05-Network Connectivity

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09-IP performance optimization configuration
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09-IP performance optimization configuration 108.99 KB

Optimizing IP performance

IP performance optimization tasks at a glance

All IP performance optimization tasks are optional.

1.     Configuring features for IP packets

¡     Enabling an interface to receive and forward directed broadcasts destined for the directly connected network

¡     Setting the interface MTU for IPv4 packets

2.     Configuring features for ICMP messages

¡     Enabling sending ICMP error messages

¡     Configuring rate limit for ICMP error messages

¡     Specifying the source address for ICMP packets

3.     Configuring features for TCP packets

¡     Setting TCP MSS for an interface

¡     Configuring TCP path MTU discovery

¡     Enabling SYN Cookie

¡     Setting the TCP buffer size

¡     Setting TCP timers

Enabling an interface to receive and forward directed broadcasts destined for the directly connected network

About forwarding broadcasts destined for the directly connected network

A directed broadcast packet is destined for all hosts on a specific network. In the destination IP address of the directed broadcast, the network ID identifies the target network, and the host ID is made up of all ones.

This feature enables an interface to accept and forward the following directed broadcast packets:

·     Accept directed broadcast packets that are destined for and received from the directly connected network.

·     Forward directed broadcast packets that are destined for the directly connected network and are received from another subnet.

Hackers can use directed broadcast packets to attack the target network. In some scenarios, however, an interface must receive and send directed broadcast packets to support Wake on LAN. Wake on LAN sends the directed broadcasts to wake up the hosts on the target network.

In this case, you can enable this feature on the interface.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Enable the interface to receive and forward directed broadcasts destined for the directly connected network.

ip forward-broadcast

By default, an interface cannot forward directed broadcasts destined for the directly connected network, and it can receive directed broadcasts destined for the directly connected network.

Setting the interface MTU for IPv4 packets

About this task

The interface MTU for IPv4 packets defines the largest size of an IPv4 packet that an interface can transmit without fragmentation. When a packet exceeds the MTU of the sending interface, the device processes the packet in one of the following ways:

·     If the packet disallows fragmentation, the device discards it.

·     If the packet allows fragmentation, the device fragments it and forwards the fragments.

Fragmentation and reassembling consume system resources, so set the MTU based on the network environment to avoid fragmentation.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Set the interface MTU for IPv4 packets.

ip mtu mtu-size

By default, the interface MTU is not set.

Enabling IPv4 local fragment reassembly

About this task

Procedure

1.     Enter system view.

system-view

2.     Enable IPv4 local fragment reassembly.

ip reassemble local enable

By default, IPv4 local fragment reassembly is disabled.

Enabling sending ICMP error messages

About sending ICMP error messages

ICMP messages are used by network layer and transport layer protocols to communicate updates and errors with other devices, facilitating network management.

Sending excessive ICMP messages increases network traffic. The device performance degrades if it receives a lot of malicious ICMP messages that cause it to respond with ICMP error messages. To prevent such problems, the sending of ICMP error messages is disabled by default. You can enable sending ICMP error messages of different types as needed.

ICMP error messages include redirect messages, time exceeded messages, and destination unreachable messages.

Enabling sending ICMP redirect messages

About this task

A host that has only one default route sends all packets to the default gateway. The default gateway sends an ICMP redirect message to inform the host of a correct next hop when the following conditions are met:

·     The receiving and sending interfaces are the same.

·     The packet source IP address and the IP address of the packet receiving interface are on the same segment.

·     There is no source route option in the received packet.

ICMP redirect messages simplify host management and enable hosts to gradually optimize their routing table.

Procedure

1.     Enter system view.

system-view

2.     Enable sending ICMP redirect messages.

ip redirects enable

By default, the sending of ICMP redirect messages is disabled.

Enabling sending ICMP time exceeded messages

About this task

A device sends ICMP time exceeded messages by following these rules:

·     The device sends the source an ICMP TTL exceeded in transit message when the following conditions are met:

¡     The received packet is not destined for the device.

¡     The TTL field of the packet is 1.

·     When the device receives the first fragment of an IP datagram destined for it, it starts a timer. If the timer expires before all the fragments of the datagram are received, the device sends an ICMP fragment reassembly time exceeded message to the source.

Restrictions and guidelines

If the ICMP time exceeded message sending is disabled, the device does not send ICMP TTL exceeded in transit messages. However, it can still send ICMP fragment reassembly time exceeded messages.

Procedure

1.     Enter system view.

system-view

2.     Enable sending ICMP time exceeded messages.

ip ttl-expires enable

By default, the sending of ICMP time exceeded messages is disabled.

Enable sending ICMP destination unreachable messages

About this task

A device sends ICMP destination unreachable messages by following these rules:

·     The device sends the source an ICMP network unreachable message when the following conditions are met:

¡     The packet does not match any route.

¡     No default route exists in the routing table.

·     The device sends the source an ICMP protocol unreachable message when the following conditions are met:

¡     The packet is destined for the device.

¡     The transport layer protocol of the packet is not supported by the device.

·     The device sends the source an ICMP port unreachable message when the following conditions are met:

¡     The UDP packet is destined for the device.

¡     The packet's port number does not match the corresponding process.

·     The device sends the source an ICMP source route failed message when the following conditions are met:

¡     The source uses Strict Source Routing to send packets.

¡     The intermediate device finds that the next hop specified by the source is not directly connected.

·     The device sends the source an ICMP fragmentation needed and DF set message when the following conditions are met:

¡     The MTU of the sending interface is smaller than the packet.

¡     The packet has DF set.

Restrictions and guidelines

If a DHCP-enabled device receives an ICMP echo reply without sending any ICMP echo requests, the device does not send any ICMP protocol unreachable messages to the source. For more information about DHCP, see Network Connectivity Command Reference.

Procedure

1.     Enter system view.

system-view

2.     Enable sending ICMP destination unreachable messages.

ip unreachables enable

By default, the sending of ICMP destination unreachable messages is disabled.

Configuring rate limit for ICMP error messages

About this task

To avoid sending excessive ICMP error messages within a short period that might cause network congestion, you can limit the rate at which ICMP error messages are sent. A token bucket algorithm is used with one token representing one ICMP error message.

A token is placed in the bucket at intervals until the maximum number of tokens that the bucket can hold is reached.

A token is removed from the bucket when an ICMP error message is sent. When the bucket is empty, ICMP error messages are not sent until a new token is placed in the bucket.

Procedure

1.     Enter system view.

system-view

2.     Set the interval for tokens to arrive in the bucket for ICMP error messages and the bucket size.

ip icmp error-interval interval [ bucketsize ]

By default, a token is placed in the bucket at an interval of 100 milliseconds, and the bucket allows a maximum of 10 tokens.

To disable the ICMP rate limit, set the interval to 0 milliseconds.

Specifying the source address for ICMP packets

About this task

Specifying the source IP address for outgoing ping echo requests and ICMP error messages helps users to locate the sending device easily. As a best practice, specify the IP address of the loopback interface as the source IP address.

Restrictions and guidelines

If you specify an IP address in the ping command, ping echo requests use the specified address as the source IP address rather than the IP address specified by the ip icmp source command.

Procedure

1.     Enter system view.

system-view

2.     Specify the source address for outgoing ICMP packets.

ip icmp source ip-address

By default, no source address is specified for outgoing ICMP packets. The device uses the IP address of the sending interface as the source IP address for outgoing ICMP packets.

Setting TCP MSS for an interface

About this task

The maximum segment size (MSS) option informs the receiver of the largest segment that the sender can accept. Each end announces its MSS during TCP connection establishment. If the size of a TCP segment is smaller than the MSS of the receiver, TCP sends the TCP segment without fragmentation. If not, it fragments the segment according to the receiver's MSS.

Restrictions and guidelines

·     If you set the TCP MSS on an interface, the size of each TCP segment received or sent on the interface cannot exceed the MSS value.

·     This configuration takes effect only for TCP connections established after the configuration rather than the TCP connections that already exist.

·     This configuration is effective only for IP packets.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Set the TCP MSS for the interface.

tcp mss value

By default, the TCP MSS is not set.

Configuring TCP path MTU discovery

About this task

TCP path MTU discovery (in RFC 1191) discovers the path MTU between the source and destination ends of a TCP connection. The device uses the path MTU to calculate the MSS to avoid IP fragmentation. The path MTU uses an aging mechanism to ensure that the source device can increase the path MTU when the minimum link MTU on the path increases.

TCP path MTU discovery works as follows:

1.     A TCP source device sends a packet with the Don't Fragment (DF) bit set.

2.     A router discards the packet that exceeds the MTU of the outgoing interface and returns an ICMP error message. The error message contains the MTU of the outgoing interface.

3.     Upon receiving the ICMP message, the TCP source device calculates the current path MTU of the TCP connection.

4.     The TCP source device sends subsequent TCP segments that each are smaller than the MSS (MSS = path MTU – IP header length – TCP header length).

If the TCP source device still receives ICMP error messages when the MSS is smaller than 32 bytes, the TCP source device will fragment packets.

An ICMP error message received from a router that does not support RFC 1191 has the MTU of the outgoing interface set to 0. Upon receiving the ICMP message, the TCP source device selects the path MTU smaller than the current path MTU from the MTU table as described in RFC 1191. Based on the selected path MTU, the TCP source device calculates the TCP MSS. The MTU table contains MTUs of 68, 296, 508, 1006, 1280, 1492, 2002, 4352, 8166, 17914, 32000, and 65535 bytes. Because the minimum TCP MSS specified by the system is 32 bytes, the actual minimum MTU is 72 bytes.

The aging mechanism of the path MTU is as follows:

·     When the TCP source device receives an ICMP error message, it reduces the path MTU and starts an aging timer for the path MTU.

·     After the aging timer expires, the source device uses a larger MSS in the MTU table, as described in RFC 1191.

·     If no ICMP error message is received within two minutes, the source device increases the MSS again until the MSS negotiated during TCP three-way handshake is reached.

Prerequisites

Make sure all devices on a TCP connection are enabled to send ICMP error messages by using the ip unreachables enable command.

Procedure

1.     Enter system view.

system-view

2.     Enable TCP path MTU discovery.

tcp path-mtu-discovery [ aging age-time | no-aging ]

By default, TCP path MTU discovery is disabled.

Enabling SYN Cookie

About this task

A TCP connection is established through a three-way handshake. An attacker can exploit this mechanism to mount SYN Flood attacks. The attacker sends a large number of SYN packets, but does not respond to the SYN ACK packets from the server. As a result, the server establishes a large number of TCP semi-connections and can no longer handle normal services.

SYN Cookie can protect the server from SYN Flood attacks. When the server receives a SYN packet, it responds with a SYN ACK packet without establishing a TCP semi-connection. The server establishes a TCP connection and enters ESTABLISHED state only when it receives an ACK packet from the client.

Procedure

1.     Enter system view.

system-view

2.     Enable SYN Cookie.

tcp syn-cookie enable

By default, SYN Cookie is disabled.

Setting the TCP buffer size

1.     Enter system view.

system-view

2.     Set the size of TCP receive/send buffer.

tcp window window-size

The default buffer size is 63 KB.

Setting TCP timers

About this task

You can set the following TCP timers:

·     SYN wait timer—TCP starts the SYN wait timer after sending a SYN packet. Within the SYN wait timer if no response is received or the upper limit on TCP connection tries is reached, TCP fails to establish the connection.

·     FIN wait timer—TCP starts the FIN wait timer when TCP changes the connection state to FIN_WAIT_2. If no FIN packet is received within the timer interval, TCP terminates the connection. If a FIN packet is received, TCP changes the connection state to TIME_WAIT. If a non-FIN packet is received, TCP restarts the timer, and tears down the connection when the timer expires.

Procedure

1.     Enter system view.

system-view

2.     Set the TCP SYN wait timer.

tcp timer syn-timeout time-value

By default, the TCP SYN wait timer is 75 seconds.

3.     Set the TCP FIN wait timer.

tcp timer fin-timeout time-value

By default, the TCP FIN wait timer is 675 seconds.

Display and maintenance commands for IP performance optimization

IMPORTANT

IMPORTANT:

The WX1800H series, WX2500H series, and WX3000H series access controllers do not support parameters or commands that are available only in IRF mode.

Execute display commands in any view and reset commands in user view.

 

Task

Command

Display ICMP statistics.

In standalone mode:

display icmp statistics

In IRF mode:

display icmp statistics [ slot slot-number ]

Display IP packet statistics.

In standalone mode:

display ip statistics

In IRF mode:

display ip statistics [ slot slot-number ]

Display brief information about RawIP connections.

In standalone mode:

display rawip

In IRF mode:

display rawip [ slot slot-number ]

Display detailed information about RawIP connections.

In standalone mode:

display rawip verbose [ pcb pcb-index ]

In IRF mode:

display rawip verbose [ slot slot-number [ pcb pcb-index ] ]

Display brief information about TCP connections.

In standalone mode:

display tcp

In IRF mode:

display tcp [ slot slot-number ]

Display TCP traffic statistics.

In standalone mode:

display tcp statistics

In IRF mode:

display tcp statistics [ slot slot-number ]

Display detailed information about TCP connections.

In standalone mode:

display tcp verbose [ pcb pcb-index ]

In IRF mode:

display tcp verbose [ slot slot-number [ pcb pcb-index ] ]

Display brief information about TCP proxy.

In standalone mode:

display tcp-proxy

In IRF mode:

display tcp-proxy slot slot-number

Display the usage of non-well known ports for TCP proxy.

In standalone mode:

display tcp-proxy port-info

In IRF mode:

display tcp-proxy port-info slot slot-number

Display brief information about UDP connections.

In standalone mode:

display udp

In IRF mode:

display udp [ slot slot-number ]

 Display UDP traffic statistics.

In standalone mode:

display udp statistics

In IRF mode:

display udp statistics [ slot slot-number ]

Display detailed information about UDP connections.

In standalone mode:

display udp verbose [ pcb pcb-index ]

In IRF mode:

display udp verbose [ slot slot-number [ pcb pcb-index ] ]

Clear IP packet statistics.

In standalone mode:

reset ip statistics

In IRF mode:

reset ip statistics [ slot slot-number ]

Clear TCP traffic statistics.

reset tcp statistics

Clear UDP traffic statistics.

reset udp statistics

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