One document matched: draft-wu-idr-flowspec-yang-cfg-01.txt
Differences from draft-wu-idr-flowspec-yang-cfg-00.txt
Network Working Group N. Wu
Internet-Draft S. Zhuang
Intended status: Standards Track Huawei
Expires: January 19, 2016 A. Choudhary
Cisco Systems
July 18, 2015
A YANG Data Model for Flow Specification
draft-wu-idr-flowspec-yang-cfg-01
Abstract
This document defines a YANG data model for Flow Specification
implementations. The data model includes configuration data and
state data.
Requirements Language
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in RFC 2119 [RFC2119].
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
working documents as Internet-Drafts. The list of current Internet-
Drafts is at http://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on January 19, 2016.
Copyright Notice
Copyright (c) 2015 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents
(http://trustee.ietf.org/license-info) in effect on the date of
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publication of this document. Please review these documents
carefully, as they describe your rights and restrictions with respect
to this document. Code Components extracted from this document must
include Simplified BSD License text as described in Section 4.e of
the Trust Legal Provisions and are provided without warranty as
described in the Simplified BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
1.1. Terminology . . . . . . . . . . . . . . . . . . . . . . . 3
1.2. Flowspec Model Design . . . . . . . . . . . . . . . . . . 3
1.3. Tree Diagrams . . . . . . . . . . . . . . . . . . . . . . 3
2. Flow Specification data model . . . . . . . . . . . . . . . . 4
3. Flow Specification YANG Module . . . . . . . . . . . . . . . 9
4. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 29
5. Security Considerations . . . . . . . . . . . . . . . . . . . 29
6. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 30
7. References . . . . . . . . . . . . . . . . . . . . . . . . . 30
7.1. Normative References . . . . . . . . . . . . . . . . . . 30
7.2. Informative References . . . . . . . . . . . . . . . . . 31
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 31
1. Introduction
This document defines a YANG [RFC6020] data model for the
configuration and state data of Flowspec policies. Any RPC or
notification definition is not part of this document. The model is
based on Flowspec Policy architecture[RFC5575] and various other
internet drafts
[I-D.ietf-idr-flow-spec-v6][I-D.ietf-idr-bgp-flowspec-oid]. The
configuration data defined in this document is encoded as flow
specification rules and which can be distributed as BGP NLRI and/or
applied locally to a network element. This distribution of traffic
filtering rules through provider backbone can be used to filter
Denial of Service attacks (DOS), maintaining some access control
lists at network boundary [I-D.litkowski-idr-flowspec-interfaceset]
besides other use-cases.
IP routers can classify packets based on multiple header fields.
Such a classification rule may contain matching criteria to match on
one or more packet header fields. Packets can be grouped to match on
such packet rules defining a traffic flow. These traffic flows can
be originated based on a manual policy or automatically or a
combination of both. These defined traffic flows can be thus
distributed.
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As many vendors have different object constructs to represent the
same traffic flow data, it has been tried to design this model in a
very flexible, extensible and generic way to fit into most of the
vendor requirements.
1.1. Terminology
The following terms are defined in [RFC6020]:
o configuration data
o data model
o module
o state data
The terminology for describing YANG data models is found in
[RFC6020].
1.2. Flowspec Model Design
A flowspec policy contains one or more flowspec rules. Each flowspec
rule may contain one or more flowspec components. A traffic flow
matches a flowspec rule when it matches all the components present in
the rule. A flow MAY match one or more flowspec rules. The order in
which the flowspec rules are matched in a flowspec policy is defined
by RFC 5575.
A flowspec rule contains one or more packet conditioning functions.
A packet conditioning function MAY drop, limit the traffic flow rate,
mark or redirect network packets to a specified routing instance. A
flowspec policy can be stored as an object and used across different
network device interfaces.
1.3. Tree Diagrams
A simplified graphical representation of the data model is used in
this document. The meaning of the symbols in these diagrams is as
follows:
o Brackets "[" and "]" enclose list keys.
o Abbreviations before data node names: "rw" means configuration
data (read-write), and "ro" means state data (read-only).
o Symbols after data node names: "?" means an optional node, "!"
means a presence container, and "*" denotes a list and leaf-list.
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o Parentheses enclose choice and case nodes, and case nodes are also
marked with a colon (":").
o Ellipsis ("...") stands for contents of subtrees that are not
shown.
2. Flow Specification data model
The data model has the following structure for configuration of
traffic flow specification:
module: ietf-flowspec
+--rw flowspec
+--rw flowspec-cfg
| +--rw flowspec-policy* [policy-name]
| +--rw policy-name string
| +--rw vrf-name? string
| +--rw address-family? identityref
| +--rw flowspec-rule* [rule-name]
| +--rw rule-name string
| +--rw flowspec-component* [component-type]
| | +--rw component-type component-enum
| | +--rw (component)?
| | +--:(destination-prefix)
| | | +--rw destination-prefix? inet:ip-address
| | +--:(source-prefix)
| | | +--rw source-prefix? inet:ip-address
| | +--:(ip-protocol)
| | | +--rw ip-protocol* [op value]
| | | +--rw op numeric-operator
| | | +--rw value uint16
| | +--:(port)
| | | +--rw port* [op value]
| | | +--rw op numeric-operator
| | | +--rw value uint16
| | +--:(destination-port)
| | | +--rw destination-port* [op value]
| | | +--rw op numeric-operator
| | | +--rw value uint16
| | +--:(source-port)
| | | +--rw source-port* [op value]
| | | +--rw op numeric-operator
| | | +--rw value uint16
| | +--:(icmp-type)
| | | +--rw icmp-type* [op value]
| | | +--rw op numeric-operator
| | | +--rw value uint8
| | +--:(icmp-code)
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| | | +--rw icmp-code* [op value]
| | | +--rw op numeric-operator
| | | +--rw value uint8
| | +--:(tcp-flags)
| | | +--rw tcp-flag* [op value]
| | | +--rw op bitmask-operator
| | | +--rw value uint16
| | +--:(packet-length)
| | | +--rw packet-length* [op value]
| | | +--rw op numeric-operator
| | | +--rw value uint16
| | +--:(dscp)
| | | +--rw dscp* [op value]
| | | +--rw op numeric-operator
| | | +--rw value dscp-type
| | +--:(fragment)
| | +--rw fragment* [op value]
| | +--rw op numeric-operator
| | +--rw value fragment-type
| +--rw flowspec-action* [action-type]
| +--rw action-type action-type
| +--rw (action)?
| +--:(traffic-rate)
| | +--rw rate? float
| +--:(redirect)
| | +--rw route-target? string
| +--:(traffic-marking)
| +--rw remark-dscp? dscp-type
+--ro flowspec-state
+--ro flowspec-rib
| +--ro flowspec-route*
| +--ro index? uint32
| +--ro islocal? boolean
| +--ro local-name? string
| +--ro neighbor? inet:ip-address
| +--ro duration? uint32
| +--ro flowspec-protocol-specific
| +--ro (protocol)?
| +--:(bgp)
| +--ro neighbor-router-id? inet:ipv4-address
| +--ro as-path? string
| +--ro origin? enumeration
| +--ro med? uint32
| +--ro local-preference? uint8
| +--ro community? string
| +--ro ext-community? string
| +--ro preference? uint32
| +--ro originator? inet:ip-address
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| +--ro cluster-list? string
| +--ro flowspec-component* [component-type]
| | +--ro component-type component-enum
| | +--ro (component)?
| | +--:(destination-prefix)
| | | +--ro destination-prefix?
inet:ip-address
| | +--:(source-prefix)
| | | +--ro source-prefix? inet:ip-address
| | +--:(ip-protocol)
| | | +--ro ip-protocol* [op value]
| | | +--ro op numeric-operator
| | | +--ro value uint16
| | +--:(port)
| | | +--ro port* [op value]
| | | +--ro op numeric-operator
| | | +--ro value uint16
| | +--:(destination-port)
| | | +--ro destination-port* [op value]
| | | +--ro op numeric-operator
| | | +--ro value uint16
| | +--:(source-port)
| | | +--ro source-port* [op value]
| | | +--ro op numeric-operator
| | | +--ro value uint16
| | +--:(icmp-type)
| | | +--ro icmp-type* [op value]
| | | +--ro op numeric-operator
| | | +--ro value uint8
| | +--:(icmp-code)
| | | +--ro icmp-code* [op value]
| | | +--ro op numeric-operator
| | | +--ro value uint8
| | +--:(tcp-flags)
| | | +--ro tcp-flag* [op value]
| | | +--ro op bitmask-operator
| | | +--ro value uint16
| | +--:(packet-length)
| | | +--ro packet-length* [op value]
| | | +--ro op numeric-operator
| | | +--ro value uint16
| | +--:(dscp)
| | | +--ro dscp* [op value]
| | | +--ro op numeric-operator
| | | +--ro value dscp-type
| | +--:(fragment)
| | +--ro fragment* [op value]
| | +--ro op numeric-operator
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| | +--ro value fragment-type
| +--ro flowspec-action* [action-type]
| +--ro action-type action-type
| +--ro (action)?
| +--:(traffic-rate)
| | +--ro rate? float
| +--:(redirect)
| | +--ro route-target? string
| +--:(traffic-marking)
| +--ro remark-dscp? dscp-type
+--ro flowspec-statistics
+--ro flowspec-stats*
+--ro vrf-name? string
+--ro address-family? string
+--ro flowspec-rule-stats*
+--ro flowspec-component* [component-type]
| +--ro component-type component-enum
| +--ro (component)?
| +--:(destination-prefix)
| | +--ro destination-prefix? inet:ip-address
| +--:(source-prefix)
| | +--ro source-prefix? inet:ip-address
| +--:(ip-protocol)
| | +--ro ip-protocol* [op value]
| | +--ro op numeric-operator
| | +--ro value uint16
| +--:(port)
| | +--ro port* [op value]
| | +--ro op numeric-operator
| | +--ro value uint16
| +--:(destination-port)
| | +--ro destination-port* [op value]
| | +--ro op numeric-operator
| | +--ro value uint16
| +--:(source-port)
| | +--ro source-port* [op value]
| | +--ro op numeric-operator
| | +--ro value uint16
| +--:(icmp-type)
| | +--ro icmp-type* [op value]
| | +--ro op numeric-operator
| | +--ro value uint8
| +--:(icmp-code)
| | +--ro icmp-code* [op value]
| | +--ro op numeric-operator
| | +--ro value uint8
| +--:(tcp-flags)
| | +--ro tcp-flag* [op value]
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| | +--ro op bitmask-operator
| | +--ro value uint16
| +--:(packet-length)
| | +--ro packet-length* [op value]
| | +--ro op numeric-operator
| | +--ro value uint16
| +--:(dscp)
| | +--ro dscp* [op value]
| | +--ro op numeric-operator
| | +--ro value dscp-type
| +--:(fragment)
| +--ro fragment* [op value]
| +--ro op numeric-operator
| +--ro value fragment-type
+--ro flowspec-action* [action-type]
| +--ro action-type action-type
| +--ro (action)?
| +--:(traffic-rate)
| | +--ro rate? float
| +--:(redirect)
| | +--ro route-target? string
| +--:(traffic-marking)
| +--ro remark-dscp? dscp-type
+--ro classified-pkts? uint64
+--ro classified-bytes? uint64
+--ro drop-pkts? uint64
+--ro drop-bytes? uint64
This data model defines the configuration and state containers for
traffic flow specification. In flowspec-cfg container, there is a
list of configuration containers per flow specification route, which
contains the configuration for filtering rules and corresponding
actions.
The data model for state of traffic flow defines two state
containers. Container flowspec-rib contains the current state of
flowspec route, including filtering rules and actions. In the second
container, there is statistics information for traffic flow
specifications. The flowspec-rules in the flowspec-statistics
container is listed per routing instance per address family. The
list of flowspec-rules is in order of applied rules in the forwarding
path.
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3. Flow Specification YANG Module
<CODE BEGINS> file "ietf-flowspec@2015-07-15.yang"
module ietf-flowspec {
namespace "urn:ietf:params:xml:ns:yang:ietf-flowspec";
prefix flowspec;
import ietf-inet-types {
prefix inet;
}
organization "IETF IDR (Inter-Domain Routing) Working Group";
contact
"WG Web: <http://tools.ietf.org/wg/idr/>
WG List: <mailto:idr@ietf.org>
WG Chair: Susan Hares
<mailto:shares@ndzh.com>
WG Chair: John Scudder
<mailto:jgs@juniper.net>
Editor: Shunwan Zhuang
<mailto:zhuangshunwan@huawei.com>
Editor: Nan Wu
<mailto:eric.wu@huawei.com>
Editor: Aseem Choudhary
<mailto:asechoud@cisco.com>";
description
"This module contains a collection of YANG definitions for
configuring flow specification implementations.
Copyright (c) 2014 IETF Trust and the persons identified as
authors of the code. All rights reserved.
Redistribution and use in source and binary forms, with or
without modification, is permitted pursuant to, and subject
to the license terms contained in, the Simplified BSD License
set forth in Section 4.c of the IETF Trust's Legal Provisions
Relating to IETF Documents
(http://trustee.ietf.org/license-info).";
revision 2015-07-15 {
description
"Initial revision.";
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reference
"[RFC5575] Dissemination of Flow Specification Rules
[draft-ietf-netmod-routing-cfg-16]
A YANG Data Model for Routing Management.
";
}
typedef component-enum {
type enumeration {
enum "destination-prefix" {
value 1;
description
"Type 1 - Destination Prefix";
}
enum "source-prefix" {
value 2;
description
"Type 2 - Source Prefix";
}
enum "ip-protocol" {
value 3;
description
"Type 3 - IP Protocol";
}
enum "port" {
value 4;
description
"Type 4 - Port";
}
enum "destination-port" {
value 5;
description
"Type 5 - Destination port";
}
enum "source-port" {
value 6;
description
"Type 6 - Source port";
}
enum "icmp-type" {
value 7;
description
"Type 7 - ICMP type";
}
enum "icmp-code" {
value 8;
description
"Type 8 - ICMP code";
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}
enum "tcp-flags" {
value 9;
description
"Type 9 - TCP flags";
}
enum "packet-length" {
value 10;
description
"Type 10 - Packet length";
}
enum "dscp" {
value 11;
description
"Type 11 - DSCP (Diffserv Code Point)";
}
enum "fragment" {
value 12;
description
"Type 12 - Fragment";
}
}
description
"Definition for component type.";
}
typedef action-type {
type enumeration {
enum "traffic-rate" {
value 32774;
description
"Carry the 2-octet id and 4-octet of rate information
in IEEE floating point [IEEE.754.1985] format.";
}
enum "traffic-action" {
value 32775;
description
"Consists of 6 bytes of which only the 2 least significant
bits of the 6th byte (from left to right)
are currently defined.";
}
enum "redirect" {
value 32776;
description
"Allows the traffic to be redirected to a VRF
routing instance that lists the specified
route-target in its import policy.";
}
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enum "traffic-marking" {
value 32777;
description
"Instructs a system to modify the DSCP bits of
a transiting IP packet to the corresponding value.";
}
}
description
"Definition for action type.";
}
typedef numeric-operator {
type bits {
bit end-of-list {
position 0;
description
"end-of-list bit.
Set in the last {op, value} pair in the list.";
}
bit and-bit {
position 1;
description
"AND bit.
If unset, the previous term is logically ORed with
the current one.
If set, the operation is a logical AND.
It should be unset in the first operator byte of a
sequence. The AND operator has higher priority than
OR for the purposes of evaluating logical expressions.";
}
bit lt-bit {
position 5;
description
"Less than comparison between data and value.";
}
bit gt-bit {
position 6;
description
"Greater than comparison between data and value.";
}
bit eq-bit {
position 7;
description
"end-of-list bit.
Set in the last {op, value} pair in the list.";
}
}
description
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"Definition for numeric operator.";
}
typedef bitmask-operator {
type bits {
bit end-of-list {
position 0;
description
"end-of-list bit.
Set in the last {op, value} pair in the list.";
}
bit and-bit {
position 1;
description
"AND bit.
If unset, the previous term is logically ORed with
the current one.
If set, the operation is a logical AND.
It should be unset in the first operator byte of a
sequence. The AND operator has higher priority than
OR for the purposes of evaluating logical expressions.";
}
bit not-bit {
position 6;
description
"NOT bit. If set, logical negation of operation.";
}
bit match-bit {
position 7;
description
"Match bit.
If set, this is a bitwise match operation defined
as '(data & value) == value';
if unset, (data & value) evaluates to TRUE if any of
the bits in the value mask are set in the data";
}
}
description
"Definition for bitmask operator.";
}
typedef dscp-remarked {
type enumeration {
enum "be" {
value 0;
description
"Default dscp (000000)";
}
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enum "cs1" {
value 8;
description
"CS1(precedence 1) dscp (001000)";
}
enum "af11" {
value 10;
description
"AF11 dscp (001010)";
}
enum "af12" {
value 12;
description
"AF12 dscp (001100)";
}
enum "af13" {
value 14;
description
"AF13 dscp (001110)";
}
enum "cs2" {
value 16;
description
"CS2(precedence 2) dscp (010000)";
}
enum "af21" {
value 18;
description
"AF21 dscp (010010)";
}
enum "af22" {
value 20;
description
"AF22 dscp (010100)";
}
enum "af23" {
value 22;
description
"AF23 dscp (010110)";
}
enum "cs3" {
value 24;
description
"CS3(precedence 3) dscp (011000)";
}
enum "af31" {
value 26;
description
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"AF31 dscp (011010)";
}
enum "af32" {
value 28;
description
"AF32 dscp (011100)";
}
enum "af33" {
value 30;
description
"AF33 dscp (011110)";
}
enum "cs4" {
value 32;
description
"CS4(precedence 4) dscp (100000)";
}
enum "af41" {
value 34;
description
"AF41 dscp (100010)";
}
enum "af42" {
value 36;
description
"AF42 dscp (100100)";
}
enum "af43" {
value 38;
description
"AF43 dscp (100110)";
}
enum "cs5" {
value 40;
description
"CS5(precedence 5) dscp (101000)";
}
enum "ef" {
value 46;
description
"EF dscp (101110)";
}
enum "cs6" {
value 48;
description
"CS6(precedence 6) dscp (110000)";
}
enum "cs7" {
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value 56;
description
"CS7(precedence 7) dscp (111000)";
}
}
description
"Definition for dscp type.";
}
typedef dscp-type {
type union {
type dscp-remarked;
type uint8;
}
description
"Definition for dscp type.";
}
typedef fragment-type {
type bits {
bit last-fragment {
position 4;
description
"Last fragment (LF)";
}
bit first-fragment {
position 5;
description
"First fragment (FF)";
}
bit is-a-fragment {
position 6;
description
"Is a fragment (IsF)";
}
bit do-not-fragment {
position 7;
description
"Don't fragment (DF)";
}
}
description
"Definition for fragment type.";
}
typedef float {
type union {
type decimal64 {
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fraction-digits 14;
range "-9999.99999999999999 .. 9999.99999999999999";
}
type decimal64 {
fraction-digits 13;
range "-99999.9999999999999 .. 99999.9999999999999";
}
type decimal64 {
fraction-digits 12;
range "-999999.999999999999 .. 999999.999999999999";
}
type decimal64 {
fraction-digits 11;
range "-9999999.99999999999 .. 9999999.99999999999";
}
type decimal64 {
fraction-digits 10;
range "-99999999.9999999999 .. 99999999.9999999999";
}
type decimal64 {
fraction-digits 9;
range "-999999999.999999999 .. 999999999.999999999";
}
type decimal64 {
fraction-digits 8;
range "-9999999999.99999999 .. 9999999999.99999999";
}
type decimal64 {
fraction-digits 7;
range "-99999999999.9999999 .. 99999999999.9999999";
}
type decimal64 {
fraction-digits 6;
range "-999999999999.999999 .. 999999999999.999999";
}
type decimal64 {
fraction-digits 5;
range "-9999999999999.99999 .. 9999999999999.99999";
}
type decimal64 {
fraction-digits 4;
range "-99999999999999.9999 .. 99999999999999.9999";
}
type decimal64 {
fraction-digits 3;
range "-999999999999999.999 .. 999999999999999.999";
}
type decimal64 {
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fraction-digits 2;
range "-9999999999999999.99 .. 9999999999999999.99";
}
type decimal64 {
fraction-digits 1;
range "-99999999999999999.9 .. 99999999999999999.9";
}
}
description
"Definition for float point referenced from maillist.";
}
identity address-family {
description
"Base identity from which identities describing address
families are derived.";
}
identity ipv4 {
base address-family;
description
"This identity represents IPv4 address family.";
}
identity ipv6 {
base address-family;
description
"This identity represents IPv6 address family.";
}
grouping numeric-one-byte-value {
description
"This group defines the pair of operator and value
for one-byte type.";
leaf op {
type numeric-operator;
description
"Define the operator byte from RFC5575.";
}
leaf value {
type uint8;
description
"Define the one-byte value byte from RFC5575.";
}
}
grouping numeric-two-byte-value {
description
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"This group defines the pair of operator and value
for two-bytes type.";
leaf op {
type numeric-operator;
description
"Define the operator byte from RFC5575.";
}
leaf value {
type uint16;
description
"Define the two-bytes value byte from RFC5575.";
}
}
grouping bitmask-two-byte-value {
description
"This group defines the pair of operator and value
for bitmask.";
leaf op {
type bitmask-operator;
description
"Define the bitmask operand format from RFC5575.";
}
leaf value {
type uint16;
description
"Define the bitmask value from RFC5575.";
}
}
grouping dscp-value {
description
"This group defines dscp values for
DSCP component of FlowSpec.";
leaf op {
type numeric-operator;
description
"Define the operator byte from RFC5575.";
}
leaf value {
type dscp-type;
description
"Define the dscp value from RFC5575.";
}
}
grouping fragment-value {
description
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"This group defines fragment values for
Fragment component of FlowSpec.";
leaf op {
type numeric-operator;
description
"Define the operator byte from RFC5575.";
}
leaf value {
type fragment-type;
description
"Define the fragment value from RFC5575.";
}
}
grouping flowspec-traffic-filter {
description
"This group defines the traffic filter rules for FlowSpec.";
list flowspec-component {
key "component-type";
min-elements 1;
description
"Define the traffic filter components into a list.";
leaf component-type {
type component-enum;
description
"Specify the type of component for this list entry.";
}
choice component {
description
"Define different kinds of flowspec components involved.";
case destination-prefix {
leaf destination-prefix {
type inet:ip-address;
description
"Specifies the destination address of the traffic.";
}
}
case source-prefix {
leaf source-prefix {
type inet:ip-address;
description
"Specifies the source address of the traffic.";
}
}
case ip-protocol {
list ip-protocol {
key "op value";
ordered-by user;
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uses numeric-two-byte-value;
description
"Define the pair of <operator, protocol> entries
into a list.";
}
}
case port {
list port {
key "op value";
ordered-by user;
uses numeric-two-byte-value;
description
"Define the pair of <operator, port> entries
into a list.";
}
}
case destination-port {
list destination-port {
key "op value";
ordered-by user;
uses numeric-two-byte-value;
description
"Define the pair of <operator, destination-port>
entries into a list.";
}
}
case source-port {
list source-port {
key "op value";
ordered-by user;
uses numeric-two-byte-value;
description
"Define the pair of <operator, source-port> entries
into a list.";
}
}
case icmp-type {
list icmp-type {
key "op value";
ordered-by user;
uses numeric-one-byte-value;
description
"Define the pair of <operator, icmp-type> entries
into a list.";
}
}
case icmp-code {
list icmp-code {
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key "op value";
ordered-by user;
uses numeric-one-byte-value;
description
"Define the pair of <operator, icmp-code> entries
into a list.";
}
}
case tcp-flags {
list tcp-flag {
key "op value";
ordered-by user;
uses bitmask-two-byte-value;
description
"Define the pair of <operator, tcp-flag> entries
into a list.";
}
}
case packet-length {
list packet-length {
key "op value";
ordered-by user;
uses numeric-two-byte-value;
description
"Define the pair of <operator, packet-length>
entries into a list.";
}
}
case dscp {
list dscp {
key "op value";
ordered-by user;
uses dscp-value;
description
"Define the pair of <operator, dscp> entries
into a list.";
}
}
case fragment {
list fragment {
key "op value";
ordered-by user;
uses fragment-value;
description
"Define the pair of <operator, fragment> entries
into a list.";
}
}
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}
}
}
grouping flowspec-traffic-action {
description
"This group defines the traffic actions for FlowSpec.";
list flowspec-action {
key "action-type";
description
"Define the traffic actions of FlowSpec into a list.";
leaf action-type {
type action-type;
description
"Specify the type of traffic filter action.";
}
choice action {
description
"Define different kinds of traffic actions involved.";
case traffic-rate {
leaf rate {
type float;
description
"Specifies the traffic rate in IEEE floating point
[IEEE.754.1985] format, units being bytes per
second.";
}
}
case redirect {
leaf route-target {
type string {
length "3..21";
}
description
"Allows the traffic to be redirected to a VRF
routing instance that lists the specified
route-target in its import policy";
}
}
case traffic-marking {
leaf remark-dscp {
type dscp-type;
description
"Instructs a system to modify the DSCP bits of
a transiting IP packet to the corresponding value";
}
}
}
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}
}
grouping flowspec-bgp-route {
description
"This group define extensions of FlowSpec for bgp protocol.";
leaf neighbor-router-id {
type inet:ipv4-address;
description
"The router-id of the neighbor from whom
this route received.";
}
leaf as-path {
type string;
description
"Number of the AS the BGP FlowSpec route passes.";
}
leaf origin {
type enumeration {
enum "igp" {
value 0;
description
"Designate this route originated from igp route.";
}
enum "egp" {
value 1;
description
"Designate this route originated from egp route.";
}
enum "incomplete" {
value 2;
description
"Designate this route originated from other route.";
}
}
description
"The Origin attribute defines the origin of a route. The
Origin attribute is classified into the following types:
Interior Gateway Protocol (IGP): This attribute type has the
highest priority. IGP is the Origin attribute for routes
obtained through an IGP in the AS from which the routes
originate. For example, the Origin attribute of the routes
imported to the BGP routing table using the network command
is IGP.
Exterior Gateway Protocol (EGP): This attribute type has the
second highest priority. The Origin attribute of the routes
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obtained through EGP is EGP.
Incomplete: This attribute type has the lowest priority.
Incomplete is the Origin attribute type of all routes that
do not have the IGP or EGP Origin attribute. For example,
the Origin attribute of the routes imported is Incomplete.";
}
leaf med {
type uint32;
description
"The Multi-Exit-Discriminator (MED) is transmitted only
between two neighboring ASs.";
}
leaf local-preference {
type uint8;
description
"The local preference of the BGP FlowSpec route.";
}
leaf community {
type string;
description
"Community attribute of the BGP FlowSpec route.";
}
leaf ext-community {
type string;
description
"Extended community attribute of the BGP FlowSpec route.";
}
leaf preference {
type uint32;
description
"The preferred value of a protocol.";
}
leaf originator {
type inet:ip-address;
description
"The address of the advertiser of the BGP FlowSpec route.";
}
leaf cluster-list {
type string;
description
"Cluster list attribute of the BGP FlowSpec route.";
}
uses flowspec-traffic-filter;
uses flowspec-traffic-action;
}
grouping flowspec-protocol-specific {
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description
"This group define extensions of FlowSpec per protocols.";
choice protocol {
description
"Define specific part of FlowSpec when carried in
different protocols.";
case bgp {
uses flowspec-bgp-route;
}
}
}
container flowspec {
description
"Container for flowspec configuration and state";
container flowspec-cfg {
description
"Configuration for flow specification.";
list flowspec-policy {
key "policy-name";
description
"Configuration of a flow route list.";
leaf policy-name {
type string;
description
"The name of a flow route.";
}
leaf vrf-name {
type string;
description
" Vrf-name of the flowspec-rule";
}
leaf address-family {
type identityref {
base address-family;
}
description
" address-family of the flowspec-rule";
}
list flowspec-rule {
key "rule-name";
ordered-by system;
leaf rule-name {
type string;
description
"The name of a flowspec rule.";
}
uses flowspec-traffic-filter;
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uses flowspec-traffic-action;
description
"Define flow specification filters.";
}
}
}
container flowspec-state {
config false;
description
"Operational state of flow specification.";
container flowspec-rib {
description
"Define the operational state data for FlowSpec entries.";
list flowspec-route {
description
"FlowSpec entries are organized into list of routes.";
leaf index {
type uint32;
description
"Flow Specification route entry index.";
}
leaf islocal {
type boolean;
description
"Locally configured Flow Specification route.";
}
leaf local-name {
type string;
description
"The name of locally configured FlowSpec route.";
}
leaf neighbor {
type inet:ip-address;
description
"IP address of an advertising device";
}
leaf duration {
type uint32;
description
"Route duration in seconds.";
}
container flowspec-protocol-specific {
description
"Define the specific extension for each protocol.";
uses flowspec-protocol-specific;
}
}
}
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container flowspec-statistics {
description
"Define the statistics of list of flowspec rules.";
list flowspec-stats {
description
"Statistics of list of flowspec rules per VRF &
Address-family.";
leaf vrf-name {
type string;
description
"Vrf-name of the set of flowspec-rules";
}
leaf address-family {
type string;
description
"Address-family of the set of flowspec-rules";
}
list flowspec-rule-stats {
description
"
This defines the flowspec filter statistics of
each flowspec-rules.
";
uses flowspec-traffic-filter;
uses flowspec-traffic-action;
leaf classified-pkts {
type uint64;
description
" Number of total packets which matched
to the flowspec-filter";
}
leaf classified-bytes {
type uint64;
description
" Number of total bytes which matched
to the flowspec-filter";
}
leaf drop-pkts {
type uint64;
description
" Number of total packets which got dropped";
}
leaf drop-bytes {
type uint64;
description
" Number of total bytes which got dropped";
}
}
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}
}
}
}
}
<CODE ENDS>
4. IANA Considerations
This document registers a URI in the "IETF XML Registry" [RFC3688].
Following the format in RFC 3688, the following registration has been
made.
URI: urn:ietf:params:xml:ns:yang:ietf-flowspec
Registrant Contact: The RTGWG WG of the IETF.
XML: N/A; the requested URI is an XML namespace.
This document registers a YANG module in the "YANG Module Names"
registry [RFC6020].
Name: ietf-flowspec
Namespace: urn:ietf:params:xml:ns:yang:ietf-flowspec
Prefix: flowspec
Reference: RFC XXXX
5. Security Considerations
The YANG module defined in this memo is designed to be accessed via
the NETCONF protocol [RFC6241]. The lowest NETCONF layer is the
secure transport layer and the mandatory-to-implement secure
transport is SSH [RFC6242]. The NETCONF access control model
[RFC6536] provides the means to restrict access for particular
NETCONF users to a pre-configured subset of all available NETCONF
protocol operations and content.
There are a number of data nodes defined in the YANG module which are
writable/creatable/deletable (i.e., config true, which is the
default). These data nodes may be considered sensitive or vulnerable
in some network environments. Write operations (e.g., <edit-config>)
to these data nodes without proper protection can have a negative
effect on network operations.
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6. Acknowledgments
The editor of this document wishes to thank Andrew Mao for the
guidance and support in coming up with this draft.
7. References
7.1. Normative References
[I-D.ietf-idr-bgp-flowspec-oid]
Uttaro, J., Filsfils, C., Smith, D., Alcaide, J., and P.
Mohapatra, "Revised Validation Procedure for BGP Flow
Specifications", draft-ietf-idr-bgp-flowspec-oid-02 (work
in progress), January 2014.
[I-D.ietf-idr-flow-spec-v6]
Raszuk, R., Pithawala, B., McPherson, D., and A. Andy,
"Dissemination of Flow Specification Rules for IPv6",
draft-ietf-idr-flow-spec-v6-06 (work in progress),
November 2014.
[I-D.litkowski-idr-flowspec-interfaceset]
Litkowski, S., Simpson, A., Patel, K., and J. Haas,
"Applying BGP flowspec rules on a specific interface set",
draft-litkowski-idr-flowspec-interfaceset-02 (work in
progress), March 2015.
[RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
DOI 10.17487/RFC3688, January 2004,
<http://www.rfc-editor.org/info/rfc3688>.
[RFC5575] Marques, P., Sheth, N., Raszuk, R., Greene, B., Mauch, J.,
and D. McPherson, "Dissemination of Flow Specification
Rules", RFC 5575, DOI 10.17487/RFC5575, August 2009,
<http://www.rfc-editor.org/info/rfc5575>.
[RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for
the Network Configuration Protocol (NETCONF)", RFC 6020,
DOI 10.17487/RFC6020, October 2010,
<http://www.rfc-editor.org/info/rfc6020>.
[RFC6241] Enns, R., Ed., Bjorklund, M., Ed., Schoenwaelder, J., Ed.,
and A. Bierman, Ed., "Network Configuration Protocol
(NETCONF)", RFC 6241, DOI 10.17487/RFC6241, June 2011,
<http://www.rfc-editor.org/info/rfc6241>.
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[RFC6242] Wasserman, M., "Using the NETCONF Protocol over Secure
Shell (SSH)", RFC 6242, DOI 10.17487/RFC6242, June 2011,
<http://www.rfc-editor.org/info/rfc6242>.
[RFC6536] Bierman, A. and M. Bjorklund, "Network Configuration
Protocol (NETCONF) Access Control Model", RFC 6536,
DOI 10.17487/RFC6536, March 2012,
<http://www.rfc-editor.org/info/rfc6536>.
7.2. Informative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
<http://www.rfc-editor.org/info/rfc2119>.
Authors' Addresses
Nan Wu
Huawei
Huawei Bld., No.156 Beiqing Rd.
Beijing 100095
China
Email: eric.wu@huawei.com
Shunwan Zhuang
Huawei
Huawei Bld., No.156 Beiqing Rd.
Beijing 100095
China
Email: zhuangshunwan@huawei.com
Aseem Choudhary
Cisco Systems
170 W. Tasman Drive
San Jose, CA 95134
USA
Email: asechoud@cisco.com
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