+uint32_t flow_hash_in_wildcards(const struct flow *,
+ const struct flow_wildcards *,
+ uint32_t basis);
+
+bool flow_equal_except(const struct flow *a, const struct flow *b,
+ const struct flow_wildcards *);
+\f
+/* Compressed flow. */
+
+#define MINI_N_INLINE (sizeof(void *) == 4 ? 7 : 8)
+BUILD_ASSERT_DECL(FLOW_U32S <= 64);
+
+/* A sparse representation of a "struct flow".
+ *
+ * A "struct flow" is fairly large and tends to be mostly zeros. Sparse
+ * representation has two advantages. First, it saves memory. Second, it
+ * saves time when the goal is to iterate over only the nonzero parts of the
+ * struct.
+ *
+ * The 'map' member holds one bit for each uint32_t in a "struct flow". Each
+ * 0-bit indicates that the corresponding uint32_t is zero, each 1-bit that it
+ * *may* be nonzero.
+ *
+ * 'values' points to the start of an array that has one element for each 1-bit
+ * in 'map'. The least-numbered 1-bit is in values[0], the next 1-bit is in
+ * values[1], and so on.
+ *
+ * 'values' may point to a few different locations:
+ *
+ * - If 'map' has MINI_N_INLINE or fewer 1-bits, it may point to
+ * 'inline_values'. One hopes that this is the common case.
+ *
+ * - If 'map' has more than MINI_N_INLINE 1-bits, it may point to memory
+ * allocated with malloc().
+ *
+ * - The caller could provide storage on the stack for situations where
+ * that makes sense. So far that's only proved useful for
+ * minimask_combine(), but the principle works elsewhere.
+ *
+ * Elements in 'values' are allowed to be zero. This is useful for "struct
+ * minimatch", for which ensuring that the miniflow and minimask members have
+ * same 'map' allows optimization. This allowance applies only to a miniflow
+ * that is not a mask. That is, a minimask may NOT have zero elements in
+ * its 'values'.
+ */
+struct miniflow {
+ uint64_t map;
+ uint32_t *values;
+ uint32_t inline_values[MINI_N_INLINE];
+};
+
+void miniflow_init(struct miniflow *, const struct flow *);
+void miniflow_init_with_minimask(struct miniflow *, const struct flow *,
+ const struct minimask *);
+void miniflow_clone(struct miniflow *, const struct miniflow *);
+void miniflow_move(struct miniflow *dst, struct miniflow *);
+void miniflow_destroy(struct miniflow *);
+
+void miniflow_expand(const struct miniflow *, struct flow *);
+
+uint32_t miniflow_get(const struct miniflow *, unsigned int u32_ofs);
+uint16_t miniflow_get_vid(const struct miniflow *);
+static inline ovs_be64 miniflow_get_metadata(const struct miniflow *);
+
+bool miniflow_equal(const struct miniflow *a, const struct miniflow *b);
+bool miniflow_equal_in_minimask(const struct miniflow *a,
+ const struct miniflow *b,
+ const struct minimask *);
+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);
+
+\f
+/* Compressed flow wildcards. */
+
+/* A sparse representation of a "struct flow_wildcards".
+ *
+ * See the large comment on struct miniflow for details.
+ *
+ * Note: While miniflow can have zero data for a 1-bit in the map,
+ * a minimask may not! We rely on this in the implementation. */
+struct minimask {
+ struct miniflow masks;
+};
+
+void minimask_init(struct minimask *, const struct flow_wildcards *);
+void minimask_clone(struct minimask *, const struct minimask *);
+void minimask_move(struct minimask *dst, struct minimask *src);
+void minimask_combine(struct minimask *dst,
+ const struct minimask *a, const struct minimask *b,
+ uint32_t storage[FLOW_U32S]);
+void minimask_destroy(struct minimask *);
+
+void minimask_expand(const struct minimask *, struct flow_wildcards *);
+
+uint32_t minimask_get(const struct minimask *, unsigned int u32_ofs);
+uint16_t minimask_get_vid_mask(const struct minimask *);
+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
+/* Returns the value of the OpenFlow 1.1+ "metadata" field in 'flow'. */
+static inline ovs_be64
+miniflow_get_metadata(const struct miniflow *flow)
+{
+ enum { MD_OFS = offsetof(struct flow, metadata) };
+ BUILD_ASSERT_DECL(MD_OFS % sizeof(uint32_t) == 0);
+ ovs_be32 hi = (OVS_FORCE ovs_be32) miniflow_get(flow, MD_OFS / 4);
+ ovs_be32 lo = (OVS_FORCE ovs_be32) miniflow_get(flow, MD_OFS / 4 + 1);
+
+ return htonll(((uint64_t) ntohl(hi) << 32) | ntohl(lo));
+}
+
+/* Returns the mask for the OpenFlow 1.1+ "metadata" field in 'mask'.
+ *
+ * The return value is all-1-bits if 'mask' matches on the whole value of the
+ * metadata field, all-0-bits if 'mask' entirely wildcards the metadata field,
+ * or some other value if the metadata field is partially matched, partially
+ * wildcarded. */
+static inline ovs_be64
+minimask_get_metadata_mask(const struct minimask *mask)
+{
+ return miniflow_get_metadata(&mask->masks);
+}
+