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InfoMagic Standards 1994 January
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InfoMagic Standards - January 1994.iso
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ccitt
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1988
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8_2_13.tro
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1991-12-22
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.rs
.\" Troff code generated by TPS Convert from ITU Original Files
.\" Not Copyright (~c) 1991
.\"
.\" Assumes tbl, eqn, MS macros, and lots of luck.
.TA 1c 2c 3c 4c 5c 6c 7c 8c
.ds CH
.ds CF
.EQ
delim @@
.EN
.nr LL 40.5P
.nr ll 40.5P
.nr HM 3P
.nr FM 6P
.nr PO 4P
.nr PD 9p
.po 4P
.rs
\v'|.5i'
.ce 1000
APPENDIX\ I
.ce 0
.sp 1P
.ce 1000
(to Recommendation X.31)
.sp 9p
.RT
.ce 0
.sp 1P
.ce 1000
\fBB\(hychannel TA acting on layers 2 and 3 of X.25\fR
.EF '% Fascicle\ VIII.2\ \(em\ Rec.\ X.31''
.OF '''Fascicle\ VIII.2\ \(em\ Rec.\ X.31 %'
.sp 1P
.RT
.ce 0
.LP
I.1
\fIIntroduction\fR
.sp 1P
.RT
.PP
On the basis of the different implementation of X.25 procedures in existing
DTEs, two types of terminal adaptors can be identified,
namely:
.RT
.LP
a)
TA acts only on layer 1 at the R\(hyreference point;
.LP
b)
TA acts only on layers 2 and 3 at the R\(hyreference
point.
.PP
The first type applies to DTEs which can disconnect at the
physical layer of the R\(hyreference point when no virtual calls are in
progress.
.PP
For X.25 DTEs which are not able to disconnect at the physical layer, the
consequence in that case may be the automatic allocation of the B\(hychannel,
immediately after power\(hyon.
.PP
Therefore, for such DTEs, alternatively the second type may be
used.
.PP
The first case is described in \(sc\ 7.3 of this Recommendation.
.PP
This appendix presents some possible approaches for the
functionalities and signalling mapping procedures of terminal adaptors
of the second type.
.PP
These examples should not constrain implementations and do not cover all
possible types.
.PP
This type of TA covers Case A access, as well as Case B
access.
.RT
.sp 1P
.LP
I.1
\fICall control\fR
.sp 9p
.RT
.PP
In this appendix, the following call phases are
specified:
.RT
.LP
\(em
idle phase,
.LP
\(em
establishment phase,
.LP
\(em
data transfer phase,
.LP
\(em
clearing phase.
.PP
When no virtual calls are in progress, the TA is in the idle
phase. Incoming or outgoing calls force transition to the data transfer
phase, via the establishment phase. After clearing of the last virtual
call, the TA
transits from the data transfer phase via the clearing phase to the idle
phase.
.sp 1P
.LP
I.2.1
\fIIdle phase\fR
.sp 9p
.RT
.PP
In the idle phase no virtual calls are in progress.
.RT
.LP
.rs
.sp 16P
.ad r
\fBFigure I\(hy1/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.PP
In the idle phase, the TA acts on the R\(hyreference point as X.25
DCE (Figure\ I\(hy1/X.31). All X.25 layer\ 2 procedures are supported. Some
layer\ 3 procedures, for instance the restart procedures, may be supported
too.
.PP
When the beginning of a call establishment phase is indicated by
manual methods (e.g.\ a push button on the TA), there is in principle no need
for the TA to support layer\ 3 procedures (see Figure\ I\(hy2/X.31).
.RT
.LP
.rs
.sp 22P
.ad r
\fBFigure I\(hy2/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.sp 1P
.LP
I.2.1.1
\fITransferring to the establishment phase\fR
.sp 9p
.RT
.PP
The TA transits to the establishment phase at:
.RT
.LP
\(em
the detection of an outgoing call.
.LP
Outgoing calls are detected by the reception of a
\fIcall request\fR \| packet.
.LP
\(em
the detection of an incoming call.
.LP
The TA applies the procedures of \(sc\ 6.2 for the detection and
acceptance of incoming calls.
.sp 1P
.LP
I.2.2
\fIEstablishment phase\fR
.sp 9p
.RT
.PP
For call establishment, the following functions are
defined:
.RT
.LP
1)
establishment of a B\(hychannel,
.LP
2)
establishment of a layer 2 connection between the TA
and the X.25 DCE in the PH/AU,
.LP
3)
synchronization of the layer 3 of the X.25 DTE and the
X.25 DCE in the PH/AU,
.LP
4)
changing to the data transfer phase
configuration.
.PP
For the establishment phase also a layer 2 implementation is
needed on the S/T reference point side of the TA (Figure\ I\(hy3/X.31). Only
layer\ 3 dedicated procedures apply.
.PP
Figure I\(hy4/X.31 gives an example of the message sequence for the
establishment phase.
.bp
.RT
.LP
.rs
.sp 17P
.ad r
\fBFigure I\(hy3/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.LP
.rs
.sp 27P
.ad r
\fBFigure I\(hy4/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.sp 1P
.LP
I.2.2.1
\fIOutgoing call\fR
.sp 9p
.RT
.PP
The \fIcall request\fR \| packet received from the X.25 DTE is buffered
in the TA. For the allocation of a B\(hychannel, the procedures of \(sc\
6.1 apply.
After allocation of a B\(hychannel a link is established between the DCE in the
PH/AU and the TA, following the layer\ 2 procedures of Recommendation\ X.25.
Layer\ 3 of the DCE in the PH/AU may be reset by means of a restart procedure.
The buffered \fIcall request\fR packet is sent to the DCE in the PH/AU.
At the
acknowledgement of the correct reception of the \fIcall request\fR packet,
the TA changes to the data transfer phase following the procedures of \(sc\
I.2.2.3 of
this appendix.
.RT
.sp 1P
.LP
I.2.2.2
\fIIncoming call\fR
.sp 9p
.RT
.PP
At the reception of an incoming call, the procedures of \(sc\ 6.2 of
this Recommendation apply for the allocation of a B\(hychannel. After allocation
of a B\(hychannel, a link is established between the DCE in the PH/AU and
the TA according to the layer\ 2 procedures of Recommendation\ X.25. Layer\
3 of the X.25 DTE may be reset by means of a restart procedure. The TA
can change to the
data transfer phase following the procedures of \(sc\ I.2.2.3 of this
appendix.
.RT
.sp 1P
.LP
I.2.2.3
\fIChanging to the data transfer phase\fR
.sp 9p
.RT
.PP
After sending the \fIcall request\fR \| to the network, the TA becomes
layer\ 2 relay by terminating the layer\ 2 protocols on both sides. Detailed
procedure specifications of layer\ 2 relaying are for further study.
.RT
.sp 1P
.LP
I.2.3
\fIData transfer phase\fR
.sp 9p
.RT
.PP
In the data transfer phase, the TA acts as layer\ 2 relay
(Figure\ I\(hy5/X.31).
.RT
.LP
.rs
.sp 18P
.ad r
\fBFigure I\(hy5/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.sp 1P
.LP
I.2.3.1
\fITransferring to the clearing phase\fR
.sp 9p
.RT
.PP
The clearing phase is entered at the detection that no virtual
calls are in progress any more.
.PP
This detection can be done by:
.RT
.LP
\(em
the PH/AU,
.LP
\(em
the user (manually).
.bp
.sp 1P
.LP
I.2.4
\fIClearing phase\fR
.sp 9p
.RT
.PP
For call clearing, the following functions are defined:
.RT
.LP
1)
clearing of the layer 3 connection,
.LP
2)
clearing of the layer 2 connection,
.LP
3)
release of the B\(hychannel,
.LP
4)
changing to the idle phase.
.PP
The active layers in the DTE, the TA and the DCE in the clearing phase
are shown in Figure\ I\(hy6/X.31.
.LP
.rs
.sp 14P
.ad r
\fBFigure I\(hy6/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.PP
Figure I\(hy7/X.31 gives an example of the message sequence for the clearing
phase.
.LP
.rs
.sp 26P
.ad r
\fBFigure I\(hy7/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.sp 1P
.LP
I.2.4.1
\fIDetection by the user\fR
.sp 9p
.RT
.PP
After the notification by the user, DISC frame is sent to the PH/AU which
is answered with a UA frame. After reception of the UA frame by the TA,
the procedures of \(sc\ 6.4 of this Recommendation apply. After these procedures,
the TA enters the idle phase.
.RT
.sp 1P
.LP
I.2.4.2
\fIDetection by the network\fR
.sp 9p
.RT
.PP
The DISC frame sent by the network is answered by the TA with a UA frame.
The procedures of \(sc\ 6.4 of this Recommendation apply to clear the
B\(hychannel. After these procedures, the TA enters the idle phase.
\v'6p'
.RT
.ce 1000
APPENDIX\ II
.ce 0
.sp 1P
.ce 1000
(to Recommendation X.31)
.sp 9p
.RT
.ce 0
.sp 1P
.ce 1000
\fBInterconnection of packet mode TE2s which use the circuit\(hymode bearer\fR
\fBservice of the ISDN\fR
.sp 1P
.RT
.ce 0
.PP
When two packet mode TE2s are interconnected by an ISDN
circuit\(hymode connection, they will make use of TAs as shown in
Figure\ II\(hy1/X.31.
.sp 1P
.RT
.LP
.rs
.sp 11P
.ad r
\fBFigure II\(hy1/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.PP
For such connections, the Q.931 end\(hyto\(hyend parameter exchange
procedures will be used to exchange the characteristics of the protocols
that will be used over the circuit\(hyswitched connection by the DTEs.
The TAs may
examine the frames and packets of the B\(hychannel in order to perform the
necessary functions to support packet mode DTE to DTE communication.
\v'6p'
.ce 1000
APPENDIX\ III
.ce 0
.sp 1P
.ce 1000
(to Recommendation X.31)
.sp 9p
.RT
.ce 0
.sp 1P
.ce 1000
\fBExample\fR
\fBmessage flow diagrams and example\fR \fBconditions for cause mapping\fR
.sp 1P
.RT
.ce 0
.LP
III.1
\fIExample message flow diagrams\fR
.sp 1P
.RT
.PP
Examples of the procedures for the use of the B\(hy and D\(hychannel
network connection types and the selection of the appropriate channel types
are summarized in Figures\ III\(hy1/X.31 to III\(hy7/X.31. These figures
are intended to complement the description in the preceding text and do
not illustrate all
possible situations.
.PP
\fINote\fR \ \(em\ Not all frames that may be sent across the TA interface
may be represented in the following figures.
.bp
.RT
.sp 2P
.LP
III.1.1
\fIKey to the figures\fR
.sp 1P
.RT
.sp 1P
.LP
\fIQ.931 messages\fR \v'3p'
.sp 9p
.RT
.LP
[\ ]
\(em
\fILayer 3\fR
.LP
C
\(em
\fICONNECT\fR
.LP
CA
\(em
\fICONNECT ACKNOWLEDGE\fR
.LP
CP
\(em
\fICALL PROCEEDING\fR
.LP
D
\(em
\fIDISCONNECT\fR
.LP
R
\(em
\fIRELEASE\fR
.LP
RC
\(em
\fIRELEASE COMPLETE\fR
.LP
S
\(em
\fISETUP\fR
.sp 1P
.LP
\fIX.25 layer 3 messages\fR
.sp 9p
.RT
.PP
Any layer 3 message preceded by X.25 indicates an X.25 layer 3
packet (e.g.\ X.25 CR means X.25 \fIcall request\fR ).
.RT
.LP
CA
\(em
\fIcall accepted\fR
.LP
CC
\(em
\fIcall connected\fR
.LP
CLC
\(em
\fIclear confirmation\fR
.LP
CLI
\(em
\fIclear indication\fR
.LP
CLR
\(em
\fIclear request\fR
.LP
CR
\(em
\fIcall request\fR
.LP
IC
\(em
\fIincoming call\fR
.sp 1P
.LP
\fILayer 2 frames\fR \v'3p'
.sp 9p
.RT
.LP
(\ )
\(em
\fILayer 2\fR
.LP
GTEI
\(em
\fIGroup TEI (127)\fR
.LP
A. B
\(em
\fIX.25 layer 2 addresses (includes command and\fR \fIresponse)\fR
.LP
SABM
\(em
\fISet asynchronous balance mode\fR
.LP
SABME
\(em
\fISet asynchronous balance mode extended\fR
.LP
UA
\(em
\fIUnnumbered acknowledgement frame\fR
.LP
UI
\(em
\fIUnnumbered information frame (i.e. using\fR \fIunacknowledged information
transfer at layer\ 2)\fR
.LP
I
\(em
\fIInformation frame\fR
.LP
DISC
\(em
\fIDisconnect frame\fR
.PP
Layer 2 addresses marked (x, p) indicates that the SAPI element of the
frame address is coded for packet type (SAPI\ =\ 16) information as described
in Recommendation\ Q.921. Layer\ 2 addresses marked (x, s) refer to signalling
type (SAPI\ =\ 0) information.
.bp
.sp 1P
.LP
III.1.2
\fIExample message flow diagrams\fR
.sp 9p
.RT
.LP
.rs
.sp 47P
.ad r
\fBFigure III\(hy1/X.31, (N), p. 9\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.LP
.rs
.sp 47P
.ad r
\fBFigure III\(hy2/X.31, (N), p. 10\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.LP
.rs
.sp 47P
.ad r
\fBFigure III\(hy3/X.31, (N), p. 11\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.LP
.rs
.sp 24P
.ad r
\fBFigure III\(hy4/X.31, (N), p. 12\fR
.sp 1P
.RT
.ad b
.RT
.LP
.rs
.sp 25P
.ad r
\fBFigure III\(hy5/X.31, (N), p. 13\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.LP
.rs
.sp 24P
.ad r
\fBFigure III\(hy6/X.31, (N), p. 14\fR
.sp 1P
.RT
.ad b
.RT
.LP
.rs
.sp 26P
.ad r
\fBFigure III\(hy7/X.31, (N), p. 15\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.sp 1P
.LP
III.2
\fIExample conditions for cause mapping\fR
.sp 9p
.RT
.PP
Figures III\(hy8/X.31 through III\(hy16/X.31 show example conditions when
cause mappings would be utilized between Q.931 and X.26 messages and utilize
the specific mappings of Table\ 6\(hy5/X.31 and Table\ 6\(hy6/X.31 as shown
below:
.RT
.sp 1P
.LP
\fIFigure\fR \fIReference Table\fR \fINote\fR \v'3p'
.sp 9p
.RT
.LP
*****
Q.931 failures during call establishment *****
.LP
III\(hy8\ \
.LP
III\(hy9\ \
.LP
III\(hy10\
Table 6\(hy5/X.31
.LP
III\(hy11\
.LP
III\(hy12\
.sp 1P
.LP
*****
User side failures during X.25 data transfer phase *****
.sp 9p
.RT
.LP
III\(hy13
Table 6\(hy5/X.31
1
.LP
III\(hy14
Table 6\(hy5/X.31
2
.sp 1P
.LP
*****
Network side premature clearing *****
.sp 9p
.RT
.LP
III\(hy15
Table 6\(hy6/X.31
.LP
III\(hy16
Table 6\(hy6/X.31
.PP
\fINote\ 1\fR \ \(em\ This mapping is only needed in the case of the Q.931
message arriving prior to the clearing of the last virtual circuit.
.PP
\fINote\ 2\fR \ \(em\ This situation always results in either an X.25 \fIclear\fR
\fIindication\fR \| packet with cause ##9, \*Qout of order\*U for switched
virtual
circuits, or an X.25 \fIreset\fR packet with cause ##9, \*Qout of order\*U for
permanent virtual circuits.
.RT
.LP
.rs
.sp 8P
.ad r
\fBFigure III\(hy8/X.31, (N), p. 16\fR
.sp 1P
.RT
.ad b
.RT
.LP
.rs
.sp 16P
.ad r
\fBFigure III\(hy9/X.31, (N), p. 17\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.LP
.rs
.sp 12P
.ad r
\fBFigure III\(hy10/X.31, (N), p. 18\fR
.sp 1P
.RT
.ad b
.RT
.LP
.rs
.sp 18P
.ad r
\fBFigure III\(hy11/X.31, (N), p. 19\fR
.sp 1P
.RT
.ad b
.RT
.LP
.rs
.sp 14P
.ad r
\fBFigure III\(hy12/X.31, (N), p. 20\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.LP
.rs
.sp 12P
.ad r
\fBFigure III\(hy13/X.31, (N), p. 21\fR
.sp 1P
.RT
.ad b
.RT
.LP
.rs
.sp 17P
.ad r
\fBFigure III\(hy14/X.31, (N), p. 22\fR
.sp 1P
.RT
.ad b
.RT
.LP
.rs
.sp 13P
.ad r
\fBFigure III\(hy15/X.31, (N), p. 23\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.LP
.rs
.sp 17P
.ad r
\fBFigure III\(hy16/X.31, (N), p. 24\fR
.sp 1P
.RT
.ad b
.RT
.ce 1000
APPENDIX\ IV
.ce 0
.sp 1P
.ce 1000
(to Recommendation X.31)
.sp 9p
.RT
.ce 0
.sp 1P
.ce 1000
\fBD\(hychannel TAs requiring full protocol terminal in the TA\fR
.sp 1P
.RT
.ce 0
.LP
IV.1
\fIIntroduction\fR
.sp 1P
.RT
.PP
On the basis of different implementations of X.25 procedures in
existing DTEs, several types of terminal adaptors can be identified,
namely:
.RT
.LP
\(em
type\ 1:
Establishment of a logical, SAPI\ =\ 16, link in the
D\(hychannel upon recognition of the receipt of a
SABM frame;
.LP
\(em
type\ 2:
idem, on receipt of an I frame;
.LP
\(em
type\ 3:
idem, on receipt of a CR packet.
.PP
\fINote\fR \ \(em\ Alternatively, initiation of call set\(hyup can be carried
out by manual means, for example a push button on the TA.
.PP
The first type applies to DTEs which disconnect the link at the
R\(hyreference point, when no virtual calls are in progress, and is described
in \(sc\ 7.4 of this Recommendation.
.PP
However, there are also DTEs which are not able to disconnect the link
at the reference point. Therefore, this appendix presents possible approaches
for the functionalities and the signalling mapping procedures of terminal
adaptors, applicable to DTEs of this type.
.PP
These examples should not constrain implementations and do not cover all
possible cases.
.RT
.sp 1P
.LP
IV.2
\fICall control\fR
.sp 9p
.RT
.PP
In this appendix, the following call phases are
specified:
.RT
.LP
\(em
idle phase,
.LP
\(em
establishment phase,
.LP
\(em
data transfer phase,
.LP
\(em
clearing phase.
.PP
When no virtual calls are in progress, the TA is in the idle
phase.
.PP
Incoming or outgoing calls force transition to the data transfer
phase, via the establishment phase.
.PP
After the clearing of the last virtual call, the TA transits from the data
transfer phase via the clearing phase to the idle phase.
.bp
.RT
.sp 1P
.LP
IV.2.1
\fIIdle phase\fR
.sp 9p
.RT
.PP
In the idle phase, no virtual calls are in progress.
.PP
In the idle phase, the layers 1 and 2 on the R\(hyreference point are
established (see Figure\ IV\(hy1/X.31). All X.25 layer\ 2 procedures are
supported by the TA. Some layer\ 3 procedures, for instance the restart
procedures, may be supported too.
.RT
.LP
.rs
.sp 14P
.ad r
\fBFigure IV\(hy1/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.PP
There is no need to support layer 3 procedures, when an outgoing call is
initiated by the DTE by sending an I\ frame to the TA. Receipt of that
I\ frame is followed by setting up a D\(hychannel, SAPI\ =\ 16, logical
link by the TA; as soon as that link is established, the TA will transmit
the packet
contained in the received I\ frame to the DCE; that packet has to be an
X.25\ CR packet.
.PP
Figure IV\(hy2/X.31 depicts this situation.
.PP
\fINote\fR \ \(em\ When only incoming calls are to be supported or the
beginning of an outgoing call is initiated via the human/machine interface
of the TA
(e.g.,a push button on the TA), there is in principle no need for the TA to
support layer\ 3 procedures.
.RT
.LP
.rs
.sp 14P
.ad r
\fBFigure IV\(hy2/X.31, (N), p. 26\fR
.sp 1P
.RT
.ad b
.RT
.sp 1P
.LP
IV.2.1.1
\fITransferring to the establishment phase\fR
.sp 9p
.RT
.PP
The TA transmits to the establishment phase at:
.RT
.LP
\(em
the detection of an outgoing call.
Outgoing calls are detected by the receipt of an X.25 \fIcall\fR \fIrequest\fR
\| packet or via the human/machine interface of the TA,
or by the receipt of an I\ frame (see \(sc\ IV.2.2.1).
.LP
\(em
the detection of an incoming call.
The TA applies the procedures of \(sc 6.2 for the detection and
acceptance of incoming calls (see also \(sc\ IV.2.2.2).
.bp
.sp 1P
.LP
IV.2.2
\fIEstablishment phase\fR
.sp 9p
.RT
.PP
For call establishment, the following subsequent actions can be
distinguished:
.RT
.LP
1)
establishment of a SAPI\ =\ 16, logical link via the
D\(hychannel;
.LP
2)
establishment of layer 3 between the X.25 DTE and the X.25 DCE in the PH;
.LP
3)
proceeding to the data transfer phase, during which the TA is always
transparent at layer\ 3.
.LP
.rs
.sp 15P
.ad r
\fBFigure IV\(hy3/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.sp 1P
.LP
IV.2.2.1
\fIOutgoing call initiated via a call request packet or an\fR
\fII frame\fR
.sp 9p
.RT
.PP
\fINote\fR \ \(em\ Reference to an I frame throughout this appendix means
that the TA has no knowledge about the type of X.25 packet, contained in
that I\ frame.
.PP
The \fIcall request\fR \| packet received from the X.25 DTE is buffered
in the TA. A D\(hychannel logical link, SAPI=16, is established between
the DCE in
the PH and the TA, following the procedures of Q.921. Layer\ 3 of the DCE
in the PH may be reset by means of the restart procedure. The buffered
\fIcall request\fR \| packet is sent to the DCE in the PH.
.PP
After that the TA proceeds to the data transfer phase.
.PP
Figure IV\(hy4/X.31 gives an example of the message sequence for
establishment phase.
.RT
.LP
.rs
.sp 18P
.ad r
\fBFigure IV\(hy4/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.LP
.bp
.PP
\fINote\fR \ \(em\ After initiation via the human/machine interface of
the TA, a D\(hychannel logical link, SAPI\ =\ 16, is established between
the PH and the TA, following the procedures of Q.921. Layer\ 3 of the DCE
of the PH may be
reset by means of the restart procedure.
.PP
The TA then proceeds to the data transfer phase.
.RT
.sp 1P
.LP
IV.2.2.2
\fIIncoming call\fR
.sp 9p
.RT
.PP
At the reception of an incoming call, the procedures of \(sc\ 6.2.2 of
this Recommendation apply for the allocation of a D\(hychannel SAPI\ =\
16 link
between the TA and the PH.
.PP
The TA proceeds to the data transfer phase after the sending of a
UA frame, acknowledging the received SABME frame from the\ PH.
.RT
.sp 1P
.LP
IV.2.3
\fIData transfer phase\fR
.sp 9p
.RT
.PP
In the data transfer phase, the TA acts as a layer 2 relay by
terminating the layer\ 2 links at both sides and performing a mapping function
between them (see Figure\ IV\(hy5/X.31). The mapping is described in \(sc\
7.4.2 of
this Recommendation.
.RT
.LP
.rs
.sp 17P
.ad r
\fBFigure IV\(hy5/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.sp 1P
.LP
IV.2.3.1
\fITransferring to the clearing phase\fR
.sp 9p
.RT
.PP
The clearing phase is entered at the detection that no virtual
calls over the D\(hychannel link are in progress any more. This detection
will be done by the PH (see \(sc\ IV.2.4).
.PP
\fINote\ 1\fR \ \(em\ Alternatively, this detection is done by the user, e.g.,
notification via a push button on the TA.
.PP
\fINote\ 2\fR \ \(em\ Detection by the DTE is not relevant because there
are no means to notify the detection of the clearing of the last virtual
call to the TA (layers\ 1 and 2 are always established here).
.RT
.sp 1P
.LP
IV.2.4
\fIClearing phase\fR
.sp 9p
.RT
.PP
For call clearing, the following actions can be distinguished (see Figure\
IV\(hy6/X.31):
.RT
.LP
1)
clearing of the layer 3 connection;
.LP
2)
clearing of the SAPI=16 logical link via the D\(hychannel;
.LP
3)
transferring to the idle phase.
.bp
.LP
.rs
.sp 16P
.ad r
\fBFigure IV\(hy6/X.31, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.sp 1P
.LP
IV.2.4.1
\fIDetection by the PH\fR
.sp 9p
.RT
.PP
After the clearing of the last virtual call via a certain logical link,
the PH sends a DISC frame to the TA, initiating the disconnection of the
D\(hychannel, SAPI\ =\ 16 logical link. The TA enters the idle phase, after
acknowledging this disconnection by sending a UA\ frame.
.PP
Figure IV\(hy7/X.31 gives an example of the message sequence for the
clearing phase.
.RT
.LP
.rs
.sp 25P
.ad r
\fBFigure IV\(hy7/X.32, (N), p.\fR
.sp 1P
.RT
.ad b
.RT
.PP
\fINote\fR \ \(em\ After the manual notification by the user via the
human/machine interface of the TA, the TA sends a DISC frame to the PH,
requesting for disconnection of the D\(hychannel, SAPI\ =\ 16 logical link.
After reception of the UA frame by the TA (acknowledging this disconnection),
the TA enters the idle phase.
.bp
.ce 1000
APPENDIX\ V
.ce 0
.sp 1P
.ce 1000
(to Recommendation X.31)
.sp 9p
.RT
.ce 0
.sp 1P
.ce 1000
\fBReferences\fR
.sp 1P
.RT
.ce 0
.LP
X.1
International user classes of service in public data networks and
integrated services digital networks (ISDNs)
.sp 1P
.RT
.LP
X.2
International data transmission services and optional user
facilities in public data networks
.LP
X.3
Packet assembly/disassembly facility (PAD) in a public data
network
.LP
X.10
Categories of access for data terminal equipment (DTE) to public
data transmission services
.LP
X.21
Interface between data terminal equipment (DTE) and data
circuit\(hyterminating equipment (DCE) for synchronous operation on
public data networks
.LP
X.21\|\fIbis\fR Use on public data networks of data terminal equipment (DTE)
which is designed for interfacing to synchronous V\(hyseries
modems
.LP
X.25
Interface between data terminal equipment (DTE) and data
circuit\(hyterminating equipment (DCE) for terminals operating in the
packet mode and connected to public data networks by dedicated
circuit
.LP
X.28
DTE/DCE interface for a start\(hystop mode data terminal equipment
accessing the packet assembly/disassembly facility (PAD) in a public
data network situated in the same country
.LP
X.29
Procedures for the exchange of control information and user
data between a packet assembly/disassembly (PAD) facility and a
packet mode DTE or another PAD
.LP
X.30\ (I.461)
Support of X.21, X.21\|\fIbis\fR \| and X.20\|\fIbis\fR \| based data
terminal equipments (DTEs) by an integrated services digital
network (ISDN)
.LP
X.32
Interface between data terminal equipment (DTE) and data
circuit\(hyterminating equipment (DCE) for terminals operating in the
packet mode and accessing a packet switched public data network
through a public switched telephone network or an integrated
services digital network or a circuit switched public data
network
.LP
X.52
Method of encoding an isochronous signals into a synchronous user
bearer
.LP
X.75
Packet switched signalling system between public networks
providing data transmission services
.LP
X.96
Call progress signals in public data networks
.LP
X.121
International numbering plan for public data networks
.LP
X.213
Network service definition for Open Systems Interconnection (OSI)
for CCITT Applications
.LP
X.300
General principles for interworking between public networks and
other networks for the provision of data transmission
services
.LP
X.320
General arrangements for interworking between Integrated Services
Digital Networks (ISDNs) for the provision of data transmission
services
.LP
X.325\ (I.550)
General arrangements for interworking between Packet Switched
Public Data Networks (PSPDNs) and Integrated Services Digital
Networks (ISDNs) for the provision of data transmission services
.LP
I.230
Definition of bearer service categories
.LP
I.231
Circuit mode bearer service categories
.bp
.LP
I.232
Packet\(hymode bearer service categories
.LP
I.331\ (E.164)
Numbering plan for the ISDN era
.LP
I.411
ISDN user\(hynetwork interface \(em Reference configurations
.LP
I.430
Basic user\(hynetwork interface \(em Layer 1 specification
.LP
I.431
Primary rate user\(hynetwork interface \(em Layer 1
specification
.LP
I.441\ (Q.921)
ISDN user\(hynetwork interface data link specification
.LP
I.451\ (Q.931)
ISDN user\(hynetwork interface layer 3 specification
.LP
I.461
See X.30
.LP
Q.920
ISDN user\(hynetwork interface data link layer \(em General
aspects
.LP
Q.921
See I.441
.LP
Q.931
See I.451
.LP
V.25\|\fIbis\fR Automatic calling and/or answering equipment on the general
switched telephone network (GSTN) using the V.100\(hyseries
interchange circuits
.LP
V.110
Support of data terminal equipments (DTEs) with V\(hyseries
type interfaces by an integrated services digital network (ISDN)
.LP
E.166
Numbering plan interworking in the ISDN era
.LP
.rs
.sp 33P
.sp 2P
.LP
\fBMONTAGE: RECOMMANDATION X.32 SUR LE RESTE DE CETTE PAGE\fR
.sp 1P
.RT
.LP
.bp
