IxANVL : Metro Ethernet Test Suites

Transcription

1 : Metro Ethernet Benefits Saves Time and Money Conformance testing is required to validate that networking devices are compliant with existing standards. This ensures that devices not only support known protocol features correctly, but also that devices will be able to interoperate with other devices in the network. Ixia's (Automated Network Validation Library) is the industry standard for automated network/protocol validation. Developers and manufacturers of networking equipment and Internet devices rely on to validate protocol compliance and interoperability. Many customers have chosen for its ease-of-use, enhanced GUI, and flexible test automation capabilities. In addition, offers a veritable universe of protocol libraries and utilities. has several test suites that cover various networking technologies and protocols. s metro Ethernet test suites provide conformance testing for such technologies and standards as CFM, OAM, MEF9, and MEF21. An example test topology for CFM is shown in the figure below: allows vendors to verify the design during their product s entire life-cycle. Problems can be identified earlier so as to prevent costly last-minute reworks. emulates large, multi-node networks that previously were cost prohibitive, resulting in more efficient tests and quicker product release times. Increases Confidence increases confidence in product quality by enabling extensive and thorough testing, performed automatically and without supervision. 's test results allow users to: Determine exactly where a device's protocol software does and does not meet the specification Observe how well the device handles traffic from noncomplying network components Determine how new development effects existing code, via regression testing Expands Easily With a source code license, users can easily add new interface types, protocols, and/or test cases to their system. Supports More Protocols Figure 1: CFM test In this topology: AIface-0 is connected to DIface-0 One down MEP is configured on DIface-0 ANVL simulates one MEP and 2 MIPs supports a comprehensive list of protocols, including unicast/multicast routing, bridging, IPv6, VPN, MPLS, PPP, TCP/IP, RMON, voice over IP, metro Ethernet, and IP storage Agoura Road Calabasas, CA USA Tel Document No.: Rev M December Page 1

2 An example test topology for OAM is shown in the figure below: Figure 2: OAM test In this topology, ANVL emulates two switches, PASSIVE-OBJ1 and PASSIVE-OBJ2 connected to two different ports of DUT through <DIface-0> and <DIface-1> respectively. Coverage s metro Ethernet test suite includes the following protocol test options. Ethernet CFM P802.1ag/D8.1, Feb 2007: Draft Standard for Local and Metropolitan Area Networks -Virtual Bridged Local Area Networks- Amendment 5: Connectivity Fault Management Sections: Ethernet CFM features: Setup/Verification s Connectivity Fault Management (optional) 246 (11 negative) outputs Maintenance Domains and Domain Service Access Points Service instances and Maintenance Associations Maintenance Domain levels Principles of Connectivity Fault Management Operation MEP identification MHF Functions Defects and Fault Alarms Loopback Message Transmission Page 2

3 LinkTrace Message Orientation rmepwhile CCI Enabled xmitccm() CCMSequenceErrors MEPprocessEqualCCM() rmepplastportstate ProcessLBM() LBMsToSend ProcessLBR() ltrflags ProcessLTR() LTM is received by down MEP PDU Transmission source_address parameter MD Level Organistation Specific TLV First TLV Offset Flags Flags Flags Ethernet OAM IEEE Std 802.3AH draft-ietf-hubmib-efm-mib-06.txt Ethernet OAM features: Setup/Verification s 166 (1 Negative) Functional s Detailed Functions and State Diagrams OAMPDUs OAM TLVs Variables OAM Objects (Variable Request And Response s) Page 3

4 OAM MIB (SNMP s) Ethernet Service OAM (Y.1731) ITU-T Y Ethernet Service OAM (Y.1731) features: Setup Verification Ethernet Continuity Check (ETH-CC) Ethernet Loopback Ethernet LinkTrace Ethernet Alarm Indication signal Ethernet Locked Signal Ethernet Signal Frame Loss measurement 7.4 Frame Delay Measurement CCM PDU LBM/LBR PDU Page 4

5 LTM/LTR PDU AIS/LCK/TST/LMM/LMR/ID M/DMM/DMR PDU OAM Frame address MEF E-LMI MEF 16 Ethernet Local Management Interface (E-LMI) sections: MEF E-LMI features: E-LMI Framing Mechanism EVC Status (New, Active, Not Active, Partially Active) General Message Format and Information Element Coding E-LMI STATUS and Page 5

6 STATUS ENQUIRY Messages-1 E-LMI STATUS and STATUS ENQUIRY Messages-2 E-LMI Message Elements protocol version, Message Type and Information Elements E-LMI Message Elements - Information Elements Continued E-LMI Message Elements sub Information Elements E-LMI Procedures system parameters,periodic polling and Sequence Numbers E-LMI Procedures Full status,full status contd,asynchronous Status,Data Instance,Reporting a New EVC Error Procedures Handling of Error Conditions E-LMI Operational Status Determination Page 6

7 MEF9 Metro Ethernet Forum s MEF9, MEF10 MEF9 features: EPl:NON LOOPING FRAME DELIVERYCE-VLAN ID Preservation =YES EPL:EVC LEAKAGECE-VLAN ID Preservation =YES 247 IOMETRIX Plan for Ethernet Service at the UNI, Release 1.4 EPL:EVC LEAKAGE(IDENTICAL MAPPING)CE-VLAN ID Preservation =YES EPL:SERVICE FRAME DISCARD L2CPCE-VLAN ID Preservation =YES EPL:CE-VLAN ID PRESERVATION UNTAGGED-VLAN ID Preservation =YES EPL:CE-VLAN ID PRESERVATION EPl:CE-VLAN COS PRESERVATIONCE-VLAN ID Preservation =YES EPL:EVC L2CPPROCESSINGCE-VLAN ID Preservation =YES EPL UNI PHYSICAL LAYERCE-VLAN ID Preservation =YES EPL:UNI MAC LAYERCE-VLAN ID Preservation =YES EPL:UNI EVC SUPPORTCE- VLAN ID Preservation =YES EPL:UNI ALL TO ONE BUNDLING AND CE-VLAN ID PRESERVATIONCE-VLAN ID Preservation =YES EPL:UNI L2CP PROCESSING DISCARDCE-VLAN ID Preservation =YES EPL:UNI L2CP PEERCE-VLAN ID Preservation =YES EVPL: NON-LOOPING FRAME DELIVERYCE-VLAN ID Preservation =YES for tests:16.1,16.3,16.5,16.7 CE-VLAN ID Preservation =NO for tests:16.2,16.4,16.6,16.8,16.9,16.10,16.11,16.12,16.13, 16.14,16.15,16.16 EVPL:EVC LEAKAGECE-VLAN ID Preservation =YES for tests: 17.1,17.3,17.5,17.7 CE-VLAN ID Preservation =NO for tests:17.2,17.4,17.6,17.8,17.9,17.10,17.11,17.12,17.13, 17.14,17.15,17.16 EVPL:EVC LEAKAGECE-VLAN ID Preservation =YES for tests: 18.1,18.3,18.5,18.7 CE-VLAN ID Preservation =NO for tests:18.2,18.4,18.6,18.8,18.9,18.10,18.11,18.12,18.13, 18.14,18.15,18.16 EVPL: SERVICE FRAME DISCARD L2CPCE-VLAN ID Preservation = NOT SPECIFIED EVPL: CE-VLAN IDPRESERVATIONCE-VLAN IDPreservation = YES EVPL: CE-VLAN COS PRESERVATION - UNTAGGEDCE-VLAN Page 7

8 ID Preservation = YES for tests 25.1CE-VLAN ID Preservation = NO for tests 25.2 EVPL: EVC L2CP PROCESSINGCE-VLAN ID Preservation = NOT SPECIFIED EVPL: UNI PHYSICAL LAYERCE-VLAN ID Preservation = NO EVPL: UNI MAC LAYERCE-VLAN ID Preservation = YES for tests:28.1,28.3,28.5ce-vlan ID Preservation = NO for tests:28.2,28.4,28.6,28.7,28.8,28.9,28.10,28.11,28.12 EVPL: UNI SERVICE MULTIPLEXING OF POINT-TO-POINT EVCsCE-VLAN ID Preservation = YES for tests:29.1 CE-VLAN ID Preservation = NO for tests:29.2 EVPL: CE-VLAN ID FOR UNTAGGED & PRIORITYTAGGED SERVICE FRAMECE-VLAN ID Preservation = NO EVPL: CE-VLAN ID/EVC MAP SERVICE FRAME DISCARD CE- VLAN ID Preservation = YES for tests :31.1CE-VLAN ID Preservation = NO for tests:31.2 EVPL: UNI EVC SUPPORTCE-VLAN ID Preservation = NO EVPL: MAXIMUM NUMBER OF EVCCE-VLAN ID Preservation = YES for tests:33.1ce-vlan ID Preservation = NO for test:33.2 EVPL: UNI BUNDLING & CE-VLAN ID PRESERVATIONCE- VLAN ID Preservation = YES EVPL: UNI ALL TO ONE BUNDLING ANDCE-VLAN ID PRESERVATIONCE-VLAN ID Preservation = YES EVPL: UNI L2CP PROCESSING DISCARDCE-VLAN ID Preservation = NOT SPECIFIED EVPL: UNI L2CP PROCESSING PEERCE-VLAN ID Preservation = NOT SPECIFIED E-LAN: NON-LOOPING FRAME DELIVERYCE-VLAN ID Preservation = YES for tests:38.1,38.3,38.5,38.7ce-vlan ID Preservation = NO for tests:38.2,38.4,38.6,38.8,38.9,38.10,38.11,38.12,38.13, 38.14,38.15,38.16 E-LAN: EVC LEAKAGECE-VLAN ID Preservation = YES for 39.1,39.3,39.5,39.7 CE-VLAN ID Preservation = NO for tests:39.2,39.4,39.6,39.8,39.9,39.10,39.11,39.12,39.13, 39.14,39.15,39.16 E-LAN: EVC LEAKAGECE-VLAN ID Preservation = YES for 40.1,40.3,40.5,40.7CE-VLAN ID Preservation = NO for tests:40.2,40.4,40.6,40.8,40.9,40.10,40.11,40.12,40.13, 40.14,40.15,40.16 E-LAN: EVC LEAKAGE(IDENTICAL MAPPING)CE-VLAN ID Preservation = YES CE-VLAN ID Preservation = NO Page 8

9 E-LAN: SINGLE COPY BROADCAST SERVICE FRAME DELIVERY IN MP TO MP EVCCE-VLAN ID Preservation = NO E-LAN: SERVICE FRAME DISCARD L2CPCE-VLAN ID Preservation = NOT SPECIFIED E-LAN: SERVICE FRAME CONDITIONAL DELIVERYCE-VLAN ID Preservation = NO E-LAN: CE-VLAN ID PRESERVATIONCE-VLAN ID Preservation = YES E-LAN: CE-VLAN COS PRESERVATION - UNTAGGEDCE- VLAN ID Preservation = YES for tests:49.1ce-vlan ID Preservation = NO for tests:49.2 E-LAN: EVC L2CP PROCESSINGCE-VLAN ID Preservation = NOT SPECIFIED E-LAN: UNI PHYSICAL LAYERCE-VLAN ID Preservation = NO E-LAN: UNI MAC LAYERCE-VLAN ID Preservation = YES for tests:52.1,52.3,52.5ce-vlan ID Preservation = NO for tests:52.2,52.4,52.6,52.7,52.8,52.9,52.10,52.11,52.12 E-LAN: UNI SERVICE MULTIPLEXING OF MULTIPOINT-TO- MULTIPOINT EVCsCE-VLAN ID Preservation = YES for tests:53.1ce-vlan ID Preservation = NO for 53.2 E-LAN: UNI SERVICE MULTIPLEXING OF POINT-TO-POINT AND MULTIPOINT-TO-MULTIPOINT EVCsCE-VLAN ID Preservation = YES for tests:54.1ce-vlan ID Preservation = NO for tests:54.2 E-LAN: CE-VLAN ID FOR UNTAGGED & PRIORITY TAGGED SERVICE FRAMESCE-VLAN ID Preservation = NO E-LAN: CE-VLAN ID/EVC MAP SERVICE FRAMES DISCARDCE-VLAN ID Preservation = YES for tests 56.1 CE- VLAN ID Preservation = NO for tests:56.2 E-LAN: UNI EVC SUPPORTCE-VLAN ID Preservation = NO E-LAN: MAXIMUM NUMBER OF EVCSCE-VLAN ID Preservation = YES for tests:58.1ce-vlan ID Preservation = NO for tests:58.2 E-LAN: UNI BUNDLING & CE-VLAN ID PRESERVATIONCE- VLAN ID Preservation = YES EVPL: UNI ALL TO ONE BUNDLING AND CE-VLAN ID PRESERVATIONCE-VLAN ID Preservation = YES E-LAN: UNI L2CP PROCESSING DISCARDCE-VLAN ID Preservation = NOT SPECIFIED E-LAN: UNI L2CP PROCESSING PEERCE-VLAN ID Preservation = NOT SPECIFIED Page 9

10 MEF21 OAM MEF21 Abstract Suite for UNI Type 2 MEF21 OAM features: OAM Functional s (UNI-C) OAM PDUs s (UNI-C) OAM Local Information TLVs s (UNI-C) OAM Remote Information TLVs s (UNI-C) Link Event TLVs s (UNI-C) OAM Additional Conformance s (UNI-C) OAM Functional s s (UNI-N) OAM PDUs s (UNI-N) OAM Local Information TLVs s (UNI-N) Remote Information TLVs s (UNI-N) Link Event TLVs s (UNI-N) OAM Additional Conformance s (UNI-N) OAM Event Notification Generation And Reception(UNI-C) OAM Organisation Specific Information TLVs(UNI-C) Variable Descriptors & Containers(UNI-C) OAM Event Notification Generation And Reception(UNI-N) OAM Organisation Specific Information TLVs(UNI-N) Variable Descriptors & Containers(UNI-N) CE2.0 Carrier Ethernet 2.0 Plan - Part 1: Services Attributes - Version 1.0 Carrier Ethernet 2.0 Plan - Part 2: Traffic Management - Version 2.0 CE2.0 features: Service Attribute ELINE Non-looping Frame Delivery - Tagged - Broadcast Non-looping Frame Delivery - Tagged - Multicast Non-looping Frame Delivery - Tagged - Unicast Non-looping Frame Delivery - Tagged - Unknown DA EVC Leakage Identical Mapping - Tagged - Broadcast EVC Leakage Identical Mapping - Tagged - Multicast EVC Leakage Identical Mapping - Tagged - Unicast 568 (E-LINE 154, E- LAN 131, E- ACCESS 183, E- TREE 100) EVC Leakage Identical Mapping - Tagged - Unknown DA Service Frame with Invalid FCS - Discard L2CP Service Frames - Must Not Tunnel - EPL Option 1 CE-VLAN ID Preservation - Untagged CE-VLAN ID Preservation - Tagged Page 10

11 CE-VLAN ID Preservation - Priority Tagged CE-VLAN CoS Preservation - Tagged CE-VLAN CoS Preservation - Priority Tagged L2CP Service Frames - Must Tunnel - EPL Option 1 L2CP Service Frames - Must Tunnel - EPL Option 2 UNI Physical Layer, Mode and Speed UNI MAC Layer and MTU Size UNI MAC Layer and Minimum Frame Size Maximum Number of EVCs Per UNI = 1 All to One Bundling & CE-VLAN ID Preservation Service OAM Continuity Check Messages CCM - Must Tunnel Service OAM Multicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBR - Must Tunnel Service OAM Linktrace Messages LTM - Must Tunnel Service OAM Linktrace Messages LTR - Must Tunnel Non-looping Frame Delivery - Tagged Broadcast Non-looping Frame Delivery - Tagged - Multicast Non-looping Frame Delivery - Tagged - Unicast Non-looping Frame Delivery - Tagged - Unknown DA EVC Leakage Identical Mapping - Tagged - Broadcast EVC Leakage Identical Mapping - Tagged - Multicast EVC Leakage Identical Mapping - Tagged - Unicast EVC Leakage Identical Mapping - Tagged - Unknown DA EVC Leakage Different Mapping - Tagged - Broadcast EVC Leakage Different Mapping - Tagged - Multicast EVC Leakage Different Mapping - Tagged - Unicast EVC Leakage Different Mapping - Tagged - Unknown DA Service Frame with Invalid FCS - Discard L2CP Service Frames - Must Not Tunnel Service Frame Transparency - Tag Exception 1 (Untagged to Tagged) Service Frame Transparency - Tag Exception 2 (Tagged to Untagged) Service Frame Transparency - Tag Exception 2 (Priority Tagged to Untagged) Page 11

12 Service Frame Transparency - Tag Exception 3 (Tagged X to Tagged Y) Service Frame Transparency - Tag Exception 3 (Priority Tagged to Tagged) CE-VLAN ID Preservation - Tagged CE-VLAN CoS Preservation - Tagged UNI Physical Layer, Mode and Speed UNI MAC Layer and MTU Size UNI MAC Layer and Minimum Frame Size Service Multiplexing of Point-to-Point EVCs CE-VLAN ID for Untagged and Priority Tagged Service Frames - Tagged CE-VLAN ID for Untagged and Priority Tagged Service Frames - Priority Tagged CE-VLAN ID for Untagged and Priority Tagged Service Frames - Untagged CE-VLAN ID/EVC Map - Service Frame Discard Maximum Number of EVCs per UNI 1 (1 EVC per UNI) Maximum Number of EVCs per UNI 1 (8 EVCs per UNI) Maximum Number of EVCs per UNI 1 (64 EVCs per UNI) Maximum Number of EVCs per UNI 1 (512 EVCs per UNI) UNI Bundling & CE-VLAN ID Preservation (2 CE-VLAN IDs per EVC) UNI Bundling & CE-VLAN ID Preservation (8 CE-VLAN IDs per EVC) UNI Bundling & CE-VLAN ID Preservation (64 CE-VLAN IDs per EVC) UNI Bundling & CE-VLAN ID Preservation (512 CE-VLAN IDs per EVC) Service OAM Continuity Check Messages CCM - Must Tunnel Service OAM Multicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBR - Must Tunnel Service OAM Linktrace Messages LTM - Must Tunnel Service OAM Linktrace Messages LTR - Must Tunnel ELAN Page 12

13 Non-looping Frame Delivery - Tagged - Broadcast Non-looping Frame Delivery - Tagged - Multicast Non-looping Frame Delivery - Tagged - Unicast Non-looping Frame Delivery - Tagged - Unknown DA EVC Leakage Identical Mapping - Tagged - Broadcast EVC Leakage Identical Mapping - Tagged - Multicast EVC Leakage Identical Mapping - Tagged - Unicast EVC Leakage Identical Mapping - Tagged - Unknown DA Single Copy Broadcast Service Frame Delivery In Multipoint EVC Single Copy Multicast Service Frame Delivery In Multipoint EVC Single Copy Unknown DA Service Frame Delivery In Multipoint EVC Service Frame with Invalid FCS - Discard L2CP Service Frames - Must Not Tunnel Service Frame Conditional Delivery CE-VLAN ID Preservation - Untagged CE-VLAN ID Preservation - Tagged CE-VLAN ID Preservation - Priority Tagged CE-VLAN CoS Preservation - Tagged CE-VLAN CoS Preservation - Priority Tagged L2CP Service Frames - Must Tunnel UNI Physical Layer, Mode and Speed UNI MAC Layer and MTU Size UNI MAC Layer and Minimum Frame Size Maximum Number of EVCs per UNI= 1 All to One Bundling & CE-VLAN ID Preservation Service OAM Continuity Check Messages CCM - Must Tunnel Service OAM Multicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBR - Must Tunnel Service OAM Linktrace Messages LTM - Must Tunnel Service OAM Linktrace Messages LTR - Must Tunnel Non-looping Frame Delivery - Tagged - Broadcast Non-looping Frame Delivery - Tagged - Multicast Non-looping Frame Delivery - Tagged - Unicast Non-looping Frame Delivery - Tagged - Unknown DA Page 13

14 EVC Leakage Identical Mapping - Tagged - Broadcast EVC Leakage Identical Mapping - Tagged - Multicast EVC Leakage Identical Mapping - Tagged - Unicast EVC Leakage Identical Mapping - Tagged - Unknown DA EVC Leakage Different Mapping - Tagged - Broadcast EVC Leakage Different Mapping - Tagged - Multicast EVC Leakage Different Mapping - Tagged - Unicast EVC Leakage Different Mapping - Tagged - Unknown DA Single Copy Broadcast Service Frame Delivery In Multipoint EVC Single Copy Multicast Service Frame Delivery In Multipoint EVC Single Copy Unknown DA Service Frame Delivery In Multipoint EVC Service Frame with Invalid FCS - Discard L2CP Service Frames - Must Not Tunnel Service Frame Conditional Delivery Service Frame Transparency - Tag Exception 1 (Untagged to Tagged) Service Frame Transparency - Tag Exception 2 (Tagged to Untagged) Service Frame Transparency - Tag Exception 2 (Priority Tagged to Untagged) Service Frame Transparency - Tag Exception 3 (Tagged X to Tagged Y) Service Frame Transparency - Tag Exception 3 (Priority Tagged to Tagged) CE-VLAN ID Preservation - Tagged CE-VLAN CoS Preservation - Tagged UNI Physical Layer, Mode and Speed UNI MAC Layer and MTU Size UNI MAC Layer and Minimum Frame Size Service Multiplexing of Multipoint-to-Multipoint EVCs Service Multiplexing of Point-to-Point and Multipoint-to-Multipoint EVCs CE-CLAN ID for Untagged and Priority Tagged Service Frames - Tagged CE-CLAN ID for Untagged and Priority Tagged Service Frames - Priority Tagged CE-CLAN ID for Untagged and Priority Tagged Service Frames - Page 14

15 Untagged CE-VLAN ID/EVC Map - Service Frame Discard Maximum Number of EVCs per UNI 1 (1 EVC per UNI) Maximum Number of EVCs per UNI 1 (8 EVCs per UNI) Maximum Number of EVCs per UNI 1 (64 EVCs per UNI) Maximum Number of EVCs per UNI 1 (512 EVCs per UNI) UNI Bundling & CE-VLAN ID Preservation (2 CE-VLAN IDs per EVC) UNI Bundling & CE-VLAN ID Preservation (8 CE-VLAN IDs per EVC) UNI Bundling & CE-VLAN ID Preservation (64 CE-VLAN IDs per EVC) UNI Bundling & CE-VLAN ID Preservation (512 CE-VLAN IDs per EVC) Service OAM Continuity Check Messages CCM - Must Tunnel Service OAM Multicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBR - Must Tunnel Service OAM Linktrace Messages LTM - Must Tunnel Service OAM Linktrace Messages LTR - Must Tunnel EACCESS CE-VLAN ID for Untagged and Priority Tagged Frames - Broadcast - UNI to ENNI CE-VLAN ID for Untagged and Priority Tagged Frames - Broadcast - ENNI to UNI CE-VLAN ID for Untagged and Priority Tagged Frames - Multicast - UNI to ENNI CE-VLAN ID for Untagged and Priority Tagged Frames - Multicast - ENNI to UNI CE-VLAN ID for Untagged and Priority Tagged Frames - Unicast - UNI to ENNI CE-VLAN ID for Untagged and Priority Tagged Frames - Unicast - ENNI to UNI OVC Maximum Transmission Unit Size - UNI to ENNI OVC Maximum Transmission Unit Size - ENNI to UNI CE-VLAN ID Preservation - UNI to ENNI Unicast, Multicast and Broadcast Unconditional Frame Delivery - Page 15

16 UNI to ENNI Unicast, Multicast and Broadcast Unconditional Frame Delivery - ENNI to UNI Service OAM Continuity Check Messages Handling - UNI to ENNI Service OAM Continuity Check Messages Handling - ENNI to UNI Service OAM Linktrace Messages LTM Handling - UNI to ENNI Service OAM Linktrace Messages LTM Handling - ENNI to UNI Service OAM Linktrace Messages LTR Handling - UNI to ENNI Service OAM Linktrace Messages LTR Handling - ENNI to UNI Service OAM Multicast Loopback Messages LBM Handling - UNI to ENNI Service OAM Multicast Loopback Messages LBM Handling - ENNI to UNI Service OAM Unicast Loopback Messages LBM Handling - UNI to ENNI Service OAM Unicast Loopback Messages LBM Handling - ENNI to UNI Service OAM Unicast Loopback Messages LBR Handling - UNI to ENNI Service OAM Unicast Loopback Messages LBR Handling - ENNI to UNI CE-VLAN ID for Untagged and Priority Tagged Frames - Broadcast - UNI to ENNI CE-VLAN ID for Untagged and Priority Tagged Frames - Broadcast - ENNI to UNI CE-VLAN ID for Untagged and Priority Tagged Frames - Multicast - UNI to ENNI CE-VLAN ID for Untagged and Priority Tagged Frames - Multicast - ENNI to UNI CE-VLAN ID for Untagged and Priority Tagged Frames - Unicast - UNI to ENNI CE-VLAN ID for Untagged and Priority Tagged Frames - Unicast - ENNI to UNI OVC Maximum Transmission Unit Size - UNI to ENNI OVC Maximum Transmission Unit Size - UNI to ENNI CE-VLAN ID Preservation - UNI to ENNI CE-VLAN ID Preservation - ENNI to UNI CE-VLAN CoS ID Value Preservation - UNI to ENNI Page 16

17 CE-VLAN CoS ID Value Preservation - ENNI to UNI Unicast, Multicast and Broadcast Unconditional Frame Delivery - UNI to ENNI Unicast, Multicast and Broadcast Unconditional Frame Delivery - ENNI to UNI Service OAM Connectivity Check Messages CCM Handling - UNI to ENNI Service OAM Connectivity Check Messages CCM Handling - ENNI to UNI Service OAM Linktrace Messages LTM Handling - UNI to ENNI Service OAM Linktrace Messages LTM Handling - ENNI to UNI Service OAM Linktrace Messages LTR Handling - UNI to ENNI Service OAM Linktrace Messages LTR Handling - ENNI to UNI Service OAM Multicast Loopback Messages LBM Handling - UNI to ENNI Service OAM Multicast Loopback Messages LBM Handling - ENNI to UNI Service OAM Unicast Loopback Messages LBM Handling - UNI to ENNI Service OAM Unicast Loopback Messages LBM Handling - ENNI to UNI Service OAM Unicast Loopback Messages LBR Handling - UNI to ENNI Service OAM Unicast Loopback Messages LBR Handling - ENNI to UNI ETREE Non-looping Frame Delivery - Tagged - Broadcast Non-looping Frame Delivery - Tagged - Multicast Non-looping Frame Delivery - Tagged - Unicast Non-looping Frame Delivery - Tagged - Unknown DA EVC Leakage Identical Mapping - Tagged - Broadcast EVC Leakage Identical Mapping - Tagged - Multicast EVC Leakage Identical Mapping - Tagged - Unicast EVC Leakage Identical Mapping - Tagged - Unknown DA Single Copy Broadcast Service Frame Delivery In Multipoint EVC Single Copy Multicast Service Frame Delivery In Multipoint EVC Single Copy Unknown DA Service Frame Delivery In Multipoint Page 17

18 EVC Service Frame with Invalid FCS - Discard L2CP Service Frames - Must Not Tunnel Service Frame Conditional Delivery CE-VLAN ID Preservation - Untagged CE-VLAN ID Preservation - Tagged CE-VLAN ID Preservation - Priority Tagged CE-VLAN CoS Preservation - Tagged CE-VLAN CoS Preservation - Priority Tagged L2CP Service Frames - Must Tunnel UNI Physical Layer, Mode and Speed UNI MAC Layer and MTU Size UNI MAC Layer and Minimum Frame Size Maximum Number of EVCs per UNI = 1 Service OAM Continuity Check Messages CCM - Must Tunnel Service OAM Multicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBR - Must Tunnel Service OAM Linktrace Messages LTM - Must Tunnel Service OAM Linktrace Messages LTR - Must Tunnel Non-looping Frame Delivery - Tagged - Broadcast Non-looping Frame Delivery - Tagged - Multicast Non-looping Frame Delivery - Tagged - Unicast Non-looping Frame Delivery - Tagged - Unknown DA EVC Leakage Identical Mapping - Tagged - Broadcast EVC Leakage Identical Mapping - Tagged - Multicast EVC Leakage Identical Mapping - Tagged - Unicast EVC Leakage Identical Mapping - Tagged - Unknown DA EVC Leakage Different Mapping - Tagged - Broadcast EVC Leakage Different Mapping - Tagged - Multicast EVC Leakage Different Mapping - Tagged - Unicast EVC Leakage Different Mapping - Tagged - Unknown DA Single Copy Broadcast Service Frame Delivery In Multipoint EVC Single Copy Multicast Service Frame Delivery In Multipoint EVC Single Copy Unknown DA Service Frame Delivery In Multipoint EVC Page 18

19 Service Frame with Invalid FCS - Discard L2CP Service Frames - Must Not Tunnel Service Frame Conditional Delivery Service Frame Transparency - Tag Exception 1 (Untagged to Tagged) Service Frame Transparency - Tag Exception 2 (Tagged to Untagged) Service Frame Transparency - Tag Exception 2 (Priority Tagged to Untagged) Service Frame Transparency - Tag Exception 3 (Tagged X to Tagged Y) Service Frame Transparency - Tag Exception 3 ( Priority Tagged to Tagged CE-VLAN ID Preservation - Tagged CE-VLAN CoS Preservation - Tagged UNI Physical Layer, Mode and Speed UNI MAC Layer and MTU Size UNI MAC Layer and Minimum Frame Size Service Multiplexing of Rooted-Multipoint EVCs CE-VLAN ID for Untagged and Priority Tagged Service Frames - Untagged CE-VLAN ID/EVC Map - Service Frame Discard Maximum Number of EVCs per UNI 1 (1 EVC per UNI) Service OAM Continuity Check Messages CCM - Must Tunnel Service OAM Multicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBM - Must Tunnel Service OAM Unicast Loopback Messages LBR - Must Tunnel Service OAM Linktrace Messages LTM - Must Tunnel Service OAM Linktrace Messages LTR - Must Tunnel Traffic ELINE One-Way Frame Delay Performance - CIR = 3 One-Way Frame Delay Performance - CIR = 9 One-Way Frame Delay Performance - CIR = 15 Page 19

20 One-Way Frame Delay Performance - CIR = 90 One-Way Frame Delay Performance - CIR = 150 One-Way Frame Delay Performance - CIR = 900 One-Way Frame Delay Performance - CIR = 1.5 Gbps One-Way Frame Delay Performance - CIR = 9 Gbps One-Way Mean Frame Delay Performance - CIR = 3 One-Way Mean Frame Delay Performance - CIR = 9 One-Way Mean Frame Delay Performance - CIR = 15 One-Way Mean Frame Delay Performance - CIR = 90 One-Way Mean Frame Delay Performance - CIR = 150 One-Way Mean Frame Delay Performance - CIR = 900 One-Way Mean Frame Delay Performance - CIR = 1.5 Gbps One-Way Mean Frame Delay Performance - CIR = 9 Gbps One-Way Inter-Frame Delay Variation Performance - CIR = 3 One-Way Inter-Frame Delay Variation Performance - CIR = 9 One-Way Inter-Frame Delay Variation Performance - CIR = 15 One-Way Inter-Frame Delay Variation Performance - CIR = 90 One-Way Inter-Frame Delay Variation Performance - CIR = 150 One-Way Inter-Frame Delay Variation Performance - CIR = 900 One-Way Inter-Frame Delay Variation Performance - CIR = 1.5 Gbps One-Way Inter-Frame Delay Variation Performance - CIR = 9 Gbps One-Way Frame Delay Range Performance - CIR = 3 One-Way Frame Delay Range Performance - CIR = 9 One-Way Frame Delay Range Performance - CIR = 15 One-Way Frame Delay Range Performance - CIR = 90 One-Way Frame Delay Range Performance - CIR = 150 One-Way Frame Delay Range Performance - CIR = 900 One-Way Frame Delay Range Performance - CIR = 1.5 Gbps One-Way Frame Delay Range Performance - CIR = 9 Gbps Page 20

21 One-Way Frame Loss Ratio Performance - CIR = 3 One-Way Frame Loss Ratio Performance - CIR = 9 One-Way Frame Loss Ratio Performance - CIR = 15 One-Way Frame Loss Ratio Performance - CIR = 90 One-Way Frame Loss Ratio Performance - CIR = 150 One-Way Frame Loss Ratio Performance - CIR = 900 One-Way Frame Loss Ratio Performance - CIR = 1.5 Gbps One-Way Frame Loss Ratio Performance - CIR = 9 Gbps Ingress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 3 Ingress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 9 Ingress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 15 Ingress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 90 Ingress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 150 Ingress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 900 Ingress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 1.5 Gbps Ingress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 9 Gbps Ingress Bandwidth Profile - CBS Enforcement Range 1 - CIR = 3 Ingress Bandwidth Profile - CBS Enforcement Range 2 - CIR = 15 Ingress Bandwidth Profile - CBS Enforcement Range 3 - CIR = 150 Ingress Bandwidth Profile - CBS Enforcement Range 4 - CIR = 1.5 Gbps Ingress Bandwidth Profile - EIR Enforcement Range 1 - EIR = 3 Ingress Bandwidth Profile - EIR Enforcement Range 1 - EIR = 9 Ingress Bandwidth Profile - EIR Enforcement Range 2 - EIR = 15 Ingress Bandwidth Profile - EIR Enforcement Range 2 - EIR = 90 Page 21

22 Ingress Bandwidth Profile - EIR Enforcement Range 3 - EIR = 150 Ingress Bandwidth Profile - EIR Enforcement Range 3 - EIR = 900 Ingress Bandwidth Profile - EIR Enforcement Range 4 - EIR = 1.5 Gbps Ingress Bandwidth Profile - EIR Enforcement Range 4 - EIR = 9 Gbps Ingress Bandwidth Profile - EBS Enforcement Range 1 - EIR = 3 Ingress Bandwidth Profile - EBS Enforcement Range 2 - EIR = 15 Ingress Bandwidth Profile - EBS Enforcement Range 3 - EIR = 150 Ingress Bandwidth Profile - EBS Enforcement Range 4 - EIR = 1.5 Gbps Ingress Bandwidth Profile per UNI - EVPL Service Ingress Bandwidth Profile per EVC - EPL Service Ingress Bandwidth Profile per EVC - EVPL Service Ingress Bandwidth Profile Per EVC - Identical Mapping Ingress Bandwidth Profile per Class of Service Identifier Based on PCP - EPL Service Ingress Bandwidth Profile per Class of Service Identifier Based on PCP - EVPL Service Ingress Bandwidth Profile per Class of Service Identifier Based on DSCP - EPL Service Ingress Bandwidth Profile per Class of Service Identifier Based on DSCP - EVPL Service Ingress Bandwidth Profile per Class of Service Identifier Based on L2CP - EPL Service Multiple Models of Ingress Bandwidth Profiles - EVPL Service Egress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 3 Egress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 9 Egress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 15 Egress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 90 Egress Bandwidth Profile - CIR Enforcement Range 3 - CIR = Page 22

23 150 Egress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 900 Egress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 1.5 Gbps Egress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 9 Gbps Egress Bandwidth Profile per UNI - EVPL Service ELAN Ingress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 3 Ingress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 9 Ingress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 15 Ingress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 90 Ingress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 150 Ingress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 900 Ingress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 1.5 Gbps Ingress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 9 Gbps Ingress Bandwidth Profile - CBS Enforcement Range 1 - CIR = 3 Ingress Bandwidth Profile - CBS Enforcement Range 2 - CIR = 15 Ingress Bandwidth Profile - CBS Enforcement Range 3 - CIR = 150 Ingress Bandwidth Profile - CBS Enforcement Range 4 - CIR = 1.5 Gbps Ingress Bandwidth Profile - EIR Enforcement Range 1 - EIR = 3 Ingress Bandwidth Profile - EIR Enforcement Range 1 - EIR = 9 Ingress Bandwidth Profile - EIR Enforcement Range 2 - EIR = 15 Page 23

24 Ingress Bandwidth Profile - EIR Enforcement Range 2 - EIR = 90 Ingress Bandwidth Profile - EIR Enforcement Range 3 - EIR = 150 Ingress Bandwidth Profile - EIR Enforcement Range 3 - EIR = 900 Ingress Bandwidth Profile - EIR Enforcement Range 4 - EIR = 1.5 Gbps Ingress Bandwidth Profile - EIR Enforcement Range 4 - EIR = 9 Gbps Ingress Bandwidth Profile - EBS Enforcement Range 1 - EIR = 3 Ingress Bandwidth Profile - EBS Enforcement Range 2 - EIR = 15 Ingress Bandwidth Profile - EBS Enforcement Range 3 - EIR = 150 Ingress Bandwidth Profile - EBS Enforcement Range 4 - EIR = 1.5 Gbps Ingress Bandwidth Profile per UNI - EP-LAN Service Ingress Bandwidth Profile per UNI - EVP-LAN Service Ingress Bandwidth Profile per EVC - EP-LAN Service Ingress Bandwidth Profile per EVC - EVP-LAN Service Ingress Bandwidth Profile Per EVC - Identical Mapping Ingress Bandwidth Profile per Class of Service Identifier Based on PCP - EP-LAN Service Ingress Bandwidth Profile per Class of Service Identifier Based on PCP - EVP-LAN Service Ingress Bandwidth Profile per Class of Service Identifier Based on DSCP - EP-LAN Service Ingress Bandwidth Profile per Class of Service Identifier Based on DSCP - EVP-LAN Service Ingress Bandwidth Profile per Class of Service Identifier Based on L2CP - EP-LAN Service Multiple Models of Bandwidth Profiles - EVP-LAN Service Egress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 3 Egress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 9 Egress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 15 Page 24

25 Egress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 90 Egress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 150 Egress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 900 Egress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 1.5 Gbps Egress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 9 Gbps Egress Bandwidth Profile per UNI Egress Bandwidth Profile per UNI Egress Bandwidth Profile per EVC Egress Bandwidth Profile per EVC Egress Bandwidth Profile per Class of Service Identifier Based on PCP Egress Bandwidth Profile per Class of Service Identifier Based on PCP Egress Bandwidth Profile per Class of Service Identifier Based on DSCP Egress Bandwidth Profile per Class of Service Identifier Based on DSCP Egress Bandwidth Profile per Class of Service Identifier Based on L2CP EACCESS One-Way Frame Delay Performance from UNI to ENNI - CIR = 3 One-Way Frame Delay Performance from ENNI to UNI - CIR = 3 One-Way Frame Delay Performance from UNI to ENNI - CIR = 9 One-Way Frame Delay Performance from ENNI to UNI - CIR = 9 One-Way Frame Delay Performance from UNI to ENNI - CIR = 30 One-Way Frame Delay Performance from ENNI to UNI - CIR = 30 One-Way Frame Delay Performance from UNI to ENNI - CIR = 90 Page 25

26 One-Way Frame Delay Performance from ENNI to UNI - CIR = 90 One-Way Frame Delay Performance from UNI to ENNI - CIR = 300 One-Way Frame Delay Performance from ENNI to UNI - CIR = 300 One-Way Frame Delay Performance from UNI to ENNI - CIR = 900 One-Way Frame Delay Performance from ENNI to UNI - CIR = 900 One-Way Frame Delay Performance from UNI to ENNI - CIR = 3 Gbps One-Way Frame Delay Performance from ENNI to UNI - CIR = 3 Gbps One-Way Frame Delay Performance from UNI to ENNI - CIR = 9 Gbps One-Way Frame Delay Performance from ENNI to UNI - CIR = 9 Gbps One-Way Mean Frame Delay Performance from UNI to ENNI - CIR = 3 One-Way Mean Frame Delay Performance from ENNI to UNI - CIR = 3 One-Way Mean Frame Delay Performance from UNI to ENNI - CIR = 9 One-Way Mean Frame Delay Performance from ENNI to UNI - CIR = 9 One-Way Mean Frame Delay Performance from UNI to ENNI - CIR = 30 One-Way Mean Frame Delay Performance from ENNI to UNI - CIR = 30 One-Way Mean Frame Delay Performance from UNI to ENNI - CIR = 90 One-Way Mean Frame Delay Performance from ENNI to UNI - CIR = 90 One-Way Mean Frame Delay Performance from UNI to ENNI - CIR = 300 One-Way Mean Frame Delay Performance from ENNI to UNI - CIR = 300 One-Way Mean Frame Delay Performance from UNI to ENNI - CIR = 900 One-Way Mean Frame Delay Performance from ENNI to UNI - Page 26

27 CIR = 900 One-Way Mean Frame Delay Performance from UNI to ENNI - CIR = 3 Gbps One-Way Mean Frame Delay Performance from ENNI to UNI - CIR = 3 Gbps One-Way Mean Frame Delay Performance from UNI to ENNI - CIR = 9 Gbps One-Way Mean Frame Delay Performance from ENNI to UNI - CIR = 9 Gbps One-Way Inter-Frame Delay Variation Performance from UNI to ENNI - CIR = 3 One-Way Inter-Frame Delay Variation Performance from ENNI to UNI - CIR = 3 One-Way Inter-Frame Delay Variation Performance from UNI to ENNI - CIR = 9 One-Way Inter-Frame Delay Variation Performance from ENNI to UNI - CIR = 9 One-Way Inter-Frame Delay Variation Performance from UNI to ENNI - CIR = 30 One-Way Inter-Frame Delay Variation Performance from ENNI to UNI - CIR = 30 One-Way Inter-Frame Delay Variation Performance from UNI to ENNI - CIR = 90 One-Way Inter-Frame Delay Variation Performance from ENNI to UNI - CIR = 90 One-Way Inter-Frame Delay Variation Performance from UNI to ENNI - CIR = 300 One-Way Inter-Frame Delay Variation Performance from ENNI to UNI - CIR = 300 One-Way Inter-Frame Delay Variation Performance from UNI to ENNI - CIR = 900 One-Way Inter-Frame Delay Variation Performance from ENNI to UNI - CIR = 900 One-Way Inter-Frame Delay Variation Performance from UNI to ENNI - CIR = 3 Gbps One-Way Inter-Frame Delay Variation Performance from ENNI to UNI - CIR = 3 Gbps One-Way Inter-Frame Delay Variation Performance from UNI to ENNI - CIR = 9 Gbps One-Way Inter-Frame Delay Variation Performance from ENNI to UNI - CIR = 9 Gbps Page 27

28 One-Way Frame Delay Range Performance from UNI to ENNI - CIR = 3 One-Way Frame Delay Range Performance from ENNI to UNI - CIR = 3 One-Way Frame Delay Range Performance from UNI to ENNI - CIR = 9 One-Way Frame Delay Range Performance from ENNI to UNI - CIR = 9 One-Way Frame Delay Range Performance from UNI to ENNI - CIR = 30 One-Way Frame Delay Range Performance from ENNI to UNI - CIR = 30 One-Way Frame Delay Range Performance from UNI to ENNI - CIR = 90 One-Way Frame Delay Range Performance from ENNI to UNI - CIR = 90 One-Way Frame Delay Range Performance from UNI to ENNI - CIR = 300 One-Way Frame Delay Range Performance from ENNI to UNI - CIR = 300 One-Way Frame Delay Range Performance from UNI to ENNI - CIR = 900 One-Way Frame Delay Range Performance from ENNI to UNI - CIR = 900 One-Way Frame Delay Range Performance from UNI to ENNI - CIR = 3 Gbps One-Way Frame Delay Range Performance from ENNI to UNI - CIR = 3 Gbps One-Way Frame Delay Range Performance from UNI to ENNI - CIR = 9 Gbps One-Way Frame Delay Range Performance from ENNI to UNI - CIR = 9 Gbps One-Way Frame Loss Ratio Performance from UNI to ENNI - CIR = 3 One-Way Frame Loss Ratio Performance from ENNI to UNI - CIR = 3 One-Way Frame Loss Ratio Performance from UNI to ENNI - CIR = 9 One-Way Frame Loss Ratio Performance from ENNI to UNI - CIR = 9 One-Way Frame Loss Ratio Performance from UNI to ENNI - Page 28

29 CIR = 30 One-Way Frame Loss Ratio Performance from ENNI to UNI - CIR = 30 One-Way Frame Loss Ratio Performance from UNI to ENNI - CIR = 90 One-Way Frame Loss Ratio Performance from ENNI to UNI - CIR = 90 One-Way Frame Loss Ratio Performance from UNI to ENNI - CIR = 300 One-Way Frame Loss Ratio Performance from ENNI to UNI - CIR = 300 One-Way Frame Loss Ratio Performance from UNI to ENNI - CIR = 900 One-Way Frame Loss Ratio Performance from ENNI to UNI - CIR = 900 One-Way Frame Loss Ratio Performance from UNI to ENNI - CIR = 3 Gbps One-Way Frame Loss Ratio Performance from ENNI to UNI - CIR = 3 Gbps One-Way Frame Loss Ratio Performance from UNI to ENNI - CIR = 9 Gbps One-Way Frame Loss Ratio Performance from ENNI to UNI - CIR = 9 Gbps Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 1 - CIR = 3 - CoS Label H 1 - CIR = 3 - CoS Label H Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 1 - CIR = 9 - CoS Label H 1 - CIR = 9 - CoS Label H Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 2 - CIR = 30 - CoS Label H 2 - CIR = 30 - CoS Label H Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 2 - CIR = 90 - CoS Label H 2 - CIR = 90 - CoS Label H Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 3 - CIR = CoS Label H Page 29

30 3 - CIR = CoS Label H Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 3 - CIR = CoS Label H 3 - CIR = CoS Label H Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 4 - CIR = 3 Gbps - CoS Label H 4 - CIR = 3 Gbps - CoS Label H Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 4 - CIR = 9 Gbps - CoS Label H 4 - CIR = 9 Gbps - CoS Label H Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 1 - CIR = 3 - CoS Label M 1 - CIR = 3 - CoS Label M Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 1 - CIR = 9 - CoS Label M 1 - CIR = 9 - CoS Label M Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 2 - CIR = 30 - CoS Label M 2 - CIR = 30 - CoS Label M Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 2 - CIR = 90 - CoS Label M 2 - CIR = 90 - CoS Label M Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 3 - CIR = CoS Label M 3 - CIR = CoS Label M Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 3 - CIR = CoS Label M 3 - CIR = CoS Label M Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 4 - CIR = 3 Gbps - CoS Label M Page 30

31 4 - CIR = 3 Gbps - CoS Label M Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 4 - CIR = 9 Gbps - CoS Label M 4 - CIR = 9 Gbps - CoS Label M Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 1 - CIR = 3 - CoS Label L 1 - CIR = 3 - CoS Label L Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 1 - CIR = 9 - CoS Label L 1 - CIR = 9 - CoS Label L Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 2 - CIR = 30 - CoS Label L 2 - CIR = 30 - CoS Label L Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 2 - CIR = 90 - CoS Label L 2 - CIR = 90 - CoS Label L Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 3 - CIR = CoS Label L 3 - CIR = CoS Label L Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 3 - CIR = CoS Label L 3 - CIR = CoS Label L Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 4 - CIR = 3 Gbps - CoS Label L 4 - CIR = 3 Gbps - CoS Label L Ingress Bandwidth Profile at the UNI - CIR Enforcement Range 4 - CIR = 9 Gbps - CoS Label L 4 - CIR = 9 Gbps - CoS Label L Ingress Bandwidth Profile at the UNI - CBS Enforcement Range 1 - CIR = 3 - CoS Label H Ingress Bandwidth Profile at the ENNI - CBS Enforcement Range 1 - CIR = 3 - CoS Label H Page 31

32 Ingress Bandwidth Profile at the UNI - CBS Enforcement Range 1 - CIR = 3 - CoS Label M Ingress Bandwidth Profile at the ENNI - CBS Enforcement Range 1 - CIR = 3 - CoS Label M Ingress Bandwidth Profile at the UNI - CBS Enforcement Range 1 - CIR = 3 - CoS Label L Ingress Bandwidth Profile at the ENNI - CBS Enforcement Range 1 - CIR = 3 - CoS Label L ETREE Ingress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 3 Ingress Bandwidth Profile - CIR Enforcement Range 1 - CIR = 9 Ingress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 15 Ingress Bandwidth Profile - CIR Enforcement Range 2 - CIR = 90 Ingress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 150 Ingress Bandwidth Profile - CIR Enforcement Range 3 - CIR = 900 Ingress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 1.5 Gbps Ingress Bandwidth Profile - CIR Enforcement Range 4 - CIR = 9 Gbps Ingress Bandwidth Profile - CBS Enforcement Range 1 - CIR = 3 Ingress Bandwidth Profile - CBS Enforcement Range 2 - CIR = 15 Ingress Bandwidth Profile - CBS Enforcement Range 3 - CIR = 150 Ingress Bandwidth Profile - CBS Enforcement Range 4 - CIR = 1.5 Gbps Ingress Bandwidth Profile - EIR Enforcement Range 1 - EIR = 3 Ingress Bandwidth Profile - EIR Enforcement Range 1 - EIR = 9 Ingress Bandwidth Profile - EIR Enforcement Range 2 - EIR = 15 Page 32

33 Ingress Bandwidth Profile - EIR Enforcement Range 2 - EIR = 90 Ingress Bandwidth Profile - EIR Enforcement Range 3 - EIR = 150 Ingress Bandwidth Profile - EIR Enforcement Range 3 - EIR = 900 Ingress Bandwidth Profile - EIR Enforcement Range 4 - EIR = 1.5 Gbps Ingress Bandwidth Profile - EIR Enforcement Range 4 - EIR = 9 Gbps Ingress Bandwidth Profile - EBS Enforcement Range 1 - EIR = 3 Ingress Bandwidth Profile - EBS Enforcement Range 2 - EIR = 15 Ingress Bandwidth Profile - EBS Enforcement Range 3 - EIR = 150 Ingress Bandwidth Profile per UNI Ingress Bandwidth Profile per EVC Ingress Bandwidth Profile per EVC Ingress Bandwidth Profile Per EVC Ingress Bandwidth Profile per Class of Service Identifier Based on PCP Ingress Bandwidth Profile per Class of Service Identifier Based on PCP Ingress Bandwidth Profile per Class of Service Identifier Based on DSCP Ingress Bandwidth Profile per Class of Service Identifier Based on DSCP Multiple Models of Bandwidth Profiles MEF Service OAM MEF 20 UNI Type 2 Implementation, IEEE P802.1ag/ D8.1 MEF Service OAM features: UNI-MEG Administrative Configuration UNI-C Maintenance Entity Requirements UNI-C MEG End Points - Processing Received Multicast CCM Frames 157 UNI-C MEG End Points - Processing & Response to Unicast & Multicast LBM Frames UNI-C MEG End Points - Generating Multicast CCM Frames UNI-C MEG End Points - Generating Multicast & Unicast LBM Frames Page 33

34 UNI-C Continuity Check Requirements UNI_C Loopback Requirements UNI_N Configuration Requirements UNI_N Maintenance Entity Requirements UNI-N MEG End Points - Processing Received Multicast CCM Frames UNI-N MEG End Points - Processing & Response to Unicast & Multicast LBM Frames UNI-N MEG End Points - Generating Multicast CCM Frames UNI-N MEG End Points - Generating Multicast & Unicast LBM Frames UNI-N Continuity Check Requirements UNI-N Loopback Requirements PBB Encapsulation IEEE-802.1ah-2008, "Provider BackBone Bridges" PBB Encapsulation features: Setup/Verification s I-Component Conformance B-Component Conformance DataIndications of Customer Backbone s Priority Code Point Encoding / Decoding Bridge Management Port Based Service interface s S-Tagged Baesd Service Interface s Service Priority and Drop Eligibility Selection Backbone Addressing s Page 34

35 Ethernet APS ITU-T G8031/Y.1342 G.8031 sections Setup verification s Introduction,Need for APS Communicartion,Revertive and Nonrevertive Switching protection Switching trigger, Protection switching modelsand APS format Principle of operation,transmission and acceptance APS & Protection types Requested signal,bridged signal,signal fail of the protection transportenity,command acceptance and retention,wait to restore timer & Exercise command State Transition by local requests(1:1,bidirectional,revertive mode 283 (5 Negative) State Transition by local requests(1:1,bidirectional,revertive mode State Transition by far end requests(1:1,bidirectional,revertive mode State Transition by far end requests(1:1,bidirectional,revertive mode State Transition by local requests(1:1,bidirectional,non-revertive mode State Transition by far end requests(1:1,bidirectional,non-revertive mode State Transition by far end requests(1:1,bidirectional,non-revertive mode State Transition by far end requests(1:1,bidirectional,non-revertive mode State Transition by local requests(1:1,bidirectional,non-revertive mode Page 35

36 G_8265_1 IEEE 1588 Conformity Suite For Frequency Synchronization in Telecommunications Networks, Draft Version 2.0 Sections G_8265_1 features: Request of Announce Messages -Signaling Message Format Cancellation of Announce Messages - Signaling Message Format Cancellation Acknowledgment of Announce Messages -Signaling Message Format Request of Announce Messages - Configurable Range Request of Sync Messages - Signaling Message Format Cancellation of Sync Messages - Signaling Message Format Cancellation Acknowledgment of Sync Messages - Signaling Message Format Request of Sync Messages Configurable Range Request of Delay_Resp Messages - Signaling Message Format Cancellation of Delay_Resp Messages - Signaling Message Format Cancellation Acknowledgment of Delay_Resp Messages- Signaling Message Format Request of Delay_Resp Messages - Configurable Range Unicast Session of Request of Delay_Req/Delay_Resp Messages Delay_Req Message Format Alternate Best Master Clock Algorithm and Protection Functions - Set 1 Alternate Best Master Clock Algorithm and Protection Functions - Set 2 Alternate Best Master Clock Algorithm and Protection Functions - Set Page 36

37 Benefits Saves Time and Money allows vendors to verify the design during their product s entire life-cycle. Problems can be identified earlier so as to prevent costly last-minute reworks. emulates large, multi-node networks that previously were cost prohibitive, resulting in more efficient tests and quicker product release times. Increases Confidence increases confidence in product quality by enabling extensive and thorough testing, performed automatically and without supervision. 's test results allow users to: Determine exactly where a device's protocol software does and does not meet the specification Observe how well the device handles traffic from non-complying network components Determine how new development effects existing code, via regression testing Expands Easily With a source code license, users can easily add new interface types, protocols, and/or test cases to their system. Supports More Protocols supports a comprehensive list of protocols, including unicast/multicast routing, bridging, IPv6, VPN, MPLS, PPP, TCP/IP, RMON, voice over IP, metro Ethernet, and IP storage. Methodology follows a rigorous test suite development process: Analyze a protocol specification line-by-line Develop a test assertion list (TAL), which is a list of testable statements Augment TALs with more negative tests Prioritize and group TALs for the test suite Develop a test method for each accepted test assertion performs continual verification of protocol standard authors or implementers during the development process. Page 37

38 Configuration The test suite can run on a Linux or Windows PC with off-the-shelf network interface cards, or on Ixia's load modules through a virtual network interface card (VNIC) connection. The tester (PC) connects with the DUT via test interfaces. Up to four interfaces may be used, depending on the test configuration. flexibly emulates various system topologies, and creates virtually any test scenarios for almost any DUT. offers both a command-line interface for test automation and a user-friendly graphical user interface, allowing intuitive test execution management and detail reporting. A batch runner is also available for scheduling regression test-run sequences. Execution classifies test cases into three categories: MUST, SHOULD, and MAY. s can be selceted and executed based on their categories or test topologies. The test can be run using two options: GUI or command line input. In GUI mode, the user selects which test suite and test cases to run. In command line mode, the user types a command with options indicating which tests should run and the desired output level. In the test, sends packets to the DUT based on the test designed, and compares the received DUT packets to what was expected. After receiving these packets, reacts according to the returned information it may continue the test, stop the test, log an error message, or a host of other functions. During the test, logs the progress in real-time. After completion, indicates whether the test passed or failed. then repeats the process with the next test until all selected tests have been run. Platform An workstation supports the following configuration: CentOS 5.3 (kernel e15xen); RedhatEnterpise 4.0 with kernel or EL; Redhat Enterprise 5.0 (with kernel el5) Microsoft Windows XP Professional or Windows 2003 Server (US English versions) 1.5G Hz Pentium CPU or faster (32 bit system only) 1G MB RAM 512 MB Free Disk Space Page 38