Users Guide
Table Of Contents
- Table of Contents
- Preface
- 1 Functionality and Features
- 2 Configuring Teaming in Windows Server
- 3 Virtual LANs in Windows
- 4 Installing the Hardware
- 5 Manageability
- 6 Boot Agent Driver Software
- 7 Linux Driver Software
- Introduction
- Limitations
- Packaging
- Installing Linux Driver Software
- Load and Run Necessary iSCSI Software Components
- Unloading or Removing the Linux Driver
- Patching PCI Files (Optional)
- Network Installations
- Setting Values for Optional Properties
- Driver Defaults
- Driver Messages
- bnx2x Driver Messages
- bnx2i Driver Messages
- BNX2I Driver Sign-on
- Network Port to iSCSI Transport Name Binding
- Driver Completes Handshake with iSCSI Offload-enabled C-NIC Device
- Driver Detects iSCSI Offload Is Not Enabled on the C-NIC Device
- Exceeds Maximum Allowed iSCSI Connection Offload Limit
- Network Route to Target Node and Transport Name Binding Are Two Different Devices
- Target Cannot Be Reached on Any of the C-NIC Devices
- Network Route Is Assigned to Network Interface, Which Is Down
- SCSI-ML Initiated Host Reset (Session Recovery)
- C-NIC Detects iSCSI Protocol Violation - Fatal Errors
- C-NIC Detects iSCSI Protocol Violation—Non-FATAL, Warning
- Driver Puts a Session Through Recovery
- Reject iSCSI PDU Received from the Target
- Open-iSCSI Daemon Handing Over Session to Driver
- bnx2fc Driver Messages
- BNX2FC Driver Signon
- Driver Completes Handshake with FCoE Offload Enabled C-NIC Device
- Driver Fails Handshake with FCoE Offload Enabled C-NIC Device
- No Valid License to Start FCoE
- Session Failures Due to Exceeding Maximum Allowed FCoE Offload Connection Limit or Memory Limits
- Session Offload Failures
- Session Upload Failures
- Unable to Issue ABTS
- Unable to Recover the IO Using ABTS (Due to ABTS Timeout)
- Unable to Issue I/O Request Due to Session Not Ready
- Drop Incorrect L2 Receive Frames
- Host Bus Adapter and lport Allocation Failures
- NPIV Port Creation
- Teaming with Channel Bonding
- Statistics
- Linux iSCSI Offload
- 8 VMware Driver Software
- Introduction
- Packaging
- Download, Install, and Update Drivers
- Driver Parameters
- FCoE Support
- iSCSI Support
- 9 Windows Driver Software
- Supported Drivers
- Installing the Driver Software
- Modifying the Driver Software
- Repairing or Reinstalling the Driver Software
- Removing the Device Drivers
- Viewing or Changing the Properties of the Adapter
- Setting Power Management Options
- Configuring the Communication Protocol to Use with QCC GUI, QCC PowerKit, and QCS CLI
- 10 Citrix XenServer Driver Software
- 11 iSCSI Protocol
- iSCSI Boot
- Supported Operating Systems for iSCSI Boot
- iSCSI Boot Setup
- Configuring the iSCSI Target
- Configuring iSCSI Boot Parameters
- MBA Boot Protocol Configuration
- iSCSI Boot Configuration
- Enabling CHAP Authentication
- Configuring the DHCP Server to Support iSCSI Boot
- DHCP iSCSI Boot Configuration for IPv4
- DHCP iSCSI Boot Configuration for IPv6
- Configuring the DHCP Server
- Preparing the iSCSI Boot Image
- Booting
- Other iSCSI Boot Considerations
- Troubleshooting iSCSI Boot
- iSCSI Crash Dump
- iSCSI Offload in Windows Server
- iSCSI Boot
- 12 Marvell Teaming Services
- Executive Summary
- Teaming Mechanisms
- Teaming and Other Advanced Networking Properties
- General Network Considerations
- Application Considerations
- Troubleshooting Teaming Problems
- Frequently Asked Questions
- Event Log Messages
- 13 NIC Partitioning and Bandwidth Management
- 14 Fibre Channel Over Ethernet
- Overview
- FCoE Boot from SAN
- Preparing System BIOS for FCoE Build and Boot
- Preparing Marvell Multiple Boot Agent for FCoE Boot (CCM)
- Preparing Marvell Multiple Boot Agent for FCoE Boot (UEFI)
- Provisioning Storage Access in the SAN
- One-Time Disabled
- Windows Server 2016/2019/Azure Stack HCI FCoE Boot Installation
- Linux FCoE Boot Installation
- VMware ESXi FCoE Boot Installation
- Booting from SAN After Installation
- Configuring FCoE
- N_Port ID Virtualization (NPIV)
- 15 Data Center Bridging
- 16 SR-IOV
- 17 Specifications
- 18 Regulatory Information
- 19 Troubleshooting
- Hardware Diagnostics
- Checking Port LEDs
- Troubleshooting Checklist
- Checking if Current Drivers Are Loaded
- Running a Cable Length Test
- Testing Network Connectivity
- Microsoft Virtualization with Hyper-V
- Removing the Marvell 57xx and 57xxx Device Drivers
- Upgrading Windows Operating Systems
- Marvell Boot Agent
- Linux
- NPAR
- Kernel Debugging Over Ethernet
- Miscellaneous
- A Revision History
12–Marvell Teaming Services
General Network Considerations
Doc No. BC0054508-00 Rev. R
January 21, 2021 Page 179 Copyright © 2021 Marvell
Layer 3 Routing and Switching
The switch that the teamed ports are connected to must not be a Layer 3 switch or
router. The ports in the team must be in the same network.
Teaming with Hubs (for Troubleshooting Purposes Only)
SLB teaming can be used with 10 and 100 hubs, but Marvell recommends using it
only for troubleshooting purposes, such as connecting a network analyzer in the
event that switch port mirroring is not an option.
Hub teaming information includes:
Hub Usage in Teaming Network Configurations
SLB Teams
SLB Team Connected to a Single Hub
Generic and Dynamic Trunking (FEC/GEC/IEEE 802.3ad)
Hub Usage in Teaming Network Configurations
Although the use of hubs in network topologies is functional in some situations, it
is important to consider the throughput ramifications when doing so. Network hubs
have a maximum of 100Mbps half-duplex link speed, which severely degrades
performance in either a gigabit or 100Mbps switched-network configuration. Hub
bandwidth is shared among all connected devices. As a result, when more
devices are connected to the hub, the bandwidth available to any single device
connected to the hub is reduced in direct proportion to the quantity of devices
connected to the hub.
Marvell does not recommend that you connect team members to hubs; only
switches should be used to connect to teamed ports. An SLB team, however, can
be connected directly to a hub for troubleshooting purposes. Other team types
can result in a loss of connectivity if specific failures occur and should not be used
with hubs.
SLB Teams
SLB teams are the only teaming type not dependent on switch configuration. The
server intermediate driver handles the load balancing and fault tolerance
mechanisms with no assistance from the switch. These elements of SLB make it
the only team type that maintains failover and fallback characteristics when team
ports are connected directly to a hub.