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zr_low_power_mode_test
Validate 400ZR transceiver is able to move to low power consumption mode when the interface/config/enabled state is set to "False"
NOTE: The Module Power Mode dictates the maximum electrical power that the module is permitted to consume while operating in that Module Power Mode. The Module Power Mode is a function of the state of the Module State Machine. Two Module Power Modes are defined:
- In Low Power Mode (characteristic of all MSM steady states except ModuleReady) the maximum module power consumption is defined in the form factor-specific hardware specification.
- In High Power Mode (characteristic of the MSM state ModuleReady) the implementation dependent maximum module power consumption is advertised in the MaxPower Byte 00h:201. More details in the CMIS link below.
Link to CMIS: https://www.oiforum.com/wp-content/uploads/CMIS5p0_Third_Party_Spec.pdf
- Connect two ZR optics using a duplex LC fiber jumper such that TX output power of one is the RX input power of the other module.
- To establish a point to point ZR link ensure the following:
- Both transceivers state is enabled.
- Both transceivers are set to a valid target TX output power example -10 dBm.
- Both transceivers are tuned to a valid centre frequency example 193.1 THz.
- Typical test setup for this test is a DUT1 with 2 ports to 2 ATE ports or 2 ports to a second DUT2. For most tests this setup should be sufficient. Ref: Typical ATE<>DUT Test bed
- A and Z ends of the link should have same 400ZR PMD. For this test a single DUT ZR port connected to a single ZR ATE port is also sufficient.
Once the ZR link is estabished proceed with the following:
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Verify that the following ZR transceiver OC path when set to False is able to move to the low power mode as defined in the CMIS.
- /interfaces/interface/config/enabled
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In low power mode the module's Management interface should be available, entire paged management memory should be accessible. During this state, the host may configure the module using the management interface to read from and write to the management Memory Map.
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The Data Path State of all lanes is still DPDeactivated in the ModuleLowPwr state.
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With module in low power mode verify that the module is still able to report inventory information through the following OC paths.
- /platform/components/component/state/serial-no
- /platform/components/component/state/part-no
- /platform/components/component/state/type
- /platform/components/component/state/description
- /platform/components/component/state/mfg-name
- /platform/components/component/state/mfg-date
- /platform/components/component/state/hardware-version
- /platform/components/component/state/firmware-version
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With module in low power mode verify that the module laser is squelched and it is no longer able to report output-power under the following OC paths.
- /components/component/optical-channel/state/output-power/instant
- /components/component/optical-channel/state/output-power/avg
- /components/component/optical-channel/state/output-power/min
- /components/component/optical-channel/state/output-power/max
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Set the interface/config/enabled state to True
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Verify module is able to transition into High Power Mode.
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In this state module is still able to report all the inventory information as verified above.
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In this state verify module is able to report a valid output power through the following OC paths as provisioned earlier.
- /components/component/optical-channel/state/output-power/instant
- /components/component/optical-channel/state/output-power/avg
- /components/component/optical-channel/state/output-power/min
- /components/component/optical-channel/state/output-power/max
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Verify the ZR optics TX output power telemetry values are updated to the value in the normal range again.
- Typical min/max value range for TX Output Power -13 to -9 dbm.
- values must always be of type decimal64.
- When link interfaces are in down state 0 must be reported as a valid value.
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When the modules or the devices are still in a boot stage, they must not stream any invalid string values like "nil" or "-inf" until valid values are available for streaming.
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paths:
# Configure parameter
/interfaces/interface/config/enabled:
# Telemetry Parameter coverage
/components/component/state/serial-no:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/state/part-no:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/state/type:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/state/description:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/state/mfg-name:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/state/mfg-date:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/state/hardware-version:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/state/firmware-version:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/optical-channel/state/output-power/instant:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/optical-channel/state/output-power/avg:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/optical-channel/state/output-power/min:
platform_type: ["OPTICAL_CHANNEL"]
/components/component/optical-channel/state/output-power/max:
platform_type: ["OPTICAL_CHANNEL"]
rpcs:
gnmi:
gNMI.Get:
gNMI.Set:
gNMI.Subscribe:
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Home
- Test Plans
- ACCTZ-1.1: Record Subscribe Full
- ACCTZ-2.1: Record Subscribe Partial
- ACCTZ-3.1: Record Subscribe Non-gRPC
- ACCTZ-4.1: Record History Truncation
- ACCTZ-4.2: Record Payload Truncation
- Authz: General Authz (1-4) tests
- CNTR-1: Basic container lifecycle via
gnoi.Containerz
. - CNTR-2: Container network connectivity tests
- Credentialz-1: Password console login
- Credentialz-2: SSH Password Login Disallowed
- Credentialz-3: Host Certificates
- Credentialz-4: SSH Public Key Authentication
- Credentialz-5: Hiba Authentication
- DP-1.2: QoS policy feature config
- DP-1.3: QoS ECN feature config
- DP-1.4: QoS Interface Output Queue Counters
- DP-1.7: One strict priority queue traffic test
- DP-1.8: Two strict priority queue traffic test
- DP-1.9: WRR traffic test
- DP-1.10: Mixed strict priority and WRR traffic test
- DP-1.11: Bursty traffic test
- DP-1.14: QoS basic test
- example-0.1: Topology Test
- FP-1.1: Power admin DOWN/UP Test
- gNMI-1.1: cli Origin
- gNMI-1.2: Benchmarking: Full Configuration Replace
- gNMI-1.3: Benchmarking: Drained Configuration Convergence Time
- gNMI-1.4: Telemetry: Inventory
- gNMI-1.5: Telemetry: Port Speed Test
- gNMI-1.8: Configuration Metadata-only Retrieve and Replace
- gNMI-1.9: Get requests
- gNMI-1.10: Telemetry: Basic Check
- gNMI-1.11: Telemetry: Interface Packet Counters
- gNMI-1.12: Mixed OpenConfig/CLI Origin
- gNMI-1.13: Optics Telemetry, Instant, threshold, and miscellaneous static info
- gNMI-1.14: OpenConfig metadata consistency during large config push
- gNMI-1.15: Set Requests
- gNMI-1.16: fabric redundancy test
- gNMI-1.17: Controller Card redundancy test
- gNMI-1.18: gNMI subscribe with sample mode for backplane capacity counters
- gNMI-1.19: ConfigPush after Control Card switchover
- gNMI-1.20: Telemetry: Optics Thresholds
- gNMI-1.21: Integrated Circuit Hardware Resource Utilization Test
- gNMI-1.22: Controller card port attributes
- gNMI-1.27: gNMI Sample Mode Test
- GNMI-2: gnmi_subscriptionlist_test
- gNOI-2.1: Packet-based Link Qualification
- gNOI-3.1: Complete Chassis Reboot
- gNOI-3.2: Per-Component Reboot
- gNOI-3.3: Supervisor Switchover
- gNOI-3.4: Chassis Reboot Status and Reboot Cancellation
- gNOI-4.1: Software Upgrade
- gNOI-5.1: Ping Test
- gNOI-5.2: Traceroute Test
- gNOI-5.3: Copying Debug Files
- gNOI-6.1: Factory Reset
- Health-1.1: Generic Health Check
- Health-1.2: Healthz component status paths
- MGT-1: Management HA solution test
- MTU-1.3: Large IP Packet Transmission
- OC-1.2: Default Address Families
- OC-26.1: Network Time Protocol (NTP)
- P4RT-1.1: Base P4RT Functionality
- P4RT-1.2: P4RT Daemon Failure
- P4RT-2.1: P4RT Election
- P4RT-2.2: P4RT Metadata Validation
- P4RT-3.1: Google Discovery Protocol: PacketIn
- P4RT-3.2: Google Discovery Protocol: PacketOut
- P4RT-3.21: Google Discovery Protocol: PacketOut with LAG
- P4RT-5.1: Traceroute: PacketIn
- P4RT-5.2: Traceroute Packetout
- P4RT-5.3: Traceroute: PacketIn With VRF Selection
- P4RT-6.1: Required Packet I/O rate: Performance
- P4RT-7.1: LLDP: PacketIn
- P4RT-7.2: LLDP: PacketOut
- Replay-1.0: Record/replay presession test
- Replay-1.1: Record/replay diff command trees test
- Replay-1.2: P4RT Replay Test
- RT-1.1: Base BGP Session Parameters
- RT-1.2: BGP Policy & Route Installation
- RT-1.3: BGP Route Propagation
- RT-1.4: BGP Graceful Restart
- RT-1.5: BGP Prefix Limit
- RT-1.7: Local BGP Test
- RT-1.10: BGP Keepalive and HoldTimer Configuration Test
- RT-1.11: BGP remove private AS
- RT-1.12: BGP always compare MED
- RT-1.14: BGP Long-Lived Graceful Restart
- RT-1.19: BGP 2-Byte and 4-Byte ASN support
- RT-1.21: BGP TCP MSS and PMTUD
- RT-1.23: BGP AFI SAFI OC DEFAULTS
- RT-1.24: BGP 2-Byte and 4-Byte ASN support with policy
- RT-1.25: Management network-instance default static route
- RT-1.26: Basic static route support
- RT-1.27: Static route to BGP redistribution
- RT-1.28: BGP to IS-IS redistribution
- RT-1.29: BGP chained import/export policy attachment
- RT-1.30: BGP nested import/export policy attachment
- RT-1.32: BGP policy actions - MED, LocPref, prepend, flow-control
- RT-1.33: BGP Policy with prefix-set matching
- RT-1.34: BGP route-distance configuration
- RT-1.51: BGP multipath ECMP
- RT-1.52: BGP multipath UCMP support with Link Bandwidth Community
- RT-1.53: prefix-list test
- RT-1.54: BGP Override AS-path split-horizon
- RT-1.55: BGP session mode (active/passive)
- RT-2.1: Base IS-IS Process and Adjacencies
- RT-2.2: IS-IS LSP Updates
- RT-2.6: IS-IS Hello-Padding enabled at interface level
- RT-2.7: IS-IS Passive is enabled at interface level
- RT-2.8: IS-IS metric style wide not enabled
- RT-2.9: IS-IS metric style wide enabled
- RT-2.10: IS-IS change LSP lifetime
- RT-2.11: IS-IS Passive is enabled at the area level
- RT-2.12: Static route to IS-IS redistribution
- RT-2.13: Weighted-ECMP for IS-IS
- RT-2.14: IS-IS Drain Test
- RT-2.15: IS-IS Graceful Restart Helper
- RT-3.1: Policy based VRF selection
- RT-3.2: Multiple <Protocol, DSCP> Rules for VRF Selection
- RT-4.10: AFTs Route Summary
- RT-4.11: AFTs Route Summary
- RT-5.1: Singleton Interface
- RT-5.2: Aggregate Interfaces
- RT-5.3: Aggregate Balancing
- RT-5.4: Aggregate Forwarding Viable
- RT-5.5: Interface hold-time
- RT-5.6: Interface Loopback mode
- RT-5.7: Aggregate Not Viable All
- RT-5.8: IPv6 Link Local
- RT-5.9: Disable IPv6 ND Router Arvetisment
- RT-5.10: IPv6 Link Local generated by SLAAC
- RT-6.1: Core LLDP TLV Population
- RT-7.1: BGP default policies
- RT-7.2: BGP Policy Community Set
- RT-7.3: BGP Policy AS Path Set
- RT-7.4: BGP Policy AS Path Set and Community Set
- RT-7.5: BGP Policy - Match and Set Link Bandwidth Community
- RT-7.8: BGP Policy Match Standard Community and Add Community Import/Export Policy
- RT-7.11: BGP Policy - Import/Export Policy Action Using Multiple Criteria
- RT-14.2: GRIBI Route Test
- SEC-3.1: Authentication
- SFLOW-1: sFlow Configuration and Sampling
- System-1: System testing
- TE-1.1: Static ARP
- TE-1.2: My Station MAC
- TE-2.1: gRIBI IPv4 Entry
- TE-2.2: gRIBI IPv4 Entry With Aggregate Ports
- TE-3.1: Base Hierarchical Route Installation
- TE-3.2: Traffic Balancing According to Weights
- TE-3.3: Hierarchical weight resolution
- TE-3.5: Ordering: ACK Received
- TE-3.6: ACK in the Presence of Other Routes
- TE-3.7: Base Hierarchical NHG Update
- TE-3.31: Hierarchical weight resolution with PBF
- TE-4.1: Base Leader Election
- TE-4.2: Persistence Mode
- TE-5.1: gRIBI Get RPC
- TE-6.1: Route Removal via Flush
- TE-6.2: Route Removal In Non Default VRF
- TE-8.1: DUT Daemon Failure
- TE-8.2: Supervisor Failure
- TE-9.2: MPLS based forwarding Static LSP
- TE-9.3: FIB FAILURE DUE TO HARDWARE RESOURCE EXHAUST
- TE-9: gRIBI MPLS Compliance
- TE-10: gRIBI MPLS Forwarding
- TE-11.1: Backup NHG: Single NH
- TE-11.2: Backup NHG: Multiple NH
- TE-11.3: Backup NHG: Actions
- TE-11.21: Backup NHG: Multiple NH with PBF
- TE-11.31: Backup NHG: Actions with PBF
- TE-13.1: gRIBI route ADD during Failover
- TE-13.2: gRIBI route DELETE during Failover
- TE-14.1: gRIBI Scaling
- TE-14.2: encap and decap scale
- TE-15.1: gRIBI Compliance
- TE-16.1: basic encapsulation tests
- TE-16.2: encapsulation FRR scenarios
- TE-16.3: encapsulation FRR scenarios
- TE-17.1: VRF selection policy driven TE
- TR-6.1: Remote Syslog feature config
- TRANSCEIVER-1: Telemetry: 400ZR Chromatic Dispersion(CD) telemetry values streaming
- TRANSCEIVER-3: Telemetry: 400ZR Optics firmware version streaming
- TRANSCEIVER-4: Telemetry: 400ZR RX input and TX output power telemetry values streaming.
- TRANSCEIVER-5: Configuration: 400ZR channel frequency, output TX launch power and operational mode setting.
- TRANSCEIVER-6: Telemetry: 400ZR Optics performance metrics (pm) streaming.
- TRANSCEIVER-7: Telemetry: 400ZR Optics inventory info streaming
- TRANSCEIVER-8: Telemetry: 400ZR Optics module temperature streaming.
- TRANSCEIVER-9: Telemetry: 400ZR TX laser bias current telemetry values streaming.
- TRANSCEIVER-10: Telemetry: 400ZR Optics FEC(Forward Error Correction) Uncorrectable Frames Streaming.
- TRANSCEIVER-11: Telemetry: 400ZR Optics logical channels provisioning and related telemetry.
- TRANSCEIVER-12: Telemetry: 400ZR Transceiver Supply Voltage streaming.
- TRANSCEIVER-13: Configuration: 400ZR Transceiver Low Power Mode Setting.
- TUN-1.4: Interface based IPv6 GRE Encapsulation
- TUN-1.9: GRE inner packet DSCP
- Test Plans