Dark Reading is part of the Informa Tech Division of Informa PLC

This site is operated by a business or businesses owned by Informa PLC and all copyright resides with them.Informa PLC's registered office is 5 Howick Place, London SW1P 1WG. Registered in England and Wales. Number 8860726.

Application Security

9/26/2019
10:00 AM
Erez Yalon
Erez Yalon
Commentary
Connect Directly
Twitter
LinkedIn
RSS
E-Mail vvv
50%
50%

Why You Need to Think About API Security

Businesses of all sorts are increasingly relying on APIs to interact with customers in smartphone apps, but they have their own unique set of vulnerabilities.

As cyberattackers continue to take advantage of vulnerable people, processes, and technology, they are also expanding their operations beyond the usual targets. Nothing appears to be outside of their jurisdiction, and no one is 100% safe from their malicious campaigns. Although organizations are making progress in protecting themselves, as soon as one attack vector is thwarted, another quickly becomes exposed.

Today's adversaries are focusing on APIs in particular, which are quickly becoming the new attack frontier. Recent reports suggest that by 2022, API abuses will be the vector most responsible for data breaches within enterprise web applications. This is primarily due to the extensive growth of API implementations worldwide, providing a new target that hasn't been widely exploited yet. With this, protecting APIs is becoming more important.

Although the concepts of API security are somewhat new, the attacks that can be performed through them are not. Most organizations have been experiencing similar threats targeting their networks and Internet-facing applications for years. Now, they must focus their efforts on mobile apps, APIs, and back-end servers being targeted by similar methods as seen in the past. Before discussing the risks associated with today's APIs, we must first understand exactly what makes them unique and vulnerable.

API-Based Apps vs. Traditional Apps
API-based apps are significantly different from traditional applications. In the past, users/visitors would access a web server via a browser, for example, and most of the "data processing" was performed on the server itself. As client devices became more varied and increasingly powerful — with faster CPUs, extensive memory, more bandwidth, etc. — much of the logic moved away from being performed on back-end servers to the front end (that is, on the client device itself) as highlighted in the graphic below.

In the modern application at the bottom of this graphic, the downstream server acts more like a proxy for the data consumed by the API-based app. The rendering component in this instance is the client that consumes the raw data, not the server itself.

Many will remember the early days of using smartphones and traditional websites when trying to reserve a flight, for example. People would open a browser on their phone and attempt to use an airline website that was designed for a large computer monitor, not a small smartphone screen. This didn't work too well, and companies began to update their websites by making them more smartphone-friendly. Although this improved the customer experience, navigating a website and completing an airline reservation was still quite cumbersome.  

As a result, airlines, hotels, car rental companies, etc., began to develop their own mobile apps. Instead of trying to reserve a flight using a mobile-friendly version of the airline's website via a browser on their phone, people now download and install the airline's mobile app and use it exclusively when reserving flights directly from their smartphones. So, how is this different? 

When making a flight reservation using an airline mobile app, the app uses API calls that are interacting with back-end servers primarily to retrieve data about flight schedules, availability, pricing, seats, etc. The app is also interacting with the user, allowing the customer to specify travel dates, departure and arrival cities, seat selection, and purchase options. In this case, the smartphone is performing almost all of the processing load of the flight reservation within the mobile app itself, without the use of a browser. Although this has tremendously improved the flight reservation experience overall when using a smartphone, it raises the question: Are APIs just as vulnerable to cyberattacks as browser-based applications?

The Risks Associated with APIs
Unfortunately, APIs are also exposed to attacks and, at a very high level, API security issues exist, similar to their browser-based counterparts. However, since APIs expose the underlying implementation of a mobile app, and the user's state is usually maintained and monitored by the client app, plus more parameters are sent in each HTTP request (object IDs, filters, etc.), some of the security issues surrounding APIs are unique. For the most part, these issues lead to vulnerabilities that can be categorized into three areas of concern:

  • Exposing sensitive data
  • Intercepted communications
  • Launching denial-of-service (DoS) attacks against back-end servers

A Good Project with a Nobel Cause
As a result of a broadening threat landscape and the ever-increasing usage of APIs, I, along with Inon Shkedy, head of security research at Traceable.ai, have been spearheading the OWASP API Security Top 10 Project. The project is designed to help organizations, developers, and application security teams become more aware of the risks of APIs.

Here's what makes the project important: According to the project's site, "a foundational element of innovation in today’s app-driven world is the API. From banks, retail, and transportation to IoT, autonomous vehicles, and smart cities, APIs are a critical part of modern mobile, SaaS, and web applications, and APIs can be found in customer facing, partner facing, and internal applications. By nature, APIs expose application logic and sensitive data such as Personally Identifiable Information (PII) and because of this, have increasingly become a target for attackers. Without secure APIs, rapid innovation would be impossible."

The OWASP API Security Project aims to develop, release, and track an ongoing top 10 list of the risks that organizations face concerning their use of APIs, similar to the OWASP Top 10 Most Critical Web Application Security Risks. From broken object-level authorization to insufficient logging and monitoring, this list rounds up the most critical API risks facing businesses while also providing example attack scenarios and recommendations for mitigating these threats. IT teams, security professionals, and developers alike would be well-advised to carefully read through this list to better understand the benefits of APIs, as well as the potential risks presented through their implementation as adversaries set their sights on this emerging target. 

Related Content:

Check out The Edge, Dark Reading's new section for features, threat data, and in-depth perspectives. Today's top story: "The Beginner's Guide to Denial-of-Service Attacks: A Breakdown of Shutdowns."

Erez Yalon heads the security research group at Checkmarx. With vast defender and attacker experience and as an independent security researcher, he brings invaluable knowledge and skills to the table. Erez is responsible for maintaining Checkmarx's top-notch vulnerability ... View Full Bio
Comment  | 
Print  | 
More Insights
Comments
Oldest First  |  Newest First  |  Threaded View
Why Cyber-Risk Is a C-Suite Issue
Marc Wilczek, Digital Strategist & CIO Advisor,  11/12/2019
DevSecOps: The Answer to the Cloud Security Skills Gap
Lamont Orange, Chief Information Security Officer at Netskope,  11/15/2019
Attackers' Costs Increasing as Businesses Focus on Security
Robert Lemos, Contributing Writer,  11/15/2019
Register for Dark Reading Newsletters
White Papers
Video
Cartoon Contest
Current Issue
Navigating the Deluge of Security Data
In this Tech Digest, Dark Reading shares the experiences of some top security practitioners as they navigate volumes of security data. We examine some examples of how enterprises can cull this data to find the clues they need.
Flash Poll
Twitter Feed
Dark Reading - Bug Report
Bug Report
Enterprise Vulnerabilities
From DHS/US-CERT's National Vulnerability Database
CVE-2019-19040
PUBLISHED: 2019-11-17
KairosDB through 1.2.2 has XSS in view.html because of showErrorMessage in js/graph.js, as demonstrated by view.html?q= with a '"sampling":{"value":"<script>' substring.
CVE-2019-19041
PUBLISHED: 2019-11-17
An issue was discovered in Xorux Lpar2RRD 6.11 and Stor2RRD 2.61, as distributed in Xorux 2.41. They do not correctly verify the integrity of an upgrade package before processing it. As a result, official upgrade packages can be modified to inject an arbitrary Bash script that will be executed by th...
CVE-2019-19012
PUBLISHED: 2019-11-17
An integer overflow in the search_in_range function in regexec.c in Oniguruma 6.x before 6.9.4_rc2 leads to an out-of-bounds read, in which the offset of this read is under the control of an attacker. (This only affects the 32-bit compiled version). Remote attackers can cause a denial-of-service or ...
CVE-2019-19022
PUBLISHED: 2019-11-17
iTerm2 through 3.3.6 has potentially insufficient documentation about the presence of search history in com.googlecode.iterm2.plist, which might allow remote attackers to obtain sensitive information, as demonstrated by searching for the NoSyncSearchHistory string in .plist files within public Git r...
CVE-2019-19035
PUBLISHED: 2019-11-17
jhead 3.03 is affected by: heap-based buffer over-read. The impact is: Denial of service. The component is: ReadJpegSections and process_SOFn in jpgfile.c. The attack vector is: Open a specially crafted JPEG file.