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Network Working Group Brian Bidulock
INTERNET-DRAFT OpenSS7 Corporation
Expires in six months January 2, 2003
Load Selection (LOADSEL)
for
Signalling User Adaptation Layers
<draft-bidulock-sigtran-loadsel-01.txt>
Status of this Memo
This document is an Internet-Draft and is in full conformance with
all provisions of Section 10 or RFC 2026. Internet-Drafts are working
documents of the Internet Engineering Task Force (IETF), its areas,
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Abstract
This Internet-Draft describes Load Selection (LOADSEL) for
Signalling User Adaptation Protocols [IUA...TUA], which permits an
Application Server Processes (ASP) to indicate its placement within an
Application Server and permits an Signalling Gateway (SG) to
distribute traffic over ASPs in Application Servers under Application
Server Process (ASP) control.
1. Introduction
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1.1. Scope
This Internet-Draft provides parameters and associated procedures
in extension to the parameters and procedures of the Signalling User
Adaptation Layers (UAs) [IUA...TUA], for the purpose of permitting
Application Server Process control over placement of ASPs within
Application Servers (or Load Groups) [LOADGRP] as part of the normal
procedures of these UA protocols.
UA implementations supporting LOADSEL are intended to be compatible
with UA implementations not supporting LOADSEL.
1.2. Change History
1.2.1. Changes from Version 0.0 to Version 1.0
- added this section,
- updated release version and dates,
- updated references,
- updated postscript diagrams,
- minor formatting changes,
- updated author's address.
1.3. Terminology
LOADSEL supplements the terminology used in the UA documents
[IUA...TUA] by adding the following terms:
Load Selection - a partition of traffic within an Application Server
described by the Load Selection parameter and identified by a Load
Selector parameter.
Load Selector (LS) - an identifier that uniquely identifies a
partition of traffic flow within an Application Server. This
identifier is only guaranteed unique within the scope of an
Application Server and must be combined with a Routing Context (or
Interface Identifier(s)) (explicitly or implicitly) to uniquely
define a partition of traffic flow at a Signalling Gateway.
Signalling User Adaptation Layer (UA) - one or more of the Stream
Control Transmission Protocol (SCTP) [RFC 2960] ISDN Signalling
User Adaptation Layers [IUA...GR303UA] or SS7 Signalling User
Adaptation Layers [M2UA...TUA] supporting the concept of an
Application Server.
1.4. Overview
UA procedures with regard to traffic distribution and ASP traffic
management provide a mechanism to select the algorithm for
coordinating state and distributing traffic over a number of
Application Server Processes (ASPs) serving an Application Server
(AS). These existing procedures provide only simplified distribution
approaches which are not amenable in the following situations:
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(1) Connection- or Transaction-Oriented traffic flows which group
the messages corresponding to a connection or a transaction.
(2) Large scale systems that need to adapt to dynamic traffic
loading.
(3) Systems that need dynamic reconfiguration under ASP control for
maintenance or fail-over purposes.
(4) Systems that require ASP control over load-sharing.
LOADSEL for the Signalling User Adaptation Layers [IUA...TUA]
permits close control over the placement and grouping of Application
Server Processes serving an Application Server that provides for load
selection placement within the Application Server: a capability not
present in the existing scheme.
Under existing UA traffic distribution, there is no mechanism which
permits an Application Server Process (ASP) to indicate which of a
number of ASPs it wishes to override in an Override AS. There is also
no mechanism which permits an ASP to indicate which traffic flows it
wishes to process within a Load-share or Broadcast AS.
LOADSEL provides the ability for the ASP itself to control its
placement within an AS, be informed of the failure of ASPs serving
other load selections within the AS, and chose to activate itself to
receive additional load selections within the AS. LOADSEL also
permits grouping of ASPs within a load selection.
1.4.1. Non-Load Selection Traffic Distribution
Figure 1 illustrates the existing traffic distribution algorithm
that is used across the Signalling User Adaptation Layers.
When an SGP distributes a Signalling User Adaptation Layer message
toward the Application Server based on the Routing (Link) Key, it
selects an ASP that is active for the AS according to the Traffic Mode
Type that is associated with the AS. The Traffic Mode Type describes
three general distribution algorithms: Override, Load-share and
Broadcast.
The detailed actions taken for these distribution algorithms are
described in Section 4 of the Signalling User Adaptation Layer
specifications [IUA...TUA]; however, they can be summarized as
follows:
Override:- When distributing messages to an Override Application
Server, the SGP selects the ASP which is active for the Application
Server. In an Override Application Server, at most one ASP can be
active for the AS at any given point in time. The active ASP for
the AS is selected.
A major limitation of the Override AS that is removed by LOADSEL is
that only one ASP can be active within an Application Server. This
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____
Traffic /....\
Mode Type ____|__....|
| |...|
_______ /------------------>| ASP |...|
| |---\ |_______|...|
| SGP |--\ \ ____|__....|
|_______|-\ \ \ | |...|
\ \ \ \------------>| ASP |...|
_______ \ \ \ |_______|...|
| | \ \ \ ____|__....| Application
| SGP | \ \ \ | |...| Server
|_______| \ \ \---------->| ASP |...|
\ \ |_______|...|
\ \ ____|__....|
\ \ | |...|
\ \-------->| ASP |...|
\ |_______|...|
\ ____|__....|
\ | |...|
\------>| ASP |...|
|_______|...|
|......|
\____/
Figure 1. Non-Load Selection Traffic Distribution
does not work when the number of ASPs required to service an AS is
greater than one.
Load-share:- When distributing messages to a Load-share Application
Server, the SGP selects one of the ASPs that are active for the
Application Server using an implementation dependent load-sharing
algorithm based on some unspecified aspect of the traffic or static
configuration data.
A major limitation of the Load-share AS is that each ASP in the
Application Server must be capable of handling any (and all)
traffic within the Load-share AS. Under the current approach an
SGP does not distinguish between ASPs in a Load-share AS and, aside
from perhaps attempting to equally distribute traffic load over the
available ASPs, it is not possible for the ASPs to control which
traffic flows it receives. This causes management difficulties
when the number of ASPs required to service an AS is large, but the
number of spare ASPs is small. It also causes considerable
difficulty when each ASP does not have access to the entire AS call
or transaction state.
Broadcast:- When distributing messages to a Broadcast Application
Server, the SGP sends a copy of the message to each of the ASPs
that are active for the Application Server. The ASPs themselves
decide which, if any, of the ASPs will process the message.
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A major limitation of the Broadcast AS is that each ASP receives
each message. This does not scale well when the number of ASPs
needed to service an AS is large.
LOADSEL enhances the traffic distribution algorithms of the
existing Signalling User Adaptation Layers by providing ASP control
over its placement within an AS by load selection.
1.4.2. Load Selection Traffic Distribution
Figure 2 illustrates the LOADSEL traffic distribution algorithms
that are used across the Signalling User Adaptation Layers as a result
of the LOADSEL messages and procedures.
LOADSEL introduces the concept of a Load Selector. A Load Selector
is an identifier that is used to identify a traffic flow within (or
across) Application Server(s). Signalling Gateway Processes (SGPs)
distribute traffic first over the Load Selector and then distribute
traffic within the Load Selector. Each Load Selector describes (and
is identified by) an identifier within the Application Server. The
Load Selector identifies the traffic flows that will be distributed to
ASPs associated with the Load Selector within an Application Server.
When an SGP distributes a Signalling User Adaptation Layer message
toward an Application Server based on the Routing (Link) Key, it first
Traffic Load ____
Mode Type Selection /....\
____|__....|
LS1 | |...|
_______ /------------------>| ASP |...|
| |---\ |_______|...|
| SGP |--\ \ ____|__....|
|_______|-\ \ \ LS2 | |...|
\ \ \------------>| ASP |...|
_______ \ \ |_______|...|
| | \ \ ____|__....| Application
| SGP | \ \ LS3 | |...| Server
|_______| \ \---------->| ASP |...|
\ |_______|...|
\ ____|__....|
\ | |...|
\-------->| ASP |...|
| |_______|...|
| LS4 ____|__....|
| | |...|
\-------->| ASP |...|
|_______|...|
|......|
\____/
Figure 2. Load Selection Traffic Distribution
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derives a Load Selector according to a UA-specific, AS-specific and
implementation-dependent load selection algorithm. This load
selection algorithm is configured at the SGP and may consist, for
example, of the Signalling Link Selection (SLS) [Q.704], Circuit
Identification Code (CIC) [Q.723, Q.763], Subsystem Number (SSN)
[Q.713], Destination Local Reference (DLR) [Q.713], or Transaction Id
(TID) [Q.773], value contained in the message for distribution.
Once the SGP has determined the Load Selector to which the message
corresponds, an ASP that is active for the associatd Load Selection
within the AS is selected. When multiple ASPs are active for the same
Load Selection within an AS, the SGP uses the traffic handling mode
based on the Traffic Mode Type associated with the Application Server
(or Load Group[1]) to choose the ASP within the load selection.
Under LOADSEL, the Traffic Mode Type continues to describe three
general distribution algorithms: Override, Load-share and Broadcast.
The change in the behavior of the SGP when selecting an ASP for
traffic distribution introduced by LOADSEL is that the SGP also takes
into account the concept of a Load Selector. The LOADSEL procedures
are summarized as follows:
Override:- When distributing messages to an Override Application
Server, the SGP first determines the Load Selector associated with
the message. The SGP then distributes the message to the ASP that
is active for the traffic flow indicated by the Load Selector
within the AS. In an Override Application Server, at most one ASP
can be active for the AS within a Load Selector at any given point
in time. The active ASP associated with the Load Selector for the
AS is used.
Load-share:- When distributing messages to a Load-share Application
Server, the SGP first determines the Load Selector associated with
the message. The SGP then selects one of the active ASPs
associated with the Load Selector within the AS using an
implementation dependent load-sharing algorithm based on some
unspecified aspect of the traffic or static configuration data.
Broadcast:- When distributing messages to a Broadcast Application
Server, the SGP first determines the Load Selector associated with
the message. The SGP then selects all of the active ASPs
associated with the Load Selector within the AS and sends a copy of
the message to each ASP. (The ASPs themselves decide which ASP(s)
will process the message.)
The result of this extension is that Application Server Processes
have control over their placement within an Application Server and can
control the traffic that they receive by registering and activating
for specific Load Selectors within the AS.
2. Conventions
The keywords MUST, MUST NOT, REQUIRED, SHALL, SHALL NOT, SHOULD,
SHOULD NOT, RECOMMENDED, NOT RECOMMENDED, MAY, and OPTIONAL, when they
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appear in this document, are to be interpreted as described in [RFC
2119].
3. Protocol Elements
The following subsections describe the parameters which are added
by this extension, their format and the messages in which they are
used.
3.1. Parameters
LOADSEL adds one new parameter: the Load Selector parameter.
3.1.1. Load Selector
The Load Selector parameter is used in the REG RSP, ASPAC, ASPAC
ACK, ASPIA, ASPIA ACK, and NTFY messages. It is used to identify the
placement of the ASP within an Application Server. It identifies the
Load Selection (partition of traffic flow) for which the ASP is
registering, activating or deactivating, or when the SG is indicating
or notifying of an ASP state change.
The Load Selector parameter is formatted as follows:
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 = 0x0018 | Length |
+-------------------------------+-------------------------------+
\ \
/ Load Selector 1 /
\ \
+---------------------------------------------------------------+
\ \
/ ... /
\ \
+---------------------------------+-----------------------------+
\ \
/ Load Selector n /
\ \
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
EDITOR'S NOTE:- The parameter tag values shown as 0x0018)
above will be assigned by IANA within the common parameter
range of the SIGTRAN UAs and may change its value in further
versions of this document.
The Load Selector parameter contains the following fields:
Load Selector field: n x 32-bits (unsigned integer)
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The Load Selector forms and extension to the Routing (Link) Key and
an attribute of the Application Server as indicated by the Routing
Context (Interface Identifier(s)).
The Load Selector field is an identifier, that MUST be unique within
an Application Server and MAY be unique within an administrative
domain, that identifies the placement or Load Selection of an ASP
within an AS. This identifier, in conjunction with any Application
Server identifier (i.e, Routing Context or Interface Identifier(s)),
identifies the traffic flow for which an ASP is registering,
activating or deactivating, or for which an SG is providing
notification of an ASP or AS state change.
When the Load Selector parameter is included in the ASPAC, ASPAC
ACK, ASPIA, ASPIA ACK or NTFY message, one Routing Context (Interface
Identifier(s)) representing a single Application Server SHOULD be
associated (specified or implied) with the message.
3.1.2. Load Selection
The Load Selection parameter is used in the REG REQ message. It is
used to register the placement of an ASP within an Application Server.
The Load Selection parameter is formatted as follows:
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 = 0x0019 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Load Key Parameter(s) /
\ \
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
EDITOR'S NOTE:- The parameter tag values shown as 0x0019)
above will be assigned by IANA within the common parameter
range of the SIGTRAN UAs and may change its value in further
versions of this document.
The Load Key Parameter(s) can contain the following parameters:
UA Parameters
----------------------------------------------------
M2UA SLS Range Mandatory *1
----------------------------------------------------
M3UA Service Indicators Conditional *2
CIC Range Conditional
----------------------------------------------------
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SUA Address Range Conditional *3
DLR Label Conditional
TID Label Conditional
----------------------------------------------------
ISUA CIC Range Mandatory
----------------------------------------------------
TUA Address Range Condtional *3
Transaction Id Range Conditional *4
----------------------------------------------------
Note 1: The SLS Range parameter has not yet been defined for M2UA
[M2UA].
Note 2: When the Service Indicators parameter is used in the Load
Selection, it SHOULD be more restricted than (a subset of) any
Service Indicators parameter present in the Routing Key
parameter for routing purposes.
Note 3: When the Address Range parameter is used in the Load
Selection, it SHOULD be more restrictive than (a subset of)
any Address Range parameter present in the Routing Key
parameter for routing purposes.
Note 4: When the Transaction Id Range parameter is used in the Load
Selection, it SHOULD be more restrictive than (a subset of)
any Transaction Id Range parameter present in the Routing Key
parameter for routing purposes.
The Load Selection parameter SHOULD contain at least one Load
Selection Parameter.
3.2. Messages
LOADSEL adds the Load Selector parameter as an OPTIONAL parameter
to be used in conjunction with the common Traffic Mode Type in the
following messages: [2]
REG REQ Registration Request message
REG RSP Registration Response message
ASPAC ASP Active message
ASPAC ACK ASP Active Ack message
ASPIA ASP Inactive message
ASPIA ACK ASP Inactive Ack message
NTFY Notify message
3.2.1. Registration Request (REG REQ)
LOADSEL supplements the Registration Request (REG REQ) message by
permitting the following optional parameters to be included in the
Routing Key [M3UA...TUA] or Link Key [M2UA] parameter within the
message:
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Extension Parameters
-----------------------------------------
Load Selection Optional
The Load Selector parameter is used in the Routing Key (Link Key)
to further refine the traffic load selection to be received by the
registering ASP.
The format of the resulting Routing Key or Link Key parameter is as
follows:
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 = | Length = 8 |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
| Local-RK(LK)-Identifier |
+-------------------------------+-------------------------------+
| Tag = 0x0000 | Length = 8 |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
| Traffic Mode Type |
+-------------------------------+-------------------------------+
| Tag = 0x0019 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Load Selection /
\ \
+---------------------------------------------------------------+
\ \
/ Key Parameter(s) /
\ \
/ /
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
EDITOR'S NOTE:- The parameter tag values shown as 0x0019)
above will be assigned by IANA within the common parameter
range of the SIGTRAN UAs and may change its value in further
versions of this document.
When an ASP wishes to register within a Load Selection associated
with an Application Server, it includes the Load Selection parameter
in the Routing Key (Link Key) for that Application Server in the REG
REQ message.
The Load Selection parameter indicates the traffic load selection
to be used within the Application Server as identifier by the Routing
(Link) Key parameter.
When the ASP includes the Load Selection parameter in the Routing
(Link) Key it expects the SGP to respond with a Load Selector
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parameter in addition to the Routing Context to indicate the
identifier for the Load Selection specified. In this way, the Load
Selection parameter is analogous to the Routing Key and the Load
Selector parameter is analogous to the Routing Context.
No other changes to the REG REQ message, Routing Key or Link Key
parameters formats are provided by this extension.
3.2.2. Registration Response (REG RSP)
LOADSEL supplements the Registration Response (REG RSP) message by
permitting the following optional parameters to be include in the
Registration Result parameter within the message:
Extension Parameters
-----------------------------------------
Load Selector Optional
The Load Selector parameter is used in the Regsitration Result to
provide an identifier for the registered Load Selection.
The format of the resulting Registration Response parameter is as
follows:
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 = | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
| Local-RK(LK)-Identifier |
+---------------------------------------------------------------+
| Regsitration Status |
+---------------------------------------------------------------+
| Routing Context (Interface Identifier) |
+---------------------------------------------------------------+
| Load Selector |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
When the SGP replies to a REG REQ that contained a Load Selection
parameter, and the registration is successful, it returns the Load
Selector in the REG RSP associated with the Load Selection in the REG
REQ.
When the registration is unsuccessful (i.e. the Registration Status
indicates an error), the Load Selector SHOULD NOT be included in the
REG RSP message.
LOADSEL extends the common Registration Status parameter in the REG
RSP message by adding the following values to the Registration Status:
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Value Description
--------------------------------------------------
12 Error - Unsupported Load Selection
13 Error - Invalid Load Selection
14 Error - Cannot Support Unique Loadsharing
15 Error - Unsupported LS Parameter Field
EDITOR'S NOTE:- The Registration Status values shown as 12,
13, 14 and 15 above will be assigned by IANA as a value of the
UA-specific Registration Status parameter for each SIGTRAN UA
and may change its value in further versions of this document.
No other changes to the REG RSP message or Regsitration Response
parameter formats are provided by this extension.
3.2.3. ASP Active (ASPAC)
LOADSEL supplements the ASP Active (ASPAC) message by permitting
the following optional parameters to be included in the ASPAC message:
Extension Parameters
-----------------------------------------
Load Selector Optional
The format of the resulting ASPAC message is as follows: [2]
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 = 0x000b | Length = 8 |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
| Traffic Mode Type |
+---------------------------------------------------------------+
\ \
/ Routing Context /
\ or \
/ Interface Identifier(s) /
\ \
+-------------------------------+-------------------------------+
| Tag = 0x0018 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Load Selector /
\ \
+-------------------------------+-------------------------------+
| Tag = 0x0004 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Info String /
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Internet Draft UA LOADSEL January 2, 2003
\ \
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
EDITOR'S NOTE:- The parameter tag values shown as 0x0018)
above will be assigned by IANA within the common parameter
range of the SIGTRAN UAs and may change its value in further
versions of this document.
The Load Selector parameter is used by the ASP in the ASPAC message
to indicate the range of traffic for which the ASP is activating. The
Application Servers for which the Load Selectors apply is either
indicated in the ASPAC message by providing the associated Routing
Context (Interface Identifier(s)) or, if there is no Routing Context
(Interface Identifier) parameter in the ASPAC message, the associated
Application Servers are implied by SGP and ASP configuration data.
(See Section 4.1.5 - "ASP Active Procedures".)
No other changes to the ASPAC message format are provided by this
extension.
3.2.4. ASP Active Ack (ASPAC ACK)
LOADSEL supplements the ASP Active Ack (ASPAC ACK) message by
permitting the following optional parameters to be included in the
ASPAC ACK message:
Extension Parameters
-----------------------------------------
Load Selector Optional
The format of the resulting ASPAC ACK message is as follows: [2]
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 = 0x000b | Length = 8 |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
| Traffic Mode Type |
+---------------------------------------------------------------+
\ \
/ Routing Context /
\ or \
/ Interface Identifier(s) /
\ \
+-------------------------------+-------------------------------+
| Tag = 0x0018 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Load Selector /
\ \
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+-------------------------------+-------------------------------+
| Tag = 0x0004 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Info String /
\ \
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
EDITOR'S NOTE:- The parameter tag values shown as 0x0018)
above will be assigned by IANA within the common parameter
range of the SIGTRAN UAs and may change its value in further
versions of this document.
The Load Selector parameter is used by the SGP in the ASPAC ACK
message to indicate the range of traffic for which the SGP has
activated the ASP. The Application Servers for which the Load
Selectors apply is either indicated in the ASPAC ACK message by
providing the associated Routing Context (Interface Identifier(s)) or,
if there is no Routing Context (Interface Identifier) parameter in the
ASPAC ACK message, the associated Application Servers are implied by
SGP and ASP configuration data. (See Section 4.1.5 - "ASP Active
Procedures".)
No other changes to the ASPAC ACK message format are provided by
this extension.
3.2.5. ASP Inactive (ASPIA)
LOADSEL supplements the ASP Inactive (ASPIA) message by permitting
the following parameters to be included in the ASPIA message:
Extension Parameters
-----------------------------------------
Load Selector Optional
The format of the resulting ASPIA message is as follows: [2]
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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
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
\ \
/ Routing Context /
\ or \
/ Interface Identifier(s) /
\ \
+-------------------------------+-------------------------------+
| Tag = 0x0018 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Load Selector /
\ \
+-------------------------------+-------------------------------+
| Tag = 0x0004 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Info String /
\ \
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
EDITOR'S NOTE:- The parameter tag values shown as 0x0018)
above will be assigned by IANA within the common parameter
range of the SIGTRAN UAs and may change its value in further
versions of this document.
The Load Selector parameter is used by the ASP in the ASPIA message
to indicate the range of traffic for which the ASP is deactivating.
The Application Servers for which the Load Selectors apply is either
indicated in the ASPIA message by providing the associated Routing
Context (Interface Identifiers) or, if there is no Routing Context
(Interface Identifier) parameter in the ASPIA message, the associated
Application Servers are implied by SGP and ASP configuration data.
(See Section 4.1.6 - "ASP Inactive Procedures".)
No other changes to the ASPIA message format are provided by this
extension.
3.2.6. ASP Inactive Ack (ASPIA ACK)
LOADSEL supplements the ASP Inactive Ack (ASPIA ACK) message by
permitting the following parameters to be included in the ASPIA ACK
message:
Extension Parameters
-----------------------------------------
Load Selector Optional
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The format of the resulting ASPIA ACK message is as follows: [2]
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
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
\ \
/ Routing Context /
\ or \
/ Interface Identifier(s) /
\ \
+-------------------------------+-------------------------------+
| Tag = 0x0018 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Load Selector /
\ \
+-------------------------------+-------------------------------+
| Tag = 0x0004 | Length |
+- - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - - -+
\ \
/ Info String /
\ \
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
EDITOR'S NOTE:- The parameter tag values shown as 0x0018)
above will be assigned by IANA within the common parameter
range of the SIGTRAN UAs and may change its value in further
versions of this document.
The Load Selector parameter is used by the SGP in the ASPIA ACK
message to indicate the range of traffic for which the SGP has
deactivated the ASP. The Application Servers for which the Load
Selectors apply is either indicated in the ASPIA ACK message by
providing the associated Routing Context (Interface Identifiers) or,
if there is no Routing Context (Interface Identifier) parameter in the
ASPIA ACK message, the associated Application Servers are implied by
SGP and ASP configuration data. (See Section 4.1.6 - "ASP Inactive
Procedures".)
No other changes to the ASPIA ACK message format are provided by
this extension.
3.2.7. Error (ERR)
LOADSEL supplements the Error (ERR) message by adding the following
values to the common mandatory Error Code parameter in the ERR
message:
29 Invalid Load Selector
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EDITOR'S NOTE:- The Error Code value shown as 29) above will
be assigned by IANA as a value of the common Error Code
parameter for SIGTRAN UAs and may change its value in further
versions of this document.
These new error codes are interpreted as follows: [2]
The "Invalid Load Selector" error would be sent in an ERR message if
the SG determines that one or more Load Selectors in the Load
Selector parameter provided by the ASP is invalid, is not
configured, or cannot be supported.
No other changes to the ERR message or Error Code parameter format
are provided by this extension. See Section 4 for extension
procedures associated with the ERR message.
3.2.8. Notify (NTFY)
LOADSEL supplements the Notify (NTFY) message by permitting the
following parameters to be included in the NTFY message:
Extension Parameters
-----------------------------------------
Load Selector Optional
The format of the resulting NTFY message is as follows: [2]
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 = 0x000d | Length = 8 |
+- - - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - -+
| Status Type | Status Information |
+---------------------------------+-----------------------------+
| Tag = 0x0012 | Length = 8 |
+- - - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - -+
| ASP Identifier |
+---------------------------------------------------------------+
\ \
/ Routing Context /
\ or \
/ Interface Identifier(s) /
\ \
+---------------------------------+-----------------------------+
| Tag = 0x0018 | Length |
+- - - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - -+
\ \
/ Load Selector /
\ \
+---------------------------------+-----------------------------+
| Tag = 0x0004 | Length |
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+- - - - - - - - - - - - - - - - -+- - - - - - - - - - - - - - -+
\ \
/ Info String /
\ \
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
EDITOR'S NOTE:- The parameter tag values shown as 0x0018)
above will be assigned by IANA within the common parameter
range of the SIGTRAN UAs and may change its value in further
versions of this document.
The Load Selector parameter is used by the SGP in the NTFY message
to indicate the traffic load positions which led to or have
contributed to the change in state of an associated Application Server
when sending a NTFY message that indicates and Application Server
state change. The Application Servers for which the Load Selectors
apply is either indicated in the NTFY message by providing the
associated Routing Context (Interface Identifiers) or, if there is no
Routing Context (Interface Identifier) parameter in the NTFY message,
the associated Application Servers are implied by SGP and ASP
configuration data. (See Section 4.1.7 - "Notification Procedures".)
No other changes to the NTFY message format are provided by this
extension.
4. Procedures
LOADSEL provides for an additional level of control over the
traffic distribution patterns within an Application Server. LOADSEL
provides the Load Selector parameter which may be optionally included
in the ASPAC, ASPAC ACK, ASPIA, ASPIA ACK and NTFY messages. In
addition, it provides procedures for use of the Load Selector
parameter in association with these messages.
4.1. AS and ASP State Maintenance
In addition to the SGP maintaining the state of each remote ASP in
each Application Server that the ASP is configured to receive traffic,
under LOADSEL, SGP MAY also maintain the state of each remote ASP in
each Load Selection within an Application server that the ASP is
configured to receive traffic. Aside from the procedures described in
Section 4.1.7 "Notification Procedures", no management procedures are
provided by LOADSEL for maintaining the state of a Load Selection
within an Application Server. The Load Selection state is maintained
separate from the ASP and AS states.
4.1.1. ASP State
LOADSEL uses the existing UA [IUA...TUA] definitions and procedures
with regard to ASP State.
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4.1.2. AS State
The state of the Application Server is maintained in the Signalling
User Adaptation Layer on the SGPs. The state of the Application
Server changes due to ASP state transitions. The possible states of
an Application Server using LOADSEL are:
AS-DOWN: The Application Server is unavailable. This state
implies that all related ASPs are in the ASP-DOWN
state for this AS. Initially, the AS will be in this
state. An Application Server is in the AS-DOWN state
when it is removed from a configuration.
AS-INACTIVE: The Application Server is available but no application
traffic is active (i.e, one or more related ASPs are
in the ASP-INACTIVE state, but there is no ASP in the
ASP-ACTIVE state). The recovery timer T(r) is not
running or has expired.
AS-ACTIVE: The Application Server is available and application
traffic is active. This state implies that there is
at least one ASP in the ASP-ACTIVE state within the
AS.
AS-PENDING: An active ASP has transition to ASP-INACTIVE or ASP-
DOWN and it was the last remaining active ASP for a
Load Selection in the AS. A recovery timer T(r)
SHOULD be started and all incoming signalling messages
SHOULD be queue by the SGP for each of the Load
Selections for which there is no ASP in the ASP-ACTIVE
state. If an ASP becomes ASP-ACTIVE for each Load
Selection in the AS before T(r) expires, the AS is
moved to the AS-ACTIVE state and all the queued
messages for the Load Selection will be sent to the
newly active ASPs on each Load Selection.
4.1.3. ASP Up Procedures
When an SGP receives an ASP Up messages from an ASP and the ASP is
configured at the SGP in one or more Load Selections associated with
one or more Application Servers, if the ASP is not already in the ASP-
INACTIVE state for the associated Application Servers, the SGP moves
the ASP into the ASP-INACTIVE state for the configured Load Selections
within the associated Application Servers. In any event, the SGP
responds with an ASPUP ACK message.
If the ASP transition to the ASP-INACTIVE state within these Load
Selections results in a state change in the associated Application
Servers, the SGP moves the Application Server to the AS-INACTIVE
state. If the ASP transition to the ASP-INACTIVE state for the given
Load Selection within an associated Application Server results in a
change in state of the AS (or the Load Selections associated with the
AS), the SGP also follows the "Notification Procedures" (described in
Section 4.1.7) for the Application Server.
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Otherwise, the "ASP Up Procedures" described by the UAs [3] apply
also to LOADSEL.
4.1.4. ASP Down Procedures
When an SGP receives an ASP Down messages from an ASP and the ASP
is configured at the SGP in one or more Load Selections associated
with one or more Application Servers, if the ASP is not already in the
ASP-DOWN state for the associated Application Servers, the SGP moves
the ASP to the ASP-DOWN state for the configured Load Selections
within the associated Application Servers. In any event, the SGP
responds with an ASP Down Ack.
If the ASP transition to the ASP-DOWN state within these Load
Selections results in a state change in the associated Application
Servers, the SGP moves the Application Server to the AS-DOWN state.
Otherwise, the "ASP Down Procedures" described by the UAs [3] apply
also to LOADSEL.
4.1.5. ASP Active Procedures
When an ASP wishes to activate for a set of Load Selections
associated with an Application Server, it includes the Load Selector
parameter in the ASPAC message.
When an SGP receives and ASPAC message requesting activation for a
set of Load Selections within an AS or the SG otherwise activates the
ASP for a set of Load Selections within an AS, the SG sends an ASPAC
ACK message including the Load Selector parameter indicating the Load
Selections for which the ASP has been activated. If the SGP is
responding to an ASP that included the Load Selector parameter in the
ASPAC message, the SG MUST include the Load Selector parameter in the
response ASPAC ACK message.
If the Load Selector included in an ASPAC message contains invalid
information or indicate an unsupported Load Selection, or a Load
Selector parameter required by the SGP is missing, the SGP replies to
the ASPAC message with an ERR("Invalid Load Selector") message and
takes no further action with regard to AS or ASP state.
The Application Servers associated with the Load Selector is
indicated in the ASPAC (ACK) message by Routing Context (Interface
Identifiers) or, when the Routing Context (Interface Identifier)
parameter is missing from the ASPAC (ACK) message, is implied by ASP
and SGP configuration data. When the Load Selector parameter is
included in the ASPAC (ACK) message, the Routing Context (Interface
Identifier) parameter or implicit configuration data SHOULD be
associated with a single Application Server.
If the ASP transition to the ASP-ACTIVE state for the given Load
Selections within an associated Application Server results in a change
in state of the AS (or the Load Selections associated with the AS),
the SGP follows the "Notification Procedures" (described in Section
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4.1.7) for the Application Server.
Otherwise, the "ASP Active Procedures" described by the UAs [3]
apply also to LOADSEL.
4.1.6. ASP Inactive Procedures
When an ASP wishes to deactivate for a set of Load Selections
associated with an Application Server, it includes the Load Selector
parameter in the ASPIA message.
When an SGP receives an ASPIA message requesting deactivation for a
set of Load Selections within an AS or the SG otherwise deactivates
the ASP for a set of Load Selections within an AS, the SG sends an
ASPIA ACK message including the Load Selector parameter for which the
ASP has been deactivated. If the SGP is responding to an ASP that
included the Load Selector parameter in the ASPIA message, the SG MUST
include the Load Selector parameter in the response ASPIA ACK message.
If the SGP receives an ASPIA message from an ASP that is active for
a set of Load Selections associated with the Application Server for
which the ASP is requesting deactivation, and the Load Selector
parameter is not present in the ASPIA message, the SGP will interpret
this as a request to deactivate the ASP for all the Load Selections
associated with the Application Server for which the ASP is active.
If the Load Selector included in an ASPAC message contains invalid
information or indicates an unsupported Load Selector, the SGP replies
to the ASPAC message with an ERR("Invalid Load Selector") message and
takes no further action with regard to AS or ASP state.
The Application Servers associated with the Load Selector is
indicated in the ASPIA (ACK) message by Routing Context (Interface
Identifiers) or, when the Routing Context (Interface Identifier)
parameter is missing from the ASPIA (ACK) message, is implied by ASP
and SGP configuration data. When the Load Selector parameter is
included in the ASPIA (ACK) message, the Routing Context (Interface
Identifier) parameter or implicit configuration data SHOULD be
associated with a single Application Server.
If the ASP transition to the ASP-INACTIVE state for the given Load
Selections within an associated Application Server results in a change
in state of the AS (or the Load Selections associated with the AS),
the SGP follows the "Notification Procedures" (described in Section
4.1.7) for the Application Server.
Otherwise, the "ASP Inactive Procedures" described by the UAs [3]
apply also to LOADSEL.
4.1.7. Notify Procedures
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4.1.7.1. AS State Change
When an ASP makes a state transition and is configured for a set of
Load Selections in one or more Application Servers, the ASP state
transition may result in a change to the state of the associated
Application Servers, or Load Selections within those AS, at the SGP.
When a recovery timer T(r) expires, the associated Application Server
will transition from the AS-PENDING state to the AS-INACTIVE state.
Whenever an AS changes state, or the condition of the AS Load
Selections perpetuating the current AS state changes, the SGP MUST
notify all ASPs not in the ASP-DOWN state configured for the
Application Server by sending a Notify (NTFY) message to each
indicating the state of the Application Server in the Status
Information field of the Status parameter in the NTFY message.
When an Application Server is configured for LOADSEL, the SGP MUST
also include a list of Load Selections in the Load Selector parameter
for which the Application Server is configured that caused the AS
state change or is perpetuating the AS state.
The SGP includes the Routing Context (Interface Identifiers) that
identifies the Application Server for which the NTFY message is being
sent. If, however, the ASP is not configured for more than one
Application Server, the Routing Context (Interface Identifier) MAY be
excluded from the NTFY message as it is implied by configuration data.
Otherwise, the "Notification Procedures" described by the UAs [3]
apply also to LOADSEL.
Examples are given in Section 5.
4.1.7.2. ASP Override
Whenever an ASP becomes active for a Load Selection in an Override
Application Server, the Load Selector MUST be placed in a NTFY message
with a Status Information indicating "Alternate ASP active in AS",
along with the Routing Context (Interface Identifiers) for the
associated AS and any ASP Identifier associated with the ASP for which
the notification is being given.
Otherwise, the "Notification Procedures" described by the UAs [3]
apply also to LOADSEL.
4.1.8. Registration Procedures
LOADSEL provides the ability for the ASP to obtain a Load Selector
value for a given range of traffic (Load Selection) using dynamic
registration.
When the ASP wishes to register a Load Selector as part of the
normal registration procedure, it includes the Load Selection
parameter in the REG REQ message to the SGP. The Load Selection
parameter describes the range of traffic load for which the ASP wishes
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to obtain a Load Selector value.
When an SGP receives a REG REQ message with a Load Selection
parameter, it will determine whether the Load Selection parameter
describes a non-overlapping load selection and then, if the
registration of the associated Routing Key is successful, it assigns a
Load Selector to the traffic range and returns the value in the Load
Selector parameter in the REG RSP message.
In addition to the normal registration procedures of the UAs, the
following additional error conditions can occur:
"Error - Unsupported Load Selection"
This error MUST be sent in an Registration Response (REG RSP)
message whenever the SG determines that the Load Selection provided
in a REG REQ message has not been configured and the SG does not
support dynamic allocation of Load Selectors for the specified Key,
and MUST be sent in an Registration Response (REG RSP) message
whenever the SG determines that the Load Selection provided in a
REG REQ message is not supported by the SG.
"Error - Invalid Load Selection."
If the SGP determines that the received Load Selection data is
invalid, or contains invalid parameter values, the SGP returns a
Registration Response (REG RSP) message to the ASP containing a
Registration Result "Error - Invalid Load Selection".
"Error - Cannot Support Unique Loadsharing."
If the SGP determines that a unique Load Selection cannot be
created, the SGP returns a Registration Response (REG RSP) message
to the ASP, with a Registration Status of "Error - Cannot Support
Unique Loadsharing." An incoming signalling message received at an
SGP should not match against more than one Load Selection.
"Error - Unsupported LS Parameter Field."
If the SGP determines that one or more of the Load Selection
parameters are not supported for the purpose of creating new Load
Selection entries, the SGP returns a Registration Response (REG
RSP) message to the ASP, containing a Registration Result "Error -
Unsupported LS Parameter Field". This result MAY be used if, for
example, the SGP does not support the CIC Range parameter.
Otherwise, the "Registration Procedures" described by the UAs [3]
apply also to LOADSEL.
4.2. Interworking Procedures
LOADSEL supports the ASP Extension procedures described in ASPEXT
[ASPEXT] and defines the following ASP Extension value:
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1 LOADSEL Extension [LOADSEL]
The following procedures may be used where the ASPEXT procedures
are not used:
Whenever an ASP receives an ASPIA ACK not containing a Load
Selector parameter in response to an ASPAC containing the parameter,
the ASP will assume that the the SGP or IPSP does not support LOADSEL
and MUST fall back to the non-Load Selection UA procedures.
Whenever an ASP receives an ERR message or an unsuccessful REG RSP
message indicating a problem with the Load Selection parameter in the
REG REQ message, the ASP will assume that the SGP or IPSP does not
support LOADSEL and MUST fall back to the non-Load Selection UA
procedures.
5. Examples
Figure 3 illustrates the example configuration that is used for all
the examples in this section. The example configuration consist of:
- Two SGs (SG1 and SG2) acting as STPs in the SS7 network and
consisting (for example) of a single SGP. Each SG is connected to
each of the ASPs in the example configuration.
- Four ASPs (ASP1, ASP2, ASP3 and ASP4). Each ASP is connected to
both of the SGs in the example configuration.
- Two Load Selections (LS1 and LS2) are associated with the
Application Server. The traffic that corresponds to each Load
Selections is different in each example.
5.1.1. Initialization
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
:<----:-Establish Association------>: : : : :
:<----:-ASPUP-----------------------: : : : :
:-----:-ASPUP ACK------------------>: : : : :
: : : : : : :
:<----:-Establish Association-------:---->: : : :
:<----:-ASPUP-----------------------:-----: : : :
:-----:-ASPUP ACK-------------------:---->: : : :
: : : : : : :
:<----:-Establish Association-------:-----:---->: : :
:<----:-ASPUP-----------------------:-----:-----: : :
:-----:-ASPUP ACK-------------------:-----:---->: : :
: : : : : : :
:<----:-Establish Association-------:-----:-----:---->: :
:<----:-ASPUP-----------------------:-----:-----:-----: :
:-----:-ASPUP ACK-------------------:-----:-----:---->: :
: : : : : : :
: : (Same message exchange for SG2) : : : :
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SCTP
Associations ________ _________
_________ ............| | / \
| |..: .......| ASP1 | | AS1 |
| |..... : |________| | |
________| SG1 |....: : | ......... |
/| |...:: : ________ | : : |
\ / |_________| :::..:......| | | : LS1 : |
\ / | :: :......| ASP2 | | :.......: |
\ / | :: :: |________| | |
X | :: :: | |
/ \ | :: :: ________ | |
/ \ ____|____ ::...::.....| | | |
/ \ | |..:....::.....| ASP3 | | ......... |
_______\| |..:.....:: |________| | : : |
| SG2 |..:......: | : LS2 : |
| |..:..... ________ | :.......: |
|_________| :....:......| | | |
:......| ASP4 | | |
|________| \_________/
Figure 3. Example Configuration
: : : : : : :
Figure 4. Example - Initialization
Figure 4 illustrates the common initialization procedure use for
all of the examples. Each ASP establishes an SCTP Association with
SG1 and sends an ASPUP message to which it receives and ASP Up
response. The ASPs are not statically configured to serve specific AS
or LS within the AS, so no Notify messages are received. The same
sequence of messages are also exchanged with SG2.
5.2. M3UA with Override AS and Load Selection based on CIC
This example is for an M3UA [M3UA] configuration with the
Application Server (AS1) configured with a Traffic Mode Type of
Override. The Application Server (AS1) has associated with it a
Routing Key (RK1) that consists of a Destination Point Code that
corresponds to the AS1 (MGC1) point code (PC1), an Originating Point
Code that corresponds to a remote MGC2 point code (PC2), and the SI
value for ISUP (SI=5). The Load Selections (LS1 and LS2) correspond
to two sets of CIC values which correspond to two different trunk
groups between MGC1 and MGC2 (TG1 and TG2).
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5.2.1. Activation
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------: : : : :
:-----:-ASPAC ACK(LS1/RC1)--------->: : : : :
:-----:-NTFY(AS_Act)(LS1/RC1)------>: : : : (LS1) :
: : : : : : :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
: : : : : : :
:<----:-ASPAC(LS2/RC1)--------------:-----: : : :
:-----:-ASPAC ACK(LS2/RC1)----------:---->: : : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)-->: : : : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:---->: : : (LS2) :
: : : : : : :
:<----:-DATA------------------------:---->:<----:-----:-------->:
: : : : : : :
:<----:-ASPIA(LS1/RC1)--------------:-----:-----: : :
:-----:-ASPIA ACK(LS1/RC1)----------:-----:---->: : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:-----:---->: : :
: : : : : : :
:<----:-ASPIA(LS1,LS2/RC1)----------:-----:-----:-----: :
:-----:-ASPIA ACK(LS1,LS2/RC1)------:-----:-----:---->: :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:-----:-----:---->: :
: : : : : : :
: : (Same message exchange for SG2) : : : :
: : : : : : :
Figure 5. M3UA Example - Activation
Figure 5 illustrates activation of the ASPs for Load Selections
within the Override Application Server. The sequence of events is as
follows:
(1) ASP1 sends an ASPAC message to SG1 identifying Load Selection
LS1 within Application Server AS1/RC1 and receives an
acknowledgment and a notification. Data is transferred between
the SG and ASP1 for Load Selection LS1 within AS1.
(2) ASP2 sends an ASPAC message to SG1 identifying Load Selection
LS2 within Application Server AS1/RC1 and receives an
acknowledgment and a notification. ASP1 also receives
notification that AS1/RC1 is active for LS2. Data is
transferred between the SG and ASP2 for Load Selection LS2
within AS1.
(3) ASP3 sends an ASPIA message to SG1 identifying Load Selection
LS1 within Application Server AS1/RC1 and receives an
acknowledgment and a notification.
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(4) ASP4 sends an ASPIA message to SG1 identifying Load Selection
LS1 and LS2 within Application Server AS1/RC1 and receives an
acknowledgment and a notification.
(5) The same exchange is repeated for SG2.
5.2.2. Failure of ASP1
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
: : : : : : :
:<----:-COMM LOST----------XXXX-----: : : : :
:-----:-NTFY(ASP Fail)(ASP1)--------:---->: : : :
:-----:-NTFY(ASP Fail)(ASP1)--------:-----:---->: : :
:-----:-NTFY(ASP Fail)(ASP1)--------:-----:-----:---->: :
:-----:-NTFY(AS_Pending)(LS1/RC1)---:---->: : : :
:-----:-NTFY(AS_Pending)(LS1/RC1)---:-----:---->: : :
:-----:-NTFY(AS_Pending)(LS1/RC1)---:-----:-----:---->: :
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------:-----:-----:-----: :
:-----:-ASPAC ACK(LS1/RC1)----------:-----:-----:---->: :
:-----:-NTFY(AS_Active)(LS1,LS2/RC1):---->: : : :
:-----:-NTFY(AS_Active)(LS1,LS2/RC1):-----:---->: : :
:-----:-NTFY(AS_Active)(LS1,LS2/RC1):-----:-----:---->: :
: : : : : : (LS1) :
:<----:-DATA------------------------:-----:-----:---->:<------->:
: : : : : : :
Figure 6. M3UA Example - Failure of ASP1
Figure 6 illustrates the failure of ASP1. The sequence of events
is as follows:
(1) Data for LS1 within AS1 is exchanged between SG1 and ASP1.
Data for LS2 within AS1 is exchanged between SG1 and ASP2.
(2) Communication is lost between SG1 and ASP1. ASP2, ASP3, and
ASP4 are notified of the failure of ASP1 and the change of
state of AS1 to AS-PENDING for LS1. Data for LS2 in AS1 is
unaffected.
(3) ASP4 (spare) responds to the AS-PENDING notification and
activates for LS1 in AS1/RC1. ASP2, ASP3 and ASP4 receive an
AS-ACTIVE notification. Data for LS1 in AS1 is now exchanged
with ASP4.
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5.2.3. Sparing
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
:<----:-DATA----------------------->:<----:-----:-----:-------->:
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------:-----:-----:-----: :
:-----:-ASPAC ACK(LS1/RC1)----------:-----:-----:---->: :
:-----:-NTFY(Alt ASP)(ASP4)-------->: : : : :
: : : : : : (LS1) :
:<----:-DATA------------------------:-----:-----:---->:<------->:
:<----:-DATA------------------------:-----:-----:---->:<------->:
: : : : : : :
Figure 7. M3UA Example - Sparing
Figure 7 illustrates a sparing situation where one ASP takes over
traffic from another so that the original ASP can be taken out of
service. The sequence of events is as follows:
(1) Data for LS1 in AS1 is exchange between SG1 and ASP1.
(2) ASP4 (spare) activates for LS1 in AS1 and receives and
acknowledgment. ASP4 has overridden ASP1 and a notification is
sent to ASP1 that indicates that ASP4 in now the "Alternate ASP
Active for AS".
(3) Data for LS1 in AS1 is now being exchanged between SG1 and
ASP4.
(4) ASP1 can now be taken down and out of service.
5.3. SUA with Load-share AS and Load Selection based on GT
This example is for an SUA [SUA] configuration with the Application
Server (AS1) configured with a Traffic Mode Type of Load-share. The
Application Server (AS1) has associated with it (RK1) that consists of
Destination Point Code and Subsystem Number that corresponds to the
AS1 (HLR1) point code (PC1). The Load Selections (LS1 and LS2)
correspond to two sets of Global Titles which correspond to Mobile and
GSTN numbering.
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5.3.1. Activation
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------: : : : :
:-----:-ASPAC ACK(LS1/RC1)--------->: : : : :
:-----:-NTFY(AS_Act)(LS1/RC1)------>: : : : :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
: : : : : : :
:<----:-ASPAC(LS2/RC1)--------------:-----: : : :
:-----:-ASPAC ACK(LS2/RC1)----------:---->: : : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)-->: : : : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:---->: : : :
: : : : : : (LS2) :
:<----:-DATA------------------------:---->:<----:-----:-------->:
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------:-----:-----: : :
:-----:-ASPAC ACK(LS1/RC1)----------:-----:---->: : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:-----:---->: : :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
:<----:-DATA------------------------:-----:---->:<----:-------->:
: : : : : : :
:<----:-ASPIA(LS1,LS2/RC1)----------:-----:-----:-----: :
:-----:-ASPIA ACK(LS1,LS2/RC1)------:-----:-----:---->: :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:-----:-----:---->: :
: : : : : : :
: : (Same message exchange for SG2) : : : :
: : : : : : :
Figure 8. SUA Example - Activation
Figure 8 illustrates activation of the ASPs for Load Selections
within the Load-share Application Server. The sequence of events is
as follows:
(1) ASP1 sends an ASPAC message to SG1 identifying Load Selection
LS1 within Application Server AS1/RC1 and receives an
acknowledgment and a notification. Data is transferred between
the SG and ASP1 for Load Selection LS1 within AS1.
(2) ASP2 sends an ASPAC message to SG1 identifying Load Selection
LS2 within Application Server AS1/RC1 and receives an
acknowledgment and a notification. ASP1 also receives
notification that AS1/RC1 is active for LS2. Data is
transferred between the SG and ASP2 for Load Selection LS2
within AS1.
(3) ASP3 sends an ASPAC message to SG1 identifying Load Selection
LS1 within Application Server AS1/RC1 and receives an
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acknowledgment and a notification. Data is load-shared between
the SG and ASP1 and ASP3 for Load Selection LS1 within AS1.
(4) ASP4 sends an ASPAC message to SG1 identifying Load Selection
LS1 and LS2 within Application Server AS1/RC1 and receives an
acknowledgment and a notification.
(5) The same exchange is repeated for SG2.
5.3.2. Failure of ASP1 and ASP2
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
:<----:-DATA------------------------:-----:---->:<----:-------->:
: : : : : : (LS2) :
:<----:-DATA------------------------:---->:<----:-----:-------->:
: : : : : : :
:<----:-COMM LOST----------XXXX-----: : : : :
:-----:-NTFY(ASP Fail)(ASP1)--------:---->: : : :
:-----:-NTFY(ASP Fail)(ASP1)--------:-----:---->: : :
:-----:-NTFY(ASP Fail)(ASP1)--------:-----:-----:---->: :
: : : : : : (LS1) :
:<----:-DATA------------------------:-----:---->:<----:-------->:
:<----:-DATA------------------------:-----:---->:<----:-------->:
: : : : : : :
:<----:-COMM LOST----------XXXX-----:-----: : : :
:-----:-NTFY(ASP Fail)(ASP2)--------:-----:---->: : :
:-----:-NTFY(ASP Fail)(ASP2)--------:-----:-----:---->: :
:-----:-NTFY(AS_Pending)(LS2/RC1)---:-----:---->: : :
:-----:-NTFY(AS_Pending)(LS2/RC1)---:-----:-----:---->: :
: : : : : : :
:<----:-ASPAC(LS2/RC1)--------------:-----:-----:-----: :
:-----:-ASPAC ACK(LS2/RC1)----------:-----:-----:---->: :
:-----:-NTFY(AS_Active)(LS2/RC1)----:-----:---->: : :
:-----:-NTFY(AS_Active)(LS2/RC1)----:-----:-----:---->: :
: : : : : : (LS2) :
:<----:-DATA------------------------:-----:-----:---->:<------->:
: : : : : : :
Figure 9. SUA Example - Failure of ASP1 and ASP2
Figure 9 illustrates the failure of ASP1 followed by the failure of
ASP2. The sequence of events is as follows:
(1) Data for LS1 within AS1 is load-shared between ASP1 and ASP3.
Data for LS2 within AS1 is exchanged with ASP2.
(2) Communication is lost between SG1 and ASP1. ASP2, ASP3, and
ASP4 are notified of the failure of ASP1. Data for LS1 in AS1
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is directed toward ASP3 only. Data for LS2 in AS1 is
unaffected.
(3) Communication is lost between SG1 and ASP2. ASP3 and ASP4 are
notified of the failure of ASP1 as well of the AS1 state change
to AS-PENDING. Data for LS2 is queued at the SG.
(4) ASP4 (spare) responds to the AS-PENDING notification and
activates for LS2 in AS1/RC1. ASP3 and ASP4 receive an AS-
ACTIVE notification. Data for LS2 in AS1 is now exchanged with
ASP4.
5.3.3. Sparing
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
:<----:-DATA------------------------:-----:---->:<----:-------->:
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------:-----:-----:-----: :
:-----:-ASPAC ACK(LS1/RC1)----------:-----:-----:---->: :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
:<----:-DATA------------------------:-----:---->:<----:-------->:
:<----:-DATA------------------------:-----:-----:---->:<------->:
: : : : : : :
:<----:-ASPIA(LS1/RC1)--------------: : : : :
:-----:-ASPIA ACK(LS1/RC1)--------->: : : : :
: : : : : : (LS1) :
:<----:-DATA------------------------:-----:---->:<----:-------->:
:<----:-DATA------------------------:-----:-----:---->:<------->:
: : : : : : :
Figure 10. SUA Example - Sparing
Figure 10 illustrates a sparing situation where one ASP takes over
traffic from another so that the original ASP can be taken out of
service. The sequence of events is as follows:
(1) Data for LS1 in AS1 is load-shared between SG1 and ASP1 and
ASP3.
(2) ASP4 (spare) activates for LS1 in AS1 and receives and
acknowledgment. Data for LS1 in AS1 is now being load-shared
between SG1 and ASP1, ASP3 and ASP4.
(3) ASP1 deactivates for LS1 in AS1 and receives and acknowledgment
but no notification.
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(4) Data or LS1 in AS1 is now load-shared between SG1 and ASP3 and
ASP4.
(5) ASP1 can now be taken down and out of service.
5.4. TUA with Broadcast AS and Load Selection based on DID
This example is for an TUA [TUA] configuration with the Application
Server (AS1) configured with a Traffic Mode Type of Broadcast. The
Application Server (AS1) has associated with it (RK1) that consists of
Destination Point Code and Subsystem Number that corresponds to the
AS1 (HLR1) point code (PC1). The Load Selections (LS1 and LS2)
correspond to two sets of Dialog Ids which correspond to even and odd
Dialog Ids.
5.4.1. Activation
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------: : : : :
:-----:-ASPAC ACK(LS1/RC1)--------->: : : : :
:-----:-NTFY(AS_Act)(LS1/RC1)------>: : : : :
: : : : : : (LS1) :
:<----:-DATA-(CorrId)-------------->:<----:-----:-----:-------->:
: : : : : : :
:<----:-ASPAC(LS2/RC1)--------------:-----: : : :
:-----:-ASPAC ACK(LS2/RC1)----------:---->: : : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)-->: : : : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:---->: : : :
: : : : : : (LS2) :
:<----:-DATA-(CorrId)---------------:---->:<----:-----:-------->:
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------:-----:-----: : :
:-----:-ASPAC ACK(LS1/RC1)----------:-----:---->: : :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:-----:---->: : :
: : : : : : (LS1) :
:<----:-DATA-(CorrId)---------------:-----:---->:<----:-------->:
: : : : : : :
:<----:-ASPIA(LS1,LS2/RC1)----------:-----:-----:-----: :
:-----:-ASPIA ACK(LS1,LS2/RC1)------:-----:-----:---->: :
:-----:-NTFY(AS_Act)(LS1,LS2/RC1)---:-----:-----:---->: :
: : : : : : :
: : (Same message exchange for SG2) : : : :
: : : : : : :
Figure 11. TUA Example - Activation
Figure 11 illustrates activation of the ASPs for Load Selections
within the Broadcast Application Server. The sequence of events is as
follows:
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(1) ASP1 sends an ASPAC message to SG1 identifying Load Selection
LS1 within Application Server AS1/RC1 and receives an
acknowledgment and a notification. Data is transferred between
the SG and ASP1 for Load Selection LS1 within AS1. The initial
Data Messages for LS1 within AS1 are tagged with a Correlation
Id.
(2) ASP2 sends an ASPAC message to SG1 identifying Load Selection
LS2 within Application Server AS1/RC1 and receives an
acknowledgment and a notification. ASP1 also receives
notification that AS1/RC1 is active for LS2. Data is
transferred between the SG and ASP2 for Load Selection LS2
within AS1. The initial Data Messages for LS2 within AS1 are
tagged with a Correlation Id.
(3) ASP3 sends an ASPAC message to SG1 identifying Load Selection
LS1 within Application Server AS1/RC1 and receives an
acknowledgment and a notification. Data is broadcast the SG
and ASP1 and ASP3 for Load Selection LS1 within AS1. The
initial Data Messages for LS1 within AS1 are tagged with a
Correlation Id.
(4) ASP4 sends an ASPIA message to SG1 identifying Load Selection
LS1 and LS2 within Application Server AS1/RC1 and receives an
acknowledgment and a notification.
(5) The same exchange is repeated for SG2.
5.4.2. Failure of ASP1 and ASP2
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:---->:<----:-------->:
:<----:-DATA----------------------->:<----:---->:<----:-------->:
: : : : : : (LS2) :
:<----:-DATA------------------------:---->:<----:-----:-------->:
: : : : : : :
:<----:-COMM LOST----------XXXX-----: : : : :
:-----:-NTFY(ASP Fail)(ASP1)--------:---->: : : :
:-----:-NTFY(ASP Fail)(ASP1)--------:-----:---->: : :
:-----:-NTFY(ASP Fail)(ASP1)--------:-----:-----:---->: :
: : : : : : (LS1) :
:<----:-DATA------------------------:-----:---->:<----:-------->:
:<----:-DATA------------------------:-----:---->:<----:-------->:
: : : : : : :
:<----:-COMM LOST----------XXXX-----:-----: : : :
:-----:-NTFY(ASP Fail)(ASP2)--------:-----:---->: : :
:-----:-NTFY(ASP Fail)(ASP2)--------:-----:-----:---->: :
:-----:-NTFY(AS_Pending)(LS2/RC1)---:-----:---->: : :
:-----:-NTFY(AS_Pending)(LS2/RC1)---:-----:-----:---->: :
: : : : : : :
:<----:-ASPAC(LS2/RC1)--------------:-----:-----:-----: :
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:-----:-ASPAC ACK(LS2/RC1)----------:-----:-----:---->: :
:-----:-NTFY(AS_Active)(LS2/RC1)----:-----:---->: : :
:-----:-NTFY(AS_Active)(LS2/RC1)----:-----:-----:---->: :
: : : : : : (LS2) :
:<----:-DATA-(CorrId)---------------:-----:-----:---->:<------->:
: : : : : : :
Figure 12. TUA Example - Failure of ASP1
Figure 12 illustrates the failure of ASP1 followed by the failure
of ASP2. The sequence of events is as follows:
(1) Data for LS1 within AS1 is broadcast to ASP1 and ASP3. Data
for LS2 within AS1 is exchanged with ASP2.
(2) Communication is lost between SG1 and ASP1. ASP2, ASP3, and
ASP4 are notified of the failure of ASP1. Data for LS1 in AS1
is directed toward ASP3 only. Data for LS2 in AS1 is
unaffected.
(3) Communication is lost between SG1 and ASP2. ASP3 and ASP4 are
notified of the failure of ASP1 as well of the AS1 state change
to AS-PENDING. Data for LS2 is queued at the SG.
(4) ASP4 (spare) responds to the AS-PENDING notification and
activates for LS2 in AS1/RC1. ASP3 and ASP4 receive an AS-
ACTIVE notification. Data for LS2 in AS1 is now exchanged with
ASP4. Initial DATA messages for LS2 in AS1 are tagged with a
Correlation Id.
5.4.3. Sparing
SG1 SG2 ASP1 ASP2 ASP3 ASP4 AS1
: : : : : : :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
:<----:-DATA------------------------:-----:---->:<----:-------->:
: : : : : : :
:<----:-ASPAC(LS1/RC1)--------------:-----:-----:-----: :
:-----:-ASPAC ACK(LS1/RC1)----------:-----:-----:---->: :
: : : : : : (LS1) :
:<----:-DATA----------------------->:<----:-----:-----:-------->:
:<----:-DATA------------------------:-----:---->:<----:-------->:
:<----:-DATA-(CorrId)---------------:-----:-----:---->:<------->:
: : : : : : :
:<----:-ASPIA(LS1/RC1)--------------: : : : :
:-----:-ASPIA ACK(LS1/RC1)--------->: : : : :
: : : : : : (LS1) :
:<----:-DATA------------------------:-----:---->:<----:-------->:
:<----:-DATA------------------------:-----:-----:---->:<------->:
: : : : : : :
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Figure 13. TUA Example - Sparing
Figure 13 illustrates a sparing situation where one ASP takes over
traffic from another so that the original ASP can be taken out of
service. The sequence of events is as follows:
(1) Data for LS1 in AS1 is broadcast from SG1 to ASP1 and ASP3.
(2) ASP4 (spare) activates for LS1 in AS1 and receives and
acknowledgment. Data for LS1 in AS1 is now being broadcast
from SG1 to ASP1, ASP3 and ASP4. Initial data for LS1 in AS1
is tagged with a Correlation Id.
(3) ASP1 deactivates for LS1 in AS1 and receives and acknowledgment
but no notification.
(4) Data or LS1 in AS1 is now broadcast from SG1 to ASP3 and ASP4.
(5) ASP1 can now be taken down and out of service.
6. Security
LOADSEL does not introduce any new security risks or considerations
that are not already inherent in the UA [IUA...TUA] Please see the
"Security" sections of the UA [IUA...TUA] for security considerations
and recommendations that are applicable to each UA.
7. IANA Considerations
LOADSEL adds the following parameter tag value (described in
Section 3) to the Common Parameter numbering range of the SIGTRAN UAs
[IUA...TUA]:
Tag Value Parameter Name
---------------------------
0x0018 Load Selector
0x0019 Load Selection
EDITOR'S NOTE:- The Load Selector and Load Selection tag
values shown throughout this document as 0x0018) and 0x0019)
will be assigned by IANA within the common parameter range of
the SIGTRAN UAs and may change its value in further versions
of this document.
LOADSEL adds the following value to the Error Code parameter
(described in Section 3 and 4) for the SIGTRAN UAs [IUA...TUA].
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Internet Draft UA LOADSEL January 2, 2003
29 Invalid Load Selector
EDITOR'S NOTE:- The Error Code value shown throughout this
document as 29) will be assigned by IANA as a value of the
common Error Code parameter for SIGTRAN UAs and may change its
value in further versions of this document.
LOADSEL adds the following values to the Registration Status field
of the Registration Result parameter for the UAs [M2UA...TUA].
12 Error - Unsupported Load Selection
13 Error - Invalid Load Selection
14 Error - Cannot Support Unique Loadsharing
15 Error - Unsupported LS Parameter Field
EDITOR'S NOTE:- The Registration Status values shown as 12,
13, 14 and 15 above will be assigned by IANA as a value of
each UA-specific Registration Status parameter for each
SIGTRAN UA and may change its value in further versions of
this document.
Acknowledgments
The authors would like to thank Tolga Asveren, Ken Morneault, Barry
Nagelberg, Benjamin J. Wilson, Jacques Rajchgod, Greg Sidebottom and
Gery Verwimp for their valuable comments and suggestions.
Notes
[1] Another draft: UA Load Grouping [LOADGRP], provides for selection
of Load Distribution methods within a Load Selector. The draft
[LOADGRP] refers to a group of ASPs within the same traffic load
selection as a Load Group and associates a Load Distribution with
the load group that can be: Override, Load-share or Broadcast.
LOADSEL is applicable both to the normal Traffic Mode Type of an
AS, as well as to the Load Distribution within a Load Group.
[2] For a detailed description of these messages, see Section 3 of
the SIGTRAN UA specifications cited under "References"
[IUA...TUA].
[3] For a detailed description of these procedures, see Section 4 of
the SIGTRAN UA specifications cited under "References"
[IUA...TUA].
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[4] EXAMPLE:- An ASP (e.g, ASP-1) moving to state ASP-INACTIVE within
a Load Selector (e.g, LS-1) results in the state of the AS moving
to AS-PENDING. The SGP sends NTFY("Application Server Pending")
with "LS-1" in the Load Selector parameter in the NTFY message.
If immediately after (and before T(r) expires) another ASP (e.g,
ASP-2) moves to state ASP-INACTIVE within another Load Selector
(e.g, LS-2) resulting the state of the AS being "held" in the AS-
PENDING state, the SGP sends NTFY("Application Server Pending")
again, but this time includes both "LS-1" and "LS-2" in the Load
Selector parameter in the NTFY message.
EXAMPLE:- When all ASPs are inactive for a Load Selection within
an Override AS, the AS will transition to the AS-PENDING state.
The SGP will send a NTFY("Application Server Pending") message to
all ASPs configured for the Application Server that are not in
the ASP-DOWN state. This message should include in the Load
Selector parameter the Load Selections in which there is no ASP
in the ASP-ACTIVE state for the AS.
References
IUA.
K. Morneault, S. Rengasami, M. Kalla and G. Sidebottom, "ISDN
Q.921-User Adaptation Layer," RFC 3057, The Internet Society
(November, 2000). [Normative]
DUA.
R. Mukundan, N. Mangalpally, K. Morneault and A. Vydyam,
"DPNSS/DASS 2 Extensions to the IUA Protocol," <draft-ietf-
sigtran-dua-04.txt>, Internet Engineering Task Force - Signalling
Transport Working Group (October 2002). Work In Progress.
[Informative]
V5UA.
E. Weilandt, N. Khanchandani and S. Rao, "V5.2-User Adaption
Layer (V5UA)," <draft-ietf-sigtran-v5ua-03.txt>, Internet
Engineering Task Force - Signalling Transport Working Group (June
2002). Work In Progress. [Informative]
GR303UA.
R. Mukundan, K. Morneault, "GR-303 extensions to the IUA
Protocol," <draft-ranjith-sigtran-gr303ua-00.txt>, Internet
Engineering Task Force - Signalling Transport Working Group
(October 2002). Work In Progress. [Informative]
M2UA.
K. Morneault, R. Dantu, G. Sidebottom, B. Bidulock and J. Heitz,
"Signaling System 7 (SS7) Message Transfer Part 2 (MTP2) - User
Adaptation Layer," RFC 3331, Internet Engineering Task Force -
Signalling Transport Working Group (September, 2002).
[Normative]
M3UA.
G. Sidebottom, K. Morneault and J. Pastor-Balbas, (eds),
B. Bidulock Version 0.1 Page 37
Internet Draft UA LOADSEL January 2, 2003
"Signaling System 7 (SS7) Message Transfer Part 3 (MTP3) - User
Adaptation Layer (M3UA)," RFC 3332, Internet Engineering Task
Force - Signalling Transport Working Group (September, 2002).
[Normative]
SUA.
J. Loughney, G. Sidebottom, L. Coene, G. Verwimp, J. Keller and
B. Bidulock, "SS7 SCCP-User Adaptation Layer (SUA)," <draft-ietf-
sigtran-sua-14.txt>, Internet Engineering Task Force - Signalling
Transport Working Group (June 30, 2002). Work In Progress.
[Normative]
ISUA.
B. Bidulock, "SS7 ISUP-User Adaptation Layer (ISUA)," <draft-
bidulock-sigtran-isua-00.txt>, Internet Engineering Task Force -
Signalling Transport Working Group (January 5, 2003). Work In
Progress. [Informative]
TUA.
B. Bidulock, "SS7 TCAP-User Adaptation Layer (TUA)," <draft-
bidulock-sigtran-tua-01.txt>, Internet Engineering Task Force -
Signalling Transport Working Group (January 2, 2003). Work In
Progress. [Informative]
LOADGRP.
B. Bidulock, "Load Grouping Extension for Signalling User
Adaptation Layers (LOADGRP)," <draft-bidulock-sigtran-
loadgrp-01.txt>, Internet Engineering Task Force - Signalling
Transport Working Group (January 2, 2003). Work In Progress.
[Informative]
RFC 2960.
R. Stewart, Q. Xie, K. Morneault, C. Sharp, H. J. Schwarzbauer,
T. Taylor, I. Rytina, H. Kalla, L. Zhang and V. Paxson, "Stream
Control Transmission Protocol (SCTP)," RFC 2960, The Internet
Society (February 2000). [Normative]
Q.704.
ITU, "Message Transfer Part - Signalling Network Functions and
Messages," ITU-T Recommendation Q.704, ITU-T Telecommunication
Standardization Sector of ITU, Geneva (March 1993).
[Informative]
Q.723.
ITU, "Signalling System No. 7 - Telephone User Part - Formats and
codes," ITU-T Recommendation Q.723, ITU-T Telecommunication
Standardization Sector of ITU, Geneva (November 1988).
[Informative]
Q.763.
ITU, "Signalling System No. 7 - Formats and Codes of the ISDN
User Part," ITU-T Recommendation Q.763, ITU-T Telecommunication
Standardization Sector of ITU, Geneva (March 1993).
[Informative]
B. Bidulock Version 0.1 Page 38
Internet Draft UA LOADSEL January 2, 2003
Q.713.
ITU, "Signalling Connection Control Part Formats and Codes," ITU-
T Recommendation Q.713, ITU-T Telecommunication Standardization
Sector of ITU, Geneva (March 1993). [Informative]
Q.773.
ITU, "Signalling System No. 7 - Transaction Capabilities Formats
and Encoding," ITU-T Recommendation Q.773, ITU-T
Telecommunication Standardization Sector of ITU, Geneva (March
1993). [Informative]
RFC 2119.
S. Bradner, "Key words for use in RFCs to Indicate Requirement
Levels," RFC 2119 - BCP 14, Internet Engineering Task Force
(March 1997). [Normative]
ASPEXT.
B. Bidulock, "Application Server Process (ASP) Extension
Framework," <draft-bidulock-sigtran-aspext-01.txt>, Internet
Engineering Task Force - Signalling Transport Working Group
(January 2, 2003). Work In Progress. [Informative]
LOADSEL.
B. Bidulock, "Load Selection Extension for Signalling User
Adaptation Layers (LOADSEL)," <draft-bidulock-sigtran-
loadsel-01.txt>, Internet Engineering Task Force - Signalling
Transport Working Group (January 2, 2003). Work In Progress.
[Normative]
Author's Addresses
Brian Bidulock Phone: +1-780-490-1141
OpenSS7 Corporation Email: bidulock@openss7.org
1469 Jeffreys Crescent URL: http://www.openss7.org/
Edmonton, AB T6L 6T1
Canada
This draft expires July, 2003.
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List of Illustrations
Figure 1 Non-Load Selection Traffic Distribution .............. 4
Figure 2 Load Selection Traffic Distribution .................. 5
Figure 3 Example Configuration ................................ 25
Figure 4 Example - Initialization ............................. 25
Figure 5 M3UA Example - Activation ............................ 26
Figure 6 M3UA Example - Failure of ASP1 ....................... 27
Figure 7 M3UA Example - Sparing ............................... 28
Figure 8 SUA Example - Activation ............................. 29
Figure 9 SUA Example - Failure of ASP1 and ASP2 ............... 30
Figure 10 SUA Example - Sparing ............................... 31
Figure 11 TUA Example - Activation ............................ 32
Figure 12 TUA Example - Failure of ASP1 ....................... 34
Figure 13 TUA Example - Sparing ............................... 35
Table of Contents
Status of this Memo ........................................... 1
Abstract ...................................................... 1
1 Introduction ................................................ 1
1.1 Scope ..................................................... 2
1.2 Change History ............................................ 2
1.2.1 Changes from Version 0.0 to Version 1.0 ................. 2
1.3 Terminology ............................................... 2
1.4 Overview .................................................. 2
1.4.1 Non-Load Selection Traffic Distribution ................. 3
1.4.2 Load Selection Traffic Distribution ..................... 5
2 Conventions ................................................. 6
3 Protocol Elements ........................................... 7
3.1 Parameters ................................................ 7
3.1.1 Load Selector ........................................... 7
3.1.2 Load Selection .......................................... 8
3.2 Messages .................................................. 9
3.2.1 Registration Request (REG REQ) .......................... 9
3.2.2 Registration Response (REG RSP) ......................... 11
3.2.3 ASP Active (ASPAC) ...................................... 12
3.2.4 ASP Active Ack (ASPAC ACK) .............................. 13
3.2.5 ASP Inactive (ASPIA) .................................... 14
3.2.6 ASP Inactive Ack (ASPIA ACK) ............................ 15
3.2.7 Error (ERR) ............................................. 16
3.2.8 Notify (NTFY) ........................................... 17
4 Procedures .................................................. 18
4.1 AS and ASP State Maintenance .............................. 18
4.1.1 ASP State ............................................... 18
4.1.2 AS State ................................................ 19
4.1.3 ASP Up Procedures ....................................... 19
4.1.4 ASP Down Procedures ..................................... 20
4.1.5 ASP Active Procedures ................................... 20
4.1.6 ASP Inactive Procedures ................................. 21
4.1.7 Notify Procedures ....................................... 21
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4.1.8 Registration Procedures ................................. 22
4.2 Interworking Procedures ................................... 23
5 Examples .................................................... 24
5.1.1 Initialization .......................................... 24
5.2 M3UA with Override AS and Load Selection based on CIC ..... 25
5.2.1 Activation .............................................. 26
5.2.2 Failure of ASP1 ......................................... 27
5.2.3 Sparing ................................................. 28
5.3 SUA with Load-share AS and Load Selection based on GT ..... 28
5.3.1 Activation .............................................. 29
5.3.2 Failure of ASP1 and ASP2 ................................ 30
5.3.3 Sparing ................................................. 31
5.4 TUA with Broadcast AS and Load Selection based on DID ..... 32
5.4.1 Activation .............................................. 32
5.4.2 Failure of ASP1 and ASP2 ................................ 33
5.4.3 Sparing ................................................. 34
6 Security .................................................... 35
7 IANA Considerations ......................................... 35
Acknowledgments ............................................... 36
Notes ......................................................... 36
References .................................................... 37
Author's Addresses ............................................ 39
List of Illustrations ......................................... 40
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