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Protecting Android clipboard content from unintended exposure

Considering mobile users often use the clipboard to copy and paste sensitive information, like passwords or payment information, clipboard contents can be an attractive target for cyberattacks. Leveraging clipboards can enable attackers to collect target information and exfiltrate useful data. Examples even exist of attackers hijacking and replacing the clipboard contents for malicious purposes, such as modifying a copied cryptocurrency wallet address before the user pastes it into a crypto wallet app or chat message. Moreover, these types of attacks misuse a legitimate system feature rather than exploit a vulnerability, making the issue more challenging to mitigate.

Microsoft discovered that an old version of the SHEIN Android application periodically read the contents of the Android device clipboard and, if a particular pattern was present, sent the contents of the clipboard to a remote server. While we are not specifically aware of any malicious intent behind the behavior, we assessed that this behavior was not necessary for users to perform their tasks on the app.

SHEIN’s Android application is published on the Google Play Store with over 100 million downloads. Even if SHEIN’s clipboard behavior involved no malicious intent, this example case highlights the risks that installed applications can pose, including those that are highly popular and obtained from the platform’s official app store. We reported our findings to Google, the Play Store operator, leading to an investigation by their Android Security Team. In May 2022, Google informed us and we confirmed that SHEIN removed the behavior from the application. We would like to thank Google’s Android Security Team as well as the SHEIN team for their efforts and collaboration in addressing this issue. We would also like to thank the Google team for the improvements implemented to the Android platform to protect users from the risks associated with anomalous clipboard access.

In this blog, we detail how we identified the SHEIN app’s clipboard behavior and how Android users can protect themselves against clipboard-based attacks. We also share this research with the larger security community to emphasize the importance of collaboration in the effort to improve security for all.

Static and dynamic analysis

The following analysis details how we identified and verified the presence of the SHEIN app’s clipboard behavior, analyzing SHEIN app version 7.9.2 (SHA-256: ff07dc6e237acd19cb33e35c60cb2ae52c460aac76bc27116d8de76abec66c51). We first performed a static analysis of the app to identify the relevant code responsible for the behavior. We then performed a dynamic analysis by running the app in an instrumented environment to observe the code, including how it read the clipboard and sent its contents to a remote server.

Call chain diagram displaying how a user starting or resuming the SHEIN app progresses through various calls until it checks the clipboard text for the character sequences $ and "://", which, if found, will be sent as a parameter to a SHEIN server.
Figure 1. An example of a call chain through the SHEIN app resulting in clipboard access

Identifying the code

Upon opening the application, the launcher activity com.shein.user_service.welcome.WelcomeActivity extends the com.zzkko.base.ui.BaseActivity class, which performs a call to the iBaseActivityCallBack.h method in the onResume callback, depicted below on Line 11: 

graphical user interface, text, application, email
Figure 2. The com.zzkko.base.ui.BaseActivity class performing a call to the iBaseActivityCallBack.h method in the onResume callback  

The com.zzkko.app.iBaseActivityCallBackis aninterfaceimplemented by the com.zzkko.app.BaseActivityCallBack. The method h, partially depicted below, from the previous call performs a call to the method o in the same class, as shown on Line 16: 

graphical user interface, text, application, email
Figure 3. Method h performing a call to the method o in the same class

Finally, in thecom.zzkko.app.BaseActivityCallBack.o method there is a call to the com.zzkko.util.MarketClipboardPhaseLinker.f method, shown on Line 2:  

graphical user interface, text, application, email
Figure 4. The com.zzkko.app.BaseActivityCallBack.o method calls the com.zzkko.util.MarketClipboardPhaseLinker.f method

Method com.zzkko.app.BaseActivityCallBack.f, depicted below, checks whether the character sequences “$” and “://” are present in the clipboard text, depicted on Line 6. If both are present, method k in the same class is called with the clipboard text provided as a parameter, as shown on Line 8: 

graphical user interface, text, application, email
Figure 5. The com.zzkko.app.BaseActivityCallBack.f method checks the clipboard for “$” and “://”, providing the clipboard text as a parameter to method k

Method com.zzkko.app.BaseActivityCallBack.kinitiates a flow that performs a POST request to the server at BaseUrlConstant.APP_URL + “/marketing/tinyurl/phrase”, which resolves to https://api-service[.]shein[.]com/marketing/tinyurl/phrase:

graphical user interface, text, application
Figure 6. Method com.zzkko.app.BaseActivityCallBack.k initiating a flow, whichperforms a POST request to the server at BaseUrlConstant.APP_URL + “/marketing/tinyurl/phrase

Since all of the application’s activities (user interfaces) extend com.zzkko.base.ui.BaseActivity, the call chain described above was triggered any time the user launched a new activity, such as by starting or resuming the application or performing certain actions within the app.

Verifying the code’s clipboard behavior

To verify our static analysis findings, we performed a dynamic analysis of the application, which we installed from the Google Play Store onto a Samsung device running Android 9.

We used Frida to intercept calls to the android.content.ClipboardManager.getText and com.zzkko.util.MarketClipboardPhaseLinker.f methods to analyze the application’s clipboard behavior.  We also used Frida to bypass the application’s certificate pinning to enable us to analyze network traffic using Burp Proxy.

We set the contents of the device clipboard to https://mybank[.]com/token=secretToken&transaction=100$ and opened the application.

Upon opening the application, the following calls were logged: 

Graphical user interface, text, application
Figure 7. Call log displaying the app’s clipboard filtering

In Figure 7 above, we observe the following: 

Finally, a POST request to api-service[.]shein[.]com is performed. Subsequently, we captured the following request in Burp Proxy, showing the transmission of the clipboard contents to the remote server: 

Graphical user interface, text, application depicting the transmission of the clipboard contents to the remote server.
Figure 8. Transmission of the clipboard contents to the remote server

Android clipboard protections

As displayed in this case involving SHEIN, Android applications can call the android.text.ClipboardManager API to read from or write to the device clipboard without requesting the user’s approval or requiring any specific Android permission. While calling the ClipboardManager API can allow apps to make processes easier for users, such as quickly selecting text to copy, applications often should not need to do this since copying and pasting is typically performed by the device input method editor (keyboard), which is a separate application.

To address our research findings and the broader issue at hand, Google has recognized the risks associated with clipboard access and has made the following improvements to the Android platform to protect users:

On Android 10 and above, an application cannot access the clipboard unless it currently has focus (is actively running on the device display) or is set as the default input method editor (keyboard). This restriction guards against background applications accessing the clipboard, but it would not have prevented the behavior described here because the SHEIN application was running in the foreground.

On Android 12 and above, a toast message notifies the user when an application calls the ClipboardManager to access clipboard data from another application for the first time.

Android message stating "Office pasted from your clipboard."
Figure 9. Example toast message shown at bottom of screen when the device clipboard is accessed.

Android 13 clears the contents of the clipboard after a period of time to provide an additional degree of protection.

Users can protect themselves by watching out for the clipboard access message. If the message unexpectedly shows, they should assume that any data on the clipboard has been potentially compromised, and they should consider removing any applications that make suspicious clipboard accesses.

Responsible disclosure and industry collaboration improves security for all

Although we’re not aware of any malicious intent by SHEIN, even seemingly benign behaviors in applications can be exploited with malicious intent. Threats targeting clipboards can put any copied and pasted information at risk of being stolen or modified by attackers, such as passwords, financial details, personal data, cryptocurrency wallet addresses, and other sensitive information.

We recommend users further follow the security guidelines below to defend against this and similar risks:

After discovering the SHEIN Android application clipboard behavior, we worked with Google’s Android Security Team to ensure the removal of this behavior from the app. We thank both the Google and SHEIN teams for their efforts and collaboration in addressing the issue.

At Microsoft, we value, protect, and defend privacy—and this case demonstrates our efforts to investigate and protect customers’ privacy beyond security threats. As the threat landscape continues to evolve, Microsoft strives to continuously improve security for all through research-driven protection and collaboration with customers, partners, and industry experts, regardless of the device or platform in use.

We will continue to work with the security community to share research and intelligence about risks and threats in the effort to build better protection for all.

Dimitrios Valsamaras, Michael Peck Microsoft 365 Defender Research Team

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