Chapter 1 Oracle ZFS Storage Appliance Overview
Chapter 3 Initial Configuration
Chapter 4 Network Configuration
Chapter 5 Storage Configuration
Chapter 6 Storage Area Network Configuration
Chapter 8 Setting ZFSSA Preferences
Chapter 10 Cluster Configuration
Configuring Services Using the BUI
Viewing a Specific Service Screen
Viewing a Specific Service Screen
Configuring Services Using the CLI
iSCSI Service Targets and Initiators
SMB Microsoft Stand-alone DFS Namespace Management Tools Support Matrix
Example: Manipulating DFS Namespaces
Adding a User to an SMB Local Group
SMB Users, Groups, and Connections
Active Directory Configuration
Project and Share Configuration
SMB Data Service Configuration
Allowing FTP Access to a share
HTTP Authentication and Access Control
Allowing HTTP access to a share
NDMP Local vs. Remote Configurations
Allowing SFTP access to a share
Configuring SFTP Services for Remote Access
Allowing TFTP access to a share
Configuring virus scanning for a share
Adding an appliance administrator from NIS
Adding an appliance administrator
Active Directory Join Workgroup
Active Directory Domains and Workgroups
Active Directory Windows Server 2012 Support
Active Directory Windows Server 2008 Support
Active Directory Windows Server 2008 Support Section A: Kerberos issue (KB951191)
Active Directory Windows Server 2008 Support Section B: NTLMv2 issue (KB957441)
Active Directory Windows Server 2008 Support Section C: Note on NTLMv2
Configuring Active Directory Using the BUI
Configuring Active Directory Using the CLI
Example - Configuring Active Directory Using the CLI
Identity Mapping Rule-based Mapping
Identity Mapping Directory-based Mapping
Mapping Rule Directional Symbols
Identity Mapping Best Practices
Identity Mapping Case Sensitivity
Identity Mapping Domain-Wide Rules
Registering the Appliance Using the BUI
Registering the Appliance Using the CLI
Configuring SNMP to Serve Appliance Status
Configuring SNMP to Send Traps
Receiver Configuration Examples
Configuring a Solaris Receiver
Chapter 12 Shares, Projects, and Schema
The RIP (Routing Information Protocol) is a distance-vector dynamic routing protocol that is used by the appliance to automatically configure optimal routes based on messages received from other RIP-enabled on-link hosts (typically routers). The appliance supports both RIPv1 and RIPv2 for IPv4, and RIPng for IPv6. Routes that are configured via these protocols are marked as type "dynamic" in the routing table. RIP and RIPng listen on UDP ports 520 and 521 respectively.