Internet Engineering Task Force E. Haleplidis
Internet-Draft University of Patras
Intended status: Informational K. Ogawa
Expires: February 8, 2010 NTT Corporation
X. Wang
Huawei Technologies Co., Ltd.
C. Li
Zhejiang Gongshang University
August 7, 2009
ForCES Interoperability Draft
draft-ietf-forces-interoperability-03
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Abstract
This document describes the details of the interoperability test of
the Forward and Control Element Separation (ForCES) protocol that
took place in the University of Patras in Rio, Greece, 15 and 16 July
2009. This informational draft provided necessary information, for
all parties who wish to participate in the interoperability test.
This update also includes the results of the test.
Table of Contents
1. Terminology and Conventions . . . . . . . . . . . . . . . . . 4
1.1. Requirements Language . . . . . . . . . . . . . . . . . . 4
2. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.1. ForCES Protocol . . . . . . . . . . . . . . . . . . . . . 5
2.2. ForCES Model . . . . . . . . . . . . . . . . . . . . . . . 5
2.3. Transport mapping layer . . . . . . . . . . . . . . . . . 5
3. Definitions . . . . . . . . . . . . . . . . . . . . . . . . . 6
4. Date, Location and Access . . . . . . . . . . . . . . . . . . 9
4.1. Date . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
4.2. Location . . . . . . . . . . . . . . . . . . . . . . . . . 9
4.3. Access . . . . . . . . . . . . . . . . . . . . . . . . . . 9
5. Testbed architecture . . . . . . . . . . . . . . . . . . . . . 10
5.1. Local configuration . . . . . . . . . . . . . . . . . . . 10
5.2. Distributed configuration . . . . . . . . . . . . . . . . 11
6. Scenarios . . . . . . . . . . . . . . . . . . . . . . . . . . 12
6.1. Scenario 1 - Pre-association Setup . . . . . . . . . . . . 12
6.2. Scenario 2 - TML priority channels connection . . . . . . 13
6.3. Scenario 3 - Association Setup - Association Complete . . 13
6.4. Scenario 4 - CE query . . . . . . . . . . . . . . . . . . 13
6.5. Scenario 5 - Heartbeat monitoring . . . . . . . . . . . . 14
6.6. Scenario 6 - Simple Config Command . . . . . . . . . . . . 14
6.7. Scenario 7 - Association Teardown . . . . . . . . . . . . 14
7. Tested Features . . . . . . . . . . . . . . . . . . . . . . . 16
7.1. ForCES Protocol Features . . . . . . . . . . . . . . . . . 16
7.1.1. Protocol Messages . . . . . . . . . . . . . . . . . . 16
7.1.2. MainHeader Handling . . . . . . . . . . . . . . . . . 17
7.1.3. TLV Handling . . . . . . . . . . . . . . . . . . . . . 17
7.1.4. Operation Types Supported . . . . . . . . . . . . . . 18
7.2. ForCES Model Features . . . . . . . . . . . . . . . . . . 18
7.2.1. Basic Atomic Types Supported . . . . . . . . . . . . . 18
7.2.2. Compound Types Supported . . . . . . . . . . . . . . . 18
7.2.3. LFBs Supported . . . . . . . . . . . . . . . . . . . . 19
7.2.3.1. FE Protocol LFB . . . . . . . . . . . . . . . . . 19
7.2.3.2. FE Object LFB . . . . . . . . . . . . . . . . . . 19
7.3. ForCES SCTP-TML Features . . . . . . . . . . . . . . . . . 20
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7.3.1. TML Priority Ports . . . . . . . . . . . . . . . . . . 20
7.3.2. Message Handling at specific priorities . . . . . . . 20
8. Test details . . . . . . . . . . . . . . . . . . . . . . . . . 22
9. Results . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
10. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 29
11. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 30
12. Security Considerations . . . . . . . . . . . . . . . . . . . 31
13. References . . . . . . . . . . . . . . . . . . . . . . . . . . 32
13.1. Normative References . . . . . . . . . . . . . . . . . . . 32
13.2. Informative References . . . . . . . . . . . . . . . . . . 32
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 34
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1. Terminology and Conventions
1.1. Requirements Language
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in [RFC2119].
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2. Introduction
Forwarding and Control Element Separation (ForCES) defines an
architectural framework and associated protocols to standardize
information exchange between the control plane and the forwarding
plane in a ForCES Network Element (ForCES NE). [RFC3654] has defined
the ForCES requirements, and [RFC3746] has defined the ForCES
framework.
2.1. ForCES Protocol
The ForCES protocol works in a master-slave mode in which FEs are
slaves and CEs are masters. The protocol includes commands for
transport of Logical Function Block (LFB) configuration information,
association setup, status, and event notifications, etc. The reader
is encouraged to read FE-protocol [I-D.ietf-forces-protocol] for
further information.
2.2. ForCES Model
The FE-MODEL [I-D.ietf-forces-model] presents a formal way to define
FE Logical Function Blocks (LFBs) using XML. LFB configuration
components, capabilities, and associated events are defined when the
LFB is formally created. The LFBs within the FE are accordingly
controlled in a standardized way by the ForCES protocol.
2.3. Transport mapping layer
The TML transports the PL messages. The TML is where the issues of
how to achieve transport level reliability, congestion control,
multicast, ordering, etc. are handled. It is expected that more than
one TML will be standardized. The various possible TMLs could vary
their implementations based on the capabilities of underlying media
and transport. However, since each TML is standardized,
interoperability is guaranteed as long as both endpoints support the
same TML. All ForCES Protocol Layer implementations MUST be portable
across all TMLs. Although more than one TML may be standardized for
the ForCES Protocol, for the purposes of the interoperability test,
the mandated MUST IMPLEMENT SCTP TML [I-D.ietf-forces-sctptml] will
be used.
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3. Definitions
This document follows the terminology defined by the ForCES
Requirements in [RFC3654] and by the ForCES framework in [RFC3746].
The definitions below are repeated below for clarity.
o Control Element (CE) - A logical entity that implements the ForCES
protocol and uses it to instruct one or more FEs on how to process
packets. CEs handle functionality such as the execution of
control and signaling protocols.
o CE Manager (CEM) - A logical entity responsible for generic CE
management tasks. It is particularly used during the pre-
association phase to determine with which FE(s) a CE should
communicate. This process is called FE discovery and may involve
the CE manager learning the capabilities of available FEs.
o Forwarding Element (FE) - A logical entity that implements the
ForCES protocol. FEs use the underlying hardware to provide per-
packet processing and handling as directed/controlled by one or
more CEs via the ForCES protocol.
o FE Manager (FEM) - A logical entity responsible for generic FE
management tasks. It is used during pre-association phase to
determine with which CE(s) an FE should communicate. This process
is called CE discovery and may involve the FE manager learning the
capabilities of available CEs. An FE manager may use anything
from a static configuration to a pre-association phase protocol
(see below) to determine which CE(s) to use. Being a logical
entity, an FE manager might be physically combined with any of the
other logical entities such as FEs.
o ForCES Network Element (NE) - An entity composed of one or more
CEs and one or more FEs. To entities outside an NE, the NE
represents a single point of management. Similarly, an NE usually
hides its internal organization from external entities.
o LFB (Logical Function Block) - The basic building block that is
operated on by the ForCES protocol. The LFB is a well defined,
logically separable functional block that resides in an FE and is
controlled by the CE via ForCES protocol. The LFB may reside at
the FE's datapath and process packets or may be purely an FE
control or configuration entity that is operated on by the CE.
Note that the LFB is a functionally accurate abstraction of the
FE's processing capabilities, but not a hardware-accurate
representation of the FE implementation.
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o FE Topology - A representation of how the multiple FEs within a
single NE are interconnected. Sometimes this is called inter-FE
topology, to be distinguished from intra-FE topology (i.e., LFB
topology).
o LFB Class and LFB Instance - LFBs are categorized by LFB Classes.
An LFB Instance represents an LFB Class (or Type) existence.
There may be multiple instances of the same LFB Class (or Type) in
an FE. An LFB Class is represented by an LFB Class ID, and an LFB
Instance is represented by an LFB Instance ID. As a result, an
LFB Class ID associated with an LFB Instance ID uniquely specifies
an LFB existence.
o LFB Metadata - Metadata is used to communicate per-packet state
from one LFB to another, but is not sent across the network. The
FE model defines how such metadata is identified, produced and
consumed by the LFBs. It defines the functionality but not how
metadata is encoded within an implementation.
o LFB Component - Operational parameters of the LFBs that must be
visible to the CEs are conceptualized in the FE model as the LFB
components. The LFB components include, for example, flags,
single parameter arguments, complex arguments, and tables that the
CE can read and/or write via the ForCES protocol (see below).
o LFB Topology - Representation of how the LFB instances are
logically interconnected and placed along the datapath within one
FE. Sometimes it is also called intra-FE topology, to be
distinguished from inter-FE topology.
o Pre-association Phase - The period of time during which an FE
Manager and a CE Manager are determining which FE(s) and CE(s)
should be part of the same network element.
o Post-association Phase - The period of time during which an FE
knows which CE is to control it and vice versa. This includes the
time during which the CE and FE are establishing communication
with one another.
o ForCES Protocol - While there may be multiple protocols used
within the overall ForCES architecture, the term "ForCES protocol"
and "protocol" refer to the Fp reference points in the ForCES
Framework in [RFC3746]. This protocol does not apply to CE-to-CE
communication, FE-to-FE communication, or to communication between
FE and CE managers. Basically, the ForCES protocol works in a
master- slave mode in which FEs are slaves and CEs are masters.
This document defines the specifications for this ForCES protocol.
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o ForCES Protocol Transport Mapping Layer (ForCES TML) - A layer in
ForCES protocol architecture that uses the capabilities of
existing transport protocols to specifically address protocol
message transportation issues, such as how the protocol messages
are mapped to different transport media (like TCP, IP, ATM,
Ethernet, etc), and how to achieve and implement reliability,
multicast, ordering, etc. The ForCES TML specifications are
detailed in separate ForCES documents, one for each TML.
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4. Date, Location and Access
4.1. Date
The date that the Interoperability test took place was 15-16/07/2009,
one and a half week before IETF 75, in Stockholm.
4.2. Location
Patras is a major harbor of Greece connecting it with Italy.
The University of Patras is located in Rio, 10km east out of Patras.
The following coordinates mark the Electrical and Computer
Engineering building in the University.
o North: 38o17'15.99"
o East: 21o47'19.28"
4.3. Access
The best way to come to Greece is by plane to the Athens
International Airport.
From there there are three ways to arrive in the University of
Patras.
1. Renting a car and driving to the University. It is a maximum
2:30 hours drive from the aiport.
2. Via coach station. Get from the airport to the coach station via
X93 bus towards the Kifissos Coach Station. At the Coach Station
there are buses to Patras every 30 minutes. The Bus to Patras
may take about 2:30 - 3:00 hours, and the ride of the X93 bus may
take about 30 mins - 1hour depending on the traffic, so it's
about 3:30 - 4:30 hours away with the wait at the Coach Station.
3. Via Train. It is recommended you already have booked your ticket
beforehand as there are not many trains going to Patras, and
mostly are booked in advanced. It is not recommended that you
take the train to Patras, as you have to change at least 2
trains. In order to reach Patras from the Athens International
Airport you need to take the Suburban Rail to Kiato. From Kiato
you can catch a train to Patras. It will take you at least 5
hours to reach Patras.
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5. Testbed architecture
Most FEs and CEs were located locally at the University of Patras
premises. One party participated connecting over the internet.
The test took place between FEs and CEs of different implementors
with different permutations.
All protocol messages of each scenario were monitored using a
protocol network analyzer that tested validity. Two tools were used:
o A modified tcpdump [tcpdump].
o A modified Ethereal [ethereal].
All NE's in all the scenarios were comprised of one CE and one FE
from different implementors.
5.1. Local configuration
Hardware/Software (CEs and FEs) that were located within the
University of Patras premises, were connected together using
switches.
The scenarios were tested with only one CE associated with one or
multiple FEs from different implementors. The CE and the FE(s) were
connected in one LAN as shown in the following figure.
+-----+
| CE1 |
|Impl1|
+-----+
|
|
+------------------------------------+
| LAN |
+------------------------------------+
| | | |
| | ... | |
+-----+ +-----+ +-----+ +--------+
| FE1 | | FE2 | | FEn | |Protocol|
|Impl1| |Impl2| |Impln| |Analyzer|
+-----+ +-----+ +-----+ +--------+
All scenarios were tested more than once with permutation of the CE
from different implementors. In the next permutation, the setup were
as shown in the following figure.
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+-----+
| CE2 |
|Impl2|
+-----+
|
|
+------------------------------------+
| LAN |
+------------------------------------+
| | | |
| | ... | |
+-----+ +-----+ +-----+ +--------+
| FE1 | | FE2 | | FEn | |Protocol|
|Impl1| |Impl2| |Impln| |Analyzer|
+-----+ +-----+ +-----+ +--------+
5.2. Distributed configuration
For parties that cannot participate, public IPs can be provided and
associations can be achieved over the internet as seen in the
following figure.
+-----+ +------------+ /\/\/\/\/\ +----------+ +-----+
|FE/CE| |Implementor | \Internet/ |University| |FE/CE|
|ImplX|---| Router |---/ \---| Router |---|ImplY|
+-----+ +------------+ \/\/\/\/\/ +----------+ +-----+
For interoperability issues, all CEs and FEs MUST implement no
security even in the TML. For security, firewalls MUST be used that
will allow only the specific IPs and the SCTP ports defined in the
SCTP-TML draft [I-D.ietf-forces-sctptml].
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6. Scenarios
Since the main goal of this interoperability test is to test the
basic protocol functionality, we will limit the test parameters.
Therefore:
1. In the Association Setup Message, all report messages will be
ignored.
2. In the Association Setup Phase, the messages, FEO OperEnable
Event (FE to CE), Config FEO Adminup (CE to FE) and FEO Config-
Resp (FE to CE) will be ignored. The CE will assume that the FE
is enabled once the LFBSelectors has been queried.
3. Only FullDataTLVs are going to be used and not SparseData TLV's.
4. There will be no transaction operations.
5. Each message shall have only one LFBSelector TLV, one Operation
TLV and one PathDataTLV per message when these are used.
6.1. Scenario 1 - Pre-association Setup
While the Pre-association setup is not in the ForCES current scope it
is an essential step before CEs and FEs communicate. As the first
part in a successfull CE-FE connection the participating CEs and FEs
should be able to be configured.
In the Pre-association Phase the following configuration items MUST
be setup regarding the CEs:
o The CE ID.
o The FE IDs that will be connected to this CE
o The IP of the FEs that will connect
o The TML priority ports.
In the Pre-association Phase the following configuration items MUST
be setup regarding the FEs:
o The FE ID.
o The CE ID that this FE will be connecting to.
o The IP of the CE that will connect to
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o The TML priority ports.
Once each element is setup and configured, Scenario 1 is successful.
6.2. Scenario 2 - TML priority channels connection
For the current interoperability test, the SCTP will be used as TML.
The TML connection with the associating element is needed for the
scenario 2 to be successful.
The SCTP-TML draft [I-D.ietf-forces-sctptml] defines 3 priority
channels, with specific ports:
o High priority - Port number: 6700
o Medium priority - Port number: 6701
o Lower priority - Port number: 6702
Once these channels have been established with each associated
element, will the Scenario 2 be successful.
6.3. Scenario 3 - Association Setup - Association Complete
Once the Pre-association phase has been complete in the previous 2
scenarios, CEs and FEs are ready to communicate using the ForCES
protocol, and enter the Association Setup stage. In this stage the
FEs attempts to join the NE. The following ForCES protocol messages
will be exchanged for each CE-FE pair in the specified order:
o Association Setup Message (from FE to CE)
o Association Setup Response Message (from CE to FE)
o Query Message: FEO LFBSelectors(from CE to FE)
o Query Response: FEO LFBSelectors response (from FE to CE)
Once the associations has been initialized scenario 3 will have been
successful.
6.4. Scenario 4 - CE query
Once the Association Phase stage has been complete, the FEs and CEs
will enter the Established stage. In this stage the FE is
continuously updated or queried. The CE should query the FE a
specific value from the FE Object LFB and from the FE Protocol LFB.
An example from the FE Protocol LFB is the HeartBeat Timer (FEHI) and
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from the FE Object LFB is the State of the LFB (FEState)
The following ForCES protocol messages will be exchanged:
o Query Message
o Query Response Message
6.5. Scenario 5 - Heartbeat monitoring
The Heartbeat (HB) Message is used for one ForCES element (FE or CE)
to asynchronously notify one or more other ForCES elements in the
same ForCES NE on its liveness. The default configuration of the
Heartbeat Policy of the FE is set to 0 which means, that the FE
should not generate any Heartbeat messages. the CE is responsible for
checking FE liveness by setting the PL header ACK flag of the message
it sends to AlwaysACK. In this Scenario the CE should send a
Heartbeat message with the ACK flag set to AlwaysACK and the FE
should respond.
The following ForCES protocol messages will be exchanged:
o Heartbeat Message
6.6. Scenario 6 - Simple Config Command
A config message is sent by the CE to the FE to configure LFB
components in the FE. A simple config command easily visible and
metered would be to change the Heartbeat configuration. This will be
done in two steps:
1. Change the FE Heartbeat Policy (FEHBPolicy) to value 1, to force
the FE to send heartbeats.
2. After some heartbeats from the FE, the FE Heartbeat Interval
(FEHI) will be changed.
The following ForCES protocol messages will be exchanged:
o Config Message
o Config Response Message
6.7. Scenario 7 - Association Teardown
In the end, the association must be terminated. There are two
scenarios by which the association maybe terminated:
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1. Normal tear down by exchanging Association Teardown Message
2. Irregular tear down by stopping heartbeats from a FE or a CE.
3. Irregular tear down by externally shutting down/rebooting a FE or
a CE.
All scenarios may be tested in the interoperability test.
The following ForCES protocol messages will be exchanged:
o Association Teardown Message
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7. Tested Features
The features that were tested are:
7.1. ForCES Protocol Features
+------------+
| Feature |
+------------+
| Batching |
| |
| HeartBeats |
+------------+
ForCES Protocol Features
Although Batching was not initially designed to be tested, it was
tested during the interoperability test.
7.1.1. Protocol Messages
+----------------------------+
| Protocol Message |
+----------------------------+
| Association Setup |
| |
| Association Setup Response |
| |
| Association TearDown |
| |
| Configuration |
| |
| Configuration Response |
| |
| Query |
| |
| Query Response |
| |
| HeartBeat |
+----------------------------+
ForCES Protocol Message
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7.1.2. MainHeader Handling
+------------------+
| Header Field |
+------------------+
| Correlator |
| |
| Acknowledge Flag |
| |
| Priority Flag |
+------------------+
MainHeader Handling
7.1.3. TLV Handling
+---------------------------------+
| TLV |
+---------------------------------+
| Association Setup Result TLV |
| |
| Association TearDown Reason TLV |
| |
| LFBSelector TLV |
| |
| Operation TLV |
| |
| PathData TLV |
| |
| FullData TLV |
| |
| Result TLV |
+---------------------------------+
TLVs Supported
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7.1.4. Operation Types Supported
+--------------+
| Operation |
+--------------+
| Set |
| |
| Set Response |
| |
| Get |
| |
| Get Response |
| |
| Report |
+--------------+
Operation Type Supported
7.2. ForCES Model Features
7.2.1. Basic Atomic Types Supported
+-------------+
| Atomic Type |
+-------------+
| uchar |
| |
| uint32 |
+-------------+
Basic Atomic Types Supported
7.2.2. Compound Types Supported
+---------------+
| Compound Type |
+---------------+
| structs |
| |
| arrays |
+---------------+
Compound Types Supported
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7.2.3. LFBs Supported
7.2.3.1. FE Protocol LFB
+--------------------+
| Protocol DataTypes |
+--------------------+
| CEHBPolicy |
| |
| FEHIBPolicy |
+--------------------+
FE Protocol LFB Datatypes
+---------------------+
| Protocol Components |
+---------------------+
| FEID |
| |
| CEHBPolicy |
| |
| CEHDI |
| |
| FEHBPolicy |
| |
| FEHI |
| |
| CEID |
+---------------------+
FE Protocol LFB Components
7.2.3.2. FE Object LFB
+------------------+
| Object DataTypes |
+------------------+
| FEStateValues |
| |
| LFBSelectorType |
+------------------+
FE Object LFB Datatypes
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+-------------------+
| Object Components |
+-------------------+
| LFBSelectors |
| |
| FEState |
+-------------------+
FE Object LFB Components
7.3. ForCES SCTP-TML Features
7.3.1. TML Priority Ports
+------------------------+
| Port |
+------------------------+
| High priority (6700) |
| |
| Medium priority (6701) |
| |
| Low priority (6702) |
+------------------------+
Priority Ports
7.3.2. Message Handling at specific priorities
+----------------------------+
| ForCES Message |
+----------------------------+
| Association Setup |
| |
| Association Setup Response |
| |
| Association Teardown |
| |
| Config |
| |
| Config Response |
| |
| Query |
| |
| Query Response |
+----------------------------+
Message Handling at High priority (6700) Port
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+----------------+
| ForCES Message |
+----------------+
| Heartbeats |
+----------------+
Message Handling at Low priority (6702) Port
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8. Test details
The following tests occured:
+------+----------+----------+-----------+-----------+--------------+
| Test | CE | FE(s) | Teardown | Result | Comment |
| # | | | Option | | |
+------+----------+----------+-----------+-----------+--------------+
| 1 | Zhejiang | NTT | Teardown | Success | |
| | Gongshan | | from FE | | |
| | g | | | | |
| | Univers | | | | |
| | it y | | | | |
| | | | | | |
| 2 | Zhejiang | NTT | Teardown | Success | |
| | Gongshan | | from CE | | |
| | g | | | | |
| | Univers | | | | |
| | it y | | | | |
| | | | | | |
| 3 | Zhejiang | NTT | Cable | Success | Nobody saw |
| | Gongshan | | disconnec | | the loss of |
| | g | | t | | cable. |
| | Univers | | | | Everybody |
| | it y | | | | found out |
| | | | | | from loss of |
| | | | | | PL-heartbeat |
| | | | | | s |
| | | | | | |
| 4 | Zhejiang | NTT | Loss of | Success | FE didn't |
| | Gongshan | | CE | | send |
| | g | | Heartbeat | | Teardown and |
| | Univers | | s | | closed |
| | it y | | | | connection |
| | | | | | |
| 5 | Zhejiang | NTT | Loss of | Untestabl | |
| | Gongshan | | FE | e | |
| | g | | Heartbeat | | |
| | Univers | | s | | |
| | it y | | | | |
| | | | | | |
| 6 | NTT | Zhejiang | Teardown | Initial | CE couldn't |
| | | Gongshan | from CE | Failure | handle Query |
| | | g | | | Result for |
| | | Univers | | | unknown |
| | | it y | | | LFBSelects. |
| | | | | | |
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| 7 | Zhejiang | Universi | Teardown | Success | Problems |
| | Gongshan | t y of | from FE | | with |
| | g | Patras | | | retransmitti |
| | Univers | | | | o n |
| | it y | | | | |
| | | | | | |
| 8 | Zhejiang | Universi | Teardown | Success | Problems |
| | Gongshan | t y of | from CE | | with |
| | g | Patras | | | retransmitti |
| | Univers | | | | o n |
| | it y | | | | |
| | | | | | |
| 9 | Zhejiang | Universi | Cable | Success | Nobody saw |
| | Gongshan | t y of | disconnec | | the loss of |
| | g | Patras | t | | cable. |
| | Univers | | | | Everybody |
| | it y | | | | found out |
| | | | | | from loss of |
| | | | | | PL-heartbeat |
| | | | | | s |
| | | | | | |
| 10 | Zhejiang | Universi | Loss of | Success | |
| | Gongshan | t y of | CE | | |
| | g | Patras | Heartbeat | | |
| | Univers | | s | | |
| | it y | | | | |
| | | | | | |
| 11 | NTT | Zhejiang | Teardown | Success | Test# 6. |
| | | Gongshan | from CE | on Repeat | Problems |
| | | g | | | fixed |
| | | Univers | | | |
| | | it y | | | |
| | | | | | |
| 12 | NTT | Zhejiang | Teardown | Success | |
| | | Gongshan | from FE | | |
| | | g | | | |
| | | Univers | | | |
| | | it y | | | |
| | | | | | |
| 13 | NTT | Zhejiang | Cable | Success | Nobody saw |
| | | Gongshan | disconnec | | the loss of |
| | | g | t | | cable. |
| | | Univers | | | Everybody |
| | | it y | | | found out |
| | | | | | from loss of |
| | | | | | PL-heartbeat |
| | | | | | s . |
| | | | | | |
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| 14 | NTT | Zhejiang | Loss of | Success | Problems |
| | | Gongshan | CE | | with |
| | | g | Heartbeat | | retransmitti |
| | | Univers | s | | o n |
| | | it y | | | |
| | | | | | |
| 15 | Universi | Zhejiang | Teardown | Success | CE didn't |
| | t y of | Gongshan | from FE | | terminat |
| | Patras | g | | | after |
| | | Univers | | | sending |
| | | it y | | | Teardown. |
| | | | | | FE did |
| | | | | | |
| 16 | Universi | Zhejiang | Teardown | Success | Problems |
| | t y of | Gongshan | from CE | | with |
| | Patras | g | | | retransmitti |
| | | Univers | | | o n |
| | | it y | | | |
| | | | | | |
| 17 | Universi | Zhejiang | Loss of | Success | FE didn't |
| | t y of | Gongshan | CE | | send |
| | Patras | g | Heartbeat | | Teardown and |
| | | Univers | s | | closed |
| | | it y | | | connection |
| | | | | | |
| 18 | Zhejiang | NTT & | Teardown | Success | |
| | Gongshan | Universi | from CE | | |
| | g | t y of | | | |
| | Univers | Patrasx | | | |
| | it y | 2 | | | |
| | | | | | |
| 19 | NTT | Zhejiang | Teardown | Success | |
| | | Gongshan | from CE | | |
| | | g | | | |
| | | Univers | | | |
| | | it y & | | | |
| | | Univer | | | |
| | | sit y o | | | |
| | | f Patra | | | |
| | | sx2 | | | |
| | | | | | |
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| 20 | Universi | NTT & | Teardown | Success | |
| | t y of | Zhejiang | from CE | | |
| | Patras | Gongshan | | | |
| | | g | | | |
| | | Univers | | | |
| | | it y & | | | |
| | | Univer | | | |
| | | sit y o | | | |
| | | f Patra | | | |
| | | sx2 | | | |
| | | | | | |
| 21 | Universi | Zhejiang | Batching | Success | |
| | t y of | Gongshan | Query and | | |
| | Patras | g | Config | | |
| | | Univers | | | |
| | | it y | | | |
| | | | | | |
| 22 | Universi | NTT | Teardown | Success | |
| | t y of | | from FE | | |
| | Patras | | | | |
| | | | | | |
| 23 | Universi | NTT | Teardown | Success | |
| | t y of | | from CE | | |
| | Patras | | | | |
| | | | | | |
| 24 | Universi | NTT | Loss of | Success | FE didn't |
| | t y of | | CE | | send |
| | Patras | | Heartbeat | | Teardown and |
| | | | s | | closed |
| | | | | | connection |
| | | | | | |
| 25 | Universi | NTT | Cable | Success | Nobody saw |
| | t y of | | disconnec | | the loss of |
| | Patras | | t | | cable. |
| | | | | | Everybody |
| | | | | | found out |
| | | | | | from loss of |
| | | | | | PL-heartbeat |
| | | | | | s |
| | | | | | |
| 26 | NTT | Universi | Teardown | Success | |
| | | t y of | from FE | | |
| | | Patras | | | |
| | | | | | |
| 27 | NTT | Universi | Teardown | Success | |
| | | t y of | from CE | | |
| | | Patras | | | |
| | | | | | |
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| 28 | NTT | Universi | Loss of | Success | FE didn't |
| | | t y of | CE | | send |
| | | Patras | Heartbeat | | Teardown and |
| | | | s | | closed |
| | | | | | connection |
| | | | | | |
| 29 | NTT | Universi | Cable | Success | Nobody saw |
| | | t y of | disconnec | | the loss of |
| | | Patras | t | | cable. |
| | | | | | Everybody |
| | | | | | found out |
| | | | | | from loss of |
| | | | | | PL-heartbeat |
| | | | | | s |
+------+----------+----------+-----------+-----------+--------------+
Interoperability Tests
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9. Results
All implementations were found to be interoperable with each other.
All scenarios were tested successfully.
The following issues were found and dealt with.
1. Some messages were sent to the wrong priority channels. There
was some ambiguities on the SCTP-TML draft that have been
corrected.
2. At some point, a CE sent a TearDown message to the FE. The CE
expected the FE to shut down the connection, and the FE waited
the CE to shut down the connection and were caught in a
deadlock. This was a code bug and was fixed.
3. Sometimes the association setup message, only on the remote
connection test, although sent, was not received by the other
end and made impossible the association. This was caused by
network problems.
4. An implementation did not take into account that the padding in
TLVs MUST NOT be included in the lenght of the TLV. This was a
code bug and was fixed.
5. EM Flag was set to reserved by a CE and was not ignored by the
FE. This was a code bug and was fixed.
6. After the FEHBPolicy was set to 1 the FE didn't send any
HeartBeats. This was a code bug and was fixed.
7. Some FE's sent HeartBeats with the ACK flag with a value other
than NoACK. The CE responded. This was a code bug and was
fixed.
8. When a cable was disconnected, the TML didn't realize that. The
association was dropped due to heartbeats, this was a success,
but this is an implementation issue implementers should keep in
mind. This is a SCTP options issue. Nothing was needed to be
done.
9. A CE crashed due to unknown LFBSelector values. This was a code
bug and was fixed.
10. With the remote connection there were a lot of forces packet
retransmittion. The problem is that packets like Heartbeats
were retransmitted. This is a SCTP issue. Perhaps SCTP-PR is
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needed to be used.
The implementers went beyond the call of duty. The test was extended
with another test for batching messages. This test was also done
successfully.
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10. Acknowledgements
The authors of this draft would like to acknowledge and thank the
chair of the ForCES working group Jamal Hadi Salim.
Also, the authors would like to acknowledge Professors Odysseas
Koufopavlou and Spyros Denazis, as well as the Department of
Electrical and Computer Engineering of the University of Patras for
hosting the event.
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11. IANA Considerations
This memo includes no request to IANA.
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12. Security Considerations
Section 9 of the FE-protocol [I-D.ietf-forces-protocol] specifies
security considerations of the ForCES protocol. For this
interoperability test, no security MUST be chosen even for the
distributed architecture.
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13. References
13.1. Normative References
[I-D.ietf-forces-model]
Halpern, J. and J. Salim, "ForCES Forwarding Element
Model", draft-ietf-forces-model-16 (work in progress),
October 2008.
[I-D.ietf-forces-protocol]
Dong, L., Doria, A., Gopal, R., HAAS, R., Salim, J.,
Khosravi, H., and W. Wang, "ForCES Protocol
Specification", draft-ietf-forces-protocol-22 (work in
progress), March 2009.
[I-D.ietf-forces-sctptml]
Salim, J. and K. Ogawa, "SCTP based TML (Transport Mapping
Layer) for ForCES protocol", draft-ietf-forces-sctptml-02
(work in progress), January 2009.
13.2. Informative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC2629] Rose, M., "Writing I-Ds and RFCs using XML", RFC 2629,
June 1999.
[RFC3552] Rescorla, E. and B. Korver, "Guidelines for Writing RFC
Text on Security Considerations", BCP 72, RFC 3552,
July 2003.
[RFC3654] Khosravi, H. and T. Anderson, "Requirements for Separation
of IP Control and Forwarding", RFC 3654, November 2003.
[RFC3746] Yang, L., Dantu, R., Anderson, T., and R. Gopal,
"Forwarding and Control Element Separation (ForCES)
Framework", RFC 3746, April 2004.
[RFC5226] Narten, T. and H. Alvestrand, "Guidelines for Writing an
IANA Considerations Section in RFCs", BCP 26, RFC 5226,
May 2008.
[ethereal]
"Ethereal is a protocol analyzer. The specific ethereal
that will be used is an updated Ethereal, by Fenggen Jia,
that can analyze and decode the ForCES protocol
messages.", <http://peach.ease.lsoft.com/scripts/
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wa.exe?A2=ind0906&L=FORCES&T=0&F=&S=&P=1048>.
[tcpdump] "Tcpdump is a linux protocol analyzer. The specific
tcpdump that will be used is a modified tcpdump, by Jamal
Hadi Salim, that can analyze and decode the ForCES
protocol messages.", <http://peach.ease.lsoft.com/scripts/
wa.exe?A2=ind0906&L=FORCES&T=0&F=&S=&P=2262>.
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Authors' Addresses
Evangelos Haleplidis
University of Patras
Patras,
Greece
Email: ehalep@ece.upatras.gr
Kentaro Ogawa
NTT Corporation
Tokyo,
Japan
Email: ogawa.kentaro@lab.ntt.co.jp
Xin-ping Wang
Huawei Technologies Co., Ltd.
China
Email: carly.wang@huawei.com
Chuanhuang Li
Zhejiang Gongshang University
18, Xuezheng Str., Xiasha University Town
Hangzhou, 310018
P.R.China
Phone: +86-571-28877751
Email: chuanhuang_li@pop.zjgsu.edu.cn
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