+}
+
+/* Returns true if the value of 'fields' is supported. Otherwise false. */
+bool
+flow_hash_fields_valid(enum nx_hash_fields fields)
+{
+ return fields == NX_HASH_FIELDS_ETH_SRC
+ || fields == NX_HASH_FIELDS_SYMMETRIC_L4;
+}
+
+/* Returns a hash value for the bits of 'flow' that are active based on
+ * 'wc', given 'basis'. */
+uint32_t
+flow_hash_in_wildcards(const struct flow *flow,
+ const struct flow_wildcards *wc, uint32_t basis)
+{
+ const uint32_t *wc_u32 = (const uint32_t *) &wc->masks;
+ const uint32_t *flow_u32 = (const uint32_t *) flow;
+ uint32_t hash;
+ size_t i;
+
+ hash = basis;
+ for (i = 0; i < FLOW_U32S; i++) {
+ hash = mhash_add(hash, flow_u32[i] & wc_u32[i]);
+ }
+ return mhash_finish(hash, 4 * FLOW_U32S);
+}
+
+/* Sets the VLAN VID that 'flow' matches to 'vid', which is interpreted as an
+ * OpenFlow 1.0 "dl_vlan" value:
+ *
+ * - If it is in the range 0...4095, 'flow->vlan_tci' is set to match
+ * that VLAN. Any existing PCP match is unchanged (it becomes 0 if
+ * 'flow' previously matched packets without a VLAN header).
+ *
+ * - If it is OFP_VLAN_NONE, 'flow->vlan_tci' is set to match a packet
+ * without a VLAN tag.
+ *
+ * - Other values of 'vid' should not be used. */
+void
+flow_set_dl_vlan(struct flow *flow, ovs_be16 vid)
+{
+ if (vid == htons(OFP10_VLAN_NONE)) {
+ flow->vlan_tci = htons(0);
+ } else {
+ vid &= htons(VLAN_VID_MASK);
+ flow->vlan_tci &= ~htons(VLAN_VID_MASK);
+ flow->vlan_tci |= htons(VLAN_CFI) | vid;
+ }
+}
+
+/* Sets the VLAN VID that 'flow' matches to 'vid', which is interpreted as an
+ * OpenFlow 1.2 "vlan_vid" value, that is, the low 13 bits of 'vlan_tci' (VID
+ * plus CFI). */
+void
+flow_set_vlan_vid(struct flow *flow, ovs_be16 vid)
+{
+ ovs_be16 mask = htons(VLAN_VID_MASK | VLAN_CFI);
+ flow->vlan_tci &= ~mask;
+ flow->vlan_tci |= vid & mask;
+}
+
+/* Sets the VLAN PCP that 'flow' matches to 'pcp', which should be in the
+ * range 0...7.
+ *
+ * This function has no effect on the VLAN ID that 'flow' matches.
+ *
+ * After calling this function, 'flow' will not match packets without a VLAN
+ * header. */
+void
+flow_set_vlan_pcp(struct flow *flow, uint8_t pcp)
+{
+ pcp &= 0x07;
+ flow->vlan_tci &= ~htons(VLAN_PCP_MASK);
+ flow->vlan_tci |= htons((pcp << VLAN_PCP_SHIFT) | VLAN_CFI);
+}
+
+/* Returns the number of MPLS LSEs present in 'flow'
+ *
+ * Returns 0 if the 'dl_type' of 'flow' is not an MPLS ethernet type.
+ * Otherwise traverses 'flow''s MPLS label stack stopping at the
+ * first entry that has the BoS bit set. If no such entry exists then
+ * the maximum number of LSEs that can be stored in 'flow' is returned.
+ */
+int
+flow_count_mpls_labels(const struct flow *flow, struct flow_wildcards *wc)
+{
+ if (wc) {
+ wc->masks.dl_type = OVS_BE16_MAX;
+ }
+ if (eth_type_mpls(flow->dl_type)) {
+ int i;
+ int len = FLOW_MAX_MPLS_LABELS;
+
+ for (i = 0; i < len; i++) {
+ if (wc) {
+ wc->masks.mpls_lse[i] |= htonl(MPLS_BOS_MASK);
+ }
+ if (flow->mpls_lse[i] & htonl(MPLS_BOS_MASK)) {
+ return i + 1;
+ }
+ }
+
+ return len;
+ } else {
+ return 0;
+ }
+}
+
+/* Returns the number consecutive of MPLS LSEs, starting at the
+ * innermost LSE, that are common in 'a' and 'b'.
+ *
+ * 'an' must be flow_count_mpls_labels(a).
+ * 'bn' must be flow_count_mpls_labels(b).
+ */
+int
+flow_count_common_mpls_labels(const struct flow *a, int an,
+ const struct flow *b, int bn,
+ struct flow_wildcards *wc)
+{
+ int min_n = MIN(an, bn);
+ if (min_n == 0) {
+ return 0;
+ } else {
+ int common_n = 0;
+ int a_last = an - 1;
+ int b_last = bn - 1;
+ int i;
+
+ for (i = 0; i < min_n; i++) {
+ if (wc) {
+ wc->masks.mpls_lse[a_last - i] = OVS_BE32_MAX;
+ wc->masks.mpls_lse[b_last - i] = OVS_BE32_MAX;
+ }
+ if (a->mpls_lse[a_last - i] != b->mpls_lse[b_last - i]) {
+ break;
+ } else {
+ common_n++;
+ }
+ }
+
+ return common_n;
+ }
+}
+
+/* Adds a new outermost MPLS label to 'flow' and changes 'flow''s Ethernet type
+ * to 'mpls_eth_type', which must be an MPLS Ethertype.
+ *
+ * If the new label is the first MPLS label in 'flow', it is generated as;
+ *
+ * - label: 2, if 'flow' is IPv6, otherwise 0.
+ *
+ * - TTL: IPv4 or IPv6 TTL, if present and nonzero, otherwise 64.
+ *
+ * - TC: IPv4 or IPv6 TOS, if present, otherwise 0.
+ *
+ * - BoS: 1.
+ *
+ * If the new label is the second or label MPLS label in 'flow', it is
+ * generated as;
+ *
+ * - label: Copied from outer label.
+ *
+ * - TTL: Copied from outer label.
+ *
+ * - TC: Copied from outer label.
+ *
+ * - BoS: 0.
+ *
+ * 'n' must be flow_count_mpls_labels(flow). 'n' must be less than
+ * FLOW_MAX_MPLS_LABELS (because otherwise flow->mpls_lse[] would overflow).
+ */
+void
+flow_push_mpls(struct flow *flow, int n, ovs_be16 mpls_eth_type,
+ struct flow_wildcards *wc)
+{
+ ovs_assert(eth_type_mpls(mpls_eth_type));
+ ovs_assert(n < FLOW_MAX_MPLS_LABELS);
+
+ memset(wc->masks.mpls_lse, 0xff, sizeof wc->masks.mpls_lse);
+ if (n) {
+ int i;
+
+ for (i = n; i >= 1; i--) {
+ flow->mpls_lse[i] = flow->mpls_lse[i - 1];
+ }
+ flow->mpls_lse[0] = (flow->mpls_lse[1]
+ & htonl(~MPLS_BOS_MASK));
+ } else {
+ int label = 0; /* IPv4 Explicit Null. */
+ int tc = 0;
+ int ttl = 64;
+
+ if (flow->dl_type == htons(ETH_TYPE_IPV6)) {
+ label = 2;
+ }
+
+ if (is_ip_any(flow)) {
+ tc = (flow->nw_tos & IP_DSCP_MASK) >> 2;
+ wc->masks.nw_tos |= IP_DSCP_MASK;
+
+ if (flow->nw_ttl) {
+ ttl = flow->nw_ttl;
+ }
+ wc->masks.nw_ttl = 0xff;
+ }
+
+ flow->mpls_lse[0] = set_mpls_lse_values(ttl, tc, 1, htonl(label));
+
+ /* Clear all L3 and L4 fields. */
+ BUILD_ASSERT(FLOW_WC_SEQ == 24);
+ memset((char *) flow + FLOW_SEGMENT_2_ENDS_AT, 0,
+ sizeof(struct flow) - FLOW_SEGMENT_2_ENDS_AT);
+ }
+ flow->dl_type = mpls_eth_type;
+}
+
+/* Tries to remove the outermost MPLS label from 'flow'. Returns true if
+ * successful, false otherwise. On success, sets 'flow''s Ethernet type to
+ * 'eth_type'.
+ *
+ * 'n' must be flow_count_mpls_labels(flow). */
+bool
+flow_pop_mpls(struct flow *flow, int n, ovs_be16 eth_type,
+ struct flow_wildcards *wc)
+{
+ int i;
+
+ if (n == 0) {
+ /* Nothing to pop. */
+ return false;
+ } else if (n == FLOW_MAX_MPLS_LABELS
+ && !(flow->mpls_lse[n - 1] & htonl(MPLS_BOS_MASK))) {
+ /* Can't pop because we don't know what to fill in mpls_lse[n - 1]. */
+ return false;
+ }
+
+ memset(wc->masks.mpls_lse, 0xff, sizeof wc->masks.mpls_lse);
+ for (i = 1; i < n; i++) {
+ flow->mpls_lse[i - 1] = flow->mpls_lse[i];
+ }
+ flow->mpls_lse[n - 1] = 0;
+ flow->dl_type = eth_type;
+ return true;
+}
+
+/* Sets the MPLS Label that 'flow' matches to 'label', which is interpreted
+ * as an OpenFlow 1.1 "mpls_label" value. */
+void
+flow_set_mpls_label(struct flow *flow, int idx, ovs_be32 label)
+{
+ set_mpls_lse_label(&flow->mpls_lse[idx], label);
+}
+
+/* Sets the MPLS TTL that 'flow' matches to 'ttl', which should be in the
+ * range 0...255. */
+void
+flow_set_mpls_ttl(struct flow *flow, int idx, uint8_t ttl)
+{
+ set_mpls_lse_ttl(&flow->mpls_lse[idx], ttl);
+}
+
+/* Sets the MPLS TC that 'flow' matches to 'tc', which should be in the
+ * range 0...7. */
+void
+flow_set_mpls_tc(struct flow *flow, int idx, uint8_t tc)
+{
+ set_mpls_lse_tc(&flow->mpls_lse[idx], tc);
+}
+
+/* Sets the MPLS BOS bit that 'flow' matches to which should be 0 or 1. */
+void
+flow_set_mpls_bos(struct flow *flow, int idx, uint8_t bos)
+{
+ set_mpls_lse_bos(&flow->mpls_lse[idx], bos);
+}
+
+/* Sets the entire MPLS LSE. */
+void
+flow_set_mpls_lse(struct flow *flow, int idx, ovs_be32 lse)
+{
+ flow->mpls_lse[idx] = lse;
+}
+
+static void
+flow_compose_l4(struct ofpbuf *b, const struct flow *flow)
+{
+ if (!(flow->nw_frag & FLOW_NW_FRAG_ANY)
+ || !(flow->nw_frag & FLOW_NW_FRAG_LATER)) {
+ if (flow->nw_proto == IPPROTO_TCP) {
+ struct tcp_header *tcp;
+
+ tcp = ofpbuf_put_zeros(b, sizeof *tcp);
+ tcp->tcp_src = flow->tp_src;
+ tcp->tcp_dst = flow->tp_dst;
+ tcp->tcp_ctl = TCP_CTL(ntohs(flow->tcp_flags), 5);
+ b->l7 = ofpbuf_tail(b);
+ } else if (flow->nw_proto == IPPROTO_UDP) {
+ struct udp_header *udp;
+
+ udp = ofpbuf_put_zeros(b, sizeof *udp);
+ udp->udp_src = flow->tp_src;
+ udp->udp_dst = flow->tp_dst;
+ b->l7 = ofpbuf_tail(b);
+ } else if (flow->nw_proto == IPPROTO_SCTP) {
+ struct sctp_header *sctp;
+
+ sctp = ofpbuf_put_zeros(b, sizeof *sctp);
+ sctp->sctp_src = flow->tp_src;
+ sctp->sctp_dst = flow->tp_dst;
+ b->l7 = ofpbuf_tail(b);
+ } else if (flow->nw_proto == IPPROTO_ICMP) {
+ struct icmp_header *icmp;
+
+ icmp = ofpbuf_put_zeros(b, sizeof *icmp);
+ icmp->icmp_type = ntohs(flow->tp_src);
+ icmp->icmp_code = ntohs(flow->tp_dst);
+ icmp->icmp_csum = csum(icmp, ICMP_HEADER_LEN);
+ b->l7 = ofpbuf_tail(b);
+ } else if (flow->nw_proto == IPPROTO_ICMPV6) {
+ struct icmp6_hdr *icmp;
+
+ icmp = ofpbuf_put_zeros(b, sizeof *icmp);
+ icmp->icmp6_type = ntohs(flow->tp_src);
+ icmp->icmp6_code = ntohs(flow->tp_dst);
+
+ if (icmp->icmp6_code == 0 &&
+ (icmp->icmp6_type == ND_NEIGHBOR_SOLICIT ||
+ icmp->icmp6_type == ND_NEIGHBOR_ADVERT)) {
+ struct in6_addr *nd_target;
+ struct nd_opt_hdr *nd_opt;
+
+ nd_target = ofpbuf_put_zeros(b, sizeof *nd_target);
+ *nd_target = flow->nd_target;
+
+ if (!eth_addr_is_zero(flow->arp_sha)) {
+ nd_opt = ofpbuf_put_zeros(b, 8);
+ nd_opt->nd_opt_len = 1;
+ nd_opt->nd_opt_type = ND_OPT_SOURCE_LINKADDR;
+ memcpy(nd_opt + 1, flow->arp_sha, ETH_ADDR_LEN);
+ }
+ if (!eth_addr_is_zero(flow->arp_tha)) {
+ nd_opt = ofpbuf_put_zeros(b, 8);
+ nd_opt->nd_opt_len = 1;
+ nd_opt->nd_opt_type = ND_OPT_TARGET_LINKADDR;
+ memcpy(nd_opt + 1, flow->arp_tha, ETH_ADDR_LEN);
+ }
+ }
+ icmp->icmp6_cksum = (OVS_FORCE uint16_t)
+ csum(icmp, (char *)ofpbuf_tail(b) - (char *)icmp);
+ b->l7 = ofpbuf_tail(b);
+ }
+ }
+}
+
+/* Puts into 'b' a packet that flow_extract() would parse as having the given
+ * 'flow'.
+ *
+ * (This is useful only for testing, obviously, and the packet isn't really
+ * valid. It hasn't got some checksums filled in, for one, and lots of fields
+ * are just zeroed.) */
+void
+flow_compose(struct ofpbuf *b, const struct flow *flow)
+{
+ /* eth_compose() sets l3 pointer and makes sure it is 32-bit aligned. */
+ eth_compose(b, flow->dl_dst, flow->dl_src, ntohs(flow->dl_type), 0);
+ if (flow->dl_type == htons(FLOW_DL_TYPE_NONE)) {
+ struct eth_header *eth = b->l2;
+ eth->eth_type = htons(b->size);
+ return;
+ }
+
+ if (flow->vlan_tci & htons(VLAN_CFI)) {
+ eth_push_vlan(b, htons(ETH_TYPE_VLAN), flow->vlan_tci);
+ }
+
+ if (flow->dl_type == htons(ETH_TYPE_IP)) {
+ struct ip_header *ip;
+
+ ip = ofpbuf_put_zeros(b, sizeof *ip);
+ ip->ip_ihl_ver = IP_IHL_VER(5, 4);
+ ip->ip_tos = flow->nw_tos;
+ ip->ip_ttl = flow->nw_ttl;
+ ip->ip_proto = flow->nw_proto;
+ put_16aligned_be32(&ip->ip_src, flow->nw_src);
+ put_16aligned_be32(&ip->ip_dst, flow->nw_dst);
+
+ if (flow->nw_frag & FLOW_NW_FRAG_ANY) {
+ ip->ip_frag_off |= htons(IP_MORE_FRAGMENTS);
+ if (flow->nw_frag & FLOW_NW_FRAG_LATER) {
+ ip->ip_frag_off |= htons(100);
+ }
+ }
+
+ b->l4 = ofpbuf_tail(b);
+
+ flow_compose_l4(b, flow);
+
+ ip->ip_tot_len = htons((uint8_t *) b->data + b->size
+ - (uint8_t *) b->l3);
+ ip->ip_csum = csum(ip, sizeof *ip);
+ } else if (flow->dl_type == htons(ETH_TYPE_IPV6)) {
+ struct ovs_16aligned_ip6_hdr *nh;
+
+ nh = ofpbuf_put_zeros(b, sizeof *nh);
+ put_16aligned_be32(&nh->ip6_flow, htonl(6 << 28) |
+ htonl(flow->nw_tos << 20) | flow->ipv6_label);
+ nh->ip6_hlim = flow->nw_ttl;
+ nh->ip6_nxt = flow->nw_proto;
+
+ memcpy(&nh->ip6_src, &flow->ipv6_src, sizeof(nh->ip6_src));
+ memcpy(&nh->ip6_dst, &flow->ipv6_dst, sizeof(nh->ip6_dst));
+
+ b->l4 = ofpbuf_tail(b);
+
+ flow_compose_l4(b, flow);
+
+ nh->ip6_plen =
+ b->l7 ? htons((uint8_t *) b->l7 - (uint8_t *) b->l4) : htons(0);
+ } else if (flow->dl_type == htons(ETH_TYPE_ARP) ||
+ flow->dl_type == htons(ETH_TYPE_RARP)) {
+ struct arp_eth_header *arp;
+
+ b->l3 = arp = ofpbuf_put_zeros(b, sizeof *arp);
+ arp->ar_hrd = htons(1);
+ arp->ar_pro = htons(ETH_TYPE_IP);
+ arp->ar_hln = ETH_ADDR_LEN;
+ arp->ar_pln = 4;
+ arp->ar_op = htons(flow->nw_proto);
+
+ if (flow->nw_proto == ARP_OP_REQUEST ||
+ flow->nw_proto == ARP_OP_REPLY) {
+ put_16aligned_be32(&arp->ar_spa, flow->nw_src);
+ put_16aligned_be32(&arp->ar_tpa, flow->nw_dst);
+ memcpy(arp->ar_sha, flow->arp_sha, ETH_ADDR_LEN);
+ memcpy(arp->ar_tha, flow->arp_tha, ETH_ADDR_LEN);
+ }
+ }
+
+ if (eth_type_mpls(flow->dl_type)) {
+ int n;
+
+ b->l2_5 = b->l3;
+ for (n = 1; n < FLOW_MAX_MPLS_LABELS; n++) {
+ if (flow->mpls_lse[n - 1] & htonl(MPLS_BOS_MASK)) {
+ break;
+ }
+ }
+ while (n > 0) {
+ push_mpls(b, flow->dl_type, flow->mpls_lse[--n]);
+ }
+ }
+}
+\f
+/* Compressed flow. */
+
+static int
+miniflow_n_values(const struct miniflow *flow)
+{
+ return count_1bits(flow->map);
+}
+
+static uint32_t *
+miniflow_alloc_values(struct miniflow *flow, int n)
+{
+ if (n <= MINI_N_INLINE) {
+ return flow->inline_values;
+ } else {
+ COVERAGE_INC(miniflow_malloc);
+ return xmalloc(n * sizeof *flow->values);
+ }
+}
+
+/* Completes an initialization of 'dst' as a miniflow copy of 'src' begun by
+ * the caller. The caller must have already initialized 'dst->map' properly
+ * to indicate the significant uint32_t elements of 'src'. 'n' must be the
+ * number of 1-bits in 'dst->map'.
+ *
+ * Normally the significant elements are the ones that are non-zero. However,
+ * when a miniflow is initialized from a (mini)mask, the values can be zeroes,
+ * so that the flow and mask always have the same maps.
+ *
+ * This function initializes 'dst->values' (either inline if possible or with
+ * malloc() otherwise) and copies the uint32_t elements of 'src' indicated by
+ * 'dst->map' into it. */
+static void
+miniflow_init__(struct miniflow *dst, const struct flow *src, int n)
+{
+ const uint32_t *src_u32 = (const uint32_t *) src;
+ unsigned int ofs;
+ uint64_t map;
+
+ dst->values = miniflow_alloc_values(dst, n);
+ ofs = 0;
+ for (map = dst->map; map; map = zero_rightmost_1bit(map)) {
+ dst->values[ofs++] = src_u32[raw_ctz(map)];
+ }
+}
+
+/* Initializes 'dst' as a copy of 'src'. The caller must eventually free 'dst'
+ * with miniflow_destroy(). */
+void
+miniflow_init(struct miniflow *dst, const struct flow *src)
+{
+ const uint32_t *src_u32 = (const uint32_t *) src;
+ unsigned int i;
+ int n;
+
+ /* Initialize dst->map, counting the number of nonzero elements. */
+ n = 0;
+ dst->map = 0;
+
+ for (i = 0; i < FLOW_U32S; i++) {
+ if (src_u32[i]) {
+ dst->map |= UINT64_C(1) << i;
+ n++;
+ }
+ }
+
+ miniflow_init__(dst, src, n);
+}
+
+/* Initializes 'dst' as a copy of 'src', using 'mask->map' as 'dst''s map. The
+ * caller must eventually free 'dst' with miniflow_destroy(). */
+void
+miniflow_init_with_minimask(struct miniflow *dst, const struct flow *src,
+ const struct minimask *mask)
+{
+ dst->map = mask->masks.map;
+ miniflow_init__(dst, src, miniflow_n_values(dst));
+}
+
+/* Initializes 'dst' as a copy of 'src'. The caller must eventually free 'dst'
+ * with miniflow_destroy(). */
+void
+miniflow_clone(struct miniflow *dst, const struct miniflow *src)
+{
+ int n = miniflow_n_values(src);
+ dst->map = src->map;
+ dst->values = miniflow_alloc_values(dst, n);
+ memcpy(dst->values, src->values, n * sizeof *dst->values);
+}
+
+/* Initializes 'dst' with the data in 'src', destroying 'src'.
+ * The caller must eventually free 'dst' with miniflow_destroy(). */
+void
+miniflow_move(struct miniflow *dst, struct miniflow *src)
+{
+ if (src->values == src->inline_values) {
+ dst->values = dst->inline_values;
+ memcpy(dst->values, src->values,
+ miniflow_n_values(src) * sizeof *dst->values);
+ } else {
+ dst->values = src->values;
+ }
+ dst->map = src->map;
+}
+
+/* Frees any memory owned by 'flow'. Does not free the storage in which 'flow'
+ * itself resides; the caller is responsible for that. */
+void
+miniflow_destroy(struct miniflow *flow)
+{
+ if (flow->values != flow->inline_values) {
+ free(flow->values);
+ }
+}
+
+/* Initializes 'dst' as a copy of 'src'. */
+void
+miniflow_expand(const struct miniflow *src, struct flow *dst)
+{
+ memset(dst, 0, sizeof *dst);
+ flow_union_with_miniflow(dst, src);
+}
+
+static const uint32_t *
+miniflow_get__(const struct miniflow *flow, unsigned int u32_ofs)
+{
+ if (!(flow->map & (UINT64_C(1) << u32_ofs))) {
+ static const uint32_t zero = 0;
+ return &zero;
+ }
+ return flow->values +
+ count_1bits(flow->map & ((UINT64_C(1) << u32_ofs) - 1));
+}
+
+/* Returns the uint32_t that would be at byte offset '4 * u32_ofs' if 'flow'
+ * were expanded into a "struct flow". */
+uint32_t
+miniflow_get(const struct miniflow *flow, unsigned int u32_ofs)
+{
+ return *miniflow_get__(flow, u32_ofs);
+}
+
+/* Returns the ovs_be16 that would be at byte offset 'u8_ofs' if 'flow' were
+ * expanded into a "struct flow". */
+static ovs_be16
+miniflow_get_be16(const struct miniflow *flow, unsigned int u8_ofs)
+{
+ const uint32_t *u32p = miniflow_get__(flow, u8_ofs / 4);
+ const ovs_be16 *be16p = (const ovs_be16 *) u32p;
+ return be16p[u8_ofs % 4 != 0];
+}
+
+/* Returns the VID within the vlan_tci member of the "struct flow" represented
+ * by 'flow'. */
+uint16_t
+miniflow_get_vid(const struct miniflow *flow)
+{
+ ovs_be16 tci = miniflow_get_be16(flow, offsetof(struct flow, vlan_tci));
+ return vlan_tci_to_vid(tci);
+}
+
+/* Returns true if 'a' and 'b' are the same flow, false otherwise. */
+bool
+miniflow_equal(const struct miniflow *a, const struct miniflow *b)
+{
+ const uint32_t *ap = a->values;
+ const uint32_t *bp = b->values;
+ const uint64_t a_map = a->map;
+ const uint64_t b_map = b->map;
+ uint64_t map;
+
+ if (a_map == b_map) {
+ for (map = a_map; map; map = zero_rightmost_1bit(map)) {
+ if (*ap++ != *bp++) {
+ return false;
+ }
+ }
+ } else {
+ for (map = a_map | b_map; map; map = zero_rightmost_1bit(map)) {
+ uint64_t bit = rightmost_1bit(map);
+ uint64_t a_value = a_map & bit ? *ap++ : 0;
+ uint64_t b_value = b_map & bit ? *bp++ : 0;
+
+ if (a_value != b_value) {
+ return false;
+ }
+ }
+ }
+
+ return true;
+}
+
+/* Returns true if 'a' and 'b' are equal at the places where there are 1-bits
+ * in 'mask', false if they differ. */
+bool
+miniflow_equal_in_minimask(const struct miniflow *a, const struct miniflow *b,
+ const struct minimask *mask)
+{
+ const uint32_t *p;
+ uint64_t map;
+
+ p = mask->masks.values;
+
+ for (map = mask->masks.map; map; map = zero_rightmost_1bit(map)) {
+ int ofs = raw_ctz(map);
+
+ if ((miniflow_get(a, ofs) ^ miniflow_get(b, ofs)) & *p) {
+ return false;
+ }
+ p++;
+ }
+
+ return true;
+}
+
+/* Returns true if 'a' and 'b' are equal at the places where there are 1-bits
+ * in 'mask', false if they differ. */
+bool
+miniflow_equal_flow_in_minimask(const struct miniflow *a, const struct flow *b,
+ const struct minimask *mask)
+{
+ const uint32_t *b_u32 = (const uint32_t *) b;
+ const uint32_t *p;
+ uint64_t map;
+
+ p = mask->masks.values;
+
+ for (map = mask->masks.map; map; map = zero_rightmost_1bit(map)) {
+ int ofs = raw_ctz(map);
+
+ if ((miniflow_get(a, ofs) ^ b_u32[ofs]) & *p) {
+ return false;
+ }
+ p++;
+ }
+
+ return true;
+}
+
+/* Returns a hash value for 'flow', given 'basis'. */
+uint32_t
+miniflow_hash(const struct miniflow *flow, uint32_t basis)
+{
+ const uint32_t *p = flow->values;
+ uint32_t hash = basis;
+ uint64_t hash_map = 0;
+ uint64_t map;
+
+ for (map = flow->map; map; map = zero_rightmost_1bit(map)) {
+ if (*p) {
+ hash = mhash_add(hash, *p);
+ hash_map |= rightmost_1bit(map);
+ }
+ p++;
+ }
+ hash = mhash_add(hash, hash_map);
+ hash = mhash_add(hash, hash_map >> 32);
+
+ return mhash_finish(hash, p - flow->values);
+}
+
+/* Returns a hash value for the bits of 'flow' where there are 1-bits in
+ * 'mask', given 'basis'.
+ *
+ * The hash values returned by this function are the same as those returned by
+ * flow_hash_in_minimask(), only the form of the arguments differ. */
+uint32_t
+miniflow_hash_in_minimask(const struct miniflow *flow,
+ const struct minimask *mask, uint32_t basis)
+{
+ const uint32_t *p = mask->masks.values;
+ uint32_t hash;
+ uint64_t map;
+
+ hash = basis;
+
+ for (map = mask->masks.map; map; map = zero_rightmost_1bit(map)) {
+ hash = mhash_add(hash, miniflow_get(flow, raw_ctz(map)) & *p++);
+ }
+
+ return mhash_finish(hash, (p - mask->masks.values) * 4);
+}
+
+/* Returns a hash value for the bits of 'flow' where there are 1-bits in
+ * 'mask', given 'basis'.
+ *
+ * The hash values returned by this function are the same as those returned by
+ * miniflow_hash_in_minimask(), only the form of the arguments differ. */
+uint32_t
+flow_hash_in_minimask(const struct flow *flow, const struct minimask *mask,
+ uint32_t basis)
+{
+ const uint32_t *flow_u32 = (const uint32_t *)flow;
+ const uint32_t *p = mask->masks.values;
+ uint32_t hash;
+ uint64_t map;
+
+ hash = basis;
+ for (map = mask->masks.map; map; map = zero_rightmost_1bit(map)) {
+ hash = mhash_add(hash, flow_u32[raw_ctz(map)] & *p++);
+ }
+
+ return mhash_finish(hash, (p - mask->masks.values) * 4);
+}
+
+/* Returns a hash value for the bits of range [start, end) in 'flow',
+ * where there are 1-bits in 'mask', given 'hash'.
+ *
+ * The hash values returned by this function are the same as those returned by
+ * minimatch_hash_range(), only the form of the arguments differ. */
+uint32_t
+flow_hash_in_minimask_range(const struct flow *flow,
+ const struct minimask *mask,
+ uint8_t start, uint8_t end, uint32_t *basis)
+{
+ const uint32_t *flow_u32 = (const uint32_t *)flow;
+ unsigned int offset;
+ uint64_t map = miniflow_get_map_in_range(&mask->masks, start, end,
+ &offset);
+ const uint32_t *p = mask->masks.values + offset;
+ uint32_t hash = *basis;
+
+ for (; map; map = zero_rightmost_1bit(map)) {
+ hash = mhash_add(hash, flow_u32[raw_ctz(map)] & *p++);
+ }
+
+ *basis = hash; /* Allow continuation from the unfinished value. */
+ return mhash_finish(hash, (p - mask->masks.values) * 4);
+}
+
+\f
+/* Initializes 'dst' as a copy of 'src'. The caller must eventually free 'dst'
+ * with minimask_destroy(). */
+void
+minimask_init(struct minimask *mask, const struct flow_wildcards *wc)
+{
+ miniflow_init(&mask->masks, &wc->masks);
+}
+
+/* Initializes 'dst' as a copy of 'src'. The caller must eventually free 'dst'
+ * with minimask_destroy(). */
+void
+minimask_clone(struct minimask *dst, const struct minimask *src)
+{
+ miniflow_clone(&dst->masks, &src->masks);
+}
+
+/* Initializes 'dst' with the data in 'src', destroying 'src'.
+ * The caller must eventually free 'dst' with minimask_destroy(). */
+void
+minimask_move(struct minimask *dst, struct minimask *src)
+{
+ miniflow_move(&dst->masks, &src->masks);
+}
+
+/* Initializes 'dst_' as the bit-wise "and" of 'a_' and 'b_'.
+ *
+ * The caller must provide room for FLOW_U32S "uint32_t"s in 'storage', for use
+ * by 'dst_'. The caller must *not* free 'dst_' with minimask_destroy(). */
+void
+minimask_combine(struct minimask *dst_,
+ const struct minimask *a_, const struct minimask *b_,
+ uint32_t storage[FLOW_U32S])
+{
+ struct miniflow *dst = &dst_->masks;
+ const struct miniflow *a = &a_->masks;
+ const struct miniflow *b = &b_->masks;
+ uint64_t map;
+ int n = 0;
+
+ dst->values = storage;
+
+ dst->map = 0;
+ for (map = a->map & b->map; map; map = zero_rightmost_1bit(map)) {
+ int ofs = raw_ctz(map);
+ uint32_t mask = miniflow_get(a, ofs) & miniflow_get(b, ofs);
+
+ if (mask) {
+ dst->map |= rightmost_1bit(map);
+ dst->values[n++] = mask;
+ }
+ }
+}
+
+/* Frees any memory owned by 'mask'. Does not free the storage in which 'mask'
+ * itself resides; the caller is responsible for that. */
+void
+minimask_destroy(struct minimask *mask)
+{
+ miniflow_destroy(&mask->masks);
+}
+
+/* Initializes 'dst' as a copy of 'src'. */
+void
+minimask_expand(const struct minimask *mask, struct flow_wildcards *wc)
+{
+ miniflow_expand(&mask->masks, &wc->masks);
+}
+
+/* Returns the uint32_t that would be at byte offset '4 * u32_ofs' if 'mask'
+ * were expanded into a "struct flow_wildcards". */
+uint32_t
+minimask_get(const struct minimask *mask, unsigned int u32_ofs)
+{
+ return miniflow_get(&mask->masks, u32_ofs);
+}
+
+/* Returns the VID mask within the vlan_tci member of the "struct
+ * flow_wildcards" represented by 'mask'. */
+uint16_t
+minimask_get_vid_mask(const struct minimask *mask)
+{
+ return miniflow_get_vid(&mask->masks);
+}
+
+/* Returns true if 'a' and 'b' are the same flow mask, false otherwise. */
+bool
+minimask_equal(const struct minimask *a, const struct minimask *b)
+{
+ return miniflow_equal(&a->masks, &b->masks);
+}
+
+/* Returns a hash value for 'mask', given 'basis'. */
+uint32_t
+minimask_hash(const struct minimask *mask, uint32_t basis)
+{
+ return miniflow_hash(&mask->masks, basis);
+}
+
+/* Returns true if at least one bit is wildcarded in 'a_' but not in 'b_',
+ * false otherwise. */
+bool
+minimask_has_extra(const struct minimask *a_, const struct minimask *b_)
+{
+ const struct miniflow *a = &a_->masks;
+ const struct miniflow *b = &b_->masks;
+ uint64_t map;
+
+ for (map = a->map | b->map; map; map = zero_rightmost_1bit(map)) {
+ int ofs = raw_ctz(map);
+ uint32_t a_u32 = miniflow_get(a, ofs);
+ uint32_t b_u32 = miniflow_get(b, ofs);
+
+ if ((a_u32 & b_u32) != b_u32) {
+ return true;
+ }
+ }
+
+ return false;
+}
+
+/* Returns true if 'mask' matches every packet, false if 'mask' fixes any bits
+ * or fields. */
+bool
+minimask_is_catchall(const struct minimask *mask_)
+{
+ const struct miniflow *mask = &mask_->masks;
+ const uint32_t *p = mask->values;
+ uint64_t map;
+
+ for (map = mask->map; map; map = zero_rightmost_1bit(map)) {
+ if (*p++) {
+ return false;
+ }
+ }
+ return true;