Would WebSockets security vulnerabilities be a showstopper
Christian Karasiewicz 270005XS4E Visits (6481)
This blog post is contributed by Nguyen Van Duy, an IBM Associate Certified IT Architect with GTS Vietnam, working for GBS Innovation Center as the development team leader in Vietnam.
When you’re developing interactive applications with simultaneous editing ability (for example, a virtual collaborative whiteboard, chat, online game or real-time reporting system over the web), using the traditional loosely coupled HTTP request/response web model is obviously not an efficient way to go. That approach is simply not designed for a real-time model. We need a more lightweight protocol that can provide a full-duplex communication channel between endpoints of the system to achieve as near a real-time experience as possible.
This need is becoming critical as such applications are deployed and run in the mobile world, where the resources for staying connected are sometimes very limited: limited bandwidth, limited memory, lots of potential latency.
A number of creative appr
Using WebSockets is a big step forward in the effort to create an engaging, interactive user experience. It could provide capabilities such as real bidirectional communication, low latency, significant reduction of overhead and dramatically reduced complexity of implementation.
From a security standpoint, though, some people are afraid of using
WebSockets due to some risks that would create vulnerabilities.
WebSockets’ application programming interface (API) allows establishing
WebSockets connections across domains without the user’s
acknowledgement, and requests are sent without notifying the user. This
into the victim’s client application (the user agent; for example,
browser, mobile app and so forth) to establish a WebSockets connection
to an arbitrary target. The connection can then be utilized by the
attacker for malicious purposes, such as:
Friendship between WebSockets and proxies, firewalls
In November 2010, a serious security issue involving WebSockets was reported. WebSockets was still not adopted widely enough, so some transparent proxies didn’t correctly understand the HTTP upgrade mechanism being used for the handshaking of WebSockets and thus can potentially allow a cache poisoning attack. Frame-masking was added to avoid that vulnerability, but in turn the frame-masking and other natural lightweight features of the protocol (lack of metadata like HTTP header, content length) challenge the virus and malware scanning tools in analyzing the data patterns to detect malicious content in a malicious usage of WebSockets channel.
The vulnerabilities are mostly not specific to WebSockets API or the protocol, but the freedom of the new data exchange model opens up more threats and more attention is needed to secure the communication. Best practices for traditional web programming should still be applied for WebSockets.
Be well aware of the security vulnerabilities of using WebSockets. Dealing with them properly will help you to build a secure, interactive mobile application and enjoy the near real-time experience on your mobile devices in a collaborative world where time is precious and conserving resources is critical.