.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' .sp 2P .LP \fBRecommendation\ T.64\fR .RT .sp 2P .sp 1P .ce 1000 \fBCONFORMANCE\ TESTING\ PROCEDURES\ FOR\ THE\ TELETEX\ RECOMMENDATIONS\fR .FS This Recommendation is applicable to the version of Teletex Recommendations in the CCITT Red Book, Geneva,\ 1984. It is intended that a similar Recommendation on conformance testing procedures applicable to the Teletex Recommendations in the present (1988) Blue Book will be forthcoming during the Study Period\ 1988\(hy1992. .FE .EF '% Fascicle\ VII.4\ \(em\ Rec.\ T.64'' .OF '''Fascicle\ VII.4\ \(em\ Rec.\ T.64 %' .ce 0 .sp 1P .ce 1000 CONTENTS .ce 0 .sp 1P .sp 2P .LP 1 \fIGeneral\fR .sp 1P .RT .LP 1.1 Scope .LP 1.2 Fundamental principles .LP 1.3 Definitions .LP 1.4 Testing methodology .LP 1.5 Test procedures .sp 1P .LP 2 \fIProtocol test procedures\fR .sp 9p .RT .LP 2.1 Protocol test schedules .LP 2.2 Tests on transient states .LP 2.3 Description of the test tables .LP 2.4 Protocol data unit lists .sp 1P .LP 3. \fIApplication service test procedures\fR .sp 9p .RT .LP 3.1 Application service tests .LP 3.2 Description of the application service test schedules .sp 1P .LP 4. \fITest limitations\fR .sp 9p .RT .sp 1P .LP Annex\ A \(em Definitions and abbreviations .sp 9p .RT .LP A.1 \(em Abbreviations .LP A.2 \(em Other symbols .sp 1P .LP Annex\ B \(em B.1 \(em T.70 Transport protocol data unit .sp 9p .RT .LP B.2 \(em T.70 Test schedule .sp 1P .LP Annex\ C \(em C.1 \(em T.62 Session protocol data unit list .sp 9p .RT .LP C.2 \(em T.62 Test schedule .LP C.3\ \(em Non\(hybasic terminal capabilities T.62 negotiation test schedule .sp 1P .LP Annex\ D \(em Application service test schedules .sp 9p .RT .LP D.1 \(em Introduction .LP D.2 \(em Overview .LP D.3 \(em Teletex application service tests under normal conditions .LP D.4 \(em Teletex application service tests under exception conditions .sp 1P .LP Annex\ E \(em Test text coding .sp 9p .RT .LP .sp 2 .bp .sp 2P .LP The CCITT, .sp 1P .RT .sp 1P .LP \fIconsidering\fR .sp 9p .RT .PP that Recommendation F.200 defines the Teletex service; .PP that Recommendation T.60 defines the terminal characteristics for Teletex; .PP that Recommendation T.61 defines the character repertoire and coding for Teletex; .PP that Recommendation T.62 defines the Teletex control procedure; .PP that Recommendation T.70 defines the network independent transport procedure; .PP that Recommendation T.90 defines the Teletex requirements for interworking with telex; .PP that compatible implementation of these standards is necessary for successful development and acceptance of the service, .RT .sp 1P .LP \fIunanimously declares the following\fR .sp 9p .RT .PP This Recommendation contains test procedures to facilitate Administrations' verification of the protocol and service conformance of Teletex systems in order to expedite the international compatibility of Teletex. .RT .sp 2P .LP \fB1\fR \fBGeneral\fR .sp 1P .RT .sp 1P .LP 1.1 \fIScope\fR .sp 9p .RT .PP 1.1.1 This Recommendation defines test procedures for the 1984 version of Teletex Recommendations. .sp 9p .RT .PP 1.1.2 The test procedures contained herein are based on requirements for Teletex systems in three main areas: .LP a) Teletex transport layer procedures as specified in Recommendation\ T.70 (see Annex\ B). .LP b) Teletex control procedures specified in Recommendation T.62 (see Annex\ C). .LP c) Teletex service aspects as specified in Recommendation F.200 and associated Recommendations T.60, T.61 and T.90 (see Annex\ D). .PP 1.1.3 The test procedures are intended to assist verification and cannot fully guarantee the compliance of Teletex systems to the relevant Recommendations. .sp 9p .RT .PP 1.1.4 The test procedures do not supersede the relevant Teletex Recommendations which continue to be the definitive specifications for all aspects of the Teletex service and systems. .PP 1.1.5 The test procedures cover those aspects of Teletex which have international end\(hyto\(hyend significance. .sp 1P .LP 1.2 \fIFundamental principles\fR .sp 9p .RT .PP 1.2.1 The test procedures allow the conformance of a Teletex system to be assessed by comparing the \*Qobserved\*U behaviour of the system against an agreed common reference which specifies the expected behaviour of the system. .sp 9p .RT .PP 1.2.2 The test procedures provide an ability to test a Teletex system located remotely from the test equipment so that systems and test equipments need not be portable. .PP 1.2.3 The test procedures enable a Teletex system to be tested without placing any requirements on the system except conformance to the relevant Teletex Recommendations. .PP 1.2.4 The test procedures are independent from any particular test equipment. .PP 1.2.5 The test procedures do not attempt to optimize testing methods or specify any particular sequence of tests unless expressly stated. .bp .sp 1P .LP 1.3 \fIDefinitions\fR .sp 9p .RT .PP See Annex A. .RT .sp 1P .LP 1.4 \fITesting methodology\fR .sp 9p .RT .PP Testing of a Teletex system shall occur from the bottom layer upwards. Before layer\ (N) can be tested, layer\ (N\ \(hy\ 1) must have been assessed so as not to interfere with the testing of layer\ (N). This methodology ensures that an error in the lower layer does not corrupt protocol elements received at the higher layer. .RT .sp 1P .LP 1.5 \fITest procedures\fR .sp 9p .RT .PP 1.5.1 The test procedures are applicable to all Teletex systems except where they are marked as being \*Qconditional\*U. Conditional tests are only applicable to Teletex systems which claim certain non\(hybasic capabilities. .sp 9p .RT .PP 1.5.2 The test procedures consist of two types: protocol test procedures and application service test procedures. .PP 1.5.2.1 Protocol test procedures test the conformance of a Teletex system to the Recommendations\ T.62 and\ T.70. .PP 1.5.2.2 Application service test procedures test a system's conformance to those requirements specified in Recommendation\ F.200 and associated Recommendations\ T.60, T.61 and\ T.90. .PP 1.5.3 The tests are divided into a number of sets, those which are carried out with the Teletex system calling and those which are carried out with the Teletex system called. The tests are further sub\(hydivided covering the Teletex system under normal (error free) conditions and the Teletex system under exception (error) conditions. .sp 9p .RT .sp 2P .LP \fB2\fR \fBProtocol test procedures\fR .sp 1P .RT .PP Protocol test procedures are defined by a set of protocol test schedules and protocol data unit (PDU) lists. .RT .sp 1P .LP 2.1 \fIProtocol test schedules\fR .sp 9p .RT .PP 2.1.1 The test schedules are described in a tabular form. Test conditions and input sequences together with the expected result are specified. .sp 9p .RT .PP The tests explore a Teletex system's behaviour as it passes through the state event transitions defined in the relevant Recommendation. .PP 2.1.2 Normal protocol tests are designed to be carried out sequentially, i.e. a successful conclusion to test\ N will leave the Teletex system in the correct state for test\ N\ +\ 1 to be carried out. .sp 9p .RT .PP 2.1.3 Exception protocol tests are designed to be carried out individually, i.e. the Teletex system is driven into the correct state for a particular test by procedures which are defined for that test. .sp 1P .LP 2.2 \fITests on transient states\fR .sp 9p .RT .PP 2.2.1 Where a state is transient (i.e. the system may send a PDU immediately following the occurrence of an internal service primitive) it may not be possible to carry out a particular test. It can be determined from the reaction of the system whether a state has been accessed. If access is possible then tests should be performed on the required state\(hyevent pairs; otherwise no further tests need be attempted on that state. .sp 9p .RT .sp 1P .LP 2.3 \fIDescription of the test tables\fR .sp 9p .RT .PP The test tables consist of five columns which are described below. .bp .RT .sp 1P .LP 2.3.1 \fITest number\fR .sp 9p .RT .PP The \fITest number\fR has the following format: WXY/Z .RT .LP where: .LP W is either a \*QG\*U to indicate that the test is carried with the Teletex system calling or a \*QD\*U to indicate that the test is carried out with the Teletex system called. In certain tests the \*QG\*U or \*QD\*U is preceded by a test identifier, e.g.\ CG for conditional tests. .LP X is either an \*QN\*U to indicate that the test is carried out under normal conditions or an \*QE\*U to indicate that the test is carried out under exception conditions. .LP Y specifies the state from which the test is made. .LP Z is the test number within the particular test group. .sp 1P .LP 2.3.2 \fITest type\fR .sp 9p .RT .PP The \fITest type\fR provides a brief description of the test. .RT .sp 1P .LP 2.3.3 \fITester action\fR .sp 9p .RT .PP \fITester action\fR specifies the sequence of protocol elements which shall be sent by the tester during a particular test. .RT .sp 1P .LP 2.3.4 \fITester detects\fR .sp 9p .RT .PP \fITester detects\fR | pecifies the sequence of protocol elements which shall be received by the tester during a particular test in order for the test to be satisfactorily completed. .RT .sp 1P .LP 2.3.5 \fIState diagram route in system/PDUs sent by the tester/comments\fR .sp 9p .RT .PP 2.3.5.1 \fIState diagram route in system\fR | describes the sequence of state transitions explored during the test. .sp 9p .RT .PP 2.3.5.2 The \fIPDUs sent by the tester\fR | pecify those PDUs sent by the tester during the test. For some tests a number of PDUs are specified, one of which shall be chosen to carry out the test. Other tests have to be repeated for each PDU. These tests are indicated by \*Q(REP)\*U following the PDU list. .sp 9p .RT .PP The PDU numbers refer to the PDUs specified in the PDU lists. PDUs are referred to as TPDUs in the T.70 test schedules in Annex\ B and SPUDs in the T.62 test schedules in Annex\ C. .sp 1P .LP 2.4 \fIProtocol data unit (PDU) lists\fR .sp 9p .RT .PP 2.4.1 Separate PDU lists are defined for the T.70 test schedules and the T.62 test schedules. .sp 9p .RT .PP 2.4.2 The PDU lists specify the PDUs used within the test tables. .PP 2.4.3 There are two types of list: one for valid PDUs and one for invalid PDUs. .sp 2P .LP \fB3\fR \fBApplication service test procedures\fR .sp 1P .RT .sp 1P .LP 3.1 \fIApplication service tests\fR .sp 9p .RT .PP 3.1.1 The application service tests establish a number of scenarios which test the conformance of a Teletex system to the Recommendations which specify service and related matters. .sp 9p .RT .sp 1P .LP 3.2 \fIDescription of the application service test schedules\fR .sp 9p .RT .PP \fI\fI\fI\fI\fI\fI\fI\fI\fI\fR 3.2.1 Each test consists of three parts, the title of the test, the actions required to establish the test and the checks that have to be carried out to assess the Teletex system. .bp .sp 9p .RT .PP 3.2.2\fI\fI\fI\fI Where appropriate the Recommendation and section number which define the particular service requirement being tested are referenced. .PP 3.2.3 Where a particular test requires specific values, these have been chosen to ensure a reasonable level of compatibility between Teletex systems. .PP 3.2.4 The tests use the following numbering format: WXN. .LP Where: .LP W indicates whether the test is mandatory (M) or conditional (C). .LP X is either a \*QG\*U to indicate that the test is carried out with the Teletex system calling or a \*QD\*U to indicate that the test is carried out with the Teletex system called. .LP N specifies the test number within the particular test groups. .sp 2P .LP \fB4\fR \fBTest limitations\fR .sp 1P .RT .PP The tests will establish to an acceptable degree of reliability that a Teletex system conforms to the relevant Recommendations. It is not possible to test for \*Qcomplete\*U conformance due to: .RT .LP a) the immense number of state event combinations and possible valid and invalid PDU types which would require an unacceptably large amount of computational resources and time; .LP b) the possibility that previous actions may affect the results of a particular test; .LP c) \*Qtransient\*U states that, although defined in the Recommendations, may not externally be accessible. \v'2P' .ce 1000 ANNEX\ A .ce 0 .ce 1000 (to Recommendation T.64) .sp 9p .RT .ce 0 .ce 1000 \fBDefinitions and abbreviations\fR .sp 1P .RT .ce 0 .LP A.1 \fIAbbreviations\fR .sp 1P .RT .PP The following is a list of abbreviations used in the tables and test schedules of Annexes\ B, C and\ D. See \(sc\ A.2 for symbols other than abbreviations which are used. .RT .sp 1P .LP A.2 \fIOther symbols\fR .sp 9p .RT .LP I Indicates an invalid PDU .LP V Indicates a valid PDU .LP X Represents one or more octets in the correct form, the value is unspecified. .LP (14) Number of octets. .LP * Indicates where the incorrect or unexpected value occurs. .LP \(em Indicates that the field is empty or not used. .LP < Less than. .LP > Greater than. .LP <> Not equal to. .LP o A bar above an octet indicates the octet is in error. .sp 1P .LP \fITest schedules\fR .sp 9p .RT .PP \fITester action/tester detects\fR | olumns .RT .LP [ | Indicates a valid PDU exchange which may be initiated by the SUT in addition to the PDUs exchanged during the course of a test. .PP \fIPDUs sent by the tester\fR | olumn .RT .LP (REP) Indicates that the test must be repeated for each PDU specified. .bp .ce \fBH.T. [1T1.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(30p) | cw(120p) | cw(48p) . Abbreviation Meaning Reference _ .T& lw(30p) | lw(120p) | lw(48p) . CC Clearing cause T.64 .T& lw(30p) | lw(120p) | lw(48p) . CDC Command document continue T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CDCL { Command document capability list } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CDD Command document discard T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CDE Command document end T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CDPB { Command document page boundary } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CDR { Command document resynchronize } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CDS Command document start T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CDUI { Command document user information } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CHAR Character T.64 .T& lw(30p) | lw(120p) | lw(48p) . CI Command identifier T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CIL Call identification line T.200, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CLI Command length indicator T.64 .T& lw(30p) | lw(120p) | lw(48p) . CM { Conditional mandatory parameter } T.64 .T& lw(30p) | lw(120p) | lw(48p) . CRN Checkpoint reference number T.64 .T& lw(30p) | lw(120p) | lw(48p) . CSA Command session abort T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CSCC { Command session change control } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CSE Command session end T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CSS Command session start T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . CSUI { Command session under information } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . DISC DISCONNECT T.64 .T& lw(30p) | lw(120p) | lw(48p) . DPE Document protocol element T.64 .T& lw(30p) | lw(120p) | lw(48p) . DR Destination reference T.64 .T& lw(30p) | lw(120p) | lw(48p) . DRN Document reference number T.64 .T& lw(30p) | lw(120p) | lw(48p) . EAD { Extended addressing (called\ =\ D) } T.64 .T& lw(30p) | lw(120p) | lw(48p) . EAG { Extended addressing (calling\ =\ G) } T.64 .T& lw(30p) | lw(120p) | lw(48p) . EM End mark T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . GI Group identifier T.64 .T& lw(30p) | lw(120p) | lw(48p) . ID Identification T.64 .T& lw(30p) | lw(120p) | lw(48p) . ITA2 { International Telegraph Alphabet No.\ 2 } T.64 .T& lw(30p) | lw(120p) | lw(48p) . LI Length indicator T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . M Mandatory parameter T.64 .T& lw(30p) | lw(120p) | lw(48p) . MUT { Multi\(hyterminal configuration } T.64 .T& lw(30p) | lw(120p) | lw(48p) . N\(hy Network T.64 .T& lw(30p) | lw(120p) | lw(48p) . NBTC { Non basic terminal capabilities } T.64 .T& lw(30p) | lw(120p) | lw(48p) . PDU Protocol data unit T.64 .T& lw(30p) | lw(120p) | lw(48p) . PG Parameter group T.64 .T& lw(30p) | lw(120p) | lw(48p) . PGI Parameter group identifier T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . PGLI { Parameter group length indicator } T.64 .T& lw(30p) | lw(120p) | lw(48p) . PI Parameter identifier T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . PLI Parameter length indicator T.64 .T& lw(30p) | lw(120p) | lw(48p) . PV Parameter value T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . R\(hy Reception T.64 _ .TE .nr PS 9 .RT .ad r \fBTableau [1T1.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [2T1.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(30p) | cw(120p) | cw(48p) . Abbreviation Meaning Reference _ .T& lw(30p) | lw(120p) | lw(48p) . R\(hyTCR Receive TCR event T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . R\(hyTDT Receive TDT event T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . RDCLP { Response document capability list positive } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RDDP { Response document discard positive } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RDEP { Response document end positive } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RDGR { Response document general reject } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RDPBN { Response document page boundary negative } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RDPBP { Response document page boundary positive } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RDRP { Response document resynchronize positive } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RI Response identifier T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RLI Response length indicator T.64 .T& lw(30p) | lw(120p) | lw(48p) . RSAP { Response session abort positive } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RSCCP { Response session change control positive } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RSEP Response session end positive T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RSSN { Response session start negative } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RSSP { Response session start positive } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . RSUI { Response session user information } T.62, T.64 .T& lw(30p) | lw(120p) | lw(48p) . S\(hy Session T.64, X.225 .T& lw(30p) | lw(120p) | lw(48p) . S\(hy Sending T.64 .T& lw(30p) | lw(120p) | lw(48p) . S\(hyTCA Send TCA action T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . SD Source reference T.64 .T& lw(30p) | lw(120p) | lw(48p) . SG Source reference T.64 .T& lw(30p) | lw(120p) | lw(48p) . SID Session identification T.64 .T& lw(30p) | lw(120p) | lw(48p) . SPDU Session protocol data unit T.64 .T& lw(30p) | lw(120p) | lw(48p) . SR Source reference T.64 .T& lw(30p) | lw(120p) | lw(48p) . SUT System under test T.64 .T& lw(30p) | lw(120p) | lw(48p) . T\(hy Transport T.64 .T& lw(30p) | lw(120p) | lw(48p) . TBR Transport block reject block T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . TCA { Transport connection accept block } T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . TCC { Transport connection clear block } T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . TCR { Transport connection request block } T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . TDT Transport data block T.64, T.70 .T& lw(30p) | lw(120p) | lw(48p) . TID Terminal identification T.64 .T& lw(30p) | lw(120p) | lw(48p) . TPDU Transport protocol data unit T.64 .T& lw(30p) | lw(120p) | lw(48p) . TSDU Transport service data unit T.64 .T& lw(30p) | lw(120p) | lw(48p) . TUT Terminal under test T.64 _ .TE .nr PS 9 .RT .ad r \fBTableau [2T1.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce 1000 ANNEX\ B .ce 0 .ce 1000 (to Recommendation T.64) .sp 9p .RT .ce 0 .LP B.1 \fIT.70 Transport Protocol Data Unit (TPDU) list\fR .sp 1P .RT .ce \fBH.T. [T2.64]\fR .ce \fITest level 4, TCR\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | lw(84p) , c | c | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ . Tester sending TCR { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR E 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { Length indicator (LI) Block type Destination ref. (DD) Source ref. (SG) Extension field Parameters C0, C1, C2 in any order } Type/No. Short description _ .TE .nr PS 9 .RT .ad r \fBTableau [T2.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T3.64]\fR .ce \fITest level 4, Invalid TCR\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | lw(84p) , c | c | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ . Tester sending TCR { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR E 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { Length indicator (LI) Block type Destination ref. (DD) Source ref. (SG) Extension field Parameters C0, C1, C2 in any order } Type/No. Short description _ .TE [Unable to convert rest of table] .nr PS 9 .RT .ad r \fBTableau [T3.64], p.\fR .sp 1P .RT .ad b .RT .ce \fBH.T. [T4.64]\fR .ce \fITest level 4, TCA\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | lw(84p) , c | c | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ . Tester sending TCA { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR D 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { Length indicator (LI) Block type Destination ref. (DR+SG) Source ref. (SD) Extension field Parameters C0, C1, C2 in any order } Type/No. Short Description _ .TE .nr PS 9 .RT .ad r \fBTableau [T4.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T5.64]\fR .ce \fITest level 4, Invalid TCA\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | lw(84p) , c | c | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ . Tester sending TCA { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR D 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { Length indicator (LI) Block type Destination ref. (DR+SG) Source ref. (SD) Extension field Parameters C0, C1, C2 in any order } Type/No. Short Description _ [unable to convert rest of table] .TE .nr PS 9 .RT .ad r \fBTableau [T5.64], p.\fR .sp 1P .RT .ad b .RT .ce \fBH.T. [T6.64]\fR .ce \fITest level 4, TCC\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | lw(78p) , c | c | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ . Tester Sending TCC { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 8 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR E 0 } { Length indicator (LI) Block type Destination ref. (DR+SG) Source ref. (SD) Clearing cause Additional clearing information } Type/No. Short Description _ .TE .nr PS 9 .RT .ad r \fBTableau [T6.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T7.64]\fR .ce \fITest level 4, Invalid TCC\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | lw(78p) , c | c | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ . Tester Sending TCC { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 8 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR E 0 } { Length indicator (LI) Block type Destination ref. (DR+SG) Source ref. (SD) Clearing cause (CC) Additional clearing information } Type/No. Short Description _ [Unable to Convert Table] .TE .LP \fINote\fR \ \(em\ This PDU must be padded with 120 octets. .nr PS 9 .RT .ad r \fBTableau [T7.64], p.\fR .sp 1P .RT .ad b .RT .LP .sp 3 .ce \fBH.T. [T8.64]\fR .ce \fITest level 4, TBR\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(18p) | lw(72p) , c | c | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ . Tester Sending TBR { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 7 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR C 1 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X . | | | X \fB. | | | \fR } { Length indicator (LI) Block type Destination ref. (DR) Reject cause Reject block PI PLI } Type/No. Short Description _ .TE .nr PS 9 .RT .ad r \fBTableau [T8.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T9.64]\fR .ce \fITest level 4, TDT\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(36p) | lw(72p) , c | c | ^ | ^ | ^ | ^ | ^ . Tester Sending TDT { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 2 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR F 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR Data . | | | | | | | | | } { Length indicator (LI) Block type TSDU \(em Endmark } Type/No. Short Description _ .TE .nr PS 9 .RT .ad r \fBTableau [T9.64], p.\fR .sp 1P .RT .ad b .RT .LP .sp 2 .ce \fBH.T. [T10.64]\fR .ce \fITest level 4, undefined PDU\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(36p) sw(66p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | cw(6p) | lw(84p) , c | c | ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^ . Tester Sending Undefined PDU { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR 0 0 } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { \fB.\fR \fB.\fR \fB.\fR \fB.\fR \fB.\fR X X } { Length indicator (LI) Block type } Type/No. Short Description _ .T& cw(36p) | lw(66p) | cw(6p) | cw(6p) | cw(6p) | lw(108p) . UD1 Octet 2 Incorrecto 0 2 0 0 8 0 TSDU _ .TE .nr PS 9 .RT .ad r \fBTableau [T10.64], p.\fR .ad b .RT .LP .bp .LP B.2 \fIT.70 test schedule\fR .sp 1P .RT .sp 2P .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting normal conditions\fR .sp 9p .RT .LP \fISystem calling/Tester called\fR .PP Before this sequence is executed, the system will establish the network connection. .RT .ce \fBH.T. [T11.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the T.70 test c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GN1 Send TCR R\(hyTCR a) 0.2 \(hy 1.1 _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GN2 Receive TCA S\(hyTCA { a) 1.1 \(hy 2.1 b) TCA (V1\(hyV6) (REP) except TCA V4 c) Systems complying with the 1984\(hyVersion may reject TCA V6 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GN3 Send TDT R\(hyTDT (CSS) a) 2.1 \(hy 2.1 _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GN4 Receive TDT S\(hyTDT (RSSP) { a) 2.1 (no reassembly) \(hy 2.1 b) TDT V1 c) See Note 1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GN5 { SEND\(hyTDT (with segmentation) } { R\(hyTDT (CSUI/CDS) R\(hyTDT (CSUI/CDUI) ##N } { a) 2.1 (segmentation) \(hy 2.1 c) ##N is the number of TDT. } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . { S\(hyTDT (RSUI/RDEP) with request session function } R\(hyTDT (CSUI/CDE) b) TDT V1 _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GN6 (Note 2) Receive TDT (with reassembly) { S\(hyTDT (RSCCP) S\(hyTDT (CSUI/CDS) } R\(hyTDT (CSCC) { a) 2.1 (with reassembly) \(hy 2.1 } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . S\(hyTDT ## N EM = 0 { b) TDT (V1\(hyV3) c) ##N is the number of TDT } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . S\(hyTDT EM = 1 (CSUI/CDUI) .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . S\(hyTDT (CSUI/CDE) R\(hyTDT (RSUI/RDEP) .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . S\(hyTDT (CSCC) R\(hyTDT (RSCCP) .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . S\(hyTDT (RSEP) R\(hyTDT (CSE) .TE .LP \fINote 1\fR \ \(em\ On receiving RSSP, the system may undertake \*Qterminal capability negotiation\*U and/or \*QSession change control\*U. In this case, the tester has to answer correctly. .LP \fINote 2\fR \ \(em\ Test GN6 is only possible if the system is capable of acknowledging change request function at the session level, or if the system can be instructed to poll (send CSCC). .nr PS 9 .RT .ad r \fBTableau [T11.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting exception conditions from state 0.3\fR .sp 9p .RT .LP \fISystem calling/Tester called\fR .PP Before each test, a network connection is set up by the system and the tester will: .RT .LP \(em R\(hyTCR, .LP \(em S\(hyTCR, .LP \(em R\(hyTBR. .ce \fBH.T. [T12.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE03/0 Receive any TPDU Timeout S\(hyTPDU Do nothing { a) 0.3 \(hy 0.3 b) Any TPDU c) System discards TPDU and then timeout } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . { Release of the network connection } a) 0.3 \(hy 0.1 _ .TE .nr PS 9 .RT .ad r \fBTableau [T12.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting exception conditions from state 1\fR .sp 9p .RT .LP \fISystem calling/Tester called\fR .PP Before each test, a network connection is set up by the system and the tester will R\(hyTCR. .RT .ce \fBH.T. [T13.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/0 Recovery from network DISC N\(hyDISC REQ { Release of the network connection } { a) (T\(hyDISC IND) a) 1.1 \(hy 0.1 c) Correct response to further tests will indicate that implementation can return from state 1.1 to state\ 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/1 Recovery from network reset { Force an N\(hyRESET IND in the SUT } { Release of the network connection } { a) (T\(hyDISC IND, N\(hyDISC REQ) a) 1.1 \(hy 0.1 c) Correct response to further tests will indicate that implementation can return from state 1.1 to state 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/2 Receive invalid TPDU S\(hyTPDU invalid { Release of the network connection } { a) (T\(hyDISC IND, N\(hyDISC REQ) 1.1 \(hy 0.1 b) TCA I1\(hyI8 TCC I1\(hyI4 Undefined PDU UD1 \fBH.T. [T14.64]\fR } _ .T& lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(6p) sw(36p) | cw(42p) sw(42p) sw(6p) | lw(72p) , ^ | c | c | c | l | l | ^ , ^ | l | l | l | l | l | ^ . GE1/3 Receive TCC { The test within the box is only possible if retry is implemented } Repeat S\(hyTCC R\(hyTCR { a) (Retry) 1.1 (Retry, N\(hyDISC REQ (Retry, T\(hyDISC IND) 1.1 \(hy 0.1 b) TCC V1 c) After N retry or T time (or both) the system should clear the network connection (N and T are national requirements) } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/4 Receive TBR S\(hyTBR { Release of the network connection } { a) (T\(hyDISC IND, N\(hyDISC REQ) 1.1 \(hy 0.1 b) TBR V1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/5 Receive TCR S\(hyTCR { a) 1.1 \(hy 0.3 (N\(hyDISC REQ, T\(hyDISC IND) } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . { R\(hyTBR Release of the network connection } { b) TCR V1\(hyV2 a) Timeout (T0.3) 0.3 \(hy 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/6 Timeout T1.1 Do nothing for time T1.1 { Release of the network connection } { a) (T\(hyDISC IND, N\(hyDISC REQ) 1.1 \(hy 0.1 } _ .TE .nr PS 9 .RT .ad r \fBTableau [T13.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting exception conditions from state 1 (cont)\fR .sp 9p .RT .LP \fISystem calling/Tester called\fR .PP Before each test, a network connection is set up by the system and the tester will T\(hyTCR. .RT .ce \fBH.T. [T14.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(6p) sw(36p) | cw(42p) sw(42p) sw(6p) | lw(72p) , ^ | c | c | c | l | l | ^ , ^ | l | l | l | l | l | ^ . GE1/3 Receive TCC { The test within the box is only possible if retry is implemented } Repeat S\(hyTCC R\(hyTCR { a) (Retry) 1.1 (Retry, N\(hyDISC REQ (Retry, T\(hyDISC IND) 1.1 \(hy 0.1 b) TCC V1 c) After N retry or T time (or both) the system should clear the network connection (N and T are national requirements) } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/4 Receive TBR S\(hyTBR { Release of the network connection } { a) (T\(hyDISC IND, N\(hyDISC REQ) 1.1 \(hy 0.1 b) TBR V1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/5 Receive TCR S\(hyTCR { a) 1.1 \(hy 0.3 (N\(hyDISC REQ, T\(hyDISC IND) } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . { R\(hyTBR Release of the network connection } { b) TCR V1\(hyV2 a) Timeout (T0.3) 0.3 \(hy 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE1/6 Timeout T1.1 Do nothing for time T1.1 { Release of the network connection } { a) (T\(hyDISC IND, N\(hyDISC REQ) 1.1 \(hy 0.1 } _ .TE .nr PS 9 .RT .ad r \fBTableau [T14.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting exception conditions from state 2\fR .sp 9p .RT .LP \fISystem calling/testing called\fR .PP Before each test, a network connection is set up by the system and the tester will: .RT .LP \(em R\(hyTCR, .LP \(em S\(hyTCA, .LP \(em R\(hyTDT. .ce \fBH.T. [T15.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE2/0 Recovery from network DISC N\(hyDISC REQ { Release of the network connection. } { a) (T\(hyDISC IND) 2.1 \(hy 0.1 c) Correct response to further tests will indicate that the implementation can return from state 2.1 to state 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE2/1 Recovery from network reset { Force an N\(hyRESET IND in the SUT } { [R\(hyTDT (CSA)] \fBvide\fR \fBvide\fR Release of the network connection. } { a) (T\(hyDISC IND, N\(hyDISC REQ) 2.1 \(hy 0.1 c) Correct response to further test will indicate that the implementation can return from state 2.1 to state 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE2/2 Receive invalid TPDU S\(hyTPDU invalid R\(hyTBR [R\(hyTDT (CSA)] { a) 2.1 \(hy 0.3 (N\(hyDISC REQ, T\(hyDIS IND) 0.3 \(hy 0.1 } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . N\(hyDISC REQ { \fB.\fR Release of the network connection } { b) TDT I1\(hyI3 Undefined PDU UD1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . GE2/3 Receive TBR S\(hyTBR { \fB.\fR [R\(hyTDT (CSA)] Release of the network connection } { a) (T\(hyDISC IND, N\(hyDISC REQ) 2.1 \(hy 0.1 b) TBR V1 } _ .TE .nr PS 9 .RT .ad r \fBTableau [T15.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Basic test lists .sp 1P .RT .sp 1P .LP \fINormal conditions\fR .sp 9p .RT .LP \fISystem called/tester calling\fR .PP Before this test, the tester will establish the network connection. .RT .ce \fBH.T. [T16.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DN0 Receive TCR S\(hyTCR { a) 0.1 \(hy 1.1 b) TCR V1\(hyV13 (REP) c) Systems conforming to the 1984\(hyVersion may reject TCR V13 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DN1 Send TCA R\(hyTCA a) 1.1 \(hy 2.1 _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DN2 Receive TDT S\(hyTDT (CSS) S\(hyTDT (CDS) \fB.\fR R\(hyTDT (RSSP) { a) 2.1 b) TDT V1\(hyV3 (REP) c) RSSP with segmentation is possible. } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DN3 Receive TDT (with reassembly) { S\(hyTDT ##N (CSUI/CDUI) S\(hyTDT(CSUI/CDE) } R\(hyTDT (RSUI/RDEP) { a) 2.1 (with reassembly) \(hy 2.1 b) TDT V1\(hyV2 c) ##N, the number of TDT, is dependent on size of document. At least one TDT without TSDU End Mark should contain between 1\ and 127\ octets } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DN4 (Note) { Send TDT after session change control } { S\(hyTDT (CSCC) S\(hyTDT (RSUI/RDEP) S\(hyTDT (RSCCP) S\(hyTDT (CSE) N\(hyDISC REQ } { \fB.\fR R\(hyTDT (RSCCP) R\(hyTDT (CSUI/CDS) R\(hyTDT ##N EM = 0 R\(hyTDT EM = 1 (CSUI/CDUI) R\(hyTDT (CSUI/CDE) R\(hyTDT (CSCC) R\(hyTDT (RSEP) Release of the network connection } { a) 2.1 (with segmentation) \(hy 2.1 b) TDT V1\(hyV3 c) ##N is dependent on size of document } .TE .LP \fINote\fR \ \(em\ Test DN4 is only possible if the system under test is capable of requesting change request functions at the session level. .nr PS 9 .RT .ad r \fBTableau [T16.64], 16 et 17 regroup\*'es en un seul tableau p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting exception conditions from state 0.2\fR .sp 9p .RT .LP \fISystem called/Tester calling\fR .PP Before each test, the tester will set up a network connection. .RT .ce \fBH.T. [T18.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE02/0 Recovery from network DISC N\(hyDISC REQ { Release of the network connection. } { a) 0.2 \(hy 0.1 c) Correct response to further tests will indicate that the implementation can return from state\ 0.2 to state\ 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE02/1 Receive invalid TPDU S\(hyTPDU invalid { Release of the network connection } { b) Any invalid TPDU a) 0.2 \(hy 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE02/2 Receive unacceptable TCR S\(hyTCR { a) 0.2 \(hy 0.1 b) TCR V1\(hyV12 c) The system is put into a condition so that it responds with TCC. On some systems it may not be possible to cause the system to generate a TCC. } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . R\(hyTCC a) 0.2 \(hy 0.2 _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DNE02/3 Timeout T0.2 Do nothing { \fB.\fR Release of the network connection } _ .TE .nr PS 9 .RT .ad r \fBTableau [T18.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting exception conditions from state 0.3\fR .sp 9p .RT .LP \fISystem called/tester calling\fR .PP If T\(hyEXCEPT IND has been implemented, it may not be possible to force the terminal under test (TUT) into state\ 0.3. .PP Before each test, the tester will: .RT .LP \(em set up a Network connection .LP \(em S\(hyTCR, .LP \(em R\(hyTCA, .LP \(em S\(hyinvalid TPDU, .LP \(em R\(hyTBR. .ce \fBH.T. [T19.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE03/0 Receive any TPDU S\(hyTPDU { Release of the network connection } { a) (N\(hyDISC REQ, T\(hyDISC IND) 0.3 \(hy 0.1 b) Any TPDU c) System should discard TPDU and then timeout } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE03/1 Timeout T.03 Do nothing { \fB.\fR Release of the network connection. } a) 0.3 \(hy 0.1 _ .TE .nr PS 9 .RT .ad r \fBTableau [T19.64], p.\fR .sp 1P .RT .ad b .RT .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting exception conditions from state 1 (transient)\fR .sp 9p .RT .LP \fISystem called/tester calling\fR .PP Before each test, the tester will: .RT .LP \(em set up a network connection, .LP \(em S\(hyTCR. .ce \fBH.T. [T20.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE1/0 Receive invalid TPDU S\(hyTPDU b) Any invalid TPDU .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . [R\(hyTCA] R\(hyTBR a) 1 \(hy 0.3 .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . N\(hyDISC REQ { \fB.\fR Release of the network connection. } a) 0.3 \(hy 0.1 _ .TE .nr PS 9 .RT .ad r \fBTableau [T20.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Basic test lists .sp 1P .RT .sp 1P .LP \fITesting exception conditions from state 2\fR .sp 9p .RT .LP \fISystem called/tester calling\fR .PP Before each test, the tester will: .RT .LP \(em set up a network condition, .LP \(em S\(hyTCR, .LP \(em R\(hyTCA. .ce \fBH.T. [T21.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE2/0 Recovery from network DISC N\(hyDISC REQ { Release of the network connection } { a) 2.1 \(hy 0.1 c) Correct response to further tests will ensure that the implementation can return from state\ 2.1 to state\ 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE2/1 Recovery from network reset { Force an N\(hyRESET IND in the SUT } { Release of the network connection } { a) (T\(hyDISC IND, N\(hyDISC REQ) 2.1 \(hy 0.1 c) Correct response to further tests will ensure that the implementation can return from state\ 2.1 to state\ 0.1 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE2/2 Receive invalid TPDU { S\(hyTPDU invalid N\(hyDIS REQ } { \fB.\fR R\(hyTBR Release of the network connection } { a) 2.1 \(hy 0.3 (N\(hyDIS IND, T\(hyDISC IND) 0.3 \(hy 0.1 b) Any invalid TPDU. } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . DE2/3 Receive TBR S\(hyTBR { b) TBR V1 a) (T\(hyDISC IND, N\(hyDISC REQ) } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . N\(hyDISC IND a) 2.1 | (hy | .1 _ .TE .nr PS 9 .RT .ad r \fBTableau [T21.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP B.2.1 \fIExtended addressing tests (EAD) for T.70: Test for systems and\fR \fImulti\(hyterminal configurations which support transport extended addressing\fR .sp 1P .RT .sp 1P .LP \fISystem calling/testing called\fR .sp 9p .RT .PP Before each test, the system will establish network connection. .RT .ce \fBH.T. [T22.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . AG/0 { Ability to correctly encode extended addresses } { \fB.\fR S\(hyTCA (EAD = TCR EAD) } { R\(hyTCR (EAD) System enters data phase } { a) 0.2 \(hy 1.1 a) 1.1 \(hy 2.1 b) TCA V5 } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . AG/1 { Ability to accept TCAs containing different EAD from that requested in TCR (redirection acceptable) } S\(hyTCA (EAD <> TCR EAD) { R\(hyTCR (EAD) System enters data phase } { a) 0.2 \(hy 1.1 c) This test is only possible if the system allows the operator to indicate that redirection is acceptable a) 1.1 \(hy 2.1 b) TCA V1, V4 (REP) } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . AG/2 { Ability to reject TCAs containing different EAD from that requested in TCR (redirection unacceptable) } S\(hyTCA (EAD <> TCR EAD) { R\(hyTCR (EAD) Release of the network connection } { a) 0.2 \(hy 1.1 b) TCA V1, V4 c) This test is only possible if the system allows the operator to indicate that redirection is unacceptable a) 1.1 \(hy 2.1 c) Before the test the system shall be set up to reject redirection } _ .TE .nr PS 9 .RT .ad r \fBTableau [T22.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .LP Extended addressing (EAD) tests .sp 1P .RT .sp 1P .LP \fIMulti\(hyterminal configurations only\fR .sp 9p .RT .LP \fIMulti\(hyterminal configuration (MUT) called/tester calling\fR .PP Before each test, the system will establish network connection. .RT .ce \fBH.T. [T23.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . MDA/0 Ability to accept TCR S\(hyTCR { a) 0.2 \(hy 1.1 b) See Table B\(hy1/T.64 c) See Table B\(hy1/T.64 } .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . R\(hyTCA a) 1.1 \(hy 2.1 _ .TE .nr PS 9 .RT .ad r \fBTableau [T23.64], p.\fR .sp 1P .RT .ad b .RT .LP .sp 5 .ce \fBH.T. [T24.64]\fR .ce TABLE\ B\(hy1/T.64 .ce \fBValid responses for the test MDA/0\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(60p) | cw(84p) | cw(60p) . TPDUs used in basic T.70 list Comments Valid responses _ .T& cw(60p) | cw(84p) | cw(60p) . TCR V9 1 EAG { TCA V1 or TCA V2 or TCA V4 or TCA V6 \fBor\fR } _ .T& cw(60p) | lw(84p) | cw(60p) . TCR V4 TCR V5 TCR V7 { Available EAG Available EAG Only possible if an available EAG > 3 digits exists } TCA V3 or TCA V5 _ .TE .nr PS 9 .RT .ad r \fBTableau [T24.64], p.\fR .ad b .RT .LP .bp .LP Extended addressing (EAD) tests .sp 1P .RT .sp 1P .LP \fIMulti\(hyterminal configurations only\fR .sp 9p .RT .LP \fImulti\(hyterminal configuration (MUT) called/Tester calling\fR .PP Before each test, the system will establish network connection. .RT .LP \fR .ce \fBH.T. [T25.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | cw(72p) . 1 2 3 4 5 .T& cw(24p) | cw(42p) | cw(42p) | cw(48p) | lw(72p) . Test No. Type of test Tester action Tester detects { a) State diagram route in the system b) TPDUs sent by the tester c) Comments } _ .T& cw(24p) | lw(42p) | lw(42p) | lw(48p) | lw(72p) . MDA/1 { Ability to redirect a TCR or Respond with TCC } S\(hyTCR \fB.\fR R\(hyTCA { a) 0.2 \(hy 1.1 b) See Table B\(hy2/T.64 c) See Table B\(hy2/T.64 } _ .TE .nr PS 9 .RT .ad r \fBTableau [T25.64], p.\fR .ad b .RT .LP .sp 5 .ce \fBH.T. [T26.64]\fR .ce TABLE\ B\(hy2/T.64 .ce \fBValid responses for the test MDA/1\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(60p) | cw(84p) | cw(60p) . TPDUs used in basic T.70 list Comments Valid responses _ .T& cw(60p) | cw(84p) | lw(60p) . TCR V4 TCR V7 Non\(hyexisting EAD { TCA V4 or TCC V1 or TCC V4 or TCC V5 \fBor\fR } _ .T& cw(60p) | lw(84p) | lw(60p) . TCR V4 { Existing EAD but busy or out of order } { TCA V4 or TCC V1 or TCC V2 or TCC V3 or TCC V5 \fBor\fR } _ .TE .nr PS 9 .RT .ad r \fBTableau [T26.64], p.\fR .ad b .RT .LP .sp 8 .ce 1000 ANNEX\ C .ce 0 .ce 1000 (to Recommendation T.64) .sp 9p .RT .ce 0 .LP .sp 1 C.1 \fIT.62 Session protocol data unit (SPDU) list\fR .sp 1P .RT .LP .bp .ce \fBH.T. [T27.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB Session protocol element\fR } .TE .TS center box ; cw(36p) | lw(12p) | cw(12p) sw(24p) sw(24p) sw(18p) | cw(12p) sw(18p) sw(18p) | cw(18p) | cw(18p) | cw(18p) | cw(12p) sw(18p) sw(18p) sw(18p) | cw(18p) | cw(12p) | cw(18p) , ^ | l | l | c | c | c | l | c | c ^ | ^ | ^ | | l | c | c | c | ^ | ^ | ^ . Command session start \(ra Session reference Non basic session cap. Service ID Inactive timer Session service funct. Non basic term. capabilities Session user data Priv. use para. Nonstandard capab. Term. ID Date and time Add. ref. Misc. cap. Window Control char. Page format Misc. T cap. Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [T27.64], p. \ \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T28.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB Session protocol element\fR } .TE .TS center box ; cw(36p) | lw(12p) | cw(12p) sw(24p) sw(24p) sw(18p) | cw(12p) sw(18p) sw(18p) | cw(18p) | cw(18p) | cw(18p) | cw(12p) sw(18p) sw(18p) sw(18p) | cw(18p) | cw(12p) | cw(18p) , ^ | l | l | c | c | c | l | c | c ^ | ^ | ^ | | l | c | c | c | ^ | ^ | ^ . Command session start \(ra Session reference Non basic session cap. Service ID Inactive timer Session service funct. Non basic term. capabilities Session user data Priv. use para. Nonstandard capab. Term. ID Date and time Add. ref. Misc. cap. Window Control char. Page format Misc. T cap. Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [T28.64], P. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [1T29.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB Session protocol element\fR } Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [1T29.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [2T29.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB Session protocol element\fR } Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [2T29.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [1T30.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Session protocol element\fR } Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [1T30.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [2T30.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Session protocol element\fR } Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [2T30.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [1T31.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Session protocol element\fR } .TE .TS center box ; cw(36p) | lw(12p) | cw(12p) sw(18p) sw(18p) sw(18p) | cw(12p) sw(18p) sw(18p) | cw(18p) | cw(18p) | cw(18p) | cw(12p) sw(18p) sw(18p) sw(23p) | cw(15p) | cw(25p) | cw(15p) , ^ | ^ | l | c | c | c | l | c | c ^ | ^ | ^ | | l | c | c | c | ^ | ^ | ^ . { Response session start negative \(ra } Session reference Non basic s. cap. Service ID Session service funct. Reason Non basic term. capabilities Session user data Private use Non\(hy standard capab. Term. ID Data and time Add. Ref. Misc. cap. Window Control char. Page format Misc T. cap. Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [1T31.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [2T31.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Session protocol element\fR } .TE .TS center box ; cw(36p) | lw(12p) | cw(12p) sw(18p) sw(18p) sw(18p) | cw(12p) sw(18p) sw(18p) | cw(18p) | cw(18p) | cw(18p) | cw(12p) sw(18p) sw(18p) sw(23p) | cw(15p) | cw(25p) | cw(15p) , ^ | ^ | l | c | c | c | l | c | c ^ | ^ | ^ | | l | c | c | c | ^ | ^ | ^ . { Response session start negative \(ra } Session reference Non basic s. cap. Service ID Session service funct. Reason Non basic term. capabilities Session user data Private use Non\(hy standard capab. Term. ID Date and time Add. Ref. Misc. cap. Window Control char. Page format Misc T. cap. Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [2T31.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [T32.64]\fR .ce \fBSession protocol element\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(120p) | lw(24p) | lw(84p) . _ .TE .TS center box ; lw(60p) | lw(24p) | cw(36p) | lw(24p) | lw(60p) | lw(24p) . Command session end \(ra Session termination P { Response session end positive \(ra } .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . { Tester sends \(da\ (Testcase) } C I LI 0 X 9 X { \fB.\fR PI LI PV 1 X X 1 X X \ OPTIONAL } { Tester sends \(da\ (Testcase) } R I LI 0 0 A 0 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . V 1 Without parameter 0 0 9 0 \(em V 1 Standard 0 0 A 0 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . V 2 With P 11 retain xport \fB.\fR 0 0 9 3 \fB.\fR 1 0 0 1 1 0 V 2 3 octet LI *** 0 F00 A F00 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . { V 3 With P 11 but release xport } 0 0 9 3 1 0 0 1 1 1 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . V 4 With PLI = 0 \fB.\fR 0 0 9 2 ***** 1 0 (\(em) 1 0 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . I 1 CLI error * 0 0 9 5 \fB*\fR \(em I 1 RLI error * 0 0 A 5 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . I 2 PLI error \fB.\fR 0 0 9 3 * 1 0 0 1 2 0 _ .TE .nr PS 9 .RT .ad r \fBTableau [T32.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T33.64]\fR .ce \fBSession protocol element\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(120p) | lw(24p) | lw(84p) . _ .TE .TS center box ; lw(60p) | lw(24p) | cw(36p) | lw(24p) | lw(60p) | lw(24p) . Command session abort \(ra Session termination P { Response session abort positive \(ra } .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . { Tester sends \(da\ (Testcase) } C I LI 1 X 9 X { \fB.\fR PI LI PV 1 X X 1 X X M M M } { Tester sends \(da\ (Testcase) } R I LI 1 0 A 0 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . V 1 With P 11 1 0 9 3 1 0 0 1 1 0 V 1 Normal 1 0 A 0 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . V 2 Other PV \fB.\fR 1 0 9 3 \fB.\fR 1 0 0 1 1 5 V 2 With 3 octet LI *** 1 F00 A F00 _ .T& lw(60p) | lw(24p) | lw(36p) | lw(24p) | lw(60p) | lw(24p) . V 3 With 3 octet LI 1 0 9 5 1 F00 0 1 F01 1 _ .TE .nr PS 9 .RT .ad r \fBTableau [T33.64], p.\fR .sp 1P .RT .ad b .RT .LP .sp 3 .ce \fBH.T. [T34.64]\fR .ce \fBSession protocol element\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(84p) | lw(60p) | lw(84p) . _ .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . { Command session change control \(ra } { Response session change control positive \(ra } .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . { Tester sends \(da\ (Testcase) } C I LI 1 0 5 0 { Tester sends \(da\ (Testcase) } R I LI 1 0 6 0 _ .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . V 1 Standard 1 0 5 0 V 1 Standard 1 0 6 0 _ .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . V 2 3 octet LI 1 F00 5 F00 V 2 3 octet LI 1 F00 6 F00 _ .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . _ .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . I 1 LI error * 1 0 5 1 I 1 LI error * 1 1 6 1 _ .TE .nr PS 9 .RT .ad r \fBTableau [T34.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T35.64]\fR .ce \fBSession protocol element\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(90p) | lw(12p) | lw(126p) . _ .TE .TS center box ; lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . { Command session user information \(ra } { Document protocol element (DPE) } { Response session user information \(ra } Request session function { Document protocol element (DPE) } .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . { Tester sends \(da\ (Testcase) } C I LI 0 0 1 0 { \fB.\fR X X XXXX X X XXXX M M M } { Tester sends \(da\ (Testcase) } R I LI 0 X 2 X { \fB.\fR PI LI PV 1 X X 0 X X } { \fB.\fR X X XXXX X X XXXX M M M } _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . V 1 With DPE 0 0 1 0 DPE depends on L.6 state { V1 With parameter and user info. } 0 0 2 3 1 0 0 0 1 1 DPE depends on L.6 state _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . V 2 LI 3 octet 0 F00 1 F00 DPE depends on L.6 V 2 Without parameter 0 0 2 0 \(em DPE depends on L.6 state _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . V 3 LI 3 octet 0 0 2 9 1 F00 0 0 F01 1 DPE depends on L6 state _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . V 4 With undef. PV 0 0 2 3 1 0 0 0 1 5 DPE depends on L.6 state _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . \fB*\fR I 1 LI not eq. 0 * 0 0 1 3 { \fB*\fR DPE depends on L.6 state } \fB*\fR I 1 RLI error * 0 0 2 4 \fB*\fR 1 0 0 0 1 2 { \fB*\fR DPE depends on L.6 state } _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . I 2 PLI error 0 0 2 3 1 0 0 0 2 1 DPE depends on L.6 state _ .T& lw(36p) | lw(18p) | lw(36p) | lw(12p) | lw(36p) | lw(18p) | lw(36p) | lw(36p) . _ .TE .nr PS 9 .RT .ad r \fBTableau [T35.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T36.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Document protocol element\fR } .TE .TS center box ; cw(54p) | lw(18p) | cw(30p) | cw(30p) | cw(24p) | cw(18p) sw(30p) sw(24p) sw(18p) sw(18p) sw(18p) sw(18p) | cw(18p) | cw(24p) , ^ | ^ | ^ | ^ | ^ | l | c | c | c | c | c | c | ^ | ^ . Command document start \(ra Service interw. ID Document reference number Document type ID { Non\(hybasic terminal capabilities } Session user data Private use param. Graph. char. Control char. Page format Misc. T. cap. Charact. box height Charact. box width Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [T36.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [T37.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Document protocol element\fR } .TE .TS center box ; cw(54p) | lw(18p) | cw(30p) | cw(30p) | cw(24p) | cw(18p) sw(30p) sw(24p) sw(18p) sw(18p) sw(18p) sw(18p) | cw(18p) | cw(24p) , ^ | ^ | ^ | ^ | ^ | l | c | c | c | c | c | c | ^ | ^ . Command document start \(ra Service interw. ID Document reference number Document type ID { Non\(hybasic terminal capabilities } Session user data Private use param. Graph. char. Control char. Page format Misc. T. cap. Charact. box height Charact. box width Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [T37.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [T38.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Document protocol element\fR } .TE .ce [Unable to convert Table] .nr PS 9 .RT .ad r \fBTableau [T38.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T39.64]\fR .ce \fBDocument protocol element\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(108p) | lw(12p) | lw(108p) . _ .TE .TS center box ; lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . Command document end \(ra Checkpoint reference number { Response document end positive \(ra } Checkpoint reference number .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . { Tester sends \(da\ (Testcase) } \fB.\fR CI LI 2 0 9 X { \fB.\fR PI LI PV 2 0 0 A X X M M M } { Tester sends \(da\ (Testcase) } \fB.\fR RI LI 2 X A X { \fB.\fR PI LI PV 2 X 3 A X X M M M } _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . { V 1 CRN = 1, after CDS or last CRN+1 } 2 0 9 X 2 0 3 3 3 A X X X X { V 1 CRN length and PV equal to CDE } 2 X A X 2 X 3 3 3 3 A X X X X X _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . { \fB.\fR V 2 LI three octets } \fB.\fR 2 0 9 X { \fB.\fR 2 F00 3 3 3 A F03 X X X } { \fB.\fR V 2 CRN PV equal to CDE, length not equal } \fB.\fR 2 X A X { *\ * * * * * 2 X 3 3 3 3 A X X X X X } _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . V 3 LI three octets 2 X A X 2 F00 3 3 3 A F03 X X X _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . \fB.\fR I 1 CLI error * 2 E 9 E { \fB.\fR 2 0 3 3 3 A X X X X } \fB.\fR I 1 CLI error * 2 E A E { \fB.\fR 2 0 3 3 3 A X X X X } _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . \fB.\fR I 2 PLI error \fB.\fR 2 X 9 X * 2 E 3 3 3 A E X X X \fB.\fR I 2 PLI error \fB.\fR 2 X A X * 2 E 3 3 3 A E X X X _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . \fB.\fR I 3 Incorrect CRN \fB.\fR 2 X 9 X * * * 2 X 3 3 3 A X E E E { \fB.\fR I 3 Sequencing of CRN incorrect } \fB.\fR 2 X A X * * * 2 X 3 3 3 A X E E E _ .T& lw(48p) | lw(24p) | cw(36p) | lw(12p) | lw(48p) | lw(24p) | cw(36p) . { \fB.\fR I 4 Missing mand. parameter } \fB.\fR 2 0 9 0 ********** \(em { \fB.\fR I 4 Missed mand. parameter } \fB.\fR 2 0 A 0 ********** \(em _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . \fB.\fR I 5 Mand. PLI = 0 \fB.\fR 2 0 9 2 ******** 2 0 (\(em) A 0 \fB.\fR I 5 Mand. PLI = 0 \fB.\fR 2 0 A 2 ******** 2 0 (\(em) A 0 _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . { \fB.\fR I 6 Non T.61 coded CRN } \fB.\fR 2 0 9 X * * * 2 0 0 0 0 A 3 1 2 3 { \fB.\fR I 6 Non T.61 coded CRN } \fB.\fR 2 0 A X * * * 2 0 0 0 0 A 3 1 2 3 _ .TE .nr PS 9 .RT .ad r \fBTableau [T39.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T40.64]\fR .ce \fBDocument protocol element\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(108p) | lw(12p) | lw(108p) . _ .TE .TS center box ; lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . { Command document resynchronise \(ra } Reason { Command document discard \(ra } Reason .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . { Tester sends \(da\ (Testcase) } \fB.\fR CI LI 1 0 9 X { \fB.\fR PI LI PV 3 0 0 2 1 X } { Tester sends \(da\ (Testcase) } \fB.\fR CI LI 3 X 9 X { \fB.\fR PI LI PV 3 0 0 2 1 X } _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . V 1 With param. 1 0 9 3 3 0 0 2 1 0 V 1 With param. 3 0 9 3 3 0 0 2 1 3 _ .T& lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . V 2 Without parameter 1 0 9 0 \(em V 2 Without parameter 3 0 9 0 \(em _ .TE .nr PS 9 .RT .ad r \fBTableau [T40.64], p.\fR .sp 1P .RT .ad b .RT .LP .sp 3 .ce \fBH.T. [T41.64]\fR .ce \fBDocument protocol element\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(84p) | lw(60p) | lw(84p) . _ .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . { Response document resynchronise positive \(ra } { Response document discard positive \(ra } .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . { Tester sends \(da\ (Testcase) } \fBI\fR RI LI 1 0 A 0 { Tester sends \(da\ (Testcase) } \fBI\fR RI LI 3 0 A 0 _ .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . V 1 Normal 1 0 A 0 V 1 Normal 3 0 A 0 _ .T& lw(60p) | lw(24p) | lw(60p) | lw(60p) | lw(24p) . V 2 LI three octets 1 F00 A F00 V 2 LI three octets 3 F00 A F00 _ .TE .nr PS 9 .RT .ad r \fBTableau [T41.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T42.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fBDocument protocol element\fR } .TE .TS center box ; lw(96p) | lw(12p) | lw(132p) | lw(6p) | lw(96p) . _ .TE .TS center box ; lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . { Command document page boundary \(ra } Checkpoint reference number { Response document page boundary positive \(ra } Checkpoint reference number Receive ability jeopard. { Response document page boundary negative \(ra } Reason .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . { Tester sends \(da\ (Testcase) } \fB.\fR CI LI 3 0 1 X { \fB.\fR PI LI PV 2 0 0 A X X M M M } { Tester sends \(da\ (Testcase) } \fB.\fR RI LI 3 X 2 X { \fB.\fR PI LI PV 2 X 3 A X X M M M } { \fB.\fR PI LI PV 2 X X E X X M M M } { Tester sends \(da\ (Testcase) } \fB.\fR RI LI 3 0 0 X { \fB.\fR PI LI PV 3 0 0 2 1 X } _ .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . { V 1 CRN = 1 after CDS or last CRN+1 } 3 0 1 X 2 0 3 3 3 A X X X X { V 1 CRN length and PV equal to CDPB } 3 X 2 X 2 X 3 3 3 3 A X X X X X 2 0 0 E 1 0 V 1 With param. 3 0 0 3 3 0 0 2 1 0 _ .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . V 2 LI three octets \fB.\fR 3 F00 1 F05 { \fB.\fR 2 0 3 3 3 A 3 X X X } { V 2 CRN PV equal CDPB, length not equal } \fB.\fR 3 X 2 X { *\ * * * * * 2 X 3 3 3 3 A X 0 X X X } \fB.\fR 2 0 0 E 1 0 V 2 LI three octets \fB.\fR 3 0 0 5 *** 3 F00 0 2 F01 X _ .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . V 3 LI three octets \fB.\fR 3 X 2 X *** 2 F00 3 3 3 A F03 X X X \fB.\fR 2 0 0 E 1 0 _ .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . V 4 Parameter 2 E set to 1 3 X 2 X 2 X 3 3 3 A X X X X 2 0 0 E 1 1 _ .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . I 1 CLI error * 3 E 1 E { \fB.\fR 2 0 3 3 3 A X X X X } I 1 PLI error * 3 E 2 E { \fB.\fR 2 0 3 3 3 A X X X X } \fB.\fR 2 0 0 E 1 1 .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . I 2 PLI error \fB.\fR 3 X 1 X * 2 E 3 3 3 A E X X X I 2 PLI error \fB.\fR 3 X 2 X * 2 E 3 3 3 A E X X X \fB.\fR 2 0 0 E 1 0 .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . { I 3 Sequencing of CNR incorrect } \fB.\fR 3 X 1 X * * * 2 X 3 3 3 A X E E E I 3 Incorrect CRN \fB.\fR 3 X 2 X * * * 2 X 3 3 3 A X E E E \fB.\fR 2 0 0 E 1 0 .T& lw(42p) | lw(18p) | cw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | cw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . I 4 Missed mand. parameter \fB.\fR 3 0 1 0 ********** \(em I 4 Missed mand. parameter \fB.\fR 3 X 2 X { \fB.\fR 2 X 3 3 3 A X X X X } ********* \(em .T& lw(42p) | lw(18p) | lw(36p) | lw(12p) | lw(42p) | lw(18p) | lw(36p) | lw(36p) | lw(6p) | lw(42p) | lw(18p) | lw(36p) . I 5 Mand. PLI = 0 \fB.\fR 3 0 1 2 ******** 2 0 (\(em) A 0 I 5 Mand. PLI = 0 \fB.\fR 3 0 2 7 { \fB.\fR 2 0 3 3 3 A 3 X X X } ***** 2 0 (\(em) E 0 .TE .nr PS 9 .RT .ad r \fBTableau [T42.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp .ce \fBH.T. [T43.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Document protocol element\fR } .TE .TS center box ; cw(54p) | lw(18p) | cw(30p) | cw(30p) | cw(18p) sw(24p) sw(30p) sw(24p) sw(18p) sw(18p) sw(18p) | cw(18p) | cw(24p) | cw(18p) , ^ | ^ | ^ | ^ | l | c | c | c | c | c | c | ^ | ^ | ^ . { Command document capability list \(ra } Inactive timer Storage capacity negotiation { Non\(hybasic terminal capabilities } Session user data Private use param. Non\(hy standard capab. Graph. char. Control char. Page format Misc. t. cap. Charact. box height Charact. box width Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [T43.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [T44.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Document protocol element\fR } .TE .TS center box ; cw(54p) | lw(18p) | cw(30p) | cw(24p) | cw(36p) | cw(12p) sw(18p) sw(18p) sw(18p) sw(18p) sw(18p) sw(18p) | cw(18p) | cw(24p) | cw(18p) , ^ | ^ | ^ | ^ | ^ | l | c | c | c | c | c | c | ^ | ^ | ^ . { Response document capability list positive \(ra } Inactive timer Accept. of CDCL param. Storage capacity negotiation { Non\(hybasic terminal capabilities } Session user data Private use param. Non\(hy standard capab. Graph. char. Control char. Page format Misc. t. cap. Charact. box height Charact. box width Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [T44.64], p. \ \ \ A L'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [T45.64]\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; cw(342p) . { \fB\ Document protocol element\fR } .TE .TS center box ; cw(54p) | lw(18p) | cw(30p) | cw(24p) | cw(36p) | cw(12p) sw(18p) sw(18p) sw(18p) sw(18p) sw(18p) sw(18p) | cw(18p) | cw(24p) | cw(18p) , ^ | ^ | ^ | ^ | ^ | l | c | c | c | c | c | c | ^ | ^ | ^ . { Response document capability list positive \(ra } Inactive timer Accept. of CDCL param. Storage capacity negotiation { Non\(hybasic terminal capabilities } Session user data Private use param. Non\(hy standard capab. Graph. char. Control char. Page format Misc. t. cap. Charact. box height Charact. box width Unable to convert table .TE .nr PS 9 .RT .ad r \fBTableau [T45.64], p. \ \ \ A l'ITALIENNE\fR .sp 1P .RT .ad b .RT .LP .bp .LP \fR .ce \fBH.T. [T46.64]\fR .ce \fBDocument protocol element\fR .ps 9 .vs 11 .nr VS 11 .nr PS 9 .TS center box; lw(108p) | lw(12p) | lw(108p) . _ .TE .TS center box ; lw(48p) | lw(24p) | lw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . { Command document user information \(ra } Correct user info. { Response document general reject \(ra } Reflect parameter values .T& lw(48p) | lw(24p) | cw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . { Tester sends \(da\ (Testcase) } \fB.\fR CI LI 0 0 1 0 \fB.\fR XXXXXXXX XXXXXXXX { Tester sends \(da\ (Testcase) } \fB.\fR RI LI 0 X 0 X { \fB.\fR PI LI PV 3 X X 1 X X M M M } _ .T& lw(48p) | lw(24p) | cw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . V 1 Normal 0 0 1 0 XXXXXXXX XXXXXXXX V 1 With parameter 0 X 0 X 3 0 X 1 1 X _ .T& lw(48p) | lw(24p) | cw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . V 2 LI three octets *** 0 F00 1 F00 \fB.\fR XXXXXXXX XXXXXXXX V 2 With parameter \fB.\fR 0 X 0 X \fB.\fR 3 X (X) 1 X _ .T& lw(48p) | lw(24p) | cw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . _ .T& lw(48p) | lw(24p) | cw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . I 1 CLI not equal 00 * 0 E 1 E \fB.\fR XXXXXXXX XXXXXXXX .T& lw(48p) | lw(24p) | cw(36p) | lw(12p) | lw(48p) | lw(24p) | lw(36p) . I 2 Without user inform. \fB.\fR 0 0 1 0 ******** \(em .TE .nr PS 9 .RT .ad r \fBTableau [T46.64], p.\fR .sp 1P .RT .ad b .RT .LP .bp