Network Working Group E. Weilandt
Request for Comments: 3807 N. Khanchandani
Updates: 3057 S. Rao
Category: Standards Track Nortel Networks
June 2004
V5.2-User Adaptation Layer (V5UA)
Status of this Memo
This document specifies an Internet standards track protocol for the
Internet community, and requests discussion and suggestions for
improvements. Please refer to the current edition of the "Internet
Official Protocol Standards" (STD 1) for the standardization state
and status of this protocol. Distribution of this memo is unlimited.
Copyright Notice
Copyright (C) The Internet Society (2004).
Abstract
This document defines a mechanism for the backhauling of V5.2
messages over IP using the Stream Control Transmission Protocol
(SCTP). This protocol may be used between a Signaling Gateway (SG)
and a Media Gateway controller (MGC). It is assumed that the SG
receives V5.2 signaling over a standard V5.2 interface.
This document builds on the ISDN User Adaptation Layer Protocol (RFC
3057). It defines all necessary extensions to the IUA Protocol
needed for the V5UA protocol implementation.
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Table of Contents
1. Introduction ................................................. 2
1.1. Scope .................................................. 3
1.2. Terminology ............................................ 3
1.3. V5.2 Overview .......................................... 5
1.4. Distribution of responsibilities between MGC and SG .... 7
1.5. Client/Server Model .................................... 7
1.6. Addition to boundary primitives ........................ 7
1.6.1. V5 specific boundary primitives ................ 7
2. Conventions .................................................. 9
3. SCTP Stream Management ....................................... 10
4. Proposed V5.2 Backhaul Architecture .......................... 10
4.1. V5UA Message Header .................................... 11
4.2. V5 Naming Conventions for Interface Identifier ......... 12
4.3. V5 Additions to IUA Boundary Primitives ................ 13
4.4. Link Status Messages ................................... 14
4.5. Sa-Bit Messages ........................................ 16
4.6. Error Indication Message ............................... 17
5. Procedures ................................................... 18
5.1. V5 Layer 1 failure ..................................... 18
5.2. Loss of V5UA peer ...................................... 19
5.3. C-channel overload on SG ............................... 19
6. Examples ..................................................... 20
6.1. Link Identification Procedure (successful) ............. 20
7. Security Considerations ...................................... 21
8. IANA Considerations .......................................... 21
8.1. SCTP Payload Protocol Identifier ....................... 21
8.2. V5UA Port Number ....................................... 22
9. Acknowledgements ............................................. 22
10. References ................................................... 22
10.1. Normative References ................................... 22
10.2. Informative References ................................. 23
11. Authors' Addresses ........................................... 23
12. Full Copyright Statement ..................................... 24
1. Introduction
This document describes a method of implementing V5.2 backhaul
messaging over IP using a modified version of the ISDN User
Adaptation Layer Protocol (IUAP) [1]. V5UA builds on top of IUA,
defining the necessary extensions to IUA for a V5.2 implementation.
Since V5UA is meant to be an extension to IUAP, everything defined in
[1] is also valid for V5UA unless otherwise specified in this
document.
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This document does not describe the V5 standard itself. The V5
protocol is defined by ETSI standards [2,3]. Any description of the
V5 protocol in this document is meant to make the text easier to
understand.
1.1. Scope
There is a need for Switched Circuit Network (SCN) signaling protocol
delivery from a V5.2 Signaling Gateway (SG) to a Media Gateway
Controller (MGC), analogous to the implementation of the ISDN Q.921
User Adaptation Layer (IUA) as described in [1].
This document supports analog telephone access, ISDN basic rate
access and ISDN Primary rate access over a V5.2 interface.
Since the V5.2 Layer 2, and especially Layer 3, differs from the
Q.921 [4] and Q.931 Adaptation layer, the IUA standard must be
extended to fulfil the needs for supporting V5.2.
1.2. Terminology
Bearer Channel Connection (BCC) protocol - A protocol which allows
the Local Exchange (LE) to instruct the Access Network (AN) to
allocate bearer channels, either singularly or in multiples, on
demand.
Communication channel (C-channel) - A 64 kbit/s time slot on a V5.2
interface provisioned to carry communication paths.
Communication path (C-path) - Any one of the following information
types:
- The layer 2 data link carrying the Control protocol
- The layer 2 data link carrying the Link Control protocol
- The layer 2 data link carrying the PSTN signaling
- Each of the layer 2 data links carrying the protection protocol
- The layer 2 data link carrying the BCC protocol
- All the ISDN Ds-type data from one or more user ports
- All the ISDN p-type data from one or more user ports
- All the ISDN t-type data from one or more user ports
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Note: This definition includes the possibility that there may be
more than one C-path of the same information type, each allocated
to a different logical C-channel.
Envelope Function Address (EFA) - 13 bit number, ranging from 0 to
8191 (decimal). An EFA uniquely identifies one of the five V5.2
protocols, or an ISDN agent attached to an AN. The following list
contains the possible values for the EFA:
Definition Value
---------- ------
ISDN_PROTOCOL 0 - 8175
PSTN_PROTOCOL 8176
CONTROL_PROTOCOL 8177
BCC_PROTOCOL 8178
PROT_PROTOCOL 8179
LINK_CONTROL_PROTOCOL 8180
RESERVED 8181 - 8191
Layer 1 Functional State Machine (L1 FSM) - Functional State Machine
in V5 System Management that tracks and controls the states of the
physical E1 links on the interface.
Logical Communication channel (Logical C-channel) - A group of one or
more C-paths, all of different types, but excluding the C-path for
the protection protocol.
Multi-link - A collection of more than one 2048 kbit/s link which
together make up a V5.2 interface.
Multi-Slot - A group of more than one 64kbit/s channels providing
8Khz and time slot sequence integrity, generally used together
within an ISDN Primary Rate Access (ISDN-PRA) user port, in order
to supply a higher bit-rate service.
Physical Communication Channel (Physical C-channel) - A 64kbit/s time
slot on a V5.2 interface which has been assigned for carrying
logical C-channels. A physical C-channel may not be used for
carrying bearer channels.
Primary Link - A 2048 kbit/s (E1) link in a multi-link V5.2 interface
whose physical C-channel in time slot 16 carries a C-path for the
protection protocol and, on V5.2 initialization, also the C-path
for the control protocol, link control protocol, and the BCC
protocol. Other C-paths may also be carried in the time slot 16.
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Secondary Link - A 2048 kbit/s (E1) link in a multi-link V5.2
interface whose time slot 16 carries a C-path for the protection
protocol, and, on V5.2 initialization, acts as the standby C-
channel for the control protocol, link control protocol, and BCC
protocol and any other C-paths initially carried in time slot 16
of the primary link.
V5 Link - A 2048 kbits/s E1 (PCM30) link used on a V5 interface. A
V5 interface may use up to 16 V5 links.
1.3. V5.2 Overview
V5.2 is an industry standard ETSI interface (reference ETS 300 347-1
[3]) defined between a Local Exchange (LE) and an Access Network (AN)
providing access to the following types:
- Analog telephone access
- ISDN Basic rate access
- ISDN Primary Rate access
- Other analog or digital accesses for semi-permanent connections
without associated outband signaling information
The original V5 specification (V5.1 [2]) uses 2048 kbps links in a
non-concentrating fashion. In contrast, V5.2 may use up to 16 such
interface links and supports concentration.
---------- ---------- o--o
| | E1 | |------- /
| |--------------| | --
| LE | E1 | AN |
| |--------------| | o--o
| | | |------- /
---------- ---------- --
The LE and AN are connected with up to 16 E1 (PCM30) links. Channels
16, 15 and 31 on any E1 link can be reserved for data communication
between LE and AN. The channels reserved for data are called
"Communication Channels" or "C-channels."
The C-channels are the physical media that exchange data between the
V5.2 protocol peer entities, as well as transfer the ISDN BRI
D-channel messages between the terminals and the LE. A logical
communication path between two peer entities for one protocol is
called a "C-path".
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The signaling information in V5.2 are defined as:
- Analog signals are carried by means of the V5 PSTN protocol
(L3)
- ISDN/analog ports are controlled by the V5 Control protocol
(L3)
- ISDN protocol messages are mapped to LAPD frames, which are
carried by means of LAPV5-EF sublayer (L2)
- V5 protocol messages are mapped to LAPV5-DL frames, which are
carried by means of LAPV5-EF sublayer (L2)
In order to support more traffic and dynamic allocation of bearer
channels, the V5.2 protocol has several additions:
- A bearer channel connection protocol establishes and
disestablishes bearer connections on demand, as determined by
the signaling information, under the control of the Local
Exchange.
- A link control protocol is defined for multi-link management to
control link identification, link blocking and link failure
conditions.
- A protection protocol, operating on two separate V5 data links
is defined to manage the protection switching of communication
channels in case of link failures.
The following protocols are defined for the various protocol layers:
Layer 2:
- LAPV5-EF
- LAPV5-DL
Layer 3:
- V5-Link Control
- V5-BCC
- V5-PSTN
- V5-Control
- V5-Protection
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1.4. Distribution of responsibilities between MGC and SG
In the V5UA backhaul architecture, the V5 protocol entities SHALL be
distributed over SG and MGC as shown below.
MGC SG
+------------+ +-------+-------+
| Lnk Cntrl | | | |
+------------+ | | |
| Cntrl | | | |
+------------+ V5UA | | | V5 +------+
| BCC | <--------> | LAPV5 | LAPV5 | <----> | AN |
+------------+ | -DL | -EF | +------+
| PSTN | | | |
+------------+ | | |
| Protection | | | |
+------------+ +-------+-------+
V5 System Management SHALL be located on the MGC. The V5 L1
Functional State Machine (FSM) SHALL be located on the SG.
Dynamic TEI Management for V5 BRI over V5UA SHALL be located on the
MGC.
1.5. Client/Server Model
The Client/Server Model for V5UA shall follow the model as defined
for IUAP.
The SCTP [6] (and UDP/TCP) registered User Port Number Assignment for
V5UA is 5675.
1.6. Addition to boundary primitives
1.6.1. V5 specific boundary primitives
Extending IUAP to V5UA to support V5.2 backhaul requires the
introduction of new boundary primitives for the Q.921/Q.931 boundary,
in accordance with the definitions in the V5 standards.
V5UA reuses some IUA primitives from the Q.921/Q.931 boundary: the
DL-DATA primitive and the DL-UNIT DATA primitive. The DL-DATA
primitive is used for the transportation of both V5 Layer 3 messages
and V5 ISDN Layer 3 messages. The DL-UNIT DATA primitive is only
used for V5 ISDN messages and is used and defined as described for
IUAP.
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In the V5 standards, V5 system management is responsible for
establishing and releasing data links. Therefore, for V5UA the DL-
Establish and DL-Release primitives defined in IUAP are replaced by
new primitives between system management and the data link layer in
accordance with the definitions in [2]:
MDL-ESTABLISH
The MDL-Establish primitives are used to request, indicate and
confirm the outcome of the procedures for establishing multiple frame
operation.
MDL-RELEASE
The MDL-Release primitive is used to indicate the outcome of the
procedures for terminating multiple frame operation.
In contrast to ISDN, the V5 standards demand that V5.2 system
management interacts directly with V5.2 layer 1. Since V5.2 Layer 1
(including the L1 FSM) and parts of V5 system management are
physically separated in a V5 backhaul scenario, V5UA must support
some services for the communication between these two entities.
Specifically, these services include an indication of the status of a
specific link, and messages to support the link identification
procedure defined by the V5 standards.
The new primitive are defined as shown below:
MPH-LINK STATUS START REPORTING
The MPH-LINK STATUS START REPORTING primitive is used by V5 system
management to request that a link be brought into service for use in
a V5 interface. On reception of this message, the L1 FSM on the SG
SHALL start reporting the status of the V5 link to the MGC. This
primitive is used similarly to the MPH-proceed primitive defined by
V5.2, but it has a more extended meaning than MPH-proceed.
MPH-LINK STATUS STOP REPORTING
The MPH-LINK STATUS STOP REPORTING primitive is used by V5 system
management to request that a link be taken out of service on a V5
interface. On reception of this message, L1 FSM on the SG SHALL stop
reporting the status of the V5 link to the GWC. This primitive is
used similarly to the MPH-stop primitive defined by V5.2, but it has
a more extended meaning than MPH-stop.
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RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
MPH-LINK STATUS INDICATION
The MPH-LINK STATUS INDICATION primitive is used by L1 FSM on the
Signaling Gateway to report the status (operational/non-operational)
of a V5 link to V5 system management. This primitive is equivalent
to the MPH-AI and MPH-DI primitives in V5.2.
MPH-SA-BIT SET
The MPH-SA-BIT SET primitive is used by system management to request
that the L1 FSM in the SG sets or resets the value of a specified Sa
bit on the requested link. The SG uses it to report the successful
setting or resetting of this bit back to system management. For V5,
this message is used for the V5 specific Link Identification
procedure to set/reset the value of the Sa7 bit, or to confirm the
successful setting of the Sa bit. The MPH-SA BIT SET REQUEST is
equivalent to the MPH-ID and MPH-NOR primitives in V5.2.
MPH-SA-BIT STATUS
The MPH-SA-BIT STATUS primitives are used by system management in the
MGC to request that the L1 FSM in the SG reports the status of a
specified Sa bit on the requested link. The SG uses it to report
(indicate) the status of this bit back to system management. For V5,
these messages are used for the V5 specific Link identification
procedure to request or report the status of the Sa7 bit. This is
equivalent to the MPH-IDR, MPH-IDI or MPH-Elg primitives in V5.2.
Due to the separation of V5 System Management and V5 Layer1/Layer2 in
the V5UA backhaul architecture, it may be necessary to report error
conditions of the SG's V5 stack to V5 System Management. For this
purpose, a new primitive is defined:
MDL-ERROR INDICATION
The MDL-ERROR INDICATION primitive is used to indicate an error
condition to V5 System Management. The only valid reason for this
primitive is 'Overload', indicating an overload condition of the
C-channel on the SG. This reason is not defined in the V5/Q.921
standards.
2. Conventions
The keywords MUST, MUST NOT, REQUIRED, SHALL, SHALL NOT, SHOULD,
SHOULD NOT, RECOMMENDED, NOT RECOMMENDED, MAY, and OPTIONAL, when
they appear in this document, are to be interpreted as described in
[7].
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RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
3. SCTP Stream Management
A single SCTP stream SHOULD be used for grouping all of the following
protocols together: BCC, Link Control, Control and PSTN protocol on a
specific C-channel. A separate SCTP stream SHOULD be used for the
Protection protocol on a specific C-channel. One SCTP stream SHOULD
be used for all ISDN user ports on a specific C-channel. One single
stream SHOULD NOT be used to carry data of more than one C-channel.
In addition, one separate SCTP stream SHOULD be used for all MPH
(link related) messages.
4. Proposed V5.2 Backhaul Architecture
****** V5.2 ****** IP *******
* AN *---------------* SG *--------------* MGC *
****** ****** *******
+-----+ +-----+
|V5.2 | (NIF) |V5.2 |
+-----+ +----------+ +-----+
| | | |V5UA| |V5UA |
| | | +----+ +-----+
|LAPV5| |LAPV5|SCTP| |SCTP |
| | | +----+ +-----+
| | | | IP + | IP |
+-----+ +-----+----+ +-----+
Figure 1: V5.2 Backhaul Architecture
AN - Access Network
NIF - Nodal Interworking Function
SCTP - Stream Control Transmission Protocol
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4.1. V5UA Message Header
The original IUA message header must be modified for V5UA. The
original header for the integer formatted Interface Identifier is
shown below:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Tag (0x1) | Length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Interface Identifier (integer) |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Tag (0x5) | Length=8 |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| DLCI | Spare |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 2: Original IUA Message Header
V5UA extends the IUA Message Header by including the Envelope
Function Address (EFA) in the Spare field. The V5UA format for the
integer formatted Interface Identifier is shown below:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Tag (0x1) | Length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Interface Identifier (integer) |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Tag (0x81) | Length=8 |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| DLCI | EFA |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 3: V5UA Message Header (Integer-based Interface identifier)
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RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
The EFA is defined by the V5 standard. It identifies a C-path, which
is a 13-bit number, ranging from 0 to 8191 (decimal). An EFA
uniquely identifies one of the five V5.2 protocols, or an ISDN agent
attached to an AN. The following list contains the possible values
for the EFA as defined by V5:
Definition Value
---------- ------
ISDN_PROTOCOL 0 - 8175
PSTN_PROTOCOL 8176
CONTROL_PROTOCOL 8177
BCC_PROTOCOL 8178
PROT_PROTOCOL 8179
LINK_CONTROL_PROTOCOL 8180
RESERVED 8181 - 8191
For MPH messages which do not use DLCI and EFA, SAPI, TEI and EFA
SHALL be set to ZERO and SHALL be ignored by the receiver. For all
other messages, the DLCI SHALL be set as defined in the V5.2 standard
[2].
The Interface Identifier SHALL follow the naming conventions for the
Interface Identifier as defined below.
4.2. V5 Naming Conventions for Interface Identifier
The V5 standard demands that V5 System Management keep track of the
states of all links on a V5 interface. To perform tasks like
protection switching and bearer channel allocation on the V5 links,
it is necessary that system management has the full picture of the
signaling and bearer channels located on each link.
The IUA protocol identifies C-channels by endpoints without a defined
association with a specific link. Since no naming convention exists,
there is no guarantee that a C-channel is actually located at the
link it claims to be. Furthermore the V5 standard requires that the
MGC receives reports of the status of all links, and it defines a
link identification procedure to ensure that AN and LE are
referencing the same link when they address a link with a Link
Control Protocol message.
It would clearly be against the concept of V5.2 if there was no clear
association between E1 links and channels. To solve this problem, a
naming convention MUST be used for V5UA.
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The format of the integer formatted Interface Identifier is shown
below:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Link Identifier | Chnl ID |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Link Identifier - Identifier for an E1 link on the SG (27 bits).
MUST be unique on the SG. This Link Identifier MUST match the
Link Identifier used in the Link Management Messages defined later
in this document.
Chnl ID - Channel Identifier (5 bits). This is equal to the time-
slot number of the addressed time slot. Possible values are 15,
16 and 31 representing the possible time slots for C-channels on a
V5 interface. For Link Management Messages, the Chnl ID MUST be
set to 0. All other values are reserved for future use.
If used, the text formatted interface identifier SHALL be coded as
the hex representation of the integer formatted interface identifier,
written as a variable length string.
4.3. V5 Additions to IUA Boundary Primitives
Some primitives for the V5 interface boundaries are similar to the
Q.921/Q.931 boundary primitive messages defined in IUA, but they need
to be handled in a different way. Therefore it is neccessary to
distinguish between these two message types by means of the Message
Class parameter.
For all V5 interface boundary primitives, a new Message Class is
introduced:
14 V5 Boundary Primitives Transport
Messages (V5PTM)
Other valid message classes for V5UA, which are also used by IUA,
are:
0 Management (MGMT) Message
3 ASP State Maintenance (ASPSM) Messages
4 ASP Traffic Maintenance (ASPTM) Messages
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Q.921/Q.931 boundary primitive messages reused by V5.2 as V5PTM
messages are:
1 Data Request Message (MGC -> SG)
2 Data Indication Message (SG -> MGC)
3 Unit Data Request Message (MGC -> SG)
4 Unit Data Indication Message (SG -> MGC)
5 Establish Request (MGC -> SG)
6 Establish Confirm (SG -> MGC)
7 Establish Indication (SG -> MGC)
8 Release Request (MGC -> SG)
9 Release Confirm (SG -> MGC)
10 Release Indication (SG -> MGC)
All these messages are defined similarly to the QPTM messages.
In addition, new boundary primitive messages are defined:
11 Link Status Start Reporting (MGC -> SG)
12 Link Status Stop Reporting (MGC -> SG)
13 Link Status Indication (SG -> MGC)
14 Sa-Bit Set Request (MGC -> SG)
15 Sa-Bit Set Confirm (SG -> MGC)
16 Sa-Bit Status Request (MGC -> SG)
17 Sa-Bit Status Indication (SG -> MGC)
18 Error Indication (SG -> MGC)
4.4. Link Status Messages (Start Reporting, Stop Reporting, Indication)
The Link Status Messages are used between V5 System Management on the
MGC and the L1 FSM on the SG to track the status of a particular E1
link. This is required whether or not the E1 link carries
C-channels.
All Link Status Messages contain the V5UA Message Header. The Link
Identifier portion of the Interface Identifier identifies the
physical link on the SG addressed by the message. For all link
status messages, the Chnl ID SHALL be set to '0' and SHALL be ignored
by the receiver.
The integer value used for the Link Identifier is of local
significance only, and is coordinated between the SG and MGC. It
MUST be unique for every V5 link on the SG.
As defined by the V5 standards, V5 System Management must know the
status of the links on all active V5 interfaces. The Link Status
Start Reporting Message is used by V5 System Management on the MGC to
request that the L1 FSM on the SG starts reporting the status of a
particular link.
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V5 system management SHALL send this Message on interface activation
for all links on the interface. The SG SHALL respond immediately to
this request with a Link Status Indication message, and it SHALL then
send a Link Status Indication message on all subsequent changes of
the link status. Since the SG has no other way to determine whether
a link is on an active interface or not, this message SHALL always be
sent on interface startup.
If the L1 FSM in the SG receives a Link Status Start Reporting
Message for a link that is already active (the link status is
reported to System Management), the SG SHALL immediately report the
actual status of this link by sending a Link Status Indication
Message. The SG SHALL then proceed with the automatic link status
reporting as described above.
To stop this reporting of the status of a link, e.g., at interface
deactivation, System Management sends a Link Status Stop Reporting
Message to the L1 FSM. The SG will then immediately stop reporting
the status of the particular link and will assume the link to be out
of service. It MUST NOT respond in any way to this message.
Since there is no other way for the SG to know that an interface has
been deactivated, this message SHALL be sent on interface
deactivation for all links on the interface. On reception of this
message, the SG SHALL take L2 down on this link.
If the L1 FSM in the SG receives a Link Status Stop Reporting Message
for a link that is not active (the link status is not reported to
System Management), the SG SHALL ignore the message.
The Link Status Start/Stop Reporting Messages contain the common
message header followed by the V5UA message header. They do not
contain any additional parameters.
The Link Status Indication Message is used by L1 FSM in the SG in
response to a Link Status Start Reporting Message to indicate the
status of the particular link. After a Link Status Start Reporting
Message has been received by the L1 FSM, it SHALL automatically send
a Link Status Indication Message every time the status of the
particular link changes. It SHALL not stop this reporting until it
receives a Link Status Stop Report Message from System Management.
The Link Status Indication Message contains the common message header
followed by the V5UA message header. In addition, it contains the
following link status parameter:
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RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Tag (0x82) | Length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Link Status |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
The valid values for Link Status are shown in the following table:
Define Value Description
OPERATIONAL 0x0 Link operational
NON-OPERATIONAL 0x1 Link not operational
4.5. Sa-Bit Messages (Set Request, Set Confirm, Status Request,
Status Indication)
The Sa-Bit Messages are used between V5 System Management in the MGC
and the L1 FSM in the SG to set and read the status of Sa bits on the
E1 links. For V5, it is only required to set and read the status of
the Sa7 bit that is used for the Link Identification procedure as
described by the V5 standards [3].
All Sa-Bit Messages SHALL contain the V5UA message header. The Link
Identifier portion of the Interface Identifier identifies the
physical link on the SG addressed by the message. For all link
status messages, the Chnl ID SHALL be set to '0' and SHALL be ignored
by the receiver.
The Link Identifier MUST be the same as used in the Interface
Identifier to identify on which link a C-channel is located.
The Sa-Bit Set Request message is used to set the value of the
specified Sa-Bit on the defined link. The value of the Sa7 bit in
normal operation is ONE. For the Link Identification procedure, it
is set to ZERO.
The Sa-Bit Set Request message for the Sa7 bit with Bit Value ZERO
corresponds to the V5 defined primitive MPH-ID. The Sa-Bit Set
Request message for the Sa7 bit with Bit Value ONE corresponds to the
V5 defined primitive MPH-NOR.
The SG MUST answer a Sa-Bit Set Request message with a Sa-Bit Set
Confirm message when the setting of the bit is complete. This
message does not correspond to a V5 defined primitive.
Weilandt, et al. Standards Track [Page 16]RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
The Sa-Bit Status Request message is used by system management to
request the status of the specified Sa-Bit on the defined link from
L1 FSM. The Sa-Bit Status Request message for the Sa7 bit
corresponds to the V5 defined primitive MPH-IDR.
L1 FSM answers the Sa-Bit Status request message by a Sa-Bit Status
Indication message in which the current setting of the bit will be
reported. The Sa-Bit Status Indication message for the Sa7 bit with
Bit Value ZERO corresponds to the V5 defined primitive MPH-IDI. The
Sa-Bit Status Indication message for the Sa7 bit with Bit Value ONE
corresponds to the V5 defined primitive MPH-Elg.
All Sa-Bit Messages contain the following additional parameter:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Tag (0x83) | Length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| BIT ID | Bit Value |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
The valid values for Bit Value are shown in the following table:
Define Value Description
ZERO 0x0 Bit value ZERO
ONE 0x1 Bit value ONE
The valid value for BIT ID is shown in the following table:
Define Value Description
Sa7 0x7 Addresses the Sa7 bit
There are no other valid values for V5UA. All other values are
reserved for future use.
For the Sa-Bit Status Request and Set Confirm messages, the BIT Value
SHALL be set to '0' by the sender and SHALL be ignored by the
receiver.
4.6. Error Indication Message
The Error Indication Message is used between the V5 stack on the SG
and the V5 System Management in the MGC to indicate an error
condition at the SG.
Weilandt, et al. Standards Track [Page 17]RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
The only valid reason for the Error Indication Message is Overload.
The SG SHOULD issue such an Error Indication with reason Overload for
a C-channel if it is not able to process all Layer 3 messages on this
C-channel in a timely manner (overload condition of the C-channel).
The Error Indication message SHALL contain the V5UA message header.
The Interface Identifier indicates the affected C-channel. SAPI, TEI
and EFA SHALL be set to '0' and SHALL be ignored by the receiver.
The Error Indication message contains the following additional
parameter:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Tag (0x84) | Length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Error Reason |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
The valid values for Error Reason are shown in the following table:
Define Value Description
OVERLOAD 0x1 C-channel is in overload state
There are no other valid values for V5UA. All other values are
reserved for future use.
5. Procedures
5.1. V5 Layer 1 failure
The normal way to handle a V5 Layer 1 failure is described in the V5
standards[2,3] as follows:
- The L1 FSM detects the V5 Layer 1 failure. It reports this to
V5 System management by sending a MPH-DI primitive for the
affected link.
- V5 System management notifies V5 Layer 2 of the V5 Layer 1
outage by sending a MPH-Layer_1 Failure Ind primitive.
Since V5 Layer1/2 and V5 System Management are no longer co-located
in the backhaul architecture, it does not make sense to notify V5
Layer 2 about V5 Layer 1 failure via V5 system management. Instead,
V5 Layer 2 SHALL be notified directly by V5 Layer 1 on the SG. V5
Weilandt, et al. Standards Track [Page 18]RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
Layer 1 SHALL report the outage to V5 system management by sending a
Link Status Indication message with status NON-OPERATIONAL,
corresponding to an MPH-DI primitive as defined by the V5.2 standard.
V5 system management SHALL NOT send an MPH-Layer_1 Failure Ind
primitive to V5 Layer 2 in response to this message.
5.2. Loss of V5UA peer
If SCTP failure is detected or the heartbeat is lost, the following
procedure SHALL be performed:
When loss of V5UA peer is reported to the V5UA layer, the ASP SHALL
behave as if it had received a Link Status Indication (non-
operational) for all links on this SG.
The ASP SHALL attempt to re-establish the connection continuously.
When the connection is re-established, the ASP SHALL send a Link
Status Start Reporting message to the SG for all links on active V5
interfaces on the SG.
An example for the message flow for re-establishment of the
connection is shown below for one active link on the SG:
ASP SG
| |
| -------- Link Status Start Reporting ---------> |
| |
| <------ Link Status Ind (operational) --------- |
| |
If the association can be re-established before the V5UA layer is
notified, communication SHALL proceed as usual and no other action
SHALL be taken by the ASP.
5.3. C-channel overload on SG
If the SG detects an overload condition on a C-channel, it SHOULD
indicate this by sending an Error Indication message, with the reason
Overload to the MGC. The MGC SHOULD then take appropriate actions to
clear this overload condition.
The SG SHALL resend the Error Indication message with the reason
Overload as long as the overload condition persists. An interval of
120 seconds for resend of this message is RECOMMENDED.
Weilandt, et al. Standards Track [Page 19]RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
6. Examples
6.1. Link Identification Procedure (successful)
The Link Identification Procedures themselves are described by the
V5.2 standard [3].
A message flow example for an LE initiated Link Identification
procedure over V5UA is shown below. An active association between
ASP and SG is established prior to the following message flows, and
the V5 interface is already in service:
ASP SG
| |
| ------ Data Request (LnkCtrl: FE-IDReq) ------> |
| <-- Data Indication (LnkCtrl Ack: FE-IDReq) --- |
| |
| <---- Data Indication (LnkCtrl: FE-IDAck) ----- |
| ---- Data Request (LnkCtrl Ack: FE-IDAck) ----> |
| |
| ------ Sa-Bit Status Request ( Sa7 ) ---------> |
| <--- Sa-Bit Status Indication ( Sa7, ZERO ) --- |
| |
| ------- Data Request (LnkCtrl: FE-IDRel) -----> |
| <--- Data Indication (LnkCtrl Ack: FE-IDRel) -- |
| |
Weilandt, et al. Standards Track [Page 20]RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
The next example also shows a Link Identification procedure, but this
time it is initiated by the AN. Again, the ASP association and the
V5 interface are already in service:
ASP SG
| |
| <---- Data Indication (LnkCtrl: FE-IDReq) ----- |
| -- Data Request (LnkCtrl Ack: FE-IDReq) ------> |
| |
| ---------- Sa-Bit Set Req ( Sa7, ZERO ) ------> |
| <--------- Sa-Bit Set Conf (Sa7) -------------- |
| |
| ------- Data Request (LnkCtrl: FE-IDAck) -----> |
| <-- Data Indication (LnkCtrl Ack: FE-IDAck) --- |
| |
| <---- Data Indication (LnkCtrl: FE-IDRel) ----- |
| ---- Data Request (LnkCtrl Ack: FE-IDRel) ----> |
| |
| ------------ Sa-Bit Set Req ( Sa7, ONE ) -----> |
| <----------- Sa-Bit Set Conf (Sa 7) ----------- |
| |
7. Security Considerations
The security considerations discussed for the 'Security
Considerations for SIGTRAN Protocols' [5] document apply to this
document.
8. IANA Considerations
8.1. SCTP Payload Protocol Identifiers
IANA has assigned a V5UA value for the Payload Protocol Identifier in
the SCTP DATA chunk. The following SCTP Payload Protocol identifier
is registered:
V5UA "6"
The SCTP Payload Protocol identifier value "6" SHOULD be included in
each SCTP DATA chunk to indicate that the SCTP is carrying the V5UA
protocol. The value "0" (unspecified) is also allowed but any other
values MUST not be used. This Payload Protocol Identifier is not
directly used by SCTP but MAY be used by certain network entities to
identify the type of information being carried in a Data chunk.
Weilandt, et al. Standards Track [Page 21]RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
The User Adaptation peer MAY use the Payload Protocol Identifier as a
way of determining additional information about the data being
presented to it by SCTP.
8.2. V5UA Port Number
IANA has registered SCTP (and UDP/TCP) Port Number 5675 for V5UA.
9. Acknowledgements
The authors would like to thank Fahir Ergincan, Milos Pujic, Graeme
Currie, Berthold Jaekle, Ken Morneault and Lyndon Ong for their
valuable comments and suggestions.
10. References
10.1. Normative References
[1] Morneault, K., Rengasami, S., Kalla, M. and G. Sidebottom, "ISDN
Q.921-User Adaptation Layer", RFC 3057, February 2001.
[2] ETSI EN 300 324-1 (1999): V interfaces at the digital Local
Exchange (LE); V5.1 interface for the support of Access Network
(AN); Part 1: V5.1 interface specification.
[3] ETSI EN 300 347-1 (1999): V interfaces at the digital Local
Exchange (LE); V5.2 interface for the support of Access Network
(AN); Part 1: V5.2 interface specification.
[4] ETSI ETS 300 125 (1991) : DSS1 protocol; User-Network interface
data link layer specification; (Standard is based on : ITU
Q.920, Q.921).
[5] Loughney, J., Tuexen, M., Ed. and J. Pastor-Balbas, "Security
Considerations for Signaling Transport (SIGTRAN) Protocols", RFC
3788, May 2004.
Weilandt, et al. Standards Track [Page 22]RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
10.2. Informative References
[6] Stewart, R., Xie, Q., Morneault, K., Sharp, C., Schwarzbauer,
H., Taylor, T., Rytina, I., Kalla, M., Zhang, L. and V. Paxson,
"Stream Control Transmission Protocol", RFC 2960, October 2000.
[7] Bradner, S., "Key words for use in RFCs to Indicate Requirement
Levels", BCP 14, RFC 2119, March 1997.
11. Authors' Addresses
Dr. Eva Weilandt
Conti Temic microelectronic GmbH
An der B31
88090 Immenstaad
Germany
Phone: +49 7545 8-2917
EMail: eva.weilandt@temic.com
Sanjay Rao
Nortel Networks
35 Davis Drive
Research Triangle Park, NC 27709
USA
Phone: +1-919-991-2251
EMail: rsanjay@nortelnetworks.com
Neeraj Khanchandani
Nortel Networks
35 Davis Drive
Research Triangle Park, NC 27709
USA
Phone: +1-919-991-2274
EMail: neerajk@nortelnetworks.com
Weilandt, et al. Standards Track [Page 23]RFC 3807 V5.2-User Adaptation Layer (V5UA) June 2004
12. Full Copyright Statement
Copyright (C) The Internet Society (2004). All Rights Reserved.
Copyright (C) The Internet Society (2004). This document is subject
to the rights, licenses and restrictions contained in BCP 78, and
except as set forth therein, the authors retain all their rights.
This document and the information contained herein are provided on an
"AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS
OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY AND THE INTERNET
ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS OR IMPLIED,
INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE
INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED
WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
Intellectual Property
The IETF takes no position regarding the validity or scope of any
Intellectual Property Rights or other rights that might be claimed to
pertain to the implementation or use of the technology described in
this document or the extent to which any license under such rights
might or might not be available; nor does it represent that it has
made any independent effort to identify any such rights. Information
on the procedures with respect to rights in RFC documents can be
found in BCP 78 and BCP 79.
Copies of IPR disclosures made to the IETF Secretariat and any
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The IETF invites any interested party to bring to its attention any
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this standard. Please address the information to the IETF at ietf-
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Acknowledgement
Funding for the RFC Editor function is currently provided by the
Internet Society.
Weilandt, et al. Standards Track [Page 24]
