Why Do Hackers Attack Mobile Apps?
Mobile Application Security Status
With mobile devices and mobile apps in various industries, everyday life has become more accessible in the vast majority of area. But still, we need to be careful of never-stop security incidents. Then, why do these incidents from security breaches keep continuing to occur?
It’s because mobile app services contain a lot of ‘customer data’. While it is effortless to access customer information through mobile apps, apps are quite vulnerable compared to PC or Server security-wise since anyone can easily view the source code with a simple tool.
More companies launch mobile app services as their primary business model, and more companies provide internal systems and services through mobile apps. In this post, we would like to discuss hacking types of mobile apps and how to secure them from app developers’, app operation managers’, and security managers’ point of view.
How Do Hackers Attack Mobile Apps?
Normally mobile app service users download the app through official app markets. Before registering mobile apps on the market, apps will be reviewed for its stability, security, and any harmful contents inside and because of this review process, we could think that mobile apps are relatively safer than PC. However, hackers can distribute malicious apps using a strategy to bypass this app market review and they will keep upgrading their attack techniques. The risk of mobile app hacking is increasing every day.
Source Code Leakage and Unauthorized Reuse
The source code is a blueprint for mobile apps, and it is one of digital assets in the company. For a perfect launch of the mobile app, it takes thousands of hours to plan, create, experiment and revise. Some people view source code leakage is not that risky as they consider source code is just a blueprint of the service itself. However, it is very dangerous as various kinds of access keys are stored in the source code which are shared by developers and hackers can always reuse those keys as much as they want.
App Tampering refers to all kinds of acts by modifying normal apps unauthorizedly to achieve the hacker’s specific purpose. The purpose of app tampering could be two reasons. First, it is to extort a corporate’s original technology and sales know-how that are contained in the app, and it is to obtain monetary or non-monetary benefits by illegally using app’s additional services or reselling of paid content which hackers gained without permission. Second, it is to steal user information of the app service and gain illegal monetary or non-monetary by faking the app which is altered by hackers as if it is an official one.
Inserting Malicious Codes
Most of app developers could encounter the situation to use various open sources to save development time and hackers will use this opportunity to insert malicious codes. They use the auto-fill function for phishing to extort customers’ personal data by inducing developers to insert the code on their developing apps to perform malicious codes and extort frequently entered app users’ account, personal and card payment information.
Memory hacking means the way to forge or tamper with data that is in the memory. Previously hackers used to extract the password of the account from outside, but memory hacking is infiltrating to mobile memory and manipulating the account and the amount of money after installing a separate backdoor program. Memory hacking means the way to forge or tamper with data that is in the memory. Previously hackers used to extract the password of the account from outside, but memory hacking is infiltrating to mobile memory and manipulating the account and the amount of money after installing a separate backdoor program. The damage can be made not only from leakage of financial information from financial apps, but from game apps such as leakage of personal information, in-app purchases game items without permission, and speed hacking to cheat game.
How Can We Secure Mobile Apps?
What would be the best way to protect our mobile apps? Current technology to secure mobile apps are source code obfuscation, source code encryption, anti-tampering, memory protection, anti-debugging etc. To protect mobile apps more efficiently, it is strongly recommended to mix absolute necessary security features for app services and use optional functions together to protect the app from diverse kinds of attacks.
Source Code Protection
Well-known technologies to protect source code are obfuscation and encryption. Source code obfuscation is to change the whole or part of source code to be difficult or impossible to read. This technology aims to make reverse engineering difficult by changing class name, function name and control flow, and with string encryption and API hidden. However, it will not be enough to protect source code only with source code obfuscation because obfuscation can be analyzed if you put a lot of time and effort. To protect mobile apps more strongly, source code should be encrypted, so that original code cannot be analyzed at all with source code obfuscation and encryption together.
Tampering means to add, delete, or modify particular source code on existing normal apps therefore the tampered app will share the original source code partially. Based on this similarity, it is able to find apps with similar source code but a different writer. Also, it is possible to check app’s tampering status by integrity check when the app starts to run.
Memory protection is a way to control application memory access and prevents from accessing memory where the process is unallocated. It is possible to protect mobile app by preventing from tampering with value in memory.
Anti-Debugging is a technique to make analysis difficult by interrupting debugging behavior. When the app is applied with anti-debugging attacked by debugging, there are diverse ways to prevent apps from analyzing by hackers such as occurring the error purposely or terminating debugger programs.
LIAPP is the most suitable security solution for mobile application by providing all mentioned features. In the next post, we will have a deeper look about each security features to protect your app against hacker’s malicious attack.
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