/* * Copyright (C) 2006 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.content; import android.accounts.Account; import android.annotation.NonNull; import android.annotation.Nullable; import android.app.ActivityManagerNative; import android.app.ActivityThread; import android.app.AppGlobals; import android.content.pm.PackageManager.NameNotFoundException; import android.content.res.AssetFileDescriptor; import android.content.res.Resources; import android.database.ContentObserver; import android.database.CrossProcessCursorWrapper; import android.database.Cursor; import android.database.IContentObserver; import android.graphics.Point; import android.net.Uri; import android.os.Bundle; import android.os.CancellationSignal; import android.os.DeadObjectException; import android.os.IBinder; import android.os.ICancellationSignal; import android.os.OperationCanceledException; import android.os.ParcelFileDescriptor; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemClock; import android.os.UserHandle; import android.text.TextUtils; import android.util.EventLog; import android.util.Log; import dalvik.system.CloseGuard; import com.android.internal.util.ArrayUtils; import com.android.internal.util.Preconditions; import java.io.File; import java.io.FileInputStream; import java.io.FileNotFoundException; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.Random; /** * This class provides applications access to the content model. * *
*

Developer Guides

*

For more information about using a ContentResolver with content providers, read the * Content Providers * developer guide.

*/ public abstract class ContentResolver { /** * @deprecated instead use * {@link #requestSync(android.accounts.Account, String, android.os.Bundle)} */ @Deprecated public static final String SYNC_EXTRAS_ACCOUNT = "account"; /** * If this extra is set to true, the sync request will be scheduled * at the front of the sync request queue and without any delay */ public static final String SYNC_EXTRAS_EXPEDITED = "expedited"; /** * @deprecated instead use * {@link #SYNC_EXTRAS_MANUAL} */ @Deprecated public static final String SYNC_EXTRAS_FORCE = "force"; /** * If this extra is set to true then the sync settings (like getSyncAutomatically()) * are ignored by the sync scheduler. */ public static final String SYNC_EXTRAS_IGNORE_SETTINGS = "ignore_settings"; /** * If this extra is set to true then any backoffs for the initial attempt (e.g. due to retries) * are ignored by the sync scheduler. If this request fails and gets rescheduled then the * retries will still honor the backoff. */ public static final String SYNC_EXTRAS_IGNORE_BACKOFF = "ignore_backoff"; /** * If this extra is set to true then the request will not be retried if it fails. */ public static final String SYNC_EXTRAS_DO_NOT_RETRY = "do_not_retry"; /** * Setting this extra is the equivalent of setting both {@link #SYNC_EXTRAS_IGNORE_SETTINGS} * and {@link #SYNC_EXTRAS_IGNORE_BACKOFF} */ public static final String SYNC_EXTRAS_MANUAL = "force"; /** * Indicates that this sync is intended to only upload local changes to the server. * For example, this will be set to true if the sync is initiated by a call to * {@link ContentResolver#notifyChange(android.net.Uri, android.database.ContentObserver, boolean)} */ public static final String SYNC_EXTRAS_UPLOAD = "upload"; /** * Indicates that the sync adapter should proceed with the delete operations, * even if it determines that there are too many. * See {@link SyncResult#tooManyDeletions} */ public static final String SYNC_EXTRAS_OVERRIDE_TOO_MANY_DELETIONS = "deletions_override"; /** * Indicates that the sync adapter should not proceed with the delete operations, * if it determines that there are too many. * See {@link SyncResult#tooManyDeletions} */ public static final String SYNC_EXTRAS_DISCARD_LOCAL_DELETIONS = "discard_deletions"; /* Extensions to API. TODO: Not clear if we will keep these as public flags. */ /** {@hide} User-specified flag for expected upload size. */ public static final String SYNC_EXTRAS_EXPECTED_UPLOAD = "expected_upload"; /** {@hide} User-specified flag for expected download size. */ public static final String SYNC_EXTRAS_EXPECTED_DOWNLOAD = "expected_download"; /** {@hide} Priority of this sync with respect to other syncs scheduled for this application. */ public static final String SYNC_EXTRAS_PRIORITY = "sync_priority"; /** {@hide} Flag to allow sync to occur on metered network. */ public static final String SYNC_EXTRAS_DISALLOW_METERED = "allow_metered"; /** * Set by the SyncManager to request that the SyncAdapter initialize itself for * the given account/authority pair. One required initialization step is to * ensure that {@link #setIsSyncable(android.accounts.Account, String, int)} has been * called with a >= 0 value. When this flag is set the SyncAdapter does not need to * do a full sync, though it is allowed to do so. */ public static final String SYNC_EXTRAS_INITIALIZE = "initialize"; /** @hide */ public static final Intent ACTION_SYNC_CONN_STATUS_CHANGED = new Intent("com.android.sync.SYNC_CONN_STATUS_CHANGED"); public static final String SCHEME_CONTENT = "content"; public static final String SCHEME_ANDROID_RESOURCE = "android.resource"; public static final String SCHEME_FILE = "file"; /** * An extra {@link Point} describing the optimal size for a requested image * resource, in pixels. If a provider has multiple sizes of the image, it * should return the image closest to this size. * * @see #openTypedAssetFileDescriptor(Uri, String, Bundle) * @see #openTypedAssetFileDescriptor(Uri, String, Bundle, * CancellationSignal) */ public static final String EXTRA_SIZE = "android.content.extra.SIZE"; /** * This is the Android platform's base MIME type for a content: URI * containing a Cursor of a single item. Applications should use this * as the base type along with their own sub-type of their content: URIs * that represent a particular item. For example, hypothetical IMAP email * client may have a URI * content://com.company.provider.imap/inbox/1 for a particular * message in the inbox, whose MIME type would be reported as * CURSOR_ITEM_BASE_TYPE + "/vnd.company.imap-msg" * *

Compare with {@link #CURSOR_DIR_BASE_TYPE}. */ public static final String CURSOR_ITEM_BASE_TYPE = "vnd.android.cursor.item"; /** * This is the Android platform's base MIME type for a content: URI * containing a Cursor of zero or more items. Applications should use this * as the base type along with their own sub-type of their content: URIs * that represent a directory of items. For example, hypothetical IMAP email * client may have a URI * content://com.company.provider.imap/inbox for all of the * messages in its inbox, whose MIME type would be reported as * CURSOR_DIR_BASE_TYPE + "/vnd.company.imap-msg" * *

Note how the base MIME type varies between this and * {@link #CURSOR_ITEM_BASE_TYPE} depending on whether there is * one single item or multiple items in the data set, while the sub-type * remains the same because in either case the data structure contained * in the cursor is the same. */ public static final String CURSOR_DIR_BASE_TYPE = "vnd.android.cursor.dir"; /** * This is the Android platform's generic MIME type to match any MIME * type of the form "{@link #CURSOR_ITEM_BASE_TYPE}/{@code SUB_TYPE}". * {@code SUB_TYPE} is the sub-type of the application-dependent * content, e.g., "audio", "video", "playlist". */ public static final String ANY_CURSOR_ITEM_TYPE = "vnd.android.cursor.item/*"; /** @hide */ public static final int SYNC_ERROR_SYNC_ALREADY_IN_PROGRESS = 1; /** @hide */ public static final int SYNC_ERROR_AUTHENTICATION = 2; /** @hide */ public static final int SYNC_ERROR_IO = 3; /** @hide */ public static final int SYNC_ERROR_PARSE = 4; /** @hide */ public static final int SYNC_ERROR_CONFLICT = 5; /** @hide */ public static final int SYNC_ERROR_TOO_MANY_DELETIONS = 6; /** @hide */ public static final int SYNC_ERROR_TOO_MANY_RETRIES = 7; /** @hide */ public static final int SYNC_ERROR_INTERNAL = 8; private static final String[] SYNC_ERROR_NAMES = new String[] { "already-in-progress", "authentication-error", "io-error", "parse-error", "conflict", "too-many-deletions", "too-many-retries", "internal-error", }; /** @hide */ public static String syncErrorToString(int error) { if (error < 1 || error > SYNC_ERROR_NAMES.length) { return String.valueOf(error); } return SYNC_ERROR_NAMES[error - 1]; } /** @hide */ public static int syncErrorStringToInt(String error) { for (int i = 0, n = SYNC_ERROR_NAMES.length; i < n; i++) { if (SYNC_ERROR_NAMES[i].equals(error)) { return i + 1; } } if (error != null) { try { return Integer.parseInt(error); } catch (NumberFormatException e) { Log.d(TAG, "error parsing sync error: " + error); } } return 0; } public static final int SYNC_OBSERVER_TYPE_SETTINGS = 1<<0; public static final int SYNC_OBSERVER_TYPE_PENDING = 1<<1; public static final int SYNC_OBSERVER_TYPE_ACTIVE = 1<<2; /** @hide */ public static final int SYNC_OBSERVER_TYPE_STATUS = 1<<3; /** @hide */ public static final int SYNC_OBSERVER_TYPE_ALL = 0x7fffffff; // Always log queries which take 500ms+; shorter queries are // sampled accordingly. private static final boolean ENABLE_CONTENT_SAMPLE = false; private static final int SLOW_THRESHOLD_MILLIS = 500; private final Random mRandom = new Random(); // guarded by itself public ContentResolver(Context context) { mContext = context != null ? context : ActivityThread.currentApplication(); mPackageName = mContext.getOpPackageName(); } /** @hide */ protected abstract IContentProvider acquireProvider(Context c, String name); /** * Providing a default implementation of this, to avoid having to change a * lot of other things, but implementations of ContentResolver should * implement it. * * @hide */ protected IContentProvider acquireExistingProvider(Context c, String name) { return acquireProvider(c, name); } /** @hide */ public abstract boolean releaseProvider(IContentProvider icp); /** @hide */ protected abstract IContentProvider acquireUnstableProvider(Context c, String name); /** @hide */ public abstract boolean releaseUnstableProvider(IContentProvider icp); /** @hide */ public abstract void unstableProviderDied(IContentProvider icp); /** @hide */ public void appNotRespondingViaProvider(IContentProvider icp) { throw new UnsupportedOperationException("appNotRespondingViaProvider"); } /** * Return the MIME type of the given content URL. * * @param url A Uri identifying content (either a list or specific type), * using the content:// scheme. * @return A MIME type for the content, or null if the URL is invalid or the type is unknown */ public final @Nullable String getType(@NonNull Uri url) { Preconditions.checkNotNull(url, "url"); // XXX would like to have an acquireExistingUnstableProvider for this. IContentProvider provider = acquireExistingProvider(url); if (provider != null) { try { return provider.getType(url); } catch (RemoteException e) { return null; } catch (java.lang.Exception e) { Log.w(TAG, "Failed to get type for: " + url + " (" + e.getMessage() + ")"); return null; } finally { releaseProvider(provider); } } if (!SCHEME_CONTENT.equals(url.getScheme())) { return null; } try { String type = ActivityManagerNative.getDefault().getProviderMimeType( ContentProvider.getUriWithoutUserId(url), resolveUserId(url)); return type; } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return null; } catch (java.lang.Exception e) { Log.w(TAG, "Failed to get type for: " + url + " (" + e.getMessage() + ")"); return null; } } /** * Query for the possible MIME types for the representations the given * content URL can be returned when opened as as stream with * {@link #openTypedAssetFileDescriptor}. Note that the types here are * not necessarily a superset of the type returned by {@link #getType} -- * many content providers cannot return a raw stream for the structured * data that they contain. * * @param url A Uri identifying content (either a list or specific type), * using the content:// scheme. * @param mimeTypeFilter The desired MIME type. This may be a pattern, * such as */*, to query for all available MIME types that match the * pattern. * @return Returns an array of MIME type strings for all available * data streams that match the given mimeTypeFilter. If there are none, * null is returned. */ public @Nullable String[] getStreamTypes(@NonNull Uri url, @NonNull String mimeTypeFilter) { Preconditions.checkNotNull(url, "url"); Preconditions.checkNotNull(mimeTypeFilter, "mimeTypeFilter"); IContentProvider provider = acquireProvider(url); if (provider == null) { return null; } try { return provider.getStreamTypes(url, mimeTypeFilter); } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return null; } finally { releaseProvider(provider); } } /** * Query the given URI, returning a {@link Cursor} over the result set. *

* For best performance, the caller should follow these guidelines: *

*

* * @param uri The URI, using the content:// scheme, for the content to * retrieve. * @param projection A list of which columns to return. Passing null will * return all columns, which is inefficient. * @param selection A filter declaring which rows to return, formatted as an * SQL WHERE clause (excluding the WHERE itself). Passing null will * return all rows for the given URI. * @param selectionArgs You may include ?s in selection, which will be * replaced by the values from selectionArgs, in the order that they * appear in the selection. The values will be bound as Strings. * @param sortOrder How to order the rows, formatted as an SQL ORDER BY * clause (excluding the ORDER BY itself). Passing null will use the * default sort order, which may be unordered. * @return A Cursor object, which is positioned before the first entry, or null * @see Cursor */ public final @Nullable Cursor query(@NonNull Uri uri, @Nullable String[] projection, @Nullable String selection, @Nullable String[] selectionArgs, @Nullable String sortOrder) { return query(uri, projection, selection, selectionArgs, sortOrder, null); } /** * Query the given URI, returning a {@link Cursor} over the result set * with optional support for cancellation. *

* For best performance, the caller should follow these guidelines: *

*

* * @param uri The URI, using the content:// scheme, for the content to * retrieve. * @param projection A list of which columns to return. Passing null will * return all columns, which is inefficient. * @param selection A filter declaring which rows to return, formatted as an * SQL WHERE clause (excluding the WHERE itself). Passing null will * return all rows for the given URI. * @param selectionArgs You may include ?s in selection, which will be * replaced by the values from selectionArgs, in the order that they * appear in the selection. The values will be bound as Strings. * @param sortOrder How to order the rows, formatted as an SQL ORDER BY * clause (excluding the ORDER BY itself). Passing null will use the * default sort order, which may be unordered. * @param cancellationSignal A signal to cancel the operation in progress, or null if none. * If the operation is canceled, then {@link OperationCanceledException} will be thrown * when the query is executed. * @return A Cursor object, which is positioned before the first entry, or null * @see Cursor */ public final @Nullable Cursor query(final @NonNull Uri uri, @Nullable String[] projection, @Nullable String selection, @Nullable String[] selectionArgs, @Nullable String sortOrder, @Nullable CancellationSignal cancellationSignal) { Preconditions.checkNotNull(uri, "uri"); IContentProvider unstableProvider = acquireUnstableProvider(uri); if (unstableProvider == null) { return null; } IContentProvider stableProvider = null; Cursor qCursor = null; try { long startTime = SystemClock.uptimeMillis(); ICancellationSignal remoteCancellationSignal = null; if (cancellationSignal != null) { cancellationSignal.throwIfCanceled(); remoteCancellationSignal = unstableProvider.createCancellationSignal(); cancellationSignal.setRemote(remoteCancellationSignal); } try { qCursor = unstableProvider.query(mPackageName, uri, projection, selection, selectionArgs, sortOrder, remoteCancellationSignal); } catch (DeadObjectException e) { // The remote process has died... but we only hold an unstable // reference though, so we might recover!!! Let's try!!!! // This is exciting!!1!!1!!!!1 unstableProviderDied(unstableProvider); stableProvider = acquireProvider(uri); if (stableProvider == null) { return null; } qCursor = stableProvider.query(mPackageName, uri, projection, selection, selectionArgs, sortOrder, remoteCancellationSignal); } if (qCursor == null) { return null; } // Force query execution. Might fail and throw a runtime exception here. qCursor.getCount(); long durationMillis = SystemClock.uptimeMillis() - startTime; maybeLogQueryToEventLog(durationMillis, uri, projection, selection, sortOrder); // Wrap the cursor object into CursorWrapperInner object. CursorWrapperInner wrapper = new CursorWrapperInner(qCursor, stableProvider != null ? stableProvider : acquireProvider(uri)); stableProvider = null; qCursor = null; return wrapper; } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return null; } finally { if (qCursor != null) { qCursor.close(); } if (cancellationSignal != null) { cancellationSignal.setRemote(null); } if (unstableProvider != null) { releaseUnstableProvider(unstableProvider); } if (stableProvider != null) { releaseProvider(stableProvider); } } } /** * Transform the given url to a canonical representation of * its referenced resource, which can be used across devices, persisted, * backed up and restored, etc. The returned Uri is still a fully capable * Uri for use with its content provider, allowing you to do all of the * same content provider operations as with the original Uri -- * {@link #query}, {@link #openInputStream(android.net.Uri)}, etc. The * only difference in behavior between the original and new Uris is that * the content provider may need to do some additional work at each call * using it to resolve it to the correct resource, especially if the * canonical Uri has been moved to a different environment. * *

If you are moving a canonical Uri between environments, you should * perform another call to {@link #canonicalize} with that original Uri to * re-canonicalize it for the current environment. Alternatively, you may * want to use {@link #uncanonicalize} to transform it to a non-canonical * Uri that works only in the current environment but potentially more * efficiently than the canonical representation.

* * @param url The {@link Uri} that is to be transformed to a canonical * representation. Like all resolver calls, the input can be either * a non-canonical or canonical Uri. * * @return Returns the official canonical representation of url, * or null if the content provider does not support a canonical representation * of the given Uri. Many providers may not support canonicalization of some * or all of their Uris. * * @see #uncanonicalize */ public final @Nullable Uri canonicalize(@NonNull Uri url) { Preconditions.checkNotNull(url, "url"); IContentProvider provider = acquireProvider(url); if (provider == null) { return null; } try { return provider.canonicalize(mPackageName, url); } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return null; } finally { releaseProvider(provider); } } /** * Given a canonical Uri previously generated by {@link #canonicalize}, convert * it to its local non-canonical form. This can be useful in some cases where * you know that you will only be using the Uri in the current environment and * want to avoid any possible overhead when using it with the content * provider or want to verify that the referenced data exists at all in the * new environment. * * @param url The canonical {@link Uri} that is to be convered back to its * non-canonical form. * * @return Returns the non-canonical representation of url. This will * return null if data identified by the canonical Uri can not be found in * the current environment; callers must always check for null and deal with * that by appropriately falling back to an alternative. * * @see #canonicalize */ public final @Nullable Uri uncanonicalize(@NonNull Uri url) { Preconditions.checkNotNull(url, "url"); IContentProvider provider = acquireProvider(url); if (provider == null) { return null; } try { return provider.uncanonicalize(mPackageName, url); } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return null; } finally { releaseProvider(provider); } } /** * Open a stream on to the content associated with a content URI. If there * is no data associated with the URI, FileNotFoundException is thrown. * *
Accepts the following URI schemes:
* * *

See {@link #openAssetFileDescriptor(Uri, String)} for more information * on these schemes. * * @param uri The desired URI. * @return InputStream * @throws FileNotFoundException if the provided URI could not be opened. * @see #openAssetFileDescriptor(Uri, String) */ public final @Nullable InputStream openInputStream(@NonNull Uri uri) throws FileNotFoundException { Preconditions.checkNotNull(uri, "uri"); String scheme = uri.getScheme(); if (SCHEME_ANDROID_RESOURCE.equals(scheme)) { // Note: left here to avoid breaking compatibility. May be removed // with sufficient testing. OpenResourceIdResult r = getResourceId(uri); try { InputStream stream = r.r.openRawResource(r.id); return stream; } catch (Resources.NotFoundException ex) { throw new FileNotFoundException("Resource does not exist: " + uri); } } else if (SCHEME_FILE.equals(scheme)) { // Note: left here to avoid breaking compatibility. May be removed // with sufficient testing. return new FileInputStream(uri.getPath()); } else { AssetFileDescriptor fd = openAssetFileDescriptor(uri, "r", null); try { return fd != null ? fd.createInputStream() : null; } catch (IOException e) { throw new FileNotFoundException("Unable to create stream"); } } } /** * Synonym for {@link #openOutputStream(Uri, String) * openOutputStream(uri, "w")}. * @throws FileNotFoundException if the provided URI could not be opened. */ public final @Nullable OutputStream openOutputStream(@NonNull Uri uri) throws FileNotFoundException { return openOutputStream(uri, "w"); } /** * Open a stream on to the content associated with a content URI. If there * is no data associated with the URI, FileNotFoundException is thrown. * *

Accepts the following URI schemes:
* * *

See {@link #openAssetFileDescriptor(Uri, String)} for more information * on these schemes. * * @param uri The desired URI. * @param mode May be "w", "wa", "rw", or "rwt". * @return OutputStream * @throws FileNotFoundException if the provided URI could not be opened. * @see #openAssetFileDescriptor(Uri, String) */ public final @Nullable OutputStream openOutputStream(@NonNull Uri uri, @NonNull String mode) throws FileNotFoundException { AssetFileDescriptor fd = openAssetFileDescriptor(uri, mode, null); try { return fd != null ? fd.createOutputStream() : null; } catch (IOException e) { throw new FileNotFoundException("Unable to create stream"); } } /** * Open a raw file descriptor to access data under a URI. This * is like {@link #openAssetFileDescriptor(Uri, String)}, but uses the * underlying {@link ContentProvider#openFile} * ContentProvider.openFile()} method, so will not work with * providers that return sub-sections of files. If at all possible, * you should use {@link #openAssetFileDescriptor(Uri, String)}. You * will receive a FileNotFoundException exception if the provider returns a * sub-section of a file. * *

Accepts the following URI schemes:
* * *

See {@link #openAssetFileDescriptor(Uri, String)} for more information * on these schemes. *

* If opening with the exclusive "r" or "w" modes, the returned * ParcelFileDescriptor could be a pipe or socket pair to enable streaming * of data. Opening with the "rw" mode implies a file on disk that supports * seeking. If possible, always use an exclusive mode to give the underlying * {@link ContentProvider} the most flexibility. *

* If you are writing a file, and need to communicate an error to the * provider, use {@link ParcelFileDescriptor#closeWithError(String)}. * * @param uri The desired URI to open. * @param mode The file mode to use, as per {@link ContentProvider#openFile * ContentProvider.openFile}. * @return Returns a new ParcelFileDescriptor pointing to the file. You * own this descriptor and are responsible for closing it when done. * @throws FileNotFoundException Throws FileNotFoundException if no * file exists under the URI or the mode is invalid. * @see #openAssetFileDescriptor(Uri, String) */ public final @Nullable ParcelFileDescriptor openFileDescriptor(@NonNull Uri uri, @NonNull String mode) throws FileNotFoundException { return openFileDescriptor(uri, mode, null); } /** * Open a raw file descriptor to access data under a URI. This * is like {@link #openAssetFileDescriptor(Uri, String)}, but uses the * underlying {@link ContentProvider#openFile} * ContentProvider.openFile()} method, so will not work with * providers that return sub-sections of files. If at all possible, * you should use {@link #openAssetFileDescriptor(Uri, String)}. You * will receive a FileNotFoundException exception if the provider returns a * sub-section of a file. * *

Accepts the following URI schemes:
* * *

See {@link #openAssetFileDescriptor(Uri, String)} for more information * on these schemes. *

* If opening with the exclusive "r" or "w" modes, the returned * ParcelFileDescriptor could be a pipe or socket pair to enable streaming * of data. Opening with the "rw" mode implies a file on disk that supports * seeking. If possible, always use an exclusive mode to give the underlying * {@link ContentProvider} the most flexibility. *

* If you are writing a file, and need to communicate an error to the * provider, use {@link ParcelFileDescriptor#closeWithError(String)}. * * @param uri The desired URI to open. * @param mode The file mode to use, as per {@link ContentProvider#openFile * ContentProvider.openFile}. * @param cancellationSignal A signal to cancel the operation in progress, * or null if none. If the operation is canceled, then * {@link OperationCanceledException} will be thrown. * @return Returns a new ParcelFileDescriptor pointing to the file. You * own this descriptor and are responsible for closing it when done. * @throws FileNotFoundException Throws FileNotFoundException if no * file exists under the URI or the mode is invalid. * @see #openAssetFileDescriptor(Uri, String) */ public final @Nullable ParcelFileDescriptor openFileDescriptor(@NonNull Uri uri, @NonNull String mode, @Nullable CancellationSignal cancellationSignal) throws FileNotFoundException { AssetFileDescriptor afd = openAssetFileDescriptor(uri, mode, cancellationSignal); if (afd == null) { return null; } if (afd.getDeclaredLength() < 0) { // This is a full file! return afd.getParcelFileDescriptor(); } // Client can't handle a sub-section of a file, so close what // we got and bail with an exception. try { afd.close(); } catch (IOException e) { } throw new FileNotFoundException("Not a whole file"); } /** * Open a raw file descriptor to access data under a URI. This * interacts with the underlying {@link ContentProvider#openAssetFile} * method of the provider associated with the given URI, to retrieve any file stored there. * *

Accepts the following URI schemes:
* *
The android.resource ({@link #SCHEME_ANDROID_RESOURCE}) Scheme
*

* A Uri object can be used to reference a resource in an APK file. The * Uri should be one of the following formats: *

* *

Note that if this function is called for read-only input (mode is "r") * on a content: URI, it will instead call {@link #openTypedAssetFileDescriptor} * for you with a MIME type of "*/*". This allows such callers to benefit * from any built-in data conversion that a provider implements. * * @param uri The desired URI to open. * @param mode The file mode to use, as per {@link ContentProvider#openAssetFile * ContentProvider.openAssetFile}. * @return Returns a new ParcelFileDescriptor pointing to the file. You * own this descriptor and are responsible for closing it when done. * @throws FileNotFoundException Throws FileNotFoundException of no * file exists under the URI or the mode is invalid. */ public final @Nullable AssetFileDescriptor openAssetFileDescriptor(@NonNull Uri uri, @NonNull String mode) throws FileNotFoundException { return openAssetFileDescriptor(uri, mode, null); } /** * Open a raw file descriptor to access data under a URI. This * interacts with the underlying {@link ContentProvider#openAssetFile} * method of the provider associated with the given URI, to retrieve any file stored there. * *

Accepts the following URI schemes:
* *
The android.resource ({@link #SCHEME_ANDROID_RESOURCE}) Scheme
*

* A Uri object can be used to reference a resource in an APK file. The * Uri should be one of the following formats: *

* *

Note that if this function is called for read-only input (mode is "r") * on a content: URI, it will instead call {@link #openTypedAssetFileDescriptor} * for you with a MIME type of "*/*". This allows such callers to benefit * from any built-in data conversion that a provider implements. * * @param uri The desired URI to open. * @param mode The file mode to use, as per {@link ContentProvider#openAssetFile * ContentProvider.openAssetFile}. * @param cancellationSignal A signal to cancel the operation in progress, or null if * none. If the operation is canceled, then * {@link OperationCanceledException} will be thrown. * @return Returns a new ParcelFileDescriptor pointing to the file. You * own this descriptor and are responsible for closing it when done. * @throws FileNotFoundException Throws FileNotFoundException of no * file exists under the URI or the mode is invalid. */ public final @Nullable AssetFileDescriptor openAssetFileDescriptor(@NonNull Uri uri, @NonNull String mode, @Nullable CancellationSignal cancellationSignal) throws FileNotFoundException { Preconditions.checkNotNull(uri, "uri"); Preconditions.checkNotNull(mode, "mode"); String scheme = uri.getScheme(); if (SCHEME_ANDROID_RESOURCE.equals(scheme)) { if (!"r".equals(mode)) { throw new FileNotFoundException("Can't write resources: " + uri); } OpenResourceIdResult r = getResourceId(uri); try { return r.r.openRawResourceFd(r.id); } catch (Resources.NotFoundException ex) { throw new FileNotFoundException("Resource does not exist: " + uri); } } else if (SCHEME_FILE.equals(scheme)) { ParcelFileDescriptor pfd = ParcelFileDescriptor.open( new File(uri.getPath()), ParcelFileDescriptor.parseMode(mode)); return new AssetFileDescriptor(pfd, 0, -1); } else { if ("r".equals(mode)) { return openTypedAssetFileDescriptor(uri, "*/*", null, cancellationSignal); } else { IContentProvider unstableProvider = acquireUnstableProvider(uri); if (unstableProvider == null) { throw new FileNotFoundException("No content provider: " + uri); } IContentProvider stableProvider = null; AssetFileDescriptor fd = null; try { ICancellationSignal remoteCancellationSignal = null; if (cancellationSignal != null) { cancellationSignal.throwIfCanceled(); remoteCancellationSignal = unstableProvider.createCancellationSignal(); cancellationSignal.setRemote(remoteCancellationSignal); } try { fd = unstableProvider.openAssetFile( mPackageName, uri, mode, remoteCancellationSignal); if (fd == null) { // The provider will be released by the finally{} clause return null; } } catch (DeadObjectException e) { // The remote process has died... but we only hold an unstable // reference though, so we might recover!!! Let's try!!!! // This is exciting!!1!!1!!!!1 unstableProviderDied(unstableProvider); stableProvider = acquireProvider(uri); if (stableProvider == null) { throw new FileNotFoundException("No content provider: " + uri); } fd = stableProvider.openAssetFile( mPackageName, uri, mode, remoteCancellationSignal); if (fd == null) { // The provider will be released by the finally{} clause return null; } } if (stableProvider == null) { stableProvider = acquireProvider(uri); } releaseUnstableProvider(unstableProvider); ParcelFileDescriptor pfd = new ParcelFileDescriptorInner( fd.getParcelFileDescriptor(), stableProvider); // Success! Don't release the provider when exiting, let // ParcelFileDescriptorInner do that when it is closed. stableProvider = null; return new AssetFileDescriptor(pfd, fd.getStartOffset(), fd.getDeclaredLength()); } catch (RemoteException e) { // Whatever, whatever, we'll go away. throw new FileNotFoundException( "Failed opening content provider: " + uri); } catch (FileNotFoundException e) { throw e; } finally { if (cancellationSignal != null) { cancellationSignal.setRemote(null); } if (stableProvider != null) { releaseProvider(stableProvider); } if (unstableProvider != null) { releaseUnstableProvider(unstableProvider); } } } } } /** * Open a raw file descriptor to access (potentially type transformed) * data from a "content:" URI. This interacts with the underlying * {@link ContentProvider#openTypedAssetFile} method of the provider * associated with the given URI, to retrieve retrieve any appropriate * data stream for the data stored there. * *

Unlike {@link #openAssetFileDescriptor}, this function only works * with "content:" URIs, because content providers are the only facility * with an associated MIME type to ensure that the returned data stream * is of the desired type. * *

All text/* streams are encoded in UTF-8. * * @param uri The desired URI to open. * @param mimeType The desired MIME type of the returned data. This can * be a pattern such as */*, which will allow the content provider to * select a type, though there is no way for you to determine what type * it is returning. * @param opts Additional provider-dependent options. * @return Returns a new ParcelFileDescriptor from which you can read the * data stream from the provider. Note that this may be a pipe, meaning * you can't seek in it. The only seek you should do is if the * AssetFileDescriptor contains an offset, to move to that offset before * reading. You own this descriptor and are responsible for closing it when done. * @throws FileNotFoundException Throws FileNotFoundException of no * data of the desired type exists under the URI. */ public final @Nullable AssetFileDescriptor openTypedAssetFileDescriptor(@NonNull Uri uri, @NonNull String mimeType, @Nullable Bundle opts) throws FileNotFoundException { return openTypedAssetFileDescriptor(uri, mimeType, opts, null); } /** * Open a raw file descriptor to access (potentially type transformed) * data from a "content:" URI. This interacts with the underlying * {@link ContentProvider#openTypedAssetFile} method of the provider * associated with the given URI, to retrieve retrieve any appropriate * data stream for the data stored there. * *

Unlike {@link #openAssetFileDescriptor}, this function only works * with "content:" URIs, because content providers are the only facility * with an associated MIME type to ensure that the returned data stream * is of the desired type. * *

All text/* streams are encoded in UTF-8. * * @param uri The desired URI to open. * @param mimeType The desired MIME type of the returned data. This can * be a pattern such as */*, which will allow the content provider to * select a type, though there is no way for you to determine what type * it is returning. * @param opts Additional provider-dependent options. * @param cancellationSignal A signal to cancel the operation in progress, * or null if none. If the operation is canceled, then * {@link OperationCanceledException} will be thrown. * @return Returns a new ParcelFileDescriptor from which you can read the * data stream from the provider. Note that this may be a pipe, meaning * you can't seek in it. The only seek you should do is if the * AssetFileDescriptor contains an offset, to move to that offset before * reading. You own this descriptor and are responsible for closing it when done. * @throws FileNotFoundException Throws FileNotFoundException of no * data of the desired type exists under the URI. */ public final @Nullable AssetFileDescriptor openTypedAssetFileDescriptor(@NonNull Uri uri, @NonNull String mimeType, @Nullable Bundle opts, @Nullable CancellationSignal cancellationSignal) throws FileNotFoundException { Preconditions.checkNotNull(uri, "uri"); Preconditions.checkNotNull(mimeType, "mimeType"); IContentProvider unstableProvider = acquireUnstableProvider(uri); if (unstableProvider == null) { throw new FileNotFoundException("No content provider: " + uri); } IContentProvider stableProvider = null; AssetFileDescriptor fd = null; try { ICancellationSignal remoteCancellationSignal = null; if (cancellationSignal != null) { cancellationSignal.throwIfCanceled(); remoteCancellationSignal = unstableProvider.createCancellationSignal(); cancellationSignal.setRemote(remoteCancellationSignal); } try { fd = unstableProvider.openTypedAssetFile( mPackageName, uri, mimeType, opts, remoteCancellationSignal); if (fd == null) { // The provider will be released by the finally{} clause return null; } } catch (DeadObjectException e) { // The remote process has died... but we only hold an unstable // reference though, so we might recover!!! Let's try!!!! // This is exciting!!1!!1!!!!1 unstableProviderDied(unstableProvider); stableProvider = acquireProvider(uri); if (stableProvider == null) { throw new FileNotFoundException("No content provider: " + uri); } fd = stableProvider.openTypedAssetFile( mPackageName, uri, mimeType, opts, remoteCancellationSignal); if (fd == null) { // The provider will be released by the finally{} clause return null; } } if (stableProvider == null) { stableProvider = acquireProvider(uri); } releaseUnstableProvider(unstableProvider); ParcelFileDescriptor pfd = new ParcelFileDescriptorInner( fd.getParcelFileDescriptor(), stableProvider); // Success! Don't release the provider when exiting, let // ParcelFileDescriptorInner do that when it is closed. stableProvider = null; return new AssetFileDescriptor(pfd, fd.getStartOffset(), fd.getDeclaredLength()); } catch (RemoteException e) { // Whatever, whatever, we'll go away. throw new FileNotFoundException( "Failed opening content provider: " + uri); } catch (FileNotFoundException e) { throw e; } finally { if (cancellationSignal != null) { cancellationSignal.setRemote(null); } if (stableProvider != null) { releaseProvider(stableProvider); } if (unstableProvider != null) { releaseUnstableProvider(unstableProvider); } } } /** * A resource identified by the {@link Resources} that contains it, and a resource id. * * @hide */ public class OpenResourceIdResult { public Resources r; public int id; } /** * Resolves an android.resource URI to a {@link Resources} and a resource id. * * @hide */ public OpenResourceIdResult getResourceId(Uri uri) throws FileNotFoundException { String authority = uri.getAuthority(); Resources r; if (TextUtils.isEmpty(authority)) { throw new FileNotFoundException("No authority: " + uri); } else { try { r = mContext.getPackageManager().getResourcesForApplication(authority); } catch (NameNotFoundException ex) { throw new FileNotFoundException("No package found for authority: " + uri); } } List path = uri.getPathSegments(); if (path == null) { throw new FileNotFoundException("No path: " + uri); } int len = path.size(); int id; if (len == 1) { try { id = Integer.parseInt(path.get(0)); } catch (NumberFormatException e) { throw new FileNotFoundException("Single path segment is not a resource ID: " + uri); } } else if (len == 2) { id = r.getIdentifier(path.get(1), path.get(0), authority); } else { throw new FileNotFoundException("More than two path segments: " + uri); } if (id == 0) { throw new FileNotFoundException("No resource found for: " + uri); } OpenResourceIdResult res = new OpenResourceIdResult(); res.r = r; res.id = id; return res; } /** * Inserts a row into a table at the given URL. * * If the content provider supports transactions the insertion will be atomic. * * @param url The URL of the table to insert into. * @param values The initial values for the newly inserted row. The key is the column name for * the field. Passing an empty ContentValues will create an empty row. * @return the URL of the newly created row. */ public final @Nullable Uri insert(@NonNull Uri url, @Nullable ContentValues values) { Preconditions.checkNotNull(url, "url"); IContentProvider provider = acquireProvider(url); if (provider == null) { throw new IllegalArgumentException("Unknown URL " + url); } try { long startTime = SystemClock.uptimeMillis(); Uri createdRow = provider.insert(mPackageName, url, values); long durationMillis = SystemClock.uptimeMillis() - startTime; maybeLogUpdateToEventLog(durationMillis, url, "insert", null /* where */); return createdRow; } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return null; } finally { releaseProvider(provider); } } /** * Applies each of the {@link ContentProviderOperation} objects and returns an array * of their results. Passes through OperationApplicationException, which may be thrown * by the call to {@link ContentProviderOperation#apply}. * If all the applications succeed then a {@link ContentProviderResult} array with the * same number of elements as the operations will be returned. It is implementation-specific * how many, if any, operations will have been successfully applied if a call to * apply results in a {@link OperationApplicationException}. * @param authority the authority of the ContentProvider to which this batch should be applied * @param operations the operations to apply * @return the results of the applications * @throws OperationApplicationException thrown if an application fails. * See {@link ContentProviderOperation#apply} for more information. * @throws RemoteException thrown if a RemoteException is encountered while attempting * to communicate with a remote provider. */ public @NonNull ContentProviderResult[] applyBatch(@NonNull String authority, @NonNull ArrayList operations) throws RemoteException, OperationApplicationException { Preconditions.checkNotNull(authority, "authority"); Preconditions.checkNotNull(operations, "operations"); ContentProviderClient provider = acquireContentProviderClient(authority); if (provider == null) { throw new IllegalArgumentException("Unknown authority " + authority); } try { return provider.applyBatch(operations); } finally { provider.release(); } } /** * Inserts multiple rows into a table at the given URL. * * This function make no guarantees about the atomicity of the insertions. * * @param url The URL of the table to insert into. * @param values The initial values for the newly inserted rows. The key is the column name for * the field. Passing null will create an empty row. * @return the number of newly created rows. */ public final int bulkInsert(@NonNull Uri url, @NonNull ContentValues[] values) { Preconditions.checkNotNull(url, "url"); Preconditions.checkNotNull(values, "values"); IContentProvider provider = acquireProvider(url); if (provider == null) { throw new IllegalArgumentException("Unknown URL " + url); } try { long startTime = SystemClock.uptimeMillis(); int rowsCreated = provider.bulkInsert(mPackageName, url, values); long durationMillis = SystemClock.uptimeMillis() - startTime; maybeLogUpdateToEventLog(durationMillis, url, "bulkinsert", null /* where */); return rowsCreated; } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return 0; } finally { releaseProvider(provider); } } /** * Deletes row(s) specified by a content URI. * * If the content provider supports transactions, the deletion will be atomic. * * @param url The URL of the row to delete. * @param where A filter to apply to rows before deleting, formatted as an SQL WHERE clause (excluding the WHERE itself). * @return The number of rows deleted. */ public final int delete(@NonNull Uri url, @Nullable String where, @Nullable String[] selectionArgs) { Preconditions.checkNotNull(url, "url"); IContentProvider provider = acquireProvider(url); if (provider == null) { throw new IllegalArgumentException("Unknown URL " + url); } try { long startTime = SystemClock.uptimeMillis(); int rowsDeleted = provider.delete(mPackageName, url, where, selectionArgs); long durationMillis = SystemClock.uptimeMillis() - startTime; maybeLogUpdateToEventLog(durationMillis, url, "delete", where); return rowsDeleted; } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return -1; } finally { releaseProvider(provider); } } /** * Update row(s) in a content URI. * * If the content provider supports transactions the update will be atomic. * * @param uri The URI to modify. * @param values The new field values. The key is the column name for the field. A null value will remove an existing field value. * @param where A filter to apply to rows before updating, formatted as an SQL WHERE clause (excluding the WHERE itself). * @return the number of rows updated. * @throws NullPointerException if uri or values are null */ public final int update(@NonNull Uri uri, @Nullable ContentValues values, @Nullable String where, @Nullable String[] selectionArgs) { Preconditions.checkNotNull(uri, "uri"); IContentProvider provider = acquireProvider(uri); if (provider == null) { throw new IllegalArgumentException("Unknown URI " + uri); } try { long startTime = SystemClock.uptimeMillis(); int rowsUpdated = provider.update(mPackageName, uri, values, where, selectionArgs); long durationMillis = SystemClock.uptimeMillis() - startTime; maybeLogUpdateToEventLog(durationMillis, uri, "update", where); return rowsUpdated; } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return -1; } finally { releaseProvider(provider); } } /** * Call a provider-defined method. This can be used to implement * read or write interfaces which are cheaper than using a Cursor and/or * do not fit into the traditional table model. * * @param method provider-defined method name to call. Opaque to * framework, but must be non-null. * @param arg provider-defined String argument. May be null. * @param extras provider-defined Bundle argument. May be null. * @return a result Bundle, possibly null. Will be null if the ContentProvider * does not implement call. * @throws NullPointerException if uri or method is null * @throws IllegalArgumentException if uri is not known */ public final @Nullable Bundle call(@NonNull Uri uri, @NonNull String method, @Nullable String arg, @Nullable Bundle extras) { Preconditions.checkNotNull(uri, "uri"); Preconditions.checkNotNull(method, "method"); IContentProvider provider = acquireProvider(uri); if (provider == null) { throw new IllegalArgumentException("Unknown URI " + uri); } try { return provider.call(mPackageName, method, arg, extras); } catch (RemoteException e) { // Arbitrary and not worth documenting, as Activity // Manager will kill this process shortly anyway. return null; } finally { releaseProvider(provider); } } /** * Returns the content provider for the given content URI. * * @param uri The URI to a content provider * @return The ContentProvider for the given URI, or null if no content provider is found. * @hide */ public final IContentProvider acquireProvider(Uri uri) { if (!SCHEME_CONTENT.equals(uri.getScheme())) { return null; } final String auth = uri.getAuthority(); if (auth != null) { return acquireProvider(mContext, auth); } return null; } /** * Returns the content provider for the given content URI if the process * already has a reference on it. * * @param uri The URI to a content provider * @return The ContentProvider for the given URI, or null if no content provider is found. * @hide */ public final IContentProvider acquireExistingProvider(Uri uri) { if (!SCHEME_CONTENT.equals(uri.getScheme())) { return null; } final String auth = uri.getAuthority(); if (auth != null) { return acquireExistingProvider(mContext, auth); } return null; } /** * @hide */ public final IContentProvider acquireProvider(String name) { if (name == null) { return null; } return acquireProvider(mContext, name); } /** * Returns the content provider for the given content URI. * * @param uri The URI to a content provider * @return The ContentProvider for the given URI, or null if no content provider is found. * @hide */ public final IContentProvider acquireUnstableProvider(Uri uri) { if (!SCHEME_CONTENT.equals(uri.getScheme())) { return null; } String auth = uri.getAuthority(); if (auth != null) { return acquireUnstableProvider(mContext, uri.getAuthority()); } return null; } /** * @hide */ public final IContentProvider acquireUnstableProvider(String name) { if (name == null) { return null; } return acquireUnstableProvider(mContext, name); } /** * Returns a {@link ContentProviderClient} that is associated with the {@link ContentProvider} * that services the content at uri, starting the provider if necessary. Returns * null if there is no provider associated wih the uri. The caller must indicate that they are * done with the provider by calling {@link ContentProviderClient#release} which will allow * the system to release the provider it it determines that there is no other reason for * keeping it active. * @param uri specifies which provider should be acquired * @return a {@link ContentProviderClient} that is associated with the {@link ContentProvider} * that services the content at uri or null if there isn't one. */ public final @Nullable ContentProviderClient acquireContentProviderClient(@NonNull Uri uri) { Preconditions.checkNotNull(uri, "uri"); IContentProvider provider = acquireProvider(uri); if (provider != null) { return new ContentProviderClient(this, provider, true); } return null; } /** * Returns a {@link ContentProviderClient} that is associated with the {@link ContentProvider} * with the authority of name, starting the provider if necessary. Returns * null if there is no provider associated wih the uri. The caller must indicate that they are * done with the provider by calling {@link ContentProviderClient#release} which will allow * the system to release the provider it it determines that there is no other reason for * keeping it active. * @param name specifies which provider should be acquired * @return a {@link ContentProviderClient} that is associated with the {@link ContentProvider} * with the authority of name or null if there isn't one. */ public final @Nullable ContentProviderClient acquireContentProviderClient( @NonNull String name) { Preconditions.checkNotNull(name, "name"); IContentProvider provider = acquireProvider(name); if (provider != null) { return new ContentProviderClient(this, provider, true); } return null; } /** * Like {@link #acquireContentProviderClient(Uri)}, but for use when you do * not trust the stability of the target content provider. This turns off * the mechanism in the platform clean up processes that are dependent on * a content provider if that content provider's process goes away. Normally * you can safely assume that once you have acquired a provider, you can freely * use it as needed and it won't disappear, even if your process is in the * background. If using this method, you need to take care to deal with any * failures when communicating with the provider, and be sure to close it * so that it can be re-opened later. In particular, catching a * {@link android.os.DeadObjectException} from the calls there will let you * know that the content provider has gone away; at that point the current * ContentProviderClient object is invalid, and you should release it. You * can acquire a new one if you would like to try to restart the provider * and perform new operations on it. */ public final @Nullable ContentProviderClient acquireUnstableContentProviderClient( @NonNull Uri uri) { Preconditions.checkNotNull(uri, "uri"); IContentProvider provider = acquireUnstableProvider(uri); if (provider != null) { return new ContentProviderClient(this, provider, false); } return null; } /** * Like {@link #acquireContentProviderClient(String)}, but for use when you do * not trust the stability of the target content provider. This turns off * the mechanism in the platform clean up processes that are dependent on * a content provider if that content provider's process goes away. Normally * you can safely assume that once you have acquired a provider, you can freely * use it as needed and it won't disappear, even if your process is in the * background. If using this method, you need to take care to deal with any * failures when communicating with the provider, and be sure to close it * so that it can be re-opened later. In particular, catching a * {@link android.os.DeadObjectException} from the calls there will let you * know that the content provider has gone away; at that point the current * ContentProviderClient object is invalid, and you should release it. You * can acquire a new one if you would like to try to restart the provider * and perform new operations on it. */ public final @Nullable ContentProviderClient acquireUnstableContentProviderClient( @NonNull String name) { Preconditions.checkNotNull(name, "name"); IContentProvider provider = acquireUnstableProvider(name); if (provider != null) { return new ContentProviderClient(this, provider, false); } return null; } /** * Register an observer class that gets callbacks when data identified by a * given content URI changes. * * @param uri The URI to watch for changes. This can be a specific row URI, or a base URI * for a whole class of content. * @param notifyForDescendents When false, the observer will be notified whenever a * change occurs to the exact URI specified by uri or to one of the * URI's ancestors in the path hierarchy. When true, the observer will also be notified * whenever a change occurs to the URI's descendants in the path hierarchy. * @param observer The object that receives callbacks when changes occur. * @see #unregisterContentObserver */ public final void registerContentObserver(@NonNull Uri uri, boolean notifyForDescendents, @NonNull ContentObserver observer) { Preconditions.checkNotNull(uri, "uri"); Preconditions.checkNotNull(observer, "observer"); registerContentObserver( ContentProvider.getUriWithoutUserId(uri), notifyForDescendents, observer, ContentProvider.getUserIdFromUri(uri, UserHandle.myUserId())); } /** @hide - designated user version */ public final void registerContentObserver(Uri uri, boolean notifyForDescendents, ContentObserver observer, int userHandle) { try { getContentService().registerContentObserver(uri, notifyForDescendents, observer.getContentObserver(), userHandle); } catch (RemoteException e) { } } /** * Unregisters a change observer. * * @param observer The previously registered observer that is no longer needed. * @see #registerContentObserver */ public final void unregisterContentObserver(@NonNull ContentObserver observer) { Preconditions.checkNotNull(observer, "observer"); try { IContentObserver contentObserver = observer.releaseContentObserver(); if (contentObserver != null) { getContentService().unregisterContentObserver( contentObserver); } } catch (RemoteException e) { } } /** * Notify registered observers that a row was updated and attempt to sync changes * to the network. * To register, call {@link #registerContentObserver(android.net.Uri , boolean, android.database.ContentObserver) registerContentObserver()}. * By default, CursorAdapter objects will get this notification. * * @param uri The uri of the content that was changed. * @param observer The observer that originated the change, may be null. * The observer that originated the change will only receive the notification if it * has requested to receive self-change notifications by implementing * {@link ContentObserver#deliverSelfNotifications()} to return true. */ public void notifyChange(@NonNull Uri uri, @Nullable ContentObserver observer) { notifyChange(uri, observer, true /* sync to network */); } /** * Notify registered observers that a row was updated. * To register, call {@link #registerContentObserver(android.net.Uri , boolean, android.database.ContentObserver) registerContentObserver()}. * By default, CursorAdapter objects will get this notification. * If syncToNetwork is true, this will attempt to schedule a local sync using the sync * adapter that's registered for the authority of the provided uri. No account will be * passed to the sync adapter, so all matching accounts will be synchronized. * * @param uri The uri of the content that was changed. * @param observer The observer that originated the change, may be null. * The observer that originated the change will only receive the notification if it * has requested to receive self-change notifications by implementing * {@link ContentObserver#deliverSelfNotifications()} to return true. * @param syncToNetwork If true, attempt to sync the change to the network. * @see #requestSync(android.accounts.Account, String, android.os.Bundle) */ public void notifyChange(@NonNull Uri uri, @Nullable ContentObserver observer, boolean syncToNetwork) { Preconditions.checkNotNull(uri, "uri"); notifyChange( ContentProvider.getUriWithoutUserId(uri), observer, syncToNetwork, ContentProvider.getUserIdFromUri(uri, UserHandle.myUserId())); } /** * Notify registered observers within the designated user(s) that a row was updated. * * @hide */ public void notifyChange(Uri uri, ContentObserver observer, boolean syncToNetwork, int userHandle) { try { getContentService().notifyChange( uri, observer == null ? null : observer.getContentObserver(), observer != null && observer.deliverSelfNotifications(), syncToNetwork, userHandle); } catch (RemoteException e) { } } /** * Take a persistable URI permission grant that has been offered. Once * taken, the permission grant will be remembered across device reboots. * Only URI permissions granted with * {@link Intent#FLAG_GRANT_PERSISTABLE_URI_PERMISSION} can be persisted. If * the grant has already been persisted, taking it again will touch * {@link UriPermission#getPersistedTime()}. * * @see #getPersistedUriPermissions() */ public void takePersistableUriPermission(@NonNull Uri uri, @Intent.AccessUriMode int modeFlags) { Preconditions.checkNotNull(uri, "uri"); try { ActivityManagerNative.getDefault().takePersistableUriPermission( ContentProvider.getUriWithoutUserId(uri), modeFlags, resolveUserId(uri)); } catch (RemoteException e) { } } /** * Relinquish a persisted URI permission grant. The URI must have been * previously made persistent with * {@link #takePersistableUriPermission(Uri, int)}. Any non-persistent * grants to the calling package will remain intact. * * @see #getPersistedUriPermissions() */ public void releasePersistableUriPermission(@NonNull Uri uri, @Intent.AccessUriMode int modeFlags) { Preconditions.checkNotNull(uri, "uri"); try { ActivityManagerNative.getDefault().releasePersistableUriPermission( ContentProvider.getUriWithoutUserId(uri), modeFlags, resolveUserId(uri)); } catch (RemoteException e) { } } /** * Return list of all URI permission grants that have been persisted by the * calling app. That is, the returned permissions have been granted * to the calling app. Only persistable grants taken with * {@link #takePersistableUriPermission(Uri, int)} are returned. * * @see #takePersistableUriPermission(Uri, int) * @see #releasePersistableUriPermission(Uri, int) */ public @NonNull List getPersistedUriPermissions() { try { return ActivityManagerNative.getDefault() .getPersistedUriPermissions(mPackageName, true).getList(); } catch (RemoteException e) { throw new RuntimeException("Activity manager has died", e); } } /** * Return list of all persisted URI permission grants that are hosted by the * calling app. That is, the returned permissions have been granted * from the calling app. Only grants taken with * {@link #takePersistableUriPermission(Uri, int)} are returned. */ public @NonNull List getOutgoingPersistedUriPermissions() { try { return ActivityManagerNative.getDefault() .getPersistedUriPermissions(mPackageName, false).getList(); } catch (RemoteException e) { throw new RuntimeException("Activity manager has died", e); } } /** * Start an asynchronous sync operation. If you want to monitor the progress * of the sync you may register a SyncObserver. Only values of the following * types may be used in the extras bundle: *

* * @param uri the uri of the provider to sync or null to sync all providers. * @param extras any extras to pass to the SyncAdapter. * @deprecated instead use * {@link #requestSync(android.accounts.Account, String, android.os.Bundle)} */ @Deprecated public void startSync(Uri uri, Bundle extras) { Account account = null; if (extras != null) { String accountName = extras.getString(SYNC_EXTRAS_ACCOUNT); if (!TextUtils.isEmpty(accountName)) { account = new Account(accountName, "com.google"); } extras.remove(SYNC_EXTRAS_ACCOUNT); } requestSync(account, uri != null ? uri.getAuthority() : null, extras); } /** * Start an asynchronous sync operation. If you want to monitor the progress * of the sync you may register a SyncObserver. Only values of the following * types may be used in the extras bundle: *
    *
  • Integer
  • *
  • Long
  • *
  • Boolean
  • *
  • Float
  • *
  • Double
  • *
  • String
  • *
  • Account
  • *
  • null
  • *
* * @param account which account should be synced * @param authority which authority should be synced * @param extras any extras to pass to the SyncAdapter. */ public static void requestSync(Account account, String authority, Bundle extras) { requestSyncAsUser(account, authority, UserHandle.myUserId(), extras); } /** * @see #requestSync(Account, String, Bundle) * @hide */ public static void requestSyncAsUser(Account account, String authority, int userId, Bundle extras) { if (extras == null) { throw new IllegalArgumentException("Must specify extras."); } SyncRequest request = new SyncRequest.Builder() .setSyncAdapter(account, authority) .setExtras(extras) .syncOnce() // Immediate sync. .build(); try { getContentService().syncAsUser(request, userId); } catch(RemoteException e) { // Shouldn't happen. } } /** * Register a sync with the SyncManager. These requests are built using the * {@link SyncRequest.Builder}. */ public static void requestSync(SyncRequest request) { try { getContentService().sync(request); } catch(RemoteException e) { // Shouldn't happen. } } /** * Check that only values of the following types are in the Bundle: *
    *
  • Integer
  • *
  • Long
  • *
  • Boolean
  • *
  • Float
  • *
  • Double
  • *
  • String
  • *
  • Account
  • *
  • null
  • *
* @param extras the Bundle to check */ public static void validateSyncExtrasBundle(Bundle extras) { try { for (String key : extras.keySet()) { Object value = extras.get(key); if (value == null) continue; if (value instanceof Long) continue; if (value instanceof Integer) continue; if (value instanceof Boolean) continue; if (value instanceof Float) continue; if (value instanceof Double) continue; if (value instanceof String) continue; if (value instanceof Account) continue; throw new IllegalArgumentException("unexpected value type: " + value.getClass().getName()); } } catch (IllegalArgumentException e) { throw e; } catch (RuntimeException exc) { throw new IllegalArgumentException("error unparceling Bundle", exc); } } /** * Cancel any active or pending syncs that match the Uri. If the uri is null then * all syncs will be canceled. * * @param uri the uri of the provider to sync or null to sync all providers. * @deprecated instead use {@link #cancelSync(android.accounts.Account, String)} */ @Deprecated public void cancelSync(Uri uri) { cancelSync(null /* all accounts */, uri != null ? uri.getAuthority() : null); } /** * Cancel any active or pending syncs that match account and authority. The account and * authority can each independently be set to null, which means that syncs with any account * or authority, respectively, will match. * * @param account filters the syncs that match by this account * @param authority filters the syncs that match by this authority */ public static void cancelSync(Account account, String authority) { try { getContentService().cancelSync(account, authority, null); } catch (RemoteException e) { } } /** * @see #cancelSync(Account, String) * @hide */ public static void cancelSyncAsUser(Account account, String authority, int userId) { try { getContentService().cancelSyncAsUser(account, authority, null, userId); } catch (RemoteException e) { } } /** * Get information about the SyncAdapters that are known to the system. * @return an array of SyncAdapters that have registered with the system */ public static SyncAdapterType[] getSyncAdapterTypes() { try { return getContentService().getSyncAdapterTypes(); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * @see #getSyncAdapterTypes() * @hide */ public static SyncAdapterType[] getSyncAdapterTypesAsUser(int userId) { try { return getContentService().getSyncAdapterTypesAsUser(userId); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * @hide * Returns the package names of syncadapters that match a given user and authority. */ public static String[] getSyncAdapterPackagesForAuthorityAsUser(String authority, int userId) { try { return getContentService().getSyncAdapterPackagesForAuthorityAsUser(authority, userId); } catch (RemoteException e) { } return ArrayUtils.emptyArray(String.class); } /** * Check if the provider should be synced when a network tickle is received *

This method requires the caller to hold the permission * {@link android.Manifest.permission#READ_SYNC_SETTINGS}. * * @param account the account whose setting we are querying * @param authority the provider whose setting we are querying * @return true if the provider should be synced when a network tickle is received */ public static boolean getSyncAutomatically(Account account, String authority) { try { return getContentService().getSyncAutomatically(account, authority); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * @see #getSyncAutomatically(Account, String) * @hide */ public static boolean getSyncAutomaticallyAsUser(Account account, String authority, int userId) { try { return getContentService().getSyncAutomaticallyAsUser(account, authority, userId); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Set whether or not the provider is synced when it receives a network tickle. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#WRITE_SYNC_SETTINGS}. * * @param account the account whose setting we are querying * @param authority the provider whose behavior is being controlled * @param sync true if the provider should be synced when tickles are received for it */ public static void setSyncAutomatically(Account account, String authority, boolean sync) { setSyncAutomaticallyAsUser(account, authority, sync, UserHandle.myUserId()); } /** * @see #setSyncAutomatically(Account, String, boolean) * @hide */ public static void setSyncAutomaticallyAsUser(Account account, String authority, boolean sync, int userId) { try { getContentService().setSyncAutomaticallyAsUser(account, authority, sync, userId); } catch (RemoteException e) { // exception ignored; if this is thrown then it means the runtime is in the midst of // being restarted } } /** * Specifies that a sync should be requested with the specified the account, authority, * and extras at the given frequency. If there is already another periodic sync scheduled * with the account, authority and extras then a new periodic sync won't be added, instead * the frequency of the previous one will be updated. *

* These periodic syncs honor the "syncAutomatically" and "masterSyncAutomatically" settings. * Although these sync are scheduled at the specified frequency, it may take longer for it to * actually be started if other syncs are ahead of it in the sync operation queue. This means * that the actual start time may drift. *

* Periodic syncs are not allowed to have any of {@link #SYNC_EXTRAS_DO_NOT_RETRY}, * {@link #SYNC_EXTRAS_IGNORE_BACKOFF}, {@link #SYNC_EXTRAS_IGNORE_SETTINGS}, * {@link #SYNC_EXTRAS_INITIALIZE}, {@link #SYNC_EXTRAS_FORCE}, * {@link #SYNC_EXTRAS_EXPEDITED}, {@link #SYNC_EXTRAS_MANUAL} set to true. * If any are supplied then an {@link IllegalArgumentException} will be thrown. * *

This method requires the caller to hold the permission * {@link android.Manifest.permission#WRITE_SYNC_SETTINGS}. *

The bundle for a periodic sync can be queried by applications with the correct * permissions using * {@link ContentResolver#getPeriodicSyncs(Account account, String provider)}, so no * sensitive data should be transferred here. * * @param account the account to specify in the sync * @param authority the provider to specify in the sync request * @param extras extra parameters to go along with the sync request * @param pollFrequency how frequently the sync should be performed, in seconds. * @throws IllegalArgumentException if an illegal extra was set or if any of the parameters * are null. */ public static void addPeriodicSync(Account account, String authority, Bundle extras, long pollFrequency) { validateSyncExtrasBundle(extras); if (extras.getBoolean(SYNC_EXTRAS_MANUAL, false) || extras.getBoolean(SYNC_EXTRAS_DO_NOT_RETRY, false) || extras.getBoolean(SYNC_EXTRAS_IGNORE_BACKOFF, false) || extras.getBoolean(SYNC_EXTRAS_IGNORE_SETTINGS, false) || extras.getBoolean(SYNC_EXTRAS_INITIALIZE, false) || extras.getBoolean(SYNC_EXTRAS_FORCE, false) || extras.getBoolean(SYNC_EXTRAS_EXPEDITED, false)) { throw new IllegalArgumentException("illegal extras were set"); } try { getContentService().addPeriodicSync(account, authority, extras, pollFrequency); } catch (RemoteException e) { // exception ignored; if this is thrown then it means the runtime is in the midst of // being restarted } } /** * {@hide} * Helper function to throw an IllegalArgumentException if any illegal * extras were set for a periodic sync. * * @param extras bundle to validate. */ public static boolean invalidPeriodicExtras(Bundle extras) { if (extras.getBoolean(ContentResolver.SYNC_EXTRAS_MANUAL, false) || extras.getBoolean(ContentResolver.SYNC_EXTRAS_DO_NOT_RETRY, false) || extras.getBoolean(ContentResolver.SYNC_EXTRAS_IGNORE_BACKOFF, false) || extras.getBoolean(ContentResolver.SYNC_EXTRAS_IGNORE_SETTINGS, false) || extras.getBoolean(ContentResolver.SYNC_EXTRAS_INITIALIZE, false) || extras.getBoolean(ContentResolver.SYNC_EXTRAS_FORCE, false) || extras.getBoolean(ContentResolver.SYNC_EXTRAS_EXPEDITED, false)) { return true; } return false; } /** * Remove a periodic sync. Has no affect if account, authority and extras don't match * an existing periodic sync. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#WRITE_SYNC_SETTINGS}. * * @param account the account of the periodic sync to remove * @param authority the provider of the periodic sync to remove * @param extras the extras of the periodic sync to remove */ public static void removePeriodicSync(Account account, String authority, Bundle extras) { validateSyncExtrasBundle(extras); try { getContentService().removePeriodicSync(account, authority, extras); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Remove the specified sync. This will cancel any pending or active syncs. If the request is * for a periodic sync, this call will remove any future occurrences. *

* If a periodic sync is specified, the caller must hold the permission * {@link android.Manifest.permission#WRITE_SYNC_SETTINGS}. *

* It is possible to cancel a sync using a SyncRequest object that is not the same object * with which you requested the sync. Do so by building a SyncRequest with the same * adapter, frequency, and extras bundle. * * @param request SyncRequest object containing information about sync to cancel. */ public static void cancelSync(SyncRequest request) { if (request == null) { throw new IllegalArgumentException("request cannot be null"); } try { getContentService().cancelRequest(request); } catch (RemoteException e) { // exception ignored; if this is thrown then it means the runtime is in the midst of // being restarted } } /** * Get the list of information about the periodic syncs for the given account and authority. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#READ_SYNC_SETTINGS}. * * @param account the account whose periodic syncs we are querying * @param authority the provider whose periodic syncs we are querying * @return a list of PeriodicSync objects. This list may be empty but will never be null. */ public static List getPeriodicSyncs(Account account, String authority) { try { return getContentService().getPeriodicSyncs(account, authority, null); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Check if this account/provider is syncable. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#READ_SYNC_SETTINGS}. * @return >0 if it is syncable, 0 if not, and <0 if the state isn't known yet. */ public static int getIsSyncable(Account account, String authority) { try { return getContentService().getIsSyncable(account, authority); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * @see #getIsSyncable(Account, String) * @hide */ public static int getIsSyncableAsUser(Account account, String authority, int userId) { try { return getContentService().getIsSyncableAsUser(account, authority, userId); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Set whether this account/provider is syncable. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#WRITE_SYNC_SETTINGS}. * @param syncable >0 denotes syncable, 0 means not syncable, <0 means unknown */ public static void setIsSyncable(Account account, String authority, int syncable) { try { getContentService().setIsSyncable(account, authority, syncable); } catch (RemoteException e) { // exception ignored; if this is thrown then it means the runtime is in the midst of // being restarted } } /** * Gets the master auto-sync setting that applies to all the providers and accounts. * If this is false then the per-provider auto-sync setting is ignored. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#READ_SYNC_SETTINGS}. * * @return the master auto-sync setting that applies to all the providers and accounts */ public static boolean getMasterSyncAutomatically() { try { return getContentService().getMasterSyncAutomatically(); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * @see #getMasterSyncAutomatically() * @hide */ public static boolean getMasterSyncAutomaticallyAsUser(int userId) { try { return getContentService().getMasterSyncAutomaticallyAsUser(userId); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Sets the master auto-sync setting that applies to all the providers and accounts. * If this is false then the per-provider auto-sync setting is ignored. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#WRITE_SYNC_SETTINGS}. * * @param sync the master auto-sync setting that applies to all the providers and accounts */ public static void setMasterSyncAutomatically(boolean sync) { setMasterSyncAutomaticallyAsUser(sync, UserHandle.myUserId()); } /** * @see #setMasterSyncAutomatically(boolean) * @hide */ public static void setMasterSyncAutomaticallyAsUser(boolean sync, int userId) { try { getContentService().setMasterSyncAutomaticallyAsUser(sync, userId); } catch (RemoteException e) { // exception ignored; if this is thrown then it means the runtime is in the midst of // being restarted } } /** * Returns true if there is currently a sync operation for the given account or authority * actively being processed. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#READ_SYNC_STATS}. * @param account the account whose setting we are querying * @param authority the provider whose behavior is being queried * @return true if a sync is active for the given account or authority. */ public static boolean isSyncActive(Account account, String authority) { if (account == null) { throw new IllegalArgumentException("account must not be null"); } if (authority == null) { throw new IllegalArgumentException("authority must not be null"); } try { return getContentService().isSyncActive(account, authority, null); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * If a sync is active returns the information about it, otherwise returns null. *

* This method requires the caller to hold the permission * {@link android.Manifest.permission#READ_SYNC_STATS}. *

* @return the SyncInfo for the currently active sync or null if one is not active. * @deprecated * Since multiple concurrent syncs are now supported you should use * {@link #getCurrentSyncs()} to get the accurate list of current syncs. * This method returns the first item from the list of current syncs * or null if there are none. */ @Deprecated public static SyncInfo getCurrentSync() { try { final List syncs = getContentService().getCurrentSyncs(); if (syncs.isEmpty()) { return null; } return syncs.get(0); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Returns a list with information about all the active syncs. This list will be empty * if there are no active syncs. *

* This method requires the caller to hold the permission * {@link android.Manifest.permission#READ_SYNC_STATS}. *

* @return a List of SyncInfo objects for the currently active syncs. */ public static List getCurrentSyncs() { try { return getContentService().getCurrentSyncs(); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * @see #getCurrentSyncs() * @hide */ public static List getCurrentSyncsAsUser(int userId) { try { return getContentService().getCurrentSyncsAsUser(userId); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Returns the status that matches the authority. * @param account the account whose setting we are querying * @param authority the provider whose behavior is being queried * @return the SyncStatusInfo for the authority, or null if none exists * @hide */ public static SyncStatusInfo getSyncStatus(Account account, String authority) { try { return getContentService().getSyncStatus(account, authority, null); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * @see #getSyncStatus(Account, String) * @hide */ public static SyncStatusInfo getSyncStatusAsUser(Account account, String authority, int userId) { try { return getContentService().getSyncStatusAsUser(account, authority, null, userId); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Return true if the pending status is true of any matching authorities. *

This method requires the caller to hold the permission * {@link android.Manifest.permission#READ_SYNC_STATS}. * @param account the account whose setting we are querying * @param authority the provider whose behavior is being queried * @return true if there is a pending sync with the matching account and authority */ public static boolean isSyncPending(Account account, String authority) { return isSyncPendingAsUser(account, authority, UserHandle.myUserId()); } /** * @see #requestSync(Account, String, Bundle) * @hide */ public static boolean isSyncPendingAsUser(Account account, String authority, int userId) { try { return getContentService().isSyncPendingAsUser(account, authority, null, userId); } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Request notifications when the different aspects of the SyncManager change. The * different items that can be requested are: *

    *
  • {@link #SYNC_OBSERVER_TYPE_PENDING} *
  • {@link #SYNC_OBSERVER_TYPE_ACTIVE} *
  • {@link #SYNC_OBSERVER_TYPE_SETTINGS} *
* The caller can set one or more of the status types in the mask for any * given listener registration. * @param mask the status change types that will cause the callback to be invoked * @param callback observer to be invoked when the status changes * @return a handle that can be used to remove the listener at a later time */ public static Object addStatusChangeListener(int mask, final SyncStatusObserver callback) { if (callback == null) { throw new IllegalArgumentException("you passed in a null callback"); } try { ISyncStatusObserver.Stub observer = new ISyncStatusObserver.Stub() { public void onStatusChanged(int which) throws RemoteException { callback.onStatusChanged(which); } }; getContentService().addStatusChangeListener(mask, observer); return observer; } catch (RemoteException e) { throw new RuntimeException("the ContentService should always be reachable", e); } } /** * Remove a previously registered status change listener. * @param handle the handle that was returned by {@link #addStatusChangeListener} */ public static void removeStatusChangeListener(Object handle) { if (handle == null) { throw new IllegalArgumentException("you passed in a null handle"); } try { getContentService().removeStatusChangeListener((ISyncStatusObserver.Stub) handle); } catch (RemoteException e) { // exception ignored; if this is thrown then it means the runtime is in the midst of // being restarted } } /** * Returns sampling percentage for a given duration. * * Always returns at least 1%. */ private int samplePercentForDuration(long durationMillis) { if (durationMillis >= SLOW_THRESHOLD_MILLIS) { return 100; } return (int) (100 * durationMillis / SLOW_THRESHOLD_MILLIS) + 1; } private void maybeLogQueryToEventLog(long durationMillis, Uri uri, String[] projection, String selection, String sortOrder) { if (!ENABLE_CONTENT_SAMPLE) return; int samplePercent = samplePercentForDuration(durationMillis); if (samplePercent < 100) { synchronized (mRandom) { if (mRandom.nextInt(100) >= samplePercent) { return; } } } StringBuilder projectionBuffer = new StringBuilder(100); if (projection != null) { for (int i = 0; i < projection.length; ++i) { // Note: not using a comma delimiter here, as the // multiple arguments to EventLog.writeEvent later // stringify with a comma delimiter, which would make // parsing uglier later. if (i != 0) projectionBuffer.append('/'); projectionBuffer.append(projection[i]); } } // ActivityThread.currentPackageName() only returns non-null if the // current thread is an application main thread. This parameter tells // us whether an event loop is blocked, and if so, which app it is. String blockingPackage = AppGlobals.getInitialPackage(); EventLog.writeEvent( EventLogTags.CONTENT_QUERY_SAMPLE, uri.toString(), projectionBuffer.toString(), selection != null ? selection : "", sortOrder != null ? sortOrder : "", durationMillis, blockingPackage != null ? blockingPackage : "", samplePercent); } private void maybeLogUpdateToEventLog( long durationMillis, Uri uri, String operation, String selection) { if (!ENABLE_CONTENT_SAMPLE) return; int samplePercent = samplePercentForDuration(durationMillis); if (samplePercent < 100) { synchronized (mRandom) { if (mRandom.nextInt(100) >= samplePercent) { return; } } } String blockingPackage = AppGlobals.getInitialPackage(); EventLog.writeEvent( EventLogTags.CONTENT_UPDATE_SAMPLE, uri.toString(), operation, selection != null ? selection : "", durationMillis, blockingPackage != null ? blockingPackage : "", samplePercent); } private final class CursorWrapperInner extends CrossProcessCursorWrapper { private final IContentProvider mContentProvider; public static final String TAG="CursorWrapperInner"; private final CloseGuard mCloseGuard = CloseGuard.get(); private boolean mProviderReleased; CursorWrapperInner(Cursor cursor, IContentProvider icp) { super(cursor); mContentProvider = icp; mCloseGuard.open("close"); } @Override public void close() { super.close(); ContentResolver.this.releaseProvider(mContentProvider); mProviderReleased = true; if (mCloseGuard != null) { mCloseGuard.close(); } } @Override protected void finalize() throws Throwable { try { if (mCloseGuard != null) { mCloseGuard.warnIfOpen(); } if (!mProviderReleased && mContentProvider != null) { // Even though we are using CloseGuard, log this anyway so that // application developers always see the message in the log. Log.w(TAG, "Cursor finalized without prior close()"); ContentResolver.this.releaseProvider(mContentProvider); } } finally { super.finalize(); } } } private final class ParcelFileDescriptorInner extends ParcelFileDescriptor { private final IContentProvider mContentProvider; private boolean mProviderReleased; ParcelFileDescriptorInner(ParcelFileDescriptor pfd, IContentProvider icp) { super(pfd); mContentProvider = icp; } @Override public void releaseResources() { if (!mProviderReleased) { ContentResolver.this.releaseProvider(mContentProvider); mProviderReleased = true; } } } /** @hide */ public static final String CONTENT_SERVICE_NAME = "content"; /** @hide */ public static IContentService getContentService() { if (sContentService != null) { return sContentService; } IBinder b = ServiceManager.getService(CONTENT_SERVICE_NAME); if (false) Log.v("ContentService", "default service binder = " + b); sContentService = IContentService.Stub.asInterface(b); if (false) Log.v("ContentService", "default service = " + sContentService); return sContentService; } /** @hide */ public String getPackageName() { return mPackageName; } private static IContentService sContentService; private final Context mContext; final String mPackageName; private static final String TAG = "ContentResolver"; /** @hide */ public int resolveUserId(Uri uri) { return ContentProvider.getUserIdFromUri(uri, mContext.getUserId()); } }