#ifndef TUN_METADATA_H
#define TUN_METADATA_H 1
-#define TUN_METADATA_NUM_OPTS 0
+#include <stdint.h>
+
+#include "dynamic-string.h"
+#include "geneve.h"
+#include "netlink.h"
+#include "ofpbuf.h"
+#include "openflow/openflow.h"
+
+struct flow_tnl;
+struct match;
+struct mf_field;
+union mf_value;
+struct ofputil_tlv_table_mod;
+struct ofputil_tlv_table_reply;
+struct tun_table;
+
+#define TUN_METADATA_NUM_OPTS 64
+#define TUN_METADATA_TOT_OPT_SIZE 256
+
+/* Tunnel option data, plus metadata to aid in their interpretation.
+ *
+ * The option data exists in two forms and is interpreted differently depending
+ * on whether FLOW_TNL_F_UDPIF is set in struct flow_tnl flags:
+ *
+ * When FLOW_TNL_F_UDPIF is set, the tunnel metadata is in "userspace datapath
+ * format". This is typically used for fast-path packet processing to avoid
+ * the cost of translating options and in situations where we need to maintain
+ * tunnel metadata exactly as it came in. In this case 'opts.gnv' is raw
+ * packet data from the tunnel header and 'present.len' indicates the length
+ * of the data stored there. In these situations, 'tab' is NULL.
+ *
+ * In all other cases, we are doing flow-based processing (such as during
+ * upcalls). FLOW_TNL_F_UDPIF is not set and options are reordered into
+ * pre-allocated locations. 'present.map' is indexed by type, that is, by the
+ * <i> in TUN_METADATA<i>, so that e.g. TUN_METADATA5 is present if
+ * 'present.map & (1ULL << 5)' is nonzero. The actual data for TUN_METADATA5,
+ * if present, might be anywhere in 'opts.u8' (not necessarily even contiguous),
+ * and finding it requires referring to 'tab', if set, or the global metadata
+ * table. */
+struct tun_metadata {
+ union { /* Valid members of 'opts'. When 'opts' is sorted into known types,
+ * 'map' is used. When 'opts' is raw packet data, 'len' is used. */
+ uint64_t map; /* 1-bit for each present TLV. */
+ uint8_t len; /* Length of data in 'opts'. */
+ } present;
+ struct tun_table *tab; /* Types & lengths for 'opts' and 'opt_map'. */
+
+#if UINTPTR_MAX == UINT32_MAX
+ uint8_t pad[4]; /* Pad to 64-bit boundary. */
+#endif
+
+ union {
+ uint8_t u8[TUN_METADATA_TOT_OPT_SIZE]; /* Values from tunnel TLVs. */
+ struct geneve_opt gnv[TLV_TOT_OPT_SIZE / sizeof(struct geneve_opt)];
+ } opts;
+};
+BUILD_ASSERT_DECL(offsetof(struct tun_metadata, opts) % 8 == 0);
+BUILD_ASSERT_DECL(sizeof(((struct tun_metadata *)0)->present.map) * 8 >=
+ TUN_METADATA_NUM_OPTS);
+
+/* The location of an option can be stored either as a single offset/len
+ * pair (hopefully) or if the address space is fragmented then it is a
+ * linked list of these blocks. */
+struct tun_metadata_loc_chain {
+ struct tun_metadata_loc_chain *next;
+ int offset; /* In bytes, from start of 'opts', multiple of 4. */
+ int len; /* In bytes, multiple of 4. */
+};
+
+struct tun_metadata_loc {
+ int len; /* Sum of 'len' over elements in chain. */
+ struct tun_metadata_loc_chain c;
+};
+
+/* Bookkeeping information to keep track of an option that was allocated
+ * inside struct match. */
+struct tun_metadata_match_entry {
+ struct tun_metadata_loc loc; /* Allocated position. */
+ bool masked; /* Source value had a mask. Otherwise we can't tell if the
+ * entire field was exact matched or only the portion that
+ * is the same size as the value. */
+};
+
+/* Allocation of options inside struct match. This is important if we don't
+ * have access to a global allocation table - either because there isn't one
+ * (ovs-ofctl) or if we need to keep the allocation outside of packet
+ * processing context (Packet-In). These structures never have dynamically
+ * allocated memory because the address space is never fragmented. */
+struct tun_metadata_allocation {
+ struct tun_metadata_match_entry entry[TUN_METADATA_NUM_OPTS];
+ int alloc_offset; /* Byte offset into 'opts', multiple of 4. */
+ bool valid; /* Set to true after any allocation occurs. */
+};
+
+void tun_metadata_init(void);
+
+enum ofperr tun_metadata_table_mod(struct ofputil_tlv_table_mod *);
+void tun_metadata_table_request(struct ofputil_tlv_table_reply *);
+
+void tun_metadata_read(const struct flow_tnl *,
+ const struct mf_field *, union mf_value *);
+void tun_metadata_write(struct flow_tnl *,
+ const struct mf_field *, const union mf_value *);
+void tun_metadata_set_match(const struct mf_field *,
+ const union mf_value *value,
+ const union mf_value *mask, struct match *,
+ char **err_str);
+void tun_metadata_get_fmd(const struct flow_tnl *, struct match *flow_metadata);
+
+int tun_metadata_from_geneve_nlattr(const struct nlattr *attr,
+ const struct nlattr *flow_attrs,
+ size_t flow_attr_len,
+ const struct flow_tnl *flow_tun,
+ bool udpif, struct flow_tnl *tun);
+void tun_metadata_to_geneve_nlattr(const struct flow_tnl *tun,
+ const struct flow_tnl *flow,
+ const struct ofpbuf *key,
+ struct ofpbuf *);
+
+int tun_metadata_from_geneve_udpif(const struct flow_tnl *flow,
+ const struct flow_tnl *src,
+ struct flow_tnl *dst);
+void tun_metadata_to_geneve_udpif_mask(const struct flow_tnl *flow_src,
+ const struct flow_tnl *mask_src,
+ const struct geneve_opt *flow_src_opt,
+ int opts_len, struct geneve_opt *dst);
+
+int tun_metadata_to_geneve_header(const struct flow_tnl *flow,
+ struct geneve_opt *, bool *crit_opt);
+
+void tun_metadata_to_nx_match(struct ofpbuf *b, enum ofp_version oxm,
+ const struct match *);
+void tun_metadata_match_format(struct ds *, const struct match *);
#endif /* tun-metadata.h */