/*
- * Copyright (c) 2009, 2010 Nicira Networks.
+ * Copyright (c) 2009, 2010, 2011, 2012 Nicira Networks.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
#include "classifier.h"
#include <errno.h>
#include <limits.h>
+#include "byte-order.h"
#include "command-line.h"
#include "flow.h"
+#include "ofp-util.h"
#include "packets.h"
+#include "unaligned.h"
#undef NDEBUG
#include <assert.h>
+/* 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(0, tp_src, TP_SRC) \
+ CLS_FIELD(0, 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)
+
+/* Field indexes.
+ *
+ * (These are also indexed into struct classifier's 'tables' array.) */
+enum {
+#define CLS_FIELD(WILDCARDS, MEMBER, NAME) CLS_F_IDX_##NAME,
+ CLS_FIELDS
+#undef CLS_FIELD
+ CLS_N_FIELDS
+};
+
+/* Field information. */
+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) \
+ { offsetof(struct flow, MEMBER), \
+ sizeof ((struct flow *)0)->MEMBER, \
+ WILDCARDS, \
+ #NAME },
+ CLS_FIELDS
+#undef CLS_FIELD
+};
+
struct test_rule {
int aux; /* Auxiliary data. */
struct cls_rule cls_rule; /* Classifier rule data. */
}
}
-static int
-tcls_count_exact(const struct tcls *tcls)
-{
- int n_exact;
- size_t i;
-
- n_exact = 0;
- for (i = 0; i < tcls->n_rules; i++) {
- n_exact += tcls->rules[i]->cls_rule.wc.wildcards == 0;
- }
- return n_exact;
-}
-
static bool
tcls_is_empty(const struct tcls *tcls)
{
{
size_t i;
- assert(rule->cls_rule.wc.wildcards || rule->cls_rule.priority == UINT_MAX);
+ 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 (pos->priority == rule->cls_rule.priority
- && pos->wc.wildcards == rule->cls_rule.wc.wildcards
- && flow_equal(&pos->flow, &rule->cls_rule.flow)) {
- /* Exact match.
- * XXX flow_equal should ignore wildcarded fields */
+ if (cls_rule_equal(pos, &rule->cls_rule)) {
+ /* Exact match. */
free(tcls->rules[i]);
tcls->rules[i] = xmemdup(rule, sizeof *rule);
return tcls->rules[i];
NOT_REACHED();
}
-static uint32_t
-read_uint32(const void *p)
-{
- uint32_t x;
- memcpy(&x, p, sizeof x);
- return x;
-}
-
static bool
-match(const struct cls_rule *wild, const flow_t *fixed)
+match(const struct cls_rule *wild, const struct flow *fixed)
{
int f_idx;
for (f_idx = 0; f_idx < CLS_N_FIELDS; f_idx++) {
const struct cls_field *f = &cls_fields[f_idx];
- void *wild_field = (char *) &wild->flow + f->ofs;
- void *fixed_field = (char *) fixed + f->ofs;
-
- if ((wild->wc.wildcards & f->wildcards) == f->wildcards ||
- !memcmp(wild_field, fixed_field, f->len)) {
- /* Definite match. */
- continue;
+ 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);
+ } else if (f_idx == CLS_F_IDX_NW_DST) {
+ eq = !((fixed->nw_dst ^ wild->flow.nw_dst) & wild->wc.nw_dst_mask);
+ } else if (f_idx == CLS_F_IDX_TP_SRC) {
+ eq = !((fixed->tp_src ^ wild->flow.tp_src) & wild->wc.tp_src_mask);
+ } else if (f_idx == CLS_F_IDX_TP_DST) {
+ eq = !((fixed->tp_dst ^ wild->flow.tp_dst) & wild->wc.tp_dst_mask);
+ } else if (f_idx == CLS_F_IDX_VLAN_TCI) {
+ eq = !((fixed->vlan_tci ^ wild->flow.vlan_tci)
+ & wild->wc.vlan_tci_mask);
+ } else if (f_idx == CLS_F_IDX_TUN_ID) {
+ eq = !((fixed->tun_id ^ wild->flow.tun_id) & wild->wc.tun_id_mask);
+ } else if (f_idx == CLS_F_IDX_NW_DSCP) {
+ eq = !((fixed->nw_tos ^ wild->flow.nw_tos) & IP_DSCP_MASK);
+ } else {
+ NOT_REACHED();
}
- if (wild->wc.wildcards & f->wildcards) {
- uint32_t test = read_uint32(wild_field);
- uint32_t ip = read_uint32(fixed_field);
- int shift = (f_idx == CLS_F_IDX_NW_SRC
- ? OFPFW_NW_SRC_SHIFT : OFPFW_NW_DST_SHIFT);
- uint32_t mask = flow_nw_bits_to_mask(wild->wc.wildcards, shift);
- if (!((test ^ ip) & mask)) {
- continue;
- }
+ if (!eq) {
+ return false;
}
-
- return false;
}
return true;
}
static struct cls_rule *
-tcls_lookup(const struct tcls *cls, const flow_t *flow, int include)
+tcls_lookup(const struct tcls *cls, const struct flow *flow)
{
size_t i;
for (i = 0; i < cls->n_rules; i++) {
struct test_rule *pos = cls->rules[i];
- uint32_t wildcards = pos->cls_rule.wc.wildcards;
- if (include & (wildcards ? CLS_INC_WILD : CLS_INC_EXACT)
- && match(&pos->cls_rule, flow)) {
+ if (match(&pos->cls_rule, flow)) {
return &pos->cls_rule;
}
}
}
static void
-tcls_delete_matches(struct tcls *cls,
- const struct cls_rule *target,
- int include)
+tcls_delete_matches(struct tcls *cls, const struct cls_rule *target)
{
size_t i;
for (i = 0; i < cls->n_rules; ) {
struct test_rule *pos = cls->rules[i];
- uint32_t wildcards = pos->cls_rule.wc.wildcards;
- if (include & (wildcards ? CLS_INC_WILD : CLS_INC_EXACT)
+ if (!flow_wildcards_has_extra(&pos->cls_rule.wc, &target->wc)
&& match(target, &pos->cls_rule.flow)) {
tcls_remove(cls, pos);
} else {
}
}
\f
-#ifdef WORDS_BIGENDIAN
-#define T_HTONL(VALUE) ((uint32_t) (VALUE))
-#define T_HTONS(VALUE) ((uint32_t) (VALUE))
-#else
-#define T_HTONL(VALUE) (((((uint32_t) (VALUE)) & 0x000000ff) << 24) | \
- ((((uint32_t) (VALUE)) & 0x0000ff00) << 8) | \
- ((((uint32_t) (VALUE)) & 0x00ff0000) >> 8) | \
- ((((uint32_t) (VALUE)) & 0xff000000) >> 24))
-#define T_HTONS(VALUE) (((((uint16_t) (VALUE)) & 0xff00) >> 8) | \
- ((((uint16_t) (VALUE)) & 0x00ff) << 8))
-#endif
-
-static uint32_t nw_src_values[] = { T_HTONL(0xc0a80001),
- T_HTONL(0xc0a04455) };
-static uint32_t nw_dst_values[] = { T_HTONL(0xc0a80002),
- T_HTONL(0xc0a04455) };
-static uint32_t tun_id_values[] = { 0, 0xffff0000 };
-static uint16_t in_port_values[] = { T_HTONS(1), T_HTONS(OFPP_LOCAL) };
-static uint16_t dl_vlan_values[] = { T_HTONS(101), T_HTONS(0) };
-static uint8_t dl_vlan_pcp_values[] = { 7, 0 };
-static uint16_t dl_type_values[]
- = { T_HTONS(ETH_TYPE_IP), T_HTONS(ETH_TYPE_ARP) };
-static uint16_t tp_src_values[] = { T_HTONS(49362), T_HTONS(80) };
-static uint16_t tp_dst_values[] = { T_HTONS(6667), T_HTONS(22) };
+static ovs_be32 nw_src_values[] = { CONSTANT_HTONL(0xc0a80001),
+ CONSTANT_HTONL(0xc0a04455) };
+static ovs_be32 nw_dst_values[] = { CONSTANT_HTONL(0xc0a80002),
+ CONSTANT_HTONL(0xc0a04455) };
+static ovs_be64 tun_id_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[]
+ = { CONSTANT_HTONS(ETH_TYPE_IP), CONSTANT_HTONS(ETH_TYPE_ARP) };
+static ovs_be16 tp_src_values[] = { CONSTANT_HTONS(49362),
+ CONSTANT_HTONS(80) };
+static ovs_be16 tp_dst_values[] = { CONSTANT_HTONS(6667), CONSTANT_HTONS(22) };
static uint8_t dl_src_values[][6] = { { 0x00, 0x02, 0xe3, 0x0f, 0x80, 0xa4 },
{ 0x5e, 0x33, 0x7f, 0x5f, 0x1e, 0x99 } };
static uint8_t dl_dst_values[][6] = { { 0x4a, 0x27, 0x71, 0xae, 0x64, 0xc1 },
{ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } };
-static uint8_t nw_proto_values[] = { IP_TYPE_TCP, IP_TYPE_ICMP };
-static uint8_t nw_tos_values[] = { 49, 0 };
+static uint8_t nw_proto_values[] = { IPPROTO_TCP, IPPROTO_ICMP };
+static uint8_t nw_dscp_values[] = { 48, 0 };
static void *values[CLS_N_FIELDS][2];
values[CLS_F_IDX_IN_PORT][0] = &in_port_values[0];
values[CLS_F_IDX_IN_PORT][1] = &in_port_values[1];
- values[CLS_F_IDX_DL_VLAN][0] = &dl_vlan_values[0];
- values[CLS_F_IDX_DL_VLAN][1] = &dl_vlan_values[1];
-
- values[CLS_F_IDX_DL_VLAN_PCP][0] = &dl_vlan_pcp_values[0];
- values[CLS_F_IDX_DL_VLAN_PCP][1] = &dl_vlan_pcp_values[1];
+ values[CLS_F_IDX_VLAN_TCI][0] = &vlan_tci_values[0];
+ values[CLS_F_IDX_VLAN_TCI][1] = &vlan_tci_values[1];
values[CLS_F_IDX_DL_SRC][0] = dl_src_values[0];
values[CLS_F_IDX_DL_SRC][1] = dl_src_values[1];
values[CLS_F_IDX_NW_PROTO][0] = &nw_proto_values[0];
values[CLS_F_IDX_NW_PROTO][1] = &nw_proto_values[1];
- values[CLS_F_IDX_NW_TOS][0] = &nw_tos_values[0];
- values[CLS_F_IDX_NW_TOS][1] = &nw_tos_values[1];
+ values[CLS_F_IDX_NW_DSCP][0] = &nw_dscp_values[0];
+ values[CLS_F_IDX_NW_DSCP][1] = &nw_dscp_values[1];
values[CLS_F_IDX_TP_SRC][0] = &tp_src_values[0];
values[CLS_F_IDX_TP_SRC][1] = &tp_src_values[1];
#define N_NW_DST_VALUES ARRAY_SIZE(nw_dst_values)
#define N_TUN_ID_VALUES ARRAY_SIZE(tun_id_values)
#define N_IN_PORT_VALUES ARRAY_SIZE(in_port_values)
-#define N_DL_VLAN_VALUES ARRAY_SIZE(dl_vlan_values)
-#define N_DL_VLAN_PCP_VALUES ARRAY_SIZE(dl_vlan_pcp_values)
+#define N_VLAN_TCI_VALUES ARRAY_SIZE(vlan_tci_values)
#define N_DL_TYPE_VALUES ARRAY_SIZE(dl_type_values)
#define N_TP_SRC_VALUES ARRAY_SIZE(tp_src_values)
#define N_TP_DST_VALUES ARRAY_SIZE(tp_dst_values)
#define N_DL_SRC_VALUES ARRAY_SIZE(dl_src_values)
#define N_DL_DST_VALUES ARRAY_SIZE(dl_dst_values)
#define N_NW_PROTO_VALUES ARRAY_SIZE(nw_proto_values)
-#define N_NW_TOS_VALUES ARRAY_SIZE(nw_tos_values)
+#define N_NW_DSCP_VALUES ARRAY_SIZE(nw_dscp_values)
#define N_FLOW_VALUES (N_NW_SRC_VALUES * \
N_NW_DST_VALUES * \
N_TUN_ID_VALUES * \
N_IN_PORT_VALUES * \
- N_DL_VLAN_VALUES * \
- N_DL_VLAN_PCP_VALUES * \
+ N_VLAN_TCI_VALUES * \
N_DL_TYPE_VALUES * \
N_TP_SRC_VALUES * \
N_TP_DST_VALUES * \
N_DL_SRC_VALUES * \
N_DL_DST_VALUES * \
N_NW_PROTO_VALUES * \
- N_NW_TOS_VALUES)
+ N_NW_DSCP_VALUES)
static unsigned int
get_value(unsigned int *x, unsigned n_values)
return rem;
}
-static struct cls_rule *
-lookup_with_include_bits(const struct classifier *cls,
- const flow_t *flow, int include)
-{
- switch (include) {
- case CLS_INC_WILD:
- return classifier_lookup_wild(cls, flow);
- case CLS_INC_EXACT:
- return classifier_lookup_exact(cls, flow);
- case CLS_INC_WILD | CLS_INC_EXACT:
- return classifier_lookup(cls, flow);
- default:
- abort();
- }
-}
-
static void
compare_classifiers(struct classifier *cls, struct tcls *tcls)
{
unsigned int i;
assert(classifier_count(cls) == tcls->n_rules);
- assert(classifier_count_exact(cls) == tcls_count_exact(tcls));
for (i = 0; i < confidence; i++) {
struct cls_rule *cr0, *cr1;
- flow_t flow;
+ struct flow flow;
unsigned int x;
- int include;
x = rand () % N_FLOW_VALUES;
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.in_port = in_port_values[get_value(&x, N_IN_PORT_VALUES)];
- flow.dl_vlan = dl_vlan_values[get_value(&x, N_DL_VLAN_VALUES)];
- flow.dl_vlan_pcp = dl_vlan_pcp_values[get_value(&x,
- N_DL_VLAN_PCP_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)];
flow.tp_src = tp_src_values[get_value(&x, N_TP_SRC_VALUES)];
flow.tp_dst = tp_dst_values[get_value(&x, N_TP_DST_VALUES)];
memcpy(flow.dl_dst, dl_dst_values[get_value(&x, N_DL_DST_VALUES)],
ETH_ADDR_LEN);
flow.nw_proto = nw_proto_values[get_value(&x, N_NW_PROTO_VALUES)];
- flow.nw_tos = nw_tos_values[get_value(&x, N_NW_TOS_VALUES)];
-
- for (include = 1; include <= 3; include++) {
- cr0 = lookup_with_include_bits(cls, &flow, include);
- cr1 = tcls_lookup(tcls, &flow, include);
- assert((cr0 == NULL) == (cr1 == NULL));
- if (cr0 != NULL) {
- const struct test_rule *tr0 = test_rule_from_cls_rule(cr0);
- const struct test_rule *tr1 = test_rule_from_cls_rule(cr1);
-
- assert(flow_equal(&cr0->flow, &cr1->flow));
- assert(cr0->wc.wildcards == cr1->wc.wildcards);
- assert(cr0->priority == cr1->priority);
- /* Skip nw_src_mask and nw_dst_mask, because they are derived
- * members whose values are used only for optimization. */
- assert(tr0->aux == tr1->aux);
- }
+ flow.nw_tos = nw_dscp_values[get_value(&x, N_NW_DSCP_VALUES)];
+
+ cr0 = classifier_lookup(cls, &flow);
+ cr1 = tcls_lookup(tcls, &flow);
+ assert((cr0 == NULL) == (cr1 == NULL));
+ if (cr0 != NULL) {
+ const struct test_rule *tr0 = test_rule_from_cls_rule(cr0);
+ const struct test_rule *tr1 = test_rule_from_cls_rule(cr1);
+
+ assert(cls_rule_equal(cr0, cr1));
+ assert(tr0->aux == tr1->aux);
}
}
}
-static void
-free_rule(struct cls_rule *cls_rule, void *cls)
-{
- classifier_remove(cls, cls_rule);
- free(test_rule_from_cls_rule(cls_rule));
-}
-
static void
destroy_classifier(struct classifier *cls)
{
- classifier_for_each(cls, CLS_INC_ALL, free_rule, cls);
+ struct test_rule *rule, *next_rule;
+ struct cls_cursor cursor;
+
+ 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);
+ }
classifier_destroy(cls);
}
static void
check_tables(const struct classifier *cls,
- int n_tables, int n_buckets, int n_rules)
+ int n_tables, int n_rules, int n_dups)
{
+ const struct cls_table *table;
+ struct test_rule *test_rule;
+ struct cls_cursor cursor;
int found_tables = 0;
- int found_buckets = 0;
int found_rules = 0;
- int i;
+ int found_dups = 0;
+ int found_rules2 = 0;
- BUILD_ASSERT(CLS_N_FIELDS == ARRAY_SIZE(cls->tables));
- for (i = 0; i < CLS_N_FIELDS; i++) {
- const struct cls_bucket *bucket;
- if (!hmap_is_empty(&cls->tables[i])) {
- found_tables++;
- }
- HMAP_FOR_EACH (bucket, hmap_node, &cls->tables[i]) {
- found_buckets++;
- assert(!list_is_empty(&bucket->rules));
- found_rules += list_size(&bucket->rules);
- }
- }
+ HMAP_FOR_EACH (table, hmap_node, &cls->tables) {
+ const struct cls_rule *head;
+
+ assert(!hmap_is_empty(&table->rules));
- if (!hmap_is_empty(&cls->exact_table)) {
found_tables++;
- found_buckets++;
- found_rules += hmap_count(&cls->exact_table);
+ HMAP_FOR_EACH (head, hmap_node, &table->rules) {
+ unsigned int prev_priority = UINT_MAX;
+ const struct cls_rule *rule;
+
+ found_rules++;
+ LIST_FOR_EACH (rule, list, &head->list) {
+ assert(rule->priority < prev_priority);
+ prev_priority = rule->priority;
+ found_rules++;
+ found_dups++;
+ assert(classifier_find_rule_exactly(cls, rule) == rule);
+ }
+ }
}
- assert(n_tables == -1 || found_tables == n_tables);
+ assert(found_tables == hmap_count(&cls->tables));
+ assert(n_tables == -1 || n_tables == hmap_count(&cls->tables));
assert(n_rules == -1 || found_rules == n_rules);
- assert(n_buckets == -1 || found_buckets == n_buckets);
+ assert(n_dups == -1 || found_dups == n_dups);
+
+ cls_cursor_init(&cursor, cls, NULL);
+ CLS_CURSOR_FOR_EACH (test_rule, cls_rule, &cursor) {
+ found_rules2++;
+ }
+ assert(found_rules == found_rules2);
}
static struct test_rule *
{
const struct cls_field *f;
struct test_rule *rule;
- uint32_t wildcards;
- flow_t flow;
- wildcards = 0;
- memset(&flow, 0, sizeof flow);
+ rule = xzalloc(sizeof *rule);
+ cls_rule_init_catchall(&rule->cls_rule, wc_fields ? priority : UINT_MAX);
for (f = &cls_fields[0]; f < &cls_fields[CLS_N_FIELDS]; f++) {
int f_idx = f - cls_fields;
- if (wc_fields & (1u << f_idx)) {
- wildcards |= f->wildcards;
+ int value_idx = (value_pat & (1u << f_idx)) != 0;
+ memcpy((char *) &rule->cls_rule.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);
+ } else if (f_idx == CLS_F_IDX_NW_DST) {
+ rule->cls_rule.wc.nw_dst_mask = htonl(UINT32_MAX);
+ } else if (f_idx == CLS_F_IDX_TP_SRC) {
+ rule->cls_rule.wc.tp_src_mask = htons(UINT16_MAX);
+ } else if (f_idx == CLS_F_IDX_TP_DST) {
+ rule->cls_rule.wc.tp_dst_mask = htons(UINT16_MAX);
+ } else if (f_idx == CLS_F_IDX_VLAN_TCI) {
+ rule->cls_rule.wc.vlan_tci_mask = htons(UINT16_MAX);
+ } else if (f_idx == CLS_F_IDX_TUN_ID) {
+ rule->cls_rule.wc.tun_id_mask = htonll(UINT64_MAX);
} else {
- int value_idx = (value_pat & (1u << f_idx)) != 0;
- memcpy((char *) &flow + f->ofs, values[f_idx][value_idx], f->len);
+ NOT_REACHED();
}
}
-
- rule = xzalloc(sizeof *rule);
- cls_rule_from_flow(&flow, wildcards, !wildcards ? UINT_MAX : priority,
- &rule->cls_rule);
return rule;
}
tcls_init(&tcls);
tcls_rule = tcls_insert(&tcls, rule);
- if (wc_fields) {
- assert(!classifier_insert(&cls, &rule->cls_rule));
- } else {
- classifier_insert_exact(&cls, &rule->cls_rule);
- }
- check_tables(&cls, 1, 1, 1);
+ classifier_insert(&cls, &rule->cls_rule);
+ check_tables(&cls, 1, 1, 0);
compare_classifiers(&cls, &tcls);
classifier_remove(&cls, &rule->cls_rule);
classifier_init(&cls);
tcls_init(&tcls);
tcls_insert(&tcls, rule1);
- assert(!classifier_insert(&cls, &rule1->cls_rule));
- check_tables(&cls, 1, 1, 1);
+ classifier_insert(&cls, &rule1->cls_rule);
+ check_tables(&cls, 1, 1, 0);
compare_classifiers(&cls, &tcls);
tcls_destroy(&tcls);
tcls_init(&tcls);
tcls_insert(&tcls, rule2);
assert(test_rule_from_cls_rule(
- classifier_insert(&cls, &rule2->cls_rule)) == rule1);
+ classifier_replace(&cls, &rule2->cls_rule)) == rule1);
free(rule1);
- check_tables(&cls, 1, 1, 1);
+ check_tables(&cls, 1, 1, 0);
compare_classifiers(&cls, &tcls);
tcls_destroy(&tcls);
destroy_classifier(&cls);
}
static int
-table_mask(int table)
+factorial(int n_items)
{
- return ((1u << CLS_N_FIELDS) - 1) & ~((1u << table) - 1);
+ int n, i;
+
+ n = 1;
+ for (i = 2; i <= n_items; i++) {
+ n *= i;
+ }
+ return n;
}
-static int
-random_wcf_in_table(int table, int seed)
+static void
+swap(int *a, int *b)
{
- int wc_fields = (1u << table) | hash_int(seed, 0);
- return wc_fields & table_mask(table);
+ int tmp = *a;
+ *a = *b;
+ *b = tmp;
}
-/* Tests classification with two rules at a time that fall into the same
- * bucket. */
static void
-test_two_rules_in_one_bucket(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
+reverse(int *a, int n)
{
- int table, rel_pri, wcf_pat, value_pat;
-
- for (table = 0; table <= CLS_N_FIELDS; table++) {
- for (rel_pri = -1; rel_pri <= +1; rel_pri++) {
- for (wcf_pat = 0; wcf_pat < 4; wcf_pat++) {
- int n_value_pats = table == CLS_N_FIELDS - 1 ? 1 : 2;
- for (value_pat = 0; value_pat < n_value_pats; value_pat++) {
- struct test_rule *rule1, *tcls_rule1;
- struct test_rule *rule2, *tcls_rule2;
- struct test_rule *displaced_rule;
- struct classifier cls;
- struct tcls tcls;
- unsigned int pri1, pri2;
- int wcf1, wcf2;
-
- if (table != CLS_F_IDX_EXACT) {
- /* We can use identical priorities in this test because
- * the classifier always chooses the rule added later
- * for equal-priority rules that fall into the same
- * bucket. */
- pri1 = table * 257 + 50;
- pri2 = pri1 + rel_pri;
-
- wcf1 = (wcf_pat & 1
- ? random_wcf_in_table(table, pri1)
- : 1u << table);
- wcf2 = (wcf_pat & 2
- ? random_wcf_in_table(table, pri2)
- : 1u << table);
- if (value_pat) {
- wcf1 &= ~(1u << (CLS_N_FIELDS - 1));
- wcf2 &= ~(1u << (CLS_N_FIELDS - 1));
- }
- } else {
- /* This classifier always puts exact-match rules at
- * maximum priority. */
- pri1 = pri2 = UINT_MAX;
-
- /* No wildcard fields. */
- wcf1 = wcf2 = 0;
- }
-
- rule1 = make_rule(wcf1, pri1, 0);
- rule2 = make_rule(wcf2, pri2,
- value_pat << (CLS_N_FIELDS - 1));
-
- classifier_init(&cls);
- tcls_init(&tcls);
-
- tcls_rule1 = tcls_insert(&tcls, rule1);
- tcls_rule2 = tcls_insert(&tcls, rule2);
- assert(!classifier_insert(&cls, &rule1->cls_rule));
- displaced_rule = test_rule_from_cls_rule(
- classifier_insert(&cls, &rule2->cls_rule));
- if (wcf1 != wcf2 || pri1 != pri2 || value_pat) {
- assert(!displaced_rule);
+ int i;
- check_tables(&cls, 1, 1, 2);
- compare_classifiers(&cls, &tcls);
+ for (i = 0; i < n / 2; i++) {
+ int j = n - (i + 1);
+ swap(&a[i], &a[j]);
+ }
+}
- classifier_remove(&cls, &rule1->cls_rule);
- tcls_remove(&tcls, tcls_rule1);
- check_tables(&cls, 1, 1, 1);
- compare_classifiers(&cls, &tcls);
- } else {
- assert(displaced_rule == rule1);
- check_tables(&cls, 1, 1, 1);
- compare_classifiers(&cls, &tcls);
- }
- free(rule1);
+static bool
+next_permutation(int *a, int n)
+{
+ int k;
- classifier_remove(&cls, &rule2->cls_rule);
- tcls_remove(&tcls, tcls_rule2);
- compare_classifiers(&cls, &tcls);
- free(rule2);
+ for (k = n - 2; k >= 0; k--) {
+ if (a[k] < a[k + 1]) {
+ int l;
- destroy_classifier(&cls);
- tcls_destroy(&tcls);
+ for (l = n - 1; ; l--) {
+ if (a[l] > a[k]) {
+ swap(&a[k], &a[l]);
+ reverse(a + (k + 1), n - (k + 1));
+ return true;
}
}
}
}
+ return false;
}
-/* Tests classification with two rules at a time that fall into the same
- * table but different buckets. */
+/* Tests classification with rules that have the same matching criteria. */
static void
-test_two_rules_in_one_table(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
-{
- int table, rel_pri, wcf_pat;
-
- /* Skip tables 0 and CLS_F_IDX_EXACT because they have one bucket. */
- for (table = 1; table < CLS_N_FIELDS; table++) {
- for (rel_pri = -1; rel_pri <= +1; rel_pri++) {
- for (wcf_pat = 0; wcf_pat < 5; wcf_pat++) {
- struct test_rule *rule1, *tcls_rule1;
- struct test_rule *rule2, *tcls_rule2;
- struct classifier cls;
- struct tcls tcls;
- unsigned int pri1, pri2;
- int wcf1, wcf2;
- int value_mask, value_pat1, value_pat2;
- int i;
-
- /* We can use identical priorities in this test because the
- * classifier always chooses the rule added later for
- * equal-priority rules that fall into the same table. */
- pri1 = table * 257 + 50;
- pri2 = pri1 + rel_pri;
-
- if (wcf_pat & 4) {
- wcf1 = wcf2 = random_wcf_in_table(table, pri1);
- } else {
- wcf1 = (wcf_pat & 1
- ? random_wcf_in_table(table, pri1)
- : 1u << table);
- wcf2 = (wcf_pat & 2
- ? random_wcf_in_table(table, pri2)
- : 1u << table);
- }
-
- /* Generate value patterns that will put the two rules into
- * different buckets. */
- value_mask = ((1u << table) - 1);
- value_pat1 = hash_int(pri1, 1) & value_mask;
- i = 0;
- do {
- value_pat2 = (hash_int(pri2, i++) & value_mask);
- } while (value_pat1 == value_pat2);
- rule1 = make_rule(wcf1, pri1, value_pat1);
- rule2 = make_rule(wcf2, pri2, value_pat2);
-
- classifier_init(&cls);
- tcls_init(&tcls);
-
- tcls_rule1 = tcls_insert(&tcls, rule1);
- tcls_rule2 = tcls_insert(&tcls, rule2);
- assert(!classifier_insert(&cls, &rule1->cls_rule));
- assert(!classifier_insert(&cls, &rule2->cls_rule));
- check_tables(&cls, 1, 2, 2);
- compare_classifiers(&cls, &tcls);
+test_many_rules_in_one_list (int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
+{
+ enum { N_RULES = 3 };
+ int n_pris;
- classifier_remove(&cls, &rule1->cls_rule);
- tcls_remove(&tcls, tcls_rule1);
- check_tables(&cls, 1, 1, 1);
- compare_classifiers(&cls, &tcls);
- free(rule1);
+ for (n_pris = N_RULES; n_pris >= 1; n_pris--) {
+ int ops[N_RULES * 2];
+ int pris[N_RULES];
+ int n_permutations;
+ int i;
- classifier_remove(&cls, &rule2->cls_rule);
- tcls_remove(&tcls, tcls_rule2);
- compare_classifiers(&cls, &tcls);
- free(rule2);
+ pris[0] = 0;
+ for (i = 1; i < N_RULES; i++) {
+ pris[i] = pris[i - 1] + (n_pris > i);
+ }
- classifier_destroy(&cls);
- tcls_destroy(&tcls);
- }
+ for (i = 0; i < N_RULES * 2; i++) {
+ ops[i] = i / 2;
}
- }
-}
-/* Tests classification with two rules at a time that fall into different
- * tables. */
-static void
-test_two_rules_in_different_tables(int argc OVS_UNUSED,
- char *argv[] OVS_UNUSED)
-{
- int table1, table2, rel_pri, wcf_pat;
-
- for (table1 = 0; table1 < CLS_N_FIELDS; table1++) {
- for (table2 = table1 + 1; table2 <= CLS_N_FIELDS; table2++) {
- for (rel_pri = 0; rel_pri < 2; rel_pri++) {
- for (wcf_pat = 0; wcf_pat < 4; wcf_pat++) {
- struct test_rule *rule1, *tcls_rule1;
- struct test_rule *rule2, *tcls_rule2;
- struct classifier cls;
- struct tcls tcls;
- unsigned int pri1, pri2;
- int wcf1, wcf2;
-
- /* We must use unique priorities in this test because the
- * classifier makes the rule choice undefined for rules of
- * equal priority that fall into different tables. (In
- * practice, lower-numbered tables win.) */
- pri1 = table1 * 257 + 50;
- pri2 = rel_pri ? pri1 - 1 : pri1 + 1;
-
- wcf1 = (wcf_pat & 1
- ? random_wcf_in_table(table1, pri1)
- : 1u << table1);
- wcf2 = (wcf_pat & 2
- ? random_wcf_in_table(table2, pri2)
- : 1u << table2);
-
- if (table2 == CLS_F_IDX_EXACT) {
- pri2 = UINT16_MAX;
- wcf2 = 0;
- }
+ n_permutations = 0;
+ do {
+ struct test_rule *rules[N_RULES];
+ struct test_rule *tcls_rules[N_RULES];
+ int pri_rules[N_RULES];
+ struct classifier cls;
+ struct tcls tcls;
- rule1 = make_rule(wcf1, pri1, 0);
- rule2 = make_rule(wcf2, pri2, 0);
+ n_permutations++;
- classifier_init(&cls);
- tcls_init(&tcls);
+ for (i = 0; i < N_RULES; i++) {
+ rules[i] = make_rule(456, pris[i], 0);
+ tcls_rules[i] = NULL;
+ pri_rules[i] = -1;
+ }
- tcls_rule1 = tcls_insert(&tcls, rule1);
- tcls_rule2 = tcls_insert(&tcls, rule2);
- assert(!classifier_insert(&cls, &rule1->cls_rule));
- assert(!classifier_insert(&cls, &rule2->cls_rule));
- check_tables(&cls, 2, 2, 2);
- compare_classifiers(&cls, &tcls);
+ classifier_init(&cls);
+ tcls_init(&tcls);
- classifier_remove(&cls, &rule1->cls_rule);
- tcls_remove(&tcls, tcls_rule1);
- check_tables(&cls, 1, 1, 1);
- compare_classifiers(&cls, &tcls);
- free(rule1);
+ for (i = 0; i < ARRAY_SIZE(ops); i++) {
+ int j = ops[i];
+ int m, n;
- classifier_remove(&cls, &rule2->cls_rule);
- tcls_remove(&tcls, tcls_rule2);
- compare_classifiers(&cls, &tcls);
- free(rule2);
+ if (!tcls_rules[j]) {
+ struct test_rule *displaced_rule;
- classifier_destroy(&cls);
- tcls_destroy(&tcls);
+ tcls_rules[j] = tcls_insert(&tcls, rules[j]);
+ displaced_rule = test_rule_from_cls_rule(
+ classifier_replace(&cls, &rules[j]->cls_rule));
+ if (pri_rules[pris[j]] >= 0) {
+ int k = pri_rules[pris[j]];
+ assert(displaced_rule != NULL);
+ assert(displaced_rule != rules[j]);
+ assert(pris[j] == displaced_rule->cls_rule.priority);
+ tcls_rules[k] = NULL;
+ } else {
+ assert(displaced_rule == NULL);
+ }
+ pri_rules[pris[j]] = j;
+ } else {
+ classifier_remove(&cls, &rules[j]->cls_rule);
+ tcls_remove(&tcls, tcls_rules[j]);
+ tcls_rules[j] = NULL;
+ pri_rules[pris[j]] = -1;
+ }
+
+ n = 0;
+ for (m = 0; m < N_RULES; m++) {
+ n += tcls_rules[m] != NULL;
}
+ check_tables(&cls, n > 0, n, n - 1);
+
+ compare_classifiers(&cls, &tcls);
}
- }
+
+ classifier_destroy(&cls);
+ tcls_destroy(&tcls);
+
+ for (i = 0; i < N_RULES; i++) {
+ free(rules[i]);
+ }
+ } while (next_permutation(ops, ARRAY_SIZE(ops)));
+ assert(n_permutations == (factorial(N_RULES * 2) >> N_RULES));
}
}
-/* Tests classification with many rules at a time that fall into the same
- * bucket but have unique priorities (and various wildcards). */
-static void
-test_many_rules_in_one_bucket(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
+static int
+count_ones(unsigned long int x)
{
- enum { MAX_RULES = 50 };
- int iteration, table;
+ int n = 0;
- for (iteration = 0; iteration < 3; iteration++) {
- for (table = 0; table <= CLS_N_FIELDS; table++) {
- unsigned int priorities[MAX_RULES];
- struct classifier cls;
- struct tcls tcls;
- int i;
-
- srand(hash_int(table, iteration));
- for (i = 0; i < MAX_RULES; i++) {
- priorities[i] = i * 129;
- }
- shuffle(priorities, ARRAY_SIZE(priorities));
+ while (x) {
+ x &= x - 1;
+ n++;
+ }
- classifier_init(&cls);
- tcls_init(&tcls);
+ return n;
+}
- for (i = 0; i < MAX_RULES; i++) {
- struct test_rule *rule;
- unsigned int priority = priorities[i];
- int wcf;
-
- wcf = random_wcf_in_table(table, priority);
- rule = make_rule(wcf, priority,
- table == CLS_F_IDX_EXACT ? i : 1234);
- tcls_insert(&tcls, rule);
- assert(!classifier_insert(&cls, &rule->cls_rule));
- check_tables(&cls, 1, 1, i + 1);
- compare_classifiers(&cls, &tcls);
- }
+static bool
+array_contains(int *array, int n, int value)
+{
+ int i;
- destroy_classifier(&cls);
- tcls_destroy(&tcls);
+ for (i = 0; i < n; i++) {
+ if (array[i] == value) {
+ return true;
}
}
+
+ return false;
}
-/* Tests classification with many rules at a time that fall into the same
- * table but random buckets. */
+/* Tests classification with two rules at a time that fall into the same
+ * table but different lists. */
static void
test_many_rules_in_one_table(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
{
- enum { MAX_RULES = 50 };
- int iteration, table;
+ int iteration;
- for (iteration = 0; iteration < 3; iteration++) {
- for (table = 0; table < CLS_N_FIELDS; table++) {
- unsigned int priorities[MAX_RULES];
- struct classifier cls;
- struct tcls tcls;
- int i;
+ for (iteration = 0; iteration < 50; iteration++) {
+ enum { N_RULES = 20 };
+ struct test_rule *rules[N_RULES];
+ struct test_rule *tcls_rules[N_RULES];
+ struct classifier cls;
+ struct tcls tcls;
+ int value_pats[N_RULES];
+ int value_mask;
+ int wcf;
+ int i;
- srand(hash_int(table, iteration));
- for (i = 0; i < MAX_RULES; i++) {
- priorities[i] = i * 129;
- }
- shuffle(priorities, ARRAY_SIZE(priorities));
+ do {
+ wcf = rand() & ((1u << CLS_N_FIELDS) - 1);
+ value_mask = ~wcf & ((1u << CLS_N_FIELDS) - 1);
+ } while ((1 << count_ones(value_mask)) < N_RULES);
- classifier_init(&cls);
- tcls_init(&tcls);
+ classifier_init(&cls);
+ tcls_init(&tcls);
- for (i = 0; i < MAX_RULES; i++) {
- struct test_rule *rule;
- unsigned int priority = priorities[i];
- int wcf;
+ for (i = 0; i < N_RULES; i++) {
+ unsigned int priority = rand();
- wcf = random_wcf_in_table(table, priority);
- rule = make_rule(wcf, priority, hash_int(priority, 1));
- tcls_insert(&tcls, rule);
- assert(!classifier_insert(&cls, &rule->cls_rule));
- check_tables(&cls, 1, -1, i + 1);
- compare_classifiers(&cls, &tcls);
- }
+ do {
+ value_pats[i] = rand() & value_mask;
+ } while (array_contains(value_pats, i, value_pats[i]));
- destroy_classifier(&cls);
- tcls_destroy(&tcls);
+ rules[i] = make_rule(wcf, priority, value_pats[i]);
+ tcls_rules[i] = tcls_insert(&tcls, rules[i]);
+ classifier_insert(&cls, &rules[i]->cls_rule);
+
+ check_tables(&cls, 1, i + 1, 0);
+ compare_classifiers(&cls, &tcls);
}
+
+ for (i = 0; i < N_RULES; i++) {
+ tcls_remove(&tcls, tcls_rules[i]);
+ classifier_remove(&cls, &rules[i]->cls_rule);
+ free(rules[i]);
+
+ check_tables(&cls, i < N_RULES - 1, N_RULES - (i + 1), 0);
+ compare_classifiers(&cls, &tcls);
+ }
+
+ classifier_destroy(&cls);
+ tcls_destroy(&tcls);
}
}
-/* Tests classification with many rules at a time that fall into random buckets
- * in random tables. */
+/* Tests classification with many rules at a time that fall into random lists
+ * in 'n' tables. */
static void
-test_many_rules_in_different_tables(int argc OVS_UNUSED,
- char *argv[] OVS_UNUSED)
+test_many_rules_in_n_tables(int n_tables)
{
enum { MAX_RULES = 50 };
+ int wcfs[10];
int iteration;
+ int i;
+
+ assert(n_tables < 10);
+ for (i = 0; i < n_tables; i++) {
+ do {
+ wcfs[i] = rand() & ((1u << CLS_N_FIELDS) - 1);
+ } while (array_contains(wcfs, i, wcfs[i]));
+ }
for (iteration = 0; iteration < 30; iteration++) {
unsigned int priorities[MAX_RULES];
struct classifier cls;
struct tcls tcls;
- int i;
srand(iteration);
for (i = 0; i < MAX_RULES; i++) {
for (i = 0; i < MAX_RULES; i++) {
struct test_rule *rule;
unsigned int priority = priorities[i];
- int table = rand() % (CLS_N_FIELDS + 1);
- int wcf = random_wcf_in_table(table, rand());
+ int wcf = wcfs[rand() % n_tables];
int value_pat = rand() & ((1u << CLS_N_FIELDS) - 1);
rule = make_rule(wcf, priority, value_pat);
tcls_insert(&tcls, rule);
- assert(!classifier_insert(&cls, &rule->cls_rule));
- check_tables(&cls, -1, -1, i + 1);
+ classifier_insert(&cls, &rule->cls_rule);
+ check_tables(&cls, -1, i + 1, -1);
compare_classifiers(&cls, &tcls);
}
while (!classifier_is_empty(&cls)) {
- struct test_rule *rule = xmemdup(tcls.rules[rand() % tcls.n_rules],
- sizeof(struct test_rule));
- int include = rand() % 2 ? CLS_INC_WILD : CLS_INC_EXACT;
- include |= (rule->cls_rule.wc.wildcards
- ? CLS_INC_WILD : CLS_INC_EXACT);
- classifier_for_each_match(&cls, &rule->cls_rule, include,
- free_rule, &cls);
- tcls_delete_matches(&tcls, &rule->cls_rule, include);
+ struct test_rule *rule, *next_rule;
+ struct test_rule *target;
+ struct cls_cursor cursor;
+
+ target = xmemdup(tcls.rules[rand() % tcls.n_rules],
+ sizeof(struct test_rule));
+
+ 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);
+ }
+ tcls_delete_matches(&tcls, &target->cls_rule);
compare_classifiers(&cls, &tcls);
- free(rule);
+ check_tables(&cls, -1, -1, -1);
+ free(target);
}
destroy_classifier(&cls);
tcls_destroy(&tcls);
}
}
+
+static void
+test_many_rules_in_two_tables(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
+{
+ test_many_rules_in_n_tables(2);
+}
+
+static void
+test_many_rules_in_five_tables(int argc OVS_UNUSED, char *argv[] OVS_UNUSED)
+{
+ test_many_rules_in_n_tables(5);
+}
\f
static const struct command commands[] = {
{"empty", 0, 0, test_empty},
{"destroy-null", 0, 0, test_destroy_null},
{"single-rule", 0, 0, test_single_rule},
{"rule-replacement", 0, 0, test_rule_replacement},
- {"two-rules-in-one-bucket", 0, 0, test_two_rules_in_one_bucket},
- {"two-rules-in-one-table", 0, 0, test_two_rules_in_one_table},
- {"two-rules-in-different-tables", 0, 0,
- test_two_rules_in_different_tables},
- {"many-rules-in-one-bucket", 0, 0, test_many_rules_in_one_bucket},
+ {"many-rules-in-one-list", 0, 0, test_many_rules_in_one_list},
{"many-rules-in-one-table", 0, 0, test_many_rules_in_one_table},
- {"many-rules-in-different-tables", 0, 0,
- test_many_rules_in_different_tables},
+ {"many-rules-in-two-tables", 0, 0, test_many_rules_in_two_tables},
+ {"many-rules-in-five-tables", 0, 0, test_many_rules_in_five_tables},
{NULL, 0, 0, NULL},
};
int
main(int argc, char *argv[])
{
+ set_program_name(argv[0]);
init_values();
run_command(argc - 1, argv + 1, commands);
return 0;