- About the Documentation
- Chapter 1, ML-Series Card Overview
- Chapter 2, CTC Operations
- Chapter 3, Initial Configuration
- Chapter 4, Configuring Interfaces
- Chapter 5, Configuring POS
- Chapter 6, Configuring Bridges
- Chapter 7, Configuring STP and RSTP
- Chapter 8, Configuring VLANs
- Chapter 9, Configuring IEEE 802.1Q Tunneling and Layer 2 Protocol Tunneling
- Chapter 10, Configuring Link Aggregation
- Chapter 11, Configuring Networking Protocols
- Chapter 12, Configuring IRB
- Chapter 13, Configuring VRF Lite
- Chapter 14, Configuring Quality of Service
- Chapter 15, Configuring the Switching Database Manager
- Chapter 16, Configuring Access Control Lists
- Chapter 17, Configuring Resilient Packet Ring
- Chapter 18, Configuring Ethernet over MPLS
- Chapter 19, POS on ONS Ethernet Cards
- Chapter 20, E-Series and G-Series Ethernet Operation
- Chapter 21, CE-100T-8 Ethernet Operation
- Appendix A, Command Reference
- Appendix B, Unsupported CLI Commands
- Appendix C, Using Technical Support
Configuring the Switching Database Manager
This chapter describes the switching database manager (SDM) features built into the ML100T-12 and ML1000-2 cards.
This chapter contains the following major sections:
Understanding the SDM
ML-Series cards use the forwarding engine and ternary content-addressable memory (TCAM) to implement high-speed forwarding. The high-speed forwarding information is maintained in TCAM. The SDM is the software subsystem that manages the switching information maintained in TCAM.
SDM organizes the switching information in TCAM into application-specific regions and configures the size of these application regions. SDM enables exact-match and longest-match address searches, which result in high-speed forwarding. SDM manages TCAM space by partitioning application-specific switching information into multiple regions.
TCAM identifies a location index associated with each packet forwarded and conveys it to the forwarding engine. The forwarding engine uses this location index to derive information associated with each forwarded packet.
The key benefits of SDM in switching are its ability to organize the switching information in TCAM into application-specific regions and its ability to configure the size of these application regions. SDM enables exact-match and longest-match address searches, which result in high-speed forwarding.
SDM Regions
SDM partitions TCAM space into multiple application-specific regions and interacts with the individual application control layers to store switching information. SDM consists of the following types of regions:
•Exact-match region—The exact-match region consists of entries for multiple application regions such as IP adjacencies.
•Longest-match region—Each longest-match region consists of multiple buckets or groups of
Layer 3 address entries organized in decreasing order by mask length. All entries within a bucket share the same mask value and key size. The buckets can change their size dynamically by borrowing address entries from neighboring buckets. Although the size of the whole application region is fixed, you can reconfigure it.
•Weighted-exact-match region—The weighted-exact-match region consists of exact-match-entries with an assigned weight or priority. For example, with quality of service (QoS), multiple exact match entries might exist, but some have priority over others. The weight is used to select one entry when multiple entries match.
TCAM space consists of 65,536 entries, each entry being 64 bits wide. Because SDM is responsible for managing TCAM space, SDM partitions the entire TCAM space for each application region based on user configuration. Although the maximum size of all application regions is fixed, you can reconfigure the maximum size of each application region.
Table 15-1 lists default partitioning for each application region in TCAM.
Configuring SDM
This section describes the commands necessary to configure the SDM. It includes commands to configure the size of the SDM regions. The commands described in this section are unique to the switching software.
Configuring SDM Regions
TCAM space consists of 65,536 entries, each entry being 64 bits wide. Since SDM is responsible for managing TCAM space, SDM partitions the entire TCAM space for each application region based on user configuration. A change in the partition configuration takes effect the next time you reboot the system.
The application region size in SDM is represented by the number of 64-bit entries. The combined size of all the application regions should be calculated in terms of 64-bit TCAM entries and should not exceed 65,536 bytes, which is the total TCAM size.
To configure SDM maximum size for each application region, perform the following procedure, beginning in global configuration mode:
An example of this is shown in Example 15-1.
Example 15-1 Limiting the IP-Prefix Region to 2K Entries
Router # configure terminal
Router(config)# sdm size ip-prefix k-entries 2
Router(config)# end
To display the number of available TCAM entries, enter the show sdm size command from global configuration mode:
Router # show sdm size
Active Switching Database Region Maximum Sizes :
IP Adjacency : 65536 64-bit entries
IP Prefix : 2048 64-bit entries
QoS Classifiers : 65536 64-bit entries
IP VRF Prefix : 65536 64-bit entries
IP Multicast : 65536 64-bit entries
MAC Addr : 65536 64-bit entries
Access List : 65536 64-bit entries
Configuring Access Control List Size in TCAM
The default maximum size of the access control list (ACL) is 65,536 64-bit entries. You can enter the sdm access-list command to limit the TCAM space for ACLs, as shown in Table 15-2.
An example of this is shown in Example 15-2.
Example 15-2 Configuring 8,192 Entries for the ACL Region in TCAM
Router# configure terminal
Router(config)# sdm access-list 8192
Router(config)# end