F_IDX_NW_SRC) {
+ eq = !((fixed->nw_src ^ wild->match.flow.nw_src)
+ & wild->match.wc.masks.nw_src);
} else if (f_idx == CLS_F_IDX_NW_DST) {
- eq = !((fixed->nw_dst ^ wild->flow.nw_dst) & wild->wc.nw_dst_mask);
+ eq = !((fixed->nw_dst ^ wild->match.flow.nw_dst)
+ & wild->match.wc.masks.nw_dst);
+ } else if (f_idx == CLS_F_IDX_TP_SRC) {
+ eq = !((fixed->tp_src ^ wild->match.flow.tp_src)
+ & wild->match.wc.masks.tp_src);
+ } else if (f_idx == CLS_F_IDX_TP_DST) {
+ eq = !((fixed->tp_dst ^ wild->match.flow.tp_dst)
+ & wild->match.wc.masks.tp_dst);
+ } else if (f_idx == CLS_F_IDX_DL_SRC) {
+ eq = eth_addr_equal_except(fixed->dl_src, wild->match.flow.dl_src,
+ wild->match.wc.masks.dl_src);
+ } else if (f_idx == CLS_F_IDX_DL_DST) {
+ eq = eth_addr_equal_except(fixed->dl_dst, wild->match.flow.dl_dst,
+ wild->match.wc.masks.dl_dst);
} else if (f_idx == CLS_F_IDX_VLAN_TCI) {
- eq = !((fixed->vlan_tci ^ wild->flow.vlan_tci)
- & wild->wc.vlan_tci_mask);
+ eq = !((fixed->vlan_tci ^ wild->match.flow.vlan_tci)
+ & wild->match.wc.masks.vlan_tci);
} else if (f_idx == CLS_F_IDX_TUN_ID) {
- eq = !((fixed->tun_id ^ wild->flow.tun_id) & wild->wc.tun_id_mask);
+ eq = !((fixed->tun_id ^ wild->match.flow.tun_id)
+ & wild->match.wc.masks.tun_id);
+ } else if (f_idx == CLS_F_IDX_METADATA) {
+ eq = !((fixed->metadata ^ wild->match.flow.metadata)
+ & wild->match.wc.masks.metadata);
} else if (f_idx == CLS_F_IDX_NW_DSCP) {
- eq = !((fixed->nw_tos ^ wild->flow.nw_tos) & IP_DSCP_MASK);
+ eq = !((fixed->nw_tos ^ wild->match.flow.nw_tos) &
+ (wild->match.wc.masks.nw_tos & IP_DSCP_MASK));
+ } else if (f_idx == CLS_F_IDX_NW_PROTO) {
+ eq = !((fixed->nw_proto ^ wild->match.flow.nw_proto)
+ & wild->match.wc.masks.nw_proto);
+ } else if (f_idx == CLS_F_IDX_DL_TYPE) {
+ eq = !((fixed->dl_type ^ wild->match.flow.dl_type)
+ & wild->match.wc.masks.dl_type);
+ } else if (f_idx == CLS_F_IDX_IN_PORT) {
+ eq = !((fixed->in_port ^ wild->match.flow.in_port)
+ & wild->match.wc.masks.in_port);
} else {
NOT_REACHED();
}
for (i = 0; i < cls->n_rules; ) {
struct test_rule *pos = cls->rules[i];
- if (!flow_wildcards_has_extra(&pos->cls_rule.wc, &target->wc)
- && match(target, &pos->cls_rule.flow)) {
+ if (!flow_wildcards_has_extra(&pos->cls_rule.match.wc,
+ &target->match.wc)
+ && match(target, &pos->cls_rule.match.flow)) {
tcls_remove(cls, pos);
} else {
i++;
static ovs_be64 tun_id_values[] = {
0,
CONSTANT_HTONLL(UINT64_C(0xfedcba9876543210)) };
+static ovs_be64 metadata_values[] = {
+ 0,
+ CONSTANT_HTONLL(UINT64_C(0xfedcba9876543210)) };
static uint16_t in_port_values[] = { 1, OFPP_LOCAL };
static ovs_be16 vlan_tci_values[] = { CONSTANT_HTONS(101), CONSTANT_HTONS(0) };
static ovs_be16 dl_type_values[]
values[CLS_F_IDX_TUN_ID][0] = &tun_id_values[0];
values[CLS_F_IDX_TUN_ID][1] = &tun_id_values[1];
+ values[CLS_F_IDX_METADATA][0] = &metadata_values[0];
+ values[CLS_F_IDX_METADATA][1] = &metadata_values[1];
+
values[CLS_F_IDX_IN_PORT][0] = &in_port_values[0];
values[CLS_F_IDX_IN_PORT][1] = &in_port_values[1];
#define N_NW_SRC_VALUES ARRAY_SIZE(nw_src_values)
#define N_NW_DST_VALUES ARRAY_SIZE(nw_dst_values)
#define N_TUN_ID_VALUES ARRAY_SIZE(tun_id_values)
+#define N_METADATA_VALUES ARRAY_SIZE(metadata_values)
#define N_IN_PORT_VALUES ARRAY_SIZE(in_port_values)
#define N_VLAN_TCI_VALUES ARRAY_SIZE(vlan_tci_values)
#define N_DL_TYPE_VALUES ARRAY_SIZE(dl_type_values)
unsigned int x;
x = rand () % N_FLOW_VALUES;
+ memset(&flow, 0, sizeof flow);
flow.nw_src = nw_src_values[get_value(&x, N_NW_SRC_VALUES)];
flow.nw_dst = nw_dst_values[get_value(&x, N_NW_DST_VALUES)];
flow.tun_id = tun_id_values[get_value(&x, N_TUN_ID_VALUES)];
+ flow.metadata = metadata_values[get_value(&x, N_METADATA_VALUES)];
flow.in_port = in_port_values[get_value(&x, N_IN_PORT_VALUES)];
flow.vlan_tci = vlan_tci_values[get_value(&x, N_VLAN_TCI_VALUES)];
flow.dl_type = dl_type_values[get_value(&x, N_DL_TYPE_VALUES)];
cls_cursor_init(&cursor, cls, NULL);
CLS_CURSOR_FOR_EACH_SAFE (rule, next_rule, cls_rule, &cursor) {
classifier_remove(cls, &rule->cls_rule);
- free(rule);
+ free_rule(rule);
}
classifier_destroy(cls);
}
{
const struct cls_field *f;
struct test_rule *rule;
+ struct match match;
- rule = xzalloc(sizeof *rule);
- cls_rule_init_catchall(&rule->cls_rule, wc_fields ? priority : UINT_MAX);
+ match_init_catchall(&match);
for (f = &cls_fields[0]; f < &cls_fields[CLS_N_FIELDS]; f++) {
int f_idx = f - cls_fields;
int value_idx = (value_pat & (1u << f_idx)) != 0;
- memcpy((char *) &rule->cls_rule.flow + f->ofs,
+ memcpy((char *) &match.flow + f->ofs,
values[f_idx][value_idx], f->len);
- if (f->wildcards) {
- rule->cls_rule.wc.wildcards &= ~f->wildcards;
- } else if (f_idx == CLS_F_IDX_NW_SRC) {
- rule->cls_rule.wc.nw_src_mask = htonl(UINT32_MAX);
+ if (f_idx == CLS_F_IDX_NW_SRC) {
+ match.wc.masks.nw_src = htonl(UINT32_MAX);
} else if (f_idx == CLS_F_IDX_NW_DST) {
- rule->cls_rule.wc.nw_dst_mask = htonl(UINT32_MAX);
+ match.wc.masks.nw_dst = htonl(UINT32_MAX);
+ } else if (f_idx == CLS_F_IDX_TP_SRC) {
+ match.wc.masks.tp_src = htons(UINT16_MAX);
+ } else if (f_idx == CLS_F_IDX_TP_DST) {
+ match.wc.masks.tp_dst = htons(UINT16_MAX);
+ } else if (f_idx == CLS_F_IDX_DL_SRC) {
+ memset(match.wc.masks.dl_src, 0xff, ETH_ADDR_LEN);
+ } else if (f_idx == CLS_F_IDX_DL_DST) {
+ memset(match.wc.masks.dl_dst, 0xff, ETH_ADDR_LEN);
} else if (f_idx == CLS_F_IDX_VLAN_TCI) {
- rule->cls_rule.wc.vlan_tci_mask = htons(UINT16_MAX);
+ match.wc.masks.vlan_tci = htons(UINT16_MAX);
} else if (f_idx == CLS_F_IDX_TUN_ID) {
- rule->cls_rule.wc.tun_id_mask = htonll(UINT64_MAX);
+ match.wc.masks.tun_id = htonll(UINT64_MAX);
+ } else if (f_idx == CLS_F_IDX_METADATA) {
+ match.wc.masks.metadata = htonll(UINT64_MAX);
+ } else if (f_idx == CLS_F_IDX_NW_DSCP) {
+ match.wc.masks.nw_tos |= IP_DSCP_MASK;
+ } else if (f_idx == CLS_F_IDX_NW_PROTO) {
+ match.wc.masks.nw_proto = UINT8_MAX;
+ } else if (f_idx == CLS_F_IDX_DL_TYPE) {
+ match.wc.masks.dl_type = htons(UINT16_MAX);
+ } else if (f_idx == CLS_F_IDX_IN_PORT) {
+ match.wc.masks.in_port = UINT16_MAX;
} else {
NOT_REACHED();
}
}
+
+ rule = xzalloc(sizeof *rule);
+ cls_rule_init(&rule->cls_rule, &match, wc_fields ? priority : UINT_MAX);
return rule;
}
+static struct test_rule *
+clone_rule(const struct test_rule *src)
+{
+ struct test_rule *dst;
+
+ dst = xmalloc(sizeof *dst);
+ dst->aux = src->aux;
+ cls_rule_clone(&dst->cls_rule, &src->cls_rule);
+ return dst;
+}
+
+static void
+free_rule(struct test_rule *rule)
+{
+ cls_rule_destroy(&rule->cls_rule);
+ free(rule);
+}
+
static void
shuffle(unsigned int *p, size_t n)
{
assert(tcls_is_empty(&tcls));
compare_classifiers(&cls, &tcls);
- free(rule);
+ free_rule(rule);
classifier_destroy(&cls);
tcls_destroy(&tcls);
}
tcls_insert(&tcls, rule2);
assert(test_rule_from_cls_rule(
classifier_replace(&cls, &rule2->cls_rule)) == rule1);
- free(rule1);
+ free_rule(rule1);
check_tables(&cls, 1, 1, 0);
compare_classifiers(&cls, &tcls);
tcls_destroy(&tcls);
tcls_destroy(&tcls);
for (i = 0; i < N_RULES; i++) {
- free(rules[i]);
+ free_rule(rules[i]);
}
} while (next_permutation(ops, ARRAY_SIZE(ops)));
assert(n_permutations == (factorial(N_RULES * 2) >> N_RULES));
int n = 0;
while (x) {
- x &= x - 1;
+ x = zero_rightmost_1bit(x);
n++;
}
for (i = 0; i < N_RULES; i++) {
tcls_remove(&tcls, tcls_rules[i]);
classifier_remove(&cls, &rules[i]->cls_rule);
- free(rules[i]);
+ free_rule(rules[i]);
check_tables(&cls, i < N_RULES - 1, N_RULES - (i + 1), 0);
compare_classifiers(&cls, &tcls);
struct test_rule *target;
struct cls_cursor cursor;
- target = xmemdup(tcls.rules[rand() % tcls.n_rules],
- sizeof(struct test_rule));
+ target = clone_rule(tcls.rules[rand() % tcls.n_rules]);
cls_cursor_init(&cursor, &cls, &target->cls_rule);
CLS_CURSOR_FOR_EACH_SAFE (rule, next_rule, cls_rule, &cursor) {
classifier_remove(&cls, &rule->cls_rule);
- free(rule);
+ free_rule(rule);
}
tcls_delete_matches(&tcls, &target->cls_rule);
compare_classifiers(&cls, &tcls);
check_tables(&cls, -1, -1, -1);
- free(target);
+ free_rule(target);
}
destroy_classifier(&cls);