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draft-ietf-i2rs-usecase-reqs-summary
i2rs S. Hares
Internet-Draft Huawei
Intended status: Informational July 4, 2014
Expires: January 5, 2015
Summary of I2RS Use Case Requirements
draft-hares-i2rs-usecase-reqs-summary-00
Abstract
The I2RS Working Group (WG) has described a set of use cases that the
I2RS systems could fulfil. This document summarizes these use cases.
It is designed to provide requirements that will aid the design of
the I2RS architecture, Information Models, Data Models, Security, and
protocols.
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
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Task Force (IETF). Note that other groups may also distribute
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This Internet-Draft will expire on January 5, 2015.
Copyright Notice
Copyright (c) 2014 IETF Trust and the persons identified as the
document authors. All rights reserved.
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Protocol Independent Use Case Requirements . . . . . . . . . 4
3. BGP Use Case Requirements . . . . . . . . . . . . . . . . . . 5
4. IGP Use Cases . . . . . . . . . . . . . . . . . . . . . . . . 8
5. CCNE Use Cases . . . . . . . . . . . . . . . . . . . . . . . 9
6. Topology Related Use Cases . . . . . . . . . . . . . . . . . 10
6.1. Virtual Connection Use Case Requirements . . . . . . . . 10
6.2. Virtual Network Use Case Requirements . . . . . . . . . . 11
6.3. Topology Use Case . . . . . . . . . . . . . . . . . . . . 12
6.4. Virtual Topology Data Model . . . . . . . . . . . . . . . 17
6.5. Virtual Topology IP Data Model . . . . . . . . . . . . . 18
6.6. Virtual Topology Network Element . . . . . . . . . . . . 19
7. Requirements from SFC Use Cases . . . . . . . . . . . . . . . 20
8. Requirements from Traffic Steering Use Cases . . . . . . . . 21
9. Requirements from MPLS TE Networks Use Cases . . . . . . . . 22
10. Requirements from MPLS LDP Networks Use Cases . . . . . . . . 24
11. Requirements from Mobile Backhaul Ues Cases . . . . . . . . . 25
12. Requirements from :arge Data Flows are . . . . . . . . . . . 27
13. Large Data Collection Systems . . . . . . . . . . . . . . . . 28
14. CDNI . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
15. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 30
16. Security Considerations . . . . . . . . . . . . . . . . . . . 30
17. References . . . . . . . . . . . . . . . . . . . . . . . . . 31
17.1. Normative References . . . . . . . . . . . . . . . . . . 31
17.2. Informative References . . . . . . . . . . . . . . . . . 31
Author's Address . . . . . . . . . . . . . . . . . . . . . . . . 34
1. Introduction
The Architecture for the Interface to the Routing System
[I-D.ietf-i2rs-architecture] allows for a mechanism where the
distributed control plane can be augmented by an outside control
plane through an open, accessible interface. This document
summarizes the use case requirements for theI2RS client-I2RS Agent
exchange found in the following documents:
o Protocol Independent described in [I-D.white-i2rs-use-case]
o BGP described in [I-D.keyupate-i2rs-bgp-usecases]
o IGP protocols as described in [draft-ietf-wu-i2rs-igp-usecases]
o Control of Forwarding Path by Central Control Network Element
(CCNE) [I-D.ji-i2rs-usecases-ccne-service]
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o Virtual Connections and Virtual Networks described in
[I-D.hares-i2rs-use-case-vn-vc]
o Topology use cases [I-D.amante-i2rs-topology-use-cases]
o Topology requirements [I-D.medved-i2rs-topology-requirements]
o Service chaining described in [I-D.bitar-i2rs-service-chaining]
o Traffic Steering described in [I-D.chen-i2rs-ts-use-case]
o MPLS TE Networks described in [I-D.huang-i2rs-mpls-te-usecases]
o MPLS LDP Networks described in [I-D.chen-i2rs-mpls-ldp-usecases]
o Mobile BackHaul Use cases described in
[I-D.zhang-i2rs-mbb-usecases]
o Large Flows use case described in
[I-D.krishnan-i2rs-large-flow-use-case]
o Large Data Collection Systems Use cases described in
[I-D.swhyte-i2rs-data-collection-system]
o CDNI requesting routing
[I-D.shin-i2rs-usecases-cdni-request-routing]
Each group of use cases is presented in its own document. Each use
case is labeled with an identifier TTT-REQ-nn where TTT represents
the type of use case. The abbreviations for TTT are:
o PI - Protocol Independent
o BGP - BGP
o IGP - IGP protocols
o CCNE - CCNE control of forwarding path
o VCoD - Virtual Connections on Demand
o VNoD - Virtual Networks on Demand
o Topo - Topology Information
o VT-TMD - Virtual Topology: Topology Data Model
o VT-TDM-IP - Virtual Topology: Topology Data Mode for IP/MPLS
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o SFC - Service Chaining requirements
o TS - Traffic Steering
o MPLS-LDP - MLPS Topologies supported by LDP
o MPLS-TE - MPLS-TE topologies
o MBH - Mobile Back-Haul
o L-Flow - Large Flows
o L-Data - Large Data Collection
o CDNI - CDNI networks
2. Protocol Independent Use Case Requirements
This is a summary of the I2RS requirements found in the Protocol
Independent Use Cases described in: [I-D.white-i2rs-use-case]:
o PI-REQ01: The ability to monitor the available routes installed in
the RIB of each forwarding device, including near real time
notification of route installation and removal. This information
must include the destination prefix (NLRI), a table identifier (if
the forwarding device has multiple forwarding instances), the
metric of the installed route, and an identifier indicating the
installing process.
o PI-REQ02: The ability to install source and destination based
routes in the local RIB of each forwarding device. This must
include the ability to supply the destination prefix (NLRI), the
source prefix (NLRI), a table identifier (if the forwarding device
has multiple forwarding instances), a route preference, a route
metric, a next hop, an outbound interface, and a route process
identifier.
o PI-REQ03: The ability to install a route to a null destination,
effectively filtering traffic to this destination.
o PI-REQ04: The ability to interact with various policies configured
on the forwarding devices, in order to inform the policies
implemented by the dynamic routing processes. This interaction
should be through existing configuration mechanisms, such as
NETCONF, and should be recorded in the configuration of the local
device so operators are aware of the full policy implemented in
the network from the running configuration.
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o PI-REQ05: The ability to interact with traffic flow and other
network traffic level measurement protocols and systems, in order
to determine path performance, top talkers, and other information
required to make an informed path decision based on locally
configured policy.
o PI-REQ06: The ability to install destination based routes in the
local RIB of each forwarding device. This must include the
ability to supply the destination prefix (NLRI), a table
identifier (if the forwarding device has multiple forwarding
instances), a route preference, a route metric, a next hop, an
outbound interface, and a route process identifier.
o PI-REQ07: The ability to read the local RIB of each forwarding
device, including the destination prefix (NLRI), a table
identifier (if the forwarding device has multiple forwarding
instances), the metric of each installed route, a route
preference, and an identifier indicating the installing process.
o PI-REQ08: The ability to read the tables of other local protocol
processes running on the device. This reading action should be
supported through an import/export interface which can present the
information in a consistent manner across all protocol
implementations, rather than using a protocol specific model for
each type of available process.
o PI-REQ09: The ability to inject information directly into the
local tables of other protocol processes running on the forwarding
device. This injection should be supported through an import/
export interface which can inject routing information in a
consistent manner across all protocol implementations, rather than
using a protocol specific model for each type of available
process.
o PI-REQ10: The ability to interact with policies and configurations
on the forwarding devices using time based processing, either
through timed auto-rollback or some other mechanism. This
interaction should be through existing configuration mechanisms,
such as NETCONF, and should be recorded in the configuration of
the local device so operators are aware of the full policy
implemented in the network from the running configuration.
3. BGP Use Case Requirements
This is a summary of the requirements listed in
[I-D.keyupate-i2rs-bgp-usecases] are:
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o BGP-REQ01: I2RS client/agent exchange SHOULD support the read,
write and quick notification of status of the BGP peer operational
state on each router within a given Autonomous System (AS). This
operational status includes the quick notification of protocol
events that proceed a destructive tear-down of BGP session
o BGP-REQ02: I2RS client SHOULD be able to push BGP routes with
custom cost communities to specific I2RS agents on BGP routers for
insertion in specific BGP Peer(s) to aid Traffic engineering of
data paths. These routes SHOULD be tracked by the I2RS Agent as
specific BGP routes with customer cost communities. These routes
(will/will not) installed via the RIB-Info.
o BGP-REQ03: I2RS client SHOULD be able to track via read/
notifications all Traffic engineering changes applied via I2RS
agents to BGP route processes in all routers in a network.
o BGP-REQ04: I2RS Agents SHOULD support identification of routers as
BGP ASBRs, PE routers, and IBGP routers.
o BGP-REQ05: I2RS client-agent SHOULD support writing traffic flow
specifications to I2RS Agents that will install them in associated
BGP ASBRs and the PE routers.
o BGP-REQ06: I2RS Client SHOULD be able to track flow specifications
installed within a IBGP Cloud within an AS via reads of BGP Flow
Specification information in I2RS Agent, or via notifications from
I2RS agent
o BGP-REQ07: I2RS client-agent exchange SHOULD support the I2RS
client being able to prioritize and control BGP's announcement of
flow specifications after status information reading BGP ASBR and
PE router's capacity. BGP ASBRs and PE routers functions within a
router MAY forward traffic flow specifications received from EBGP
speakers to I2RS agents, so the I2RS Agent SHOULD be able to send
these flow specifications from EBGP sources to a client in
response to a read or notification.
o BGP-REQ08: I2RS Client SHOULD be able to read BGP route filter
information from I2RS Agents associated with legacy BGP routers,
and write filter information via the I2RS agent to be installed in
BGP RR. The I2RS Agent SHOULD be able to install these routes in
the BGP RR, and engage a BGP protocol action to push these routers
to ASBR and PE routers.
o BGP-REQ09: I2RS client(s) SHOULD be able to request the I2RS agent
to read BGP routes with all BGP parameters that influence BGP best
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path decision, and write appropriate changes to the BGP Routes to
BGP and to the RIB-Info in order to manipulate BGP routes
o BGP-REQ10: I2RS client SHOULD be able instruct the I2RS agent(s)
to notify the I2RS client when the BGP processes on an associated
routing system observe a route change to a specific set of IP
Prefixes and associated prefixes. Route changes include: 1)
prefixes being announced or withdrawn, 2) prefixes being
suppressed due to flap damping, or 3) prefixes using an alternate
best-path for a given IP Prefix. The I2RS agent should be able to
notify the client via publish or subscribe mechanism.
o BGP-REQ11: I2RS client SHOULD be able to read BGP route
information from BGP routers on routes in received but rejected
from ADJ-RIB-IN due to policy, on routes installed in ADJ-RIB-IN,
but not selected as best path, and on route not sent to IBGP peers
(due to non-selection).
o BGP-REQ12: I2RS client SHOULD be able to request the I2RS agent to
read installed BGP Policies.
o BGP-REQ13: I2RS client SHOULD be able to instruct the I2RS Agent
to write BGP Policies into the running BGP protocols and into the
BGP configurations.
o BGP-REQ14: I2RS client-agent SHOULD be able to read BGP statistics
associated with Peer, and to receive notifications when certain
statistics have exceeded limits. An example of one of these
protocol statistics is the max-prefix limit.
o BGP-REQ15: The I2RS client via the I2RS agent MUST have the
ability to read the loc-RIB-In BGP table that gets all the routes
that the CE has provided to a PE router.
o BGP-REQ16: The I2RS client via the I2RS agent MUST have the
ability to install destination based routes in the local RIB of
the PE devices. This must include the ability to supply the
destination prefix (NLRI), a table identifier, a route preference,
a route metric, a next-hop tunnel through which traffic would be
carried
o BGP-REQ17: The I2RS client via the I2RS agent SHOULD have the the
ability to read the loc-RIB-in BGP table to discover overlapping
routes, and determine which may be safely marked for removal.
o BGP-REQ18: The I2RS client via the I2RS Agent SHOULD have the
ability to modify filtering rules and initiate a re-computation of
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the local BGP table through those policies to cause specific
routes to be marked for removal at the outbound eBGP edge.
4. IGP Use Cases
This is a summary of the requirements listed in (ietf-draft-wu-ir2s-
igp-usecases-00.txt)
o IGP-REQ-01: I2RS Client/Agent SHOULD Be able to read/write the the
unique IGP identification for router within an AS (router-id,
system-id, or others). I2RS agents may notify the I2RS client of
the detection of another router with the same unique ID
o IGP-REQ-02: I2RS Client SHOULD BE able to aid in IGP table
reduction by actively monitoring IGP tables, allowing updates of
IGP configuration in order to partition the IGPS and place ABR and
ASBRs. The I2RS Client/Agent exchange must allopw for a rapid
cycle of querying of IGP topology information and downloading of a
new protocol configuration to rapidly switch to new temporary IGP
topologies.
o IGP-REQ-03: I2RS protocol and models should support Loop-Free
Alternative (LFAs) [RFC5286] deployments in in pure IP and MPLS/
LDP networks to provide single-point-failure protection for
unicast traffic. This includes the configuration, monitoring of
LFA changes, and letting off-line pre-computed paths for LFA
backup of all links and prefixes in the network and calculating
the protection coverage and recognizing optimization to be
downloaded to appropriate devices via the I2RS interface (Client-
Agent). Again, it is important to have deployment of changes
followed by real-time feedback.
o IGP-REQ-04: The I2RS programmatic interface SHOULD allow the
balancing of both ECMP traffic flows and end-to-end traffic flows
in the IGP. The I2RS SHOULD support monitoring of the dynamic
traffic flow in the network, and the query of the maximum capacity
of the network. This include the I2RS client's transmission to
the I2RS agent of updated configuration after an off-line
optimization to either spread traffic (across ECMP pathways) or
aggregation of traffic onto a single path so the rest of the
devices may power off saving power (and money.
o IGP-REQ-05: The I2RS interface (protocol and data models) SHOULD
use the subscription mechanism to filter the topology changes to
interested events and use the publish mechanism to control the
pace these events are notified. This filtering should protect the
I2RS Client or even applications who depend on topology data from
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being drowned by massive original events or duplicate events from
different sources
o IGP-REQ-06: Since IGP protocol is essential to the whole network,
the I2RS Clients SHOULD monitor about the protocol's running
status before forwarding is impacted. Performance data can be
collected through collecting static configuration and observing
dynamic status. Static data includes the number of instances,
interfaces, nodes in the network and etc. Dynamic data includes
adjacency status, the number of entries in link-state database and
in the routing table, the calculation status, the overload status,
the graceful switch-over status, and others
o IGP-REQ-07: The I2RS interface (protocol and IMs) should support a
mechanism where the I2RS Clients can subscribe to the I2RS Agent's
notification of critical node IGP events. For example, link-state
database or routing table is under the status of overflow or the
overflow status is released, the calculation continues for a long
time, the system is under graceful reboot.
o IGP-REQ-08: The I2RS interface (protocol and IMs) should support
the reporting of IGP statistic such as dropped packet statistics.
These statistics will aid detection of network failures or
secruity attacks.
5. CCNE Use Cases
The use cases in I2RS Use Cases for Control of the Forwarding Path by
a Central Control Network Element (CCNE)
[I-D.ji-i2rs-usecases-ccne-service] indicate the following
requirements for I2RS:
o CCNE-REQ-01: I2RS interface should support I2RS client running on
a CCNE to be able to pull information from both the BGP RR and the
PCE. This information can include: BGP topology information, BGP
routes, BGP statistics, BGP Peer topologies, PCE topology
information, and PCE state information. The I2RS Client's request
for reading of the RR and PCE topology information needs to have
timely and rapid response from the I2RS Agent.
o CCNE-REQ-02: I2RS client should be able to set resource
constraints at the I2RS Agent, and receive status information on
the setting of resource constraints.
o CCNE-REQ-03: I2RS interface should be able to set service goal
value to CCNE.
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o CCNE-REQ-04: I2RS client should be able support information models
that allow re-optimization traffic model at at CCNE .
o CCNE-REQ-05: I2RS client should be able to receive notification at
the CCNE, and be able to send status to the I2RS agent.
o CCNE-REQ-06: I2RS client should work in parallel with traditional
network management or OAM protocols sent to the general NE.
o CCNE-REQ-07: I2RS clients should be able to to be light weight
enough to be able to support running on a variety of devices
(routers, centralized servers, or devices doing both).
6. Topology Related Use Cases
This section describes Topology or Virtual Topology related
requirements the I2RS interface (protocol and information model (IM)
included in the following types of use cases:
o Virtual Connections on Demand: VCoD-REQ
o Virtual Networks on Demand: VNoD-REQ
o Virtual Topology Information Topo-REQ
o Virtual Topology Data Model: VT-TDM-REQ
o Virtual Topology IP Data Model: VT-TDMIP-REQ
o Virtual Topology Network Element: VT-NE-REQ (TMF-GEN-1)
6.1. Virtual Connection Use Case Requirements
o VCoD-REQ01: I2RS Agents SHOULD provide the ability to read the
virtual network topology database for the technology supported.
For optical, these are the optical connections and what node they
connect to, and the topologies created. For MPLS, this is virtual
circuit available, what nodes they connect to, and the network
topologies created. For IP technologies, this could include the
GRE tunnels, what interface it connects to, and the topologies
created. For Ethernet circuits this should involve circuit type
(e.g, point-to-point (p2p) or point-to-multipoint (p2mp)) and what
nodes it can reach, and the topologies created.
o VCoD-REQ02: I2RS Agent SHOULD provide the ability to influence the
configuration of a virtual circuit in a node.
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o VCoD-REQ03: I2RS Agent SHOULD provide monitor and provide
statistics on the virtual connection to the I2RS client via a Read
request or status Notification. The I2RS client can then
determine if the connection falls below a quality level the
application has requested. If the I2RS client does determine the
circuit is below the required quality, it could create another
circuit. The I2RS may choose to create the second virtual
circuit, transfer flows, and then break the first circuit.
6.2. Virtual Network Use Case Requirements
The requirements for the Virtual Networks on Demand (VCoD) are:
o VT-VN-REQ01: I2RS Agents SHOULD provide the ability to read the
virtual network topology database for the technology supported to
determine nodes and connections. For optical, these are the
optical connections and what node they connect to, and the
topologies created. For MPLS, this is virtual circuit available,
what nodes they connect to, and the network topologies created.
For IP technologies, this could include the GRE tunnels, what
interface it connects to, and the topologies created. For
Ethernet circuits this should involve circuit type (e.g, point-to-
point (p2p) or point-to-multipoint (p2mp)) and what nodes it can
reach, and the topologies created.
o VNoD-REQ02: I2RS Agent SHOULD provide the ability to influence the
configuration of a virtual circuit in a node.
o VNoD-REQ03: I2RS Agent SHOULD provide monitor and provide
statistics on the virtual connection to the I2RS client via a Read
request or status Notification. The I2RS client can then
determine if the connection falls below a quality level the
application has requested. If the I2RS client does determine the
circuit is below the required quality, it could create another
circuit. The I2RS may choose to create the second virtual
circuit, transfer flows, and then break the first circuit.
o VNoD-REQ04: I2RS Agent SHOULD provide the ability to influence the
configuration of a virtual network in a node.
o VNoD-REQ05: I2RS Agent SHOULD provide the ability to report
statistics on the network nodes and end-to-end traffic flows via
read of status data or via notifications of status.
o VNoD-REQ06: The I2RS protocol and RIB Informational Model (IM)
must support logical tunnels of type MPLS as well as IP, GRE,
VxLAN and GRE. Large Carrier networks utilize MPLS in a variety
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of forms (LDP, static MPLS TE, or dynamic TE LSPS created by RSVP-
TE or CR-LDP).
o VNoD-REQ07: I2RS SHOULD support Informational Models and featurs
to allow MPLS technologies to create Hub-spoke topology and
service routing in networks in Carriers, Enterprise, and Data
Centers.
o VNoD-REQ08: I2RS protocols, Information Models, and Data Models
must be able to support Carriers using these MPLS technologies to
support networks for Mobile BackHaul, on-demand MPLS overlays, and
on-demand video conferencing networkings.
6.3. Topology Use Case
The requirements in [I-D.amante-i2rs-topology-use-cases] topology use
cases focus around the architecture of topology manager,
orchestration manager, and policy in the figure below:
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+---------------+
+----------------+ |
| Applications |-+
+----------------+
^ Websockets, ReST, XMPP...
+------------------------+-------------------------+
| | |
+------------+ +------------------------+ +-------------+
| Policy |<----| Topology Manager |---->|Orchestration|
| Manager | | +--------------------+ | | Manager |
+------------+ | |Topology Information| | +-------------+
| | Model | |
| +--------------------+ |
+------------------------+
^ ^ ^
Websockets, ReST, XMPP # | * Websockets, ReST, XMPP
####################### | ************************
# | *
+------------+ | +------------+
| Statistics | | | Inventory |
| Collection | | | Collection |
+------------+ | +------------+
^ | I2RS, NETCONF, SNMP, ^
| | TL1 ... |
+------------------------+------------------------+
| | |
+---------------+ +---------------+ +---------------+
|Network Element| |Network Element| |Network Element|
| +-----------+ | | +-----------+ | | +-----------+ |
| |Information| |<-LLDP->| |Information| |<-LMP-->| |Information| |
| | Model | | | | Model | | | | Model | |
| +-----------+ | | +-----------+ | | +-----------+ |
+---------------+ +---------------+ +---------------+
o Topo-REQ:01 The Topology Manager Should be able to collect
topological information via the I2RS Client-Exchange exchange from
a variety of sources in a normalized topological model. These
sources can be:
* Live Layer IGP IGPs with information about the active topology
such as the LSDB database or IGP updates,
* The I2RS must enable the inventory system information to query
for information about network components which are not not
visible to active L3. These systems can be active or simply
invisible to the L3. Examples of this are L2 Ethernet switches
or ROADMS.
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* Statistic Collection systems that provide traffic information,
such as traffic demands or link utilizations.
(from section 3.2)
o Topo-REQ-02: Topology information is provided from Clients to
high-layer applications via a northbound interface (such as ReST,
Websockts, or XMPP.
o Topo-REQ-03: Topology Manager should be able to collect and keep
current topology information for multiple layers of the network:
Transport, Ethernet and IP/MPLS, as well as information for
multiple Layer 3 IGP areas and multiple Autonomous Systems (ASes).
This information must contain cross-layer unerlying Shared Risk
Link Groups (SRLG) within transport or Ethernet layers. (from
section 3.2)
o Topo-REQ-04: Topology manager be able to use I2RS Client-Agent
protocol to to collect dynamic inventory information from network
elements. An example of these protocols are the Link Layer
discovery protocols (LLDP, LMP, etc.) which automatically identify
remote nodes and ports. (from section 3.2)
o Topo-REQ-05:I2RS Should enable the Policy manager to query and
store the following types of policies:
* Policies that contain Logical identifier Numbering in order to
correlate IP Prefixes to
+ link based on link type (P-P, P-PE, or PE-CE),
+ IGP Area
+ L2 VLAN assignments
* Routing Configuration policies that correlate:
+ OSPF area/ISIS Net-ID to Node (type)
+ BGP node related policies (aggregation routes at node, max-
prefix (per node), or AFI/SAFI per node
+ Security policies - with ACLs or rate-limits
+ Network Component access policies (for management
(from section 3.3)
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o Topo-REQ-06: I2RS should enable a orchestration manager attached
to an I2RS client to communicate with I2RS agents into order to
stitch together End-to-end services for network bandwidth
optimization, load balancing, and Class-of-Service with point
services (Firewall or NAT) within the end-to-end service). The
orchestration manager should also be able to immediately schedule
any of these resources via the I2RS-Client I2RS agent exchange.
(from section 3.4)
o Topp-REQ-07: The I2RS exchange should enable a statistics
collector to collect statistics from the routing function of the
network nodes and archive and aggregate the statistics into a
statistics warehouse. Statistics must be given and stored in an
normalized form. Metadata must be stored with the statistics.
(from section 4.1.1.2) (Editor: there is some suggestion of
periodic reports)
o Topo-REQ-08: I2RS Client-I2RS agent exchange must be provide
enough interoperability that the Topology manager, Policy manager,
and inventory systems can be available from different vendors
o Topo-REQ-09: TE tunnels must be able to be created by the exchange
between the I2RS client and the I2RS agent. (from section 4.1.1)
o Topo-Req-10: I2RS must provide a common and up-to-date normalized
view of the topologies that that support security auditing, and
IP/MPLS Provisioning (L2/L3) which includes:
* Identifying Service PE's in all markets/cities where the
customer has identified they want service,
* Identifying one or more existing Servies PE's in each city with
connectivity to the access network(s) ( e.g.: SONET/TDM) used
to deliver the PE-CE tail circuits to the Service's PE),
* Obtain via query/notification the available capacity on
Services PE in both the PE-CE access interface and its uplinks
to terminate the tail circuit
* Providing the context in I2RS for an iterative query mechanism
needed by I2RS client attached to the the Topology to narrow
down the scope of resources to the set of Services PEs with the
appropriate uplink bandwidth and access circuit capability plus
capacity to realize the requested VPN service.
(from section 4.1.2)
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o Topo-REQ-11: The VPN application attached to the I2RS client
should be able to hand the I2RS Client a candidate list of Service
PE's and associated access circuits to set up a Customer's VPN
service into the network. (from section 4.1.3) [Editor's note
This request shares requirements with VCoD-REQ-01.]
o Topo-REQ-12: The Topology Manager associated with the I2RS client
must be able to use the normalized view of the network to set up
additional queries (or notification publications) to provide an
accurate and comprehensive picture in order a) diagnose faults/
failures, and b) augment the network with additional services, and
c) provide network topology maps for different purposes. (from
section 4.1.3)
o Topo-REQ-13:The I2RS client-agent exchange and informational
models should support a Virtual Network Topology (VNT) comprise of
one or more LSPS and lower layer resources. The VNT of MPLS must
be able to link lower layer resources with the higher layer, and
present a normalize form the the PCE as defined [RFC5623].
o Topo-REQ-14: The I2RS client-agent protocol and models should
support the use of a PCE to compute MPLS-TE paths within an
"domain" (IGP area), or across multiple "domains" (multi-area AS,
multiple ASes") as specified in [RFC4655]. This means the PCE
Informational model should support:
* enhanced computation in the single IGP domain
* cross-AS path computation based on the multiple entrance of
exit points from an AS,
* linking multiple PEs in multiple domains together, and
* synchronization of TED associated with the PCE to the topology
manager (via I2RS client/messages), and
* sending read/writes to the head-end-nodes
(section 4.3)
o Topo-REQ-15: the I2RS protocol and Information models should
support the ALTO ([RFC5693]) generation of abstract network
topology models and the APIs it support over web-service API. The
ALTO abstract network topology comes in two forms: Network Map
(based prefix-to PID mapping), and Cost map. The ALTO map is
automatically generated from BGP and IGP data which the ALTO
server queries from the network and makes available to
applications via web-service API. (from section 4.4)
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6.4. Virtual Topology Data Model
The [I-D.medved-i2rs-topology-requirements] specifies the following
Topology Data Model requirements:
VT-TDM-REQ1: The topology data model MAY be able to describe
topology and characteristics of the following layers:
* Optical DWDM (optional),
* Optical OTN (optional),
* L2 (Aggregated links, L2 topologies),
* IP/MPLS,
* VPNs, and
* Services (such as cloud services, or CDNs).
VT-TDM-REQ2: The topology data model MUST support multiple
Autonomous System deployments.
VT-TDM-REQ3: The I2RS topology data model must support include
topology information from multiple Administrative Domains or
multiple elements into a single common format.
VT-TDM-REQ4: The I2RS topology data model MUST be able to convey
enough information so that an I2RS client can correlate topologies
in different layers and multiple Autonomous Systems.
VT-TDM-REQ5: The topology data model MUST support multi-layer
group of elements as a means of coalescing different SFF Nodes and
links into a network layers from various layers. For example,
links with IPv4 addresses might represent Layer 3 of the network
topology while links with Ethernet MAC addresses might represent
Layer 2.
VT-TDM-REQ6: The topology model should allow association between
components of different layers. For example, Layer 2 port may
have several IPv4/IPv6 interfaces. The Layer-2 port and the IPv4/
IPv6 interfaces would have an association.
VT-TDM-REQ7: The topology model MUST represent both inactive and
active topologies in the topology Data base. Inactive topologies
may include new line cards, ports in down state, etc.
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VT-TMF-DM-REQ8: The topology data model MUST be hierarchical and
MUST support summarization of sub-topologies. Topology
summarization and creation of abstract topologies can be provided
by either by the application associated with the I2RS client, or
by the I2RS Agent prior to transmission to the I2RS client.
VT-TDM-REQ9: The topology data model MUST be able to describe
abstract topologies. Abstract topologies can contain real and
abstract nodes and real and abstract links. An abstract topology
MAY be used by a provider to describe characteristics of a transit
network (bandwidth, delay, protection, etc.)
VT-TDM-REQ10: The topology data model MUST support dynamic data,
such as link and node utilizations (perhaps as optional
attributes).
VT-TDM-REQ11a: The topology data model MUST allow I2RS client-
agent to be able to identify and query for the path between two
nodes.
VT-TDM-REQ11b: The topology data model should support the I2RS
Client requesting the I2RS Agent to trace the path at all network
layers that participate in the delivery of packets between two
nodes. This trace MAY involve either an I2RS Agent information
trace or the I2RS Agent requesting the routing function trace the
path at multiple levels (L3/L2.5/L2/L1)
VT-TDM-REQ12: The topology data model MUST support multiple BGP
Autonomous Systems and multiple IGP areas. Support for multiple
administrative domains is for further study.
VT-TDM-REQ13: The topology data model MUST be human-friendly, i.e.
not SNMP MIBs, but something much more analogous to YANG models.
VT-TDM-REQ14: The data model SHOULD support topology abstraction,
allowing clients that consume topology information in a
constrained manner. For example, a client wishing to view only
interfaces and nodes present in a sub-graph of the Layer 3
topology should be able to specify an interest in this subset of
information rather than having to read out and parse through the
entire set of links and nodes.
6.5. Virtual Topology IP Data Model
The [I-D.medved-i2rs-topology-requirements] specifies the following
requirements for the Virtual Topology IP Data Model's IP/MPLS links
and topologies:
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o VT-TDM-IP-REQ1: The I2RS topology data model for the IP/MPLS layer
MUST support both link topology and prefixes,
o VT-TDM-IP-REQ2: The I2RS agent may import topology information
from the routing processes, IGP process, BGP-LS information, or
management processes.
o TM-DM-IP-REQ3: The I2RS SFC Data model must support links that are
IP/MPLS with the following attributes:
* local and Remote anchor node IDs (Router ID, AS#, Area ID, MT
topology),
* metrics,
* admin group,
* max bandwidth links
* unreserved/utilized bandwidth
* link-protection type
* MPLS protocol mask
* link prefix
* link characteristics (BW, Delay, error rate)
* Link Description, and
* Link-specific timers (Hello and Holddown).
6.6. Virtual Topology Network Element
The [I-D.medved-i2rs-topology-requirements] specifies the following
requirements:
o VT-NE-01: Each network element should contain an inventory data
base which should be a definitive source of information with
respect to the physical HW and Logical, logically significant
identifiers (E.g. VLANs). The I2RS client should be able to
import data from this DB into the I2RS Node IM or SFC IM.
o VT-NE-02: The inventory DB of the network element should be
augmented with the physical properties associated with the ports/
interfaces that are directly connected to the device (BW, media
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type). The I2RS client should be able to import data from this
augmented DB into the I2RS Node IM or SFC IM.
o NE-3: The I2RS client may write information into the NE inventory
data base via the Network-element Data Model that the network
element may not be able to learn on its own. This information may
include the physical location (address), rack/bay information.
7. Requirements from SFC Use Cases
The SFC use case document in [I-D.bitar-i2rs-service-chaining]
suggests that the following requirements:
SFC-Use-REQ01:Address
has the following address requirements:
* IP address
* service-node tuple (service node IP address, Host system
address)
* host-node tuple (hosting system IP-address, system internal
identifier)
SFC-Use-REQ02:Supported Service Types
SHOULD include: NAT, IP Firewall, Load balancer, DPI, and others
SFC-Use-REQ03:Virtual contexts
SHOULD include:
* Maximum Number of virtual contexts supported
* Current number of virtual contexts in use
* Number of virtual contexts available
* Supported Context (VRF)
SFC-Use-REQ04: Customers currently on node
SFC-Use-REQ05: Customer Support Table (per customer ID)
* Customer-id
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* List of supported Virtual Contexts
[SFC-Use-REQ06] Service Resource table
which includes:
* index: Comprised of service node, virtual context, service type
* service bandwidth capacity
* supported packet rate (packets/second)
* supported bandwidth (kps)
* IP Forwarding support: specified as routing-instance(s), RIBs,
Address-families supported
* Maximum RIB-size
* Maximum Forward Data Base size
* Maximum Number of 64 bit statistics counters for policy
accounting
* Maximum number of supported flows for services
[SFC-Use-REQ07] Virtual Network Topology (VNT)
which includes:
* number of access points to which service topology applies
* topology of access points
8. Requirements from Traffic Steering Use Cases
The requirements from the Traffic Steering use case described in
[I-D.chen-i2rs-ts-use-case] are:
o TS-REQ01: The I2RS Client-Agent must be able to collect the
topology (especially the exit links) and the traffic load of each
link;
o TS-REQ02: The I2RS Client-Agent must be able to read the local rib
of each DC/Metro gateway and the policies deployed on each
gateway;
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o TS-REQ03: The I2RS Client-Agent must be able to add or delete or
modify the relevant rib items and relevant polices to steer the
traffic as expected; and adjust traffic placement.
o TS-REQ-04: The I2RS Client-Agent must have the ability to collect
the LSP information either from the PCE or directly from network
devices;
o TS-REQ-05: The I2RS Client-Agent must have the ability to collect
the traffic matrix of the network, this is used to help the I2RS
client to determine how to adjust the traffic placement;
o TS-REQ-06: The I2RS Client-Agent must have the ability to read the
rib information and relevant policies of each network node;
o TS-REQ-07:collect the topology and segment information needed to
help the I2RS client to compute the end-to-end path;
o TS-REQ-08:read rib (especially the segment routing rib)
information;
o TS-REQ-09: add/delete/modify the segment rib, this finally
determines how the traffic is forwarded.
9. Requirements from MPLS TE Networks Use Cases
Theses are the requirements from the Traffic Steering use case
described in [I-D.huang-i2rs-mpls-te-usecases]:
o MPLS-TE-REQ-01: Network programming software managing the static
CR-LSP devices may incorporate an I2RS Client along with a path
calculation entity, a label management entity, and a bandwidth
management entity. The I2RS Client should be abl to communicate
the static configuration to the network nodes, and monitor the
status of the CR-LSPs.
o MPLS-TE-REQ-02: The I2Client should be able to synchronously send
the configuration for all of the network nodes from egress node to
ingress node via the I2RS Agents attached to each node, and be
able to delay the final ingress node configuration until all the
I2RS AGents on all other nodes toward the egress have denoted a
successful path set-up.
o [MPLS-TE-REQ-03:] MPLS TE defines abundant constraints such as
explicit path, bandwidth, affinity, SRLG, priority, hop limit, and
others. The I2RS Client Agent exchange should be able to signal
concurrent local path calculation could obtain an optimized result
and allow more services to be held in a TE network. The I2RS
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Agent should be able to trigger a global concurrent re-
optimization at a specific time on multiple nodes by communicating
with each node's I2RS agent.
o [MPLS-TE-REQ-04:] The I2RS client should be able to manually
calculate a re-optimization of the the MPLS TE network and send
the new constraints including the calculated path to each node via
the I2RS agent with an indication to re-signal the TE LSPs with
make-before-break method.
o [MPLS-TE-REQ-05] With I2RS, the node's I2RS agent should be able
to send to an I2RS client a status notification that not enough
resources exist for a back up LSP and TE tunnel. Upon receiving
this notification the I2RS client should be able to trigger
concurrent calculation for the failed path calculation of the
backup LSP or TE tunnel and send the updated paths to I2RS agents
with a command to re-signal the TE LSPS with make-before-break
Method.
o [MPLS-TE-REQ-06] With I2RS, upon receipt the failure notification
from an I2RS Agent, the I2RS client would create a global
concurrent optimization to handle the failure event. This would
occur by the I2RS client signalling the I2RS agents on all nodes
to: a) trigger a new concurrent calculation of the backup LSP or
TE tunnel via failed path calculation, and b) re-signal updates to
the TE LSPs process with a make-before-break method.
o [MPLS-TE-REQ-07] Upon receiving a signal an upgrade event signal
(from operator), the I2RS client could calculate another path for
the affected TE tunnels to deviate traffic away from the resource
being upgraded, and then send the request to I2RS agents on the
appropriate nodes to move the traffic. After the upgrade
completes, the I2RS client can simply remove I2RS configurations
causing the traffic to revert to the original path. Or, the I2RS
can re-optimize the TE tunnels for another pathways (E.g. as a
part of a sequence of upgrades).
o [MPLS-TE-REQ-08] I2RS agents can notify I2RS Clients of impending
or existing MPLS TE overload conditions that might cause TE LSP
rejections. This overload conditions include: due to CPU, memory,
LSP label space, or LSP numbers.
o [MPLS-TE-09] Automatic bandwidth adjustment applications can also
be linked to the I2RS clients need to monitor the traffic on TE
tunnels in order to provide traffic analysis. The I2RS client
should be able to read the TE Tunnel topology and the bandwidth
analysis in order to automatically calculate a new path for the TE
tunnel if it is needed. The I2RS Client also needs to be able to
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the I2RS agents in the nodes to install the new TE Tunnels with
the make-before-break option.
o [MPLS-TE-REQ-10] With I2RS, the node failure or link failure can
be part of the notification stream sent by an I2RS Agent to an
I2RS Client on a centralized server gathering information.
o [MPLS-TE-REQ-11] The I2RS client can notify the I2RS agents on
specific nodes (or devices) to re-signal TE LSPs one by one if
there is a resource dependency. [MPLS-TE-REQ-12] The I2RS Client
can gather the TE LSPs' state from I2RS Agents on all nodes in
order to coordinate such handling of LSP resources.
o [MPLS-TE-REQ-13] The I2RS Clients collecting information from I2RS
Agents can be arranged in a hierarchy to provide scaling of
collections. An application hosting an I2RS client collecting
information from I2RS Agents on nodes can have an I2RS Agent that
reports combined information to a single location.
10. Requirements from MPLS LDP Networks Use Cases
These are the I2RS requirements for the MPLS LDP use case described
in [I-D.chen-i2rs-mpls-ldp-usecases]:
o [MPLS-LDP-REQ-01]: The I2RS Client-agent exchange should allow the
distribution of the configuration for PWE3, MPLS LDP and
associated protocols to be distributed from a central location
where the global PWE3 provisioning information could be stored.
The I2RS Client-Agent exchange should also be able to push the
configuration of the local LDP LSR ID and peer addresses to set up
the targeted session to the pseudowire endpoints.
o [MPLS-LDP-REQ-02] When an the end-user wants to disable IPoMPLS
(IP over MPLS) application on a L2VPN/PW Targeted LDP session, the
I2RS Client-I2RS agent should be able to set type of application
over the established LDP session. In this way LDP speaker can
only advertise to its peer the application data which the user is
interested in.
o [MPLS-LDP-REQ-03] The I2RS Agent notifications should allow an
I2RS client to subscribe to a stream of state changes regarding
the LDP sessions or LDP LSPs from the I2RS Agent. Specifically it
is important that LDP session is tract for sessions state coming
up or going down. The I2RS Client-I2RS Agent exchange should
allow additional queries to the AGent to determine a) why the
service is invalid, b) calculating whether an alternate path
should be switched to, and c) determining how to switch to other
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links or nodes in order to recover from the link failure or node
failure.
o [MPLS-LDP-REQ04] The I2RS interface provides way to monitor and
control the limited resources on these access devices. The I2RS
client should be able to instruct the I2RS agent in each of these
devices to set the maximum number of LDP LSPs in each device prior
to enabling LDP on the devices. The I2RS client should also be
able to enable a notification service on each device with a with a
warning threshold. Once the number of LDP LSPs reaches the
threshold, the I2RS agent will send a notification message to the
I2RS client. Often the I2RS client will be associated a network
management agent that can determine what next steps need to be
done based on policy or operator input.
11. Requirements from Mobile Backhaul Ues Cases
Mobile BackHaul Use cases described in [draft-ietf-zhang-mbb-
usecases-01] are:
o MBH-REQ-01: The I2RS client-agent communication can distribute
position-critical changes to IGP nodes using this global knowledge
to quicken changes to support traffic during failures or traffic
overloads. To enable this feature, the I2RS Clients-Agent
communication needs to pass information on which IGP process or
Level or Area the given node and links belong to.
o MBH-REQ-02: I2RS must allow operators to use of I2RS clients to
distribute time-critical changes in configuration to I2RS agents
associated with each routing node. This feature will simplify and
automate configuration and monitoring of a mobile backhaul network
to allow it to readily adapt to changing network sizes (and
scales) and radio applications.
o MBB-REQ-03: I2RS Clients-Agent communication needs to pass
information on:
* T-LDP configurations and status;
* BGP peer configurations, peer topologies and status;
* BGP-based LSP topologies and status;
* Reset VPN topologies, and per node configurations;
o MBB-REQ04: Route policy enforcement in mobile backhaul networks
needs to be more dynamic and flexible than the current methods
take hours (or even days) to configure route policy across a
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network. The I2RS interface must provide a programmatic way to
configure (both policy and device) and monitor thousands of
devices individually whose configuration is based on the devices
role (such as ASRSs in one AS, ASBRs between ASs and other
service-touch nodes).
o MBB-REQ-05: I2RS clients should be able to contact I2RS agents on
nodes to query role-based information from the network status.
After collecting the status, the I2RS client can develop the BGP
policies based on role information and push the BGP policies to
the I2RS agents that would load the alternate policies into the
network device. The I2RS Agents loading the alternate policies
could then send status back to the I2RS Client.
o MBH-REQ06: I2RS clients can provide centralized control of many
network devices via the I2RS Client-Agent communication. The I2RS
programmatic interface can automate the collection and analysis of
each device's capability so that the centralized I2RS client could
calculate the optimal LSP path and distribute the configuration to
individual devices. Automation of the collection of device
capability should be available as query, notification, or a
published stream.
o MBH-REQ07: While the I2RS RIB Information Model
[[I-D.ietf-i2rs-rib-info-model]] provides for routes with tunnels
or MPLS LSP, the features defined in this model are not sufficient
to configure both types of LSPs needed for the VPN technology in
mobile backhaul networks. Additional I2RS Informational models
need to be created to support these features.
o MBH-REQ08: The hierarchical protection architecture in mobile
backhaul network offer high network reliability and more
flexibility to meet the various needs of the tunnels and services.
The I2RS interface in this use case is needed to automate the
configuration and monitoring so that tunnel protection and service
protection interwork in a flexible and reliable manner.
o MBB-REQ09: The I2RS architecture (client-agent) should allow the
two features for network monitoring naturally in its basic modes:
* allow a combination of multi-layer network monitor tools with
exact detection parameters to be configured on the network
device
* Facilitate the reporting the detection result as notification
or publication stream
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It is important the result of these features allow the outages and
traffic congestion or discards to be detected real-time with I2RS
Client(s) in each node, and the detection result will be reported
to the I2RS agents to get the exact status of the network.
12. Requirements from :arge Data Flows are
Each of these requirements has been given an an ID number of L-Flow-
nn for ease of reference.
The requirements from the Large Data Flows use case described in
[I-D.krishnan-i2rs-large-flow-use-case] are:
L-Flow-REQ-01: For redirecting large flows to a specific
component, a PBR entry should be programmable for the flow with
its nexthop that identifies the specific LAG or ECMP component.
L-Flow-REQ-02: For adjusting the weights used to distribute
traffic across components of the LAG or ECMP, I2RS should provide
a programmable mechanism should be provided that identifies ECMP
entries and is able to associate weights that can be programmed
for each of the components. To do this in a scalable fashion, it
would be useful to have the notion of an ECMP nexthop that is used
by multiple routes
L-Flow-REQ-03: The I2RS interface (protocol/IMs) should allow for
a globally optimal path is programmed in the IP network using hop-
by-hop PBR rules. These PBR rules may include:
* Being able to adjust the weights of the ECMP table for
different nexthops should be adjusted to factor the large flows
* Being able to address an ECMP group, so that all routes sharing
an ECMP group are addressed together.
* the ability to program PBR entries at the edge LSR, and
* the ability to program new LSPs in the network.
L-Flow-REQ-04: The I2RS protocol should be able to invoke the link
aggregation IEEE 802.1AX Marker Protocol via the I2RS protocol.
This is useful during a period of rebalancing occurs before flows
are moved.
L-Flow-REQ-05: The I2rs protocol should allow Quality of Service
(QoS) actions such as rate-limiting, re-marking, or discarding can
be performed on the flows based on configured policies and nexthop
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redirection actions to be programmed, and to be programmed
independently of of each other.
L-Flow-REQ-06: Once a large flow has been detected, I2RS must be
used to modify the forwarding tables in the router to:
* In the case of large flow load balancing, be able to
redirecting the large flow to a particular member with the LAG
or ECMP group and readjusting the weights of the other members
to account for the large flow
* In the case of DDoS mitigation, the action involves rate
limiting, remarking or potentially discarding the large flow in
question.
13. Large Data Collection Systems
The requirements from the Large Data Collection Systems Use cases
described in [draft-swhyte-i2rs-data-collection-system] are:
L-Data-REQ-01: I2rs must be able to collect large data set from
the network with high frequency and resolution with minimal impact
to the device's CPU and memory.
L-Data-REQ-02: I2RS must be able to use a database model where the
data on the network node must be able to be described in the I2RS
exchange as the data plus the structure of the data. The I2RS
management system consumes and understand the data only after it
consumes and understand the database model or has been trained by
vendor published model
L-Data-REQ-03: I2RS should use a pub-sub model which allows
scaling plus push or pull of data.
L-Data-REQ-04: I2RS should support capability negotiation to
inform a subscriber of the options for publication of data. The
options include transport, security, and error handling.
L-Data-REQ-05: The I2RS data tansfer should be format agnostic.
This means the publisher and subscriber may agree upon XML, JSON,
MTL, protobufs or any other format.
L-Data-REQ-06: I2RS Transports must be able to be chosen by a I2RS
Client-I2RS Agent pair. An I2RS Client-I2RS Agent pair should be
allowed to negotiate the transport options from a list of options.
L-DATA-REQ-07: The I2RS interface (protocol and IMs) should allow
a subscribe to select portions of the data model.
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L-Data-REQ-08: The I2RS interface (protocol and IMs) should allow
for multiple publish subscriptions at a time.
L-Data-REQ-09: Timestaps should be associated with data that
requires it. Not all data will require a time stamp. Additional
time stamps may be added.
L-Data-REQ-10: The I2RS should support the query and
"introspection" of the data model. The Introspections provides
support for data verification, easier inclusion in legacy data,
and easier merging with data streams.
L-Data-REQ-11: After the I2rs Client-Agent have exchanged
capabilities, a database model, and filters used to select
elements of the model to subscribe to, the framework should
support a standard way to register for all the data desired, using
whatever capabilities were advertised by the node. Once
registration is complete, the control channel can be closed.
Ensuring subscriptions are correct, complete, and replicated or
not, is up to the overall system and not the agent on the network
node.
L-Data-REQ-12: The I2RS interface should support user
subscriptions to data with the following parameters:
* push of data synchronously or asynchronously via registered
subscriptions
* pull data off in a one-shot pull or in multiple sequences
* provide dynamic subscriptions that can be setup via IPFIX feed
* support of subscriber and consumer I2RS Client-agent pairs
* allow remapping of a node's databases
L-Data-REQ-13: The I2RS interface must handle and report errors
that occur with data subscription, stale data, repeated transport
failures, and other (yet unknown) errors
14. CDNI
The requirements from the Large Data Collection Systems Use cases
described in [I-D.shin-i2rs-usecases-cdni-request-routing] are:
o CDNI-REQ-01: The I2RS interface should support two CDNI
functionalities [I-D.ietf-cdni-framework]:
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* Request Routing Interface - Footprint and Capabilities
Advertisement; the asynchronous advertisement of footprint and
capabilities by a dCDN that allows a uCDN to decide whether to
redirect particular user requests to that dCDN via the ALTO
protocol; and
* Request Routing Interface - Redirection; the synchronous
operation of actually redirecting a user request via I2RS
manipulation of the routing plane.
o CDNI-REQ-02: The I2RS (Protocol and IM) should provide facilities
to enable the query/response of information from an ALTO services
in a node routing functions so that the upstream CDN provider can
select a proper downstream CDN provider for a given end user
request.
o CDNI-REQ-03: I2RS (protocol and IM) should provide facilties to
enable I2RS can help the upstream CDN provider to redirect a
content request message to a downstream CDN provider for a given
end user request as with the following features:
* The uCDN relays this message between I2RS Clients and I2RS
agents with content distribution metadata, and queries the dCDN
whether user request message can be delivered. This query can
have multiple dDCN that the user message can be delivered to.
* the I2RS agent associated with the dCDN delivery requests
indicating which dCDN (if any) the user message can be
delivered to.
* Allow dCDN to be managed to deliver content by having the
messages to signal back to the uCDN the (destination (?)) iP
address for the content, on the dCDN, and the pathway between
the uCDN for surrogate deliver via the dCDN of user data. Part
of this management is the passing of URL of the surrogate in
dCDN (for HTTP Redirection to be transmitting) back from the
dCDN to the uCDN so the uCDN can inform the end user.
15. IANA Considerations
This document makes no request of IANA.
16. Security Considerations
Routing information is very critical and sensitive information for
the operators. I2RS should provide strong security mechanism to
protect the routing information that it could not be accessed by the
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un-authorised users. It should also protect the security and
integrity protection of the routing data.
17. References
17.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC3746] Yang, L., Dantu, R., Anderson, T., and R. Gopal,
"Forwarding and Control Element Separation (ForCES)
Framework", RFC 3746, April 2004.
17.2. Informative References
[I-D.amante-i2rs-topology-use-cases]
Medved, J., Previdi, S., Lopez, V., and S. Amante,
"Topology API Use Cases", draft-amante-i2rs-topology-use-
cases-01 (work in progress), October 2013.
[I-D.bitar-i2rs-service-chaining]
Bitar, N., Heron, G., Fang, L., ramki, r., Leymann, N.,
Shah, H., and W. Haddad, "Interface to the Routing System
(I2RS) for Service Chaining: Use Cases and Requirements",
draft-bitar-i2rs-service-chaining-01 (work in progress),
February 2014.
[I-D.chen-i2rs-mpls-ldp-usecases]
Chen, X. and Z. Li, "Use Cases for an Interface to LDP
Protocol", draft-chen-i2rs-mpls-ldp-usecases-00 (work in
progress), October 2013.
[I-D.chen-i2rs-ts-use-case]
Chen, M. and S. Hares, "I2RS Traffic Steering Use Case",
draft-chen-i2rs-ts-use-case-00 (work in progress),
February 2014.
[I-D.hares-i2rs-use-case-vn-vc]
Hares, S. and M. Chen, "Use Cases for Virtual Connections
on Demand (VCoD) and Virtual Network on Demand (VNoD)
using Interface to Routing System", draft-hares-i2rs-use-
case-vn-vc-02 (work in progress), February 2014.
[I-D.huang-i2rs-mpls-te-usecases]
Huang, T., Li, Z., and S. Hares, "Use Cases for an
Interface to MPLS TE", draft-huang-i2rs-mpls-te-
usecases-01 (work in progress), February 2014.
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[I-D.ietf-i2rs-architecture]
Atlas, A., Halpern, J., Hares, S., Ward, D., and T.
Nadeau, "An Architecture for the Interface to the Routing
System", draft-ietf-i2rs-architecture-04 (work in
progress), June 2014.
[I-D.ietf-i2rs-problem-statement]
Atlas, A., Nadeau, T., and D. Ward, "Interface to the
Routing System Problem Statement", draft-ietf-i2rs-
problem-statement-04 (work in progress), June 2014.
[I-D.ietf-i2rs-rib-info-model]
Bahadur, N., Folkes, R., Kini, S., and J. Medved, "Routing
Information Base Info Model", draft-ietf-i2rs-rib-info-
model-03 (work in progress), May 2014.
[I-D.ietf-sfc-problem-statement]
Quinn, P. and T. Nadeau, "Service Function Chaining
Problem Statement", draft-ietf-sfc-problem-statement-07
(work in progress), June 2014.
[I-D.ji-i2rs-usecases-ccne-service]
Ji, X., Zhuang, S., Huang, T., and S. Hares, "I2RS Use
Cases for Control of Forwarding Path by Central Control
Network Element (CCNE)", draft-ji-i2rs-usecases-ccne-
service-01 (work in progress), February 2014.
[I-D.keyupate-i2rs-bgp-usecases]
Patel, K., Fernando, R., Gredler, H., Amante, S., White,
R., and S. Hares, "Use Cases for an Interface to BGP
Protocol", draft-keyupate-i2rs-bgp-usecases-03 (work in
progress), June 2014.
[I-D.krishnan-i2rs-large-flow-use-case]
ramki, r., Ghanwani, A., Kini, S., McDysan, D., and D.
Lopez, "Large Flow Use Cases for I2RS PBR and QoS", draft-
krishnan-i2rs-large-flow-use-case-04 (work in progress),
April 2014.
[I-D.lapukhov-bgp-routing-large-dc]
Lapukhov, P., Premji, A., and J. Mitchell, "Use of BGP for
routing in large-scale data centers", draft-lapukhov-bgp-
routing-large-dc-06 (work in progress), August 2013.
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[I-D.medved-i2rs-topology-requirements]
Medved, J., Previdi, S., Gredler, H., Nadeau, T., and S.
Amante, "Topology API Requirements", draft-medved-i2rs-
topology-requirements-00 (work in progress), February
2013.
[I-D.shin-i2rs-usecases-cdni-request-routing]
Shin, M. and S. Lee, "CDNI Request Routing with I2RS",
draft-shin-i2rs-usecases-cdni-request-routing-00 (work in
progress), July 2014.
[I-D.swhyte-i2rs-data-collection-system]
Whyte, S., Hines, M., and W. Kumari, "Bulk Network Data
Collection System", draft-swhyte-i2rs-data-collection-
system-00 (work in progress), October 2013.
[I-D.white-i2rs-use-case]
White, R., Hares, S., and A. Retana, "Protocol Independent
Use Cases for an Interface to the Routing System", draft-
white-i2rs-use-case-05 (work in progress), June 2014.
[I-D.zhang-i2rs-mbb-usecases]
Zhang, L., Li, Z., Liu, D., and S. Hares, "Use Cases of
I2RS in Mobile Backhaul Network", draft-zhang-i2rs-mbb-
usecases-01 (work in progress), February 2014.
[RFC4655] Farrel, A., Vasseur, J., and J. Ash, "A Path Computation
Element (PCE)-Based Architecture", RFC 4655, August 2006.
[RFC5212] Shiomoto, K., Papadimitriou, D., Le Roux, JL., Vigoureux,
M., and D. Brungard, "Requirements for GMPLS-Based Multi-
Region and Multi-Layer Networks (MRN/MLN)", RFC 5212, July
2008.
[RFC5286] Atlas, A. and A. Zinin, "Basic Specification for IP Fast
Reroute: Loop-Free Alternates", RFC 5286, September 2008.
[RFC5623] Oki, E., Takeda, T., Le Roux, JL., and A. Farrel,
"Framework for PCE-Based Inter-Layer MPLS and GMPLS
Traffic Engineering", RFC 5623, September 2009.
[RFC5693] Seedorf, J. and E. Burger, "Application-Layer Traffic
Optimization (ALTO) Problem Statement", RFC 5693, October
2009.
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Author's Address
Susan Hares
Huawei
Email: shares@ndzh.com
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