2 * Distributed under the terms of the GNU GPL version 2.
3 * Copyright (c) 2007, 2008 The Board of Trustees of The Leland
4 * Stanford Junior University
11 #include <linux/rcupdate.h>
12 #include <linux/slab.h>
13 #include <linux/rculist.h>
15 struct sw_table_linear {
18 unsigned int max_flows;
20 struct list_head flows;
21 struct list_head iter_flows;
22 unsigned long int next_serial;
25 static struct sw_flow *table_linear_lookup(struct sw_table *swt,
26 const struct sw_flow_key *key)
28 struct sw_table_linear *tl = (struct sw_table_linear *) swt;
30 list_for_each_entry_rcu (flow, &tl->flows, node) {
31 if (flow_matches_1wild(key, &flow->key))
37 static int table_linear_insert(struct sw_table *swt, struct sw_flow *flow)
39 struct sw_table_linear *tl = (struct sw_table_linear *) swt;
43 /* Loop through the existing list of entries. New entries will
44 * always be placed behind those with equal priority. Just replace
45 * any flows that match exactly.
47 list_for_each_entry (f, &tl->flows, node) {
48 if (f->priority == flow->priority
49 && f->key.wildcards == flow->key.wildcards
50 && flow_matches_2wild(&f->key, &flow->key)) {
51 flow->serial = f->serial;
52 list_replace_rcu(&f->node, &flow->node);
53 list_replace_rcu(&f->iter_node, &flow->iter_node);
54 flow_deferred_free(f);
58 if (f->priority < flow->priority)
62 /* Make sure there's room in the table. */
63 if (tl->n_flows >= tl->max_flows) {
68 /* Insert the entry immediately in front of where we're pointing. */
69 flow->serial = tl->next_serial++;
70 list_add_tail_rcu(&flow->node, &f->node);
71 list_add_rcu(&flow->iter_node, &tl->iter_flows);
75 static int table_linear_modify(struct sw_table *swt,
76 const struct sw_flow_key *key, uint16_t priority, int strict,
77 const struct ofp_action_header *actions, size_t actions_len)
79 struct sw_table_linear *tl = (struct sw_table_linear *) swt;
81 unsigned int count = 0;
83 list_for_each_entry (flow, &tl->flows, node) {
84 if (flow_matches_desc(&flow->key, key, strict)
85 && (!strict || (flow->priority == priority))) {
86 flow_replace_acts(flow, actions, actions_len);
93 static int do_delete(struct datapath *dp, struct sw_table *swt,
94 struct sw_flow *flow, enum nx_flow_end_reason reason)
96 dp_send_flow_end(dp, flow, reason);
97 list_del_rcu(&flow->node);
98 list_del_rcu(&flow->iter_node);
99 flow_deferred_free(flow);
103 static int table_linear_delete(struct datapath *dp, struct sw_table *swt,
104 const struct sw_flow_key *key, uint16_t out_port,
105 uint16_t priority, int strict)
107 struct sw_table_linear *tl = (struct sw_table_linear *) swt;
108 struct sw_flow *flow;
109 unsigned int count = 0;
111 list_for_each_entry (flow, &tl->flows, node) {
112 if (flow_matches_desc(&flow->key, key, strict)
113 && flow_has_out_port(flow, out_port)
114 && (!strict || (flow->priority == priority)))
115 count += do_delete(dp, swt, flow, NXFER_DELETE);
117 tl->n_flows -= count;
121 static int table_linear_timeout(struct datapath *dp, struct sw_table *swt)
123 struct sw_table_linear *tl = (struct sw_table_linear *) swt;
124 struct sw_flow *flow;
127 mutex_lock(&dp_mutex);
128 list_for_each_entry (flow, &tl->flows, node) {
129 int reason = flow_timeout(flow);
131 count += do_delete(dp, swt, flow, reason);
134 tl->n_flows -= count;
135 mutex_unlock(&dp_mutex);
139 static void table_linear_destroy(struct sw_table *swt)
141 struct sw_table_linear *tl = (struct sw_table_linear *) swt;
143 while (!list_empty(&tl->flows)) {
144 struct sw_flow *flow = list_entry(tl->flows.next,
145 struct sw_flow, node);
146 list_del(&flow->node);
152 static int table_linear_iterate(struct sw_table *swt,
153 const struct sw_flow_key *key, uint16_t out_port,
154 struct sw_table_position *position,
155 int (*callback)(struct sw_flow *, void *),
158 struct sw_table_linear *tl = (struct sw_table_linear *) swt;
159 struct sw_flow *flow;
162 start = position->private[0];
163 list_for_each_entry (flow, &tl->iter_flows, iter_node) {
164 if (flow->serial >= start
165 && flow_matches_2wild(key, &flow->key)
166 && flow_has_out_port(flow, out_port)) {
167 int error = callback(flow, private);
169 position->private[0] = flow->serial;
177 static void table_linear_stats(struct sw_table *swt,
178 struct sw_table_stats *stats)
180 struct sw_table_linear *tl = (struct sw_table_linear *) swt;
181 stats->name = "linear";
182 stats->wildcards = OFPFW_ALL;
183 stats->n_flows = tl->n_flows;
184 stats->max_flows = tl->max_flows;
185 stats->n_lookup = swt->n_lookup;
186 stats->n_matched = swt->n_matched;
190 struct sw_table *table_linear_create(unsigned int max_flows)
192 struct sw_table_linear *tl;
193 struct sw_table *swt;
195 tl = kzalloc(sizeof *tl, GFP_KERNEL);
200 swt->lookup = table_linear_lookup;
201 swt->insert = table_linear_insert;
202 swt->modify = table_linear_modify;
203 swt->delete = table_linear_delete;
204 swt->timeout = table_linear_timeout;
205 swt->destroy = table_linear_destroy;
206 swt->iterate = table_linear_iterate;
207 swt->stats = table_linear_stats;
209 tl->max_flows = max_flows;
211 INIT_LIST_HEAD(&tl->flows);
212 INIT_LIST_HEAD(&tl->iter_flows);