One document matched: draft-ietf-i2rs-pkt-eca-data-model-01.xml
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<rfc category="std" docName="draft-ietf-i2rs-pkt-eca-data-model-01.txt" ipr="trust200902">
<front>
<title abbrev="FB-Packet Forwarding ECA">Filter-Based Packet Forwarding ECA Policy </title>
<author fullname="Susan Hares" initials="S" surname="Hares">
<organization>Huawei</organization>
<address>
<postal>
<street>7453 Hickory Hill</street>
<city>Saline</city>
<region>MI</region>
<code>48176</code>
<country>USA</country>
</postal>
<email>shares@ndzh.com</email>
</address>
</author>
<author fullname="Qin Wu" initials="Q." surname="Wu">
<organization>Huawei</organization>
<address>
<postal>
<street>101 Software Avenue, Yuhua District</street>
<city>Nanjing</city>
<region>Jiangsu</region>
<code>210012</code>
<country>China</country>
</postal>
<email>bill.wu@huawei.com</email>
</address>
</author>
<author fullname="Russ White" initials="R." surname="White">
<organization> Ericsson </organization>
<address>
<email>russw@riw.us</email>
</address>
</author>
<date year="2016" />
<area>Routing Area</area>
<workgroup>I2RS working group</workgroup>
<keyword>RFC</keyword>
<keyword>Request for Comments</keyword>
<keyword>I-D</keyword>
<keyword>Internet-Draft</keyword>
<keyword>I2RS</keyword>
<abstract>
<t>This document describes the yang data model for packet forwarding
policy that filters received packets and forwards (or drops) the
packets. Prior to forwarding the packets out other interfaces,
some of the fields in the packets may be
modified. If one considers the packet reception an event, this
packet policy is a minimalistic Event-Match Condition-Action policy.
This policy controls forwarding of packets received by a routing
device on one or more interfaces on which this policy is enabled.
The policy is composed of an ordered list of policy rules.
Each policy policy rule contains a set of match conditions
that filters for packets plus a set of
actions to modify the packet and forward packets. The match conditions
can match tuples in multiple layers (L1-L4, application),
interface received on, and and other conditions regarding the packet
(size of packet, time of day). The modify packet actions allow for
setting things within the packet plus decapsulation and encapsulation
packet. The forwarding actions include forwarding via interfaces, tunnels,
or nexthops and dropping the packet. The policy model can be used with the
session ephemeral (BGP Flow Specifications), reboot ephemeral state (I2RS ephemeral),
and non-ephemeral routing/forwarding state (e.g. configuration state ).
</t>
</abstract>
</front>
<middle>
<section anchor="intro" title="Introduction">
<t>This document describes the yang data model for packet forwarding
policy that filters received packets and forwards (or drops) the
packets. Prior to forwarding the packets out other interfaces,
some of the fields in the packets may be modified. If one considers
the reception of a packet as an event, this minimalistic
Event-Match Condition-Action policy. If one considers the reception of
packets containing Layer 1 to Layer 4 + application data a single packet,
then this minimalistic policy can be called a packet-only ECA policy.
This document will use the term packet-only ECA policy for this model
utilizing the term "packet" in this fashion.
</t>
<t>This packet-only ECA policy data model supports
an ordered list of ECA policy rules where each policy rule has a name.
The match condition filters include matches on
<list style="symbols">
<t>packet headers for layer 1 to layer 4,</t>
<t>application protocol data and headers, </t>
<t>interfaces the packet was received on, </t>
<t>time packet was received, and </t>
<t>size of packet.</t>
</list>
</t>
<t>The actions include packet modify actions and forwarding options.
The modify options allow for the following:
<list style="symbols">
<t>setting fields in the packet header at Layer 2 (L2) to Layer 4 (L4), and
</t>
<t>encapsulation and decapsulation the packet.
</t>
</list>
The forwardingng actions allow forwardsing the packet via interfaces,
tunnels, next-hops, or dropping the packet.
setting things within the packet at Layer 2 (L2) to layer 4 (L4)
plus overlay or application data.
</t>
<t>
The first section of this draft contains an overview
of the policy structure. The second provides a high-level yang
module. The third contains the yang module.
</t>
<section title="Definitions and Acronyms">
<t><list>
<t>INSTANCE: Routing Code often has the ability to spin up multiple
copies of itself into virtual machines. Each Routing code instance or
each protocol instance is denoted as Foo_INSTANCE in the text below. </t>
<t>NETCONF: The Network Configuration Protocol</t>
<t> PCIM - Policy Core Information Model </t>
<t> RESTconf - http programmatic protocol to access yang modules </t>
</list>
</t>
</section>
<section title="Antecedents this Policy in IETF">
<t> Antecedents to this generic policy are the generic policy
work done in PCIM WG. The PCIM work contains a Policy Core Information Model
(PCIM) <xref target="RFC3060"></xref>, Policy Core Informational Model Extensions
<xref target="RFC3460"></xref> and the Quality of Service (QoS) Policy Information
Model (QPIM) (<xref target="RFC3644"></xref>)
From PCIM comes the concept that policy rules which are combined into
policy groups. PCIM also refined a concept of policy sets that allowed
the nesting and aggregation of policy groups. This generic model
did not utilize the concept of sets of groups, but could be expanded to include
sets of groups in the future. </t>
</section>
</section>
<section title="Generic Route Filters/Policy Overview">
<t>This generic policy model represents filter or routing policies
as rules and groups of rules.
</t>
<t>
The basic concept are:
<list style="hanging">
<t hangText="Rule Group"><vspace blankLines="1" /> A rule group is
is an ordered set of rules . </t>
<t hangText="Rule"><vspace blankLines="1" />
A Rule is represented by the semantics “If Condition then Action”.
A Rule may have a priority assigned to it.
</t>
</list>
</t>
<t>
<figure>
<artwork>
+-----------+ +------------+
|Rule Group | | Rule Group |
+-----------+ +------------+
^ ^
| |
| |
+--------^-------+ +-------^-------+
| Rule | | Rule |
+----------------+ +---------------+
: :
: :
......: :.....
: :
+---------V---------+ +-V-------------+
| Rule Condition | | Rule Action |
+-------------------+ +---------------+
: : : : : :
.....: . :..... .....: . :.....
: : : : : :
+----V---+ +---V----+ +--V---+ +-V------++--V-----++--V---+
| Match | | match | |match | | Action || action ||action|
|Operator| |Variable| |Value | |Operator||Variable|| Value|
+--------+ +--------+ +------+ +--------++--------++------+
Figure 1: ECA rule structure
</artwork>
</figure>
</t>
</section>
<section title="BNP Rule Groups ">
<t> The pkt ECA policy is an order set of pkt-ECA policy rules.
The rules assume the event is the reception of a packet on the machine
on a set of interfaces. This policy is associated with a set of interfaces
on a routing device (physical or virtual).
</t>
<t> A Rule group allows for the easy combination of
rules for management stations or users.
A Rule group has the following elements:
<list style="symbols">
<t> name that identifies the grouping of policy rules</t>
<t> module reference - reference to a yang module(s) in the yang module library
that this group of policy writes policy to</t>
<t> list of rules </t>
</list>
Rule groups may have multiple policy groups at specific orders.
For example, policy gorup 1 could have three policy rules at rule order 1 and
four policy rules at rule order 5.
</t>
<t> The rule has the following elements: name, order, status, priority, reference cnt, and
match condition, and action as shown as shown in figure 2. The order indicates the order of the rule within the
the complete list. The status of the rule is (active, inactive). The priority is the priority within
a specific order of policy/filter rules. A reference count (refcnt) indicates the number of entities
(E.g. network modules) using this policy. The generic rule match-action conditions have match
operator, a match variable and a match value. The rule actions have an action operator,
action variable, and an action value.
</t>
<t> Rules can exist with the same rule order and
same priority. Rules with the same rule order and same priority are not guaranteed
to be at any specific ordering. The order number and priority have sufficient depth
that administrators who wish order can specify it.
</t>
<t>
<figure>
<artwork>
Figure 2 - Rule Group
+--------------------------------------+
| Rule Group |
+--------------------------------------+
* * *
| | |
| | |
| | |
+------+ +-------------------+
| Name | | Rule_list |
| | | |
+------+ +------|------------+
+----------------|-----------------------------+
| rule |
|-|------|----------|-----------|------------|-+
| | | | |
+---|--+ +-|----+ +---|-------+ +-|------+ +-------+
| Name | |rule | | ECA | |rule | |ref-cnt|
+------+ |order | | match | |priority| +-------+
|number| |qos-actions| +--------+
+------+ |fwd-actions|
+-----------+
</artwork>
</figure>
</t>
<t> The generic match conditions are specific to a particular layer
are refined by matches to a specific layer (as figure 3 shows), and
figure 5's high-level yang defines. The general actions may be
generic actions that are specific to a particular layer
(L1, L2, L3, service layer) or time of day or packet size.
The qos actions can be setting fields in the packet
at any layer (L1-L4, service) or encapsulating or decapsulating
the packet at a layer. The fwd-actions are forwarding
functions that forward on an interface or to a next-hop.
The rule status is the operational status per rule.
</t>
<t>
<figure>
<artwork>
Figure 3
+-------------+
| Match |
| Condition |
+-------|-----+
|
+-------------+-|-----------+-----------+
| | | |
V V V V
............ ............ ............ ...........
: L1 : : L2 : : L3 : : Service : . . .
: match : : match : : match : : match :
'''''''''''' '''''''''''' '''''''''''' '''''''''''
</artwork>
</figure>
</t>
</section>
<section title="BNP Generic Info Model in High Level Yang">
<t>
Below is the high level inclusion
<figure>
<artwork>
Figure 5
module:pkt-eca-policy
import ietf-inet-types {prefix "inet"}
import ietf-interface {prefix "if"}
import ietf-i2rs-rib {prefix "i2rs-rib"}
import ietf-interfaces {
prefix "if";
}
import ietf-inet-types {
prefix inet;
//rfc6991
}
import ietf-i2rs-rib {
prefix "i2rs-rib";
</artwork>
</figure>
</t>
<t>
Below is the high level yang diagram
<figure>
<artwork>
module ietf-pkt-eca-policy
+--rw pkt-eca-policy-cfg
| +--rw pkt-eca-policy-set
| +--rw groups* [group-name]
| | +--rw group-name string
| | +--rw vrf-name string
| | +--rw address-family
| | +--rw group-rule-list* [rule-name]
| | | +--rw rule-name
| | | +--rw rule-order-id
| | | +--rw default-action-id integer
| | | +--rw default-resolution-strategy-id integer
| +--rw rules* [order-id rule-name]
| +--rw order-id
| +--rw rule-name
| +--rw cfg-rule-conditions [cfgr-cnd-id]
| | +--rw cfgr-cnd-id integer
| | +--rw eca-event-match
| | | +--rw time-event-match*
| | | | .. (time of day)
| | +--rw eca-condition-match
| | | +--rw eca-pkt-matches*
| | | | ... (L1-L4 matches)
| | | +--rw eca-user-matches*
| | | | (user, schedule, region, target,
| | | | state, direction)
| +--rw cfg-rule-actions [cfgr-action-id]
| | +--rw cfgr-action-id
| | +--rw eca-actions* [action-id]
| | | +--rw action-id uint32
| | | +--rw eca-ingress-act*
| | | | ... (permit, deny, mirror)
| | | +--rw eca-fwd-actions*
| | | | ... (invoke, tunnel encap, fwd)
| | | +--rw eca-egress-act*
| | | | .. .
| | | +--rw eca-qos-actions*
| | | | ...
| | | +--rw eca-security-actions*
| +--rw pc-resolution-strategies* [strategy-id]
| | +--rw strategy-id integer
| | +--rw filter-strategy identityref
| | | .. FMR, ADTP, Longest-match
| | +--rw global-strategy identityref
| | +--rw mandatory-strategy identityref
| | +--rw local-strategy identityref
| | +--rw resolution-fcn uint32
| | +--rw resolution-value uint32
| | +--rw resolution-info string
| | +--rw associated-ext-data*
| | | +--rw ext-data-id integer
| +--rw cfg-external-data* [cfg-ext-data-id]
| | +--rw cfg-ext-data-id integer
| | +--rw data-type integer
| | +--rw priority uint64
| | | uses external-data-forms
| | ... (other external data)
+--rw pkt-eca-policy-opstate
+--rw pkt-eca-opstate
+--rw groups* [group-name]
| +--rw rules-installed;
| +--rw rules_status* [rule-name]
| +--rw strategy-used [strategy-id]
| +--rw
+--rw rule-group-link* [rule-name]
| +--rw group-name
+--rw rules_opstate* [rule-order rule-name]
| +--rw status
| +--rw rule-inactive-reason
| +--rw rule-install-reason
| +--rw rule-installer
| +--rw refcnt
+--rw rules_op-stats* [rule-order rule-name]
| +--rw pkts-matched
| +--rw pkts-modified
| +--rw pkts-forward
+--rw op-external-data [op-ext-data-id]
| +--rw op-ext-data-id integer
| +--rw type identityref
| +--rw installed-priority integer
| | (other details on external data )
</artwork>
</figure>
</t>
<t>
The three levels of policy are expressed as:
<figure>
<artwork>
Config Policy definitions
=======================================
Policy level: pkt-eca-policy-set
group level: pkt-eca-policy-set:groups
rule level: pkt-eca-policy-set:rules
external id: pkt-eca-policy-set:cfg-external-data
Operational State for Policy
=======================================
Policy level: pkt-eca-policy-opstate
group level: pkt-eca-opstate:groups
group-rule: pkt-eca-opstate:rule-group-link*
rule level: pkt-eca_opstate:rules_opstate*
pkt-eca_op-stats
figure
</artwork>
</figure>
</t>
<t>
The filter matches struture is shown below
<figure>
<artwork>
module:i2rs-pkt-eca-policy
+--rw pkt-eca-policy-cfg
| +--rw pkt-eca-policy-set
| +--rw groups* [group-name]
| | ...
| +--rw rules [order-id rule-name]
| +--rw eca-matches
| | | +--case: interface-match
| | | +--case: L1-header-match
| | | +--case: L2-header-match
| | | +--case: L3-header-match
| | | +--case: L4-header-match
| | | +--case: Service-header-match
| | | +--case: packet-size
| | | +--case: time-of-day
</artwork>
</figure>
</t>
<t>
<figure>
<artwork>
module:i2rs-pkt-eca-policy
+--rw pkt-eca-policy-cfg
| +--rw pkt-eca-policy-set
| +--rw groups* [group-name]
| | ...
| +--rw rules* [order-id rule-name]
| +--rw eca-matches
| | . . .
| +--rw ecq-qos-actions
| | +--rw cnt-actions
| | +--rw mod-actions
| | | +--case interface-actions
| | | +--case L1-action
| | | +--case L2-action
| | | +--case L3-action
| | | +--case L4-action
| | | +--case service-action
| +--rw eca-fwd-actions
| | +--rw num-fwd-actions
| | +--rw fwd-actions
| | | +--rw interface interface-ref
| | | +--rw next-hop rib-nexthop-ref
| | | +--rw route-attributes
| | | +--rw rib-route-attributes-ref
| | | +--rw fb-std-drop
</artwork>
</figure>
</t>
</section>
<section title="i2rs-eca-policy Yang module">
<t>
<figure>
<artwork>
<CODE BEGINS> file "ietf-pkt-eca-policy@2016-02-09.yang"
module ietf-pkt-eca-policy {
namespace "urn:ietf:params:xml:ns:yang:ietf-pkt-eca-policy";
// replace with iana namespace when assigned
prefix "pkt-eca-policy";
import ietf-routing {
prefix "rt";
}
import ietf-interfaces {
prefix "if";
}
import ietf-inet-types {
prefix inet;
//rfc6991
}
import ietf-i2rs-rib {
prefix "i2rs-rib";
}
// meta
organization "IETF I2RS WG";
contact
"email: shares@ndzh.com
email: russ.white@riw.com
email: linda.dunbar@huawei.com
email: bill.wu@huawei.com";
description
"This module describes a basic network policy
model with filter per layer.";
revision "2016-06-26" {
description "sec ond revision";
reference "draft-ietf-i2rs-pkt-eca-policy-dm-03";
}
// interfaces - no identity matches
// L1 header match identities
identity l1-header-match-type {
description
" L1 header type for match ";
}
identity l1-hdr-sonet-type {
base l1-header-match-type;
description
" L1 header sonet match ";
}
identity l1-hdr-OTN-type {
base l1-header-match-type;
description
" L1 header OTN match ";
}
identity l1-hdr-dwdm-type {
base l1-header-match-type;
description
" L1 header DWDM match ";
}
// L2 header match identities
identity l2-header-match-type {
description
" l2 header type for match ";
}
identity l2-802-1Q {
base l2-header-match-type;
description
" l2 header type for 802.1Q match ";
}
identity l2-802-11 {
base l2-header-match-type;
description
" l2 header type for 802.11 match ";
}
identity l2-802-15 {
base l2-header-match-type;
description
" l2 header type for 802.15 match ";
}
identity l2-NVGRE {
base l2-header-match-type;
description
" l2 header type for NVGRE match ";
}
identity l2-mpls {
base l2-header-match-type;
description
" l2 header type for MPLS match ";
}
identity l2-VXLAN {
base l2-header-match-type;
description
" l2 header type for VXLAN match ";
}
// L3 header match identities
identity l3-header-match-type {
description
" l3 header type for match ";
}
identity l3-ipv4-hdr {
base l3-header-match-type;
description
" l3 header type for IPv4 match ";
}
identity l3-ipv6-hdr {
base l3-header-match-type;
description
" l3 header type for IPv6 match ";
}
identity l3-gre-tunnel {
base l3-header-match-type;
description "l3 header r
type for GRE tunnel match ";
}
identity l3-icmp-header {
base l3-header-match-type;
description "L3 header match for ICMP";
}
identity l3-ipsec-ah-header {
base l3-header-match-type;
description "AH IPSEC header ";
}
identity l3-ipsec-esp-header {
base l3-header-match-type;
description "AH IPSEC header ";
}
// L4 header match identities
identity l4-header-match-type {
description "L4 header
match types. (TCP, UDP,
SCTP, UDPLite, etc. )";
}
identity l4-tcp-header {
base l4-header-match-type;
description "L4 header for TCP";
}
identity l4-udp-header {
base l4-header-match-type;
description "L4 header match for UDP";
}
identity l4-udplite {
base l4-header-match-type;
description "L4 header match for
UDP lite";
}
identity l4-sctp-header {
base l4-header-match-type;
description "L4 header match for SCTP";
}
// Service header identities
identity service-header-match-type {
description "service header
match types: service function path
(sf-path)), SF-chain, sf-discovery,
and others (added here)";
}
identity sf-chain-meta-match {
base service-header-match-type;
description "service header match for
meta-match header";
}
identity sf-path-meta-match {
base service-header-match-type;
description "service header match for
path-match header";
}
identity rule-status-type {
description "status
values for rule: invalid (0),
valid (1), valid and installed (2)";
}
identity rule-status-invalid {
base rule-status-type;
description "invalid rule status.";
}
identity rule-status-valid {
base rule-status-type;
description "This status indicates
a valid rule.";
}
identity rule-status-valid-installed {
base rule-status-type;
description "This status indicates
an installed rule.";
}
identity rule-status-valid-inactive {
base rule-status-type;
description "This status indicates
a valid ruled that is not installed.";
}
identity rule-cr-type {
description "status
values for rule: FMR (0), ADTP (1),
Longest-match (2)";
}
identity rule-cr-FMR {
base rule-cr-type;
description "first match resolution.";
}
identity rule-cr-ADTP {
base rule-cr-type;
description "ADTP resolution.";
}
identity rule-cr-longest {
base rule-cr-type;
description "longest match resolution.";
}
grouping interface-match {
leaf match-if-name {
type if:interface-ref;
description "match on interface name";
}
description "interface
has name, description, type, enabled
as potential matches";
}
grouping interface-actions {
description
"interface action up/down and
enable/disable";
leaf interface-up {
type boolean;
description
"action to put interface up";
}
leaf interface-down {
type boolean;
description
"action to put interface down";
}
leaf interface-enable {
type boolean;
description
"action to enable interface";
}
leaf interface-disable {
type boolean;
description
"action to disable interface";
}
}
grouping L1-header-match {
choice l1-header-match-type {
case l1-hdr-sonet-type {
// sonet matches
}
case L1-hdr-OTN-type {
// OTN matches
}
case L1-hdr-dwdm-type {
// DWDM matches
}
description
"The Layer 1 header match choices";
}
description
"The Layer 1 header match includes
any reference to L1 technology";
}
grouping L1-header-actions {
leaf l1-hdr-sonet-act {
type uint8;
description "sonet actions";
}
leaf l1-hdr-OTN-act {
type uint8;
description "OTN actions";
}
leaf l1-hdr-dwdm-act {
type uint8;
description "DWDM actions";
}
description "L1 header match
types";
}
grouping L2-802-1Q-header {
description
"This is short-term 802.1 header
match which will be replaced
by reference to IEEE yang when
it arrives. Qtag 1 is 802.1Q
Qtag2 is 802.1AD";
leaf vlan-present {
type boolean;
description " Include VLAN in header";
}
leaf qtag1-present {
type boolean;
description " This flag value indicates
inclusion of one 802.1Q tag in header";
}
leaf qtag2-present{
type boolean;
description "This flag indicates the
inclusion of second 802.1Q tag in header";
}
leaf dest-mac {
type uint64; //change to uint48
description "IEEE destination MAC value
from the header";
}
leaf src-mac {
type uint64; //change to uint48
description "IEEE source MAC
from the header";
}
leaf vlan-tag {
type uint16;
description "IEEE VLAN Tag
from the header";
}
leaf qtag1 {
type uint32;
description "Qtag1 value
from the header";
}
leaf qtag2 {
type uint32;
description "Qtag1 value
from the header";
}
leaf L2-ethertype {
type uint16;
description "Ether type
from the header";
}
}
grouping L2-VXLAN-header {
container vxlan-header {
uses i2rs-rib:ipv4-header;
leaf vxlan-network-id {
type uint32;
description "VLAN network id";
}
description " choices for
L2-VLAN header matches.
Outer-header only.
Need to fix inner header. ";
}
description
"This VXLAN header may
be replaced by actual VXLAN yang
module reference";
}
grouping L2-NVGRE-header {
container nvgre-header {
uses L2-802-1Q-header;
uses i2rs-rib:ipv4-header;
leaf gre-version {
type uint8;
description "L2-NVGRE GRE version";
}
leaf gre-proto {
type uint16;
description "L2-NVGRE protocol value";
}
leaf virtual-subnet-id {
type uint32;
description "L2-NVGRE subnet id value";
}
leaf flow-id {
type uint16;
description "L2-NVGRE Flow id value";
}
// uses L2-802-1Q-header;
description
"This NVGRE header may
be replaced by actual NVGRE yang
module reference";
}
description "Grouping for
L2 NVGRE header.";
}
grouping L2-header-match {
choice l2-header-match-type {
case l2-802-1Q {
uses L2-802-1Q-header;
}
case l2-802-11 {
// matches for 802.11 headers
}
case l2-802-15 {
// matches for 802.1 Ethernet
}
case l2-NVGRE {
// matches for NVGRE
uses L2-NVGRE-header;
}
case l2-VXLAN-header {
uses L2-VXLAN-header;
}
case l2-mpls-header {
uses i2rs-rib:mpls-header;
}
description "Choice of L2
headers for L2 match";
}
description
" The layer 2 header match includes
any reference to L2 technology";
}
grouping L2-NVGRE-mod-acts {
// actions for NVGRE
leaf set-vsid {
type boolean;
description
"Boolean flag to set VSID in packet";
}
leaf set-flowid {
type boolean;
description
"Boolean flag to set VSID in packet";
}
leaf vsi {
type uint32;
description
"VSID value to set in packet";
}
leaf flow-id {
type uint16;
description
"flow-id value to set in packet";
}
description "L2-NVRE Actions";
}
grouping L2-VXLAN-mod-acts {
leaf set-network-id {
type boolean;
description
"flag to set network id in packet";
}
leaf network-id {
type uint32;
description
"network id value to set in packet";
}
description "VXLAN header
modification actions.";
}
grouping L2-mpls-mod-acts {
leaf pop {
type boolean;
description
"Boolean flag to pop mpls header";
}
leaf push {
type boolean;
description
"Boolean flag to push value into
mpls header";
}
leaf mpls-label {
type uint32;
description
"mpls label to push in header";
}
description "MPLS modify
header actions";
}
grouping l2-header-mod-actions {
leaf l2-802-1Q {
type uint8;
description "actions for 802.1Q";
}
leaf l2-802-11 {
type uint8;
description "actions for 802.11";
}
leaf l2-802-15 {
type uint8;
description "ations for 802.15";
}
uses L2-NVGRE-mod-acts;
uses L2-VXLAN-mod-acts;
uses L2-mpls-mod-acts;
description
" The layer 2 header match includes
any reference to L2 technology";
}
grouping L3-header-match {
choice L3-header-match-type {
case l3-ipv4-hdr {
uses i2rs-rib:ipv4-header;
}
case l3-ipv6-hdr {
uses i2rs-rib:ipv6-header;
}
case L3-gre-tunnel {
uses i2rs-rib:gre-header;
}
description "match for L3
headers for IPv4, IPv6,
and GRE tunnels";
}
description "match for L3 headers";
}
grouping ipv4-encapsulate-gre {
leaf encapsulate {
type boolean;
description "flag to encapsulate headers";
}
leaf ipv4-dest-address {
type inet:ipv4-address;
description "Destination Address for GRE header";
}
leaf ipv4-source-address {
type inet:ipv4-address;
description "Source Address for GRE header";
}
description "encapsulation actions for IPv4 headers";
}
grouping L3-header-actions {
choice l3-header-act-type {
case l3-ipv4-hdr {
leaf set-ttl {
type boolean;
description "flag to set TTL";
}
leaf set-dscp {
type boolean;
description "flag to set DSCP";
}
leaf ttl-value {
type uint8;
description "TTL value to set";
}
leaf dscp-val {
type uint8;
description "dscp value to set";
}
}
case l3-ipv6-hdr {
leaf set-next-header {
type boolean;
description
"flag to set next routing
header in IPv6 header";
}
leaf set-traffic-class {
type boolean;
description
"flag to set traffic class
in IPv6 header";
}
leaf set-flow-label {
type boolean;
description
"flag to set flow label
in IPv6 header";
}
leaf set-hop-limit {
type boolean;
description "flag
to set hop limit in
L3 packet";
}
leaf ipv6-next-header {
type uint8;
description "value to
set in next IPv6 header";
}
leaf ipv6-traffic-class {
type uint8;
description "value to set
in traffic class";
}
leaf ipv6-flow-label {
type uint16;
description "value to set
in IPOv6 flow label";
}
leaf ipv6-hop-limit {
type uint8;
description "value to set
in hop count";
}
}
case L3-gre-tunnel {
leaf decapsulate {
type boolean;
description "flag to
decapsulate GRE packet";
}
description "GRE tunnel
actions" ;
}
description "actions that can
be performed on L3 header";
}
description "actions to
be performed on L3 header";
}
grouping tcp-header-match {
leaf tcp-src-port {
type uint16;
description "source port match value";
}
leaf tcp-dst-port {
type uint16;
description "dest port value
to match";
}
leaf sequence-number {
type uint32;
description "sequence number
value to match";
}
leaf ack-number {
type uint32;
description "action value to
match";
}
description "match for TCP
header";
}
grouping tcp-header-action {
leaf set-tcp-src-port {
type boolean;
description "flag to set
source port value";
}
leaf set-tcp-dst-port {
type boolean;
description "flag to set source port value";
}
leaf tcp-s-port {
type uint16;
description "source port match value";
}
leaf tcp-d-port {
type uint16;
description "dest port value
to match";
}
leaf seq-num {
type uint32;
description "sequence number
value to match";
}
leaf ack-num {
type uint32;
description "action value to
match";
}
description "Actions to
modify TCP header";
}
grouping udp-header-match {
leaf udp-src-port {
type uint16;
description "UDP source
port match value";
}
leaf udp-dst-port {
type uint16;
description "UDP Destination
port match value";
}
description "match values for
UDP header";
}
grouping udp-header-action {
leaf set-udp-src-port {
type boolean;
description "flag to set
UDP source port match value";
}
leaf set-udp-dst-port {
type boolean;
description
"flag to set UDP destination port match value";
}
leaf udp-s-port {
type uint16;
description "UDP source
port match value";
}
leaf udp-d-port {
type uint16;
description "UDP Destination
port match value";
}
description "actions to set
values in UDP header";
}
grouping sctp-chunk {
leaf chunk-type {
type uint8;
description "sctp chunk type value";
}
leaf chunk-flag {
type uint8;
description "sctp chunk type
flag value";
}
leaf chunk-length {
type uint16;
description "sctp chunk length";
}
leaf chunk-data-byte-zero {
type uint32;
description "byte zero of
stcp chunk data";
}
description "sctp chunck
header match fields";
}
grouping sctp-header-match {
uses sctp-chunk;
leaf stcp-src-port {
type uint16;
description "sctp header match
source port value";
}
leaf sctp-dst-port {
type uint16;
description "sctp header match
destination port value";
}
leaf sctp-verify-tag {
type uint32;
description "sctp header match
verification tag value";
}
description "SCTP header
match values";
}
grouping sctp-header-action {
leaf set-stcp-src-port {
type boolean;
description "set source port in sctp header";
}
leaf set-stcp-dst-port {
type boolean;
description "set destination port in sctp header";
}
leaf set-stcp-chunk1 {
type boolean;
description "set chunk value in sctp header";
}
leaf chunk-type-value {
type uint8;
description "sctp chunk type value";
}
leaf chunk-flag-value {
type uint8;
description "sctp chunk type
flag value";
}
leaf chunk-len {
type uint16;
description "sctp chunk length";
}
leaf chunk-data-bzero {
type uint32;
description "byte zero of
stcp chunk data";
}
description "sctp qos actions";
}
grouping L4-header-match {
choice l4-header-match-type {
case l4-tcp-header {
uses tcp-header-match;
}
case l4-udp-header {
uses udp-header-match;
}
case l4-sctp {
uses sctp-header-match;
}
description "L4 match
header choices";
}
description "L4 header
match type";
}
grouping L4-header-actions {
uses tcp-header-action;
uses udp-header-action;
uses sctp-header-action;
description "L4 header matches";
}
grouping service-header-match {
choice service-header-match-type {
case sf-chain-meta-match {
description "uses
sfc-sfc:service-function-chain-grouping:
+ sfc-sfc:service-function-chain";
}
case sf-path-meta-match {
description "uses
sfc-spf:service-function-paths:
+ sfc-spf:service-function-path";
}
description "SFC header match
choices";
}
description "SFC header and path
matches";
}
grouping sfc-header-actions {
choice service-header-match-type {
case sf-chain-meta-match {
leaf set-chain {
type boolean;
description "flag to set
chain in sfc. Should
be amended to use SFC service
chain matching.
uses sfc-sfc:service-function-chain-grouping:
+ sfc-sfc:service-function-chain";
}
}
case sf-path-meta-match {
leaf set-path {
type boolean;
description "flag to set path in
sfc header. Amend to use sfc-spf
function headers. Uses
sfc-spf:service-function-paths:
+ sfc-spf:service-function-path.";
}
}
description "choices in SFC for
chain match and path match.";
}
description "modify action for
SFC header.";
}
grouping rule_status {
leaf rule-status {
type string;
description "status information
free form string.";
}
leaf rule-inactive-reason {
type string;
description "description of
why rule is inactive";
}
leaf rule-install-reason {
type string;
description "response on rule installed";
}
leaf rule-installer {
type string;
description "client id of installer";
}
leaf refcnt {
type uint16;
description "reference count on rule. ";
}
description
"rule operational status";
}
// group status
grouping groups-status {
list group_opstate {
key "grp-name";
leaf grp-name {
type string;
description "eca group name";
}
leaf rules-installed {
type uint32;
description "rules in
group installed";
}
list rules_status {
key "rule-name";
leaf rule-name {
type string;
description "name of rule ";
}
leaf rule-order {
type uint32;
description "rule-order";
}
description "rules per
group";
}
description "group operational
status";
}
description "group to rules
list";
}
// links between rule to group
grouping rule-group-link {
list rule-group {
key rule-name;
leaf rule-name {
type string;
description "rule name";
}
leaf group-name {
type string;
description "group name";
}
description "link between
group and link";
}
description "rule-name to
group link";
}
// rule status by name
grouping rules_opstate {
list rules_status {
key "rule-order rule-name";
leaf rule-order {
type uint32;
description "order of rules";
}
leaf rule-name {
type string;
description "rule name";
}
uses rule_status;
description "eca rule list";
}
description "rules
operational state";
}
// rule statistics by name and order
grouping rules_opstats {
list rule-stat {
key "rule-order rule-name";
leaf rule-order {
type uint32;
description "order of rules";
}
leaf rule-name {
type string;
description "name of rule";
}
leaf pkts-matched {
type uint64;
description "number of
packets that matched filter";
}
leaf pkts-modified {
type uint64;
description "number of
packets that filter caused
to be modified";
}
leaf pkts-dropped {
type uint64;
description "number of
packets that filter caused
to be modified";
}
leaf bytes-dropped {
type uint64;
description "number of
packets that filter caused
to be modified";
}
leaf pkts-forwarded {
type uint64;
description "number of
packets that filter caused
to be forwarded.";
}
leaf bytes-forwarded {
type uint64;
description "number of
packets that filter caused
to be forwarded.";
}
description "list of
operational statistics for each
rule.";
}
description "statistics
on packet filter matches, and
based on matches on many were
modified and/or forwarded";
}
grouping packet-size-match {
leaf l1-size-match {
type uint32;
description "L1 packet match size.";
}
leaf l2-size-match {
type uint32;
description "L2 packet match size.";
}
leaf l3-size-match {
type uint32;
description "L3 packet match size.";
}
leaf l4-size-match {
type uint32;
description "L4 packet match size.";
}
leaf service-meta-size {
type uint32;
description "service meta info match size.";
}
leaf service-meta-payload {
type uint32;
description "service meta-play match size";
}
description "packet size by layer
only non-zero values are matched";
}
grouping time-day-match {
leaf hour {
type uint8;
description "hour
of day in 24 hours.
(add range)";
}
leaf minute {
type uint8;
description
"minute in day.";
}
leaf second {
type uint8;
description
"second in day.";
}
description "matches for
time of day.";
}
grouping user-event-match {
leaf user-name {
type string;
description "name of user
event";
}
leaf match-string {
type string;
description "user match
string";
}
description "matches for
time of day.";
}
grouping eca-event-matches {
uses time-day-match;
uses user-event-match;
description "matches for events
which include:
time of day, and
user specified matches.";
}
grouping eca-pkt-matches {
uses interface-match;
uses L1-header-match;
uses L2-header-match;
uses L3-header-match;
uses L4-header-match;
uses service-header-match;
uses packet-size-match;
description "ECA matches";
}
grouping user-status-matches {
leaf user {
type string;
description "user";
}
leaf region {
type string;
description "region";
}
leaf state {
type string;
description "state";
}
leaf user-status {
type string;
description "status of user";
}
description "user status
matches - region,
target, location";
}
grouping eca-condition-matches {
uses eca-pkt-matches;
uses user-status-matches;
description "pkt
and user status matches";
}
grouping eca-qos-actions {
leaf cnt-actions {
type uint32;
description "count of ECA actions";
}
list qos-actions {
key "action-id";
leaf action-id {
type uint32;
description "action id";
}
uses interface-actions;
uses L1-header-actions;
uses l2-header-mod-actions;
uses L3-header-actions;
uses L4-header-actions;
description "ECA set or change
packet Actions. Actions may be
added here for interface,
L1, L2, L3, L4 nad service forwarding
headers.";
}
description "eca- qos actions";
}
grouping ip-next-fwd {
leaf rib-name {
type string;
description "name of RIB";
}
leaf next-hop-name {
type string;
description "name of next hop";
}
description "ECA set or change
packet Actions";
}
grouping eca-ingress-actions {
leaf permit {
type boolean;
description "permit ingress
traffic. False
means to deny.";
}
leaf mirror {
type boolean;
description "copy bytes
ingressed to mirror port";
}
description "ingress eca match";
}
grouping eca-fwd-actions {
leaf interface-fwd {
type if:interface-ref;
description "name of interface to forward on";
}
uses i2rs-rib:nexthop;
uses ip-next-fwd;
leaf drop-packet {
type boolean;
description "drop packet flag";
}
description "ECA forwarding actions";
}
grouping eca-security-actions {
leaf actions-exist {
type boolean;
description "existance of
eca security actions";
}
description "content actions
for security. Needs more
description.";
}
grouping eca-egress-actions {
leaf packet-rate {
type uint32;
description "maximum packet-rate";
}
leaf byte-rate {
type uint64;
description "maximum byte-rate ";
}
description "packet security actions";
}
grouping policy-conflict-resolution {
list resolution-strategy {
key "strategy-id";
leaf strategy-id {
type uint32;
description "Id for strategy";
}
leaf stategy-name {
type string;
description "name of strategy";
}
leaf filter-strategy {
type string;
description "type of resolution";
}
leaf global-strategy {
type boolean;
description "global strategy";
}
leaf mandatory-strategy {
type boolean;
description "required strategy";
}
leaf local-strategy {
type boolean;
description "local strategy";
}
leaf resolution-fcn {
type uint64;
description "resolution function id ";
}
leaf resolution-value {
type uint64;
description "resolution value";
}
leaf resolution-info {
type string;
description "resolution info";
}
list associate-ext-data {
key "ext-data-id";
leaf ext-data-id {
type uint64;
description "ID of external data";
}
leaf ext-data {
type string;
description "external data";
}
description "linked external data";
}
description "list of strategies";
}
description "policy conflict
resolution strategies";
}
grouping cfg-external-data {
list cfg-ext-data {
key "cfg-ext-data-id";
leaf cfg-ext-data-id {
type uint64;
description "id for external data";
}
leaf data-type {
type uint32;
description "external data type ID";
}
leaf priority {
type uint64;
description "priority of data";
}
leaf other-data {
type string;
description "string
external data";
}
description "external data";
}
description "external data list";
}
grouping pkt-eca-policy-set {
list groups {
key "group-name";
leaf group-name {
type string;
description
"name of group of rules";
}
leaf vrf-name {
type string;
description "VRF name";
}
uses rt:address-family;
list group-rule-list {
key "rule-name";
leaf rule-name {
type string;
description "name of rule";
}
leaf rule-order-id {
type uint16;
description "rule-order-id";
}
description "rules per group";
}
description "pkt eca rule groups";
}
list eca-rules {
key "order-id";
ordered-by user;
leaf order-id {
type uint16;
description "Number of order
in ordered list (ascending)";
}
leaf eca-rule-name {
type string;
description "name of rule";
}
leaf installer {
type string;
description
"Id of I2RS client
that installs this rule.";
}
uses eca-event-matches;
uses eca-ingress-actions;
uses eca-qos-actions;
uses eca-security-actions;
uses eca-fwd-actions;
uses eca-egress-actions;
uses cfg-external-data;
uses policy-conflict-resolution;
description "ECA rules";
} // end of rule
description "Policy sets.";
}
grouping pkt-eca-opstate {
uses groups-status;
uses rule-group-link;
uses rules_opstate;
uses rules_opstats;
description "pkt eca policy
op-state main";
}
container pkt-eca-policy-opstate {
config "false";
uses pkt-eca-opstate;
description "operational state";
}
}
<CODE ENDS>
</artwork>
</figure>
</t>
</section>
<section anchor="IANA" title="IANA Considerations">
<t>
This draft requests IANA Assign a urn in the IETF
yang module space for:
</t>
<t>
"urn:ietf:params:xml:ns:yang:ietf-pkt-eca-policy";
</t>
<t>
associated prefix "pkt-eca";
</t>
</section>
<section title="Security Considerations">
<t>These generic filters are
used in the I2RS FB-RIBs to filter packets in a traffic stream,
act to modify packets, and forward data packets. These I2RS filters
operate dynamically at same level as currently deployed configured
filter-based RIBs to filter, change, and forward traffic.
The dynamic nature of this protocol requires that I2RS Filters
track the installer of group information and rules.
</t>
<t> This section will be augmented after a discussion
with security experts.
</t>
</section>
</middle>
<back>
<references title="Informative References">
&RFC2119;
&RFC3060;
&RFC3460;
&RFC3644;
&I-D.ietf-i2rs-architecture;
&I-D.ietf-i2rs-rib-info-model;
&I-D.ietf-netmod-acl-model;
&I-D.ietf-netconf-restconf;
</references>
</back>
</rfc>
| PAFTECH AB 2003-2026 | 2026-04-23 15:31:31 |