1、ETSI EN 300 394-4- 1 1 VI .I .I (2001-01) European Standard (Telecommunications series) Terrestrial Trunked Radio (TETRA); Conformance testing specification; Part 4: Protocol testing specification for Direct Mode Operation (DMO); Sub-part 11 : Test Suite Structure and Test Purposes (TSS Essential, o
2、r potentially Essential, IPRs notified to ETSI in respect of ETSI standards“, which is available from the ETSI Secretariat. Latest updates are available on the ETSI Web server ClattD:/www.etsP.c/iDr. Pursuant to the ETSI IPR Policy, no investigation, including IPR searches, has been carried out by E
3、TSI. No guarantee can be given as to the existence of other IPRs not referenced in ETSI SR O00 314 (or the updates on the ETSI Web server) which are, or may be, or may become, essential to the present document. Foreword This European Standard (Telecommunications series) has been produced by ETSI Pro
4、ject Terrestrial Trunked Radio (TETRA). The present document had been submitted to Public Enquiry as ETS 300 394-4-11. During the processing for Vote it was converted into an EN. The present document is part 4 of a multi-part deliverable covering Terrestrial Trunked Radio (TETRA); Conformance testin
5、g specification, as identified below: Part 1: “Radio“; Part 2: Part 3: Part 4: Part 5: “Security“. “Protocol testing specification for Voice plus Data (V+D)“; “Protocol testing specification for Packet Data Optimized (PDO)“; “Protocol testing specification for Direct Mode Operation (DMO)“; National
6、transposition dates Date of adoption of this EN Date of latest announcement of this EN (doa): Date of latest publication of new National Standard or endorsement of this EN (dop/e): Date of withdrawal of any conflicting National Standard (dow): 22 December 2000 31 March 2001 30 September 2001 30 Sept
7、ember 2001 ETSI 6 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01) 1 Scope The present document contains the Test Suite Structure (TSS) and Test Purposes (TPs) to test the TETRA Direct Mode Operation (DMO) protocols. The present document is divided into several parts, each one dealing with a stack of protoco
8、ls which includes layer 3 and layer 2 protocols. This present part 4, sub-part 11 deals with TSS Technical requirements for Direct Mode Operation (DMO); Part 4: Type 1 repeater air interface“. ISO/IEC 9646-1: “Information technology - Open Systems Interconnection - Conformance testing methodology an
9、d framework - Part 1: General concepts“. ISO/IEC 9646-2: “Information technology - Open Systems Interconnection - Conformance testing methodology and framework - Part 2: Abstract test suite specification“. ETSI ETS 300 406: “Methods for Testing and Specification (MTS); Protocol and profile conforman
10、ce testing specifications; Standardization methodology“. ETSI EN 300 396-7: “Terrestrial Trunked Radio (TETRA); Technical requirements for Direct Mode Operation (DMO); Part 7: Type 2 repeater air interface“. ETSI EN 300 396-8-4: “Terrestrial Trunked Radio (TETRA); Technical requirements for Direct M
11、ode Operation (DMO); Part 8: Protocol Implementation Conformance Statement (PICS) proforma specification; Sub-part 4: Type 2 repeater Air Interface (AI)“. 121 131 141 151 161 ETSI 7 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01) 3 Def i n it ions and abbreviations 3.1 TETRA d ef i nit ions For the purposes
12、 of the present document, the terms and definitions given in EN 300 396-7 5 apply. 3.2 ISO/IEC 9646 abbreviations For the purposes of the present document, the following ISOAEC 9646-1 2 abbreviations apply: ICs IUT IXIT PDU PICS PIXIT TP TSS Implementation Conformance Statement Implementation Under
13、Test Implementation extra Information for Testing Protocol Data Unit Protocol Implementation Conformance Statement Protocol Implementation extra Information for Testing Test Purpose Test Suite Structure 3.3 TETRA abbreviations For the purposes of the present document, the following TETRA abbreviatio
14、ns apply: CM DMCC DMO FCS MAC MNI MS Rx SDS SDU TX Circuit Mode Direct Mode Call Control Direct Mode of Operation Frame Check Sequence Medium Access Control Mobile Network Identity Mobile Station Receiver Short Data Services Service Data Unit Transmitter ETSI 8 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01
15、) 4 4.1 Test Suite Structure (TSS) DMCC layer test groups The first level separates the DMCC layer (or layer 3) in different protocols (Circuit mode, Short Data Service). Next level splits protocol testing into functional test groups according to the type of testing: Capability test (CA), Valid Beha
16、viour (BV) and Timer tests (TI). Further level classifies the possible operations in each protocol condition or state. The following list defines the DMCC layer test group names and identifiers used for those: - MS-REP2 Direct Mode Call Control (DMOMSREP2OMCC) - Circuit mode (CM) - Capability tests
17、(CA) - Valid Behaviour tests (BV) - from Idle state(1D) - - - - from TX Reservation (TR) - from Idle state, channel busy (IB) from TX occupation State (TXO) from RX occupation State (RO) from RX Reservation State (RR) - Timer Tests (TI) - Short Data Service (SDS) - Capability tests (CA) - Valid Beha
18、viour tests (BV) - from Idle state(1D) - - - from TX Reservation (TR) - from Idle state, channel busy (IB) from RX occupation State (RO) from RX Reservation State (RR) - Timer Tests (TI) ETSI 9 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01) 4.2 MAC layer test groups The first level of the MAC test groups s
19、eparates the MAC test suite in functional test groups: CA, BV and TI. The second level of the test subgroups is a division of protocol requirements into functional entities. The following list defines the MAC layer test group names and identifiers: - MS-REP2 MAC layer (DMOMSREP2MAC) - Capability tes
20、ts (CA) - Valid behaviour tests (BV) - Channel usage (Cu - Signalling messages (SM) - Traffic mode (TM) - Timer tests (TI) 4.3 Test g roup descri pt ion Capability (CA) tests provide limited testing that the observable capabilities of the IUT are in accordance with the conformance requirements and t
21、he additional capabilities claimed in the PICSPIXIT. The Valid Behaviour (BV) group tests an IUT in response to valid behaviour of the test system. “Valid“ means that a test event is syntactically and contextually correct. All test cases in the valid behaviour group are intended to verify as thoroug
22、hly as possible the various functions of the protocol. Different timers are defined to supervise the various state transitions. The Timer (TI) test group is intended to verify that the IUT is reacting properly to an expiry of one of the timers or to a counter mismatch. ETSI 10 ETSI EN 300 394-4-1 1
23、V1.l.l (2001 -01) TP-Name The TP name is a unique identifier, specified according to the TP naming conventions defined in the clause below. (it is also the name of the corresponding test case) 5 Introduction to Test Purposes (TPs) The test purposes for DMCC layer and MAC layer are defined in clause
24、6 of the present document. Each layer leads to Reference: reference to the clause number of specification EN 300 396-7 5 stating this conformance requirement. For example: EN 300 396-7 5, 6.2.5.1 a different test suite. Pur pose Test description Pass criteria Selection Preamble Postam ble 5.1 Test p
25、urpose definition conventions purpose of the test itself, indicating for example the test performed against a requirement of the protocol, described by this test purpose. Example: test of changeover initiated from RX reservation state body of the test visible action to be observed at PCO to declare
26、that the IUT passes the test and conforms to the specifications expression based on EN 300 396-8-4 6 PICS statements, used to select or deselect the corresponding test case according to the options of the implementation “None“ or name of the preamble procedure bringing the IUTfrom idle state to the
27、state required to run the test. For example: idleto-RX-reservation “None“ or name of the postamble to bring the IUT back to idle state, for exam pl e: RX-occu pati ont o- d I e 5.1 .I TPs descriptions Each TP is described using text presented in a table. The table contains the following information:
28、 Table 1 The preambles and postambles are described using MSCs and are shown in the following clauses. 5.1.2 Preamble descriptions Preambles are used to bring the IUT from the idle state to the state where the test takes place. As the protocol has different options, as for instance the use of presen
29、ce check or the absence of presence check, there are several ways to reach a given state. The preamble has to be chosen according to the IUT capabilities and the implemented options. ETSI 11 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01) 5.1.2.1 Preamble idle-to-TX-occupation: From Idle state to Call Activ
30、e TX Occupation With presence check. I I* PREAMBLE: Bring the IUT from state IDLE to state TX-OCCUPATION when set-up with presence check supported *I I UT T n IDLEE I/ DM-SETU P T CY OCCUPATI N Figure 2 ter 1 ETSI 13 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01) 5.1.2.2 Preamble idle-to-TX-reservation: Fr
31、om Idle state to Call Active TX Reservation With presence check. I I* PREAMBLE: Bring the IUT from state IDLE to state TX-RESERVATION when set-up with presence check is supported *I 1 IUT 1 T n IDLEE ter 1 Figure 10 5.1.3.2 Postamble TX-reservation-to-idle: From Call Active TX Reserved state to Idle
32、 I* POSTAMBLE: Bring the IUT from state TX RESERVED to state IDLE caused by a DMCC-RELEASE *I 1 IUT 1 T P X RESERVE DM-RELEASE Figure 11 ter 1 ETSI 19 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01) 5.1.3.3 Postamble RX-occupation-to-idle: From Call Active RX Occupation state to Idle POSTAMBLE: Bring the IU
33、T from state RX OCCUPATION to state IDLE 1 IUT 1 Te 0 OCCUPATI I Figure 12 ter 1 5.1.3.4 Postamble RX-reservation-to-idle: From Call Active RX Reserved state to Idle I I* POSTAMBLE: Bring the IUT from state RX RESERVED to state IDLE *I I UT 0 X RESERVE Te I ter 1 Figure 13 ETSI 20 ETSI EN 300 394-4-
34、1 1 V1.l.l (2001 -01) 5.2 Test purpose naming conventions The identifier of the test purpose is built according to table 2. Table 2: Test purpose naming convention DMO/slfmlssltlsglnn I = test suite type MSREP2 = functional module or subentity (layer 3 only) =test group tt = Type of testing =test su
35、bgroup DMCC MAC letters such as: CM SDS CA BV BI TI two letters MS-Repeater type 2 Direct Mode Call Control (layer 3) Upper MAC (layer 2) abbreviation of the group name (optional) Circuit Mode (layer 3) Short Data Service (layer 3) Capability Tests Valid Behaviour Tests Invalid Behaviour Tests Timer
36、 expiry and counter mismatch tests subgroup name (optional) lani = sequential number o1 -99 Test Purpose Number 5.3 Selection expressions A test case, based on a test purpose described here, can be selected or deselected from the test suite, according to the evaluation of selection expressions which
37、 reflect the capabilities supported or not by the implementation under test. It appears that some selection expressions are quite complex, mainly the ones used for the MAC layer test suite, as they are based on a rather long combination of PICS statements. To ease the readability of the test purpose
38、s, these complex selection expressions are replaced by generic names which are defined here, and which represent by definition the selection expression themselves. ETSI 21 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01) Selection expression identifier Table 3 defines the generic names together with the cond
39、itions associated with each one. Selection expression I using references to Static capabilities associated with this selection Table 3 iitiate-CM-call (EN 300 396-8-4 6) A.411 OR iitiate-SDS-cal I iitiate-CM-or-SDScalI leceive-Ackd-CM-or-SDS .call A.511 OR A.512 A.911 OR A. 1 Oll OR A. 1 012 OR A. 1
40、 013 A.411 OR A.511 OR A.512 OR A.911 OR A. 1 Oll OR A. 1 012 OR A. 1 013 A.316 OR A. 1 212 OR A. 1 213 Initiate group CM call or Initiate individual CM call without presence check or Initiate individual CM call with presence check Send group unacknowledged SDS or Send individual unacknowledged SDS
41、or Send acknowledged SDS or Sending acknowledged SDS with data in ACK Initiate group CM call or Initiate individual CM call without presence check or Initiate individual CM call with presence check or Send group unacknowledged SDS or Send individual unacknowledged SDS or Send acknowledged SDS or Sen
42、d acknowledged SDS with data in ACK Accept CM call setup with presence check, Receive acknowledged SDS, Receive acknowledged SDS with data in ACK ETSI 22 ETSI EN 300 394-4-1 1 V1.l.l (2001 -01) DMO-MSREP2-DMCC-CM-CA-O1 6 Reference: EN 300 396-4 l, 6.2.1.1, 6.2.4.1 6.1 Pur pose Test description Pass
43、criteria 1 Test descriDtion DMO MS-REP2 test purposes Setup and terminate a group call without presence check The tester sends an implicit send to the IUT to cause a call setup The IUT sends DM-SETUP to the tester The tester sends an imolicit send to the IUT to terminate the call DMCC Circuit Mode (
44、CM) tests Pass criteria 2 Selection EN 300 396-8-4 r6i Test group objective: To test the behaviour of the DMCC CM entity of the IUT. The IUT sends DM-TX CEASED to the tester A.4/1 Setup procedure, group call address Condition: IUT implements the CM. DMO-M SREP2-DM CC-CM-CA-O2 6.1 .I MS-REP2 CM capab
45、ility tests Reference: EN 300 396-4 l, 6.2.2.1, 6.2.4.1 Pur pose Test description Pass criteria 1 Test description Pass criteria 2 Selection Preamble EN 300 396-8-4 6 Setup and terminate an individual call with presence check The tester sends an implicit send to the IUT to cause a call setup. The IU
46、T sends DM-SETUP PRES to the tester. The tester sends DM-CONNECT to the IUT The IUT sends DM-CONNECT ACK to the tester The tester sends an implicit send to the IUT to terminate the call The IUT sends DM-TX CEASED to the tester A.5/2 Setup individual call with presence check None DMO-M SREP2-DM CC-CM
47、-CA-O3 Reference: EN 300 396-4 l, 6.2.1.1, 6.2.4.1 Pur pose Test description Pass criteria 1 Test descriDtion Preamble INone Pnntamhle ITX rnnnrvntinn tn idln I Establish and terminate an individual call, when operating without presence check The tester sends an implicit send to the IUT to cause a c
48、all setup The IUT sends DM-SETUP to the tester The tester sends an imolicit send to the IUT to terminate the call M Pass criteria 2 Selection EN 300 396-8-4 r6i ETSI The IUT sends DM-TX CEASED to the tester A.5/1 Setup individual call without presence check 23 DMO-M SREP2-DM CC-CM-CA-O4 ETSI EN 300
49、394-4-1 1 V1.l.l (2001 -01) Reference: EN 300 396-7 5, 6 Handling of a second simultaneous call. Pur pose Test description Pass criteria Selection Preamble Postam ble EN 300 396-8-4 6 Setup a second group call without presence check The tester sends an implicit send to the IUT to cause a call setup. The IUT sends DM-SETUP to the tester. The tester sends a second implicit send to the IUT to cause a second call setup Check that the IUT sends a second DM-SETUP to the tester A.4/1 None TX reservation to idle on each call Setup procedure, group call address D
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