App files directory android

How to Correctly Store App-Specific Files in Android

Christophe Versieux (Waza_be) posted a rant about android developers’ bad habit to store files directly on the root of the sd card. I completely agree with the post. It’s bad usage to create app-specific folders directly at the root. If you install a lot of apps, the sd card’s root gets cluttered fast.

One comment also mentioned that most tutorials do not cover the app-specific folders, so let me correct that with a short tutorial on how to do it correctly.

App-specific files vs. app-independent files

If you need to store files there are generally two usage types:

• App independent data
• App specific data

I will cover both types in more detail in the following sections. But in short I would characterize those types as follows: App-specific files are those that only are useful for as long as the app is installed (e.g. ebooks in a proprietary format). App-independent files on the other hand are those that the user cares about regardless of the specific app that created them (e.g. photos).

App-independent files

This type of data is stuff your user very likely cares about, even if your app is no longer installed on the device. Examples are photos shot, images processed or sketched, code-files edited, audio files bought and so on.

For most of these types, Android provides special directories. A full list of directories that Android provides out of the box can be seen in the documentation of the Environment class. Those fields all start with «DIRECTORY». E.g. DIRECTORY_MUSIC or DIRECTORY_PICTURES.

Those files always have to be stored on the sd card (or the equivalent partition for devices that have no sd card slot like the Google Nexus line). The reason is, that those files tend to be quite large, that they need to be world-readable and that they must not be stored in a directory that get’s cleaned up when your app gets uninstalled. I will cover external storage in more detail in the following sections.

You can get access to the root of the sd card by calling the getExternalStorageDirectory() method on the Environment class.

And you can use getExternalStoragePublicDirectory(String type) to directly get a File object for any of the supported types:

It’s the usual Java IO API from here on.

App-specific files

This type of files is for any kind of data that only this specific app can or should make use of. This could be proprietary files like ebooks, media files that should not be available through the normal media players (e.g. thumbnails for CD covers), downloaded magazines, database files, preferences and so on.

App-specific files can be stored internally or externally (on the sd card) and the Android API helps you to find the appropriate directories.

What’s nice for app-specific folders that follow a certain naming convention is Android’s cleanup mechanism. Android takes care to delete these folder when users uninstall your app. This way Android gets rid of unnecessary files and users do not have to clean up manually after any deinstallation.

Internal storage versus external storage

You should know that there are two app-specific folders for any app. The internal one which you can use for private files and the external one. External storage refers to the sd card of Android devices or the equivalent partition that devices with no sd card option offer (e.g. the Nexus line).

Internal storage space can be limited

Especially for larger files you should prefer the external storage option. You should do so because internal storage space can be very limited depending on the device of your user. A probably extreme example is my old LG Optimus One that has only about 300 MB of internal storage. But with a 16 GB sd card I have plenty of external storage. Even if this device is one of the worst examples regarding internal storage, there are plenty of devices out there that also come with little internal storage. Not everyone uses high-end phones.

Permissions for writing to external storage

Whenever you want to access files on the external storage you need permissions to do so. Add this permissions to your manifest file:

The need to declare this permissions is a slight drawback compared to internal storage. Some users may be wary — especially if this adds to an already long list of permissions. But if you explain this in your app description you should be fine.

Note: For reading files of the sd card no permissions were needed prior to Jelly Bean. So you can leave this one out if your build target is lower than API level 16.

External storage might be unavailable

The biggest problem with external storage is, that it might be unmounted when you need it. That’s obviously the case when the sd card is ejected but also when your device is mounted for file access to your computer. Because of this, you always have to check, if the external storage is currently available:

Sometimes the external storage might be mounted read-only. If you only need to read data the following check is better suited for you:

This works since the value of the final field Environment.MEDIA_MOUNTED_READ_ONLY is «mounted_ro» . I actually do not like code, that uses knowledge of final fields’ value. In my opinion it would have been better, had Google chosen to use an integer so that we could use final fields as bitmasks to test for the state.

Internal app-specific directories

Android creates a directory private to your app for you. Your shared preferences go in here, as well as your SQLite databases, native libraries or cached files.

All app-specific files are within a folder named

Within this folder some common sub-folders might exist — depending on what your app needs:

• databases — for SQLite databases
• shared_prefs — for your preferences
• cache — for cache files and data
• lib — for native libraries
• files — for files that do not fit into other categories

The Context class provides some methods you can use to create new directories, open InputStreams and so on. The following table lists these methods:

Methods to help you with internal storage

Method	When to use
deleteFile(String name)	Deletes the file with the given name
fileList()	Returns a list of files
getDir(String name, int mode)	Returns a file object to this directory. If the directory doesn’t exist yet, it gets created.
getFilesDir()	Returns a File object pointing to the files directory
openFileInput(String name)	Opens an InputStream object to the file with the given name
openFileOutput(String name, int mode)	Opens an OutputStream object to the file with the given name. The file gets created if it does not exists

Some methods use a mode parameter. This can be any of the following constants of the Context class:

• MODE_APPEND
• MODE_PRIVATE
• MODE_WORLD_READABLE
• MODE_WORLD_WRITEABLE

These are int values and you can use the or operator («|») to combine them — e.g. to append to a world readable file:

External app-specific directories

This is where Waza_be’s rant comes into play — because too many apps ignore the correct handling of app-specific directories on external storage.

All external app-specific files should be stored within a folder named

Note that I use a relative path. This path is relative to the root of the sdcard. The convention of where sdcards are mounted, changed between Android releases.

It’s always good practice to use API calls instead of hard-coded values, but the fact that the mount-point has changed in the past should make you even more cautious.

Now for external files there exists only one method you can use:

If you pass in a null value the File object will point to the files directory. If you add any of the directory constants of the Environment class, you will get a File object pointing to a sub-directory within your files directory. If the directory doesn’t exits yet, Android creates it for you. If the external media is not mounted, the method returns null.

Note: This method has only been introduced with API Level 8 (that is Froyo or Android 2.2). In the next section I briefly touch on the issues you face when dealing with older devices.

Older devices

There are still devices out there on older versions, which you might want to support. In this case using the naming convention shown above is still a good idea.

Alas, neither the method getExternalFilesDir(String type) exists, nor does Android clean up after an app uninstall. But using the same naming convention still avoids too many irritating folders on the root of your sd card.

Cache

Many times you need to cache data you downloaded from the net or created within your app. Android allows you to use internal as well as external storage space to use the cache. But using the external storage can be risky, since your cache might be unavailable when you need it.

The Context object has two methods to get a File object for either the internal or the external cache directory:

You have to take care of the cache size yourself. Android deletes all files in both directories on an uninstallation of your app, but otherwise it’s up to you to clean up any cache files no longer needed.

If Android is running low on internal storage it cleans up cache files first but the API states explicitly that you should not rely on Android to clean up for you!

With the external cache storage Android doesn’t care at all. Even if the external storage is full, no cache files will be deleted.

Naming of the folder

The official naming convention for the folder contains your package name. Christophe Versieux (Waza_be) himself mentioned that he used to use the app name instead, since users are more familiar with the package name of the app.

Even though familiarity is something to consider, I do not agree with this statement. First of all the API call uses the package name, so why not use it. Only with this method you can rely to be on the safe side. Secondly Android only cleans up a folder using the package name. And finally you could get screwed since app names do not have to be unique. In this case you might end up doing stuff in your folder that clashes with the intentions of the other app.

Be aware of the «.nomedia»-switch

Android’s MediaScanner regularly scans the sd card for any media files and adds these to the public list of media files. Thus images will show up in the Gallery app or music files in audio players.

But that’s not always what you want. Sometimes those files really should be presented by your app only. That’s where «.nomedia» comes into play. If a folder contains a file named «.nomedia» it will be skipped by the MediaScanner and any media files will thus not show up in the public media list.

That’s another reason to use the standard app-specific folder. It contains the file «.nomedia» within the data directory so that any media files you add to your app-specific directory will not show up.

Lessons learned

In this tutorial you have heard about the difference between app-specific and app-independent files and how to apply this knowledge to Android.

Also you have seen how to use app-specific files on Android, and how to leverage the internal storage as well as the external storage.

In a follow up post I will cover how to add app-independent media files to the corresponding content providers, so that they show up immediately in the list of public media files. Stay tuned.

Edited:
Minor changes due to comments by +Alexandre Roman and +Cyril Mottier to my G+ announcement of this post.

Wolfram Rittmeyer lives in Germany and has been developing with Java for many years.

He has been interested in Android for quite a while and has been blogging about all kind of topics around Android.

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Data and file storage overview

Android uses a file system that’s similar to disk-based file systems on other platforms. The system provides several options for you to save your app data:

• App-specific storage: Store files that are meant for your app’s use only, either in dedicated directories within an internal storage volume or different dedicated directories within external storage. Use the directories within internal storage to save sensitive information that other apps shouldn’t access.
• Shared storage: Store files that your app intends to share with other apps, including media, documents, and other files.
• Preferences: Store private, primitive data in key-value pairs.
• Databases: Store structured data in a private database using the Room persistence library.

The characteristics of these options are summarized in the following table:

Type of content	Access method	Permissions needed	Can other apps access?	Files removed on app uninstall?
App-specific files	Files meant for your app’s use only	From internal storage, getFilesDir() or getCacheDir() From external storage, getExternalFilesDir() or getExternalCacheDir()	Never needed for internal storage Not needed for external storage when your app is used on devices that run Android 4.4 (API level 19) or higher	No	Yes
Media	Shareable media files (images, audio files, videos)	MediaStore API	READ_EXTERNAL_STORAGE when accessing other apps’ files on Android 11 (API level 30) or higher READ_EXTERNAL_STORAGE or WRITE_EXTERNAL_STORAGE when accessing other apps’ files on Android 10 (API level 29) Permissions are required for all files on Android 9 (API level 28) or lower	Yes, though the other app needs the READ_EXTERNAL_STORAGE permission	No
Documents and other files	Other types of shareable content, including downloaded files	Storage Access Framework	None	Yes, through the system file picker	No
App preferences	Key-value pairs	Jetpack Preferences library	None	No	Yes
Database	Structured data	Room persistence library	None	No	Yes

The solution you choose depends on your specific needs:

How much space does your data require? Internal storage has limited space for app-specific data. Use other types of storage if you need to save a substantial amount of data. How reliable does data access need to be? If your app’s basic functionality requires certain data, such as when your app is starting up, place the data within internal storage directory or a database. App-specific files that are stored in external storage aren’t always accessible because some devices allow users to remove a physical device that corresponds to external storage. What kind of data do you need to store? If you have data that’s only meaningful for your app, use app-specific storage. For shareable media content, use shared storage so that other apps can access the content. For structured data, use either preferences (for key-value data) or a database (for data that contains more than 2 columns). Should the data be private to your app? When storing sensitive data—data that shouldn’t be accessible from any other app—use internal storage, preferences, or a database. Internal storage has the added benefit of the data being hidden from users.

Categories of storage locations

Android provides two types of physical storage locations: internal storage and external storage. On most devices, internal storage is smaller than external storage. However, internal storage is always available on all devices, making it a more reliable place to put data on which your app depends.

Removable volumes, such as an SD card, appear in the file system as part of external storage. Android represents these devices using a path, such as /sdcard .

Apps themselves are stored within internal storage by default. If your APK size is very large, however, you can indicate a preference within your app’s manifest file to install your app on external storage instead:

Permissions and access to external storage

On earlier versions of Android, apps needed to declare the READ_EXTERNAL_STORAGE permission to access any file outside the app-specific directories on external storage. Also, apps needed to declare the WRITE_EXTERNAL_STORAGE permission to write to any file outside the app-specific directory.

More recent versions of Android rely more on a file’s purpose than its location for determining an app’s ability to access, and write to, a given file. In particular, if your app targets Android 11 (API level 30) or higher, the WRITE_EXTERNAL_STORAGE permission doesn’t have any effect on your app’s access to storage. This purpose-based storage model improves user privacy because apps are given access only to the areas of the device’s file system that they actually use.

Android 11 introduces the MANAGE_EXTERNAL_STORAGE permission, which provides write access to files outside the app-specific directory and MediaStore . To learn more about this permission, and why most apps don’t need to declare it to fulfill their use cases, see the guide on how to manage all files on a storage device.

Scoped storage

To give users more control over their files and to limit file clutter, apps that target Android 10 (API level 29) and higher are given scoped access into external storage, or scoped storage, by default. Such apps have access only to the app-specific directory on external storage, as well as specific types of media that the app has created.

Use scoped storage unless your app needs access to a file that’s stored outside of an app-specific directory and outside of a directory that the MediaStore APIs can access. If you store app-specific files on external storage, you can make it easier to adopt scoped storage by placing these files in an app-specific directory on external storage. That way, your app maintains access to these files when scoped storage is enabled.

To prepare your app for scoped storage, view the storage use cases and best practices guide. If your app has another use case that isn’t covered by scoped storage, file a feature request. You can temporarily opt-out of using scoped storage.

View files on a device

To view the files stored on a device, use Android Studio’s Device File Explorer.

Additional resources

For more information about data storage, consult the following resources.

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