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Open Files using Storage Access Framework

Android 4.4 (API level 19) introduces the Storage Access Framework (SAF). The SAF makes it simple for users to browse and open documents, images, and other files across all of their their preferred document storage providers. A standard, easy-to-use UI lets users browse files and access recents in a consistent way across apps and providers.

Cloud or local storage services can participate in this ecosystem by implementing a DocumentsProvider that encapsulates their services. Client apps that need access to a provider's documents can integrate with the SAF with just a few lines of code.

The SAF includes the following:

Some of the features offered by the SAF are as follows:

Overview

The SAF centers around a content provider that is a subclass of the DocumentsProvider class. Within a document provider, data is structured as a traditional file hierarchy:

data model

Figure 1. Document provider data model. A Root points to a single Document, which then starts the fan-out of the entire tree.

Note the following:

Control flow

As stated above, the document provider data model is based on a traditional file hierarchy. However, you can physically store your data however you like, as long as you can access it by using DocumentsProvider API. For example, you could use tag-based cloud storage for your data.

Figure 2 shows how a photo app might use the SAF to access stored data:

app

Figure 2. Storage Access Framework Flow

Note the following:

Figure 3 shows a picker in which a user searching for images has selected a Google Drive account. It also shows all of the roots available to the client app.

picker

Figure 3. Picker

When the user selects Google Drive the images are displayed as shown in figure 4. From that point on, the user can interact with them in the ways supported by the provider and client app.

picker

Figure 4. Images

Writing a Client App

On Android 4.3 and lower, if you want your app to retrieve a file from another app, it must invoke an intent such as ACTION_PICK or ACTION_GET_CONTENT. The user must then select a single app from which to pick a file and the selected app must provide a user interface for the user to browse and pick from the available files.

On Android 4.4 and higher, you have the additional option of using the ACTION_OPEN_DOCUMENT intent, which displays a system-controlled picker UI controlled that allows the user to browse all files that other apps have made available. From this single UI, the user can pick a file from any of the supported apps.

ACTION_OPEN_DOCUMENT is not intended to be a replacement for ACTION_GET_CONTENT. The one you should use depends on the needs of your app:

This section describes how to write client apps based on the ACTION_OPEN_DOCUMENT and ACTION_CREATE_DOCUMENT intents.

The following snippet uses ACTION_OPEN_DOCUMENT to search for document providers that contain image files:

private static final int READ_REQUEST_CODE = 42;
...
/**
 * Fires an intent to spin up the "file chooser" UI and select an image.
 */
public void performFileSearch() {

    // ACTION_OPEN_DOCUMENT is the intent to choose a file via the system's file
    // browser.
    Intent intent = new Intent(Intent.ACTION_OPEN_DOCUMENT);

    // Filter to only show results that can be "opened", such as a
    // file (as opposed to a list of contacts or timezones)
    intent.addCategory(Intent.CATEGORY_OPENABLE);

    // Filter to show only images, using the image MIME data type.
    // If one wanted to search for ogg vorbis files, the type would be "audio/ogg".
    // To search for all documents available via installed storage providers,
    // it would be "*/*".
    intent.setType("image/*");

    startActivityForResult(intent, READ_REQUEST_CODE);
}

Note the following:

Process Results

After the user selects a document in the picker, onActivityResult() gets called. The resultData parameter contains the URI that points to the selected document. Extract the URI using getData(). When you have it, you can use it to retrieve the document the user wants. For example:

@Override
public void onActivityResult(int requestCode, int resultCode,
        Intent resultData) {

    // The ACTION_OPEN_DOCUMENT intent was sent with the request code
    // READ_REQUEST_CODE. If the request code seen here doesn't match, it's the
    // response to some other intent, and the code below shouldn't run at all.

    if (requestCode == READ_REQUEST_CODE && resultCode == Activity.RESULT_OK) {
        // The document selected by the user won't be returned in the intent.
        // Instead, a URI to that document will be contained in the return intent
        // provided to this method as a parameter.
        // Pull that URI using resultData.getData().
        Uri uri = null;
        if (resultData != null) {
            uri = resultData.getData();
            Log.i(TAG, "Uri: " + uri.toString());
            showImage(uri);
        }
    }
}

Examine document metadata

When you have the URI for a document, you gain access to its metadata. This snippet grabs the metadata for a document specified by the URI, and logs it:

public void dumpImageMetaData(Uri uri) {

    // The query, since it only applies to a single document, will only return
    // one row. There's no need to filter, sort, or select fields, since we want
    // all fields for one document.
    Cursor cursor = getActivity().getContentResolver()
            .query(uri, null, null, null, null, null);

    try {
    // moveToFirst() returns false if the cursor has 0 rows.  Very handy for
    // "if there's anything to look at, look at it" conditionals.
        if (cursor != null && cursor.moveToFirst()) {

            // Note it's called "Display Name".  This is
            // provider-specific, and might not necessarily be the file name.
            String displayName = cursor.getString(
                    cursor.getColumnIndex(OpenableColumns.DISPLAY_NAME));
            Log.i(TAG, "Display Name: " + displayName);

            int sizeIndex = cursor.getColumnIndex(OpenableColumns.SIZE);
            // If the size is unknown, the value stored is null.  But since an
            // int can't be null in Java, the behavior is implementation-specific,
            // which is just a fancy term for "unpredictable".  So as
            // a rule, check if it's null before assigning to an int.  This will
            // happen often:  The storage API allows for remote files, whose
            // size might not be locally known.
            String size = null;
            if (!cursor.isNull(sizeIndex)) {
                // Technically the column stores an int, but cursor.getString()
                // will do the conversion automatically.
                size = cursor.getString(sizeIndex);
            } else {
                size = "Unknown";
            }
            Log.i(TAG, "Size: " + size);
        }
    } finally {
        cursor.close();
    }
}

Open a document

Once you have the URI for a document, you can open it or do whatever else you want to do with it.

Bitmap

Here is an example of how you might open a Bitmap:

private Bitmap getBitmapFromUri(Uri uri) throws IOException {
    ParcelFileDescriptor parcelFileDescriptor =
            getContentResolver().openFileDescriptor(uri, "r");
    FileDescriptor fileDescriptor = parcelFileDescriptor.getFileDescriptor();
    Bitmap image = BitmapFactory.decodeFileDescriptor(fileDescriptor);
    parcelFileDescriptor.close();
    return image;
}

Note that you should not do this operation on the UI thread. Do it in the background, using AsyncTask. Once you open the bitmap, you can display it in an ImageView.

Get an InputStream

Here is an example of how you can get an InputStream from the URI. In this snippet, the lines of the file are being read into a string:

private String readTextFromUri(Uri uri) throws IOException {
    InputStream inputStream = getContentResolver().openInputStream(uri);
    BufferedReader reader = new BufferedReader(new InputStreamReader(
            inputStream));
    StringBuilder stringBuilder = new StringBuilder();
    String line;
    while ((line = reader.readLine()) != null) {
        stringBuilder.append(line);
    }
    fileInputStream.close();
    parcelFileDescriptor.close();
    return stringBuilder.toString();
}

Create a document

Your app can use the ACTION_CREATE_DOCUMENT intent to create a new document in a document provider. To create a file, give your intent a MIME type and a file name and then launch it with a unique request code. The rest is taken care of for you:

// Here are some examples of how you might call this method.
// The first parameter is the MIME type, and the second parameter is the name
// of the file you are creating:
//
// createFile("text/plain", "foobar.txt");
// createFile("image/png", "mypicture.png");

// Unique request code.
private static final int WRITE_REQUEST_CODE = 43;
...
private void createFile(String mimeType, String fileName) {
    Intent intent = new Intent(Intent.ACTION_CREATE_DOCUMENT);

    // Filter to only show results that can be "opened", such as
    // a file (as opposed to a list of contacts or timezones).
    intent.addCategory(Intent.CATEGORY_OPENABLE);

    // Create a file with the requested MIME type.
    intent.setType(mimeType);
    intent.putExtra(Intent.EXTRA_TITLE, fileName);
    startActivityForResult(intent, WRITE_REQUEST_CODE);
}

After you create a new document you can get its URI in onActivityResult() so that you can continue to write to it.

Delete a document

If you have the URI for a document and the document's Document.COLUMN_FLAGS contains SUPPORTS_DELETE, you can delete the document. For example:

DocumentsContract.deleteDocument(getContentResolver(), uri);

Edit a document

You can use the SAF to edit a text document in place. This snippet fires the ACTION_OPEN_DOCUMENT intent and uses the category CATEGORY_OPENABLE to display only openable documents. It further filters to show only text files:

private static final int EDIT_REQUEST_CODE = 44;
/**
 * Open a file for writing and append some text to it.
 */
 private void editDocument() {
    // ACTION_OPEN_DOCUMENT is the intent to choose a file via the system's
    // file browser.
    Intent intent = new Intent(Intent.ACTION_OPEN_DOCUMENT);

    // Filter to only show results that can be "opened", such as a
    // file (as opposed to a list of contacts or timezones).
    intent.addCategory(Intent.CATEGORY_OPENABLE);

    // Filter to show only text files.
    intent.setType("text/plain");

    startActivityForResult(intent, EDIT_REQUEST_CODE);
}

Next, from onActivityResult() (see Process results) you can call code to perform the edit. The following snippet gets a FileOutputStream from the ContentResolver. By default it uses write mode. It's best practice to ask for the least amount of access you need, so don’t ask for read/write if all you need is write:

private void alterDocument(Uri uri) {
    try {
        ParcelFileDescriptor pfd = getActivity().getContentResolver().
                openFileDescriptor(uri, "w");
        FileOutputStream fileOutputStream =
                new FileOutputStream(pfd.getFileDescriptor());
        fileOutputStream.write(("Overwritten by MyCloud at " +
                System.currentTimeMillis() + "\n").getBytes());
        // Let the document provider know you're done by closing the stream.
        fileOutputStream.close();
        pfd.close();
    } catch (FileNotFoundException e) {
        e.printStackTrace();
    } catch (IOException e) {
        e.printStackTrace();
    }
}

Persist permissions

When your app opens a file for reading or writing, the system gives your app a URI permission grant for that file, which lasts until the user's device restarts. But suppose your app is an image-editing app, and you want users to be able to access the last 5 images they edited, directly from your app. If the user's device has restarted, you'd have to send the user back to the system picker to find the files, which is obviously not ideal.

To prevent this from happening, you can persist the permissions that the system gives your app. Effectively, your app "takes" the persistable URI permission grant that the system is offering. This gives the user continued access to the files through your app, even if the device has been restarted:

final int takeFlags = intent.getFlags()
            & (Intent.FLAG_GRANT_READ_URI_PERMISSION
            | Intent.FLAG_GRANT_WRITE_URI_PERMISSION);
// Check for the freshest data.
getContentResolver().takePersistableUriPermission(uri, takeFlags);

There is one final step. The most recent URIs that your app accessed may no longer be valid—another app may have deleted or modified a document. Thus, you should always call getContentResolver().takePersistableUriPermission() to check for the freshest data.

Open virtual files

Android 7.0 adds the concept of virtual files to the Storage Access Framework. Even though virtual files do not have a binary representation, your client app can open their contents by coercing them into a different file type or by viewing those files by using an ACTION_VIEW intent.

To open virtual files, your client app needs to include special logic to handle them. If you want to get a byte representation of the file—to preview the file, for example—you need to request for an alternate MIME type from the documents provider.

To get a URI for a virtual document in your app, first you create an Intent to open the file picker UI, like the code shown previously in Seach for documents.

After the user makes a selection, the system calls the onActivityResult() method, as shown previously in Process results. Your app can retrieve the URI of the file and then determine whether the file is virtual using a method similar to the following code snippet.

private boolean isVirtualFile(Uri uri) {
    if (!DocumentsContract.isDocumentUri(this, uri)) {
        return false;
    }

    Cursor cursor = getContentResolver().query(
        uri,
        new String[] { DocumentsContract.Document.COLUMN_FLAGS },
        null, null, null);

    int flags = 0;
    if (cursor.moveToFirst()) {
        flags = cursor.getInt(0);
    }
    cursor.close();

    return (flags & DocumentsContract.Document.FLAG_VIRTUAL_DOCUMENT) != 0;
}

After you verify that the file is virtual, you can then coerce the file into an alternative MIME type such as an image file. The following code snippet shows how to check whether a virtual file can be represented as an image, and if so, gets an input stream from the virtual file.

private InputStream getInputStreamForVirtualFile(Uri uri, String mimeTypeFilter)
    throws IOException {

    ContentResolver resolver = getContentResolver();

    String[] openableMimeTypes = resolver.getStreamTypes(uri, mimeTypeFilter);

    if (openableMimeTypes == null ||
        openableMimeTypes.length < 1) {
        throw new FileNotFoundException();
    }

    return resolver
        .openTypedAssetFileDescriptor(uri, openableMimeTypes[0], null)
        .createInputStream();
}

For more information about virtual files and how to handle them in your Storage Access Framework client app, watch the video Virtual Files in the Storage Access Framework.

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