SYN flood
A SYN flood is a form of denial-of-service attack in which an attacker sends a succession of SYN
requests to a target's system in an attempt to consume enough server resources to make the system unresponsive to legitimate traffic.
Technical details
Normally when a client attempts to start a TCP connection to a server, the client and server exchange a series of messages which normally runs like this:
- The client requests a connection by sending a
SYN
(synchronize) message to the server. - The server acknowledges this request by sending
SYN-ACK
back to the client. - The client responds with an
ACK
, and the connection is established.
This is called the TCP three-way handshake, and is the foundation for every connection established using the TCP protocol.
A SYN flood attack works by not responding to the server with the expected ACK
code. The malicious client can either simply not send the expected ACK
, or by spoofing the source IP address in the SYN
, causing the server to send the SYN-ACK
to a falsified IP address - which will not send an ACK
because it "knows" that it never sent a SYN
.
The server will wait for the acknowledgement for some time, as simple network congestion could also be the cause of the missing ACK
. However, in an attack, the half-open connections created by the malicious client bind resources on the server and may eventually exceed the resources available on the server. At that point, the server cannot connect to any clients, whether legitimate or otherwise. This effectively denies service to legitimate clients. Some systems may also malfunction or crash when other operating system functions are starved of resources in this way.
Countermeasures
There are a number of well-known countermeasures listed in RFC 4987 including:
- Filtering
- Increasing Backlog
- Reducing SYN-RECEIVED Timer
- Recycling the Oldest Half-Open TCP
- SYN Cache
- SYN cookies
- Hybrid Approaches
- Firewalls and Proxies
See also
- Denial-of-service attack
- Fraggle attack
- Internet Control Message Protocol
- IP address spoofing
- Ping flood
- Smurf attack
- UDP flood attack