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openvswitch/lib/meta-flow.h
Mengke Liu 4e548ad9e6 geneve-map-rename: rename geneve-map to tlv-map. 
This patch renames the command name related with geneve-map to a more
generic name as following:
add-geneve-map -> add-tlv-map
del-geneve-map -> del-tlv-map
dump-geneve-map -> dump-tlv-map

It also renames the Geneve_table to tlv_table.

By doing this renaming, the NSH variable context header (the same TLV
format as Geneve) or other protocol can reuse the field tun_metadata<N>
in the future.

Signed-off-by: Mengke Liu <mengke.liu@intel.com>
Signed-off-by: Ricky Li <ricky.li@intel.com>
Signed-off-by: Jesse Gross <jesse@kernel.org>
2015-12-15 13:06:11 -08:00

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/*
* Copyright (c) 2011, 2012, 2013, 2014, 2015 Nicira, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef META_FLOW_H
#define META_FLOW_H 1
#include <sys/types.h>
#include <netinet/in.h>
#include <netinet/ip6.h>
#include "bitmap.h"
#include "flow.h"
#include "ofp-errors.h"
#include "packets.h"
#include "util.h"
struct ds;
struct match;
/* Open vSwitch fields
* ===================
*
* A "field" is a property of a packet. Most familiarly, "data fields" are
* fields that can be extracted from a packet.
*
* Some data fields are always present as a consequence of the basic networking
* technology in use. Ethernet is the assumed base technology for current
* versions of OpenFlow and Open vSwitch, so Ethernet header fields are always
* available.
*
* Other data fields are not always present. A packet contains ARP fields, for
* example, only when its Ethernet header indicates the Ethertype for ARP,
* 0x0806. We say that a field is "applicable" when it is it present in a
* packet, and "inapplicable" when it is not, and refer to the conditions that
* determine whether a field is applicable as "prerequisites". Some
* VLAN-related fields are a special case: these fields are always applicable,
* but have a designated value or bit that indicates whether a VLAN header is
* present, with the remaining values or bits indicating the VLAN header's
* content (if it is present). See MFF_VLAN_TCI for an example.
*
* Conceptually, an inapplicable field does not have a value, not even a
* nominal ``value'' such as all-zero-bits. In many circumstances, OpenFlow
* and Open vSwitch allow references only to applicable fields. For example,
* one may match a given field only if the match includes the field's
* prerequisite, e.g. matching an ARP field is only allowed if one also matches
* on Ethertype 0x0806.
*
* (Practically, however, OVS represents a field's value as some fixed member
* in its "struct flow", so accessing that member will obtain some value. Some
* members are used for more than one purpose, e.g. the "tp_src" member
* represents the TCP, UDP, and SCTP source port, so the value read may not
* even make sense. For this reason, it is important to know whether a field's
* prerequisites are satisfied before attempting to read it.)
*
* Sometimes a packet may contain multiple instances of a header. For example,
* a packet may contain multiple VLAN or MPLS headers, and tunnels can cause
* any data field to recur. OpenFlow and Open vSwitch do not address these
* cases uniformly. For VLAN and MPLS headers, only the outermost header is
* accessible, so that inner headers may be accessed only by ``popping''
* (removing) the outer header. (Open vSwitch supports only a single VLAN
* header in any case.) For tunnels, e.g. GRE or VXLAN, the outer header and
* inner headers are treated as different data fields.
*
* OpenFlow and Open vSwitch support some fields other than data fields.
* "Metadata fields" relate to the origin or treatment of a packet, but they
* are not extracted from the packet data itself. One example is the physical
* port on which a packet arrived at the switch. "Register fields" act like
* variables: they give an OpenFlow switch space for temporary storage while
* processing a packet. Existing metadata and register fields have no
* prerequisites.
*
* A field's value consists of an integral number of bytes. Most data fields
* are copied directly from protocol headers, e.g. at layer 2, MFF_ETH_SRC is
* copied from the Ethernet source address and MFF_ETH_DST from the destination
* address. Other data fields are copied from a packet with padding, usually
* with zeros and in the most significant positions (see e.g. MFF_MPLS_LABEL)
* but not always (see e.g. MFF_IP_DSCP). A final category of data fields is
* transformed in other ways as they are copied from the packets, to make them
* more useful for matching, e.g. MFF_IP_FRAG describes whether a packet is a
* fragment but it is not copied directly from the IP header.
*
*
* Field specifications
* ====================
*
* Each of the enumeration values below represents a field. The comments
* preceding each enum must be in a stylized form that is parsed at compile
* time by the extract-ofp-fields program. The comment itself consists of a
* series of paragraphs separate by blank lines. The paragraphs consist of:
*
* - The first paragraph gives the user-visible name of the field as a
* quoted string. This is the name used for parsing and formatting the
* field.
*
* For historical reasons, some fields have an additional name that is
* accepted as an alternative in parsing. This name, when there is one,
* is given as a quoted string in parentheses along with "aka". For
* example:
*
* "tun_id" (aka "tunnel_id").
*
* New fields should have only one name.
*
* - Any number of paragraphs of free text that describe the field. This
* is meant for human readers, so extract-ofp-fields ignores it.
*
* - A final paragraph that consists of a series of key-value pairs, one
* per line, in the form "key: value." where the period at the end of the
* line is a mandatory part of the syntax.
*
* Every field must specify the following key-value pairs:
*
* Type:
*
* The format and size of the field's value. Some possible values are
* generic:
*
* u8: A one-byte field.
* be16: A two-byte field.
* be32: A four-byte field.
* be64: An eight-byte field.
*
* The remaining values imply more about the value's semantics, though OVS
* does not currently take advantage of this additional information:
*
* MAC: A six-byte field whose value is an Ethernet address.
* IPv6: A 16-byte field whose value is an IPv6 address.
* tunnelMD: A variable length field, up to 124 bytes, that carries
* tunnel metadata.
*
* Maskable:
*
* Either "bitwise", if OVS supports matching any subset of bits in the
* field, or "no", if OVS only supports matching or wildcarding the entire
* field.
*
* Formatting:
*
* Explains how a field's value is formatted and parsed for human
* consumption. Some of the options are fairly generally useful:
*
* decimal: Formats the value as a decimal number. On parsing, accepts
* decimal (with no prefix), hexadecimal with 0x prefix, or octal
* with 0 prefix.
*
* hexadecimal: Same as decimal except nonzero values are formatted in
* hex with 0x prefix. The default for parsing is *not* hexadecimal:
* only with a 0x prefix is the input in hexadecimal.
*
* Ethernet: Formats and accepts the common format xx:xx:xx:xx:xx:xx.
* 6-byte fields only.
*
* IPv4: Formats and accepts the common format w.x.y.z. 4-byte fields
* only.
*
* IPv6: Formats and accepts the common IPv6 formats. 16-byte fields
* only.
*
* OpenFlow 1.0 port: Accepts an OpenFlow well-known port name
* (e.g. "IN_PORT") in uppercase or lowercase, or a 16-bit port
* number in decimal. Formats ports using their well-known names in
* uppercase, or in decimal otherwise. 2-byte fields only.
*
* OpenFlow 1.1+ port: Same syntax as for OpenFlow 1.0 ports but for
* 4-byte OpenFlow 1.1+ port number fields.
*
* Others are very specific to particular fields:
*
* frag: One of the strings "no", "first", "later", "yes", "not_later"
* describing which IPv4/v6 fragments are matched.
*
* tunnel flags: Any number of the strings "df", "csum", "key", or
* "oam" separated by "|".
*
* TCP flags: See the description of tcp_flags in ovs-ofctl(8).
*
* Prerequisites:
*
* The field's prerequisites. The values should be straightfoward.
*
* Access:
*
* Either "read-only", for a field that cannot be changed via OpenFlow, or
* "read/write" for a modifiable field.
*
* NXM:
*
* If the field has an NXM field assignment, then this specifies the NXM
* name of the field (e.g. "NXM_OF_ETH_SRC"), followed by its nxm_type in
* parentheses, followed by "since v<x>.<y>" specifying the version of Open
* vSwitch that first supported this field in NXM (e.g. "since v1.1" if it
* was introduced in Open vSwitch 1.1).
*
* The NXM name must begin with NXM_OF_ or NXM_NX_. This allows OVS to
* determine the correct NXM class.
*
* If the field does not have an NXM field assignment, specify "none".
*
* OXM:
*
* If the field has an OXM field assignment, then this specifies the OXM
* name of the field (e.g. "OXM_OF_ETH_SRC"), followed by its nxm_type in
* parentheses, followed by "since OF<a>.<b> v<x>.<y>" specifying the
* versions of OpenFlow and Open vSwitch that first supported this field in
* OXM (e.g. "since OF1.3 and v1.10" if it was introduced in OpenFlow 1.3
* and first supported by Open vSwitch in version 1.10).
*
* Some fields have more than one OXM field assignment. For example,
* actset_output has an experimenter OXM assignment in OpenFlow 1.3 and a
* standard OXM assignment in OpenFlow 1.5. In such a case, specify both,
* separated by commas.
*
* OVS uses the start of the OXM field name to determine the correct OXM
* class. To support a new OXM class, edit the mapping table in
* build-aux/extract-ofp-fields.
*
* If the field does not have an OXM field assignment, specify "none".
*
* The following key-value pairs are optional. Open vSwitch already supports
* all the fields to which they apply, so new fields should probably not
* include these pairs:
*
* OF1.0:
*
* Specify this as "exact match" if OpenFlow 1.0 can match or wildcard the
* entire field, or as "CIDR mask" if OpenFlow 1.0 can match any CIDR
* prefix of the field. (OpenFlow 1.0 did not support bitwise matching.)
* Omit, if OpenFlow 1.0 did not support this field.
*
* OF1.1:
*
* Specify this as "exact match" if OpenFlow 1.1 can match or wildcard the
* entire field, or as "bitwise" if OpenFlow 1.1 can match any subset of
* bits in the field. Omit, if OpenFlow 1.1 did not support this field.
*
* The following key-value pair is optional:
*
* Prefix lookup member:
*
* If this field makes sense for use with classifier_set_prefix_fields(),
* specify the name of the "struct flow" member that corresponds to the
* field.
*
* Finally, a few "register" fields have very similar names and purposes,
* e.g. MFF_REG0 through MFF_REG7. For these, the comments may be merged
* together using <N> as a metasyntactic variable for the numeric suffix.
* Lines in the comment that are specific to one of the particular fields by
* writing, e.g. <1>, to consider that line only for e.g. MFF_REG1.
*/
enum OVS_PACKED_ENUM mf_field_id {
/* ## -------- ## */
/* ## Metadata ## */
/* ## -------- ## */
/* "dp_hash".
*
* Flow hash computed in the datapath. Internal use only, not programmable
* from controller.
*
* The OXM code point for this is an attempt to test OXM experimenter
* support, which is otherwise difficult to test due to the dearth of use
* out in the wild. Because controllers can't add flows that match on
* dp_hash, this doesn't commit OVS to supporting this OXM experimenter
* code point in the future.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read-only.
* NXM: NXM_NX_DP_HASH(35) since v2.2.
* OXM: NXOXM_ET_DP_HASH(0) since OF1.5 and v2.4.
*/
MFF_DP_HASH,
/* "recirc_id".
*
* ID for recirculation. The value 0 is reserved for initially received
* packets. Internal use only, not programmable from controller.
*
* Type: be32.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: none.
* Access: read-only.
* NXM: NXM_NX_RECIRC_ID(36) since v2.2.
* OXM: none.
*/
MFF_RECIRC_ID,
/* "conj_id".
*
* ID for "conjunction" actions. Please refer to ovs-ofctl(8)
* documentation of "conjunction" for details.
*
* Type: be32.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: none.
* Access: read-only.
* NXM: NXM_NX_CONJ_ID(37) since v2.4.
* OXM: none. */
MFF_CONJ_ID,
/* "tun_id" (aka "tunnel_id").
*
* The "key" or "tunnel ID" or "VNI" in a packet received via a keyed
* tunnel. For protocols in which the key is shorter than 64 bits, the key
* is stored in the low bits and the high bits are zeroed. For non-keyed
* tunnels and packets not received via a tunnel, the value is 0.
*
* Type: be64.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_ID(16) since v1.1.
* OXM: OXM_OF_TUNNEL_ID(38) since OF1.3 and v1.10.
* Prefix lookup member: tunnel.tun_id.
*/
MFF_TUN_ID,
/* "tun_src".
*
* The IPv4 source address in the outer IP header of a tunneled packet.
*
* For non-tunneled packets, the value is 0.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: IPv4.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_IPV4_SRC(31) since v2.0.
* OXM: none.
* Prefix lookup member: tunnel.ip_src.
*/
MFF_TUN_SRC,
/* "tun_dst".
*
* The IPv4 destination address in the outer IP header of a tunneled
* packet.
*
* For non-tunneled packets, the value is 0.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: IPv4.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_IPV4_DST(32) since v2.0.
* OXM: none.
* Prefix lookup member: tunnel.ip_dst.
*/
MFF_TUN_DST,
/* "tun_ipv6_src".
*
* The IPv6 source address in the outer IP header of a tunneled packet.
*
* For non-tunneled packets, the value is 0.
*
* Type: be128.
* Maskable: bitwise.
* Formatting: IPv6.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_IPV6_SRC(109) since v2.5.
* OXM: none.
* Prefix lookup member: tunnel.ipv6_src.
*/
MFF_TUN_IPV6_SRC,
/* "tun_ipv6_dst".
*
* The IPv6 destination address in the outer IP header of a tunneled
* packet.
*
* For non-tunneled packets, the value is 0.
*
* Type: be128.
* Maskable: bitwise.
* Formatting: IPv6.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_IPV6_DST(110) since v2.5.
* OXM: none.
* Prefix lookup member: tunnel.ipv6_dst.
*/
MFF_TUN_IPV6_DST,
/* "tun_flags".
*
* Flags representing aspects of tunnel behavior.
*
* This field currently only has a single flag defined:
*
* - NX_TUN_FLAG_OAM: The tunnel protocol indicated that this is an
* OAM control packet.
*
* The switch may reject matches against values that it is not aware of.
*
* Note that it is possible for newer version of Open vSwitch to
* introduce additional flags with varying meaning. It is therefore not
* recommended to use an exact match on this field since the behavior of
* these new flags is unknown and should be ignored.
*
* For non-tunneled packets, the value is 0.
*
* Type: be16 (low 1 bits).
* Maskable: bitwise.
* Formatting: tunnel flags.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_FLAGS(104) since v2.5.
* OXM: none.
*/
MFF_TUN_FLAGS,
/* "tun_ttl".
*
* The TTL in the outer IP header of a tunneled packet. Internal use only,
* not programmable from controller.
*
* For non-tunneled packets, the value is 0.
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: none.
* Access: read-only.
* NXM: none.
* OXM: none.
*/
MFF_TUN_TTL,
/* "tun_tos".
*
* The ToS value in the outer IP header of a tunneled packet. Internal use
* only, not programmable from controller.
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: none.
* Access: read-only.
* NXM: none.
* OXM: none.
*/
MFF_TUN_TOS,
/* "tun_gbp_id".
*
* VXLAN Group Policy ID
*
* Type: be16.
* Maskable: bitwise.
* Formatting: decimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_GBP_ID(38) since v2.4.
* OXM: none.
*/
MFF_TUN_GBP_ID,
/* "tun_gbp_flags".
*
* VXLAN Group Policy flags
*
* Type: u8.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_GBP_FLAGS(39) since v2.4.
* OXM: none.
*/
MFF_TUN_GBP_FLAGS,
#if TUN_METADATA_NUM_OPTS == 64
/* "tun_metadata<N>".
*
* Encapsulation metadata for tunnels.
*
* Each NXM can be dynamically mapped onto a particular tunnel field using
* OpenFlow commands. The individual NXMs can each carry up to 124 bytes
* of data and a combined total of 256 across all allocated fields.
*
* Type: tunnelMD.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_TUN_METADATA0(40) since v2.5. <0>
* NXM: NXM_NX_TUN_METADATA1(41) since v2.5. <1>
* NXM: NXM_NX_TUN_METADATA2(42) since v2.5. <2>
* NXM: NXM_NX_TUN_METADATA3(43) since v2.5. <3>
* NXM: NXM_NX_TUN_METADATA4(44) since v2.5. <4>
* NXM: NXM_NX_TUN_METADATA5(45) since v2.5. <5>
* NXM: NXM_NX_TUN_METADATA6(46) since v2.5. <6>
* NXM: NXM_NX_TUN_METADATA7(47) since v2.5. <7>
* NXM: NXM_NX_TUN_METADATA8(48) since v2.5. <8>
* NXM: NXM_NX_TUN_METADATA9(49) since v2.5. <9>
* NXM: NXM_NX_TUN_METADATA10(50) since v2.5. <10>
* NXM: NXM_NX_TUN_METADATA11(51) since v2.5. <11>
* NXM: NXM_NX_TUN_METADATA12(52) since v2.5. <12>
* NXM: NXM_NX_TUN_METADATA13(53) since v2.5. <13>
* NXM: NXM_NX_TUN_METADATA14(54) since v2.5. <14>
* NXM: NXM_NX_TUN_METADATA15(55) since v2.5. <15>
* NXM: NXM_NX_TUN_METADATA16(56) since v2.5. <16>
* NXM: NXM_NX_TUN_METADATA17(57) since v2.5. <17>
* NXM: NXM_NX_TUN_METADATA18(58) since v2.5. <18>
* NXM: NXM_NX_TUN_METADATA19(59) since v2.5. <19>
* NXM: NXM_NX_TUN_METADATA20(60) since v2.5. <20>
* NXM: NXM_NX_TUN_METADATA21(61) since v2.5. <21>
* NXM: NXM_NX_TUN_METADATA22(62) since v2.5. <22>
* NXM: NXM_NX_TUN_METADATA23(63) since v2.5. <23>
* NXM: NXM_NX_TUN_METADATA24(64) since v2.5. <24>
* NXM: NXM_NX_TUN_METADATA25(65) since v2.5. <25>
* NXM: NXM_NX_TUN_METADATA26(66) since v2.5. <26>
* NXM: NXM_NX_TUN_METADATA27(67) since v2.5. <27>
* NXM: NXM_NX_TUN_METADATA28(68) since v2.5. <28>
* NXM: NXM_NX_TUN_METADATA29(69) since v2.5. <29>
* NXM: NXM_NX_TUN_METADATA30(70) since v2.5. <30>
* NXM: NXM_NX_TUN_METADATA31(71) since v2.5. <31>
* NXM: NXM_NX_TUN_METADATA32(72) since v2.5. <32>
* NXM: NXM_NX_TUN_METADATA33(73) since v2.5. <33>
* NXM: NXM_NX_TUN_METADATA34(74) since v2.5. <34>
* NXM: NXM_NX_TUN_METADATA35(75) since v2.5. <35>
* NXM: NXM_NX_TUN_METADATA36(76) since v2.5. <36>
* NXM: NXM_NX_TUN_METADATA37(77) since v2.5. <37>
* NXM: NXM_NX_TUN_METADATA38(78) since v2.5. <38>
* NXM: NXM_NX_TUN_METADATA39(79) since v2.5. <39>
* NXM: NXM_NX_TUN_METADATA40(80) since v2.5. <40>
* NXM: NXM_NX_TUN_METADATA41(81) since v2.5. <41>
* NXM: NXM_NX_TUN_METADATA42(82) since v2.5. <42>
* NXM: NXM_NX_TUN_METADATA43(83) since v2.5. <43>
* NXM: NXM_NX_TUN_METADATA44(84) since v2.5. <44>
* NXM: NXM_NX_TUN_METADATA45(85) since v2.5. <45>
* NXM: NXM_NX_TUN_METADATA46(86) since v2.5. <46>
* NXM: NXM_NX_TUN_METADATA47(87) since v2.5. <47>
* NXM: NXM_NX_TUN_METADATA48(88) since v2.5. <48>
* NXM: NXM_NX_TUN_METADATA49(89) since v2.5. <49>
* NXM: NXM_NX_TUN_METADATA50(90) since v2.5. <50>
* NXM: NXM_NX_TUN_METADATA51(91) since v2.5. <51>
* NXM: NXM_NX_TUN_METADATA52(92) since v2.5. <52>
* NXM: NXM_NX_TUN_METADATA53(93) since v2.5. <53>
* NXM: NXM_NX_TUN_METADATA54(94) since v2.5. <54>
* NXM: NXM_NX_TUN_METADATA55(95) since v2.5. <55>
* NXM: NXM_NX_TUN_METADATA56(96) since v2.5. <56>
* NXM: NXM_NX_TUN_METADATA57(97) since v2.5. <57>
* NXM: NXM_NX_TUN_METADATA58(98) since v2.5. <58>
* NXM: NXM_NX_TUN_METADATA59(99) since v2.5. <59>
* NXM: NXM_NX_TUN_METADATA60(100) since v2.5. <60>
* NXM: NXM_NX_TUN_METADATA61(101) since v2.5. <61>
* NXM: NXM_NX_TUN_METADATA62(102) since v2.5. <62>
* NXM: NXM_NX_TUN_METADATA63(103) since v2.5. <63>
* OXM: none.
*/
MFF_TUN_METADATA0,
MFF_TUN_METADATA1,
MFF_TUN_METADATA2,
MFF_TUN_METADATA3,
MFF_TUN_METADATA4,
MFF_TUN_METADATA5,
MFF_TUN_METADATA6,
MFF_TUN_METADATA7,
MFF_TUN_METADATA8,
MFF_TUN_METADATA9,
MFF_TUN_METADATA10,
MFF_TUN_METADATA11,
MFF_TUN_METADATA12,
MFF_TUN_METADATA13,
MFF_TUN_METADATA14,
MFF_TUN_METADATA15,
MFF_TUN_METADATA16,
MFF_TUN_METADATA17,
MFF_TUN_METADATA18,
MFF_TUN_METADATA19,
MFF_TUN_METADATA20,
MFF_TUN_METADATA21,
MFF_TUN_METADATA22,
MFF_TUN_METADATA23,
MFF_TUN_METADATA24,
MFF_TUN_METADATA25,
MFF_TUN_METADATA26,
MFF_TUN_METADATA27,
MFF_TUN_METADATA28,
MFF_TUN_METADATA29,
MFF_TUN_METADATA30,
MFF_TUN_METADATA31,
MFF_TUN_METADATA32,
MFF_TUN_METADATA33,
MFF_TUN_METADATA34,
MFF_TUN_METADATA35,
MFF_TUN_METADATA36,
MFF_TUN_METADATA37,
MFF_TUN_METADATA38,
MFF_TUN_METADATA39,
MFF_TUN_METADATA40,
MFF_TUN_METADATA41,
MFF_TUN_METADATA42,
MFF_TUN_METADATA43,
MFF_TUN_METADATA44,
MFF_TUN_METADATA45,
MFF_TUN_METADATA46,
MFF_TUN_METADATA47,
MFF_TUN_METADATA48,
MFF_TUN_METADATA49,
MFF_TUN_METADATA50,
MFF_TUN_METADATA51,
MFF_TUN_METADATA52,
MFF_TUN_METADATA53,
MFF_TUN_METADATA54,
MFF_TUN_METADATA55,
MFF_TUN_METADATA56,
MFF_TUN_METADATA57,
MFF_TUN_METADATA58,
MFF_TUN_METADATA59,
MFF_TUN_METADATA60,
MFF_TUN_METADATA61,
MFF_TUN_METADATA62,
MFF_TUN_METADATA63,
#else
#error "Need to update MFF_TUN_METADATA* to match TUN_METADATA_NUM_OPTS"
#endif
/* "metadata".
*
* A scratch pad value standardized in OpenFlow 1.1+. Initially zero, at
* the beginning of the pipeline.
*
* Type: be64.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_METADATA(2) since OF1.2 and v1.8.
* OF1.1: bitwise mask.
*/
MFF_METADATA,
/* "in_port".
*
* 16-bit (OpenFlow 1.0) view of the physical or virtual port on which the
* packet was received.
*
* Type: be16.
* Maskable: no.
* Formatting: OpenFlow 1.0 port.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_OF_IN_PORT(0) since v1.1.
* OXM: none.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_IN_PORT,
/* "in_port_oxm".
*
* 32-bit (OpenFlow 1.1+) view of the physical or virtual port on which the
* packet was received.
*
* Type: be32.
* Maskable: no.
* Formatting: OpenFlow 1.1+ port.
* Prerequisites: none.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_IN_PORT(0) since OF1.2 and v1.7.
* OF1.1: exact match.
*/
MFF_IN_PORT_OXM,
/* "actset_output".
*
* Type: be32.
* Maskable: no.
* Formatting: OpenFlow 1.1+ port.
* Prerequisites: none.
* Access: read-only.
* NXM: none.
* OXM: ONFOXM_ET_ACTSET_OUTPUT(43) since OF1.3 and v2.4,
* OXM_OF_ACTSET_OUTPUT(43) since OF1.5 and v2.4.
*/
MFF_ACTSET_OUTPUT,
/* "skb_priority".
*
* Designates the queue to which output will be directed. The value in
* this field is not necessarily the OpenFlow queue number; with the Linux
* kernel switch, it instead has a pair of subfields designating the
* "major" and "minor" numbers of a Linux kernel qdisc handle.
*
* This field is "semi-internal" in that it can be set with the "set_queue"
* action but not matched or read or written other ways.
*
* Type: be32.
* Maskable: no.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read-only.
* NXM: none.
* OXM: none.
*/
MFF_SKB_PRIORITY,
/* "pkt_mark".
*
* Packet metadata mark. The mark may be passed into other system
* components in order to facilitate interaction between subsystems. On
* Linux this corresponds to struct sk_buff's "skb_mark" member but the
* exact implementation is platform-dependent.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_PKT_MARK(33) since v2.0.
* OXM: none.
*/
MFF_PKT_MARK,
/* "ct_state".
*
* Connection tracking state. The field is populated by the NXAST_CT
* action. The following bit values describe the state of the connection:
*
* - New (0x01): This is the beginning of a new connection.
* - Established (0x02): This is part of an already existing connection.
* - Related (0x04): This is a separate connection that is related to an
* existing connection.
* - Invalid (0x20): This flow could not be associated with a connection.
* This could be set for a variety of reasons,
* including (but not limited to):
* - L3/L4 protocol handler is not loaded/unavailable.
* - L3/L4 protocol handler determines that the packet
* is malformed or invalid for the current FSM stage.
* - Packets are unexpected length for protocol.
* - Reply (0x40): This flow is in the reply direction, ie it did not
* initiate the connection.
* - Tracked (0x80): Connection tracking has occurred.
*
* The "Tracked" bit corresponds to the packet_state as described in the
* description of NXAST_CT action. The remaining bits correspond to
* connection state. The "New" bit implies that the connection state
* is uncommitted, while "Established" implies that it has previously been
* committed.
*
* There are additional constraints on the ct_state bits, listed in order
* of precedence below:
*
* - If "Tracked" is unset, no other bits may be set.
* - If "Tracked" is set, one or more other bits may be set.
* - If "Invalid" is set, only the "Tracked" bit is also set.
* - The "New" and "Established" bits are mutually exclusive.
* - The "New" and "Reply" bits are mutually exclusive.
* - The "Related" bit may be set in conjunction with any other bits.
* Connections that are identified as "Related" are separate
* connections from the originating connection, so must be committed
* separately. All packets for a related connection will have the
* "Related" bit set (not just the initial packet).
*
* Type: be32.
* Maskable: bitwise.
* Formatting: ct state.
* Prerequisites: none.
* Access: read-only.
* NXM: NXM_NX_CT_STATE(105) since v2.5.
* OXM: none.
*/
MFF_CT_STATE,
/* "ct_zone".
*
* Connection tracking zone. The field is populated by the
* NXAST_CT action.
*
* Type: be16.
* Maskable: no.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read-only.
* NXM: NXM_NX_CT_ZONE(106) since v2.5.
* OXM: none.
*/
MFF_CT_ZONE,
/* "ct_mark".
*
* Connection tracking mark. The mark is carried with the
* connection tracking state. On Linux this corresponds to the
* nf_conn's "mark" member but the exact implementation is
* platform-dependent.
*
* Writable only from nested actions within the NXAST_CT action.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_CT_MARK(107) since v2.5.
* OXM: none.
*/
MFF_CT_MARK,
/* "ct_label".
*
* Connection tracking label. The label is carried with the
* connection tracking state. On Linux this is held in the
* conntrack label extension but the exact implementation is
* platform-dependent.
*
* Writable only from nested actions within the NXAST_CT action.
*
* Type: be128.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_CT_LABEL(108) since v2.5.
* OXM: none.
*/
MFF_CT_LABEL,
#if FLOW_N_REGS == 8
/* "reg<N>".
*
* Nicira extension scratch pad register with initial value 0.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_NX_REG0(0) since v1.1. <0>
* NXM: NXM_NX_REG1(1) since v1.1. <1>
* NXM: NXM_NX_REG2(2) since v1.1. <2>
* NXM: NXM_NX_REG3(3) since v1.1. <3>
* NXM: NXM_NX_REG4(4) since v1.3. <4>
* NXM: NXM_NX_REG5(5) since v1.7. <5>
* NXM: NXM_NX_REG6(6) since v1.7. <6>
* NXM: NXM_NX_REG7(7) since v1.7. <7>
* OXM: none.
*/
MFF_REG0,
MFF_REG1,
MFF_REG2,
MFF_REG3,
MFF_REG4,
MFF_REG5,
MFF_REG6,
MFF_REG7,
#else
#error "Need to update MFF_REG* to match FLOW_N_REGS"
#endif
#if FLOW_N_XREGS == 4
/* "xreg<N>".
*
* OpenFlow 1.5 ``extended register". Each extended register
* overlays two of the Nicira extension 32-bit registers: xreg0 overlays
* reg0 and reg1, with reg0 supplying the most-significant bits of xreg0
* and reg1 the least-significant. xreg1 similarly overlays reg2 and reg3,
* and so on.
*
* These registers were introduced in OpenFlow 1.5, but EXT-244 in the ONF
* JIRA also publishes them as a (draft) OpenFlow extension to OpenFlow
* 1.3.
*
* Type: be64.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_PKT_REG<N>(<N>) since OF1.3 and v2.4.
*/
MFF_XREG0,
MFF_XREG1,
MFF_XREG2,
MFF_XREG3,
#else
#error "Need to update MFF_REG* to match FLOW_N_XREGS"
#endif
/* ## -------- ## */
/* ## Ethernet ## */
/* ## -------- ## */
/* "eth_src" (aka "dl_src").
*
* Source address in Ethernet header.
*
* This field was not maskable before Open vSwitch 1.8.
*
* Type: MAC.
* Maskable: bitwise.
* Formatting: Ethernet.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_OF_ETH_SRC(2) since v1.1.
* OXM: OXM_OF_ETH_SRC(4) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: bitwise mask.
*/
MFF_ETH_SRC,
/* "eth_dst" (aka "dl_dst").
*
* Destination address in Ethernet header.
*
* Before Open vSwitch 1.8, the allowed masks were restricted to
* 00:00:00:00:00:00, fe:ff:ff:ff:ff:ff, 01:00:00:00:00:00,
* ff:ff:ff:ff:ff:ff.
*
* Type: MAC.
* Maskable: bitwise.
* Formatting: Ethernet.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_OF_ETH_DST(1) since v1.1.
* OXM: OXM_OF_ETH_DST(3) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: bitwise mask.
*/
MFF_ETH_DST,
/* "eth_type" (aka "dl_type").
*
* Packet's Ethernet type.
*
* For an Ethernet II packet this is taken from the Ethernet header. For
* an 802.2 LLC+SNAP header with OUI 00-00-00 this is taken from the SNAP
* header. A packet that has neither format has value 0x05ff
* (OFP_DL_TYPE_NOT_ETH_TYPE).
*
* For a packet with an 802.1Q header, this is the type of the encapsulated
* frame.
*
* Type: be16.
* Maskable: no.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read-only.
* NXM: NXM_OF_ETH_TYPE(3) since v1.1.
* OXM: OXM_OF_ETH_TYPE(5) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_ETH_TYPE,
/* ## ---- ## */
/* ## VLAN ## */
/* ## ---- ## */
/* It looks odd for vlan_tci, vlan_vid, and vlan_pcp to say that they are
* supported in OF1.0 and OF1.1, since the detailed semantics of these fields
* only apply to NXM or OXM. They are marked as supported for exact matches in
* OF1.0 and OF1.1 because exact matches on those fields can be successfully
* translated into the OF1.0 and OF1.1 flow formats. */
/* "vlan_tci".
*
* 802.1Q TCI.
*
* For a packet with an 802.1Q header, this is the Tag Control Information
* (TCI) field, with the CFI bit forced to 1. For a packet with no 802.1Q
* header, this has value 0.
*
* This field can be used in various ways:
*
* - If it is not constrained at all, the nx_match matches packets
* without an 802.1Q header or with an 802.1Q header that has any TCI
* value.
*
* - Testing for an exact match with 0 matches only packets without an
* 802.1Q header.
*
* - Testing for an exact match with a TCI value with CFI=1 matches
* packets that have an 802.1Q header with a specified VID and PCP.
*
* - Testing for an exact match with a nonzero TCI value with CFI=0 does
* not make sense. The switch may reject this combination.
*
* - Testing with a specific VID and CFI=1, with nxm_mask=0x1fff, matches
* packets that have an 802.1Q header with that VID (and any PCP).
*
* - Testing with a specific PCP and CFI=1, with nxm_mask=0xf000, matches
* packets that have an 802.1Q header with that PCP (and any VID).
*
* - Testing with nxm_value=0, nxm_mask=0x0fff matches packets with no
* 802.1Q header or with an 802.1Q header with a VID of 0.
*
* - Testing with nxm_value=0, nxm_mask=0xe000 matches packets with no
* 802.1Q header or with an 802.1Q header with a PCP of 0.
*
* - Testing with nxm_value=0, nxm_mask=0xefff matches packets with no
* 802.1Q header or with an 802.1Q header with both VID and PCP of 0.
*
* Type: be16.
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: none.
* Access: read/write.
* NXM: NXM_OF_VLAN_TCI(4) since v1.1.
* OXM: none.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_VLAN_TCI,
/* "dl_vlan" (OpenFlow 1.0).
*
* VLAN ID field. Zero if no 802.1Q header is present.
*
* Type: be16 (low 12 bits).
* Maskable: no.
* Formatting: decimal.
* Prerequisites: none.
* Access: read/write.
* NXM: none.
* OXM: none.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_DL_VLAN,
/* "vlan_vid" (OpenFlow 1.2+).
*
* If an 802.1Q header is present, this field's value is 0x1000
* bitwise-or'd with the VLAN ID. If no 802.1Q is present, this field's
* value is 0.
*
* Type: be16 (low 12 bits).
* Maskable: bitwise.
* Formatting: decimal.
* Prerequisites: none.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_VLAN_VID(6) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_VLAN_VID,
/* "dl_vlan_pcp" (OpenFlow 1.0).
*
* VLAN priority (PCP) field. Zero if no 802.1Q header is present.
*
* Type: u8 (low 3 bits).
* Maskable: no.
* Formatting: decimal.
* Prerequisites: none.
* Access: read/write.
* NXM: none.
* OXM: none.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_DL_VLAN_PCP,
/* "vlan_pcp" (OpenFlow 1.2+).
*
* VLAN priority (PCP) field. Zero if no 802.1Q header is present.
*
* Type: u8 (low 3 bits).
* Maskable: no.
* Formatting: decimal.
* Prerequisites: VLAN VID.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_VLAN_PCP(7) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_VLAN_PCP,
/* ## ---- ## */
/* ## MPLS ## */
/* ## ---- ## */
/* "mpls_label".
*
* The outermost MPLS label, or 0 if no MPLS labels are present.
*
* Type: be32 (low 20 bits).
* Maskable: no.
* Formatting: decimal.
* Prerequisites: MPLS.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_MPLS_LABEL(34) since OF1.2 and v1.11.
* OF1.1: exact match.
*/
MFF_MPLS_LABEL,
/* "mpls_tc".
*
* The outermost MPLS label's traffic control (TC) field, or 0 if no MPLS
* labels are present.
*
* Type: u8 (low 3 bits).
* Maskable: no.
* Formatting: decimal.
* Prerequisites: MPLS.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_MPLS_TC(35) since OF1.2 and v1.11.
* OF1.1: exact match.
*/
MFF_MPLS_TC,
/* "mpls_bos".
*
* The outermost MPLS label's bottom of stack (BoS) field, or 0 if no MPLS
* labels are present.
*
* Type: u8 (low 1 bits).
* Maskable: no.
* Formatting: decimal.
* Prerequisites: MPLS.
* Access: read-only.
* NXM: none.
* OXM: OXM_OF_MPLS_BOS(36) since OF1.3 and v1.11.
*/
MFF_MPLS_BOS,
/* ## ---- ## */
/* ## IPv4 ## */
/* ## ---- ## */
/* Update mf_is_l3_or_higher() if MFF_IPV4_SRC is no longer the first element
* for a field of layer 3 or higher */
/* "ip_src" (aka "nw_src").
*
* The source address in the IPv4 header.
*
* Before Open vSwitch 1.8, only CIDR masks were supported.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: IPv4.
* Prerequisites: IPv4.
* Access: read/write.
* NXM: NXM_OF_IP_SRC(7) since v1.1.
* OXM: OXM_OF_IPV4_SRC(11) since OF1.2 and v1.7.
* OF1.0: CIDR mask.
* OF1.1: bitwise mask.
* Prefix lookup member: nw_src.
*/
MFF_IPV4_SRC,
/* "ip_dst" (aka "nw_dst").
*
* The destination address in the IPv4 header.
*
* Before Open vSwitch 1.8, only CIDR masks were supported.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: IPv4.
* Prerequisites: IPv4.
* Access: read/write.
* NXM: NXM_OF_IP_DST(8) since v1.1.
* OXM: OXM_OF_IPV4_DST(12) since OF1.2 and v1.7.
* OF1.0: CIDR mask.
* OF1.1: bitwise mask.
* Prefix lookup member: nw_dst.
*/
MFF_IPV4_DST,
/* ## ---- ## */
/* ## IPv6 ## */
/* ## ---- ## */
/* "ipv6_src".
*
* The source address in the IPv6 header.
*
* Type: be128.
* Maskable: bitwise.
* Formatting: IPv6.
* Prerequisites: IPv6.
* Access: read/write.
* NXM: NXM_NX_IPV6_SRC(19) since v1.1.
* OXM: OXM_OF_IPV6_SRC(26) since OF1.2 and v1.1.
* Prefix lookup member: ipv6_src.
*/
MFF_IPV6_SRC,
/* "ipv6_dst".
*
* The destination address in the IPv6 header.
*
* Type: be128.
* Maskable: bitwise.
* Formatting: IPv6.
* Prerequisites: IPv6.
* Access: read/write.
* NXM: NXM_NX_IPV6_DST(20) since v1.1.
* OXM: OXM_OF_IPV6_DST(27) since OF1.2 and v1.1.
* Prefix lookup member: ipv6_dst.
*/
MFF_IPV6_DST,
/* "ipv6_label".
*
* The flow label in the IPv6 header.
*
* Type: be32 (low 20 bits).
* Maskable: bitwise.
* Formatting: hexadecimal.
* Prerequisites: IPv6.
* Access: read/write.
* NXM: NXM_NX_IPV6_LABEL(27) since v1.4.
* OXM: OXM_OF_IPV6_FLABEL(28) since OF1.2 and v1.7.
*/
MFF_IPV6_LABEL,
/* ## ----------------------- ## */
/* ## IPv4/IPv6 common fields ## */
/* ## ----------------------- ## */
/* "nw_proto" (aka "ip_proto").
*
* The "protocol" byte in the IPv4 or IPv6 header.
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: IPv4/IPv6.
* Access: read-only.
* NXM: NXM_OF_IP_PROTO(6) since v1.1.
* OXM: OXM_OF_IP_PROTO(10) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_IP_PROTO,
/* Both views of the DSCP below are marked as supported in all of the versions
* of OpenFlow because a match on either view can be successfully translated
* into every OpenFlow flow format. */
/* "nw_tos" (OpenFlow 1.0/1.1).
*
* The DSCP byte in the IPv4 header or the traffic class byte from the IPv6
* header, with the ECN bits forced to 0. (That is, bits 2-7 contain the
* type of service and bits 0-1 are zero.)
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: IPv4/IPv6.
* Access: read/write.
* NXM: NXM_OF_IP_TOS(5) since v1.1.
* OXM: none.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_IP_DSCP,
/* "ip_dscp" (OpenFlow 1.2+).
*
* The DSCP byte in the IPv4 header or the traffic class byte from the IPv6
* header, shifted right 2 bits. (That is, bits 0-5 contain the type of
* service and bits 6-7 are zero.)
*
* Type: u8 (low 6 bits).
* Maskable: no.
* Formatting: decimal.
* Prerequisites: IPv4/IPv6.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_IP_DSCP(8) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_IP_DSCP_SHIFTED,
/* "nw_ecn" (aka "ip_ecn").
*
* The ECN bits in the IPv4 or IPv6 header.
*
* Type: u8 (low 2 bits).
* Maskable: no.
* Formatting: decimal.
* Prerequisites: IPv4/IPv6.
* Access: read/write.
* NXM: NXM_NX_IP_ECN(28) since v1.4.
* OXM: OXM_OF_IP_ECN(9) since OF1.2 and v1.7.
*/
MFF_IP_ECN,
/* "nw_ttl".
*
* The time-to-live (TTL) in the IPv4 header or hop limit in the IPv6
* header.
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: IPv4/IPv6.
* Access: read/write.
* NXM: NXM_NX_IP_TTL(29) since v1.4.
* OXM: none.
*/
MFF_IP_TTL,
/* "ip_frag".
*
* IP fragment information.
*
* This field has three possible values:
*
* - A packet that is not an IP fragment has value 0.
*
* - A packet that is an IP fragment with offset 0 (the first fragment)
* has bit 0 set and thus value 1.
*
* - A packet that is an IP fragment with nonzero offset has bits 0 and 1
* set and thus value 3.
*
* NX_IP_FRAG_ANY and NX_IP_FRAG_LATER are declared to symbolically
* represent the meanings of bits 0 and 1.
*
* The switch may reject matches against values that can never appear.
*
* It is important to understand how this field interacts with the OpenFlow
* IP fragment handling mode:
*
* - In OFPC_FRAG_DROP mode, the OpenFlow switch drops all IP fragments
* before they reach the flow table, so every packet that is available
* for matching will have value 0 in this field.
*
* - Open vSwitch does not implement OFPC_FRAG_REASM mode, but if it did
* then IP fragments would be reassembled before they reached the flow
* table and again every packet available for matching would always
* have value 0.
*
* - In OFPC_FRAG_NORMAL mode, all three values are possible, but
* OpenFlow 1.0 says that fragments' transport ports are always 0, even
* for the first fragment, so this does not provide much extra
* information.
*
* - In OFPC_FRAG_NX_MATCH mode, all three values are possible. For
* fragments with offset 0, Open vSwitch makes L4 header information
* available.
*
* Type: u8 (low 2 bits).
* Maskable: bitwise.
* Formatting: frag.
* Prerequisites: IPv4/IPv6.
* Access: read-only.
* NXM: NXM_NX_IP_FRAG(26) since v1.3.
* OXM: none.
*/
MFF_IP_FRAG,
/* ## --- ## */
/* ## ARP ## */
/* ## --- ## */
/* "arp_op".
*
* ARP opcode.
*
* For an Ethernet+IP ARP packet, the opcode in the ARP header. Always 0
* otherwise. Only ARP opcodes between 1 and 255 should be specified for
* matching.
*
* Type: be16.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: ARP.
* Access: read/write.
* NXM: NXM_OF_ARP_OP(15) since v1.1.
* OXM: OXM_OF_ARP_OP(21) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_ARP_OP,
/* "arp_spa".
*
* For an Ethernet+IP ARP packet, the source protocol (IPv4) address in the
* ARP header. Always 0 otherwise.
*
* Before Open vSwitch 1.8, only CIDR masks were supported.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: IPv4.
* Prerequisites: ARP.
* Access: read/write.
* NXM: NXM_OF_ARP_SPA(16) since v1.1.
* OXM: OXM_OF_ARP_SPA(22) since OF1.2 and v1.7.
* OF1.0: CIDR mask.
* OF1.1: bitwise mask.
*/
MFF_ARP_SPA,
/* "arp_tpa".
*
* For an Ethernet+IP ARP packet, the target protocol (IPv4) address in the
* ARP header. Always 0 otherwise.
*
* Before Open vSwitch 1.8, only CIDR masks were supported.
*
* Type: be32.
* Maskable: bitwise.
* Formatting: IPv4.
* Prerequisites: ARP.
* Access: read/write.
* NXM: NXM_OF_ARP_TPA(17) since v1.1.
* OXM: OXM_OF_ARP_TPA(23) since OF1.2 and v1.7.
* OF1.0: CIDR mask.
* OF1.1: bitwise mask.
*/
MFF_ARP_TPA,
/* "arp_sha".
*
* For an Ethernet+IP ARP packet, the source hardware (Ethernet) address in
* the ARP header. Always 0 otherwise.
*
* Type: MAC.
* Maskable: bitwise.
* Formatting: Ethernet.
* Prerequisites: ARP.
* Access: read/write.
* NXM: NXM_NX_ARP_SHA(17) since v1.1.
* OXM: OXM_OF_ARP_SHA(24) since OF1.2 and v1.7.
*/
MFF_ARP_SHA,
/* "arp_tha".
*
* For an Ethernet+IP ARP packet, the target hardware (Ethernet) address in
* the ARP header. Always 0 otherwise.
*
* Type: MAC.
* Maskable: bitwise.
* Formatting: Ethernet.
* Prerequisites: ARP.
* Access: read/write.
* NXM: NXM_NX_ARP_THA(18) since v1.1.
* OXM: OXM_OF_ARP_THA(25) since OF1.2 and v1.7.
*/
MFF_ARP_THA,
/* ## --- ## */
/* ## TCP ## */
/* ## --- ## */
/* "tcp_src" (aka "tp_src").
*
* TCP source port.
*
* Type: be16.
* Maskable: bitwise.
* Formatting: decimal.
* Prerequisites: TCP.
* Access: read/write.
* NXM: NXM_OF_TCP_SRC(9) since v1.1.
* OXM: OXM_OF_TCP_SRC(13) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_TCP_SRC,
/* "tcp_dst" (aka "tp_dst").
*
* TCP destination port.
*
* Type: be16.
* Maskable: bitwise.
* Formatting: decimal.
* Prerequisites: TCP.
* Access: read/write.
* NXM: NXM_OF_TCP_DST(10) since v1.1.
* OXM: OXM_OF_TCP_DST(14) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_TCP_DST,
/* "tcp_flags".
*
* Flags in the TCP header.
*
* TCP currently defines 9 flag bits, and additional 3 bits are reserved
* (must be transmitted as zero). See RFCs 793, 3168, and 3540.
*
* Type: be16 (low 12 bits).
* Maskable: bitwise.
* Formatting: TCP flags.
* Prerequisites: TCP.
* Access: read-only.
* NXM: NXM_NX_TCP_FLAGS(34) since v2.1.
* OXM: ONFOXM_ET_TCP_FLAGS(42) since OF1.3 and v2.4,
* OXM_OF_TCP_FLAGS(42) since OF1.5 and v2.3.
*/
MFF_TCP_FLAGS,
/* ## --- ## */
/* ## UDP ## */
/* ## --- ## */
/* "udp_src".
*
* UDP source port.
*
* Type: be16.
* Maskable: bitwise.
* Formatting: decimal.
* Prerequisites: UDP.
* Access: read/write.
* NXM: NXM_OF_UDP_SRC(11) since v1.1.
* OXM: OXM_OF_UDP_SRC(15) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_UDP_SRC,
/* "udp_dst".
*
* UDP destination port
*
* Type: be16.
* Maskable: bitwise.
* Formatting: decimal.
* Prerequisites: UDP.
* Access: read/write.
* NXM: NXM_OF_UDP_DST(12) since v1.1.
* OXM: OXM_OF_UDP_DST(16) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_UDP_DST,
/* ## ---- ## */
/* ## SCTP ## */
/* ## ---- ## */
/* "sctp_src".
*
* SCTP source port.
*
* Type: be16.
* Maskable: bitwise.
* Formatting: decimal.
* Prerequisites: SCTP.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_SCTP_SRC(17) since OF1.2 and v2.0.
* OF1.1: exact match.
*/
MFF_SCTP_SRC,
/* "sctp_dst".
*
* SCTP destination port.
*
* Type: be16.
* Maskable: bitwise.
* Formatting: decimal.
* Prerequisites: SCTP.
* Access: read/write.
* NXM: none.
* OXM: OXM_OF_SCTP_DST(18) since OF1.2 and v2.0.
* OF1.1: exact match.
*/
MFF_SCTP_DST,
/* ## ---- ## */
/* ## ICMP ## */
/* ## ---- ## */
/* "icmp_type".
*
* ICMPv4 type.
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: ICMPv4.
* Access: read/write.
* NXM: NXM_OF_ICMP_TYPE(13) since v1.1.
* OXM: OXM_OF_ICMPV4_TYPE(19) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_ICMPV4_TYPE,
/* "icmp_code".
*
* ICMPv4 code.
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: ICMPv4.
* Access: read/write.
* NXM: NXM_OF_ICMP_CODE(14) since v1.1.
* OXM: OXM_OF_ICMPV4_CODE(20) since OF1.2 and v1.7.
* OF1.0: exact match.
* OF1.1: exact match.
*/
MFF_ICMPV4_CODE,
/* "icmpv6_type".
*
* ICMPv6 type.
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: ICMPv6.
* Access: read/write.
* NXM: NXM_NX_ICMPV6_TYPE(21) since v1.1.
* OXM: OXM_OF_ICMPV6_TYPE(29) since OF1.2 and v1.7.
*/
MFF_ICMPV6_TYPE,
/* "icmpv6_code".
*
* ICMPv6 code.
*
* Type: u8.
* Maskable: no.
* Formatting: decimal.
* Prerequisites: ICMPv6.
* Access: read/write.
* NXM: NXM_NX_ICMPV6_CODE(22) since v1.1.
* OXM: OXM_OF_ICMPV6_CODE(30) since OF1.2 and v1.7.
*/
MFF_ICMPV6_CODE,
/* ## ------------------------- ## */
/* ## ICMPv6 Neighbor Discovery ## */
/* ## ------------------------- ## */
/* "nd_target".
*
* The target address in an IPv6 Neighbor Discovery message.
*
* Before Open vSwitch 1.8, only CIDR masks were supported.
*
* Type: be128.
* Maskable: bitwise.
* Formatting: IPv6.
* Prerequisites: ND.
* Access: read/write.
* NXM: NXM_NX_ND_TARGET(23) since v1.1.
* OXM: OXM_OF_IPV6_ND_TARGET(31) since OF1.2 and v1.7.
*/
MFF_ND_TARGET,
/* "nd_sll".
*
* The source link layer address in an IPv6 Neighbor Discovery message.
*
* Type: MAC.
* Maskable: bitwise.
* Formatting: Ethernet.
* Prerequisites: ND solicit.
* Access: read/write.
* NXM: NXM_NX_ND_SLL(24) since v1.1.
* OXM: OXM_OF_IPV6_ND_SLL(32) since OF1.2 and v1.7.
*/
MFF_ND_SLL,
/* "nd_tll".
*
* The target link layer address in an IPv6 Neighbor Discovery message.
*
* Type: MAC.
* Maskable: bitwise.
* Formatting: Ethernet.
* Prerequisites: ND advert.
* Access: read/write.
* NXM: NXM_NX_ND_TLL(25) since v1.1.
* OXM: OXM_OF_IPV6_ND_TLL(33) since OF1.2 and v1.7.
*/
MFF_ND_TLL,
MFF_N_IDS
};
/* A set of mf_field_ids. */
struct mf_bitmap {
unsigned long bm[BITMAP_N_LONGS(MFF_N_IDS)];
};
#define MF_BITMAP_INITIALIZER { { [0] = 0 } }
/* Use this macro as CASE_MFF_REGS: in a switch statement to choose all of the
* MFF_REGn cases. */
#if FLOW_N_REGS == 8
#define CASE_MFF_REGS \
case MFF_REG0: case MFF_REG1: case MFF_REG2: case MFF_REG3: \
case MFF_REG4: case MFF_REG5: case MFF_REG6: case MFF_REG7
#else
#error "Need to update CASE_MFF_REGS to match FLOW_N_REGS"
#endif
/* Use this macro as CASE_MFF_XREGS: in a switch statement to choose all of the
* MFF_REGn cases. */
#if FLOW_N_XREGS == 4
#define CASE_MFF_XREGS \
case MFF_XREG0: case MFF_XREG1: case MFF_XREG2: case MFF_XREG3
#else
#error "Need to update CASE_MFF_XREGS to match FLOW_N_XREGS"
#endif
/* Use this macro as CASE_MFF_TUN_METADATA: in a switch statement to choose
* all of the MFF_TUN_METADATAn cases. */
#define CASE_MFF_TUN_METADATA \
case MFF_TUN_METADATA0: case MFF_TUN_METADATA1: \
case MFF_TUN_METADATA2: case MFF_TUN_METADATA3: \
case MFF_TUN_METADATA4: case MFF_TUN_METADATA5: \
case MFF_TUN_METADATA6: case MFF_TUN_METADATA7: \
case MFF_TUN_METADATA8: case MFF_TUN_METADATA9: \
case MFF_TUN_METADATA10: case MFF_TUN_METADATA11: \
case MFF_TUN_METADATA12: case MFF_TUN_METADATA13: \
case MFF_TUN_METADATA14: case MFF_TUN_METADATA15: \
case MFF_TUN_METADATA16: case MFF_TUN_METADATA17: \
case MFF_TUN_METADATA18: case MFF_TUN_METADATA19: \
case MFF_TUN_METADATA20: case MFF_TUN_METADATA21: \
case MFF_TUN_METADATA22: case MFF_TUN_METADATA23: \
case MFF_TUN_METADATA24: case MFF_TUN_METADATA25: \
case MFF_TUN_METADATA26: case MFF_TUN_METADATA27: \
case MFF_TUN_METADATA28: case MFF_TUN_METADATA29: \
case MFF_TUN_METADATA30: case MFF_TUN_METADATA31: \
case MFF_TUN_METADATA32: case MFF_TUN_METADATA33: \
case MFF_TUN_METADATA34: case MFF_TUN_METADATA35: \
case MFF_TUN_METADATA36: case MFF_TUN_METADATA37: \
case MFF_TUN_METADATA38: case MFF_TUN_METADATA39: \
case MFF_TUN_METADATA40: case MFF_TUN_METADATA41: \
case MFF_TUN_METADATA42: case MFF_TUN_METADATA43: \
case MFF_TUN_METADATA44: case MFF_TUN_METADATA45: \
case MFF_TUN_METADATA46: case MFF_TUN_METADATA47: \
case MFF_TUN_METADATA48: case MFF_TUN_METADATA49: \
case MFF_TUN_METADATA50: case MFF_TUN_METADATA51: \
case MFF_TUN_METADATA52: case MFF_TUN_METADATA53: \
case MFF_TUN_METADATA54: case MFF_TUN_METADATA55: \
case MFF_TUN_METADATA56: case MFF_TUN_METADATA57: \
case MFF_TUN_METADATA58: case MFF_TUN_METADATA59: \
case MFF_TUN_METADATA60: case MFF_TUN_METADATA61: \
case MFF_TUN_METADATA62: case MFF_TUN_METADATA63
/* Prerequisites for matching a field.
*
* A field may only be matched if the correct lower-level protocols are also
* matched. For example, the TCP port may be matched only if the Ethernet type
* matches ETH_TYPE_IP and the IP protocol matches IPPROTO_TCP. */
enum OVS_PACKED_ENUM mf_prereqs {
MFP_NONE,
/* L2 requirements. */
MFP_ARP,
MFP_VLAN_VID,
MFP_IPV4,
MFP_IPV6,
MFP_IP_ANY,
/* L2.5 requirements. */
MFP_MPLS,
/* L2+L3 requirements. */
MFP_TCP, /* On IPv4 or IPv6. */
MFP_UDP, /* On IPv4 or IPv6. */
MFP_SCTP, /* On IPv4 or IPv6. */
MFP_ICMPV4,
MFP_ICMPV6,
/* L2+L3+L4 requirements. */
MFP_ND,
MFP_ND_SOLICIT,
MFP_ND_ADVERT
};
/* Forms of partial-field masking allowed for a field.
*
* Every field may be masked as a whole. */
enum OVS_PACKED_ENUM mf_maskable {
MFM_NONE, /* No sub-field masking. */
MFM_FULLY, /* Every bit is individually maskable. */
};
/* How to format or parse a field's value. */
enum OVS_PACKED_ENUM mf_string {
/* Integer formats.
*
* The particular MFS_* constant sets the output format. On input, either
* decimal or hexadecimal (prefixed with 0x) is accepted. */
MFS_DECIMAL,
MFS_HEXADECIMAL,
/* Other formats. */
MFS_CT_STATE, /* Connection tracking state */
MFS_ETHERNET,
MFS_IPV4,
MFS_IPV6,
MFS_OFP_PORT, /* 16-bit OpenFlow 1.0 port number or name. */
MFS_OFP_PORT_OXM, /* 32-bit OpenFlow 1.1+ port number or name. */
MFS_FRAG, /* no, yes, first, later, not_later */
MFS_TNL_FLAGS, /* FLOW_TNL_F_* flags */
MFS_TCP_FLAGS, /* TCP_* flags */
};
struct mf_field {
/* Identification. */
enum mf_field_id id; /* MFF_*. */
const char *name; /* Name of this field, e.g. "eth_type". */
const char *extra_name; /* Alternate name, e.g. "dl_type", or NULL. */
/* Size.
*
* Most fields have n_bytes * 8 == n_bits. There are a few exceptions:
*
* - "dl_vlan" is 2 bytes but only 12 bits.
* - "dl_vlan_pcp" is 1 byte but only 3 bits.
* - "is_frag" is 1 byte but only 2 bits.
* - "ipv6_label" is 4 bytes but only 20 bits.
* - "mpls_label" is 4 bytes but only 20 bits.
* - "mpls_tc" is 1 byte but only 3 bits.
* - "mpls_bos" is 1 byte but only 1 bit.
*/
unsigned int n_bytes; /* Width of the field in bytes. */
unsigned int n_bits; /* Number of significant bits in field. */
bool variable_len; /* Length is variable, if so width is max. */
/* Properties. */
enum mf_maskable maskable;
enum mf_string string;
enum mf_prereqs prereqs;
bool writable; /* May be written by actions? */
/* Usable protocols.
*
* NXM and OXM are extensible, allowing later extensions to be sent in
* earlier protocol versions, so this does not necessarily correspond to
* the OpenFlow protocol version the field was introduced in.
* Also, some field types are tranparently mapped to each other via the
* struct flow (like vlan and dscp/tos fields), so each variant supports
* all protocols.
*
* These are combinations of OFPUTIL_P_*. (They are not declared as type
* enum ofputil_protocol because that would give meta-flow.h and ofp-util.h
* a circular dependency.) */
uint32_t usable_protocols_exact; /* Matching or setting whole field. */
uint32_t usable_protocols_cidr; /* Matching a CIDR mask in field. */
uint32_t usable_protocols_bitwise; /* Matching arbitrary bits in field. */
int flow_be32ofs; /* Field's be32 offset in "struct flow", if prefix tree
* lookup is supported for the field, or -1. */
};
/* The representation of a field's value. */
union mf_value {
uint8_t tun_metadata[128];
struct in6_addr ipv6;
struct eth_addr mac;
ovs_be128 be128;
ovs_be64 be64;
ovs_be32 be32;
ovs_be16 be16;
uint8_t u8;
};
BUILD_ASSERT_DECL(sizeof(union mf_value) == 128);
BUILD_ASSERT_DECL(sizeof(union mf_value) >= TLV_MAX_OPT_SIZE);
/* A const mf_value with all bits initialized to ones. */
extern const union mf_value exact_match_mask;
/* Part of a field. */
struct mf_subfield {
const struct mf_field *field;
unsigned int ofs; /* Bit offset. */
unsigned int n_bits; /* Number of bits. */
};
/* Data for some part of an mf_field.
*
* The data is stored "right-justified". For example, if "union mf_subvalue
* value" contains NXM_OF_VLAN_TCI[0..11], then one could access the
* corresponding data in value.be16[7] as the bits in the mask htons(0xfff). */
union mf_subvalue {
/* Access to full data. */
uint8_t u8[128];
ovs_be16 be16[64];
ovs_be32 be32[32];
ovs_be64 be64[16];
/* Convenient access to just least-significant bits in various forms. */
struct {
ovs_be64 dummy_integer[15];
ovs_be64 integer;
};
struct {
uint8_t dummy_mac[122];
struct eth_addr mac;
};
struct {
ovs_be32 dummy_ipv4[31];
ovs_be32 ipv4;
};
struct {
struct in6_addr dummy_ipv6[7];
struct in6_addr ipv6;
};
};
BUILD_ASSERT_DECL(sizeof(union mf_value) == sizeof (union mf_subvalue));
bool mf_subvalue_intersect(const union mf_subvalue *a_value,
const union mf_subvalue *a_mask,
const union mf_subvalue *b_value,
const union mf_subvalue *b_mask,
union mf_subvalue *dst_value,
union mf_subvalue *dst_mask);
int mf_subvalue_width(const union mf_subvalue *);
void mf_subvalue_shift(union mf_subvalue *, int n);
/* An array of fields with values */
struct field_array {
struct mf_bitmap used;
union mf_value value[MFF_N_IDS];
};
/* Finding mf_fields. */
const struct mf_field *mf_from_name(const char *name);
static inline const struct mf_field *
mf_from_id(enum mf_field_id id)
{
extern const struct mf_field mf_fields[MFF_N_IDS];
ovs_assert((unsigned int) id < MFF_N_IDS);
return &mf_fields[id];
}
/* Inspecting wildcarded bits. */
bool mf_is_all_wild(const struct mf_field *, const struct flow_wildcards *);
bool mf_is_mask_valid(const struct mf_field *, const union mf_value *mask);
void mf_get_mask(const struct mf_field *, const struct flow_wildcards *,
union mf_value *mask);
/* Prerequisites. */
bool mf_are_prereqs_ok(const struct mf_field *, const struct flow *);
void mf_mask_field_and_prereqs(const struct mf_field *,
struct flow_wildcards *);
void mf_bitmap_set_field_and_prereqs(const struct mf_field *mf, struct
mf_bitmap *bm);
static inline bool
mf_is_l3_or_higher(const struct mf_field *mf)
{
return mf->id >= MFF_IPV4_SRC;
}
/* Field values. */
bool mf_is_value_valid(const struct mf_field *, const union mf_value *value);
void mf_get_value(const struct mf_field *, const struct flow *,
union mf_value *value);
void mf_set_value(const struct mf_field *, const union mf_value *value,
struct match *, char **err_str);
void mf_set_flow_value(const struct mf_field *, const union mf_value *value,
struct flow *);
void mf_set_flow_value_masked(const struct mf_field *,
const union mf_value *value,
const union mf_value *mask,
struct flow *);
bool mf_is_tun_metadata(const struct mf_field *);
bool mf_is_set(const struct mf_field *, const struct flow *);
void mf_mask_field(const struct mf_field *, struct flow *);
int mf_field_len(const struct mf_field *, const union mf_value *value,
const union mf_value *mask, bool *is_masked);
void mf_get(const struct mf_field *, const struct match *,
union mf_value *value, union mf_value *mask);
/* Returns the set of usable protocols. */
uint32_t mf_set(const struct mf_field *, const union mf_value *value,
const union mf_value *mask, struct match *, char **err_str);
void mf_set_wild(const struct mf_field *, struct match *, char **err_str);
/* Subfields. */
void mf_write_subfield_flow(const struct mf_subfield *,
const union mf_subvalue *, struct flow *);
void mf_write_subfield(const struct mf_subfield *, const union mf_subvalue *,
struct match *);
void mf_mask_subfield(const struct mf_field *,
const union mf_subvalue *value,
const union mf_subvalue *mask,
struct match *);
void mf_read_subfield(const struct mf_subfield *, const struct flow *,
union mf_subvalue *);
uint64_t mf_get_subfield(const struct mf_subfield *, const struct flow *);
enum ofperr mf_check_src(const struct mf_subfield *, const struct flow *);
enum ofperr mf_check_dst(const struct mf_subfield *, const struct flow *);
/* Parsing and formatting. */
char *mf_parse(const struct mf_field *, const char *,
union mf_value *value, union mf_value *mask);
char *mf_parse_value(const struct mf_field *, const char *, union mf_value *);
void mf_format(const struct mf_field *,
const union mf_value *value, const union mf_value *mask,
struct ds *);
void mf_format_subvalue(const union mf_subvalue *subvalue, struct ds *s);
/* Field Arrays. */
void field_array_set(enum mf_field_id id, const union mf_value *,
struct field_array *);
#endif /* meta-flow.h */
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