Brocade Fabric OS Encryption Administrator's Guide v7.1.0 (53-1002721-01, March 2013)
Table Of Contents
- Contents
- About This Document
- Encryption Overview
- In this chapter
- Host and LUN considerations
- Terminology
- The Brocade Encryption Switch
- The FS8-18 blade
- FIPS mode
- Performance licensing
- Recommendation for connectivity
- Usage limitations
- Brocade encryption solution overview
- Data encryption key life cycle management
- Master key management
- Support for virtual fabrics
- Cisco Fabric Connectivity support
- Configuring Encryption Using the Management Application
- In this chapter
- Encryption Center features
- Encryption user privileges
- Smart card usage
- Using authentication cards with a card reader
- Registering authentication cards from a card reader
- Registering authentication cards from the database
- Deregistering an authentication card
- Setting a quorum for authentication cards
- Using system cards
- Enabling or disabling the system card requirement
- Registering systems card from a card reader
- Deregistering system cards
- Using smart cards
- Tracking smart cards
- Editing smart cards
- Network connections
- Blade processor links
- Encryption node initialization and certificate generation
- Steps for connecting to an ESKM/SKM appliance
- Configuring a Brocade group on ESKM/SKM
- Registering the ESKM/SKM Brocade group user name and password
- Setting up the local Certificate Authority (CA) on ESKM/SKM
- Downloading the local CA certificate from ESKM/SKM
- Creating and installing the ESKM/SKM server certificate
- Enabling SSL on the Key Management System (KMS) Server
- Creating an ESKM/SKM High Availability cluster
- Copying the local CA certificate for a clustered ESKM/SKM appliance
- Adding ESKM/SKM appliances to the cluster
- Signing the encryption node KAC certificates
- Importing a signed KAC certificate into a switch
- ESKM/SKM key vault high availability deployment
- Encryption preparation
- Creating a new encryption group
- Adding a switch to an encryption group
- Replacing an encryption engine in an encryption group
- High availability (HA) clusters
- Configuring encryption storage targets
- Configuring hosts for encryption targets
- Adding target disk LUNs for encryption
- Adding target tape LUNs for encryption
- Moving Targets
- Configuring encrypted tape storage in a multi-path environment
- Tape LUN write early and read ahead
- Tape LUN statistics
- Encryption engine rebalancing
- Master keys
- Active master key
- Alternate master key
- Master key actions
- Saving the master key to a file
- Saving a master key to a key vault
- Saving a master key to a smart card set
- Restoring a master key from a file
- Restoring a master key from a key vault
- Restoring a master key from a smart card set
- Creating a new master key
- Security Settings
- Zeroizing an encryption engine
- Using the Encryption Targets dialog box
- Redirection zones
- Disk device decommissioning
- Rekeying all disk LUNs manually
- Thin provisioned LUNs
- Viewing time left for auto rekey
- Viewing and editing switch encryption properties
- Viewing and editing encryption group properties
- Encryption-related acronyms in log messages
- Configuring Encryption Using the CLI
- In this chapter
- Overview
- Command validation checks
- Command RBAC permissions and AD types
- Cryptocfg Help command output
- Management LAN configuration
- Configuring cluster links
- Setting encryption node initialization
- Steps for connecting to an SKM or ESKM appliance
- Configuring a Brocade group
- Setting up the local Certificate Authority (CA)
- Downloading the local CA certificate
- Creating and installing the SKM or ESKM server certificate
- Enabling SSL on the Key Management System (KMS) Server
- Creating an SKM or ESKM high availability cluster
- Copying the local CA certificate
- Adding SKM or ESKM appliances to the cluster
- Initializing the Fabric OS encryption engines
- Signing the Brocade encryption node KAC certificates
- Registering SKM or ESKM on a Brocade encryption group leader
- Registering the SKM/ESKM Brocade group user name and password
- SKM or ESKM key vault high availability deployment
- Adding a member node to an encryption group
- Generating and backing up the master key
- High availability cluster configuration
- Re-exporting a master key
- Enabling the encryption engine
- Zoning considerations
- CryptoTarget container configuration
- Crypto LUN configuration
- Impact of tape LUN configuration changes
- Configuring a multi-path Crypto LUN
- Decommissioning LUNs
- Decommissioning replicated LUNs
- Force-enabling a decommissioned disk LUN for encryption
- Force-enabling a disabled disk LUN for encryption
- Tape pool configuration
- First-time encryption
- Thin provisioned LUNs
- Data rekeying
- Deployment Scenarios
- In this chapter
- Single encryption switch, two paths from host to target
- Single fabric deployment - HA cluster
- Single fabric deployment - DEK cluster
- Dual fabric deployment - HA and DEK cluster
- Multiple paths, one DEK cluster, and two HA clusters
- Multiple paths, DEK cluster, no HA cluster
- Deployment in Fibre Channel routed fabrics
- Deployment as part of an edge fabric
- Deployment with FCIP extension switches
- VMware ESX server deployments
- Best Practices and Special Topics
- In this chapter
- Firmware upgrade and downgrade considerations
- Configuration upload and download considerations
- Configuration upload at an encryption group leader node
- Configuration upload at an encryption group member node
- Information not included in an upload
- Steps before configuration download
- Configuration download at the encryption group leader
- Configuration download at an encryption group member
- Steps after configuration download
- HP-UX considerations
- AIX Considerations
- Enabling a disabled LUN
- Disk metadata
- Tape metadata
- Tape data compression
- Tape pools
- Tape block zero handling
- Tape key expiry
- Configuring CryptoTarget containers and LUNs
- Redirection zones
- Deployment with Admin Domains (AD)
- Do not use DHCP for IP interfaces
- Ensure uniform licensing in HA clusters
- Tape library media changer considerations
- Turn off host-based encryption
- Avoid double encryption
- PID failover
- Turn off compression on extension switches
- Rekeying best practices and policies
- KAC certificate registration expiry
- Changing IP addresses in encryption groups
- Disabling the encryption engine
- Recommendations for Initiator Fan-Ins
- Best practices for host clusters in an encryption environment
- HA Cluster deployment considerations and best practices
- Key Vault Best Practices
- Tape Device LUN Mapping
- Maintenance and Troubleshooting
- In this chapter
- Encryption group and HA cluster maintenance
- Displaying encryption group configuration or status information
- Removing a member node from an encryption group
- Deleting an encryption group
- Removing an HA cluster member
- Displaying the HA cluster configuration
- Replacing an HA cluster member
- Deleting an HA cluster member
- Performing a manual failback of an encryption engine
- Encryption group merge and split use cases
- A member node failed and is replaced
- A member node reboots and comes back up
- A member node lost connection to the group leader
- A member node lost connection to all other nodes in the encryption group
- Several member nodes split off from an encryption group
- Adjusting heartbeat signaling values
- EG split possibilities requiring manual recovery
- Configuration impact of encryption group split or node isolation
- Encryption group database manual operations
- Key vault diagnostics
- Measuring encryption performance
- General encryption troubleshooting
- Troubleshooting examples using the CLI
- Management application encryption wizard troubleshooting
- LUN policy troubleshooting
- Loss of encryption group leader after power outage
- MPIO and internal LUN states
- FS8-18 blade removal and replacement
- Brocade Encryption Switch removal and replacement
- Reclaiming the WWN base of a failed Brocade Encryption Switch
- Removing stale rekey information for a LUN
- Downgrading firmware from Fabric OS 7.1.0
- Fabric OS and ESKM compatibility matrix
- Splitting an encryption group into two encryption groups
- Moving an encryption blade from one EG to another in the same fabric
- Moving an encryption switch from one EG to another in the same fabric
- State and Status Information
Fabric OS Encryption Administrator’s Guide (SKM/ESKM) 209
53-1002721-01
Deployment as part of an edge fabric
4
Deployment as part of an edge fabric
In this deployment, the encryption switch is connected to either the host or target edge fabric. The
backbone fabric may contain a 7800 extension switch or FX8-24 blade in a DCX or DCX 8510
Backbone, or an FCR-capable switch or blade. The encryption resources of the encryption switch
can be shared with the other edge fabrics using FCR in the backbone fabric (Figure 98).
.
FIGURE 98 Encryption switch as part of an edge fabric
The following is a summary of steps for creating and enabling the frame redirection features in the
FCR configuration (edge to edge):
• The encryption device creates the frame redirection zone automatically, consisting of host,
target, virtual target, and virtual initiator. when the target and host are configured on the
encryption device. In Figure 98, the encryption device is connected to the host edge fabric.
• Create the frame redirection one consisting of host, target, virtual target, and virtual initiator in
the target edge fabric. The CLI command is zone
--rdcreate [host wwn] [target wwn] [VI wwn]
[VT wwn][nonrestartable] [noFCR]. Always specify nonrestartable as policy for creating
redirection zones in case of the encryption device. The VI and VT port WWNs can be obtained
by running the cryptocfg
--show -container <crypto container name> -cfg command on the
encryption switch or blade. After the redirection zones are created, commit the configuration
with the cfgsave command.
• Create the LSAN zone consisting of host, target, virtual target, and virtual initiator in both the
backbone fabric and the target edge fabrics. Refer to the Fabric OS Administrator’s Guide for
information about LSANs, LSAN zoning, and Fibre Channel routing (FCR) configurations.
Host
Target
Encryption
Switch
Backbone Fabric
Host
Target
Virtual
Initiator
Virtual
Target
Ex_Port
E_Port
E_Port
E_Port
Ex_Port
Host Edge Fabric
Target Edge Fabric
Create zone: Host, Target,
Virtual Initiator, Virtual Target
Redirection zone:
(Automatically created)
Extension
Switch