{
return hash_int(odp_to_u32(odp_port), 0);
}
-
-uint32_t flow_hash_in_minimask(const struct flow *, const struct minimask *,
- uint32_t basis);
-uint32_t flow_hash_in_minimask_range(const struct flow *,
- const struct minimask *,
- uint8_t start, uint8_t end,
- uint32_t *basis);
\f
/* Wildcards for a flow.
*
const struct flow_wildcards *src2);
bool flow_wildcards_has_extra(const struct flow_wildcards *,
const struct flow_wildcards *);
-
-void flow_wildcards_fold_minimask(struct flow_wildcards *,
- const struct minimask *);
-void flow_wildcards_fold_minimask_range(struct flow_wildcards *,
- const struct minimask *,
- uint8_t start, uint8_t end);
-
uint32_t flow_wildcards_hash(const struct flow_wildcards *, uint32_t basis);
bool flow_wildcards_equal(const struct flow_wildcards *,
const struct flow_wildcards *);
void miniflow_expand(const struct miniflow *, struct flow *);
+#define FLOW_U32_SIZE(FIELD) \
+ DIV_ROUND_UP(sizeof(((struct flow *)0)->FIELD), sizeof(uint32_t))
+
+#define MINIFLOW_MAP(FIELD) \
+ (((UINT64_C(1) << FLOW_U32_SIZE(FIELD)) - 1) \
+ << (offsetof(struct flow, FIELD) / 4))
+
static inline uint32_t
mf_get_next_in_map(uint64_t *fmap, uint64_t rm1bit, const uint32_t **fp,
uint32_t *value)
mf_get_next_in_map(&fmap_, rm1bit_, &fp_, &(VALUE)); \
map_ -= rm1bit_, rm1bit_ = rightmost_1bit(map_))
-/* These accessors use byte offsets, which are assumed to be compile-time
- * constants. */
-static inline uint8_t miniflow_get_u8(const struct miniflow *,
- unsigned int ofs);
-static inline uint16_t miniflow_get_u16(const struct miniflow *,
- unsigned int ofs);
-static inline ovs_be16 miniflow_get_be16(const struct miniflow *,
- unsigned int ofs);
-static inline uint32_t miniflow_get_u32(const struct miniflow *,
- unsigned int ofs);
-static inline ovs_be32 miniflow_get_be32(const struct miniflow *,
- unsigned int ofs);
+/* Get the value of 'FIELD' of an up to 4 byte wide integer type 'TYPE' of
+ * a miniflow. */
+#define MINIFLOW_GET_TYPE(MF, TYPE, OFS) \
+ (((MF)->map & (UINT64_C(1) << (OFS) / 4)) \
+ ? ((OVS_FORCE const TYPE *) \
+ ((MF)->values \
+ + count_1bits((MF)->map & ((UINT64_C(1) << (OFS) / 4) - 1)))) \
+ [(OFS) % 4 / sizeof(TYPE)] \
+ : 0) \
+
+#define MINIFLOW_GET_U8(FLOW, FIELD) \
+ MINIFLOW_GET_TYPE(FLOW, uint8_t, offsetof(struct flow, FIELD))
+#define MINIFLOW_GET_U16(FLOW, FIELD) \
+ MINIFLOW_GET_TYPE(FLOW, uint16_t, offsetof(struct flow, FIELD))
+#define MINIFLOW_GET_BE16(FLOW, FIELD) \
+ MINIFLOW_GET_TYPE(FLOW, ovs_be16, offsetof(struct flow, FIELD))
+#define MINIFLOW_GET_U32(FLOW, FIELD) \
+ MINIFLOW_GET_TYPE(FLOW, uint32_t, offsetof(struct flow, FIELD))
+#define MINIFLOW_GET_BE32(FLOW, FIELD) \
+ MINIFLOW_GET_TYPE(FLOW, ovs_be32, offsetof(struct flow, FIELD))
static inline uint16_t miniflow_get_vid(const struct miniflow *);
static inline uint16_t miniflow_get_tcp_flags(const struct miniflow *);
static inline ovs_be64 miniflow_get_metadata(const struct miniflow *);
-static inline uint8_t miniflow_get_u8(const struct miniflow *, unsigned int ofs);
bool miniflow_equal(const struct miniflow *a, const struct miniflow *b);
bool miniflow_equal_in_minimask(const struct miniflow *a,
bool miniflow_equal_flow_in_minimask(const struct miniflow *a,
const struct flow *b,
const struct minimask *);
-uint32_t miniflow_hash(const struct miniflow *, uint32_t basis);
-uint32_t miniflow_hash_in_minimask(const struct miniflow *,
- const struct minimask *, uint32_t basis);
-uint64_t miniflow_get_map_in_range(const struct miniflow *miniflow,
- uint8_t start, uint8_t end,
- unsigned int *offset);
uint32_t miniflow_hash_5tuple(const struct miniflow *flow, uint32_t basis);
\f
static inline ovs_be64 minimask_get_metadata_mask(const struct minimask *);
bool minimask_equal(const struct minimask *a, const struct minimask *b);
-uint32_t minimask_hash(const struct minimask *, uint32_t basis);
-
bool minimask_has_extra(const struct minimask *, const struct minimask *);
-bool minimask_is_catchall(const struct minimask *);
-\f
-
-/* 'OFS' is a compile-time constant. */
-#define MINIFLOW_GET_TYPE(MF, TYPE, OFS) \
- (MF->map & UINT64_C(1) << OFS / 4) \
- ? ((OVS_FORCE const TYPE *) \
- (MF->values + count_1bits(MF->map & ((UINT64_C(1) << OFS / 4) - 1)))) \
- [OFS % 4 / sizeof(TYPE)] \
- : 0
-
-static inline uint8_t
-miniflow_get_u8(const struct miniflow *flow, unsigned int ofs)
-{
- return MINIFLOW_GET_TYPE(flow, uint8_t, ofs);
-}
-static inline uint16_t
-miniflow_get_u16(const struct miniflow *flow, unsigned int ofs)
-{
- return MINIFLOW_GET_TYPE(flow, uint16_t, ofs);
-}
-
-/* Returns the ovs_be16 that would be at byte offset 'u8_ofs' if 'flow' were
- * expanded into a "struct flow". */
-static inline ovs_be16
-miniflow_get_be16(const struct miniflow *flow, unsigned int ofs)
-{
- return MINIFLOW_GET_TYPE(flow, ovs_be16, ofs);
-}
-
-static inline uint32_t
-miniflow_get_u32(const struct miniflow *flow, unsigned int ofs)
-{
- return MINIFLOW_GET_TYPE(flow, uint32_t, ofs);
-}
-
-static inline ovs_be32
-miniflow_get_be32(const struct miniflow *flow, unsigned int ofs)
+/* Returns true if 'mask' matches every packet, false if 'mask' fixes any bits
+ * or fields. */
+static inline bool
+minimask_is_catchall(const struct minimask *mask)
{
- return MINIFLOW_GET_TYPE(flow, ovs_be32, ofs);
+ /* For every 1-bit in mask's map, the corresponding value is non-zero,
+ * so the only way the mask can not fix any bits or fields is for the
+ * map the be zero. */
+ return mask->masks.map == 0;
}
-#undef MINIFLOW_GET_TYPE
+\f
/* Returns the VID within the vlan_tci member of the "struct flow" represented
* by 'flow'. */
static inline uint16_t
miniflow_get_vid(const struct miniflow *flow)
{
- ovs_be16 tci = miniflow_get_be16(flow, offsetof(struct flow, vlan_tci));
+ ovs_be16 tci = MINIFLOW_GET_BE16(flow, vlan_tci);
return vlan_tci_to_vid(tci);
}
static inline uint16_t
miniflow_get_tcp_flags(const struct miniflow *flow)
{
- return ntohs(miniflow_get_be16(flow, offsetof(struct flow, tcp_flags)));
+ return ntohs(MINIFLOW_GET_BE16(flow, tcp_flags));
}
/* Returns the value of the OpenFlow 1.1+ "metadata" field in 'flow'. */
static inline ovs_be64
miniflow_get_metadata(const struct miniflow *flow)
{
+ union {
+ ovs_be64 be64;
+ struct {
+ ovs_be32 hi;
+ ovs_be32 lo;
+ };
+ } value;
+
enum { MD_OFS = offsetof(struct flow, metadata) };
BUILD_ASSERT_DECL(MD_OFS % sizeof(uint32_t) == 0);
- ovs_be32 hi = miniflow_get_be32(flow, MD_OFS);
- ovs_be32 lo = miniflow_get_be32(flow, MD_OFS + 4);
+ value.hi = MINIFLOW_GET_TYPE(flow, ovs_be32, MD_OFS);
+ value.lo = MINIFLOW_GET_TYPE(flow, ovs_be32, MD_OFS + 4);
- return htonll(((uint64_t) ntohl(hi) << 32) | ntohl(lo));
+ return value.be64;
}
/* Returns the mask for the OpenFlow 1.1+ "metadata" field in 'mask'.
return miniflow_get_metadata(&mask->masks);
}
+/* Perform a bitwise OR of miniflow 'src' flow data with the equivalent
+ * fields in 'dst', storing the result in 'dst'. */
+static inline void
+flow_union_with_miniflow(struct flow *dst, const struct miniflow *src)
+{
+ uint32_t *dst_u32 = (uint32_t *) dst;
+ const uint32_t *p = (uint32_t *)src->values;
+ uint64_t map;
+
+ for (map = src->map; map; map = zero_rightmost_1bit(map)) {
+ dst_u32[raw_ctz(map)] |= *p++;
+ }
+}
+
static inline struct pkt_metadata
pkt_metadata_from_flow(const struct flow *flow)
{
&& flow->nw_proto == IPPROTO_ICMPV6);
}
+static inline bool is_stp(const struct flow *flow)
+{
+ return (eth_addr_equals(flow->dl_dst, eth_addr_stp)
+ && flow->dl_type == htons(FLOW_DL_TYPE_NONE));
+}
+
#endif /* flow.h */