HTTP PUT flood is a layer 7 DDoS attack that targets web servers and applications.
Layer 7 is the application layer of the OSI model. The HTTP protocol – is an Internet protocol which is the basis of browser-based Internet requests, and is commonly used to send form contents over the Internet or to load web pages.
HTTP PUT floods are designed to overwhelm web servers’ resources by continuously requesting single or multiple URL’s from many sources attacking machines, which simulate an HTTP clients, such as web browsers (Though the attack analyzed here, does not use browser emulation).
An HTTP PUT Flood consists of PUT requests. Unlike other HTTP floods that may include other request methods such as POST, DELETE, GET, etc.
When the server’s limits of concurrent connections are reached, the server can no longer respond to legitimate requests from other clients attempting to PUT, causing a denial of service.
HTTP PUT flood attacks use standard URL requests, hence it may be quite challenging to differentiate from valid traffic. Traditional rate-based volumetric detection is ineffective in detecting HTTP PUT flood attacks since traffic volume in HTTP PUT floods is often under detection thresholds. However, HTTP PUT flood uses the less common PUT method. As such, it may be beneficial to review network traffic carefully when witnessing many such incoming requests.
Technical analysis
To send an HTTP PUT request client establishes a TCP connection. Before sending an HTTP PUT request a TCP connection between a client and a server is established, using 3-Way Handshake (SYN, SYN-ACK, ACK), seen in packets 96,138,139 in Image 1. The HTTP request will be in a PSH, ACK packet.
Image 1 – Example of TCP connection
An attacker (IP 10.128.0.2) sends HTTP/1.1 PUT requests, while the target responds with HTTP/1.1 405 Method Not Allowed as seen in Image 2.
While in this flow we see an HTTP/1.1 405 Method Not Allowed response, that might change depending on the web server settings.
Image 2 – Example of HTTP packets exchange between an attacker and a target:
The capture analyzed is around 3.5 seconds long while it contains an average of 81 PPS (packets per second), with an average traffic rate of 0.08 Mbps (considered low, the attack you are analyzing could be significantly higher).
Image 3 – HTTP Flood stats
Analysis of HTTP PUT Flood in WireShark – Filters
“http” filter – Will show all http related packets.
“http.request.method == PUT” – Will show HTTP PUT requests.
It will be important to review the user agent and other HTTP header structures as well as the timing of each request to understand the attack underway.
Download example PCAP of HTTP PUT Flood attack
*Note: IP’s have been randomized to ensure privacy.
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