Users Guide
Table Of Contents
- OS10 Enterprise Edition User Guide Release 10.3.2E(R2)
- Getting Started
- Download OS10 image and license
- Installation
- Log into OS10
- Install OS10 license
- Remote access
- Upgrade OS10
- CLI Basics
- User accounts
- Key CLI features
- CLI command modes
- CLI command hierarchy
- CLI command categories
- CONFIGURATION Mode
- Command help
- Check device status
- Candidate configuration
- Change to transaction-based configuration
- Back up or restore configuration
- Reload system image
- Filter show commands
- Alias command
- Batch mode commands
- Linux shell commands
- SSH commands
- OS9 environment commands
- Common commands
- alias
- batch
- boot
- commit
- configure
- copy
- delete
- dir
- discard
- do
- feature config-os9-style
- exit
- license
- lock
- management route
- move
- no
- reload
- show alias
- show boot
- show candidate-configuration
- show environment
- show inventory
- show ip management-route
- show ipv6 management-route
- show license status
- show running-configuration
- show startup-configuration
- show system
- show version
- start
- system
- system identifier
- terminal
- traceroute
- unlock
- write
- Interfaces
- Ethernet interfaces
- L2 mode configuration
- L3 mode configuration
- Management interface
- VLAN interfaces
- Loopback interfaces
- Port-channel interfaces
- Create port-channel
- Add port member
- Minimum links
- Assign Port Channel IP Address
- Remove or disable port-channel
- Load balance traffic
- Change hash algorithm
- Configure interface ranges
- Forward error correction
- View interface configuration
- Interface commands
- channel-group
- description (Interface)
- duplex
- fec
- interface breakout
- interface ethernet
- interface loopback
- interface mgmt
- interface null
- interface port-channel
- interface range
- interface vlan
- link-bundle-utilization
- mgmt
- mtu
- show interface
- show link-bundle-utilization
- show port-channel summary
- show vlan
- shutdown
- speed (Management)
- switchport access vlan
- switchport mode
- switchport trunk allowed vlan
- Layer 2
- 802.1X
- Link aggregation control protocol
- Link layer discovery protocol
- Protocol data units
- Optional TLVs
- Organizationally-specific TLVs
- Media endpoint discovery
- Network connectivity device
- LLDP-MED capabilities TLV
- Network policies TLVs
- Define network policies
- Packet timer values
- Disable and re-enable LLDP
- Advertise TLVs
- Network policy advertisement
- Fast start repeat count
- View LLDP configuration
- Adjacent agent advertisements
- Time to live
- LLDP commands
- Media Access Control
- Multiple spanning-tree protocol
- Rapid per-VLAN spanning-tree plus
- Rapid spanning-tree protocol
- Virtual LANs
- Port monitoring
- Layer 3
- Border gateway protocol
- Sessions and peers
- Route reflectors
- Multiprotocol BGP
- Attributes
- Selection criteria
- Weight and local preference
- Multiexit discriminators
- Origin
- AS path and next-hop
- Best path selection
- More path support
- Advertise cost
- 4-Byte AS numbers
- AS number migration
- Configure border gateway protocol
- Enable BGP
- Configure Dual Stack
- Peer templates
- Neighbor fall-over
- Fast external fallover
- Passive peering
- Local AS
- AS number limit
- Redistribute routes
- Additional paths
- MED attributes
- Local preference attribute
- Weight attribute
- Enable multipath
- Route-map filters
- Route reflector clusters
- Aggregate routes
- Confederations
- Route dampening
- Timers
- Neighbor soft-reconfiguration
- BGP commands
- Equal cost multi-path
- IPv4 routing
- IPv6 routing
- Open shortest path first
- Object tracking manager
- Policy-based routing
- Virtual router redundancy protocol
- Border gateway protocol
- System management
- Access Control Lists
- IP ACLs
- MAC ACLs
- IP fragment handling
- L3 ACL rules
- Assign sequence number to filter
- L2 and L3 ACLs
- Assign and apply ACL filters
- Ingress ACL filters
- Egress ACL filters
- Clear access-list counters
- IP prefix-lists
- Route-maps
- Match routes
- Set conditions
- continue Clause
- ACL flow-based monitoring
- Enable flow-based monitoring
- ACL commands
- clear ip access-list counters
- clear ipv6 access-list counters
- clear mac access-list counters
- deny
- deny (IPv6)
- deny (MAC)
- deny icmp
- deny icmp (IPv6)
- deny ip
- deny ipv6
- deny tcp
- deny tcp (IPv6)
- deny udp
- deny udp (IPv6)
- description
- ip access-group
- ip access-list
- ip as-path deny
- ip as-path permit
- ip community-list standard deny
- ip community–list standard permit
- ip extcommunity-list standard deny
- ip extcommunity-list standard permit
- ip prefix-list description
- ip prefix-list deny
- ip prefix-list permit
- ip prefix-list seq deny
- ip prefix-list seq permit
- ipv6 access-group
- ipv6 access-list
- ipv6 prefix-list deny
- ipv6 prefix-list description
- ipv6 prefix-list permit
- ipv6 prefix-list seq deny
- ipv6 prefix-list seq permit
- mac access-group
- mac access-list
- permit
- permit (IPv6)
- permit (MAC)
- permit icmp
- permit icmp (IPv6)
- permit ip
- permit ipv6
- permit tcp
- permit tcp (IPv6)
- permit udp
- permit udp (IPv6)
- remark
- seq deny
- seq deny (IPv6)
- seq deny (MAC)
- seq deny icmp
- seq deny icmp (IPv6)
- seq deny ip
- seq deny ipv6
- seq deny tcp
- seq deny tcp (IPv6)
- seq deny udp
- seq deny udp (IPv6)
- seq permit
- seq permit (IPv6)
- seq permit (MAC)
- seq permit icmp
- seq permit icmp (IPv6)
- seq permit ip
- seq permit ipv6
- seq permit tcp
- seq permit tcp (IPv6)
- seq permit udp
- seq permit udp (IPv6)
- show access-group
- show access-lists
- show ip as-path-access-list
- show ip community-list
- show ip extcommunity-list
- show ip prefix-list
- Route-map commands
- continue
- match as-path
- match community
- match extcommunity
- match interface
- match ip address
- match ip next-hop
- match ipv6 address
- match ipv6 next-hop
- match metric
- match origin
- match route-type
- match tag
- route-map
- set comm-list delete
- set community
- set extcomm-list delete
- set extcommunity
- set local-preference
- set metric
- set metric-type
- set next-hop
- set origin
- set tag
- set weight
- show route-map
- Quality of service
- Configure quality of service
- Class-map configuration
- Policy-map configuration
- Ingress traffic classification
- Queue selection
- Strict priority queuing
- Class of service or dot1p classification
- Mark traffic
- Traffic metering
- Bandwidth allocation
- Service-policy rate-shaping
- Policy-based rate-policing
- Storm control
- Control-plane policing
- Queue management
- Verify configuration
- Egress queue statistics
- QoS commands
- bandwidth
- class
- class-map
- clear interface
- clear qos statistics
- clear qos statistics type
- control-plane
- flowcontrol
- match
- match cos
- match dscp
- match precedence
- match queue
- match vlan
- pause
- police
- policy-map
- priority
- qos-group dot1p
- qos-group dscp
- queue qos-group
- random-detect
- service-policy
- set cos
- set dscp
- set qos-group
- shape
- show class-map
- show control-plane info
- show control-plane statistics
- show qos interface
- show policy-map
- show qos control-plane
- show qos egress bufffers interface
- show egress buffer-stats interface
- show qos ingress buffers interface
- show ingress buffer-stats interface
- show qos system
- show qos system buffers
- show qos maps
- system qos
- trust
- trust dot1p-map
- trust dscp-map
- qos-map traffic-class
- trust-map
- Virtual link trunking
- Converged data center services
- sFlow
- Troubleshoot OS10
- Support resources
• Source and destination TCP port number
• Source and destination UDP port number
For ACL, TCP, and UDP lters, match criteria on specic TCP or UDP ports. For ACL TCP lters, you can also match criteria on established
TCP sessions.
When creating an ACL, the sequence of the lters is important. You can assign sequence numbers to the lters as you enter them or OS10
can assign numbers in the order you create the lters. The sequence numbers display in the show running-configuration and
show ip access-lists [in | out] command output.
Ingress and egress hot-lock ACLs allow you to append or delete new rules into an existing ACL without disrupting trac ow. Existing
entries in the CAM shue to accommodate the new entries. Hot-lock ACLs are enabled by default and support ACLs on all platforms.
NOTE: Hot-lock ACLs support ingress ACLs only.
MAC ACLs
MAC ACLs lter trac on the Layer 2 (L2) header of a packet. This trac ltering is based on:
Source MAC packet
address
MAC address range—address mask in 3x4 dotted hexadecimal notation, and any to denote that the rule matches
all source addresses.
Destination MAC
packet address
MAC address range—address-mask in 3x4 dotted hexadecimal notation, and any to denote that the rule matches
all destination addresses.
Packet protocol Set by its EtherType eld contents and Assigned protocol number for all protocols.
VLAN ID Set in the packet header
Class of service Present in the packet header
IPv4/IPv6 and MAC ACLs apply separately for inbound and outbound packets. You can assign an interface to multiple ACLs, with a limit of
one ACL per packet direction per ACL type.
IP fragment handling
OS10 supports a congurable option to explicitly deny IP fragmented packets, particularly for the second and subsequent packets. This
option extends the existing ACL command syntax with the fragments keyword for all Layer 3 (L3) rules:
• Second and subsequent fragments are allowed because you cannot apply a L3 rule to these fragments. If the packet is to be denied
eventually, the rst fragment must be denied and the packet as a whole cannot be reassembled.
• The system applies implicit permit for the second and subsequent fragment prior to the implicit deny.
• If you congure an explicit deny, the second and subsequent fragments do not hit the implicit permit rule for fragments.
IP fragments ACL
When a packet exceeds the maximum packet size, the packet is fragmented into a number of smaller packets that contain portions of the
contents of the original packet. This packet ow begins with an initial packet that contains all of the Layer 3 (L3) and Layer 4 (L4) header
information contained in the original packet, and is followed by a number of packets that contain only the L3 header information.
This packet ow contains all of the information from the original packet distributed through packets that are small enough to avoid the
maximum packet size limit. This provides a particular problem for ACL processing.
If the ACL lters based on L4 information, the non-initial packets within the fragmented packet ow will not match the L4 information, even
if the original packet would have matched the lter. Because of this ltering, packets are not processed by the ACL.
Access Control Lists
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