H3C Technologies H3C SecPath F1000-E User Manual

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Field Description

Scan

A scanning attack probes the addresses and ports on a network to identify the hosts
attached to the network and application ports available on the hosts and to figure out
the topology of the network, so as to get ready further attacks.

Source Route

A source route attack exploits the source route option in the IP header to probe the
topology of a network.

Smurf

A Smurf attacker sends large quantities of ICMP echo requests to the broadcast
address of the target network. As a result, all hosts on the target network will reply to

the requests, causing the network congested and hosts on the target network unable to

provide services.

TCP Flag

Some TCP flags are processed differently on different operating systems. A TCP flag
attacker sends TCP packets with such TCP flags to a target to probe its operating

system. If the operating system cannot process such packets properly, the attacker will
successfully make the host crash down.

Tracert

The Tracert program usually sends UDP packets with a large destination port number
and an increasing TTL (starting from 1). The TTL of a packet is decreased by 1 when the

packet passes each router. Upon receiving a packet with a TTL of 0, a router must send

an ICMP time exceeded message back to the source IP address of the packet. A Tracert
attacker exploits the Tracert program to figure out the network topology.

WinNuke

A WinNuke attacker sends out-of-band (OOB) data with the pointer field values
overlapped to the NetBIOS port (139) of a Windows system with an established

connection to introduce a NetBIOS fragment overlap, causing the system to crash.

SYN Flood

A SYN flood attack exploits TCP SYN packets. Due to resource limitation, the number
of TCP connections that can be created on a device is limited. A SYN flood attacker

sends a barrage of spurious SYN packets to a victim to initiate TCP connections. As the
SYN_ACK packets that the victim sends in response can never get acknowledgments,

large amounts of half-open connections are created and retained on the victim, making

the victim inaccessible before the number of half-open connections drops to a

reasonable level due to timeout of half-open connections. In this way, a SYN flood
attack exhausts system resources such as memory on a system whose implementation

does not limit creation of connections.

ICMP Flood

An ICMP flood attack overwhelms the victim with an enormous number of ICMP echo
requests (such as ping packets) in a short period, preventing the victim from providing

services correctly.

UDP Flood

A UDP flood attack overwhelms the victim with an enormous number of UDP packets in
a short period, disabling the victim from providing services correctly.

DNS Flood

A DNS flood attack overwhelms the victim with an enormous number of DNS query
requests in a short period, disabling the victim from providing services correctly.

Number of
connections per
source IP exceeds the

threshold

When an internal user initiates a large number of connections to a host on the external
network in a short period of time, system resources on the device will be used up soon.

This will make the device unable to service other users.

Number of
connections per dest

IP exceeds the
threshold

If an internal server receives large quantities of connection requests in a short period of
time, the server will not be able to process normal connection requests from other hosts.