#include <assert.h>
#include <errno.h>
#include <netinet/in.h>
+#include "byte-order.h"
#include "dynamic-string.h"
#include "flow.h"
#include "hash.h"
+#include "odp-util.h"
+#include "ofp-util.h"
#include "packets.h"
static struct cls_table *find_table(const struct classifier *,
const struct cls_table *);
static void destroy_table(struct classifier *, struct cls_table *);
-static bool should_include(const struct cls_table *, int include);
-
static struct cls_rule *find_match(const struct cls_table *,
const struct flow *);
static struct cls_rule *find_equal(struct cls_table *, const struct flow *,
(RULE) != NULL && ((NEXT) = next_rule_in_list(RULE), true); \
(RULE) = (NEXT))
+static struct cls_rule *next_rule_in_list__(struct cls_rule *);
static struct cls_rule *next_rule_in_list(struct cls_rule *);
static struct cls_table *
return node ? CONTAINER_OF(node, struct cls_table, hmap_node) : NULL;
}
-static struct cls_rule *
-cls_rule_from_hmap_node(const struct hmap_node *node)
-{
- return node ? CONTAINER_OF(node, struct cls_rule, hmap_node) : NULL;
-}
-
-/* Returns the cls_table within 'cls' that has no wildcards, or NULL if there
- * is none. */
-struct cls_table *
-classifier_exact_table(const struct classifier *cls)
-{
- struct flow_wildcards exact_wc;
- flow_wildcards_init_exact(&exact_wc);
- return find_table(cls, &exact_wc);
-}
-
-/* Returns the first rule in 'table', or a null pointer if 'table' is NULL. */
-struct cls_rule *
-cls_table_first_rule(const struct cls_table *table)
-{
- return table ? cls_rule_from_hmap_node(hmap_first(&table->rules)) : NULL;
-}
-
-/* Returns the next rule in 'table' following 'rule', or a null pointer if
- * 'rule' is the last rule in 'table'. */
-struct cls_rule *
-cls_table_next_rule(const struct cls_table *table, const struct cls_rule *rule)
-{
- struct cls_rule *next
- = CONTAINER_OF(rule->list.next, struct cls_rule, hmap_node);
-
- return (next->priority < rule->priority
- ? next
- : cls_rule_from_hmap_node(hmap_next(&table->rules,
- &next->hmap_node)));
-}
-
-static void
-cls_rule_init__(struct cls_rule *rule,
- const struct flow *flow, uint32_t wildcards)
-{
- rule->flow = *flow;
- flow_wildcards_init(&rule->wc, wildcards);
- cls_rule_zero_wildcarded_fields(rule);
-}
-
/* Converts the flow in 'flow' into a cls_rule in 'rule', with the given
- * 'wildcards' and 'priority'.*/
+ * 'wildcards' and 'priority'. */
void
-cls_rule_from_flow(const struct flow *flow, uint32_t wildcards,
- unsigned int priority, struct cls_rule *rule)
+cls_rule_init(const struct flow *flow, const struct flow_wildcards *wildcards,
+ unsigned int priority, struct cls_rule *rule)
{
- cls_rule_init__(rule, flow, wildcards);
+ rule->flow = *flow;
+ rule->wc = *wildcards;
rule->priority = priority;
+ cls_rule_zero_wildcarded_fields(rule);
}
-/* Converts the ofp_match in 'match' (with format 'flow_format', one of NXFF_*)
- * into a cls_rule in 'rule', with the given 'priority'. 'cookie' is used
- * when 'flow_format' is NXFF_TUN_ID_FROM_COOKIE. */
+/* Converts the flow in 'flow' into an exact-match cls_rule in 'rule', with the
+ * given 'priority'. (For OpenFlow 1.0, exact-match rule are always highest
+ * priority, so 'priority' should be at least 65535.) */
void
-cls_rule_from_match(const struct ofp_match *match, unsigned int priority,
- int flow_format, uint64_t cookie,
- struct cls_rule *rule)
+cls_rule_init_exact(const struct flow *flow,
+ unsigned int priority, struct cls_rule *rule)
{
- uint32_t wildcards;
- struct flow flow;
-
- flow_from_match(match, flow_format, cookie, &flow, &wildcards);
- cls_rule_init__(rule, &flow, wildcards);
- rule->priority = rule->wc.wildcards ? priority : UINT16_MAX;
+ rule->flow = *flow;
+ flow_wildcards_init_exact(&rule->wc);
+ rule->priority = priority;
}
/* Initializes 'rule' as a "catch-all" rule that matches every packet, with
cls_rule_init_catchall(struct cls_rule *rule, unsigned int priority)
{
memset(&rule->flow, 0, sizeof rule->flow);
- flow_wildcards_init(&rule->wc, OVSFW_ALL);
+ flow_wildcards_init_catchall(&rule->wc);
rule->priority = priority;
}
zero_wildcards(&rule->flow, &rule->wc);
}
+void
+cls_rule_set_reg(struct cls_rule *rule, unsigned int reg_idx, uint32_t value)
+{
+ cls_rule_set_reg_masked(rule, reg_idx, value, UINT32_MAX);
+}
+
+void
+cls_rule_set_reg_masked(struct cls_rule *rule, unsigned int reg_idx,
+ uint32_t value, uint32_t mask)
+{
+ assert(reg_idx < FLOW_N_REGS);
+ flow_wildcards_set_reg_mask(&rule->wc, reg_idx, mask);
+ rule->flow.regs[reg_idx] = value & mask;
+}
+
+void
+cls_rule_set_tun_id(struct cls_rule *rule, ovs_be64 tun_id)
+{
+ rule->wc.wildcards &= ~FWW_TUN_ID;
+ rule->flow.tun_id = tun_id;
+}
+
void
cls_rule_set_in_port(struct cls_rule *rule, uint16_t odp_port)
{
- rule->wc.wildcards &= ~OFPFW_IN_PORT;
+ rule->wc.wildcards &= ~FWW_IN_PORT;
rule->flow.in_port = odp_port;
}
void
cls_rule_set_dl_type(struct cls_rule *rule, ovs_be16 dl_type)
{
- rule->wc.wildcards &= ~OFPFW_DL_TYPE;
+ rule->wc.wildcards &= ~FWW_DL_TYPE;
rule->flow.dl_type = dl_type;
}
void
cls_rule_set_dl_src(struct cls_rule *rule, const uint8_t dl_src[ETH_ADDR_LEN])
{
- rule->wc.wildcards &= ~OFPFW_DL_SRC;
+ rule->wc.wildcards &= ~FWW_DL_SRC;
memcpy(rule->flow.dl_src, dl_src, ETH_ADDR_LEN);
}
void
cls_rule_set_dl_dst(struct cls_rule *rule, const uint8_t dl_dst[ETH_ADDR_LEN])
{
- rule->wc.wildcards &= ~OFPFW_DL_DST;
+ rule->wc.wildcards &= ~(FWW_DL_DST | FWW_ETH_MCAST);
memcpy(rule->flow.dl_dst, dl_dst, ETH_ADDR_LEN);
}
+void
+cls_rule_set_dl_tci(struct cls_rule *rule, ovs_be16 tci)
+{
+ cls_rule_set_dl_tci_masked(rule, tci, htons(0xffff));
+}
+
+void
+cls_rule_set_dl_tci_masked(struct cls_rule *rule, ovs_be16 tci, ovs_be16 mask)
+{
+ rule->flow.vlan_tci = tci & mask;
+ rule->wc.vlan_tci_mask = mask;
+}
+
+/* Modifies 'rule' so that the VLAN VID is wildcarded. If the PCP is already
+ * wildcarded, then 'rule' will match a packet regardless of whether it has an
+ * 802.1Q header or not. */
+void
+cls_rule_set_any_vid(struct cls_rule *rule)
+{
+ if (rule->wc.vlan_tci_mask & htons(VLAN_PCP_MASK)) {
+ rule->wc.vlan_tci_mask &= ~htons(VLAN_VID_MASK);
+ rule->flow.vlan_tci &= ~htons(VLAN_VID_MASK);
+ } else {
+ cls_rule_set_dl_tci_masked(rule, htons(0), htons(0));
+ }
+}
+
+/* Modifies 'rule' depending on 'dl_vlan':
+ *
+ * - If 'dl_vlan' is htons(OFP_VLAN_NONE), makes 'rule' match only packets
+ * without an 802.1Q header.
+ *
+ * - Otherwise, makes 'rule' match only packets with an 802.1Q header whose
+ * VID equals the low 12 bits of 'dl_vlan'.
+ */
+void
+cls_rule_set_dl_vlan(struct cls_rule *rule, ovs_be16 dl_vlan)
+{
+ if (dl_vlan == htons(OFP_VLAN_NONE)) {
+ cls_rule_set_dl_tci(rule, htons(0));
+ } else {
+ dl_vlan &= htons(VLAN_VID_MASK);
+ rule->flow.vlan_tci &= ~htons(VLAN_VID_MASK);
+ rule->flow.vlan_tci |= htons(VLAN_CFI) | dl_vlan;
+ rule->wc.vlan_tci_mask |= htons(VLAN_VID_MASK | VLAN_CFI);
+ }
+}
+
+/* Modifies 'rule' so that the VLAN PCP is wildcarded. If the VID is already
+ * wildcarded, then 'rule' will match a packet regardless of whether it has an
+ * 802.1Q header or not. */
+void
+cls_rule_set_any_pcp(struct cls_rule *rule)
+{
+ if (rule->wc.vlan_tci_mask & htons(VLAN_VID_MASK)) {
+ rule->wc.vlan_tci_mask &= ~htons(VLAN_PCP_MASK);
+ rule->flow.vlan_tci &= ~htons(VLAN_PCP_MASK);
+ } else {
+ cls_rule_set_dl_tci_masked(rule, htons(0), htons(0));
+ }
+}
+
+/* Modifies 'rule' so that it matches only packets with an 802.1Q header whose
+ * PCP equals the low 3 bits of 'dl_vlan_pcp'. */
+void
+cls_rule_set_dl_vlan_pcp(struct cls_rule *rule, uint8_t dl_vlan_pcp)
+{
+ dl_vlan_pcp &= 0x07;
+ rule->flow.vlan_tci &= ~htons(VLAN_PCP_MASK);
+ rule->flow.vlan_tci |= htons((dl_vlan_pcp << VLAN_PCP_SHIFT) | VLAN_CFI);
+ rule->wc.vlan_tci_mask |= htons(VLAN_CFI | VLAN_PCP_MASK);
+}
+
void
cls_rule_set_tp_src(struct cls_rule *rule, ovs_be16 tp_src)
{
- rule->wc.wildcards &= ~OFPFW_TP_SRC;
+ rule->wc.wildcards &= ~FWW_TP_SRC;
rule->flow.tp_src = tp_src;
}
void
cls_rule_set_tp_dst(struct cls_rule *rule, ovs_be16 tp_dst)
{
- rule->wc.wildcards &= ~OFPFW_TP_DST;
+ rule->wc.wildcards &= ~FWW_TP_DST;
rule->flow.tp_dst = tp_dst;
}
void
cls_rule_set_nw_proto(struct cls_rule *rule, uint8_t nw_proto)
{
- rule->wc.wildcards &= ~OFPFW_NW_PROTO;
+ rule->wc.wildcards &= ~FWW_NW_PROTO;
rule->flow.nw_proto = nw_proto;
}
void
cls_rule_set_nw_src(struct cls_rule *rule, ovs_be32 nw_src)
{
- flow_wildcards_set_nw_src_mask(&rule->wc, htonl(UINT32_MAX));
- rule->flow.nw_src = nw_src;
+ cls_rule_set_nw_src_masked(rule, nw_src, htonl(UINT32_MAX));
+}
+
+bool
+cls_rule_set_nw_src_masked(struct cls_rule *rule, ovs_be32 ip, ovs_be32 mask)
+{
+ if (flow_wildcards_set_nw_src_mask(&rule->wc, mask)) {
+ rule->flow.nw_src = ip & mask;
+ return true;
+ } else {
+ return false;
+ }
}
void
cls_rule_set_nw_dst(struct cls_rule *rule, ovs_be32 nw_dst)
{
- flow_wildcards_set_nw_dst_mask(&rule->wc, htonl(UINT32_MAX));
- rule->flow.nw_dst = nw_dst;
+ cls_rule_set_nw_dst_masked(rule, nw_dst, htonl(UINT32_MAX));
+}
+
+bool
+cls_rule_set_nw_dst_masked(struct cls_rule *rule, ovs_be32 ip, ovs_be32 mask)
+{
+ if (flow_wildcards_set_nw_dst_mask(&rule->wc, mask)) {
+ rule->flow.nw_dst = ip & mask;
+ return true;
+ } else {
+ return false;
+ }
+}
+
+void
+cls_rule_set_nw_tos(struct cls_rule *rule, uint8_t nw_tos)
+{
+ rule->wc.wildcards &= ~FWW_NW_TOS;
+ rule->flow.nw_tos = nw_tos & IP_DSCP_MASK;
+}
+
+void
+cls_rule_set_icmp_type(struct cls_rule *rule, uint8_t icmp_type)
+{
+ rule->wc.wildcards &= ~FWW_TP_SRC;
+ rule->flow.icmp_type = htons(icmp_type);
+
+}
+
+void
+cls_rule_set_icmp_code(struct cls_rule *rule, uint8_t icmp_code)
+{
+ rule->wc.wildcards &= ~FWW_TP_DST;
+ rule->flow.icmp_code = htons(icmp_code);
+}
+
+/* Returns true if 'a' and 'b' have the same priority, wildcard the same
+ * fields, and have the same values for fixed fields, otherwise false. */
+bool
+cls_rule_equal(const struct cls_rule *a, const struct cls_rule *b)
+{
+ return (a->priority == b->priority
+ && flow_wildcards_equal(&a->wc, &b->wc)
+ && flow_equal(&a->flow, &b->flow));
+}
+
+static void
+format_ip_netmask(struct ds *s, const char *name, ovs_be32 ip,
+ ovs_be32 netmask)
+{
+ if (netmask) {
+ ds_put_format(s, "%s="IP_FMT, name, IP_ARGS(&ip));
+ if (netmask != htonl(UINT32_MAX)) {
+ if (ip_is_cidr(netmask)) {
+ int wcbits = ofputil_netmask_to_wcbits(netmask);
+ ds_put_format(s, "/%d", 32 - wcbits);
+ } else {
+ ds_put_format(s, "/"IP_FMT, IP_ARGS(&netmask));
+ }
+ }
+ ds_put_char(s, ',');
+ }
+}
+
+void
+cls_rule_format(const struct cls_rule *rule, struct ds *s)
+{
+ const struct flow_wildcards *wc = &rule->wc;
+ size_t start_len = s->length;
+ flow_wildcards_t w = wc->wildcards;
+ const struct flow *f = &rule->flow;
+ bool skip_type = false;
+ bool skip_proto = false;
+
+ int i;
+
+ if (rule->priority != 32768) {
+ ds_put_format(s, "priority=%d,", rule->priority);
+ }
+
+ if (!(w & FWW_DL_TYPE)) {
+ skip_type = true;
+ if (f->dl_type == htons(ETH_TYPE_IP)) {
+ if (!(w & FWW_NW_PROTO)) {
+ skip_proto = true;
+ if (f->nw_proto == IP_TYPE_ICMP) {
+ ds_put_cstr(s, "icmp,");
+ } else if (f->nw_proto == IP_TYPE_TCP) {
+ ds_put_cstr(s, "tcp,");
+ } else if (f->nw_proto == IP_TYPE_UDP) {
+ ds_put_cstr(s, "udp,");
+ } else {
+ ds_put_cstr(s, "ip,");
+ skip_proto = false;
+ }
+ } else {
+ ds_put_cstr(s, "ip,");
+ }
+ } else if (f->dl_type == htons(ETH_TYPE_ARP)) {
+ ds_put_cstr(s, "arp,");
+ } else {
+ skip_type = false;
+ }
+ }
+ for (i = 0; i < FLOW_N_REGS; i++) {
+ switch (wc->reg_masks[i]) {
+ case 0:
+ break;
+ case UINT32_MAX:
+ ds_put_format(s, "reg%d=0x%"PRIx32",", i, f->regs[i]);
+ break;
+ default:
+ ds_put_format(s, "reg%d=0x%"PRIx32"/0x%"PRIx32",",
+ i, f->regs[i], wc->reg_masks[i]);
+ break;
+ }
+ }
+ if (!(w & FWW_TUN_ID)) {
+ ds_put_format(s, "tun_id=0x%"PRIx64",", ntohll(f->tun_id));
+ }
+ if (!(w & FWW_IN_PORT)) {
+ ds_put_format(s, "in_port=%"PRIu16",",
+ odp_port_to_ofp_port(f->in_port));
+ }
+ if (wc->vlan_tci_mask) {
+ ovs_be16 vid_mask = wc->vlan_tci_mask & htons(VLAN_VID_MASK);
+ ovs_be16 pcp_mask = wc->vlan_tci_mask & htons(VLAN_PCP_MASK);
+ ovs_be16 cfi = wc->vlan_tci_mask & htons(VLAN_CFI);
+
+ if (cfi && f->vlan_tci & htons(VLAN_CFI)
+ && (!vid_mask || vid_mask == htons(VLAN_VID_MASK))
+ && (!pcp_mask || pcp_mask == htons(VLAN_PCP_MASK))
+ && (vid_mask || pcp_mask)) {
+ if (vid_mask) {
+ ds_put_format(s, "dl_vlan=%"PRIu16",",
+ vlan_tci_to_vid(f->vlan_tci));
+ }
+ if (pcp_mask) {
+ ds_put_format(s, "dl_vlan_pcp=%d,",
+ vlan_tci_to_pcp(f->vlan_tci));
+ }
+ } else {
+ ds_put_format(s, "vlan_tci=0x%04"PRIx16"/0x%04"PRIx16",",
+ ntohs(f->vlan_tci), ntohs(wc->vlan_tci_mask));
+ }
+ }
+ if (!(w & FWW_DL_SRC)) {
+ ds_put_format(s, "dl_src="ETH_ADDR_FMT",", ETH_ADDR_ARGS(f->dl_src));
+ }
+ switch (w & (FWW_DL_DST | FWW_ETH_MCAST)) {
+ case 0:
+ ds_put_format(s, "dl_dst="ETH_ADDR_FMT",", ETH_ADDR_ARGS(f->dl_dst));
+ break;
+ case FWW_DL_DST:
+ ds_put_format(s, "dl_dst="ETH_ADDR_FMT"/01:00:00:00:00:00,",
+ ETH_ADDR_ARGS(f->dl_dst));
+ break;
+ case FWW_ETH_MCAST:
+ ds_put_format(s, "dl_dst="ETH_ADDR_FMT"/fe:ff:ff:ff:ff:ff,",
+ ETH_ADDR_ARGS(f->dl_dst));
+ break;
+ case FWW_DL_DST | FWW_ETH_MCAST:
+ break;
+ }
+ if (!skip_type && !(w & FWW_DL_TYPE)) {
+ ds_put_format(s, "dl_type=0x%04"PRIx16",", ntohs(f->dl_type));
+ }
+ format_ip_netmask(s, "nw_src", f->nw_src, wc->nw_src_mask);
+ format_ip_netmask(s, "nw_dst", f->nw_dst, wc->nw_dst_mask);
+ if (!skip_proto && !(w & FWW_NW_PROTO)) {
+ if (f->dl_type == htons(ETH_TYPE_ARP)) {
+ ds_put_format(s, "arp_op=%"PRIu8, f->nw_proto);
+ } else {
+ ds_put_format(s, "nw_proto=%"PRIu8, f->nw_proto);
+ }
+ }
+ if (!(w & FWW_NW_TOS)) {
+ ds_put_format(s, "nw_tos=%"PRIu8",", f->nw_tos);
+ }
+ if (f->nw_proto == IP_TYPE_ICMP) {
+ if (!(w & FWW_TP_SRC)) {
+ ds_put_format(s, "icmp_type=%"PRIu16, ntohs(f->tp_src));
+ }
+ if (!(w & FWW_TP_DST)) {
+ ds_put_format(s, "icmp_code=%"PRIu16, ntohs(f->tp_dst));
+ }
+ } else {
+ if (!(w & FWW_TP_SRC)) {
+ ds_put_format(s, "tp_src=%"PRIu16, ntohs(f->tp_src));
+ }
+ if (!(w & FWW_TP_DST)) {
+ ds_put_format(s, "tp_dst=%"PRIu16, ntohs(f->tp_dst));
+ }
+ }
+
+ if (s->length > start_len && ds_last(s) == ',') {
+ s->length--;
+ }
}
/* Converts 'rule' to a string and returns the string. The caller must free
cls_rule_to_string(const struct cls_rule *rule)
{
struct ds s = DS_EMPTY_INITIALIZER;
- ds_put_format(&s, "wildcards=%x priority=%u ",
- rule->wc.wildcards, rule->priority);
- flow_format(&s, &rule->flow);
- return ds_cstr(&s);
+ cls_rule_format(rule, &s);
+ return ds_steal_cstr(&s);
}
-/* Prints cls_rule 'rule', for debugging.
- *
- * (The output could be improved and expanded, but this was good enough to
- * debug the classifier.) */
void
cls_rule_print(const struct cls_rule *rule)
{
- printf("wildcards=%x priority=%u ", rule->wc.wildcards, rule->priority);
- flow_print(stdout, &rule->flow);
- putc('\n', stdout);
+ char *s = cls_rule_to_string(rule);
+ puts(s);
+ free(s);
}
\f
/* Initializes 'cls' as a classifier that initially contains no classification
return cls->n_rules;
}
-/* Returns the number of rules in 'classifier' that have no wildcards. */
-int
-classifier_count_exact(const struct classifier *cls)
-{
- struct cls_table *exact_table = classifier_exact_table(cls);
- return exact_table ? exact_table->n_table_rules : 0;
-}
-
/* Inserts 'rule' into 'cls'. Until 'rule' is removed from 'cls', the caller
* must not modify or free it.
*
hmap_replace(&table->rules, &rule->hmap_node, &next->hmap_node);
}
- if (--table->n_table_rules == 0 && !table->n_refs) {
+ if (--table->n_table_rules == 0) {
destroy_table(cls, table);
}
/* Finds and returns the highest-priority rule in 'cls' that matches 'flow'.
* Returns a null pointer if no rules in 'cls' match 'flow'. If multiple rules
- * of equal priority match 'flow', returns one arbitrarily.
- *
- * 'include' is a combination of CLS_INC_* values that specify tables to
- * include in the search. */
+ * of equal priority match 'flow', returns one arbitrarily. */
struct cls_rule *
-classifier_lookup(const struct classifier *cls, const struct flow *flow,
- int include)
+classifier_lookup(const struct classifier *cls, const struct flow *flow)
{
struct cls_table *table;
struct cls_rule *best;
best = NULL;
HMAP_FOR_EACH (table, hmap_node, &cls->tables) {
- if (should_include(table, include)) {
- struct cls_rule *rule = find_match(table, flow);
- if (rule && (!best || rule->priority > best->priority)) {
- best = rule;
- }
+ struct cls_rule *rule = find_match(table, flow);
+ if (rule && (!best || rule->priority > best->priority)) {
+ best = rule;
}
}
return best;
}
head = find_equal(table, &target->flow, flow_hash(&target->flow, 0));
- if (!target->wc.wildcards) {
+ if (flow_wildcards_is_exact(&target->wc)) {
return head;
}
FOR_EACH_RULE_IN_LIST (rule, head) {
return false;
}
+\f
+/* Iteration. */
+
+static bool
+rule_matches(const struct cls_rule *rule, const struct cls_rule *target)
+{
+ return (!target
+ || flow_equal_except(&rule->flow, &target->flow, &target->wc));
+}
+
+static struct cls_rule *
+search_table(const struct cls_table *table, const struct cls_rule *target)
+{
+ if (!target || !flow_wildcards_has_extra(&table->wc, &target->wc)) {
+ struct cls_rule *rule;
+
+ HMAP_FOR_EACH (rule, hmap_node, &table->rules) {
+ if (rule_matches(rule, target)) {
+ return rule;
+ }
+ }
+ }
+ return NULL;
+}
-/* Searches 'cls' for rules that exactly match 'target' or are more specific
- * than 'target'. That is, a given 'rule' matches 'target' if, for every
- * field:
+/* Initializes 'cursor' for iterating through 'cls' rules that exactly match
+ * 'target' or are more specific than 'target'. That is, a given 'rule'
+ * matches 'target' if, for every field:
*
* - 'target' and 'rule' specify the same (non-wildcarded) value for the
* field, or
*
* Ignores target->priority.
*
- * 'callback' is allowed to delete the rule that is passed as its argument, but
- * it must not delete (or move) any other rules in 'cls' that have the same
- * wildcards as the argument rule. */
+ * 'target' may be NULL to iterate over every rule in 'cls'. */
void
-classifier_for_each_match(const struct classifier *cls_,
- const struct cls_rule *target,
- int include, cls_cb_func *callback, void *aux)
-{
- struct classifier *cls = (struct classifier *) cls_;
- struct cls_table *table, *next_table;
-
- for (table = classifier_first_table(cls); table; table = next_table) {
- if (should_include(table, include)
- && !flow_wildcards_has_extra(&table->wc, &target->wc)) {
- /* We have eliminated the "no" case in the truth table above. Two
- * of the three remaining cases are trivial. We only need to check
- * the fourth case, where both 'rule' and 'target' require an exact
- * match. */
- struct cls_rule *head, *next_head;
-
- table->n_refs++;
- HMAP_FOR_EACH_SAFE (head, next_head, hmap_node, &table->rules) {
- if (flow_equal_except(&head->flow, &target->flow,
- &target->wc)) {
- struct cls_rule *rule, *next_rule;
-
- FOR_EACH_RULE_IN_LIST_SAFE (rule, next_rule, head) {
- callback(rule, aux);
- }
- }
- }
- next_table = classifier_next_table(cls, table);
- if (!--table->n_refs && !table->n_table_rules) {
- destroy_table(cls, table);
- }
- } else {
- next_table = classifier_next_table(cls, table);
+cls_cursor_init(struct cls_cursor *cursor, const struct classifier *cls,
+ const struct cls_rule *target)
+{
+ cursor->cls = cls;
+ cursor->target = target;
+}
+
+/* Returns the first matching cls_rule in 'cursor''s iteration, or a null
+ * pointer if there are no matches. */
+struct cls_rule *
+cls_cursor_first(struct cls_cursor *cursor)
+{
+ struct cls_table *table;
+
+ for (table = classifier_first_table(cursor->cls); table;
+ table = classifier_next_table(cursor->cls, table)) {
+ struct cls_rule *rule = search_table(table, cursor->target);
+ if (rule) {
+ cursor->table = table;
+ return rule;
}
}
+
+ return NULL;
}
-/* 'callback' is allowed to delete the rule that is passed as its argument, but
- * it must not delete (or move) any other rules in 'cls' that have the same
- * wildcards as the argument rule.
- *
- * If 'include' is CLS_INC_EXACT then CLASSIFIER_FOR_EACH_EXACT_RULE is
- * probably easier to use. */
-void
-classifier_for_each(const struct classifier *cls_, int include,
- cls_cb_func *callback, void *aux)
+/* Returns the next matching cls_rule in 'cursor''s iteration, or a null
+ * pointer if there are no more matches. */
+struct cls_rule *
+cls_cursor_next(struct cls_cursor *cursor, struct cls_rule *rule)
{
- struct classifier *cls = (struct classifier *) cls_;
- struct cls_table *table, *next_table;
+ const struct cls_table *table;
+ struct cls_rule *next;
- for (table = classifier_first_table(cls); table; table = next_table) {
- if (should_include(table, include)) {
- struct cls_rule *head, *next_head;
+ next = next_rule_in_list__(rule);
+ if (next->priority < rule->priority) {
+ return next;
+ }
- table->n_refs++;
- HMAP_FOR_EACH_SAFE (head, next_head, hmap_node, &table->rules) {
- struct cls_rule *rule, *next_rule;
+ /* 'next' is the head of the list, that is, the rule that is included in
+ * the table's hmap. (This is important when the classifier contains rules
+ * that differ only in priority.) */
+ rule = next;
+ HMAP_FOR_EACH_CONTINUE (rule, hmap_node, &cursor->table->rules) {
+ if (rule_matches(rule, cursor->target)) {
+ return rule;
+ }
+ }
- FOR_EACH_RULE_IN_LIST_SAFE (rule, next_rule, head) {
- callback(rule, aux);
- }
- }
- next_table = classifier_next_table(cls, table);
- if (!--table->n_refs && !table->n_table_rules) {
- destroy_table(cls, table);
- }
- } else {
- next_table = classifier_next_table(cls, table);
+ for (table = classifier_next_table(cursor->cls, cursor->table); table;
+ table = classifier_next_table(cursor->cls, table)) {
+ rule = search_table(table, cursor->target);
+ if (rule) {
+ cursor->table = table;
+ return rule;
}
}
+
+ return NULL;
}
\f
static struct cls_table *
free(table);
}
-/* Returns true if 'table' should be included by an operation with the
- * specified 'include' (a combination of CLS_INC_*). */
-static bool
-should_include(const struct cls_table *table, int include)
-{
- return include & (table->wc.wildcards ? CLS_INC_WILD : CLS_INC_EXACT);
-}
-
static struct cls_rule *
find_match(const struct cls_table *table, const struct flow *flow)
{
}
static struct cls_rule *
-next_rule_in_list(struct cls_rule *rule)
+next_rule_in_list__(struct cls_rule *rule)
{
struct cls_rule *next = OBJECT_CONTAINING(rule->list.next, next, list);
+ return next;
+}
+
+static struct cls_rule *
+next_rule_in_list(struct cls_rule *rule)
+{
+ struct cls_rule *next = next_rule_in_list__(rule);
return next->priority < rule->priority ? next : NULL;
}
flow_equal_except(const struct flow *a, const struct flow *b,
const struct flow_wildcards *wildcards)
{
- const uint32_t wc = wildcards->wildcards;
+ const flow_wildcards_t wc = wildcards->wildcards;
+ int i;
- BUILD_ASSERT_DECL(FLOW_SIG_SIZE == 37);
+ BUILD_ASSERT_DECL(FLOW_SIG_SIZE == 40 + FLOW_N_REGS * 4);
- return ((wc & NXFW_TUN_ID || a->tun_id == b->tun_id)
+ for (i = 0; i < FLOW_N_REGS; i++) {
+ if ((a->regs[i] ^ b->regs[i]) & wildcards->reg_masks[i]) {
+ return false;
+ }
+ }
+
+ return ((wc & FWW_TUN_ID || a->tun_id == b->tun_id)
&& !((a->nw_src ^ b->nw_src) & wildcards->nw_src_mask)
&& !((a->nw_dst ^ b->nw_dst) & wildcards->nw_dst_mask)
- && (wc & OFPFW_IN_PORT || a->in_port == b->in_port)
- && (wc & OFPFW_DL_VLAN || a->dl_vlan == b->dl_vlan)
- && (wc & OFPFW_DL_TYPE || a->dl_type == b->dl_type)
- && (wc & OFPFW_TP_SRC || a->tp_src == b->tp_src)
- && (wc & OFPFW_TP_DST || a->tp_dst == b->tp_dst)
- && (wc & OFPFW_DL_SRC || eth_addr_equals(a->dl_src, b->dl_src))
- && (wc & OFPFW_DL_DST || eth_addr_equals(a->dl_dst, b->dl_dst))
- && (wc & OFPFW_NW_PROTO || a->nw_proto == b->nw_proto)
- && (wc & OFPFW_DL_VLAN_PCP || a->dl_vlan_pcp == b->dl_vlan_pcp)
- && (wc & OFPFW_NW_TOS || a->nw_tos == b->nw_tos));
+ && (wc & FWW_IN_PORT || a->in_port == b->in_port)
+ && !((a->vlan_tci ^ b->vlan_tci) & wildcards->vlan_tci_mask)
+ && (wc & FWW_DL_TYPE || a->dl_type == b->dl_type)
+ && (wc & FWW_TP_SRC || a->tp_src == b->tp_src)
+ && (wc & FWW_TP_DST || a->tp_dst == b->tp_dst)
+ && (wc & FWW_DL_SRC || eth_addr_equals(a->dl_src, b->dl_src))
+ && (wc & FWW_DL_DST
+ || (!((a->dl_dst[0] ^ b->dl_dst[0]) & 0xfe)
+ && a->dl_dst[1] == b->dl_dst[1]
+ && a->dl_dst[2] == b->dl_dst[2]
+ && a->dl_dst[3] == b->dl_dst[3]
+ && a->dl_dst[4] == b->dl_dst[4]
+ && a->dl_dst[5] == b->dl_dst[5]))
+ && (wc & FWW_ETH_MCAST
+ || !((a->dl_dst[0] ^ b->dl_dst[0]) & 0x01))
+ && (wc & FWW_NW_PROTO || a->nw_proto == b->nw_proto)
+ && (wc & FWW_NW_TOS || a->nw_tos == b->nw_tos));
}
static void
zero_wildcards(struct flow *flow, const struct flow_wildcards *wildcards)
{
- const uint32_t wc = wildcards->wildcards;
+ const flow_wildcards_t wc = wildcards->wildcards;
+ int i;
- BUILD_ASSERT_DECL(FLOW_SIG_SIZE == 37);
+ BUILD_ASSERT_DECL(FLOW_SIG_SIZE == 40 + 4 * FLOW_N_REGS);
- if (wc & NXFW_TUN_ID) {
+ for (i = 0; i < FLOW_N_REGS; i++) {
+ flow->regs[i] &= wildcards->reg_masks[i];
+ }
+ if (wc & FWW_TUN_ID) {
flow->tun_id = 0;
}
flow->nw_src &= wildcards->nw_src_mask;
flow->nw_dst &= wildcards->nw_dst_mask;
- if (wc & OFPFW_IN_PORT) {
+ if (wc & FWW_IN_PORT) {
flow->in_port = 0;
}
- if (wc & OFPFW_DL_VLAN) {
- flow->dl_vlan = 0;
- }
- if (wc & OFPFW_DL_TYPE) {
+ flow->vlan_tci &= wildcards->vlan_tci_mask;
+ if (wc & FWW_DL_TYPE) {
flow->dl_type = 0;
}
- if (wc & OFPFW_TP_SRC) {
+ if (wc & FWW_TP_SRC) {
flow->tp_src = 0;
}
- if (wc & OFPFW_TP_DST) {
+ if (wc & FWW_TP_DST) {
flow->tp_dst = 0;
}
- if (wc & OFPFW_DL_SRC) {
+ if (wc & FWW_DL_SRC) {
memset(flow->dl_src, 0, sizeof flow->dl_src);
}
- if (wc & OFPFW_DL_DST) {
- memset(flow->dl_dst, 0, sizeof flow->dl_dst);
+ if (wc & FWW_DL_DST) {
+ flow->dl_dst[0] &= 0x01;
+ memset(&flow->dl_dst[1], 0, 5);
}
- if (wc & OFPFW_NW_PROTO) {
- flow->nw_proto = 0;
+ if (wc & FWW_ETH_MCAST) {
+ flow->dl_dst[0] &= 0xfe;
}
- if (wc & OFPFW_DL_VLAN_PCP) {
- flow->dl_vlan_pcp = 0;
+ if (wc & FWW_NW_PROTO) {
+ flow->nw_proto = 0;
}
- if (wc & OFPFW_NW_TOS) {
+ if (wc & FWW_NW_TOS) {
flow->nw_tos = 0;
}
}