/*
- * Copyright (c) 2009, 2010, 2011, 2012, 2013, 2014 Nicira, Inc.
+ * Copyright (c) 2009, 2010, 2011, 2012, 2013, 2014, 2015 Nicira, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
*/
#include <config.h>
+#undef NDEBUG
+#include "classifier.h"
+#include <assert.h>
#include <errno.h>
#include <limits.h>
#include "byte-order.h"
+#include "classifier-private.h"
#include "command-line.h"
#include "flow.h"
#include "ofp-util.h"
+#include "ovstest.h"
#include "packets.h"
#include "random.h"
#include "unaligned.h"
-#include "ovstest.h"
-#undef NDEBUG
-#include <assert.h>
-
-/* We need access to classifier internal definitions to be able to fully
- * test them. The alternative would be to expose them all in the classifier
- * API. */
-#include "classifier.c"
+#include "util.h"
/* Fields in a rule. */
-#define CLS_FIELDS \
+#define CLS_FIELDS \
/* struct flow all-caps */ \
/* member name name */ \
/* ----------- -------- */ \
}
}
-static struct test_rule *make_rule(int wc_fields, unsigned int priority,
- int value_pat);
+static struct test_rule *make_rule(int wc_fields, int priority, int value_pat);
static void free_rule(struct test_rule *);
static struct test_rule *clone_rule(const struct test_rule *);
const struct cls_rule *pos = &tcls->rules[i]->cls_rule;
if (cls_rule_equal(pos, &rule->cls_rule)) {
/* Exact match. */
- free_rule(tcls->rules[i]);
+ ovsrcu_postpone(free_rule, tcls->rules[i]);
tcls->rules[i] = clone_rule(rule);
return tcls->rules[i];
} else if (pos->priority < rule->cls_rule.priority) {
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 },
+static uint8_t dl_src_values[][ETH_ADDR_LEN] = {
+ { 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 },
+static uint8_t dl_dst_values[][ETH_ADDR_LEN] = {
+ { 0x4a, 0x27, 0x71, 0xae, 0x64, 0xc1 },
{ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } };
static uint8_t nw_proto_values[] = { IPPROTO_TCP, IPPROTO_ICMP };
static uint8_t nw_dscp_values[] = { 48, 0 };
assert(classifier_count(cls) == tcls->n_rules);
for (i = 0; i < confidence; i++) {
- struct cls_rule *cr0, *cr1, *cr2;
+ const struct cls_rule *cr0, *cr1, *cr2;
struct flow flow;
struct flow_wildcards wc;
unsigned int x;
flow.nw_tos = nw_dscp_values[get_value(&x, N_NW_DSCP_VALUES)];
/* This assertion is here to suppress a GCC 4.9 array-bounds warning */
- ovs_assert(cls->cls->n_tries <= CLS_MAX_TRIES);
+ ovs_assert(cls->n_tries <= CLS_MAX_TRIES);
cr0 = classifier_lookup(cls, &flow, &wc);
cr1 = tcls_lookup(tcls, &flow);
static void
destroy_classifier(struct classifier *cls)
{
- struct test_rule *rule, *next_rule;
+ struct test_rule *rule;
- CLS_FOR_EACH_SAFE (rule, next_rule, cls_rule, cls) {
- classifier_remove(cls, &rule->cls_rule);
- free_rule(rule);
+ classifier_defer(cls);
+ CLS_FOR_EACH (rule, cls_rule, cls) {
+ if (classifier_remove(cls, &rule->cls_rule)) {
+ ovsrcu_postpone(free_rule, rule);
+ }
}
classifier_destroy(cls);
}
static void
-pvector_verify(struct pvector *pvec)
+pvector_verify(const struct pvector *pvec)
{
void *ptr OVS_UNUSED;
- unsigned int priority, prev_priority = UINT_MAX;
+ int prev_priority = INT_MAX;
PVECTOR_FOR_EACH (ptr, pvec) {
- priority = cursor__.vector[cursor__.entry_idx].priority;
+ int priority = cursor__.vector[cursor__.entry_idx].priority;
if (priority > prev_priority) {
- VLOG_ABORT("Priority vector is out of order (%u > %u)",
- priority, prev_priority);
+ ovs_abort(0, "Priority vector is out of order (%u > %u)",
+ priority, prev_priority);
}
prev_priority = priority;
}
}
static void
-verify_tries(struct classifier *cls_)
+verify_tries(struct classifier *cls)
+ OVS_NO_THREAD_SAFETY_ANALYSIS
{
- struct cls_classifier *cls = cls_->cls;
unsigned int n_rules = 0;
int i;
n_rules += trie_verify(&cls->tries[i].root, 0,
cls->tries[i].field->n_bits);
}
- ovs_mutex_lock(&cls->mutex);
assert(n_rules <= cls->n_rules);
- ovs_mutex_unlock(&cls->mutex);
}
static void
check_tables(const struct classifier *cls, int n_tables, int n_rules,
int n_dups)
+ OVS_NO_THREAD_SAFETY_ANALYSIS
{
const struct cls_subtable *table;
struct test_rule *test_rule;
int found_dups = 0;
int found_rules2 = 0;
- pvector_verify(&cls->cls->subtables);
- CMAP_FOR_EACH (table, cmap_node, &cls->cls->subtables_map) {
+ pvector_verify(&cls->subtables);
+ CMAP_FOR_EACH (table, cmap_node, &cls->subtables_map) {
const struct cls_match *head;
- unsigned int max_priority = 0;
+ int max_priority = INT_MIN;
unsigned int max_count = 0;
bool found = false;
const struct cls_subtable *iter;
/* Locate the subtable from 'subtables'. */
- PVECTOR_FOR_EACH (iter, &cls->cls->subtables) {
+ PVECTOR_FOR_EACH (iter, &cls->subtables) {
if (iter == table) {
if (found) {
- VLOG_ABORT("Subtable %p duplicated in 'subtables'.",
- table);
+ ovs_abort(0, "Subtable %p duplicated in 'subtables'.",
+ table);
}
found = true;
}
}
if (!found) {
- VLOG_ABORT("Subtable %p not found from 'subtables'.", table);
+ ovs_abort(0, "Subtable %p not found from 'subtables'.", table);
}
assert(!cmap_is_empty(&table->rules));
-
- ovs_mutex_lock(&cls->cls->mutex);
assert(trie_verify(&table->ports_trie, 0, table->ports_mask_len)
- == (table->ports_mask_len ? table->n_rules : 0));
- ovs_mutex_unlock(&cls->cls->mutex);
+ == (table->ports_mask_len ? cmap_count(&table->rules) : 0));
found_tables++;
CMAP_FOR_EACH (head, cmap_node, &table->rules) {
- unsigned int prev_priority = UINT_MAX;
+ int prev_priority = INT_MAX;
const struct cls_match *rule;
if (head->priority > max_priority) {
}
found_rules++;
- ovs_mutex_lock(&cls->cls->mutex);
- LIST_FOR_EACH (rule, list, &head->list) {
+ RCULIST_FOR_EACH (rule, list, &head->list) {
assert(rule->priority < prev_priority);
assert(rule->priority <= table->max_priority);
prev_priority = rule->priority;
found_rules++;
found_dups++;
- ovs_mutex_unlock(&cls->cls->mutex);
assert(classifier_find_rule_exactly(cls, rule->cls_rule)
== rule->cls_rule);
- ovs_mutex_lock(&cls->cls->mutex);
}
- ovs_mutex_unlock(&cls->cls->mutex);
}
- ovs_mutex_lock(&cls->cls->mutex);
assert(table->max_priority == max_priority);
assert(table->max_count == max_count);
- ovs_mutex_unlock(&cls->cls->mutex);
}
- assert(found_tables == cmap_count(&cls->cls->subtables_map));
- assert(found_tables == pvector_count(&cls->cls->subtables));
- assert(n_tables == -1 || n_tables == cmap_count(&cls->cls->subtables_map));
+ assert(found_tables == cmap_count(&cls->subtables_map));
+ assert(found_tables == pvector_count(&cls->subtables));
+ assert(n_tables == -1 || n_tables == cmap_count(&cls->subtables_map));
assert(n_rules == -1 || found_rules == n_rules);
assert(n_dups == -1 || found_dups == n_dups);
}
static struct test_rule *
-make_rule(int wc_fields, unsigned int priority, int value_pat)
+make_rule(int wc_fields, int priority, int value_pat)
{
const struct cls_field *f;
struct test_rule *rule;
}
rule = xzalloc(sizeof *rule);
- cls_rule_init(&rule->cls_rule, &match, wc_fields ? priority : UINT_MAX);
+ cls_rule_init(&rule->cls_rule, &match, wc_fields
+ ? (priority == INT_MIN ? priority + 1 : priority)
+ : INT_MAX);
return rule;
}
}
static void
-shuffle(unsigned int *p, size_t n)
+shuffle(int *p, size_t n)
{
for (; n > 1; n--, p++) {
- unsigned int *q = &p[random_range(n)];
- unsigned int tmp = *p;
+ int *q = &p[random_range(n)];
+ int tmp = *p;
*p = *q;
*q = tmp;
}
struct classifier cls;
struct tcls tcls;
- classifier_init(&cls, flow_segment_u32s);
+ classifier_init(&cls, flow_segment_u64s);
set_prefix_fields(&cls);
tcls_init(&tcls);
assert(classifier_is_empty(&cls));
rule = make_rule(wc_fields,
hash_bytes(&wc_fields, sizeof wc_fields, 0), 0);
- classifier_init(&cls, flow_segment_u32s);
+ classifier_init(&cls, flow_segment_u64s);
set_prefix_fields(&cls);
tcls_init(&tcls);
tcls_rule = tcls_insert(&tcls, rule);
- classifier_insert(&cls, &rule->cls_rule);
+ classifier_insert(&cls, &rule->cls_rule, NULL, 0);
compare_classifiers(&cls, &tcls);
check_tables(&cls, 1, 1, 0);
assert(tcls_is_empty(&tcls));
compare_classifiers(&cls, &tcls);
- free_rule(rule);
+ ovsrcu_postpone(free_rule, rule);
classifier_destroy(&cls);
tcls_destroy(&tcls);
}
rule2->aux += 5;
rule2->aux += 5;
- classifier_init(&cls, flow_segment_u32s);
+ classifier_init(&cls, flow_segment_u64s);
set_prefix_fields(&cls);
tcls_init(&tcls);
tcls_insert(&tcls, rule1);
- classifier_insert(&cls, &rule1->cls_rule);
+ classifier_insert(&cls, &rule1->cls_rule, NULL, 0);
compare_classifiers(&cls, &tcls);
check_tables(&cls, 1, 1, 0);
tcls_destroy(&tcls);
tcls_insert(&tcls, rule2);
assert(test_rule_from_cls_rule(
- classifier_replace(&cls, &rule2->cls_rule)) == rule1);
- free_rule(rule1);
+ classifier_replace(&cls, &rule2->cls_rule,
+ NULL, 0)) == rule1);
+ ovsrcu_postpone(free_rule, rule1);
compare_classifiers(&cls, &tcls);
check_tables(&cls, 1, 1, 0);
+ classifier_defer(&cls);
+ classifier_remove(&cls, &rule2->cls_rule);
tcls_destroy(&tcls);
destroy_classifier(&cls);
pri_rules[i] = -1;
}
- classifier_init(&cls, flow_segment_u32s);
+ classifier_init(&cls, flow_segment_u64s);
set_prefix_fields(&cls);
tcls_init(&tcls);
tcls_rules[j] = tcls_insert(&tcls, rules[j]);
displaced_rule = test_rule_from_cls_rule(
- classifier_replace(&cls, &rules[j]->cls_rule));
+ classifier_replace(&cls, &rules[j]->cls_rule,
+ NULL, 0));
if (pri_rules[pris[j]] >= 0) {
int k = pri_rules[pris[j]];
assert(displaced_rule != NULL);
check_tables(&cls, n > 0, n, n - 1);
}
+ classifier_defer(&cls);
for (i = 0; i < N_RULES; i++) {
- if (rules[i]->cls_rule.cls_match) {
- classifier_remove(&cls, &rules[i]->cls_rule);
+ if (classifier_remove(&cls, &rules[i]->cls_rule)) {
+ ovsrcu_postpone(free_rule, rules[i]);
}
- free_rule(rules[i]);
}
classifier_destroy(&cls);
tcls_destroy(&tcls);
value_mask = ~wcf & ((1u << CLS_N_FIELDS) - 1);
} while ((1 << count_ones(value_mask)) < N_RULES);
- classifier_init(&cls, flow_segment_u32s);
+ classifier_init(&cls, flow_segment_u64s);
set_prefix_fields(&cls);
tcls_init(&tcls);
for (i = 0; i < N_RULES; i++) {
- unsigned int priority = random_uint32();
+ int priority = random_range(INT_MAX);
do {
value_pats[i] = random_uint32() & value_mask;
rules[i] = make_rule(wcf, priority, value_pats[i]);
tcls_rules[i] = tcls_insert(&tcls, rules[i]);
- classifier_insert(&cls, &rules[i]->cls_rule);
+ classifier_insert(&cls, &rules[i]->cls_rule, NULL, 0);
compare_classifiers(&cls, &tcls);
check_tables(&cls, 1, i + 1, 0);
tcls_remove(&tcls, tcls_rules[i]);
classifier_remove(&cls, &rules[i]->cls_rule);
compare_classifiers(&cls, &tcls);
- free_rule(rules[i]);
+ ovsrcu_postpone(free_rule, rules[i]);
check_tables(&cls, i < N_RULES - 1, N_RULES - (i + 1), 0);
}
}
for (iteration = 0; iteration < 30; iteration++) {
- unsigned int priorities[MAX_RULES];
+ int priorities[MAX_RULES];
struct classifier cls;
struct tcls tcls;
random_set_seed(iteration + 1);
for (i = 0; i < MAX_RULES; i++) {
- priorities[i] = i * 129;
+ priorities[i] = (i * 129) & INT_MAX;
}
shuffle(priorities, ARRAY_SIZE(priorities));
- classifier_init(&cls, flow_segment_u32s);
+ classifier_init(&cls, flow_segment_u64s);
set_prefix_fields(&cls);
tcls_init(&tcls);
for (i = 0; i < MAX_RULES; i++) {
struct test_rule *rule;
- unsigned int priority = priorities[i];
+ int priority = priorities[i];
int wcf = wcfs[random_range(n_tables)];
int value_pat = random_uint32() & ((1u << CLS_N_FIELDS) - 1);
rule = make_rule(wcf, priority, value_pat);
tcls_insert(&tcls, rule);
- classifier_insert(&cls, &rule->cls_rule);
+ classifier_insert(&cls, &rule->cls_rule, NULL, 0);
compare_classifiers(&cls, &tcls);
check_tables(&cls, -1, i + 1, -1);
}
while (!classifier_is_empty(&cls)) {
- struct test_rule *rule, *next_rule;
struct test_rule *target;
+ struct test_rule *rule;
target = clone_rule(tcls.rules[random_range(tcls.n_rules)]);
- CLS_FOR_EACH_TARGET_SAFE (rule, next_rule, cls_rule, &cls,
- &target->cls_rule) {
- classifier_remove(&cls, &rule->cls_rule);
- free_rule(rule);
+ CLS_FOR_EACH_TARGET (rule, cls_rule, &cls, &target->cls_rule) {
+ if (classifier_remove(&cls, &rule->cls_rule)) {
+ ovsrcu_postpone(free_rule, rule);
+ }
}
tcls_delete_matches(&tcls, &target->cls_rule);
}
}
+#define FLOW_U32S (FLOW_U64S * 2)
+
static bool
init_consecutive_values(int n_consecutive, struct flow *flow,
unsigned int *idxp)
random_set_seed(0xb3faca38);
for (idx = 0; next_random_flow(&flow, idx); idx++) {
- const uint32_t *flow_u32 = (const uint32_t *) &flow;
+ const uint64_t *flow_u64 = (const uint64_t *) &flow;
struct miniflow miniflow, miniflow2, miniflow3;
struct flow flow2, flow3;
struct flow_wildcards mask;
/* Check that the flow equals its miniflow. */
assert(miniflow_get_vid(&miniflow) == vlan_tci_to_vid(flow.vlan_tci));
- for (i = 0; i < FLOW_U32S; i++) {
- assert(MINIFLOW_GET_TYPE(&miniflow, uint32_t, i * 4)
- == flow_u32[i]);
+ for (i = 0; i < FLOW_U64S; i++) {
+ assert(miniflow_get(&miniflow, i) == flow_u64[i]);
}
/* Check that the miniflow equals itself. */
for (idx = 0; next_random_flow(&flow, idx); idx++) {
struct minimask minimask, minimask2, minicombined;
struct flow_wildcards mask, mask2, combined, combined2;
- uint32_t storage[FLOW_U32S];
+ uint64_t storage[FLOW_U64S];
struct flow flow2;
mask.masks = flow;
\f
static const struct command commands[] = {
/* Classifier tests. */
- {"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},
- {"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-two-tables", 0, 0, test_many_rules_in_two_tables},
- {"many-rules-in-five-tables", 0, 0, test_many_rules_in_five_tables},
+ {"empty", NULL, 0, 0, test_empty},
+ {"destroy-null", NULL, 0, 0, test_destroy_null},
+ {"single-rule", NULL, 0, 0, test_single_rule},
+ {"rule-replacement", NULL, 0, 0, test_rule_replacement},
+ {"many-rules-in-one-list", NULL, 0, 0, test_many_rules_in_one_list},
+ {"many-rules-in-one-table", NULL, 0, 0, test_many_rules_in_one_table},
+ {"many-rules-in-two-tables", NULL, 0, 0, test_many_rules_in_two_tables},
+ {"many-rules-in-five-tables", NULL, 0, 0, test_many_rules_in_five_tables},
/* Miniflow and minimask tests. */
- {"miniflow", 0, 0, test_miniflow},
- {"minimask_has_extra", 0, 0, test_minimask_has_extra},
- {"minimask_combine", 0, 0, test_minimask_combine},
+ {"miniflow", NULL, 0, 0, test_miniflow},
+ {"minimask_has_extra", NULL, 0, 0, test_minimask_has_extra},
+ {"minimask_combine", NULL, 0, 0, test_minimask_combine},
- {NULL, 0, 0, NULL},
+ {NULL, NULL, 0, 0, NULL},
};
static void