InfoMagic Standards 1994 January

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Text File | 1991-12-22 | 100KB | 5,228 lines

.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' .LP \fB7\fR \fBMapping of PPDUS onto the session\(hyservice\fR .sp 1P .RT .sp 2P .LP 7.1 \fIConnection establishment\fR .sp 1P .RT .sp 1P .LP 7.1.1 \fICP PPDU\fR .sp 9p .RT .PP The CP PPDU shall be conveyed from the initiating PPM to the responding PPM in the S\(hyCONNECT request and indication session\(hyservice primitives. .RT .sp 1P .LP 7.1.1.1 \fICP PPDU associated parameters\fR .sp 9p .RT .PP Table 1/X.226 defines the mapping of the CP PPDU associated parameters onto S\(hyCONNECT parameters. .RT .LP .sp 1 .ce \fBH.T. [T1.226]\fR .ce TABLE\ 1/X.226 .ce \fBMapping of CP PPDU associated parameters\fR .ce \fBonto S\(hyCONNECT parameters\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ CP\ PPDU associated parameter T} S\(hyCONNECT parameter m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . Mode selector SS\(hyuser data m .T& lw(108p) | lw(96p) | cw(24p) . Protocol version SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . T{ Calling\(hypresentation\(hyselector T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Calling\(hysession\(hyaddress Calling SSAP address s .T& lw(108p) | lw(96p) | cw(24p) . T{ Called\(hypresentation\(hyselector T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Called\(hysession\(hyaddress Called SSAP address s .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context definition list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Default context name SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Quality of service Quality of service s .T& lw(108p) | lw(96p) | cw(24p) . Presentation requirements SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . User session requirements SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Revised session requirements Session requirements s .T& lw(108p) | lw(96p) | cw(24p) . T{ Initial synchronization point serial number T} T{ Initial synchronization point serial number T} s .T& lw(108p) | lw(96p) | cw(24p) . Initial assignment of tokens Initial assignment of tokens s .T& lw(108p) | lw(96p) | cw(24p) . Session connection identifier Session connection identifier s .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 1/X.226, [T1.226] p.\fR .sp 1P .RT .ad b .RT .LP .sp 1 .sp 1P .LP 7.1.2 \fICPA PPDU\fR .sp 9p .RT .PP The CPA PPDU shall be conveyed from the responding PPM to the initiating PPM in the S\(hyCONNECT response and confirm session\(hyserivce primitive. .bp .RT .sp 1P .LP 7.1.2.1 \fICPA PPDU associated parameters\fR .sp 9p .RT .PP Table 2/X.226 defines the mapping of the CPA PPDU associated parameters onto S\(hyCONNECT parameters. .RT .LP .sp 4 .ce \fBH.T. [T2.226]\fR .ce TABLE\ 2/X.226 .ce \fBMapping of CPA PPDU associated parameters\fR .ce \fBonto S\(hyCONNECT parameters\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ CPA PPDU associated parameter T} S\(hyCONNECT parameter m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . Mode selector SS\(hyuser data m .T& lw(108p) | lw(96p) | cw(24p) . Protocol version SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . T{ Responding\(hypresentation\(hyselector T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . T{ Responding\(hysession\(hyaddress T} Responding SSAP address s .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context definition result list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Quality of service Quality of service s .T& lw(108p) | lw(96p) | cw(24p) . Presentation requirements SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . User session requirements SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Revised session requirements Session requirements s .T& lw(108p) | lw(96p) | cw(24p) . T{ Initial synchronization point serial number T} T{ Initial synchronization point serial number T} s .T& lw(108p) | lw(96p) | cw(24p) . Initial assignment of tokens Initial assignment of tokens s .T& lw(108p) | lw(96p) | cw(24p) . Session connection identifier Session connection identifier s .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 2/X.226, [T2.226] p.2\fR .sp 1P .RT .ad b .RT .LP .sp 4 .sp 1P .LP 7.1.2.2 \fIS\(hyCONNECT Result parameter\fR .sp 9p .RT .PP This parameter shall have the value \*Qaccept\*U. .RT .sp 1P .LP 7.1.3 \fICPR PPDU\fR .sp 9p .RT .PP The CPR PPDU shall be conveyed from the responding PPM to the initiating PPM in the S\(hyCONNECT response and confirm session\(hyservice primitive. .PP However, when the session\(hyservice\(hyprovider rejects the session\(hyconnection establishment proposal, there is no explicit S\(hyCONNECT response session\(hyservice primitive and corresponding CPR\ PPDU. .bp .RT .sp 1P .LP 7.1.3.1 \fICPR PPDU associated parameters\fR .sp 9p .RT .PP Table 3/X.226 defines the mapping of the CPR PPDU associated parameters onto S\(hyCONNECT parameters. .RT .LP .sp 4 .ce \fBH.T. [T3.226]\fR .ce TABLE\ 3/X.226 .ce \fBMapping of CPR PPDU associated parameters\fR .ce \fBonto S\(hyCONNECT parameters\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ CPR PPDU associated parameter T} S\(hyCONNECT parameter m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . Protocol version SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . T{ Responding\(hypresentation\(hyselector T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . T{ Responding\(hysession\(hyaddress T} Responding SSAP address s .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context definition result list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Default context result SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Quality of service Quality of service s .T& lw(108p) | lw(96p) | cw(24p) . Session requirements Session requirements s .T& lw(108p) | lw(96p) | cw(24p) . Session connection identifier Session connection identifier s .T& lw(108p) | lw(96p) | cw(24p) . Provider reason SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 3/X.226, [T3.226] p.3\fR .sp 1P .RT .ad b .RT .LP .sp 4 .sp 1P .LP 7.1.3.2 \fIS\(hyCONNECT Result parameter\fR .sp 9p .RT .PP This parameter may take the values: .RT .LP \(em \*Qreject by SS\(hyprovider\*U (a whole class of values); .LP \(em \*Qreject by called SS\(hyuser\*U with SS\(hyuser data. .PP The former case arises when rejection is initiated by the session\(hyservice\(hyprovider; the Provider reason parameter is absent even though rejection is initiated by the presentation\(hyservice\(hyprovider. The latter case arises when rejection is initiated by the responding PPM or PS\(hyuser; the Provider reason parameter is present only if rejection is initiated by the responding PPM. The User data parameter of the PPDU may only be present when rejection is initiated by the responding PS\(hyuser. .bp .sp 1P .LP 7.2 \fINormal release of connection\fR .sp 9p .RT .PP Normal release of the presentation\(hyconnection takes place concurrently with normal release of the session\(hyconnection. Presentation\(hyservice primitives are mapped onto the corresponding session\(hyservice primitives. Table\ 4/X.226 defines the mapping. .RT .LP .sp 1 .ce \fBH.T. [T4.226]\fR .ce TABLE\ 4/X.226 .ce \fBMapping of normal release service primitives .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(114p) | cw(114p) . Presentation primitive Session primitive _ .T& lw(114p) | lw(114p) . P\(hyRELEASE request S\(hyRELEASE request .T& lw(114p) | lw(114p) . P\(hyRELEASE indication S\(hyRELEASE indication .T& lw(114p) | lw(114p) . P\(hyRELEASE response S\(hyRELEASE response .T& lw(114p) | lw(114p) . P\(hyRELEASE confirm S\(hyRELEASE confirm _ .TE .nr PS 9 .RT .ad r \fBTableau 4/X.226, [T4.226] p.4\fR .sp 1P .RT .ad b .RT .LP .sp 1 .sp 2P .LP 7.3 \fIAbnormal release of connection\fR .sp 1P .RT .sp 1P .LP 7.3.1 \fIARU PPDU\fR .sp 9p .RT .PP The ARU PPDU shall be conveyed from the requesting PPM to the accepting PPM in the S\(hyU\(hyABORT request and indication session\(hyservice primitives. .RT .sp 1P .LP 7.3.1.1 \fIARU PPDU associated parameters\fR .sp 9p .RT .PP Table\ 5/X.226 defines the mapping of the ARU PPDU associated parameters onto S\(hyU\(hyABORT parameters. .RT .LP .sp 1 .ce \fBH.T. [T5.226]\fR .ce TABLE\ 5/X.226 .ce \fBMapping of ARU PPDU associated parameters\fR .ce \fBonto S\(hyU\(hyABORT parameters\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ ARU PPDU associated parameter T} S\(hyU\(hyABORT parameter m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context identifier list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 5/X.226, [T5.226] p.5\fR .sp 1P .RT .ad b .RT .LP .bp .sp 1P .LP 7.3.2 \fIARP PPDU\fR .sp 9p .RT .PP The ARP PPDU shall be conveyed from the requesting PPM to the accepting PPM in the S\(hyU\(hyABORT request and indication session\(hyservice primitives. .RT .sp 1P .LP 7.3.2.1 \fIARP PPDU associated parameters\fR .sp 9p .RT .PP Table 6/X.226 defines the mapping of the ARP PPDU associated parameters onto S\(hyU\(hyABORT parameters. .RT .LP .sp 1 .ce \fBH.T. [T6.226]\fR .ce TABLE\ 6/X.226 .ce \fBMapping of ARP PPDU associated parameters\fR .ce \fBonto S\(hyU\(hyABORT parameters\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ ARP\ PPDU associated parameter T} S\(hyU\(hyABORT parameter m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . Provider reason SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . Event identifier SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 6/X.226, [T6.226] p.6\fR .sp 1P .RT .ad b .RT .LP .sp 1 .sp 2P .LP 7.4 \fIContext Alteration\fR .sp 1P .RT .sp 1P .LP 7.4.1 \fIAC PPDU\fR .sp 9p .RT .PP The AC PPDU shall be conveyed from the requesting PPM to the accepting PPM in the S\(hyTYPED\(hy DATA request and indication session\(hyservice primitives. .RT .sp 1P .LP 7.4.1.1 \fIAC PPDU associated parameters\fR .sp 9p .RT .PP Table 7/X.226 defines the mapping of the AC PPDU associated parameters onto S\(hyTYPED\(hyDATA parameters. .RT .sp 1P .LP 7.4.2 \fIACA PPDU\fR .sp 9p .RT .PP The ACA PPDU shall be conveyed from the accepting PPM to the requesting PPM in the S\(hyTYPED\(hy DATA response and confirm session\(hyservice primitives. .RT .sp 1P .LP 7.4.2.1 \fIACA PPDU associated parameters\fR .sp 9p .RT .PP Table 8/X.226 defines the mapping of the ACA PPDU associated parameters onto S\(hyTYPED\(hyDATA parameters. .bp .RT .ce \fBH.T. [T7.226]\fR .ce TABLE\ 7/X.226 .ce \fBMapping of AC PPDU associated parameters\fR .ce \fB onto S\(hyTYPED\(hyDATA parameters\fR .ce \fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ AC PPDU associated parameter T} T{ S\(hyTYPED\(hyDATA parameter T} m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context addition list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context deletion list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 7/X.226, [T7.226] p.7\fR .sp 1P .RT .ad b .RT .LP .sp 4 .ce \fBH.T. [T8.226]\fR .ce TABLE\ 8/X.226 .ce \fBMapping of ACA PPDU associated parameters\fR .ce \fR .ce \fB onto S\(hyTYPED\(hyDATA parameters\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ ACA PPDU associated parameter T} T{ S\(hyTYPED\(hyDATA parameter T} m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context addition result list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context deletion result list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 8/X.226, [T8.226] p.8\fR .sp 1P .RT .ad b .RT .LP .sp 1 .sp 2P .LP 7.5 \fIInformation Transfer\fR .sp 1P .RT .sp 1P .LP 7.5.1 \fITTD PPDU\fR .sp 9p .RT .PP The TTD PPDU shall be conveyed from the requesting PPM to the accepting PPM in the S\(hyTYPED\(hy DATA request and indication session\(hyservice primitives. .bp .RT .sp 1P .LP 7.5.1.1 \fITTD PPDU associated parameters\fR .sp 9p .RT .PP Table 9/X.226 defines the mapping of the TTD PPDU associated parameters onto S\(hyTYPED\(hyDATA parameters. .RT .LP .sp 1 .ce \fBH.T. [T9.226]\fR .ce TABLE\ 9/X.226 .ce \fBMapping of TTD PPDU associated parameters\fR .ce \fB onto S\(hyTYPED\(hyDATA parameters\fR .ce \fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ TTD PPDU associated parameter T} T{ S\(hyTYPED\(hyDATA parameter T} m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 9/X.226, [T9.226] p.9\fR .sp 1P .RT .ad b .RT .LP .sp 1 .sp 1P .LP 7.5.2 \fITD PPDU\fR .sp 9p .RT .PP The User data parameter of a TD PPDU shall form the SS\(hyuser data parameter of an S\(hyDATA request service primitive and corresponding indication service primitive. .RT .sp 1P .LP 7.5.3 \fITE PPDU\fR .sp 9p .RT .PP The User data parameter of a TE PPDU shall form the SS\(hyuser data parameter of an S\(hyEXPEDITED\(hy DATA request service primitive and corresponding indication service primitive. .RT .sp 1P .LP 7.5.4 \fITC PPDU\fR .sp 9p .RT .PP The User data parameter of the TC PPDU shall form the SS\(hyuser data parameter of an S\(hyCAPABILITY\(hy DATA request service primitive and corresponding indication service primitive. .RT .sp 1P .LP 7.5.5 \fITCC PDU\fR .sp 9p .RT .PP The User data parameter of the TCC PPDU shall form the SS\(hyuser data parameter of an S\(hyCAPABILITY\(hy DATA response service primitive and corresponding confirm service primitive. .RT .sp 1P .LP 7.6 \fIToken Handling\fR .sp 9p .RT .PP Token handling services are provided by the underlying session\(hyservice. Presentation\(hyservice primitives are mapped onto the corresponding session\(hyservice primitives. Table\ 10/X.226 defines the mapping. .RT .sp 1P .LP 7.7 \fISynchronization\fR .sp 9p .RT .PP Synchronization services are provided by the underlying session\(hyservice. The presentation\(hyservice primitives are mapped onto the corresponding session\(hyservice primitives. Table\ 11/X.226 defines the mapping. .bp .RT .LP \fR .ce \fBH.T. [T10.226]\fR .ce TABLE\ 10/X.226 .ce \fBMapping of token handling service primitives\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(114p) | cw(114p) . Presentation primitive Session primitive _ .T& lw(114p) | lw(114p) . P\(hyTOKEN\(hyGIVE request S\(hyTOKEN\(hyGIVE request .T& lw(114p) | lw(114p) . P\(hyTOKEN\(hyGIVE indication S\(hyTOKEN\(hyGIVE indication .T& lw(114p) | lw(114p) . P\(hyTOKEN\(hyPLEASE request S\(hyTOKEN\(hyPLEASE request .T& lw(114p) | lw(114p) . T{ P\(hyTOKEN\(hyPLEASE indication T} T{ P\(hyTOKEN\(hyPLEASE indication T} .T& lw(114p) | lw(114p) . P\(hyCONTROL\(hyGIVE request S\(hyCONTROL\(hyGIVE request .T& lw(114p) | lw(114p) . T{ P\(hyCONTROL\(hyGIVE indication T} T{ S\(hyCONTROL\(hyGIVE indication T} _ .TE .nr PS 9 .RT .ad r \fBTableau 10/X.226, [T10.226], p.10\fR .sp 1P .RT .ad b .RT .LP .sp 5 .ce \fBH.T. [T11.226]\fR .ce TABLE\ 11/X.226 .ce \fBMapping of synchronization service primitives\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(114p) | cw(114p) . Presentation primitive Session primitive _ .T& lw(114p) | lw(114p) . P\(hySYNC\(hyMINOR request S\(hySYNC\(hyMINOR request .T& lw(114p) | lw(114p) . P\(hySYNC\(hyMINOR indication S\(hySYNC\(hyMINOR indication .T& lw(114p) | lw(114p) . P\(hySYNC\(hyMINOR response S\(hySYNC\(hyMINOR response .T& lw(114p) | lw(114p) . P\(hySYNC\(hyMINOR confirm S\(hySYNC\(hyMINOR confirm .T& lw(114p) | lw(114p) . P\(hySYNC\(hyMAJOR request S\(hySYNC\(hyMAJOR request .T& lw(114p) | lw(114p) . P\(hySYNC\(hyMAJOR indication S\(hySYNC\(hyMAJOR indication .T& lw(114p) | lw(114p) . P\(hySYNC\(hyMAJOR response S\(hySYNC\(hyMAJOR response .T& lw(114p) | lw(114p) . P\(hySYNC\(hyMAJOR confirm S\(hySYNC\(hyMAJOR confirm _ .TE .nr PS 9 .RT .ad r \fBTableau 11/X.226, [T11.226] p.11\fR .sp 1P .RT .ad b .RT .LP .bp .sp 2P .LP 7.8 \fIResynchronization\fR .sp 1P .RT .sp 1P .LP 7.8.1 \fIRS PPDU\fR .sp 9p .RT .PP The RSA PPDU shall be conveyed from the requesting PPM to the accepting PM in the S\(hyRESYNCHRONIZE request and indication session\(hyservice primitives. .RT .sp 1P .LP 7.8.1.1 \fIRS PPDU associated parameters\fR .sp 9p .RT .PP Table 12/X.226 defines the mapping of the RS PPDU associated parameters onto S\(hyRESYNCHRONIZE parameters. .RT .LP .sp 3 .ce \fBH.T. [T12.226]\fR .ce TABLE\ 12/X.226 .ce \fBMapping of RS PPDU associated parameters\fR .ce \fR .ce \fB onto S\(hyRESYNCHRONIZE parameters\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ RS PPDU associated parameter T} T{ S\(hyRESYNCHRONIZE parameter T} m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . Resynchronize type Resynchronize type s .T& lw(108p) | lw(96p) | cw(24p) . T{ Synchronization point serial number T} T{ Synchronization point serial number T} s .T& lw(108p) | lw(96p) | cw(24p) . Tokens Tokens s .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context identifier list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 12/X.226, [T12.226] p.12\fR .sp 1P .RT .ad b .RT .LP .sp 3 .sp 1P .LP 7.8.2 \fIRSA PPDU\fR .sp 9p .RT .PP The RSA PPDU shall be conveyed from the accepting PPM to the requesting PPM in the S\(hyRESYNCHRONIZE response and confirm session\(hyservice primitives. .RT .sp 1P .LP 7.8.2.1 \fIRSA PPDU associated parameters\fR .sp 9p .RT .PP Table 13/X.226 defines the mapping of the RSA PPDU associated parameters onto S\(hyRESYNCHRONIZE parameters. .RT .sp 1P .LP 7.9 \fIException Reporting\fR .sp 9p .RT .PP Exception reporting services are provided by the underlying session\(hyservice. Presentation\(hyservice primitives are mapped onto the corresponding session\(hyservice primitives. Table\ 14/X.226 defines the mapping. .bp .RT .ce \fBH.T. [T13.226]\fR .ce TABLE\ 13/X.226 .ce \fBMapping of RSA PPDU associated parameters\fR .ce \fR .ce \fB onto S\(hyRESYNCHRONIZE parameters\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(108p) | cw(96p) | cw(24p) . T{ RSA PPDU associated parameter T} T{ S\(hyRESYNCHRONIZE parameter T} m/nm/s _ .T& lw(108p) | lw(96p) | cw(24p) . T{ Synchronization point serial number T} T{ Synchronization point serial number T} s .T& lw(108p) | lw(96p) | cw(24p) . Tokens Tokens s .T& lw(108p) | lw(96p) | cw(24p) . T{ Presentation context identifier list T} SS\(hyuser data nm .T& lw(108p) | lw(96p) | cw(24p) . User data SS\(hyuser data T{ nm m: mandatory. .parag nm: non\(hymandatory. .parag s: as defined in the Session Service Definition (Recommendation\ X.215). .parag T} _ .TE .nr PS 9 .RT .ad r \fBTableau 13/X.226, [T13.226] p.13\fR .sp 1P .RT .ad b .RT .LP .sp 6 .ce \fBH.T. [T14.226]\fR .ce TABLE\ 14/X.226 .ce \fBMapping of Exception reporting service .ce \fB primitives\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(114p) | cw(114p) . Presentation primitive Session primitive _ .T& lw(114p) | lw(114p) . T{ P\(hyP\(hyEXCEPTION\(hyREPORT indication T} T{ S\(hyP\(hyEXCEPTION\(hyREPORT indication T} .T& lw(114p) | lw(114p) . T{ P\(hyU\(hyEXCEPTION\(hyREPORT request T} T{ S\(hyU\(hyEXCEPTION\(hyREPORT request T} .T& lw(114p) | lw(114p) . T{ P\(hyU\(hyEXCEPTION\(hyREPORT indication T} T{ S\(hyU\(hyEXCEPTION\(hyREPORT indication T} _ .TE .nr PS 9 .RT .ad r \fBTableau 14/X.226, [T14.226], p.14\fR .sp 1P .RT .ad b .RT .LP .sp 4 .sp 1P .LP 7.10 \fIActivity Management\fR .sp 9p .RT .PP Activity management services are provided by the underlying session\(hyservice. Presentation\(hyservice primitives are mapped onto the corresponding session\(hyservice primitives. Table\ 15/X.226 defines the mapping. .bp .RT .ce \fBH.T. [T15.226]\fR .ce TABLE\ 15/X.226 .ce \fBMapping of Activity management service primitives .ce \fB primitives\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(114p) | cw(114p) . Presentation primitive Session primitive _ .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hySTART request T} T{ S\(hyACTIVITY\(hySTART request T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hySTART indication T} T{ S\(hyACTIVITY\(hySTART indication T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyRESUME request T} T{ S\(hyACTIVITY\(hyRESUME request T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyRESUME indication T} T{ S\(hyACTIVITY\(hyRESUME indication T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyINTERRUPT request T} T{ S\(hyACTIVITY\(hyINTERRUPT request T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyINTERRUPT indication T} T{ S\(hyACTIVITY\(hyINTERRUPT indication T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyINTERRUPT response T} T{ S\(hyACTIVITY\(hyINTERRUPT response T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyINTERRUPT confirm T} T{ S\(hyACTIVITY\(hyINTERRUPT confirm T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyDISCARD request T} T{ S\(hyACTIVITY\(hyDISCARD request T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyDISCARD indication T} T{ S\(hyACTIVITY\(hyDISCARD indication T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyDISCARD response T} T{ S\(hyACTIVITY\(hyDISCARD response T} .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyDISCARD confirm T} T{ S\(hyACTIVITY\(hyDISCARD confirm T} .T& lw(114p) | lw(114p) . P\(hyACTIVITY\(hyEND request S\(hyACTIVITY\(hyEND request .T& lw(114p) | lw(114p) . T{ P\(hyACTIVITY\(hyEND indication T} T{ S\(hyACTIVITY\(hyEND indication T} .T& lw(114p) | lw(114p) . P\(hyACTIVITY\(hyEND response S\(hyACTIVITY\(hyEND response .T& lw(114p) | lw(114p) . P\(hyACTIVITY\(hyEND confirm T{ S\(hyACTIVITY\(hyEND confirm T} _ .TE .nr PS 9 .RT .ad r \fBTableau 15/X.226, [T15.226], p.15\fR .sp 1P .RT .ad b .RT .LP \fB8\fR \fBStructure and encoding of PPDUs\fR .sp 1P .RT .sp 2P .LP 8.1 \fIGeneral\fR .sp 1P .RT .PP 8.1.1 The struture of PPDUs (whether explicity defined or implicitly given) shall be defined by: .sp 9p .RT .LP a) the mapping onto parameters of session\(hyservice primitives; .LP b) the structure of session\(hyservice primitive SS\(hyuser data parameter values. .PP 8.1.2\fR The structure of SS\(hyuser data parameter values is specified using: .LP a) the notation ASN.1 (Recommendation\ X.208); .LP b) additional comments contained in the ASN.1 description; .LP \fINote\fR \ \(em\ ASN.1 comments in \(sc\ 8.2 are an integral part of this Recommendation, and frequently express requirements. .LP c) rules of extensibility as specified in \(sc\ 8.5 when operating in normal mode. .bp .PP 8.1.3 The encoding of SS\(hyuser data parameter values is specified in \(sc\ 8.3. .sp 1P .LP 8.2 \fIStructure of SS\(hyuser data parameter values\fR .sp 9p .RT .sp 2P .LP X.226\(hyPRESENTATION\ DEFINITIONS :: = .sp 1P .RT .sp 1P .LP BEGIN .sp 9p .RT .LP \(em\(em .LP \(em\(em\ \fIIn X.410\(hy1984 mode, the value of the SS\(hyuser data parameter of\fR \(em\(em\ \fIthe S\(hyCONNECT request and indication session\(hyservice primitives\fR \(em\(em\ \fIshall be a CP\(hytype value.\fR .LP \(em\(em .LP \(em\(em\ \fIIn normal mode, the value of the SS\(hyuser data parameter of the\fR \(em\(em\ \fIS\(hyCONNECT request and indication session\(hyservice primitives shall\fR \(em\(em\ \fIbe a CP\(hytype value, followed as a requestor's option by zero or\fR \(em\(em\ \fImore CPC\(hytype values.\fR .sp 1P .LP \fBCP\(hytype :: = SET\fR .sp 9p .RT .LP \fB{\fR \fB[0]\fR \fBIMPLICIT Mode\(hyselector\fR \fB[1]\fR \fBIMPLICIT SET\fR \fB{\ COMPONENTS OF Reliable\(hyTransfer\(hyAPDUs.RTORQapdu\ }\fR \fBOPTIONAL\fR .LP ASN.1 module Reliable\(hyTransfer\(hyAPDUs is defined in Recommendation\ X.228. .FE \(em\(em\ \fIShall be used for X.410 mode only. Shall be bitwise\fR \(em\(em\ \fIcompatible with CCITT Recommendation X.410\(hy1984.\fR \(em\(em\ \fIThis shall be the User data parameter of\fR \(em\(em\ \fIthe CP PPDU\fR \| \ \(em\(em, .sp 1P .LP \fB[2]\fR \fBIMPLICIT SEQUENCE\fR .sp 9p .RT .LP \fB{\fR \fB[0]\ IMPLICIT\fR \fBProtocol\(hyversion\fR \fBDEFAULT\ {version\(hy1},\fR \fB[1]\ IMPLICIT\fR \fBCalling\(hypresentation\(hyselector \fBOPTIONAL,\fR \fB[2]\ IMPLICIT\fR \fBCalled\(hypresentation\(hyselector \fBOPTIONAL,\fR \fB[4]\ IMPLICIT\fR \fBPresentation\(hycontext\(hydefinition\(hylist \fBOPTIONAL,\fR \fB[6]\ IMPLICIT\fR \fBDefault\(hycontext\(hyname \fR \fBOPTIONAL,\fR \fB[8]\ IMPLICIT\fR \fBPresentation\(hyrequirements\fR \fBOPTIONAL,\fR \fB[9]\ IMPLICIT\fR \fBUser\(hysession\(hyrequirements \fBOPTIONAL,\fR .LP \(em\(em\ \fIshall not be present if equal to the Revised session\fR \(em\(em\ \fIrequirements parameter\fR \ \(em\(em, .LP \fBUser\(hydata\fR \fBOPTIONAL\fR \fB}\fR \fBOPTIONAL\fR \ \ \ .LP \(em\(em\ \fIShall be used for normal mode only.\fR \(em\(em\ \fIShall be the parameters of the CP PPDU.\fR \(em\(em\ \fIAs an initiator's option, the presentation data values\fR \(em\(em\ \fIcontained in a CP PPDU may be encoded more than once,\fR \(em\(em\ \fIusing CPC\(hytype values, to allow the transfer of the same\fR \(em\(em\ \fIpresentation data values using a number of different\fR \(em\(em\ \fItransfer syntaxes.\fR .LP \fB}\fR .LP \(em\(em .bp .sp 1P .LP \fBCPC\(hytype :: = User\(hydata\fR .sp 9p .RT .LP \(em\(em\ \fIShall be used for normal mode only.\fR \(em\(em\ \fIShall not be present if the Presentation context definition list\fR \(em\(em\ \fIparameter is not present in the CP PPDU.\fR \(em\(em\ \fIEach instance of this data type shall contain all of the presentation\fR \(em\(em\ \fIdata values which were contained in the User data parameter of\fR \(em\(em\ \fIthe CP PPDU\fR \(em\(em\ \fIThis shall be the same set of presentation data values which were\fR \(em\(em\ \fIcontained in the CP\(hytype.\fR \(em\(em\ \fIThe SS\(hyuser data parameter value of the S\(hyCONNECT\fR \(em\(em\ \fIresponse and confirm session\(hyservice primitives shall be\fR \(em\(em\ \fIa CPA\(hyPPDU value when the Result parameter value\fR \(em\(em\ \fIis \*Qaccept\*U.\fR .LP \(em\(em .sp 1P .LP \fBCPA\(hyPPDU :: = SET\fR .sp 9p .RT .LP \fB{\fR \fB[0]\fR \fBIMPLICIT Mode\(hyselector\fR \fB[1]\fR \fBIMPLICIT SET\fR \fB{\ COMPONENTS OF Reliable\(hyTransfer\(hyAPDUs.RTOACapdu\ }\fR \fBOPTIONAL\fR .LP \(em\(em\ \fIShall be used for X.410 mode only. Shall be bitwise\fR \(em\(em\ \fIcompatible with CCITT Recommendation X.410\(hy1984.\fR \(em\(em\ \fIThis shall be the User data parameter of\fR \(em\(em\ \fIthe CPA PPDU\fR \| \ \(em\(em, .LP \fB[2]\fR \fBIMPLICIT\ SEQUENCE\fR .LP \fB{\fR \fB[0]\ IMPLICIT\fR \fBProtocol\(hyversion\fR \fBDEFAULT {version\(hy1},\fR \fB[3]\ IMPLICIT\fR \fBResponding\(hypresentation\(hyselector \fBOPTIONAL,\fR \fB[5]\ IMPLICIT\fR \fBPresentation\(hycontext\(hydefinition\(hyresult\(hylist \fBOPTIONAL,\fR \fB[8]\ IMPLICIT\fR \fBPresentation\(hyrequirements \fBOPTIONAL,\fR \fB[9]\ IMPLICIT\fR \fBUser\(hysession\(hyrequirements\fR \fBOPTIONAL,\fR .LP \(em\(em\ \fIshall not be present if equal to the Revised session\fR \(em\(em\ \fIrequirements parameter\fR \ \(em\(em .LP \fBUser\(hydata \fR \fBOPTIONAL\fR \fB}\fR \fBOPTIONAL\fR \ \ \ .LP \(em\(em\ \fIShall be used for normal mode only\fR .LP \fB}\fR .LP \(em\(em \(em\(em \(em\(em\ \fIThe SS\(hyuser data parameter value of\fR \(em\(em\ \fIthe S\(hyCONNECT response and confirm\fR \(em\(em\ \fIsession\(hyservice primitives shall be\fR \(em\(em\ \fIa CPR\(hyPPDU value when the Result parameter\fR \(em\(em\ \fIvalue is \*Qreject by SS\(hyprovider\*U\fR \(em\(em\ \fIor \*Qreject by called SS\(hyuser\*U.\fR .LP \(em\(em .bp .sp 1P .LP \fBCPR\(hyPPDU :: = CHOICE\fR .sp 9p .RT .LP \fB{\fR \fBSET {\fR \ \ \fBCOMPONENTS OF Reliable\(hyTransfer\(hyAPDUs.RTORJapdu\ }\fR .LP \(em\(em\ \fIShall be used for X.410 mode only. Shall be bitwise\fR \(em\(em\ \fIcompatible with CCITT Recommendation X.410\(hy1984.\fR \(em\(em\ \fIThis shall be the User data parameter of\fR \(em\(em\ \fIthe CPR PPDU\fR \| \ \(em\(em, .LP \fBSEQUENCE {\fR .LP \fB[0]\ IMPLICIT\fR \fBProtocol\(hyversion\fR \fBDEFAULT {version\(hy1},\fR \fB[3]\ IMPLICIT\fR \fBResponding\(hypresentation\(hyselector\fR \fBOPTIONAL,\fR \fB[5]\ IMPLICIT\fR \fBPresentation\(hycontext\(hydefinition\(hyresult\(hylist \fBOPTIONAL,\fR \fB[7]\ IMPLICIT\fR \fBDefault\(hycontext\(hyresult \fR \fBOPTIONAL,\fR \fB[10]\ IMPLICIT\fR \fBProvider\(hyreason \fBOPTIONAL,\fR .LP \fB \fBUser\(hydata \fBOPTIONAL\fR , .LP \fB \fBSET\fR \fB}\fR .LP \(em\(em\ \fIShall be used for normal mode only.\fR \ \(em\(em .LP \fB}\fR .LP \(em\(em \(em\(em .LP \(em\(em\ \fIThe S\(hyuser data parameter of the S\(hyU\(hyABORT\fR \(em\(em\ \fIrequest and indication service primitives shall be\fR \(em\(em\ \fIan Abort\(hytype value.\fR .LP \(em\(em .sp 1P .LP \fBAbort\(hytype :: = CHOICE\fR \ \fB{\fR \ \ \fBARU\(hyPPDU \(em\(em for a P\(hyU\(hyABORT\(em\(em,\fR .sp 9p .RT .LP \fBAbort\(hytype\ ::\ =\ CHOICE\fR \ \fB{\fR \ \ \fBARP\(hyPPDU \(em\(em for a P\(hyP\(hyABORT\fR \ \(em\(em .LP \fBAbort\(hytype\ ::\ =\ CHOICE\fR \ \fB}\fR .LP \(em\(em .sp 1P .LP \fBARU\(hyPPDU :: = CHOICE\fR .sp 9p .RT .LP \fB{\ SET {\fR \ \ \fBCOMPONENTS OF Reliable\(hyTransfer\(hyAPDUs.RTABapdu\ }\fR .LP \(em\(em\ \fIShall be used for X.410 mode only. Shall be bitwise\fR \(em\(em\ \fIcompatible with CCITT Recommendation\ X.410\(hy1984.\fR \(em\(em\ \fIThis shall be the User data parameter of\fR \(em\(em\ \fIthe ARU PPDU.\fR \| \ \(em\(em, .LP \fB[0]\fR \fBIMPLICIT SEQUENCE\fR .LP \fB{\fR \fB[0]\ IMPLICIT\fR \fBPresentation\(hycontext\(hyidentifier\(hylist\fR \fBOPTIONAL,\fR \fBUser\(hydata\fR \fBOPTIONAL\fR , .LP \fB}\fR \(em\(em\ \fIShall be used for normal mode only.\fR .LP \fB}\fR .LP \(em\(em .bp .sp 1P .LP \fBARP\(hyPPDU :: = SEQUENCE\fR .sp 9p .RT .LP \fB{\ provider\(hyreason\fR \fB[0]\ IMPLICIT\fR \fBAbort\(hyreason\fR \fBOPTIONAL,\fR \fB[1]\ IMPLICIT\fR \fBEvent\(hyidentifier\fR \fBOPTIONAL\fR , .LP \fB}\fR .LP \(em\(em \(em\(em .LP \(em\(em\ \fIThe SS\(hyuser data parameter value of\fR \(em\(em\ \fIthe S\(hyTYPED\(hyDATA request and\fR \(em\(em\ \fIindication service primitives shall be\fR \(em\(em\ \fIa Typed\(hydata\(hytype value\fR .LP \(em\(em .sp 1P .LP \fBTyped\(hydata\(hytype :: = CHOICE\fR .sp 9p .RT .LP \fB{\fR \fBacPPDU\fR \fB[0]\ IMPLICIT AC\(hyPPDU\fR .LP \(em\(em\ \fIP\(hyALTER\(hyCONTEXT\fR \(em\(em\ \fIrequest and indication\fR \ \(em\(em .LP \fBacaPPDU\fR \fB[1]\ IMPLICIT ACA\(hyPPDU\fR .LP \(em\(em\ \fIP\(hyALTER\(hyCONTEXT\fR \(em\(em\ \fIresponse and confirm\fR \ \(em\(em .LP \fBttdPPDU\fR \fBUser\(hydata\fR .LP \(em\(em\ \fIP\(hyTYPED\(hyDATA\fR \(em\(em\ \fIrequest and indication\fR \ \(em\(em .LP \fB}\fR .LP \(em\(em .sp 1P .LP \fBAC\(hyPPDU :: = SEQUENCE\fR .sp 9p .RT .LP \fB{\fR \fB[0]\ IMPLICIT\fR \fBPresentation\(hycontext\(hyaddition\(hylist\fR \fBOPTIONAL,\fR \fB[1]\ IMPLICIT\fR \fBPresentation\(hycontext\(hydeletion\(hylist\fR \fBOPTIONAL,\fR \fBUser\(hydata \fBOPTIONAL\fR , .LP \fB}\fR .LP \(em\(em .sp 1P .LP \fBACA\(hyPPDU :: = SEQUENCE\fR .sp 9p .RT .LP \fB{\fR \fB[0]\ IMPLICIT\fR \fBPresentation\(hycontext\(hyaddition\(hyresult\(hylist\fR \fBOPTIONAL,\fR \fB[1]\ IMPLICIT\fR \fBPresentation\(hycontext\(hydeletion\(hyresult\(hylist\fR \fBOPTIONAL,\fR \fBUser\(hydata\fR \fBOPTIONAL\fR , .LP \fB}\fR .LP \(em\(em .LP \(em\(em\ \fIThe SS\(hyuser data parameter value of\fR \(em\(em\ \fIthe S\(hyRESYNCHRONIZE request and\fR \(em\(em\ \fIindication service primitives shall be\fR \(em\(em\ \fIan RS\(hyPPDU value.\fR .LP \(em\(em .bp .sp 1P .LP \fBRS\(hyPPDU :: = SEQUENCE\fR .sp 9p .RT .LP \fB{\fR \fB[0]\ IMPLICIT\fR \fBPresentation\(hycontext\(hyidentifier\(hylist\fR \fBOPTIONAL,\fR \fBUser\(hydata\fR \fR \fBOPTIONAL\fR , .LP \fB}\fR .LP \(em\(em .LP \(em\(em\ \fIThe SS\(hyuser data parameter value of\fR \(em\(em\ \fIthe S\(hyRESYNCHRONIZE response and\fR \(em\(em\ \fIconfirm service primitives shall be\fR \(em\(em\ \fIan RSA\(hyPPDU value.\fR .LP \(em\(em .sp 1P .LP \fBRSA\(hyPPDU :: = SEQUENCE\fR .sp 9p .RT .LP \fB{\fR \fB[0]\ IMPLICIT\fR \fBPresentation\(hycontext\(hyidentifier\(hylist\fR \fBOPTIONAL,\fR \fBUser\(hydata\fR \fBOPTIONAL\fR , .LP \fB}\fR .LP \(em\(em \(em\(em .LP \(em\(em\ \fIThe SS\(hyuser data parameter values of\fR \(em\(em\ \fIthe S\(hyDATA, S\(hyCAPABILITY\(hyDATA,\fR \(em\(em\ \fIS\(hyEXPEDITED\(hyDATA request and\fR \(em\(em\ \fIindication session\(hyservice primitives and\fR \(em\(em\ \fIS\(hyCAPABILITY\(hyDATA\fR \(em\(em\ \fIresponse and confirm session\(hyservice\fR \(em\(em\ \fIprimitives shall be of type User\(hydata.\fR .LP \(em\(em .LP \(em\(em\ \fIThe SS\(hyuser data parameter values of\fR \(em\(em\ \fIall other session\(hyservice\fR \(em\(em\ \fIprimitives not described above shall\fR \(em\(em\ \fIbe of type User\(hydata.\fR .LP \(em\(em \(em\(em \(em\(em .sp 1P .LP \fBAbort\(hyreason :: = INTEGER {\fR .sp 9p .RT .ad r \fBreason\(hynot\(hyspecified\fR \fB(0),\fR \fB\ }\fR \fB unrecognized\(hyppdu\fR \fB(1),\fR \fB\ }\fR \fBunexpected\(hyppdu\fR \fB(2),\fR \fB\ }\fR \fBunexpected\(hysession\(hyservice\(hyprimitive\fR \fB(3),\fR \fB\ }\fR \fBunrecognized\(hyppdu\(hyparameter\fR \fB(4),\fR \fB\ }\fR \fBunexpected\(hyppdu\(hyparameter\fR \fB(5),\fR \fB\ }\fR \fBinvalid\(hyppdu\(hyparameter\(hyvalue\fR \fB(6)\|\ }\fR .ad b .RT .sp 1P .LP \fBAbstract\(hysyntax\(hyname :: = OBJECT IDENTIFIER\fR .sp 9p .RT .sp 1P .LP \fBCalled\(hypresentation\(hyselector :: = Presentation Selector\fR .sp 9p .RT .sp 1P .LP \fBCalling\(hypresentation\(hyselector :: = Presentation Selector\fR .sp 9p .RT .sp 1P .LP \fBContext\(hylist :: = SEQUENCE OF SEQUENCE {\fR .sp 9p .RT .LP \fBPresentation\(hycontext\(hyidentifier,\fR \fBAbstract\(hysyntax\(hyname,\fR \fBSEQUENCE OF Transfer\(hysyntax\(hyname\ }\fR .bp .sp 1P .LP \fBDefault\(hycontext\(hyname :: = SEQUENCE\fR .sp 9p .RT .LP \fB[0]\ IMPLICIT\ \ \ Abstract\(hysyntax\(hyname,\fR \fB[1]\ IMPLICIT\ \ \ Transfer\(hysyntax\(hyname\ }\fR .sp 1P .LP \fBDefault\(hycontext\(hyresult :: = Result\fR .sp 9p .RT .sp 1P .LP \fBEvent\(hyidentifier :: = INTEGER {\fR .sp 9p .RT .LP \fBcp\(hyPPDU\fR \fB(\ 0),\fR \fB\ }\fR \fBcpa\(hyPPDU\fR \fB(\ 1),\fR \fB\ }\fR \fBcpr\(hyPPDU\fR \fB(\ 2),\fR \fB\ }\fR \fBaru\(hyPPDU\fR \fB(\ 3),\fR \fB\ }\fR \fBarp\(hyPPDU\fR \fB(\ 4),\fR \fB\ }\fR \fBac\(hyPPDU\fR \fB(\ 5),\fR \fB\ }\fR \fBaca\(hyPPDU\fR \fB(\ 6),\fR \fB\ }\fR \fBtd\(hyPPDU\fR \fB(\ 7),\fR \fB\ }\fR \fBttd\(hyPPDU\fR \fB(\ 8),\fR \fB\ }\fR \fBte\(hyPPDU\fR \fB(\ 9),\fR \fB\ }\fR \fBtc\(hyPPDU\fR \fB(10),\fR \fB\ }\fR \fBtcc\(hyPPDU\fR \fB(11),\fR \fB\ }\fR \fBrs\(hyPPDU\fR \fB(12),\fR \fB\ }\fR \fBrsa\(hyPPDU\fR \fB(13),\fR \fB\ }\fR .LP \fBs\(hyrelease\(hyindication\fR \fB(14),\fR \fB\ }\fR \fBs\(hyrelease\(hyconfirm\fR \fB(15),\fR \fB\ }\fR \fBs\(hytoken\(hygive\(hyindication\fR \fB(16),\fR \fB\ }\fR \fBs\(hytoken\(hyplease\(hyindication \fB(17),\fR \fB\ }\fR \fBs\(hycontrol\(hygive\(hyindication\fR \fB(18),\fR \fB\ }\fR \fBs\(hysync\(hyminor\(hyindication\fR \fB(19),\fR \fB\ }\fR \fBs\(hysync\(hyminor\(hyconfirm\fR \fB(20),\fR \fB\ }\fR \fBs\(hysync\(hymajor\(hyindication\fR \fB(21),\fR \fB\ }\fR \fBs\(hysync\(hymajor\(hyconfirm\fR \fB(22),\fR \fB\ }\fR \fBs\(hyp\(hyexception\(hyreport\(hyindication\fR \fB(23),\fR \fB\ }\fR .LP \fBs\(hyu\(hyexception\(hyreport\(hyindication\fR \fB(24),\fR \fB\ }\fR \fBs\(hyactivity\(hystart\(hyindication\fR \fB(25),\fR \fB\ }\fR \fBs\(hyactivity\(hyresume\(hyindication\fR \fB(26),\fR \fB\ }\fR \fBs\(hyactivity\(hyinterrupt\(hyindication\fR \fB(27),\fR \fB\ }\fR \fBs\(hyactivity\(hyinterrupt\(hyconfirm\fR \fB(28),\fR \fB\ }\fR \fBs\(hyactivity\(hydiscard\(hyindication\fR \fR \fB(29),\fR \fB\ }\fR \fBs\(hyactivity\(hydiscard\(hyconfirm\fR \fB(30),\fR \fB\ }\fR \fBs\(hyactivity\(hyend\(hyindication\fR \fB(31),\fR \fB\ }\fR \fBs\(hyactivity\(hyend\(hyconfirm\fR \fB(32)\|\ }\fR .sp 1P .LP \fBMode\(hySelector :: = SET {\fR .sp 9p .RT .LP \fB[0]\ IMPLICIT INTEGER {x410\(hy1984\(hymode (0), normal\(hymode (1) }\ }\fR .sp 1P .LP \fBPresentation\(hycontext\(hyaddition\(hylist :: = Context\(hylist\fR .sp 9p .RT .sp 1P .LP \fBPresentation\(hycontext\(hyaddition\(hyresult\(hylist :: = Result\(hylist\fR .sp 9p .RT .sp 1P .LP \fBPresentation\(hycontext\(hydefinition\(hylist :: = Context\(hylist\fR .sp 9p .RT .sp 1P .LP \fBPresentation\(hycontext\(hydefinition\(hyresult\(hylist :: = Result\(hylist\fR .sp 9p .RT .sp 1P .LP \fBPresentation\(hycontext\(hydeletion\(hylist :: = SEQUENCE OF\fR .sp 9p .RT .LP \fBPresentation\(hycontext\(hyidentifier\fR .sp 1P .LP \fBPresentation\(hycontext\(hydeletion\(hyresult\(hylist :: = SEQUENCE OF INTEGER\ {\fR .sp 9p .RT .LP \fBAcceptance (0), user\(hyrejection (1)\ }\fR .bp .sp 1P .LP \fBPresentation\(hycontext\(hyidentifier :: = INTEGER\fR .sp 9p .RT .sp 1P .LP \fBPresentation\(hycontext\(hyidentifier\(hylist :: = SEQUENCE OF SEQUENCE\ {\fR .sp 9p .RT .LP \fBPresentation\(hycontext\(hyidentifier,\fR \fBTransfer\(hysyntax\(hyname\ }\fR .sp 1P .LP \fBPresentation\(hyrequirements :: = BIT STRING\ {\fR .sp 9p .RT .LP \fBContext\(hymanagement (0), restoration (1)\ }\fR .sp 1P .LP \fBPresentation\(hyselector :: = OCTET STRING\fR .sp 9p .RT .sp 1P .LP \fBProtocol\(hyversion :: = BIT STRING {version\(hy1 (0)\ }\fR .sp 9p .RT .sp 1P .LP \fBProvider\(hyreason :: = INTEGER\ {\fR .sp 9p .RT .LP \fBreason\(hynot\(hyspecified \fB(0),\fR \fB\ }\fR \fBtemporary\(hycongestion\fR \fB(1),\fR \fB\ }\fR \fBlocal\(hylimit\(hyexceeded\fR \fB(2),\fR \fB\ }\fR \fBcalled\(hypresentation\(hyaddress\(hyunknown\fR \fB(3),\fR \fB\ }\fR \fBprotocol\(hyversion\(hynot\(hysurprised\fR \fB(4),\fR \fB\ }\fR \fBdefault\(hycontext\(hynot\(hysupported\fR \fB(5),\fR \fB\ }\fR \fBuser\(hydata\(hynot\(hyreadable\fR \fB(6),\fR \fB\ }\fR \fBno\(hyPSAP\(hyavailable\fR \fB(7)\|\ }\fR .LP \fR .sp 1P .LP \fBResponding\(hypresentation\(hyselector :: = Presentation\(hyselector\fR .sp 9p .RT .sp 1P .LP \fBResult :: = INTEGER\ {\fR .sp 9p .RT .LP \fBacceptance\fR \fB(0),\fR \fB\ }\fR \fBuser\(hyrejection\fR \fB(1),\fR \fB\ }\fR \fBprovider\(hyrejection\fR \fB(2)\|\ }\fR .sp 1P .LP \fBResult\(hylist :: = SEQUENCE OF SEQUENCE\ {\fR .sp 9p .RT .LP \fB[0]\ IMPLICIT\ \ \ Result,\fR \fB[1]\ IMPLICIT\ \ \ Transfer\(hysyntax\(hyname\fR \fBOPTIONAL,\fR \fB[2]\ IMPLICIT INTEGER\fR .sp 1P .LP \fBprovider\(hyreason\fR .sp 9p .RT .LP \fB{\ reason\(hynot\(hyspecified\fR \fB(0),\fR \fBabstract\(hysyntax\(hynot\(hysupported\fR \fR \fB(1),\fR \fBproposed\(hytransfer\(hysyntaxes\(hynot\(hysupported\fR \fB(2),\fR \fBlocal\(hylimit\(hyon\(hyDCS\(hyexceeded\fR \fB(3)\fR \ \ \fBOPTIONAL,\fR .LP \fB}\fR .LP \fB}\fR .sp 1P .LP \fBTransfer\(hysyntax\(hyname :: = OBJECT IDENTIFIER\fR .sp 9p .RT .sp 1P .LP \fBUser\(hydata :: = CHOICE\ {\fR .sp 9p .RT .LP \fB[APPLICATION 0]\ IMPLICIT\ \ Simply\(hyencoded\(hydata\fR \fB[APPLICATION 1]\ IMPLICIT\ \ Fully\(hyencoded\(hydata\ }\fR .LP \(em\(em\ \fI\(sc 8.4 defines when each of the two alternatives\fR \fIshall be used.\fR .sp 1P .LP \fBSimply\(hyencoded\(hydata :: = OCTET STRING\fR .sp 9p .RT .LP \(em\(em\ \fISee \(sc 8.4.1.\fR .bp .sp 1P .LP \fBFully\(hyencoded\(hydata :: = SEQUENCE OF PVD\(hylist\fR .sp 9p .RT .LP \(em\(em\ \fIContains one or more PDV\(hylist values.\fR \(em\(em\ \fISee \(sc 8.4.2.\fR .sp 1P .LP \fBPDV\(hylist :: = SEQUENCE\ {\fR .sp 9p .RT .LP \fBTransfer\(hysyntax\(hyname \fBOPTIONAL,\fR \fBPresentation\(hycontext\(hyidentifier,\fR .sp 1P .LP \fBpresentation\(hydata\(hyvalues :: = CHOICE\ {\fR .sp 9p .RT .LP \fB single\(hyASN.1\(hytype\ [0]\ ANY,\fR \fBoctet\(hyaligned\ \fR \fB[1]\ IMPLICIT OCTET STRING,\fR \fBarbitrary\ \fR \fB[2]\ IMPLICIT BIT STRING\fR \fB}\fR .LP \(em\(em\ \fIContains one or more presentation data values from the same\fR \(em\(em\ \fIpresentation context.\fR \(em\(em\ \fISee \(sc 8.4.2.\fR .LP \fB}\fR .sp 1P .LP \fBUser\(hysession\(hyrequirements :: = BIT STRING\ {\fR .sp 9p .RT .LP \fBhalf\(hyduplex\fR \fB(\ 0),\fR \fB\ }\fR \fBduplex\fR \fB(\ 1),\fR \fB\ }\fR \fBexpedited\(hydata \fR \fB(\ 2),\fR \fB\ }\fR \fBminor\(hysynchronize\fR \fB(\ 3),\fR \fB\ }\fR \fBmajor\(hysynchronize\fR \fB(\ 4),\fR \fB\ }\fR \fBresynchronize\fR \fB(\ 5),\fR \fB\ }\fR \fBactivity\(hymanagement\fR \fB(\ 6),\fR \fB\ }\fR \fBnegotiated\(hyrelease\fR \fB(\ 7),\fR \fB\ }\fR \fR \fBcapability\(hydata\fR \fB(\ 8),\fR \fB\ }\fR \fBexceptions\fR \fB(\ 9),\fR \fB\ }\fR \fBtyped\(hydata\fR \fB(10)\|\ }\fR .LP \fBEND\fR .sp 2P .LP 8.3 \fIEncoding of SS\(hyuser data parameter values\fR .sp 1P .RT .PP 8.3.1 Except for type User\(hydata, ASN.1 datatypes specified in \(sc\ 8.2 shall be encoded according to the Basic Encoding Rules for ASN.1 (Recommendation\ X.209). .sp 9p .RT .PP 8.3.2 The encoding of values of type User\(hydata is specified in \(sc\ 8.4. .PP 8.3.3 The encoding of the SS\(hyuser data parameter of the S\(hyCONNECT request and indication service primitives shall be the concatenation of the encodings of the CP\(hytype value and the CPC\(hytype values, if any. .sp 2P .LP 8.4 \fIEncoding of values of type User\(hydata\fR .sp 1P .RT .sp 1P .LP 8.4.1 \fISimple encoding\fR .sp 9p .RT .PP 8.4.1.1 This encoding shall be used when the User\(hydata value is of type Simply\(hyencoded\(hydata. .sp 9p .RT .PP 8.4.1.2 The User\(hydata value shall be of type Simply\(hyencoded\(hydata when the default context is used. .PP 8.4.1.3 The User\(hydata value shall be of type Simply\(hyencoded\(hydata when the DCS contains only one member and the context management functional unit is not selected. .PP \fINote\fR \ \(em\ This implies that simple encoding cannot be used in the User data parameter of the CP\ PPDU, except as in \(sc\ 8.4.1.2. .bp .PP 8.4.1.4 Simple encoding shall be as follows: .LP If the transfer syntax is not self\(hydelimiting, then there is a danger that concatenated presentation data values will be ambiguous. .FE a) The contents of the Simply\(hyencoded\(hydata value shall be the concatenation of the bitstrings resulting from the encoding of the presentation data values forming the PS\(hyuser data value according to the appropriate transfer syntax. .LP b) Whenever User\(hydata appears as an element of some other ASN.1 type in \(sc\ 8.2, the encoding of the User\(hydata value shall be according to the Basic Encoding Rules for ASN.1 (Recommendation\ X.209). .LP c) If (b) does not apply, the encoding of the User\(hydata value shall be the contents octets of the Simply\(hyencoded\(hydata value (i.e.\ no identfier octets and no length octets) as specified in (a)\ above. .PP \fINote\fR \ \(em\ When using simple encoding, the transfer syntax used shall either produce octet\(hyaligned encodings or self\(hydelimiting bitstrings (this is not the general case with transfer syntaxes). .sp 2P .LP 8.4.2 \fIFull encoding\fR .sp 1P .RT .PP 8.4.2.1 This encoding shall be used when the User\(hydata value is of type Fully\(hyencoded\(hydata. .sp 9p .RT .PP 8.4.2.2 The User\(hydata value shall be of type Fully\(hyencoded\(hydata when the default context is not in use and: .LP a) the DCS contains more than one member; or .LP b) the context management functional unit has been selected. .PP 8.4.2.3 The User\(hydata value shall be of type Fully\(hyencoded\(hydata in the CP\(hytype and CPC\(hytype, except when the default context is in use. .PP 8.4.2.4 Full encoding shall be the application of the Basic Encoding Rules for ASN.1 (Recommendation\ X.209) to the Fully\(hyencoded\(hydata value. The structure and contents of the presentation\(hydata\(hyvalues component of a PDV\(hylist value shall be as specified in \(sc\ 8.4.2.5. .PP 8.4.2.5 The presentation\(hydata\(hyvalues component of a PDV\(hylist value shall be encoded according to the Basic Encoding Rules for ASN.1 (Recommendation\ X.209). The various options for the presentation\(hydata\(hyvalues component of the PDV\(hylist value shall be used as follows: .LP a) If the PDV\(hylist value contains exactly one presentation data value which is a single ASN.1 type encoded according to the Basic Encoding Rules for ASN.1 (Recommendation\ X.209), then the option \*Qsingle\(hyASN1\(hytype\*U shall be used. .LP b) If the encodings of the presentation data values contained in the PDV\(hylist value are each an integral number of octets and (a) does not apply, then the option \*Qoctet\(hyaligned\*U shall be used. In this case, the contents octets of the OCTET STRING shall be the concatenation of the bitstrings resulting from the encoding of the presentation data values contained in that PDV\(hylist value according to the appropriate transfer syntax. .LP c) If neither (a) nor (b) applies, the option \*Qarbitrary\*U shall be used. The contents octets of the BIT STRING shall be the concatenation of the bitstrings resulting from the encoding of the presentation data values contained in that PDV\(hylist value according to the appropriate transfer syntax. .PP 8.4.2.6 The presentation\(hycontext\(hyidentifier component of a PDV\(hylist value in a CP\ PPDU shall identify the presentation context of the presentation data values. .PP 8.4.2.7 The transfer\(hysyntax\(hyname component of a PDV\(hylist value in a CP\ PPDU shall be present when more than one transfer syntax name was proposed for the presentation context of the presentation\(hydata\(hyvalues. .sp 2P .LP 8.4.3 \fIEncoding of presentation data values in X.410\(hy1984 mode\fR .sp 1P .RT .PP 8.4.3.1 Except for the S\(hyDATA request and indication service primitives, presentation data values in type User\(hydata shall be encoded according to Basic Encoding Rules for ASN.1 (Recommendation\ X.209). .bp .sp 9p .RT .PP 8.4.3.2 For the S\(hyDATA request and indication service primitives, presentation data values in type User\(hydata shall be encoded as the contents octets (i.e.\ no identifier octets and no length octets) of the primitive encoding of a value of type OCTET STRING, according to the Basic Encoding Rules for ASN.1 (Recommendation\ X.209). .sp 2P .LP 8.5 \fIRules of extensibility for normal mode\fR .sp 1P .RT .PP 8.5.1 For the CP\(hyPPDU, a receiving PPM shall: .sp 9p .RT .LP a) ignore any undefined element; .LP b) where named bits are used in \(sc\ 8.2, treat any bit as insignificant when no name is assigned to it. .PP 8.5.2 Except as specified in \(sc\ 8.5.1, where named numbers or named bits are used in \(sc\ 8.2, presence of a number or bit shall be invalid when no name is assigned to it. .sp 2P .LP \fB9\fR \fBConformance\fR .sp 1P .RT .sp 1P .LP 9.1 \fIDynamic Conformance\fR .sp 9p .RT .PP A system claiming conformance to this Recommendation shall exhibit external behaviour consistent with having implemented: .RT .LP a) a PPM as defined by Section\ 6 and Annex\ A of this Recommendation; .LP b) use of the session\(hyservice as defined by Section\ 7 of this Recommendation; .LP c) encoding of PPDUs as defined by Section\ 8 of this Recommendation. .sp 1P .LP 9.2 \fIStatic Conformance\fR .sp 9p .RT .PP A system claiming conformance to this Recommendation shall be capable of: .RT .LP a) supporting normal mode, X.410\(hy1984 mode, or both. A system claiming to implement the procedures specified in this Recommendation supports the procedures specified in CCITT Recommendation\ X.410\(hy1984 when operating in X.410\(hy1984 mode. A system claiming to implement the procedures specified in this Recommendation other than in support of the procedures specified in CCITT Recommendation\ X.410\(hy1984 shall operate in normal mode. .LP b) initiating a presentation\(hyconnection (by sending a CP PPDU) or responding to a CP\ PPDU or both; .LP c) following all the remaining procedures in the presentation kernel functional unit; .LP d) following all the Presentation Layer procedures for each presentation functional unit that the system claims to implement and for each session functional unit which the system claims to support; .LP e) supporting the mapping onto the session\(hyservice defined in Section\ 7 of this Recommendation; .LP f ) in normal mode, following the procedures of the rules of extensibility (\(sc\ 8.5). .sp 1P .LP 9.3 \fIProtocol implementation conformance statement\fR .sp 9p .RT .PP The Protocol Implementation Conformance Statement accompanying a system for which conformance to this Recommendation is claimed shall include statements of the following: .RT .LP a) which session functional units are supported; .LP b) which presentation functional units are implemented; .LP c) whether it supports initiating a presentation\(hyconnection, responding to a CP\(hyPPDU or both; .LP d) which transfer syntaxes it supports; .LP e) whether there is any resource\(hydependent limit which can cause provider rejection of a service primitive and if so, how this limit is specified; .LP f ) whether it supports normal mode, X.410\(hy1984 mode or both. .bp .ce 1000 ANNEX\ A .ce 0 .ce 1000 (to Recommendation X.226) .sp 9p .RT .ce 0 .ce 1000 \fBState tables\fR .sp 1P .RT .ce 0 .LP A.1. \fIGeneral\fR .sp 1P .RT .PP This annex describes the presentation protocol in terms of state tables. The state tables show the state of a presentation\(hyconnection, the events that occur in the protocol, the action taken and the resultant state. .PP These State Tables do not constitute a formal definition of the presentation protocol; they are included to provide a more precise specification of the elements of procedure described in Section\ 6. .PP Table A\(hy1/X.226 specifies the abbreviated name, category and name of each incoming event. The categories are PS\(hyuser event, SS\(hyprovider event and valid PPDU event. .PP Table A\(hy2/X.226 specifies the abbreviated name and name of each state. .PP Table A\(hy3/X.226 specifies the abbreviated name, category and name of each outgoing event. The categories are PS\(hyprovider event, SS\(hyuser event and PPDU event. .PP Table A\(hy4/X.226 specifies the specific actions. .PP Table A\(hy5/X.226 specifies the predicates. .PP Tables A\(hy6/X.226 to A\(hy14/X.226 specify the state tables. .RT .sp 2P .LP A.2 \fINotation for State Tables\fR .sp 1P .RT .PP A.2.1 Incoming events, states and outgoing events are represented by their abbreviated names. .sp 9p .RT .PP A.2.2 Specific actions are represented by the notation [\fIn\fR ], where \fIn\fR is the number of the specific action in Table\ A\(hy4/X.226. .PP A.2.3 Predicates are represented by the notation \fIpnn\fR , where \fInn\fR is the number of the predicate in Table\ A\(hy5/X.226. .PP A.2.4 Boolean operators are represented by the following notation: .LP & AND .LP \*\|o NOT .LP OR OR .sp 2P .LP A.3 \fIConventions for entries in State Tables\fR .sp 1P .RT .PP A.3.1 The intersection of each state and incoming event which is invalid is left blank. .sp 9p .RT .PP A.3.2 The intersection of each state and incoming event which is valid contains entries which are either .LP a) an action list which .LP i) may contain outgoing events and/or specific actions; .LP ii) always contains the resultant state; .LP or .LP b) one or more conditional action lists, each consist of .LP i) a predicate expression comprising predicates and boolean operators; .LP ii) an action list (as in \(sc A.3.2\ a)). .PP \fINote\fR \ \(em\ The action lists and conditional action lists use the notation in \(sc\ A.2. .sp 1P .LP A.4 \fIActions to be taken by the PPM\fR .sp 9p .RT .PP The state tables define the actions to be taken by the PPM. .bp .RT .sp 1P .LP A.4.1 \fIInvalid intersections\fR .sp 9p .RT .PP If the intersection of the state and an incoming event is invalid, one of the following actions shall be taken. .RT .LP A.4.1.1\ \ If the incoming event comes from the PS\(hyuser, any action taken by the PPM is a local matter. .PP \fINote\fR \ \(em\ One reason for the request or response service primitive being invalid is that the resulting SS\(hyuser data parameter exceeds a length limit imposed by the underlying session\(hyservice. This occurrence and its resolution are local matters. .LP A.4.1.2\ \ If the incoming event is related to a received PPDU or SS\(hyprovider event, the PPM shall issue an ARP PPDU (if there is an underlying session\(hyconnection) and a P\(hyP\(hyABORT indication. .sp 1P .LP A.4.2 \fIValid intersections\fR .sp 9p .RT .PP If the intersection of the state and incoming event is valid, one of the following actions shall be taken. .RT .LP A.4.2.1\ \ If the intersection contains an action list, the PPM shall take the specific actions in the order specified in the state table. .LP A.4.2.2\ \ If the intersection contains one or more conditional action lists, for each predicate expression that is true the PPM shall take the specific actions in the order given in the action list associated with the predicate expression. If none of the predicate expressions are true, the PPM shall take one of the actions defined in \(sc\ A.4.1. The order of evaluation of the predicate expressions in different conditional action lists is determined by the order of the conditional action lists. .sp 2P .LP A.4.3 \fIReceipt of PPDUs\fR .sp 1P .RT .sp 1P .LP A.4.3.1\ \ \fIValid PPDUs\fR .sp 9p .RT .PP The PPM shall process valid PPDUs as specified in Tables A\(hy6/X.226 to A\(hy14/X.226. See also \(sc\ 8.5. .RT .sp 1P .LP A.4.3.2\ \ \fIInvalid PPDUs\fR .sp 9p .RT .PP If an invalid PPDU is received, the PPM shall take the actions defined in \(sc\ A.4.1.2. .RT .sp 1P .LP A.5 \fIDefinition of sets and variables\fR .sp 9p .RT .PP The following sets and variables are specified. .RT .sp 1P .LP A.5.1 \fIFunctional units\fR .sp 9p .RT .PP A set of functional units used in the procedures specified in this annex is defined as .RT .LP fu\(hydom\ =\ (CM, CR) .LP where .LP CM\ =\ Context management functional unit .LP CR\ =\ Context restoration functional unit .PP A boolean function FU is defined over fu\(hydom as follows .LP for f in fu\(hydom .LP FU(f )\ =\ true if and only if the functional unit f has been selected during the presentation\(hyconnection establishment phase. .sp 1P .LP A.5.2 \fIContext sets\fR .sp 9p .RT .PP In addition to the defined context set (DCS), which is implicitly used for information transfer operations, the presentation\(hyentity needs to be aware of the following context sets: .RT .LP a) presentation contexts proposed for addition, initiated locally; .LP b) presentation contexts proposed for addition, initiated remotely; .LP c) presentation contexts proposed for deletion, initiated locally; .bp .LP d) presentation contexts proposed for deletion, initiated remotely; .LP e) the DCS agreed during presentation\(hyconnection establishment; .LP f ) the inter\(hyactivity DCS; .LP g) the contents of the DCS at synchronization points. .sp 2P .LP A.5.3 \fIVariables\fR .sp 1P .RT .sp 1P .LP A.5.3.1\ \ \fIaep\fR .sp 9p .RT .PP aep is a boolean variable having the following values: .RT .LP aep\ =\ true: Activity end pending. .LP aep\ =\ false: Activity end not pending. .PP aep is set as follows: .LP a) aep is set true when an S\(hyACTIVITY\(hyEND response service primitive has been issued but while it is still possible to receive an S\(hyACTIVITY\(hyINTERRUPT indication service primitive; .LP b) aep is set false during the presentation\(hyconnection establishment phase, or on receipt of any session\(hyservice indication primitive after an S\(hyACTIVITY\(hyEND response service primitive has been issued. .sp 1P .LP A.5.3.2\ \ \fIrl\fR .sp 9p .RT .PP rl is a boolean variable having the following values: .RT .LP rl\ =\ true: Release phase started. .LP rl\ =\ false: Release phase not started or release has been rejected. .PP rl is set as follows: .LP a) rl is set false during the presentation\(hyconnection establishment phase or when a P\(hyRELEASE response or confirm negative service primitive is issued; .LP b) rl is set true when a P\(hyRELEASE request or indication service primitive has been issued. .sp 1P .LP A.5.3.3\ \ \fIcr\fR .sp 9p .RT .PP cr is a boolean variable having the following values: .RT .LP cr\ =\ true: A collision of release requests is detected. .LP cr\ =\ false: There has not been a collision of release requests or the collision has been resolved. .PP cr is set as follows: .LP a) cr is set false during the presentation\(hyconnection establishment phase, or when rl is true and a P\(hyRELEASE response or confirm service primitive is issued; .LP b) cr is set true if rl is true and a P\(hyRELEASE request or indication service primitive is issued. .sp 1P .LP A.6 \fIRelationship to session\(hyservice\fR .sp 9p .RT .PP In general, the behaviour of the PPM is specified independently of the behaviour of the session\(hyservice. That invocations of presentation\(hyservice primitives are acceptable to the PPM does not imply that the resulting session\(hyservice primitives will be acceptable to the session\(hyservice\(hyprovider. .PP Events shown in the Tables as generated by the session\(hyservice\(hyprovider or issued to the session\(hyservice\(hyprovider are implicitly conditional on the appropriate session functional unit being agreed at session\(hyconnection establishment. .bp .RT .ce \fBH.T. [1T16.226]\fR .ce TABLE\ A\(hy1/X.226 .ce \fBIncoming Event List\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(42p) | cw(36p) | cw(150p) . Abbreviated Name Category Name and Description _ .T& lw(42p) | lw(36p) | lw(150p) . AC PPDU ALTER CONTEXT .T& lw(42p) | lw(36p) | lw(150p) . ACA PPDU ALTER CONTEXT ACKNOWLEDGE .T& lw(42p) | lw(36p) | lw(150p) . ARP PPDU PROVIDER ABORT .T& lw(42p) | lw(36p) | lw(150p) . ARU PPDU USER ABORT .T& lw(42p) | lw(36p) | lw(150p) . CP PPDU PRESENTATION CONNECT .T& lw(42p) | lw(36p) | lw(150p) . CPA PPDU PRESENTATION CONNECT ACCEPT .T& lw(42p) | lw(36p) | lw(150p) . CPR PPDU PRESENTATION CONNECT REJECT .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTDreq PS primitive T{ P\(hyACTIVITY\(hyDISCARD request T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTDrsp PS primitive T{ P\(hyACTIVITY\(hyDISCARD response T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTEreq PS primitive P\(hyACTIVITY\(hyEND request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTErsp PS primitive P\(hyACTIVITY\(hyEND response .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTIreq PS primitive T{ P\(hyACTIVITY\(hyINTERRUPT request T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTIrsp PS primitive T{ P\(hyACTIVITY\(hyINTERRUPT response T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTRreq PS primitive T{ P\(hyACTIVITY\(hyRESUME request T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTSreq PS primitive T{ P\(hyACTIVITY\(hySTART request T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyALTERreq PS primitive P\(hyALTER\(hyCONTEXT request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyALTERrsp PS primitive T{ P\(hyALTER\(hyCONTEXT response T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCDreq PS primitive T{ P\(hyCAPABILITY\(hyDATA request T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCDrsp PS primitive T{ P\(hyCAPABILITY\(hyDATA response T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCGreq PS primitive P\(hyCONTROL\(hyGIVE request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCONreq PS primitive P\(hyCONNECT request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCONrsp+ PS primitive P\(hyCONNECT response accept .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCONrsp\(em PS primitive P\(hyCONNECT response reject .T& lw(42p) | lw(36p) | lw(150p) . P\(hyDTreq PS primitive P\(hyDATA request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyEXreq PS primitive T{ P\(hyEXPEDITED\(hyDATA request T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyGTreq PS primitive P\(hyTOKEN\(hyGIVE request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyPTreq PS primitive P\(hyTOKEN\(hyPLEASE request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRELreq PS primitive P\(hyRELEASE request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRELrsp+ PS primitive P\(hyRELEASE response accept .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRELrsp\(em PS primitive P\(hyRELEASE response reject .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRSYNreq PS primitive P\(hyRESYNCHRONIZE request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRSYNrsp PS primitive P\(hyRESYNCHRONIZE response .T& lw(42p) | lw(36p) | lw(150p) . P\(hySYNMreq PS primitive P\(hySYNC\(hyMAJOR request .T& lw(42p) | lw(36p) | lw(150p) . P\(hySYNMrsp PS primitive P\(hySYNC\(hyMAJOR response .T& lw(42p) | lw(36p) | lw(150p) . P\(hySYNmreq PS primitive P\(hySYNC\(hyMINOR request .T& lw(42p) | lw(36p) | lw(150p) . P\(hySYNmrsp PS primitive P\(hySYNC\(hyMINOR response .T& lw(42p) | lw(36p) | lw(150p) . P\(hyTDreq PS primitive P\(hyTYPED\(hyDATA request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyUABreq PS primitive P\(hyU\(hyABORT request .T& lw(42p) | lw(36p) | lw(150p) . P\(hyUERreq PS primitive T{ P\(hyU\(hyEXCEPTION\(hyREPORT request T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy1/X.226, [1T16.226] p.16 \fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [2T16.226]\fR .ce TABLE\ A\(hy1/X.226 \fI(continued)\fR .ce .ce \fBIncoming Event List\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(42p) | cw(36p) | cw(150p) . Abbreviated Name Category Name and Description _ .T& lw(42p) | lw(36p) | lw(150p) . RS PPDU RESYNCHRONIZE .T& lw(42p) | lw(36p) | lw(150p) . RSA PPDU RESYNCHRONIZE ACKNOWLEDGE .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTDcnf SS primitive T{ S\(hyACTIVITY\(hyDISCARD confirm T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTDind SS primitive T{ S\(hyACTIVITY\(hyDISCARD indication T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTEcnf SS primitive S\(hyACTIVITY\(hyEND confirm .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTEind SS primitive T{ S\(hyACTIVITY\(hyEND indication T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTIcnf SS primitive T{ S\(hyACTIVITY\(hyINTERRUPT confirm T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTIind SS primitive T{ S\(hyACTIVITY\(hyINTERRUPT indication T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTRind SS primitive T{ S\(hyACTIVITY\(hyRESUME indication T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTSind SS primitive T{ S\(hyACTIVITY\(hySTART indication T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyCGind SS primitive T{ S\(hyCONTROL\(hyGIVE indication T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyCONcnf\(em SS primitive T{ S\(hyCONNECT confirm reject (provider) T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyGTind SS primitive S\(hyTOKEN\(hyGIVE indication .T& lw(42p) | lw(36p) | lw(150p) . S\(hyP\(hyABind SS primitive S\(hyP\(hyABORT indication .T& lw(42p) | lw(36p) | lw(150p) . S\(hyPERind SS primitive T{ S\(hyP\(hyEXCEPTION\(hyREPORT indication T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyPTind SS primitive T{ S\(hyTOKEN\(hyPLEASE indication T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRELcnf+ SS primitive S\(hyRELEASE confirm accept .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRELcnf\(em SS primitive S\(hyRELEASE confirm reject .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRELind SS primitive S\(hyRELEASE indication .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRSYNcnf SS primitive S\(hyRESYNCHRONIZE confirm .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRSYNind SS primitive S\(hyRESYNCHRONIZE indication .T& lw(42p) | lw(36p) | lw(150p) . S\(hySYNMcnf SS primitive S\(hySYNC\(hyMAJOR confirm .T& lw(42p) | lw(36p) | lw(150p) . S\(hySYNMind SS primitive S\(hySYNC\(hyMAJOR indication .T& lw(42p) | lw(36p) | lw(150p) . S\(hySYNmcnf SS primitive S\(hySYNC\(hyMINOR confirm .T& lw(42p) | lw(36p) | lw(150p) . S\(hySYNmind SS primitive S\(hySYNC\(hyMINOR indication .T& lw(42p) | lw(36p) | lw(150p) . S\(hyUERind SS primitive T{ S\(hyU\(hyEXCEPTION\(hyREPORT indication T} .T& lw(42p) | lw(36p) | lw(150p) . TC PPDU CAPABILITY DATA .T& lw(42p) | lw(36p) | lw(150p) . TCC PPDU CAPABILITY DATA ACKNOWLEDGE .T& lw(42p) | lw(36p) | lw(150p) . TD PPDU DATA .T& lw(42p) | lw(36p) | lw(150p) . TE PPDU EXPEDITED DATA .T& lw(42p) | lw(36p) | lw(150p) . TTD PPDU TYPED DATA _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy1/X.226, [2T16.226] p.17 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 9P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [T17.226]\fR .ce TABLE\ A\(hy2/X.226 .ce \fBStates\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(30p) | cw(150p) . Abbreviated Name Name and Description _ .T& lw(30p) | lw(150p) . STAI0 idle \(em no connection .T& lw(30p) | lw(150p) . STAI1 await CPA PPDU .T& lw(30p) | lw(150p) . STAI2 await P\(hyCONNECT response .T& lw(30p) | lw(150p) . STAt0 connected \(em data transfer .T& lw(30p) | lw(150p) . STAac0 await ACA PPDU .T& lw(30p) | lw(150p) . STAac1 T{ await P\(hyALTER\(hyCONTEXT response T} .T& lw(30p) | lw(150p) . STAac2 T{ await ACA PPDU or P\(hyALTER\(hyCONTEXT response T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy2/X.226, [T17.226] p.18 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 32P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [1T18.226]\fR .ce TABLE\ A\(hy3/X.226 .ce \fBOutgoing Event List\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(42p) | cw(36p) | cw(150p) . Abbreviated Name Category Name and Description _ .T& lw(42p) | lw(36p) | lw(150p) . AC PPDU ALTER CONTEXT .T& lw(42p) | lw(36p) | lw(150p) . ACA PPDU ALTER CONTEXT ACKNOWLEDGE .T& lw(42p) | lw(36p) | lw(150p) . ARP PPDU PROVIDER ABORT .T& lw(42p) | lw(36p) | lw(150p) . ARU PPDU USER ABORT .T& lw(42p) | lw(36p) | lw(150p) . CP PPDU PRESENTATION CONNECT .T& lw(42p) | lw(36p) | lw(150p) . CPA PPDU PRESENTATION CONNECT ACCEPT .T& lw(42p) | lw(36p) | lw(150p) . CPR PPDU PRESENTATION CONNECT REJECT .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTDcnf PS primitive T{ P\(hyACTIVITY\(hyDISCARD confirm T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTDind PS primitive T{ P\(hyACTIVITY\(hyDISCARD indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTEcnf PS primitive P\(hyACTIVITY\(hyEND confirm .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTEind PS primitive T{ P\(hyACTIVITY\(hyEND indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTIcnf PS primitive T{ P\(hyACTIVITY\(hyINTERRUPT confirm T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTIind PS primitive T{ P\(hyACTIVITY\(hyINTERRUPT indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTRind PS primitive T{ P\(hyACTIVITY\(hyRESUME indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyACTSind PS primitive T{ P\(hyACTIVITY\(hySTART indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyALTERcnf PS primitive P\(hyALTER\(hyCONTEXT confirm .T& lw(42p) | lw(36p) | lw(150p) . P\(hyALTERind PS primitive T{ P\(hyALTER\(hyCONTEXT indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCDcnf PS primitive T{ P\(hyCAPABILITY\(hyDATA confirm T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCDind PS primitive T{ P\(hyCAPABILITY\(hyDATA indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCGind PS primitive T{ P\(hyCONTROL\(hyGIVE indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCONcnf+ PS primitive P\(hyCONNECT confirm accept .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCONcnf\(em PS primitive P\(hyCONNECT confirm reject .T& lw(42p) | lw(36p) | lw(150p) . P\(hyCONind PS primitive P\(hyCONNECT indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hyDTind PS primitive P\(hyDATA indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hyEXind PS primitive T{ P\(hyEXPEDITED\(hyDATA indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyGTind PS primitive P\(hyTOKEN\(hyGIVE indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hyPABind PS primitive P\(hyP\(hyABORT indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hyPERind PS primitive T{ P\(hyP\(hyEXCEPTION\(hyREPORT indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyPTind PS primitive T{ P\(hyTOKEN\(hyPLEASE indication T} .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRELcnf+ PS primitive P\(hyRELEASE confirm accept .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRELcnf~ PS primitive P\(hyRELEASE confirm reject .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRELind PS primitive P\(hyRELEASE indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRSYNcnf PS primitive P\(hyRESYNCHRONIZE confirm .T& lw(42p) | lw(36p) | lw(150p) . P\(hyRSYNind PS primitive P\(hyRESYNCHRONIZE indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hySYNMcnf PS primitive P\(hySYNC\(hyMAJOR confirm .T& lw(42p) | lw(36p) | lw(150p) . P\(hySYNMind PS primitive P\(hySYNC\(hyMAJOR indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hySYNmcnf PS primitive P\(hySYNC\(hyMINOR confirm .T& lw(42p) | lw(36p) | lw(150p) . P\(hySYNmind PS primitive P\(hySYNC\(hyMINOR indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hyTDind PS primitive P\(hyTYPED\(hyDATA indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hyUABind PS primitive P\(hyU\(hyABORT indication .T& lw(42p) | lw(36p) | lw(150p) . P\(hyUERind PS primitive T{ P\(hyU\(hyEXCEPTION\(hyREPORT indication T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy3/X.226, [1T18.226] p.19 \fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [2T18.226]\fR .ce TABLE\ A\(hy3/X.226 \fI(continued)\fR .ce \fBOutgoing Event List\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(42p) | cw(36p) | cw(150p) . Abbreviated Category Name and Description _ .T& lw(42p) | lw(36p) | lw(150p) . RS PPDU RESYNCHRONIZE .T& lw(42p) | lw(36p) | lw(150p) . RSA PPDU RESYNCHRONIZE acknowledge .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTDreq SS primitive T{ S\(hyACTIVITY\(hyDISCARD request T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTDrsp SS primitive T{ S\(hyACTIVITY\(hyDISCARD response T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTEreq SS primitive S\(hyACTIVITY\(hyEND request .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTErsp SS primitive S\(hyACTIVITY\(hyEND response .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTIreq SS primitive T{ S\(hyACTIVITY\(hyINTERRUPT request T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTIrsp SS primitive T{ S\(hyACTIVITY\(hyINTERRUPT response T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTRreq SS primitive T{ S\(hyACTIVITY\(hyRESUME request T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyACTSreq SS primitive T{ S\(hyACTIVITY\(hySTART request T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyCGreq SS primitive S\(hyCONTROL\(hyGIVE request .T& lw(42p) | lw(36p) | lw(150p) . S\(hyGTreq SS primitive S\(hyTOKEN\(hyGIVE request .T& lw(42p) | lw(36p) | lw(150p) . S\(hyPTreq SS primitive S\(hyTOKEN\(hyPLEASE request .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRELreq SS primitive S\(hyRELEASE request .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRELrsp+ SS primitive S\(hyRELEASE response accept .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRELrsp\(em SS primitive S\(hyRELEASE response reject .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRSYNreq SS primitive S\(hyRESYNCHRONIZE request .T& lw(42p) | lw(36p) | lw(150p) . S\(hyRSYNrsp SS primitive S\(hyRESYNCHRONIZE response .T& lw(42p) | lw(36p) | lw(150p) . S\(hySYNMreq SS primitive T{ S\(hySYNCHRONIZE\(hyMAJOR request T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hySYNMrsp SS primitive T{ S\(hySYNCHRONIZE\(hyMAJOR response T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hySYNmreq SS primitive T{ S\(hySYNCHRONIZE\(hyMINOR request T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hySYNmrsp SS primitive T{ S\(hySYNCHRONIZE\(hyMINOR response T} .T& lw(42p) | lw(36p) | lw(150p) . S\(hyUERreq SS primitive T{ S\(hyU\(hyEXCEPTION\(hyREPORT request T} .T& lw(42p) | lw(36p) | lw(150p) . TC PPDU CAPABILITY DATA .T& lw(42p) | lw(36p) | lw(150p) . TTC PPDU CAPABILITY DATA ACKNOWLEDGE .T& lw(42p) | lw(36p) | lw(150p) . TD PPDU DATA .T& lw(42p) | lw(36p) | lw(150p) . TE PPDU EXPEDITED DATA .T& lw(42p) | lw(36p) | lw(150p) . TTD PPDU P\(hyTYPED DATA _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy3/X.226, [2T18.226] p.20 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 14P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [T19.226]\fR .ce TABLE\ A\(hy4/X.226 .ce \fBSpecific Actions\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(24p) | cw(204p) . Code Action _ .T& cw(24p) | lw(204p) . [01] T{ Mark presentation contexts proposed for definition which provider cannot support as \*Qprovider\(hyrejection\*U. T} .T& cw(24p) | lw(204p) . [02] Set cr and rl to FALSE. .T& cw(24p) | lw(204p) . [03] T{ Record abstract and transfer syntaxes for the presentation contexts of the agreed DCS and for the default context. T} .T& cw(24p) | lw(204p) . [04] T{ Propose at least one transfer syntax for each presentation context. T} .T& cw(24p) | lw(204p) . [05] T{ Propose a transfer syntax for the default context if one is named in the request service primitive. T} .T& cw(24p) | lw(204p) . [06] T{ Select one transfer syntax for each presentation context agreed for definition and include the agreed presentation contexts in the DCS. T} .T& cw(24p) | lw(204p) . [07] Set rl to TRUE. .T& cw(24p) | lw(204p) . [08] T{ If rl is TRUE then set cr to TRUE. T} .T& cw(24p) | lw(204p) . [09] T{ If aep is TRUE then: a) set aep to FALSE; and b) if FU(CR) is TRUE then the syn chronization points associated with the last activity no longer have associated DCSs. T} .T& cw(24p) | lw(204p) . [10] T{ Record selected transfer syntax for each new presentation context and include new presentation contexts in the DCS. T} .T& cw(24p) | lw(204p) . [11] T{ Remove the presentation contexts agreed for deletion from the DCS. T} .T& cw(24p) | lw(204p) . [12] T{ Record FU(f) for f in fu\(hydom according to the presentation requirements in the CPA PPDU. T} .T& cw(24p) | lw(204p) . [13] T{ If FU(CR) then associate the DCS with the syncpoint identifier. T} .T& cw(24p) | lw(204p) . [14] T{ If FU(CR) and an activity is in progress, set the DCS to the inter\(hyactivity DCS. T} .T& cw(24p) | lw(204p) . [15] Set aep to TRUE. .T& cw(24p) | lw(204p) . [16] T{ Set the DCS to that associated with the syncpoint identifier. T} .T& cw(24p) | lw(204p) . [17] T{ If FU(CR) then remember the DCS as the inter\(hyactivity DCS. T} .T& cw(24p) | lw(204p) . [18] T{ Set the DCS to that agreed during presentation\(hyconnection establishment. T} .T& cw(24p) | lw(204p) . [19] T{ Eliminate any associations between syncpoint serial number and the DCS for the current activity. T} .T& cw(24p) | lw(204p) . [20] Set aep to FALSE. .T& cw(24p) | lw(204p) . [21] T{ Set the DCS as specified by the Presentation context identifier list parameter of the PPDU. T} .T& cw(24p) | lw(204p) . [22] T{ If FU(CR), then eliminate any associations between syncpoint identifiers and DCSs. T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy4/X.226, [T19.226] p.21 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 11P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [T20.226]\fR .ce TABLE\ A\(hy5/X.226 .ce \fBPredicates\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(24p) | cw(204p) . Code Meaning _ .T& cw(24p) | lw(204p) . p01 T{ The presentation\(hyconnection is acceptable to the PPM (local matter). T} .T& cw(24p) | lw(204p) . p02 T{ If present, the named default context can be supported. T} .T& cw(24p) | lw(204p) . p03 T{ Each presentation data value is from a presentation context of the DCS proposed in the presentation\(hyconnection establishment, or from the default context if this DCS is empty. T} .T& cw(24p) | lw(204p) . p04 T{ Each presentation data value is from presentation contexts of the DCS being accepted in the presentation\(hyconnection establishment, or from the default context if this DCS is empty. T} .T& cw(24p) | lw(204p) . p05 T{ Each presentation data value is from presentation contexts of the DCS, or from the default context if the DCS is empty. T} .T& cw(24p) | lw(204p) . p06 T{ Each presentation data value is from presentation contexts of the DCS not proposed for deletion from the DCS by the peer PPM. T} .T& cw(24p) | lw(204p) . p07 T{ Each presentation data value is from presentation contexts of the DCS not proposed for deletion from the DCS by the local PPM. T} .T& cw(24p) | lw(204p) . p08 The value of cr is TRUE. .T& cw(24p) | lw(204p) . p09 T{ Each presentation data value if from presentation contexts of the DCS not accepted for deletion from the DCS, or from presentation contexts accepted for addition to the DCS, or if no such presentation contexts are available, from the default context. T} .T& cw(24p) | lw(204p) . p11 FU(CM) is TRUE. .T& cw(24p) | lw(204p) . p13 T{ Each presentation data value is from the default context. T} .T& cw(24p) | lw(204p) . p14 T{ FU(CM) is false, or FU(CM) is true and typed data functional unit was selected as a User session requirement. T} .T& cw(24p) | lw(204p) . p15 T{ Each presentation data value is from presentation contexts of the DCS which was agreed during presentation\(hyconnection establishment, or from the default context if this DCS is empty. T} .T& cw(24p) | lw(204p) . p16 T{ Each presentation data value is from presentation contexts of the DCS associated with the pair of Old activity identifier and Synchronization point serial number parameter values or from the default context when this DCS is empty. T} .T& cw(24p) | lw(204p) . p17 FU(CR) is TRUE. .T& cw(24p) | lw(204p) . p18 T{ Each presentation date value is in presentation contexts of the DCS associated with the syncpoint identifier or from the default context if this DCS is empty. T} .T& cw(24p) | lw(204p) . p19 T{ Either no syncpoint identifier is associated with a DCS or the resync identifier is not associated with a DCS and is greater than the lowest syncpoint identifier which has an associated DCS. T} .T& cw(24p) | lw(204p) . p20 T{ The PPDU contains a Presentation context identifier list parameter. T} .T& cw(24p) | lw(204p) . p21 T{ Each presentation data value is from presentation contexts specified in the PPDU, or from the default context if no presentation contexts are specified in the PPDU. T} .T& cw(24p) | lw(204p) . p22 T{ For each presentation data value, an instance (chosen as a local matter) of encoding is supported by the PPM. T} .T& cw(24p) | lw(204p) . p23 T{ For each presentation data value the encoding is supported by the PPM. T} .T& cw(24p) | lw(204p) . p24 T{ Each presentation data value is from presentation contexts of the DCS, or from presentation contexts proposed for addition to the DCS by the local PPM, or from the default context if either the DCS is empty or all presentation contexts of the DCS were proposed for deletion by the local PPM. T} .T& cw(24p) | lw(204p) . p25 T{ Each presentation data value is from presentation contexts of the DCS not proposed for deletion by the peer PPM or from presentation contexts proposed for addition to the DCS by the local PPM. T} .T& cw(24p) | lw(204p) . p26 T{ The syncpoint identifier has an associated DCS. T} .T& cw(24p) | lw(204p) . p27 T{ Old session connection identifier parameter present. T} .T& cw(24p) | lw(204p) . p28 T{ There is a DCS associated with the pair of Old activity identifier and Synchronization point serial number parameters values. T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy5/X.226, [T20.226] p.22 \fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T21.226]\fR .ce TABLE\ A\(hy6/X.226 .ce \fBConnexion Establishment\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(36p) | cw(60p) | cw(36p) | cw(36p) . STAI0 idle no connection STAI1 await CPA STAI2 await P\(hyCONrsp _ .T& lw(36p) | lw(60p) | lw(36p) | lw(36p) . P\(hyCONreq T{ p02 & p03 [04] [05] [02] [20] CP STAI1 T} _ .T& lw(36p) | lw(60p) | lw(36p) | lw(36p) . CP T{ p01 & p02 & p03 & p22 [01] [02] [20] P\(hyCONind STAI2 \*\|up01 OR \*\|up02 OR \*\|up22 [01] CPR STAI0 T} _ .T& lw(36p) | lw(60p) | lw(36p) | lw(36p) . P\(hyCONrsp+ p04 [06] [12] CPA STAt0 _ .T& lw(36p) | lw(60p) | lw(36p) | lw(36p) . CPA T{ p04 [03] [12] P\(hyCONcnf+ STAt0 T} _ .T& lw(36p) | lw(60p) | lw(36p) | lw(36p) . P\(hyCONrsp\(em p04 [06] CPR STAI0 _ .T& lw(36p) | lw(60p) | lw(36p) | lw(36p) . CPR p04 P\(hyCONcnf\(em STAI0 _ .T& lw(36p) | lw(60p) | lw(36p) | lw(36p) . S\(hyCONcnf\(em P\(hyCONcnf\(em STAI0 _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy6/X.226, [T21.226] p.23 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 14P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [T22.226]\fR .ce TABLE\ A\(hy7/X.226 .ce \fBConnection release (normal)\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(36p) | cw(36p) | cw(36p) | cw(36p) | cw(36p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyRELreq T{ p07 [08] [07] S\(hyRELreq STAac0 T} T{ p05 [08] [07] S\(hyRELreq STAac1 T} T{ p07 [08] [07] S\(hyRELreq STAac2 T} T{ p05 [08] [07] S\(hyRELreq STAt0 T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hyRELind T{ p05 [08] [07] P\(hyRELind STAac0 T} T{ p06 [08] [07] P\(hyRELind STAac1 T} T{ p06 [08] [07] P\(hyRELind STAac2 T} T{ p05 [08] [07] P\(hyRELind STAt0 T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyRELrsp+ T{ p07 & \*\|up08 S\(hyRELrsp+ STAI0 p07 & p08 [02] S\(hyRELrsp+ STAt0 T} T{ p05 & \*\|up08 S\(hyRELrsp+ STAI0 p05 & p08 [02] S\(hyRELrsp+ STAt0 T} T{ p07 & \*\|up08 S\(hyRELrsp+ STAI0 p07 & p08 [02] S\(hyRELrsp+ STAt0 T} T{ p05 & \*\|up08 S\(hyRELrsp+ STAI0 p05 & p08 [02] S\(hyRELrsp+ STAt0 T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hyRELcnf+ T{ p05 & \*\|up08 P\(hyRELcnf+ STAI0 p05 & p08 [02] P\(hyRELcnf+ STAt0 T} T{ p06 & \*\|up08 P\(hyRELcnf+ STAI0 p06 & p08 [02] P\(hyRELcnf+ STAt0 T} T{ p06 & \*\|up08 P\(hyRELcnf+ STAI0 p06 & p08 [02] P\(hyRELcnf+ STAt0 T} T{ p05 & \*\|up08 P\(hyRELcnf+ STAI0 p05 & p08 [02] P\(hyRELcnf+ STAt0 T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyRELrsp\(em T{ p07 [02] S\(hyRELrsp\(em STAac0 T} T{ p05 [02] S\(hyRELrsp\(em STAac1 T} T{ p07 [02] S\(hyRELrsp\(em STAac2 T} T{ p05 [02] S\(hyRELrsp\(em STAt0 T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hyRELcnf\(em T{ p05 [02] P\(hyRELcnf\(em STAac0 T} T{ p06 [02] P\(hyRELcnf\(em STAac1 T} T{ p06 [02] P\(hyRELcnf\(em STAac2 T} T{ p05 [02] P\(hyRELcnf\(em STAt0 T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy7/X.226, [T22.226],p.24 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 14P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [T23.226]\fR .ce TABLE\ A\(hy8/X.226 .ce \fBConnection release (abort)\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(30p) | cw(30p) | cw(36p) | cw(30p) | cw(30p) | cw(36p) | cw(36p) . STAI1 await CPA STAI2 await P\(hyCOMrsp STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(30p) | lw(30p) | lw(36p) | lw(30p) | lw(30p) | lw(36p) | lw(36p) . P\(hyUABreq p03 ARU STAI0 p03 ARU STAI0 p07 ARU STAI0 p05 ARU STAI0 p07 ARU STAI0 p05 ARU STAI0 _ .T& lw(30p) | lw(30p) | lw(36p) | lw(30p) | lw(30p) | lw(36p) | lw(36p) . ARU p03 & p21 P\(hyUABind STAI0 T{ p03 & p21 & p23 P\(hyUABind STAI0 T} p21 & p24 P\(hyUABind STAI0 p06 & p21 P\(hyUABind STAI0 p21 & p25 P\(hyUABind STAI0 p05 & p21 P\(hyUABind STAI0 _ .T& lw(30p) | lw(30p) | lw(36p) | lw(30p) | lw(30p) | lw(36p) | lw(36p) . ARP P\(hyPABind STAI0 P\(hyPABind STAI0 P\(hyPABind STAI0 P\(hyPABind STAI0 P\(hyPABind STAI0 P\(hyPABind STAI0 _ .T& lw(30p) | lw(30p) | lw(36p) | lw(30p) | lw(30p) | lw(36p) | lw(36p) . S\(hyPABind P\(hyPABind STAI0 P\(hyPABind STAI0 P\(hyPABind STAI0 P\(hyPABind STAI0 P\(hyPABind STAI0 P\(hyPABind STAI0 _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy8/X.226, [T23.226] p.25 \fR .sp 1P .RT .ad b .RT .LP .sp 2 .ce \fBH.T. [T24.226]\fR .ce TABLE\ A\(hy9/X.226 .ce \fBContext Management\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(36p) | cw(36p) | cw(36p) | cw(36p) | cw(36p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyALTERreq p05 [04] AC STAac2 p05 & p11 [04] AC STAac0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . AC p06 [01] P\(hyALTERind STAac2 T{ p05 & p11 [01] [09] P\(hyALTERind STAac1 T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyALTERrsp p09 [06] [11] ACA STAt0 p09 [06] [11] ACA STAac0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . ACA T{ p09 [10] [11] P\(hyALTERcnf STAt0 T} T{ p09 & p06 [10] [11] P\(hyALTERcnf STAac1 T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy9/X.226, [T24.226] p.26 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 2P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [T25.226]\fR .ce TABLE\ A\(hy10/X.226 .ce \fBData Transfer\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(36p) | cw(36p) | cw(36p) | cw(36p) | cw(36p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyDTreq p07 TD STAac0 p05 TD STAac1 p07 TD STAac2 p05 TD STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . TD p05 P\(hyDTind STAac0 p06 P\(hyDTind STAac1 p06 P\(hyDTind STAac2 p05 [09] P\(hyDTind STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyTDreq p07 & p14 TTD STAac0 p05 & p14 TTD STAac1 p07 & p14 TTD STAac2 p05 & p14 TTD STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . TTD p05 & p14 P\(hyTDind STAac0 p06 & p14 P\(hyTDind STAac1 p06 & p14 P\(hyTDind STAac2 T{ p05 & p14 [09] P\(hyTDind STAt0 T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyEXreq p13 TE STAac0 p13 TE STAac1 p13 TE STAac2 p13 TE STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . TE p13 P\(hyEXind STAac0 p13 P\(hyEXind STAac1 p13 P\(hyEXind STAac2 p13 [09] P\(hyEXind STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyCDreq p07 TC STAac0 p05 TC STAac1 p07 TC STAac2 p05 TC STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . TC p05 P\(hyCDind STAac0 p06 P\(hyCDind STAac1 p06 P\(hyCDind STAac2 p05 [09] P\(hyCDind STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyCDrsp p07 TCC STAac0 p05 TCC STAac1 p07 TCC STAac2 p05 TCC STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . TCC p05 P\(hyCDcnf STAac0 p06 P\(hyCDcnf STAac1 p06 P\(hyCDcnf STAac2 p05 P\(hyCDcnf STAt0 _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy10/X.226, [T25.226] p.27 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 8P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [T26.226]\fR .ce TABLE\ A\(hy11/X.226 .ce \fBToken Handling\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(36p) | cw(36p) | cw(36p) | cw(36p) | cw(36p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyGTreq S\(hyGTreq STAac0 S\(hyGTreq STAac1 S\(hyGTreq STAac2 S\(hyGTreq STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hyGTind P\(hyGTind STAac0 P\(hyGTind STAac1 P\(hyGTind STAac2 [09] P\(hyGTind STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyPTreq p07 S\(hyPTreq STAac0 p05 S\(hyPTreq STAac1 p07 S\(hyPTreq STAac2 p05 S\(hyPTreq STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hyPTind p05 P\(hyPTind STAac0 p06 P\(hyPTind STAac1 p06 P\(hyPTind STAac2 p05 [09] P\(hyPTind STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hyCGreq S\(hyCGreq STAac0 S\(hyCGreq STAac1 S\(hyCGreq STAac2 S\(hyCGreq STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hyCGind P\(hyCGind STAac0 P\(hyCGind STAac1 P\(hyCGind STAac2 [09] P\(hyCGind STAt0 _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy11/X.226, [T26.226] p.28 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 24P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [T27.226]\fR .ce TABLE\ A\(hy12/X.226 .ce \fBSynchronization\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(36p) | cw(36p) | cw(36p) | cw(36p) | cw(36p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hySYNmreq T{ \*\|up17 & p07 S\(hySYNmreq STAac0 T} p05 S\(hySYNmreq [13] STAac1 T{ \*\|up17 & p07 S\(hySYNmreq STAac2 T} p05 S\(hySYNmreq [13] STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hySYNmind p05 P\(hySYNmind [13] STAac0 T{ \*\|up17 & p06 P\(hySYNmind STAac1 T} T{ \*\|up17 & p06 P\(hySYNmind STAac2 T} p05 P\(hySYNmind [13] STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hySYNmrsp p07 S\(hySYNmrsp STAac0 p05 S\(hySYNmrsp STAac1 p07 S\(hySYNmrsp STAac2 p05 S\(hySYNmrsp STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hySYNmcnf p05 P\(hySYNmcnf STAac0 p06 P\(hySYNmcnf STAac1 p06 P\(hySYNmcnf STAac2 p05 P\(hySYNmcnf STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hySYNMreq T{ \*\|up17 & p07 S\(hySYNMreq STAac0 T} p05 S\(hySYNMreq STAac1 T{ \*\|up17 & p07 S\(hySYNMreq STAac2 T} p05 S\(hySYNMreq STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hySYNMind p05 P\(hySYNMind STAac0 T{ \*\|up17 & p06 P\(hySYNMind STAac1 T} T{ \*\|up17 & p06 P\(hySYNMind STAac2 T} p05 P\(hySYNMind STAt0 _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . P\(hySYNMrsp T{ p07 S\(hySYNMrsp [22] [13] STAac0 T} T{ \*\|up17 & p05 S\(hySYNMrsp STAac1 T} T{ \*\|up17 & p07 S\(hySYNMrsp STAac2 T} T{ p05 S\(hySYNmrsp [22] [13] STAt0 T} _ .T& lw(36p) | lw(36p) | lw(36p) | lw(36p) | lw(36p) . S\(hySYNcnf T{ \*\|up17 & p05 P\(hySYNMcnf STAac0 T} T{ p06 P\(hySYNMcnf [22] [13] STAac1 T} T{ \*\|up17 & p06 P\(hySYNMcnf STAac2 T} T{ p05 P\(hySYNMcnf [22] [13] STAt0 T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy12/X.226, [T27.226] p.29 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 12P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [1T28.226]\fR .ce TABLE\ A\(hy13/X.226 .ce \fBActivity Management and Exception Handling\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(30p) | cw(56p) | cw(62p) | cw(24p) | cw(56p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyACTSreq T{ \*\|up17 & p07 S\(hyACTSreq STAac0 T} p05 [17] S\(hyACTSreq STAac1 T{ \*\|up17 & p07 S\(hyACTSreq STAac2 T} p05 [17] S\(hyACTSreq STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyACTSind T{ p05 [09] [17] P\(hyACTSind STAac0 T} T{ \*\|up17 & p06 P\(hyACTSind STAac1 T} T{ \*\|up17 & p06 P\(hyACTSind STAac2 T} T{ p05 [09] [17] P\(hyACTSind STAt0 T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyACTEreq T{ \*\|up17 & p07 S\(hyACTEreq STAac0 T} p05 S\(hyACTEreq STAac1 T{ \*\|up17 & p07 S\(hyACTEreq STAac2 T} p05 S\(hyACTEreq STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyACTEind p05 P\(hyACTEind STAac0 T{ \*\|up17 & p06 P\(hyACTEind STAac1 T} T{ \*\|up17 & p06 P\(hyACTEind STAac2 T} p05 P\(hyACTEind STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyACTErsp T{ p07 [14] [15] S\(hyACTErsp STAac0 T} T{ \*\|up17 & p05 S\(hyACTErsp STAac1 T} T{ \*\|up17 & p07 S\(hyACTErsp STAac2 T} T{ p05 [14] [15] S\(hyACTErsp STAt0 T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyACTEcnf T{ \*\|up17 & p05 P\(hyACTEcnf STAac0 T} T{ p06 [14] [19] P\(hyACTEcnf STAac1 T} T{ \*\|up17 & p06 P\(hyACTEcnf STAac2 T} T{ p05 [14] [19] P\(hyACTEcnf STAt0 T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyACTIreq S\(hyACTIreq \fR STAt0 S\(hyACTIreq \fR STAt0 S\(hyACTIreq \fR STAt0 S\(hyACTIreq \fR STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyACTIind T{ [20] \fR P\(hyACTIind STAt0 T} T{ [20] \fR P\(hyACTIind STAt0 T} T{ [20] \fR P\(hyACTIind STAt0 T} T{ [20] \fR P\(hyACTIind STAt0 T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyACTIrsp T{ [14] \fR S\(hyACTIrsp STAt0 T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyACTIcnf T{ [14] \fR P\(hyACTIcnf STAt0 T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyACTRreq T{ \*\|up17 & p07 S\(hyACTRreq STAac0 T} T{ (\*\|up17 OR p27 OR \*\|up28) & p05 S\(hyACTRreq STAac1 \*\|up27 & p28 & p17 & p16 [17] [16] S\(hyACTRreq STAac1 T} T{ \*\|up17 & p07 S\(hyACTRreq STAac2 T} T{ (\*\|up17 OR p27 OR \*\|up28) & p05 S\(hyACTRreq STAt0 \*\|up27 & p28 & p17 & p16 [17] [16] S\(hyACTRreq STAt0 T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyACTRind T{ (\*\|up17 OR p27 OR \*\|up28) & p05 [09] P\(hyACTRind STAac0 \*\|up27 & p28 & p17 & p16 [09] [17] [16] P\(hyACTRind STAac0 T} T{ \*\|up17 & p06 P\(hyACTRind STAac1 T} T{ \*\|up17 & p06 P\(hyACTRind STAac2 T} T{ (\*\|up17 OR p27 OR \*\|up28) & p05 [09] P\(hyACTRind STAt0 \*\|up27 & p28 & p17 & p16 [09] [17] [16] P\(hyACTRind STAt0 T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy13/X.226, [1T28.226] p.30 \fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [2T28.226]\fR .ce TABLE\ A\(hy13/X.226 \fI(continued)\fR .ce \fBActivity Management and Exception Handling\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(30p) | cw(56p) | cw(62p) | cw(24p) | cw(56p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyACTDreq S\(hyACTDreq STAt0 S\(hyACTDreq STAt0 S\(hyACTDreq STAt0 S\(hyACTDreq STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyACTDind [09] P\(hyACTDind STAt0 [09] P\(hyACTDind STAt0 [09] P\(hyACTDind STAt0 [09] P\(hyACTDind STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyACTDrsp [14] [19] S\(hyACTDrsp STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyACTDcnf [14] [19] P\(hyACTDcnf STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . P\(hyUERreq p07 S\(hyUERreq STAt0 p05 S\(hyUERreq STAt0 p07 S\(hyUERreq STAt0 p05 S\(hyUERreq STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyUERind p05 P\(hyUERind STAt0 p06 P\(hyUERind STAt0 p06 P\(hyUERind STAt0 p05 P\(hyUERind STAt0 _ .T& lw(30p) | lw(56p) | lw(62p) | lw(24p) | lw(56p) . S\(hyPERind P\(hyPERind STAt0 P\(hyPERind STAt0 P\(hyPERind STAt0 P\(hyPERind STAt0 _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy13/X.226, [2T28.226] p.31 \fR .sp 1P .RT .ad b .RT .LP .rs .sp 22P .ad r Blanc .ad b .RT .LP .bp .ce \fBH.T. [1T29.226]\fR .ce TABLE\ A\(hy14/X.226 .ce \fBResynchronization\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | cw(48p) | cw(48p) | cw(48p) | cw(60p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . P\(hyRSYNreq \*\|up11 & p05 RS STAt0 .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . \*\|up17 & p07 RS STAt0 \*\|up17 & p05 RS STAt0 \*\|up17 & p07 RS STAt0 T{ p11 &\|\*\|up17 & p05 RS STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . p17 & p19 & p07 RS STAt0 p17 & p19 & p05 RS STAt0 p17 & p19 & p07 RS STAt0 T{ p11 & p17 & p19 & p05 RS STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . p17 & p26 & p18 RS STAt0 p17 & p26 & p18 RS STAt0 p17 & p26 & p18 RS STAt0 T{ p11 & p17 & p26 & p18 RS STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p17 &\|\*\|up19 &\|\*\|up26 & p15 [18] RS STAt0 T} T{ p17 &\|\*\|up19 &\|\*\|up26 & p15 [18] RS STAt0 T} T{ p17 &\|\*\|up19 &\|\*\|up26 & p15 [18] RS STAt0 T} T{ p11\|&\|p17\|&\|\*\|up19\|&\|\*\|up26\|&\|p15 [18] RS STAt0 T} _ .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . RS T{ \*\|up11 & p05 P\(hyRSYNind STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ \*\|up17 & p21 [21] P\(hyRSYNind STAt0 T} T{ \*\|up17 & p21 \| \| P\(hyRSYNind STAt0 T} T{ \*\|up17 & p21 [21] P\(hyRSYNind STAt0 T} T{ p11 &\|\*\|up17 & p21 P\(hyRSYNind \| \| STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p17 & p19 & p21 [21] P\(hyRSYNind STAt0 T} T{ p17 & p19 & p21 \| \| P\(hyRSYNind STAt0 T} T{ p17 & p19 & p21 [21] P\(hyRSYNind STAt0 T} T{ p11 & p17 & p19 & p21 P\(hyRSYNind \| \| STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p17 & p26 & p18 [16] P\(hyRSYNind STAt0 T} T{ p17 & p26 & p18 [16] P\(hyRSYNind STAt0 T} T{ p17 & p26 & p18 [16] P\(hyRSYNind STAt0 T} T{ p11 & p17 & p26 & p18 [16] P\(hyRSYNind STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p17 &\|\*\|up19 &\|\*\|up26 & p15 [18] P\(hyRSYNind STAt0 T} T{ p17 &\|\*\|up19 &\|\*\|up26 & p15 [18] P\(hyRSYNind STAt0 T} T{ p17 &\|\*\|up19 &\|\*\|up26 & p15 [18] P\(hyRSYNind STAt0 T} T{ p11\|&\|p17\|&\|\*\|up19\|&\|\*\|up26\|&\|p15 [18] P\(hyRSYNind STAt0 T} _ .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . P\(hyRSYNrsp \*\|up11 & p05 RSA STAt0 .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p11 &\|\*\|up17 & p05 RSA STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p11 & p17 & p19 & p05 RSA STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p11 & p17 & p26 & p05 RSA STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p11\|&\|p17\|&\|\*\|up19\|&\|\*\|up26\|&\|p05 RSA STAt0 T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy14/X.226, [1T29.226] p.32 \fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [2T29.226]\fR .ce TABLE\ A\(hy14/X.226 \fI(continued)\fR .ce \fBResynchronization\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | cw(48p) | cw(48p) | cw(48p) | cw(60p) . STAac0 await ACA STAac1 await P\(hyALTERrsp T{ STAac2 await ACA or P\(hyALTERrsp T} T{ STAt0 connected \(em data transfer T} _ .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . RSA T{ \*\|up11 & p05 P\(hyRSYNcnf STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p11 &\|\*\|up17 & p21 [21] P\(hyRSYNcnf STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p11 & p17 & p19 & p21 [21] P\(hyRSYNcnf STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p11 & p17 & p26 & p05 P\(hyRSYNcnf STAt0 T} .T& lw(24p) | lw(48p) | lw(48p) | lw(48p) | lw(60p) . T{ p11\|&\|p17\|&\|\*\|up19\|&\|\*\|up26\|&\|p05 P\(hyRSYNcnf STAt0 T} _ .TE .nr PS 9 .RT .ad r \fBTableau A\(hy14/X.226, [2T29.226] p.33 \fR .sp 1P .RT .ad b .RT .LP .sp 5 .ce 1000 Appendix\ I .ce 0 .ce 1000 (to Recommendation X.226) .sp 9p .RT .ce 0 .ce 1000 \fBDifferences between Recommendation X.226\fR .sp 1P .RT .ce 0 .sp 1P .ce 1000 \fBand ISO International Standard 8823\fR .ce 0 .sp 1P .PP I.1 Recommendation X.226 contains no statement concerning the relative precedence of any section or annex. ISO/IEC\ JTC\ 1 has indicated its intention to add a statement, prior to publication of ISO\ 8823, concerning precedence. .sp 1P .RT .LP .rs .sp 8P .ad r Blanc .ad b .RT .LP .bp