Brocade Converged Enhanced Ethernet Administrator's Guide v6.1.2_cee (53-1001258-01, June 2009)
Table Of Contents
- Contents
- Figures
- Tables
- About This Document
- Introducing FCoE
- Using the CEE CLI
- In this chapter
- CEE CLI configuration guidelines and restrictions
- Using the CEE command line interface (CLI)
- CEE CLI RBAC permissions
- Accessing the CEE CLI through the console interface or through a Telnet session
- Accessing the CEE CLI from the Fabric OS shell
- Accessing CEE CLI command modes
- Using CEE CLI keyboard shortcuts
- Displaying CEE CLI commands and command syntax
- Using CEE CLI command completion
- CEE CLI command syntax conventions
- Using CEE CLI command output modifiers
- Configuring VLANs Using the CEE CLI
- In this chapter
- VLAN overview
- Ingress VLAN filtering
- VLAN configuration guidelines and restrictions
- Default VLAN configuration
- VLAN configuration procedures
- Enabling and disabling a CEE interface
- Configuring the MTU on a CEE interface
- Creating a VLAN interface
- Configuring a VLAN interface to forward FCoE traffic
- Configuring a CEE interface as a Layer 2 switch port
- Configuring a CEE interface as an access interface or a trunk interface
- Configuring VLAN classifier rules
- Configuring VLAN classifier groups
- Associating a VLAN classifier group to a CEE interface
- Clearing VLAN counter statistics
- Displaying VLAN information
- Configuring the MAC address table
- Configuring STP, RSTP, and MSTP using the CEE CLI
- In this chapter
- STP overview
- RSTP overview
- MSTP overview
- STP, RSTP, and MSTP configuration guidelines and restrictions
- Default STP, RSTP, and MSTP configuration
- STP, RSTP, and MSTP configuration procedures
- STP, RSTP, and MSTP-specific configuration procedures
- STP and RSTP-specific configuration procedures
- RSTP and MSTP-specific configuration procedures
- MSTP-specific configuration procedures
- 10-Gigabit Ethernet CEE interface-specific configuration
- Global STP, RSTP, and MSTP-related configuration procedures
- Clearing STP, RSTP, and MSTP-related information
- Displaying STP, RSTP, and MSTP-related information
- Configuring Link Aggregation using the CEE CLI
- Configuring LLDP using the CEE CLI
- Configuring ACLs using the CEE CLI
- In this chapter
- ACL overview
- Default ACL configuration
- ACL configuration guidelines and restrictions
- ACL configuration procedures
- Creating a standard MAC ACL and adding rules
- Creating an extended MAC ACL and adding rules
- Modifying a MAC ACL
- Removing a MAC ACL
- Reordering the sequence numbers in a MAC ACL
- Applying a MAC ACL to a CEE interface
- Applying a MAC ACL to a VLAN interface
- Clearing MAC ACL counters
- Displaying MAC ACL information
- Configuring QoS using the CEE CLI
- Configuring FCoE using the Fabric OS CLI
- Administering the switch
- Configuring RMON using the CEE CLI
- Index
70 Converged Enhanced Ethernet Administrator’s Guide
53-1001258-01
Link aggregation overview
5
LACP
LACP is an IEEE 802.3ad standards-based protocol that allows two partner systems to dynamically
negotiate attributes of physical links between them to form logical trunks. LACP determines
whether a link can be aggregated into a LAG. If a link can be aggregated into a LAG, LACP puts the
link into the LAG. All links in a LAG inherit the same administrative characteristics. LACP operates in
two modes:
• Passive mode—LACP responds to Link Aggregation Control Protocol Data Units (LACPDUs)
initiated by its partner system but does not initiate the LACPDU exchange.
• Active mode—LACP initiates the LACPDU exchange regardless of whether the partner system
sends LACPDUs.
Dynamic link aggregation
Dynamic link aggregation uses LACP to negotiate which links can be added and removed from a
LAG. Typically, two partner systems sharing multiple physical Ethernet links can aggregate a
number of those physical links using LACP. LACP creates a LAG on both partner systems and
identifies the LAG by the LAG ID. All links with the same administrative key and all links that are
connected to the same partner switch become members of the LAG. LACP continuously exchanges
LACPDUs to monitor the health of each member link.
Static link aggregation
In static link aggregation, links are added into a LAG without exchanging LACPDUs between the
partner systems. The distribution and collection of frames on static links is determined by the
operational status and administrative state of the link.
Brocade-proprietary aggregation
Brocade-proprietary aggregation is similar to standards-based link aggregation but differs in how
the traffic is distributed. It also has additional rules that member links must meet before they are
aggregated:
• The most important rule requires that there is not a significant difference in the length of the
fiber between the member links, and that all member links are part of the same port-group.
The ports that belong to port-group 1, port-group 2, and port-group 3 are te0/0 to te0/7, te0/8
to te0/15, and te0/16 to te0/23, respectively.
• A maximum of four Brocade LAGs can be created per port-group.
LAG distribution process
The LAG aggregator is associated with the collection and distribution of Ethernet frames. The
collection and distribution process is required to guarantee the following:
• Inserting and capturing control PDUs.
• Restricting the traffic of a given conversation to a specific link.
• Load balancing between individual links.
• Handling dynamic changes in LAG membership.