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gerrit-public.fairphone.software / platform / frameworks / base / 0e59729b104e48c7d935026f565c4b45f1f37d12 / . / core / java / android / database / sqlite / SQLiteDatabase.java
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/*
* 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.database.sqlite;
import android.app.AppGlobals;
import android.content.ContentValues;
import android.content.res.Resources;
import android.database.Cursor;
import android.database.DatabaseErrorHandler;
import android.database.DatabaseUtils;
import android.database.DefaultDatabaseErrorHandler;
import android.database.SQLException;
import android.database.sqlite.SQLiteDebug.DbStats;
import android.os.Debug;
import android.os.StatFs;
import android.os.SystemClock;
import android.os.SystemProperties;
import android.text.TextUtils;
import android.util.Config;
import android.util.EventLog;
import android.util.Log;
import android.util.LruCache;
import android.util.Pair;
import dalvik.system.BlockGuard;
import java.io.File;
import java.lang.ref.WeakReference;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Random;
import java.util.WeakHashMap;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.locks.ReentrantLock;
import java.util.regex.Pattern;
/**
* Exposes methods to manage a SQLite database.
* <p>SQLiteDatabase has methods to create, delete, execute SQL commands, and
* perform other common database management tasks.
* <p>See the Notepad sample application in the SDK for an example of creating
* and managing a database.
* <p> Database names must be unique within an application, not across all
* applications.
*
* <h3>Localized Collation - ORDER BY</h3>
* <p>In addition to SQLite's default <code>BINARY</code> collator, Android supplies
* two more, <code>LOCALIZED</code>, which changes with the system's current locale
* if you wire it up correctly (XXX a link needed!), and <code>UNICODE</code>, which
* is the Unicode Collation Algorithm and not tailored to the current locale.
*/
public class SQLiteDatabase extends SQLiteClosable {
private static final String TAG = "SQLiteDatabase";
private static final int EVENT_DB_OPERATION = 52000;
private static final int EVENT_DB_CORRUPT = 75004;
/**
* Algorithms used in ON CONFLICT clause
* http://www.sqlite.org/lang_conflict.html
*/
/**
* When a constraint violation occurs, an immediate ROLLBACK occurs,
* thus ending the current transaction, and the command aborts with a
* return code of SQLITE_CONSTRAINT. If no transaction is active
* (other than the implied transaction that is created on every command)
* then this algorithm works the same as ABORT.
*/
public static final int CONFLICT_ROLLBACK = 1;
/**
* When a constraint violation occurs,no ROLLBACK is executed
* so changes from prior commands within the same transaction
* are preserved. This is the default behavior.
*/
public static final int CONFLICT_ABORT = 2;
/**
* When a constraint violation occurs, the command aborts with a return
* code SQLITE_CONSTRAINT. But any changes to the database that
* the command made prior to encountering the constraint violation
* are preserved and are not backed out.
*/
public static final int CONFLICT_FAIL = 3;
/**
* When a constraint violation occurs, the one row that contains
* the constraint violation is not inserted or changed.
* But the command continues executing normally. Other rows before and
* after the row that contained the constraint violation continue to be
* inserted or updated normally. No error is returned.
*/
public static final int CONFLICT_IGNORE = 4;
/**
* When a UNIQUE constraint violation occurs, the pre-existing rows that
* are causing the constraint violation are removed prior to inserting
* or updating the current row. Thus the insert or update always occurs.
* The command continues executing normally. No error is returned.
* If a NOT NULL constraint violation occurs, the NULL value is replaced
* by the default value for that column. If the column has no default
* value, then the ABORT algorithm is used. If a CHECK constraint
* violation occurs then the IGNORE algorithm is used. When this conflict
* resolution strategy deletes rows in order to satisfy a constraint,
* it does not invoke delete triggers on those rows.
* This behavior might change in a future release.
*/
public static final int CONFLICT_REPLACE = 5;
/**
* use the following when no conflict action is specified.
*/
public static final int CONFLICT_NONE = 0;
private static final String[] CONFLICT_VALUES = new String[]
{"", " OR ROLLBACK ", " OR ABORT ", " OR FAIL ", " OR IGNORE ", " OR REPLACE "};
/**
* Maximum Length Of A LIKE Or GLOB Pattern
* The pattern matching algorithm used in the default LIKE and GLOB implementation
* of SQLite can exhibit O(N^2) performance (where N is the number of characters in
* the pattern) for certain pathological cases. To avoid denial-of-service attacks
* the length of the LIKE or GLOB pattern is limited to SQLITE_MAX_LIKE_PATTERN_LENGTH bytes.
* The default value of this limit is 50000. A modern workstation can evaluate
* even a pathological LIKE or GLOB pattern of 50000 bytes relatively quickly.
* The denial of service problem only comes into play when the pattern length gets
* into millions of bytes. Nevertheless, since most useful LIKE or GLOB patterns
* are at most a few dozen bytes in length, paranoid application developers may
* want to reduce this parameter to something in the range of a few hundred
* if they know that external users are able to generate arbitrary patterns.
*/
public static final int SQLITE_MAX_LIKE_PATTERN_LENGTH = 50000;
/**
* Flag for {@link #openDatabase} to open the database for reading and writing.
* If the disk is full, this may fail even before you actually write anything.
*
* {@more} Note that the value of this flag is 0, so it is the default.
*/
public static final int OPEN_READWRITE = 0x00000000; // update native code if changing
/**
* Flag for {@link #openDatabase} to open the database for reading only.
* This is the only reliable way to open a database if the disk may be full.
*/
public static final int OPEN_READONLY = 0x00000001; // update native code if changing
private static final int OPEN_READ_MASK = 0x00000001; // update native code if changing
/**
* Flag for {@link #openDatabase} to open the database without support for localized collators.
*
* {@more} This causes the collator <code>LOCALIZED</code> not to be created.
* You must be consistent when using this flag to use the setting the database was
* created with. If this is set, {@link #setLocale} will do nothing.
*/
public static final int NO_LOCALIZED_COLLATORS = 0x00000010; // update native code if changing
/**
* Flag for {@link #openDatabase} to create the database file if it does not already exist.
*/
public static final int CREATE_IF_NECESSARY = 0x10000000; // update native code if changing
/**
* Indicates whether the most-recently started transaction has been marked as successful.
*/
private boolean mInnerTransactionIsSuccessful;
/**
* Valid during the life of a transaction, and indicates whether the entire transaction (the
* outer one and all of the inner ones) so far has been successful.
*/
private boolean mTransactionIsSuccessful;
/**
* Valid during the life of a transaction.
*/
private SQLiteTransactionListener mTransactionListener;
/**
* this member is set if {@link #execSQL(String)} is used to begin and end transactions.
*/
private boolean mTransactionUsingExecSql;
/** Synchronize on this when accessing the database */
private final DatabaseReentrantLock mLock = new DatabaseReentrantLock(true);
private long mLockAcquiredWallTime = 0L;
private long mLockAcquiredThreadTime = 0L;
// limit the frequency of complaints about each database to one within 20 sec
// unless run command adb shell setprop log.tag.Database VERBOSE
private static final int LOCK_WARNING_WINDOW_IN_MS = 20000;
/** If the lock is held this long then a warning will be printed when it is released. */
private static final int LOCK_ACQUIRED_WARNING_TIME_IN_MS = 300;
private static final int LOCK_ACQUIRED_WARNING_THREAD_TIME_IN_MS = 100;
private static final int LOCK_ACQUIRED_WARNING_TIME_IN_MS_ALWAYS_PRINT = 2000;
private static final int SLEEP_AFTER_YIELD_QUANTUM = 1000;
// The pattern we remove from database filenames before
// potentially logging them.
private static final Pattern EMAIL_IN_DB_PATTERN = Pattern.compile("[\\w\\.\\-]+@[\\w\\.\\-]+");
private long mLastLockMessageTime = 0L;
// Things related to query logging/sampling for debugging
// slow/frequent queries during development. Always log queries
// which take (by default) 500ms+; shorter queries are sampled
// accordingly. Commit statements, which are typically slow, are
// logged together with the most recently executed SQL statement,
// for disambiguation. The 500ms value is configurable via a
// SystemProperty, but developers actively debugging database I/O
// should probably use the regular log tunable,
// LOG_SLOW_QUERIES_PROPERTY, defined below.
private static int sQueryLogTimeInMillis = 0; // lazily initialized
private static final int QUERY_LOG_SQL_LENGTH = 64;
private static final String COMMIT_SQL = "COMMIT;";
private final Random mRandom = new Random();
private String mLastSqlStatement = null;
// String prefix for slow database query EventLog records that show
// lock acquistions of the database.
/* package */ static final String GET_LOCK_LOG_PREFIX = "GETLOCK:";
/** Used by native code, do not rename. make it volatile, so it is thread-safe. */
/* package */ volatile int mNativeHandle = 0;
/**
* The size, in bytes, of a block on "/data". This corresponds to the Unix
* statfs.f_bsize field. note that this field is lazily initialized.
*/
private static int sBlockSize = 0;
/** The path for the database file */
private final String mPath;
/** The anonymized path for the database file for logging purposes */
private String mPathForLogs = null; // lazily populated
/** The flags passed to open/create */
private final int mFlags;
/** The optional factory to use when creating new Cursors */
private final CursorFactory mFactory;
private final WeakHashMap<SQLiteClosable, Object> mPrograms;
/** Default statement-cache size per database connection ( = instance of this class) */
private static final int DEFAULT_SQL_CACHE_SIZE = 25;
/**
* for each instance of this class, a LRU cache is maintained to store
* the compiled query statement ids returned by sqlite database.
* key = SQL statement with "?" for bind args
* value = {@link SQLiteCompiledSql}
* If an application opens the database and keeps it open during its entire life, then
* there will not be an overhead of compilation of SQL statements by sqlite.
*
* why is this cache NOT static? because sqlite attaches compiledsql statements to the
* struct created when {@link SQLiteDatabase#openDatabase(String, CursorFactory, int)} is
* invoked.
*
* this cache's max size is settable by calling the method
* (@link #setMaxSqlCacheSize(int)}.
*/
// guarded by this
private LruCache<String, SQLiteCompiledSql> mCompiledQueries;
/**
* absolute max value that can be set by {@link #setMaxSqlCacheSize(int)}
* size of each prepared-statement is between 1K - 6K, depending on the complexity of the
* SQL statement & schema.
*/
public static final int MAX_SQL_CACHE_SIZE = 100;
private boolean mCacheFullWarning;
/** Used to find out where this object was created in case it never got closed. */
private final Throwable mStackTrace;
// System property that enables logging of slow queries. Specify the threshold in ms.
private static final String LOG_SLOW_QUERIES_PROPERTY = "db.log.slow_query_threshold";
private final int mSlowQueryThreshold;
/** stores the list of statement ids that need to be finalized by sqlite */
private final ArrayList<Integer> mClosedStatementIds = new ArrayList<Integer>();
/** {@link DatabaseErrorHandler} to be used when SQLite returns any of the following errors
* Corruption
* */
private final DatabaseErrorHandler mErrorHandler;
/** The Database connection pool {@link DatabaseConnectionPool}.
* Visibility is package-private for testing purposes. otherwise, private visibility is enough.
*/
/* package */ volatile DatabaseConnectionPool mConnectionPool = null;
/** Each database connection handle in the pool is assigned a number 1..N, where N is the
* size of the connection pool.
* The main connection handle to which the pool is attached is assigned a value of 0.
*/
/* package */ final short mConnectionNum;
/** on pooled database connections, this member points to the parent ( = main)
* database connection handle.
* package visibility only for testing purposes
*/
/* package */ SQLiteDatabase mParentConnObj = null;
private static final String MEMORY_DB_PATH = ":memory:";
/** set to true if the database has attached databases */
private volatile boolean mHasAttachedDbs = false;
/** stores reference to all databases opened in the current process. */
private static ArrayList<WeakReference<SQLiteDatabase>> mActiveDatabases =
new ArrayList<WeakReference<SQLiteDatabase>>();
synchronized void addSQLiteClosable(SQLiteClosable closable) {
// mPrograms is per instance of SQLiteDatabase and it doesn't actually touch the database
// itself. so, there is no need to lock().
mPrograms.put(closable, null);
}
synchronized void removeSQLiteClosable(SQLiteClosable closable) {
mPrograms.remove(closable);
}
@Override
protected void onAllReferencesReleased() {
if (isOpen()) {
// close the database which will close all pending statements to be finalized also
close();
}
}
/**
* Attempts to release memory that SQLite holds but does not require to
* operate properly. Typically this memory will come from the page cache.
*
* @return the number of bytes actually released
*/
static public native int releaseMemory();
/**
* Control whether or not the SQLiteDatabase is made thread-safe by using locks
* around critical sections. This is pretty expensive, so if you know that your
* DB will only be used by a single thread then you should set this to false.
* The default is true.
* @param lockingEnabled set to true to enable locks, false otherwise
*/
public void setLockingEnabled(boolean lockingEnabled) {
mLockingEnabled = lockingEnabled;
}
/**
* If set then the SQLiteDatabase is made thread-safe by using locks
* around critical sections
*/
private boolean mLockingEnabled = true;
/* package */ void onCorruption() {
EventLog.writeEvent(EVENT_DB_CORRUPT, mPath);
mErrorHandler.onCorruption(this);
}
/**
* Locks the database for exclusive access. The database lock must be held when
* touch the native sqlite3* object since it is single threaded and uses
* a polling lock contention algorithm. The lock is recursive, and may be acquired
* multiple times by the same thread. This is a no-op if mLockingEnabled is false.
*
* @see #unlock()
*/
/* package */ void lock() {
lock(false);
}
private static final long LOCK_WAIT_PERIOD = 30L;
private void lock(boolean forced) {
// make sure this method is NOT being called from a 'synchronized' method
if (Thread.holdsLock(this)) {
Log.w(TAG, "don't lock() while in a synchronized method");
}
verifyDbIsOpen();
if (!forced && !mLockingEnabled) return;
boolean done = false;
while (!done) {
try {
// wait for 30sec to acquire the lock
done = mLock.tryLock(LOCK_WAIT_PERIOD, TimeUnit.SECONDS);
if (!done) {
// lock not acquired in NSec. print a message and stacktrace saying the lock
// has not been available for 30sec.
Log.w(TAG, "database lock has not been available for " + LOCK_WAIT_PERIOD +
" sec. Current Owner of the lock is " + mLock.getOwnerDescription() +
". Continuing to wait in thread: " + Thread.currentThread().getId());
}
} catch (InterruptedException e) {
// ignore the interruption
}
}
if (SQLiteDebug.DEBUG_LOCK_TIME_TRACKING) {
if (mLock.getHoldCount() == 1) {
// Use elapsed real-time since the CPU may sleep when waiting for IO
mLockAcquiredWallTime = SystemClock.elapsedRealtime();
mLockAcquiredThreadTime = Debug.threadCpuTimeNanos();
}
}
}
private static class DatabaseReentrantLock extends ReentrantLock {
DatabaseReentrantLock(boolean fair) {
super(fair);
}
@Override
public Thread getOwner() {
return super.getOwner();
}
public String getOwnerDescription() {
Thread t = getOwner();
return (t== null) ? "none" : String.valueOf(t.getId());
}
}
/**
* Locks the database for exclusive access. The database lock must be held when
* touch the native sqlite3* object since it is single threaded and uses
* a polling lock contention algorithm. The lock is recursive, and may be acquired
* multiple times by the same thread.
*
* @see #unlockForced()
*/
private void lockForced() {
lock(true);
}
/**
* Releases the database lock. This is a no-op if mLockingEnabled is false.
*
* @see #unlock()
*/
/* package */ void unlock() {
if (!mLockingEnabled) return;
if (SQLiteDebug.DEBUG_LOCK_TIME_TRACKING) {
if (mLock.getHoldCount() == 1) {
checkLockHoldTime();
}
}
mLock.unlock();
}
/**
* Releases the database lock.
*
* @see #unlockForced()
*/
private void unlockForced() {
if (SQLiteDebug.DEBUG_LOCK_TIME_TRACKING) {
if (mLock.getHoldCount() == 1) {
checkLockHoldTime();
}
}
mLock.unlock();
}
private void checkLockHoldTime() {
// Use elapsed real-time since the CPU may sleep when waiting for IO
long elapsedTime = SystemClock.elapsedRealtime();
long lockedTime = elapsedTime - mLockAcquiredWallTime;
if (lockedTime < LOCK_ACQUIRED_WARNING_TIME_IN_MS_ALWAYS_PRINT &&
!Log.isLoggable(TAG, Log.VERBOSE) &&
(elapsedTime - mLastLockMessageTime) < LOCK_WARNING_WINDOW_IN_MS) {
return;
}
if (lockedTime > LOCK_ACQUIRED_WARNING_TIME_IN_MS) {
int threadTime = (int)
((Debug.threadCpuTimeNanos() - mLockAcquiredThreadTime) / 1000000);
if (threadTime > LOCK_ACQUIRED_WARNING_THREAD_TIME_IN_MS ||
lockedTime > LOCK_ACQUIRED_WARNING_TIME_IN_MS_ALWAYS_PRINT) {
mLastLockMessageTime = elapsedTime;
String msg = "lock held on " + mPath + " for " + lockedTime + "ms. Thread time was "
+ threadTime + "ms";
if (SQLiteDebug.DEBUG_LOCK_TIME_TRACKING_STACK_TRACE) {
Log.d(TAG, msg, new Exception());
} else {
Log.d(TAG, msg);
}
}
}
}
/**
* Begins a transaction in EXCLUSIVE mode.
* <p>
* Transactions can be nested.
* When the outer transaction is ended all of
* the work done in that transaction and all of the nested transactions will be committed or
* rolled back. The changes will be rolled back if any transaction is ended without being
* marked as clean (by calling setTransactionSuccessful). Otherwise they will be committed.
* </p>
* <p>Here is the standard idiom for transactions:
*
* <pre>
* db.beginTransaction();
* try {
* ...
* db.setTransactionSuccessful();
* } finally {
* db.endTransaction();
* }
* </pre>
*/
public void beginTransaction() {
beginTransaction(null /* transactionStatusCallback */, true);
}
/**
* Begins a transaction in IMMEDIATE mode. Transactions can be nested. When
* the outer transaction is ended all of the work done in that transaction
* and all of the nested transactions will be committed or rolled back. The
* changes will be rolled back if any transaction is ended without being
* marked as clean (by calling setTransactionSuccessful). Otherwise they
* will be committed.
* <p>
* Here is the standard idiom for transactions:
*
* <pre>
* db.beginTransactionNonExclusive();
* try {
* ...
* db.setTransactionSuccessful();
* } finally {
* db.endTransaction();
* }
* </pre>
*/
public void beginTransactionNonExclusive() {
beginTransaction(null /* transactionStatusCallback */, false);
}
/**
* Begins a transaction in EXCLUSIVE mode.
* <p>
* Transactions can be nested.
* When the outer transaction is ended all of
* the work done in that transaction and all of the nested transactions will be committed or
* rolled back. The changes will be rolled back if any transaction is ended without being
* marked as clean (by calling setTransactionSuccessful). Otherwise they will be committed.
* </p>
* <p>Here is the standard idiom for transactions:
*
* <pre>
* db.beginTransactionWithListener(listener);
* try {
* ...
* db.setTransactionSuccessful();
* } finally {
* db.endTransaction();
* }
* </pre>
*
* @param transactionListener listener that should be notified when the transaction begins,
* commits, or is rolled back, either explicitly or by a call to
* {@link #yieldIfContendedSafely}.
*/
public void beginTransactionWithListener(SQLiteTransactionListener transactionListener) {
beginTransaction(transactionListener, true);
}
/**
* Begins a transaction in IMMEDIATE mode. Transactions can be nested. When
* the outer transaction is ended all of the work done in that transaction
* and all of the nested transactions will be committed or rolled back. The
* changes will be rolled back if any transaction is ended without being
* marked as clean (by calling setTransactionSuccessful). Otherwise they
* will be committed.
* <p>
* Here is the standard idiom for transactions:
*
* <pre>
* db.beginTransactionWithListenerNonExclusive(listener);
* try {
* ...
* db.setTransactionSuccessful();
* } finally {
* db.endTransaction();
* }
* </pre>
*
* @param transactionListener listener that should be notified when the
* transaction begins, commits, or is rolled back, either
* explicitly or by a call to {@link #yieldIfContendedSafely}.
*/
public void beginTransactionWithListenerNonExclusive(
SQLiteTransactionListener transactionListener) {
beginTransaction(transactionListener, false);
}
private void beginTransaction(SQLiteTransactionListener transactionListener,
boolean exclusive) {
verifyDbIsOpen();
lockForced();
boolean ok = false;
try {
// If this thread already had the lock then get out
if (mLock.getHoldCount() > 1) {
if (mInnerTransactionIsSuccessful) {
String msg = "Cannot call beginTransaction between "
+ "calling setTransactionSuccessful and endTransaction";
IllegalStateException e = new IllegalStateException(msg);
Log.e(TAG, "beginTransaction() failed", e);
throw e;
}
ok = true;
return;
}
// This thread didn't already have the lock, so begin a database
// transaction now.
if (exclusive && mConnectionPool == null) {
execSQL("BEGIN EXCLUSIVE;");
} else {
execSQL("BEGIN IMMEDIATE;");
}
mTransactionListener = transactionListener;
mTransactionIsSuccessful = true;
mInnerTransactionIsSuccessful = false;
if (transactionListener != null) {
try {
transactionListener.onBegin();
} catch (RuntimeException e) {
execSQL("ROLLBACK;");
throw e;
}
}
ok = true;
} finally {
if (!ok) {
// beginTransaction is called before the try block so we must release the lock in
// the case of failure.
unlockForced();
}
}
}
/**
* End a transaction. See beginTransaction for notes about how to use this and when transactions
* are committed and rolled back.
*/
public void endTransaction() {
verifyLockOwner();
try {
if (mInnerTransactionIsSuccessful) {
mInnerTransactionIsSuccessful = false;
} else {
mTransactionIsSuccessful = false;
}
if (mLock.getHoldCount() != 1) {
return;
}
RuntimeException savedException = null;
if (mTransactionListener != null) {
try {
if (mTransactionIsSuccessful) {
mTransactionListener.onCommit();
} else {
mTransactionListener.onRollback();
}
} catch (RuntimeException e) {
savedException = e;
mTransactionIsSuccessful = false;
}
}
if (mTransactionIsSuccessful) {
execSQL(COMMIT_SQL);
// if write-ahead logging is used, we have to take care of checkpoint.
// TODO: should applications be given the flexibility of choosing when to
// trigger checkpoint?
// for now, do checkpoint after every COMMIT because that is the fastest
// way to guarantee that readers will see latest data.
// but this is the slowest way to run sqlite with in write-ahead logging mode.
if (this.mConnectionPool != null) {
execSQL("PRAGMA wal_checkpoint;");
if (SQLiteDebug.DEBUG_SQL_STATEMENTS) {
Log.i(TAG, "PRAGMA wal_Checkpoint done");
}
}
} else {
try {
execSQL("ROLLBACK;");
if (savedException != null) {
throw savedException;
}
} catch (SQLException e) {
if (Config.LOGD) {
Log.d(TAG, "exception during rollback, maybe the DB previously "
+ "performed an auto-rollback");
}
}
}
} finally {
mTransactionListener = null;
unlockForced();
if (Config.LOGV) {
Log.v(TAG, "unlocked " + Thread.currentThread()
+ ", holdCount is " + mLock.getHoldCount());
}
}
}
/**
* Marks the current transaction as successful. Do not do any more database work between
* calling this and calling endTransaction. Do as little non-database work as possible in that
* situation too. If any errors are encountered between this and endTransaction the transaction
* will still be committed.
*
* @throws IllegalStateException if the current thread is not in a transaction or the
* transaction is already marked as successful.
*/
public void setTransactionSuccessful() {
verifyDbIsOpen();
if (!mLock.isHeldByCurrentThread()) {
throw new IllegalStateException("no transaction pending");
}
if (mInnerTransactionIsSuccessful) {
throw new IllegalStateException(
"setTransactionSuccessful may only be called once per call to beginTransaction");
}
mInnerTransactionIsSuccessful = true;
}
/**
* return true if there is a transaction pending
*/
public boolean inTransaction() {
return mLock.getHoldCount() > 0 || mTransactionUsingExecSql;
}
/* package */ synchronized void setTransactionUsingExecSqlFlag() {
if (Log.isLoggable(TAG, Log.DEBUG)) {
Log.i(TAG, "found execSQL('begin transaction')");
}
mTransactionUsingExecSql = true;
}
/* package */ synchronized void resetTransactionUsingExecSqlFlag() {
if (Log.isLoggable(TAG, Log.DEBUG)) {
if (mTransactionUsingExecSql) {
Log.i(TAG, "found execSQL('commit or end or rollback')");
}
}
mTransactionUsingExecSql = false;
}
/**
* Returns true if the caller is considered part of the current transaction, if any.
* <p>
* Caller is part of the current transaction if either of the following is true
* <ol>
* <li>If transaction is started by calling beginTransaction() methods AND if the caller is
* in the same thread as the thread that started the transaction.
* </li>
* <li>If the transaction is started by calling {@link #execSQL(String)} like this:
* execSQL("BEGIN transaction"). In this case, every thread in the process is considered
* part of the current transaction.</li>
* </ol>
*
* @return true if the caller is considered part of the current transaction, if any.
*/
/* package */ synchronized boolean amIInTransaction() {
// always do this test on the main database connection - NOT on pooled database connection
// since transactions always occur on the main database connections only.
SQLiteDatabase db = (isPooledConnection()) ? mParentConnObj : this;
boolean b = (!db.inTransaction()) ? false :
db.mTransactionUsingExecSql || db.mLock.isHeldByCurrentThread();
if (Log.isLoggable(TAG, Log.DEBUG)) {
Log.i(TAG, "amIinTransaction: " + b);
}
return b;
}
/**
* Checks if the database lock is held by this thread.
*
* @return true, if this thread is holding the database lock.
*/
public boolean isDbLockedByCurrentThread() {
return mLock.isHeldByCurrentThread();
}
/**
* Checks if the database is locked by another thread. This is
* just an estimate, since this status can change at any time,
* including after the call is made but before the result has
* been acted upon.
*
* @return true, if the database is locked by another thread
*/
public boolean isDbLockedByOtherThreads() {
return !mLock.isHeldByCurrentThread() && mLock.isLocked();
}
/**
* Temporarily end the transaction to let other threads run. The transaction is assumed to be
* successful so far. Do not call setTransactionSuccessful before calling this. When this
* returns a new transaction will have been created but not marked as successful.
* @return true if the transaction was yielded
* @deprecated if the db is locked more than once (becuase of nested transactions) then the lock
* will not be yielded. Use yieldIfContendedSafely instead.
*/
@Deprecated
public boolean yieldIfContended() {
return yieldIfContendedHelper(false /* do not check yielding */,
-1 /* sleepAfterYieldDelay */);
}
/**
* Temporarily end the transaction to let other threads run. The transaction is assumed to be
* successful so far. Do not call setTransactionSuccessful before calling this. When this
* returns a new transaction will have been created but not marked as successful. This assumes
* that there are no nested transactions (beginTransaction has only been called once) and will
* throw an exception if that is not the case.
* @return true if the transaction was yielded
*/
public boolean yieldIfContendedSafely() {
return yieldIfContendedHelper(true /* check yielding */, -1 /* sleepAfterYieldDelay*/);
}
/**
* Temporarily end the transaction to let other threads run. The transaction is assumed to be
* successful so far. Do not call setTransactionSuccessful before calling this. When this
* returns a new transaction will have been created but not marked as successful. This assumes
* that there are no nested transactions (beginTransaction has only been called once) and will
* throw an exception if that is not the case.
* @param sleepAfterYieldDelay if > 0, sleep this long before starting a new transaction if
* the lock was actually yielded. This will allow other background threads to make some
* more progress than they would if we started the transaction immediately.
* @return true if the transaction was yielded
*/
public boolean yieldIfContendedSafely(long sleepAfterYieldDelay) {
return yieldIfContendedHelper(true /* check yielding */, sleepAfterYieldDelay);
}
private boolean yieldIfContendedHelper(boolean checkFullyYielded, long sleepAfterYieldDelay) {
if (mLock.getQueueLength() == 0) {
// Reset the lock acquire time since we know that the thread was willing to yield
// the lock at this time.
mLockAcquiredWallTime = SystemClock.elapsedRealtime();
mLockAcquiredThreadTime = Debug.threadCpuTimeNanos();
return false;
}
setTransactionSuccessful();
SQLiteTransactionListener transactionListener = mTransactionListener;
endTransaction();
if (checkFullyYielded) {
if (this.isDbLockedByCurrentThread()) {
throw new IllegalStateException(
"Db locked more than once. yielfIfContended cannot yield");
}
}
if (sleepAfterYieldDelay > 0) {
// Sleep for up to sleepAfterYieldDelay milliseconds, waking up periodically to
// check if anyone is using the database. If the database is not contended,
// retake the lock and return.
long remainingDelay = sleepAfterYieldDelay;
while (remainingDelay > 0) {
try {
Thread.sleep(remainingDelay < SLEEP_AFTER_YIELD_QUANTUM ?
remainingDelay : SLEEP_AFTER_YIELD_QUANTUM);
} catch (InterruptedException e) {
Thread.interrupted();
}
remainingDelay -= SLEEP_AFTER_YIELD_QUANTUM;
if (mLock.getQueueLength() == 0) {
break;
}
}
}
beginTransactionWithListener(transactionListener);
return true;
}
/**
* @deprecated This method no longer serves any useful purpose and has been deprecated.
*/
@Deprecated
public Map<String, String> getSyncedTables() {
return new HashMap<String, String>(0);
}
/**
* Used to allow returning sub-classes of {@link Cursor} when calling query.
*/
public interface CursorFactory {
/**
* See
* {@link SQLiteCursor#SQLiteCursor(SQLiteCursorDriver, String, SQLiteQuery)}.
*/
public Cursor newCursor(SQLiteDatabase db,
SQLiteCursorDriver masterQuery, String editTable,
SQLiteQuery query);
}
/**
* Open the database according to the flags {@link #OPEN_READWRITE}
* {@link #OPEN_READONLY} {@link #CREATE_IF_NECESSARY} and/or {@link #NO_LOCALIZED_COLLATORS}.
*
* <p>Sets the locale of the database to the the system's current locale.
* Call {@link #setLocale} if you would like something else.</p>
*
* @param path to database file to open and/or create
* @param factory an optional factory class that is called to instantiate a
* cursor when query is called, or null for default
* @param flags to control database access mode
* @return the newly opened database
* @throws SQLiteException if the database cannot be opened
*/
public static SQLiteDatabase openDatabase(String path, CursorFactory factory, int flags) {
return openDatabase(path, factory, flags, new DefaultDatabaseErrorHandler());
}
/**
* Open the database according to the flags {@link #OPEN_READWRITE}
* {@link #OPEN_READONLY} {@link #CREATE_IF_NECESSARY} and/or {@link #NO_LOCALIZED_COLLATORS}.
*
* <p>Sets the locale of the database to the the system's current locale.
* Call {@link #setLocale} if you would like something else.</p>
*
* <p>Accepts input param: a concrete instance of {@link DatabaseErrorHandler} to be
* used to handle corruption when sqlite reports database corruption.</p>
*
* @param path to database file to open and/or create
* @param factory an optional factory class that is called to instantiate a
* cursor when query is called, or null for default
* @param flags to control database access mode
* @param errorHandler the {@link DatabaseErrorHandler} obj to be used to handle corruption
* when sqlite reports database corruption
* @return the newly opened database
* @throws SQLiteException if the database cannot be opened
*/
public static SQLiteDatabase openDatabase(String path, CursorFactory factory, int flags,
DatabaseErrorHandler errorHandler) {
SQLiteDatabase sqliteDatabase = openDatabase(path, factory, flags, errorHandler,
(short) 0 /* the main connection handle */);
// set sqlite pagesize to mBlockSize
if (sBlockSize == 0) {
// TODO: "/data" should be a static final String constant somewhere. it is hardcoded
// in several places right now.
sBlockSize = new StatFs("/data").getBlockSize();
}
sqliteDatabase.setPageSize(sBlockSize);
sqliteDatabase.setJournalMode(path, "TRUNCATE");
// add this database to the list of databases opened in this process
synchronized(mActiveDatabases) {
mActiveDatabases.add(new WeakReference<SQLiteDatabase>(sqliteDatabase));
}
return sqliteDatabase;
}
private static SQLiteDatabase openDatabase(String path, CursorFactory factory, int flags,
DatabaseErrorHandler errorHandler, short connectionNum) {
SQLiteDatabase db = new SQLiteDatabase(path, factory, flags, errorHandler, connectionNum);
try {
if (Log.isLoggable(TAG, Log.DEBUG)) {
Log.i(TAG, "opening the db : " + path);
}
// Open the database.
db.dbopen(path, flags);
db.setLocale(Locale.getDefault());
if (SQLiteDebug.DEBUG_SQL_STATEMENTS) {
db.enableSqlTracing(path, connectionNum);
}
if (SQLiteDebug.DEBUG_SQL_TIME) {
db.enableSqlProfiling(path, connectionNum);
}
return db;
} catch (SQLiteDatabaseCorruptException e) {
db.mErrorHandler.onCorruption(db);
return SQLiteDatabase.openDatabase(path, factory, flags, errorHandler);
} catch (SQLiteException e) {
Log.e(TAG, "Failed to open the database. closing it.", e);
db.close();
throw e;
}
}
/**
* Equivalent to openDatabase(file.getPath(), factory, CREATE_IF_NECESSARY).
*/
public static SQLiteDatabase openOrCreateDatabase(File file, CursorFactory factory) {
return openOrCreateDatabase(file.getPath(), factory);
}
/**
* Equivalent to openDatabase(path, factory, CREATE_IF_NECESSARY).
*/
public static SQLiteDatabase openOrCreateDatabase(String path, CursorFactory factory) {
return openDatabase(path, factory, CREATE_IF_NECESSARY);
}
/**
* Equivalent to openDatabase(path, factory, CREATE_IF_NECESSARY, errorHandler).
*/
public static SQLiteDatabase openOrCreateDatabase(String path, CursorFactory factory,
DatabaseErrorHandler errorHandler) {
return openDatabase(path, factory, CREATE_IF_NECESSARY, errorHandler);
}
private void setJournalMode(final String dbPath, final String mode) {
// journal mode can be set only for non-memory databases
// AND can't be set for readonly databases
if (dbPath.equalsIgnoreCase(MEMORY_DB_PATH) || isReadOnly()) {
return;
}
String s = DatabaseUtils.stringForQuery(this, "PRAGMA journal_mode=" + mode, null);
if (!s.equalsIgnoreCase(mode)) {
Log.e(TAG, "setting journal_mode to " + mode + " failed for db: " + dbPath +
" (on pragma set journal_mode, sqlite returned:" + s);
}
}
/**
* Create a memory backed SQLite database. Its contents will be destroyed
* when the database is closed.
*
* <p>Sets the locale of the database to the the system's current locale.
* Call {@link #setLocale} if you would like something else.</p>
*
* @param factory an optional factory class that is called to instantiate a
* cursor when query is called
* @return a SQLiteDatabase object, or null if the database can't be created
*/
public static SQLiteDatabase create(CursorFactory factory) {
// This is a magic string with special meaning for SQLite.
return openDatabase(MEMORY_DB_PATH, factory, CREATE_IF_NECESSARY);
}
/**
* Close the database.
*/
public void close() {
if (!isOpen()) {
return;
}
if (Log.isLoggable(TAG, Log.DEBUG)) {
Log.i(TAG, "closing db: " + mPath + " (connection # " + mConnectionNum);
}
lock();
try {
// some other thread could have closed this database while I was waiting for lock.
// check the database state
if (!isOpen()) {
return;
}
closeClosable();
// finalize ALL statements queued up so far
closePendingStatements();
releaseCustomFunctions();
// close this database instance - regardless of its reference count value
closeDatabase();
if (mConnectionPool != null) {
if (Log.isLoggable(TAG, Log.DEBUG)) {
assert mConnectionPool != null;
Log.i(TAG, mConnectionPool.toString());
}
mConnectionPool.close();
}
} finally {
unlock();
}
}
private void closeClosable() {
/* deallocate all compiled SQL statement objects from mCompiledQueries cache.
* this should be done before de-referencing all {@link SQLiteClosable} objects
* from this database object because calling
* {@link SQLiteClosable#onAllReferencesReleasedFromContainer()} could cause the database
* to be closed. sqlite doesn't let a database close if there are
* any unfinalized statements - such as the compiled-sql objects in mCompiledQueries.
*/
deallocCachedSqlStatements();
Iterator<Map.Entry<SQLiteClosable, Object>> iter = mPrograms.entrySet().iterator();
while (iter.hasNext()) {
Map.Entry<SQLiteClosable, Object> entry = iter.next();
SQLiteClosable program = entry.getKey();
if (program != null) {
program.onAllReferencesReleasedFromContainer();
}
}
}
/**
* package level access for testing purposes
*/
/* package */ void closeDatabase() throws SQLiteException {
try {
dbclose();
} catch (SQLiteUnfinalizedObjectsException e) {
String msg = e.getMessage();
String[] tokens = msg.split(",", 2);
int stmtId = Integer.parseInt(tokens[0]);
// get extra info about this statement, if it is still to be released by closeClosable()
Iterator<Map.Entry<SQLiteClosable, Object>> iter = mPrograms.entrySet().iterator();
boolean found = false;
while (iter.hasNext()) {
Map.Entry<SQLiteClosable, Object> entry = iter.next();
SQLiteClosable program = entry.getKey();
if (program != null && program instanceof SQLiteProgram) {
SQLiteCompiledSql compiledSql = ((SQLiteProgram)program).mCompiledSql;
if (compiledSql.nStatement == stmtId) {
msg = compiledSql.toString();
found = true;
}
}
}
if (!found) {
// the statement is already released by closeClosable(). is it waiting to be
// finalized?
if (mClosedStatementIds.contains(stmtId)) {
Log.w(TAG, "this shouldn't happen. finalizing the statement now: ");
closePendingStatements();
// try to close the database again
closeDatabase();
}
} else {
// the statement is not yet closed. most probably programming error in the app.
throw new SQLiteUnfinalizedObjectsException(
"close() on database: " + getPath() +
" failed due to un-close()d SQL statements: " + msg);
}
}
}
/**
* Native call to close the database.
*/
private native void dbclose();
/**
* A callback interface for a custom sqlite3 function.
* This can be used to create a function that can be called from
* sqlite3 database triggers.
* @hide
*/
public interface CustomFunction {
public void callback(String[] args);
}
/**
* Registers a CustomFunction callback as a function that can be called from
* sqlite3 database triggers.
* @param name the name of the sqlite3 function
* @param numArgs the number of arguments for the function
* @param function callback to call when the function is executed
* @hide
*/
public void addCustomFunction(String name, int numArgs, CustomFunction function) {
verifyDbIsOpen();
synchronized (mCustomFunctions) {
int ref = native_addCustomFunction(name, numArgs, function);
if (ref != 0) {
// save a reference to the function for cleanup later
mCustomFunctions.add(new Integer(ref));
} else {
throw new SQLiteException("failed to add custom function " + name);
}
}
}
private void releaseCustomFunctions() {
synchronized (mCustomFunctions) {
for (int i = 0; i < mCustomFunctions.size(); i++) {
Integer function = mCustomFunctions.get(i);
native_releaseCustomFunction(function.intValue());
}
mCustomFunctions.clear();
}
}
// list of CustomFunction references so we can clean up when the database closes
private final ArrayList<Integer> mCustomFunctions =
new ArrayList<Integer>();
private native int native_addCustomFunction(String name, int numArgs, CustomFunction function);
private native void native_releaseCustomFunction(int function);
/**
* Gets the database version.
*
* @return the database version
*/
public int getVersion() {
return ((Long) DatabaseUtils.longForQuery(this, "PRAGMA user_version;", null)).intValue();
}
/**
* Sets the database version.
*
* @param version the new database version
*/
public void setVersion(int version) {
execSQL("PRAGMA user_version = " + version);
}
/**
* Returns the maximum size the database may grow to.
*
* @return the new maximum database size
*/
public long getMaximumSize() {
long pageCount = DatabaseUtils.longForQuery(this, "PRAGMA max_page_count;", null);
return pageCount * getPageSize();
}
/**
* Sets the maximum size the database will grow to. The maximum size cannot
* be set below the current size.
*
* @param numBytes the maximum database size, in bytes
* @return the new maximum database size
*/
public long setMaximumSize(long numBytes) {
long pageSize = getPageSize();
long numPages = numBytes / pageSize;
// If numBytes isn't a multiple of pageSize, bump up a page
if ((numBytes % pageSize) != 0) {
numPages++;
}
long newPageCount = DatabaseUtils.longForQuery(this, "PRAGMA max_page_count = " + numPages,
null);
return newPageCount * pageSize;
}
/**
* Returns the current database page size, in bytes.
*
* @return the database page size, in bytes
*/
public long getPageSize() {
return DatabaseUtils.longForQuery(this, "PRAGMA page_size;", null);
}
/**
* Sets the database page size. The page size must be a power of two. This
* method does not work if any data has been written to the database file,
* and must be called right after the database has been created.
*
* @param numBytes the database page size, in bytes
*/
public void setPageSize(long numBytes) {
execSQL("PRAGMA page_size = " + numBytes);
}
/**
* Mark this table as syncable. When an update occurs in this table the
* _sync_dirty field will be set to ensure proper syncing operation.
*
* @param table the table to mark as syncable
* @param deletedTable The deleted table that corresponds to the
* syncable table
* @deprecated This method no longer serves any useful purpose and has been deprecated.
*/
@Deprecated
public void markTableSyncable(String table, String deletedTable) {
}
/**
* Mark this table as syncable, with the _sync_dirty residing in another
* table. When an update occurs in this table the _sync_dirty field of the
* row in updateTable with the _id in foreignKey will be set to
* ensure proper syncing operation.
*
* @param table an update on this table will trigger a sync time removal
* @param foreignKey this is the column in table whose value is an _id in
* updateTable
* @param updateTable this is the table that will have its _sync_dirty
* @deprecated This method no longer serves any useful purpose and has been deprecated.
*/
@Deprecated
public void markTableSyncable(String table, String foreignKey, String updateTable) {
}
/**
* Finds the name of the first table, which is editable.
*
* @param tables a list of tables
* @return the first table listed
*/
public static String findEditTable(String tables) {
if (!TextUtils.isEmpty(tables)) {
// find the first word terminated by either a space or a comma
int spacepos = tables.indexOf(' ');
int commapos = tables.indexOf(',');
if (spacepos > 0 && (spacepos < commapos || commapos < 0)) {
return tables.substring(0, spacepos);
} else if (commapos > 0 && (commapos < spacepos || spacepos < 0) ) {
return tables.substring(0, commapos);
}
return tables;
} else {
throw new IllegalStateException("Invalid tables");
}
}
/**
* Compiles an SQL statement into a reusable pre-compiled statement object.
* The parameters are identical to {@link #execSQL(String)}. You may put ?s in the
* statement and fill in those values with {@link SQLiteProgram#bindString}
* and {@link SQLiteProgram#bindLong} each time you want to run the
* statement. Statements may not return result sets larger than 1x1.
*<p>
* No two threads should be using the same {@link SQLiteStatement} at the same time.
*
* @param sql The raw SQL statement, may contain ? for unknown values to be
* bound later.
* @return A pre-compiled {@link SQLiteStatement} object. Note that
* {@link SQLiteStatement}s are not synchronized, see the documentation for more details.
*/
public SQLiteStatement compileStatement(String sql) throws SQLException {
verifyDbIsOpen();
return new SQLiteStatement(this, sql, null);
}
/**
* Query the given URL, returning a {@link Cursor} over the result set.
*
* @param distinct true if you want each row to be unique, false otherwise.
* @param table The table name to compile the query against.
* @param columns A list of which columns to return. Passing null will
* return all columns, which is discouraged to prevent reading
* data from storage that isn't going to be used.
* @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 table.
* @param selectionArgs You may include ?s in selection, which will be
* replaced by the values from selectionArgs, in order that they
* appear in the selection. The values will be bound as Strings.
* @param groupBy A filter declaring how to group rows, formatted as an SQL
* GROUP BY clause (excluding the GROUP BY itself). Passing null
* will cause the rows to not be grouped.
* @param having A filter declare which row groups to include in the cursor,
* if row grouping is being used, formatted as an SQL HAVING
* clause (excluding the HAVING itself). Passing null will cause
* all row groups to be included, and is required when row
* grouping is not being used.
* @param orderBy 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 limit Limits the number of rows returned by the query,
* formatted as LIMIT clause. Passing null denotes no LIMIT clause.
* @return A {@link Cursor} object, which is positioned before the first entry. Note that
* {@link Cursor}s are not synchronized, see the documentation for more details.
* @see Cursor
*/
public Cursor query(boolean distinct, String table, String[] columns,
String selection, String[] selectionArgs, String groupBy,
String having, String orderBy, String limit) {
return queryWithFactory(null, distinct, table, columns, selection, selectionArgs,
groupBy, having, orderBy, limit);
}
/**
* Query the given URL, returning a {@link Cursor} over the result set.
*
* @param cursorFactory the cursor factory to use, or null for the default factory
* @param distinct true if you want each row to be unique, false otherwise.
* @param table The table name to compile the query against.
* @param columns A list of which columns to return. Passing null will
* return all columns, which is discouraged to prevent reading
* data from storage that isn't going to be used.
* @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 table.
* @param selectionArgs You may include ?s in selection, which will be
* replaced by the values from selectionArgs, in order that they
* appear in the selection. The values will be bound as Strings.
* @param groupBy A filter declaring how to group rows, formatted as an SQL
* GROUP BY clause (excluding the GROUP BY itself). Passing null
* will cause the rows to not be grouped.
* @param having A filter declare which row groups to include in the cursor,
* if row grouping is being used, formatted as an SQL HAVING
* clause (excluding the HAVING itself). Passing null will cause
* all row groups to be included, and is required when row
* grouping is not being used.
* @param orderBy 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 limit Limits the number of rows returned by the query,
* formatted as LIMIT clause. Passing null denotes no LIMIT clause.
* @return A {@link Cursor} object, which is positioned before the first entry. Note that
* {@link Cursor}s are not synchronized, see the documentation for more details.
* @see Cursor
*/
public Cursor queryWithFactory(CursorFactory cursorFactory,
boolean distinct, String table, String[] columns,
String selection, String[] selectionArgs, String groupBy,
String having, String orderBy, String limit) {
verifyDbIsOpen();
String sql = SQLiteQueryBuilder.buildQueryString(
distinct, table, columns, selection, groupBy, having, orderBy, limit);
return rawQueryWithFactory(
cursorFactory, sql, selectionArgs, findEditTable(table));
}
/**
* Query the given table, returning a {@link Cursor} over the result set.
*
* @param table The table name to compile the query against.
* @param columns A list of which columns to return. Passing null will
* return all columns, which is discouraged to prevent reading
* data from storage that isn't going to be used.
* @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 table.
* @param selectionArgs You may include ?s in selection, which will be
* replaced by the values from selectionArgs, in order that they
* appear in the selection. The values will be bound as Strings.
* @param groupBy A filter declaring how to group rows, formatted as an SQL
* GROUP BY clause (excluding the GROUP BY itself). Passing null
* will cause the rows to not be grouped.
* @param having A filter declare which row groups to include in the cursor,
* if row grouping is being used, formatted as an SQL HAVING
* clause (excluding the HAVING itself). Passing null will cause
* all row groups to be included, and is required when row
* grouping is not being used.
* @param orderBy 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 {@link Cursor} object, which is positioned before the first entry. Note that
* {@link Cursor}s are not synchronized, see the documentation for more details.
* @see Cursor
*/
public Cursor query(String table, String[] columns, String selection,
String[] selectionArgs, String groupBy, String having,
String orderBy) {
return query(false, table, columns, selection, selectionArgs, groupBy,
having, orderBy, null /* limit */);
}
/**
* Query the given table, returning a {@link Cursor} over the result set.
*
* @param table The table name to compile the query against.
* @param columns A list of which columns to return. Passing null will
* return all columns, which is discouraged to prevent reading
* data from storage that isn't going to be used.
* @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 table.
* @param selectionArgs You may include ?s in selection, which will be
* replaced by the values from selectionArgs, in order that they
* appear in the selection. The values will be bound as Strings.
* @param groupBy A filter declaring how to group rows, formatted as an SQL
* GROUP BY clause (excluding the GROUP BY itself). Passing null
* will cause the rows to not be grouped.
* @param having A filter declare which row groups to include in the cursor,
* if row grouping is being used, formatted as an SQL HAVING
* clause (excluding the HAVING itself). Passing null will cause
* all row groups to be included, and is required when row
* grouping is not being used.
* @param orderBy 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 limit Limits the number of rows returned by the query,
* formatted as LIMIT clause. Passing null denotes no LIMIT clause.
* @return A {@link Cursor} object, which is positioned before the first entry. Note that
* {@link Cursor}s are not synchronized, see the documentation for more details.
* @see Cursor
*/
public Cursor query(String table, String[] columns, String selection,
String[] selectionArgs, String groupBy, String having,
String orderBy, String limit) {
return query(false, table, columns, selection, selectionArgs, groupBy,
having, orderBy, limit);
}
/**
* Runs the provided SQL and returns a {@link Cursor} over the result set.
*
* @param sql the SQL query. The SQL string must not be ; terminated
* @param selectionArgs You may include ?s in where clause in the query,
* which will be replaced by the values from selectionArgs. The
* values will be bound as Strings.
* @return A {@link Cursor} object, which is positioned before the first entry. Note that
* {@link Cursor}s are not synchronized, see the documentation for more details.
*/
public Cursor rawQuery(String sql, String[] selectionArgs) {
return rawQueryWithFactory(null, sql, selectionArgs, null);
}
/**
* Runs the provided SQL and returns a cursor over the result set.
*
* @param cursorFactory the cursor factory to use, or null for the default factory
* @param sql the SQL query. The SQL string must not be ; terminated
* @param selectionArgs You may include ?s in where clause in the query,
* which will be replaced by the values from selectionArgs. The
* values will be bound as Strings.
* @param editTable the name of the first table, which is editable
* @return A {@link Cursor} object, which is positioned before the first entry. Note that
* {@link Cursor}s are not synchronized, see the documentation for more details.
*/
public Cursor rawQueryWithFactory(
CursorFactory cursorFactory, String sql, String[] selectionArgs,
String editTable) {
verifyDbIsOpen();
BlockGuard.getThreadPolicy().onReadFromDisk();
long timeStart = 0;
if (Config.LOGV || mSlowQueryThreshold != -1) {
timeStart = System.currentTimeMillis();
}
SQLiteDatabase db = getDbConnection(sql);
SQLiteCursorDriver driver = new SQLiteDirectCursorDriver(db, sql, editTable);
Cursor cursor = null;
try {
cursor = driver.query(
cursorFactory != null ? cursorFactory : mFactory,
selectionArgs);
} finally {
if (Config.LOGV || mSlowQueryThreshold != -1) {
// Force query execution
int count = -1;
if (cursor != null) {
count = cursor.getCount();
}
long duration = System.currentTimeMillis() - timeStart;
if (Config.LOGV || duration >= mSlowQueryThreshold) {
Log.v(SQLiteCursor.TAG,
"query (" + duration + " ms): " + driver.toString() + ", args are "
+ (selectionArgs != null
? TextUtils.join(",", selectionArgs)
: "<null>") + ", count is " + count);
}
}
releaseDbConnection(db);
}
return cursor;
}
/**
* Runs the provided SQL and returns a cursor over the result set.
* The cursor will read an initial set of rows and the return to the caller.
* It will continue to read in batches and send data changed notifications
* when the later batches are ready.
* @param sql the SQL query. The SQL string must not be ; terminated
* @param selectionArgs You may include ?s in where clause in the query,
* which will be replaced by the values from selectionArgs. The
* values will be bound as Strings.
* @param initialRead set the initial count of items to read from the cursor
* @param maxRead set the count of items to read on each iteration after the first
* @return A {@link Cursor} object, which is positioned before the first entry. Note that
* {@link Cursor}s are not synchronized, see the documentation for more details.
*
* This work is incomplete and not fully tested or reviewed, so currently
* hidden.
* @hide
*/
public Cursor rawQuery(String sql, String[] selectionArgs,
int initialRead, int maxRead) {
SQLiteCursor c = (SQLiteCursor)rawQueryWithFactory(
null, sql, selectionArgs, null);
c.setLoadStyle(initialRead, maxRead);
return c;
}
/**
* Convenience method for inserting a row into the database.
*
* @param table the table to insert the row into
* @param nullColumnHack optional; may be <code>null</code>.
* SQL doesn't allow inserting a completely empty row without
* naming at least one column name. If your provided <code>values</code> is
* empty, no column names are known and an empty row can't be inserted.
* If not set to null, the <code>nullColumnHack</code> parameter
* provides the name of nullable column name to explicitly insert a NULL into
* in the case where your <code>values</code> is empty.
* @param values this map contains the initial column values for the
* row. The keys should be the column names and the values the
* column values
* @return the row ID of the newly inserted row, or -1 if an error occurred
*/
public long insert(String table, String nullColumnHack, ContentValues values) {
try {
return insertWithOnConflict(table, nullColumnHack, values, CONFLICT_NONE);
} catch (SQLException e) {
Log.e(TAG, "Error inserting " + values, e);
return -1;
}
}
/**
* Convenience method for inserting a row into the database.
*
* @param table the table to insert the row into
* @param nullColumnHack optional; may be <code>null</code>.
* SQL doesn't allow inserting a completely empty row without
* naming at least one column name. If your provided <code>values</code> is
* empty, no column names are known and an empty row can't be inserted.
* If not set to null, the <code>nullColumnHack</code> parameter
* provides the name of nullable column name to explicitly insert a NULL into
* in the case where your <code>values</code> is empty.
* @param values this map contains the initial column values for the
* row. The keys should be the column names and the values the
* column values
* @throws SQLException
* @return the row ID of the newly inserted row, or -1 if an error occurred
*/
public long insertOrThrow(String table, String nullColumnHack, ContentValues values)
throws SQLException {
return insertWithOnConflict(table, nullColumnHack, values, CONFLICT_NONE);
}
/**
* Convenience method for replacing a row in the database.
*
* @param table the table in which to replace the row
* @param nullColumnHack optional; may be <code>null</code>.
* SQL doesn't allow inserting a completely empty row without
* naming at least one column name. If your provided <code>initialValues</code> is
* empty, no column names are known and an empty row can't be inserted.
* If not set to null, the <code>nullColumnHack</code> parameter
* provides the name of nullable column name to explicitly insert a NULL into
* in the case where your <code>initialValues</code> is empty.
* @param initialValues this map contains the initial column values for
* the row.
* @return the row ID of the newly inserted row, or -1 if an error occurred
*/
public long replace(String table, String nullColumnHack, ContentValues initialValues) {
try {
return insertWithOnConflict(table, nullColumnHack, initialValues,
CONFLICT_REPLACE);
} catch (SQLException e) {
Log.e(TAG, "Error inserting " + initialValues, e);
return -1;
}
}
/**
* Convenience method for replacing a row in the database.
*
* @param table the table in which to replace the row
* @param nullColumnHack optional; may be <code>null</code>.
* SQL doesn't allow inserting a completely empty row without
* naming at least one column name. If your provided <code>initialValues</code> is
* empty, no column names are known and an empty row can't be inserted.
* If not set to null, the <code>nullColumnHack</code> parameter
* provides the name of nullable column name to explicitly insert a NULL into
* in the case where your <code>initialValues</code> is empty.
* @param initialValues this map contains the initial column values for
* the row. The key
* @throws SQLException
* @return the row ID of the newly inserted row, or -1 if an error occurred
*/
public long replaceOrThrow(String table, String nullColumnHack,
ContentValues initialValues) throws SQLException {
return insertWithOnConflict(table, nullColumnHack, initialValues,
CONFLICT_REPLACE);
}
/**
* General method for inserting a row into the database.
*
* @param table the table to insert the row into
* @param nullColumnHack optional; may be <code>null</code>.
* SQL doesn't allow inserting a completely empty row without
* naming at least one column name. If your provided <code>initialValues</code> is
* empty, no column names are known and an empty row can't be inserted.
* If not set to null, the <code>nullColumnHack</code> parameter
* provides the name of nullable column name to explicitly insert a NULL into
* in the case where your <code>initialValues</code> is empty.
* @param initialValues this map contains the initial column values for the
* row. The keys should be the column names and the values the
* column values
* @param conflictAlgorithm for insert conflict resolver
* @return the row ID of the newly inserted row
* OR the primary key of the existing row if the input param 'conflictAlgorithm' =
* {@link #CONFLICT_IGNORE}
* OR -1 if any error
*/
public long insertWithOnConflict(String table, String nullColumnHack,
ContentValues initialValues, int conflictAlgorithm) {
StringBuilder sql = new StringBuilder();
sql.append("INSERT");
sql.append(CONFLICT_VALUES[conflictAlgorithm]);
sql.append(" INTO ");
sql.append(table);
sql.append('(');
Object[] bindArgs = null;
int size = (initialValues != null && initialValues.size() > 0) ? initialValues.size() : 0;
if (size > 0) {
bindArgs = new Object[size];
int i = 0;
for (String colName : initialValues.keySet()) {
sql.append((i > 0) ? "," : "");
sql.append(colName);
bindArgs[i++] = initialValues.get(colName);
}
sql.append(')');
sql.append(" VALUES (");
for (i = 0; i < size; i++) {
sql.append((i > 0) ? ",?" : "?");
}
} else {
sql.append(nullColumnHack + ") VALUES (NULL");
}
sql.append(')');
SQLiteStatement statement = new SQLiteStatement(this, sql.toString(), bindArgs);
try {
return statement.executeInsert();
} catch (SQLiteDatabaseCorruptException e) {
onCorruption();
throw e;
} finally {
statement.close();
}
}
/**
* Convenience method for deleting rows in the database.
*
* @param table the table to delete from
* @param whereClause the optional WHERE clause to apply when deleting.
* Passing null will delete all rows.
* @return the number of rows affected if a whereClause is passed in, 0
* otherwise. To remove all rows and get a count pass "1" as the
* whereClause.
*/
public int delete(String table, String whereClause, String[] whereArgs) {
SQLiteStatement statement = new SQLiteStatement(this, "DELETE FROM " + table +
(!TextUtils.isEmpty(whereClause) ? " WHERE " + whereClause : ""), whereArgs);
try {
return statement.executeUpdateDelete();
} catch (SQLiteDatabaseCorruptException e) {
onCorruption();
throw e;
} finally {
statement.close();
}
}
/**
* Convenience method for updating rows in the database.
*
* @param table the table to update in
* @param values a map from column names to new column values. null is a
* valid value that will be translated to NULL.
* @param whereClause the optional WHERE clause to apply when updating.
* Passing null will update all rows.
* @return the number of rows affected
*/
public int update(String table, ContentValues values, String whereClause, String[] whereArgs) {
return updateWithOnConflict(table, values, whereClause, whereArgs, CONFLICT_NONE);
}
/**
* Convenience method for updating rows in the database.
*
* @param table the table to update in
* @param values a map from column names to new column values. null is a
* valid value that will be translated to NULL.
* @param whereClause the optional WHERE clause to apply when updating.
* Passing null will update all rows.
* @param conflictAlgorithm for update conflict resolver
* @return the number of rows affected
*/
public int updateWithOnConflict(String table, ContentValues values,
String whereClause, String[] whereArgs, int conflictAlgorithm) {
if (values == null || values.size() == 0) {
throw new IllegalArgumentException("Empty values");
}
StringBuilder sql = new StringBuilder(120);
sql.append("UPDATE ");
sql.append(CONFLICT_VALUES[conflictAlgorithm]);
sql.append(table);
sql.append(" SET ");
// move all bind args to one array
int setValuesSize = values.size();
int bindArgsSize = (whereArgs == null) ? setValuesSize : (setValuesSize + whereArgs.length);
Object[] bindArgs = new Object[bindArgsSize];
int i = 0;
for (String colName : values.keySet()) {
sql.append((i > 0) ? "," : "");
sql.append(colName);
bindArgs[i++] = values.get(colName);
sql.append("=?");
}
if (whereArgs != null) {
for (i = setValuesSize; i < bindArgsSize; i++) {
bindArgs[i] = whereArgs[i - setValuesSize];
}
}
if (!TextUtils.isEmpty(whereClause)) {
sql.append(" WHERE ");
sql.append(whereClause);
}
SQLiteStatement statement = new SQLiteStatement(this, sql.toString(), bindArgs);
try {
return statement.executeUpdateDelete();
} catch (SQLiteDatabaseCorruptException e) {
onCorruption();
throw e;
} finally {
statement.close();
}
}
/**
* Execute a single SQL statement that is NOT a SELECT
* or any other SQL statement that returns data.
* <p>
* It has no means to return any data (such as the number of affected rows).
* Instead, you're encouraged to use {@link #insert(String, String, ContentValues)},
* {@link #update(String, ContentValues, String, String[])}, et al, when possible.
* </p>
* <p>
* When using {@link #enableWriteAheadLogging()}, journal_mode is
* automatically managed by this class. So, do not set journal_mode
* using "PRAGMA journal_mode'<value>" statement if your app is using
* {@link #enableWriteAheadLogging()}
* </p>
*
* @param sql the SQL statement to be executed. Multiple statements separated by semicolons are
* not supported.
* @throws SQLException if the SQL string is invalid
*/
public void execSQL(String sql) throws SQLException {
int stmtType = DatabaseUtils.getSqlStatementType(sql);
if (stmtType == DatabaseUtils.STATEMENT_ATTACH) {
disableWriteAheadLogging();
}
long timeStart = SystemClock.uptimeMillis();
logTimeStat(mLastSqlStatement, timeStart, GET_LOCK_LOG_PREFIX);
executeSql(sql, null);
if (stmtType == DatabaseUtils.STATEMENT_ATTACH) {
mHasAttachedDbs = true;
}
// Log commit statements along with the most recently executed
// SQL statement for disambiguation.
if (stmtType == DatabaseUtils.STATEMENT_COMMIT) {
logTimeStat(mLastSqlStatement, timeStart, COMMIT_SQL);
} else {
logTimeStat(sql, timeStart, null);
}
}
/**
* Execute a single SQL statement that is NOT a SELECT/INSERT/UPDATE/DELETE.
* <p>
* For INSERT statements, use any of the following instead.
* <ul>
* <li>{@link #insert(String, String, ContentValues)}</li>
* <li>{@link #insertOrThrow(String, String, ContentValues)}</li>
* <li>{@link #insertWithOnConflict(String, String, ContentValues, int)}</li>
* </ul>
* <p>
* For UPDATE statements, use any of the following instead.
* <ul>
* <li>{@link #update(String, ContentValues, String, String[])}</li>
* <li>{@link #updateWithOnConflict(String, ContentValues, String, String[], int)}</li>
* </ul>
* <p>
* For DELETE statements, use any of the following instead.
* <ul>
* <li>{@link #delete(String, String, String[])}</li>
* </ul>
* <p>
* For example, the following are good candidates for using this method:
* <ul>
* <li>ALTER TABLE</li>
* <li>CREATE or DROP table / trigger / view / index / virtual table</li>
* <li>REINDEX</li>
* <li>RELEASE</li>
* <li>SAVEPOINT</li>
* <li>PRAGMA that returns no data</li>
* </ul>
* </p>
* <p>
* When using {@link #enableWriteAheadLogging()}, journal_mode is
* automatically managed by this class. So, do not set journal_mode
* using "PRAGMA journal_mode'<value>" statement if your app is using
* {@link #enableWriteAheadLogging()}
* </p>
*
* @param sql the SQL statement to be executed. Multiple statements separated by semicolons are
* not supported.
* @param bindArgs only byte[], String, Long and Double are supported in bindArgs.
* @throws SQLException if the SQL string is invalid
*/
public void execSQL(String sql, Object[] bindArgs) throws SQLException {
if (bindArgs == null) {
throw new IllegalArgumentException("Empty bindArgs");
}
executeSql(sql, bindArgs);
}
private int executeSql(String sql, Object[] bindArgs) throws SQLException {
long timeStart = SystemClock.uptimeMillis();
int n;
SQLiteStatement statement = new SQLiteStatement(this, sql, bindArgs);
try {
n = statement.executeUpdateDelete();
} catch (SQLiteDatabaseCorruptException e) {
onCorruption();
throw e;
} finally {
statement.close();
}
logTimeStat(sql, timeStart);
return n;
}
@Override
protected void finalize() throws Throwable {
try {
if (isOpen()) {
Log.e(TAG, "close() was never explicitly called on database '" +
mPath + "' ", mStackTrace);
closeClosable();
onAllReferencesReleased();
releaseCustomFunctions();
}
} finally {
super.finalize();
}
}
/**
* Private constructor.
*
* @param path The full path to the database
* @param factory The factory to use when creating cursors, may be NULL.
* @param flags 0 or {@link #NO_LOCALIZED_COLLATORS}. If the database file already
* exists, mFlags will be updated appropriately.
* @param errorHandler The {@link DatabaseErrorHandler} to be used when sqlite reports database
* corruption. may be NULL.
* @param connectionNum 0 for main database connection handle. 1..N for pooled database
* connection handles.
*/
private SQLiteDatabase(String path, CursorFactory factory, int flags,
DatabaseErrorHandler errorHandler, short connectionNum) {
if (path == null) {
throw new IllegalArgumentException("path should not be null");
}
setMaxSqlCacheSize(DEFAULT_SQL_CACHE_SIZE);
mFlags = flags;
mPath = path;
mSlowQueryThreshold = SystemProperties.getInt(LOG_SLOW_QUERIES_PROPERTY, -1);
mStackTrace = new DatabaseObjectNotClosedException().fillInStackTrace();
mFactory = factory;
mPrograms = new WeakHashMap<SQLiteClosable,Object>();
// Set the DatabaseErrorHandler to be used when SQLite reports corruption.
// If the caller sets errorHandler = null, then use default errorhandler.
mErrorHandler = (errorHandler == null) ? new DefaultDatabaseErrorHandler() : errorHandler;
mConnectionNum = connectionNum;
/* sqlite soft heap limit http://www.sqlite.org/c3ref/soft_heap_limit64.html
* set it to 4 times the default cursor window size.
* TODO what is an appropriate value, considering the WAL feature which could burn
* a lot of memory with many connections to the database. needs testing to figure out
* optimal value for this.
*/
int limit = Resources.getSystem().getInteger(
com.android.internal.R.integer.config_cursorWindowSize) * 1024 * 4;
native_setSqliteSoftHeapLimit(limit);
}
/**
* return whether the DB is opened as read only.
* @return true if DB is opened as read only
*/
public boolean isReadOnly() {
return (mFlags & OPEN_READ_MASK) == OPEN_READONLY;
}
/**
* @return true if the DB is currently open (has not been closed)
*/
public boolean isOpen() {
return mNativeHandle != 0;
}
public boolean needUpgrade(int newVersion) {
return newVersion > getVersion();
}
/**
* Getter for the path to the database file.
*
* @return the path to our database file.
*/
public final String getPath() {
return mPath;
}
/* package */ void logTimeStat(String sql, long beginMillis) {
logTimeStat(sql, beginMillis, null);
}
/* package */ void logTimeStat(String sql, long beginMillis, String prefix) {
// Keep track of the last statement executed here, as this is
// the common funnel through which all methods of hitting
// libsqlite eventually flow.
mLastSqlStatement = sql;
// Sample fast queries in proportion to the time taken.
// Quantize the % first, so the logged sampling probability
// exactly equals the actual sampling rate for this query.
int samplePercent;
long durationMillis = SystemClock.uptimeMillis() - beginMillis;
if (durationMillis == 0 && prefix == GET_LOCK_LOG_PREFIX) {
// The common case is locks being uncontended. Don't log those,
// even at 1%, which is our default below.
return;
}
if (sQueryLogTimeInMillis == 0) {
sQueryLogTimeInMillis = SystemProperties.getInt("db.db_operation.threshold_ms", 500);
}
if (durationMillis >= sQueryLogTimeInMillis) {
samplePercent = 100;
} else {
samplePercent = (int) (100 * durationMillis / sQueryLogTimeInMillis) + 1;
if (mRandom.nextInt(100) >= samplePercent) return;
}
// Note: the prefix will be "COMMIT;" or "GETLOCK:" when non-null. We wait to do
// it here so we avoid allocating in the common case.
if (prefix != null) {
sql = prefix + sql;
}
if (sql.length() > QUERY_LOG_SQL_LENGTH) sql = sql.substring(0, QUERY_LOG_SQL_LENGTH);
// 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.
//
// Sadly, there's no fast way to determine app name if this is *not* a
// main thread, or when we are invoked via Binder (e.g. ContentProvider).
// Hopefully the full path to the database will be informative enough.
String blockingPackage = AppGlobals.getInitialPackage();
if (blockingPackage == null) blockingPackage = "";
EventLog.writeEvent(
EVENT_DB_OPERATION,
getPathForLogs(),
sql,
durationMillis,
blockingPackage,
samplePercent);
}
/**
* Removes email addresses from database filenames before they're
* logged to the EventLog where otherwise apps could potentially
* read them.
*/
private String getPathForLogs() {
if (mPathForLogs != null) {
return mPathForLogs;
}
if (mPath == null) {
return null;
}
if (mPath.indexOf('@') == -1) {
mPathForLogs = mPath;
} else {
mPathForLogs = EMAIL_IN_DB_PATTERN.matcher(mPath).replaceAll("XX@YY");
}
return mPathForLogs;
}
/**
* Sets the locale for this database. Does nothing if this database has
* the NO_LOCALIZED_COLLATORS flag set or was opened read only.
* @throws SQLException if the locale could not be set. The most common reason
* for this is that there is no collator available for the locale you requested.
* In this case the database remains unchanged.
*/
public void setLocale(Locale locale) {
lock();
try {
native_setLocale(locale.toString(), mFlags);
} finally {
unlock();
}
}
/* package */ void verifyDbIsOpen() {
if (!isOpen()) {
throw new IllegalStateException("database " + getPath() + " (conn# " +
mConnectionNum + ") already closed");
}
}
/* package */ void verifyLockOwner() {
verifyDbIsOpen();
if (mLockingEnabled && !isDbLockedByCurrentThread()) {
throw new IllegalStateException("Don't have database lock!");
}
}
/**
* Adds the given SQL and its compiled-statement-id-returned-by-sqlite to the
* cache of compiledQueries attached to 'this'.
* <p>
* If there is already a {@link SQLiteCompiledSql} in compiledQueries for the given SQL,
* the new {@link SQLiteCompiledSql} object is NOT inserted into the cache (i.e.,the current
* mapping is NOT replaced with the new mapping).
*/
/* package */ synchronized void addToCompiledQueries(
String sql, SQLiteCompiledSql compiledStatement) {
// don't insert the new mapping if a mapping already exists
if (mCompiledQueries.get(sql) != null) {
return;
}
int maxCacheSz = (mConnectionNum == 0) ? mCompiledQueries.maxSize() :
mParentConnObj.mCompiledQueries.maxSize();
if (SQLiteDebug.DEBUG_SQL_CACHE) {
boolean printWarning = (mConnectionNum == 0)
? (!mCacheFullWarning && mCompiledQueries.size() == maxCacheSz)
: (!mParentConnObj.mCacheFullWarning &&
mParentConnObj.mCompiledQueries.size() == maxCacheSz);
if (printWarning) {
/*
* cache size is not enough for this app. log a warning.
* chances are it is NOT using ? for bindargs - or cachesize is too small.
*/
Log.w(TAG, "Reached MAX size for compiled-sql statement cache for database " +
getPath() + ". Use setMaxSqlCacheSize() to increase cachesize. ");
mCacheFullWarning = true;
Log.d(TAG, "Here are the SQL statements in Cache of database: " + mPath);
for (String s : mCompiledQueries.snapshot().keySet()) {
Log.d(TAG, "Sql statement in Cache: " + s);
}
}
}
/* add the given SQLiteCompiledSql compiledStatement to cache.
* no need to worry about the cache size - because {@link #mCompiledQueries}
* self-limits its size.
*/
mCompiledQueries.put(sql, compiledStatement);
}
/** package-level access for testing purposes */
/* package */ synchronized void deallocCachedSqlStatements() {
for (SQLiteCompiledSql compiledSql : mCompiledQueries.snapshot().values()) {
compiledSql.releaseSqlStatement();
}
mCompiledQueries.evictAll();
}
/**
* From the compiledQueries cache, returns the compiled-statement-id for the given SQL.
* Returns null, if not found in the cache.
*/
/* package */ synchronized SQLiteCompiledSql getCompiledStatementForSql(String sql) {
return mCompiledQueries.get(sql);
}
/**
* Sets the maximum size of the prepared-statement cache for this database.
* (size of the cache = number of compiled-sql-statements stored in the cache).
*<p>
* Maximum cache size can ONLY be increased from its current size (default = 10).
* If this method is called with smaller size than the current maximum value,
* then IllegalStateException is thrown.
*<p>
* This method is thread-safe.
*
* @param cacheSize the size of the cache. can be (0 to {@link #MAX_SQL_CACHE_SIZE})
* @throws IllegalStateException if input cacheSize > {@link #MAX_SQL_CACHE_SIZE} or
* the value set with previous setMaxSqlCacheSize() call.
*/
public void setMaxSqlCacheSize(int cacheSize) {
synchronized (this) {
LruCache<String, SQLiteCompiledSql> oldCompiledQueries = mCompiledQueries;
if (cacheSize > MAX_SQL_CACHE_SIZE || cacheSize < 0) {
throw new IllegalStateException(
"expected value between 0 and " + MAX_SQL_CACHE_SIZE);
} else if (oldCompiledQueries != null && cacheSize < oldCompiledQueries.maxSize()) {
throw new IllegalStateException("cannot set cacheSize to a value less than the "
+ "value set with previous setMaxSqlCacheSize() call.");
}
mCompiledQueries = new LruCache<String, SQLiteCompiledSql>(cacheSize) {
@Override
protected void entryRemoved(boolean evicted, String key, SQLiteCompiledSql oldValue,
SQLiteCompiledSql newValue) {
verifyLockOwner();
oldValue.releaseIfNotInUse();
}
};
if (oldCompiledQueries != null) {
for (Map.Entry<String, SQLiteCompiledSql> entry
: oldCompiledQueries.snapshot().entrySet()) {
mCompiledQueries.put(entry.getKey(), entry.getValue());
}
}
}
}
/* package */ synchronized boolean isInStatementCache(String sql) {
return mCompiledQueries.get(sql) != null;
}
/* package */ synchronized void releaseCompiledSqlObj(
String sql, SQLiteCompiledSql compiledSql) {
if (mCompiledQueries.get(sql) == compiledSql) {
// it is in cache - reset its inUse flag
compiledSql.release();
} else {
// it is NOT in cache. finalize it.
compiledSql.releaseSqlStatement();
}
}
private synchronized int getCacheHitNum() {
return mCompiledQueries.hitCount();
}
private synchronized int getCacheMissNum() {
return mCompiledQueries.missCount();
}
private synchronized int getCachesize() {
return mCompiledQueries.size();
}
/* package */ void finalizeStatementLater(int id) {
if (!isOpen()) {
// database already closed. this statement will already have been finalized.
return;
}
synchronized(mClosedStatementIds) {
if (mClosedStatementIds.contains(id)) {
// this statement id is already queued up for finalization.
return;
}
mClosedStatementIds.add(id);
}
}
/* package */ boolean isInQueueOfStatementsToBeFinalized(int id) {
if (!isOpen()) {
// database already closed. this statement will already have been finalized.
// return true so that the caller doesn't have to worry about finalizing this statement.
return true;
}
synchronized(mClosedStatementIds) {
return mClosedStatementIds.contains(id);
}
}
/* package */ void closePendingStatements() {
if (!isOpen()) {
// since this database is already closed, no need to finalize anything.
mClosedStatementIds.clear();
return;
}
verifyLockOwner();
/* to minimize synchronization on mClosedStatementIds, make a copy of the list */
ArrayList<Integer> list = new ArrayList<Integer>(mClosedStatementIds.size());
synchronized(mClosedStatementIds) {
list.addAll(mClosedStatementIds);
mClosedStatementIds.clear();
}
// finalize all the statements from the copied list
int size = list.size();
for (int i = 0; i < size; i++) {
native_finalize(list.get(i));
}
}
/**
* for testing only
*/
/* package */ ArrayList<Integer> getQueuedUpStmtList() {
return mClosedStatementIds;
}
/**
* This method enables parallel execution of queries from multiple threads on the same database.
* It does this by opening multiple handles to the database and using a different
* database handle for each query.
* <p>
* If a transaction is in progress on one connection handle and say, a table is updated in the
* transaction, then query on the same table on another connection handle will block for the
* transaction to complete. But this method enables such queries to execute by having them
* return old version of the data from the table. Most often it is the data that existed in the
* table prior to the above transaction updates on that table.
* <p>
* Maximum number of simultaneous handles used to execute queries in parallel is
* dependent upon the device memory and possibly other properties.
* <p>
* After calling this method, execution of queries in parallel is enabled as long as this
* database handle is open. To disable execution of queries in parallel, database should
* be closed and reopened.
* <p>
* If a query is part of a transaction, then it is executed on the same database handle the
* transaction was begun.
* <p>
* If the database has any attached databases, then execution of queries in paralel is NOT
* possible. In such cases, a message is printed to logcat and false is returned.
* <p>
* This feature is not available for :memory: databases. In such cases,
* a message is printed to logcat and false is returned.
* <p>
* A typical way to use this method is the following:
* <pre>
* SQLiteDatabase db = SQLiteDatabase.openDatabase("db_filename", cursorFactory,
* CREATE_IF_NECESSARY, myDatabaseErrorHandler);
* db.enableWriteAheadLogging();
* </pre>
* <p>
* Writers should use {@link #beginTransactionNonExclusive()} or
* {@link #beginTransactionWithListenerNonExclusive(SQLiteTransactionListener)}
* to start a trsnsaction.
* Non-exclusive mode allows database file to be in readable by threads executing queries.
* </p>
*
* @return true if write-ahead-logging is set. false otherwise
*/
public boolean enableWriteAheadLogging() {
// make sure the database is not READONLY. WAL doesn't make sense for readonly-databases.
if (isReadOnly()) {
return false;
}
// acquire lock - no that no other thread is enabling WAL at the same time
lock();
try {
if (mConnectionPool != null) {
// already enabled
return true;
}
if (mPath.equalsIgnoreCase(MEMORY_DB_PATH)) {
Log.i(TAG, "can't enable WAL for memory databases.");
return false;
}
// make sure this database has NO attached databases because sqlite's write-ahead-logging
// doesn't work for databases with attached databases
if (mHasAttachedDbs) {
if (Log.isLoggable(TAG, Log.DEBUG)) {
Log.d(TAG,
"this database: " + mPath + " has attached databases. can't enable WAL.");
}
return false;
}
mConnectionPool = new DatabaseConnectionPool(this);
setJournalMode(mPath, "WAL");
return true;
} finally {
unlock();
}
}
/**
* This method disables the features enabled by {@link #enableWriteAheadLogging()}.
* @hide
*/
public void disableWriteAheadLogging() {
// grab database lock so that writeAheadLogging is not disabled from 2 different threads
// at the same time
lock();
try {
if (mConnectionPool == null) {
return; // already disabled
}
mConnectionPool.close();
setJournalMode(mPath, "TRUNCATE");
mConnectionPool = null;
} finally {
unlock();
}
}
/* package */ SQLiteDatabase getDatabaseHandle(String sql) {
if (isPooledConnection()) {
// this is a pooled database connection
// use it if it is open AND if I am not currently part of a transaction
if (isOpen() && !amIInTransaction()) {
// TODO: use another connection from the pool
// if this connection is currently in use by some other thread
// AND if there are free connections in the pool
return this;
} else {
// the pooled connection is not open! could have been closed either due
// to corruption on this or some other connection to the database
// OR, maybe the connection pool is disabled after this connection has been
// allocated to me. try to get some other pooled or main database connection
return getParentDbConnObj().getDbConnection(sql);
}
} else {
// this is NOT a pooled connection. can we get one?
return getDbConnection(sql);
}
}
/* package */ SQLiteDatabase createPoolConnection(short connectionNum) {
SQLiteDatabase db = openDatabase(mPath, mFactory, mFlags, mErrorHandler, connectionNum);
db.mParentConnObj = this;
return db;
}
private synchronized SQLiteDatabase getParentDbConnObj() {
return mParentConnObj;
}
private boolean isPooledConnection() {
return this.mConnectionNum > 0;
}
/* package */ SQLiteDatabase getDbConnection(String sql) {
verifyDbIsOpen();
// this method should always be called with main database connection handle.
// the only time when it is called with pooled database connection handle is
// corruption occurs while trying to open a pooled database connection handle.
// in that case, simply return 'this' handle
if (isPooledConnection()) {
return this;
}
// use the current connection handle if
// 1. if the caller is part of the ongoing transaction, if any
// 2. OR, if there is NO connection handle pool setup
if (amIInTransaction() || mConnectionPool == null) {
return this;
} else {
// get a connection handle from the pool
if (Log.isLoggable(TAG, Log.DEBUG)) {
assert mConnectionPool != null;
Log.i(TAG, mConnectionPool.toString());
}
return mConnectionPool.get(sql);
}
}
private void releaseDbConnection(SQLiteDatabase db) {
// ignore this release call if
// 1. the database is closed
// 2. OR, if db is NOT a pooled connection handle
// 3. OR, if the database being released is same as 'this' (this condition means
// that we should always be releasing a pooled connection handle by calling this method
// from the 'main' connection handle
if (!isOpen() || !db.isPooledConnection() || (db == this)) {
return;
}
if (Log.isLoggable(TAG, Log.DEBUG)) {
assert isPooledConnection();
assert mConnectionPool != null;
Log.d(TAG, "releaseDbConnection threadid = " + Thread.currentThread().getId() +
", releasing # " + db.mConnectionNum + ", " + getPath());
}
mConnectionPool.release(db);
}
/**
* this method is used to collect data about ALL open databases in the current process.
* bugreport is a user of this data.
*/
/* package */ static ArrayList<DbStats> getDbStats() {
ArrayList<DbStats> dbStatsList = new ArrayList<DbStats>();
// make a local copy of mActiveDatabases - so that this method is not competing
// for synchronization lock on mActiveDatabases
ArrayList<WeakReference<SQLiteDatabase>> tempList;
synchronized(mActiveDatabases) {
tempList = (ArrayList<WeakReference<SQLiteDatabase>>)mActiveDatabases.clone();
}
for (WeakReference<SQLiteDatabase> w : tempList) {
SQLiteDatabase db = w.get();
if (db == null || !db.isOpen()) {
continue;
}
try {
// get SQLITE_DBSTATUS_LOOKASIDE_USED for the db
int lookasideUsed = db.native_getDbLookaside();
// get the lastnode of the dbname
String path = db.getPath();
int indx = path.lastIndexOf("/");
String lastnode = path.substring((indx != -1) ? ++indx : 0);
// get list of attached dbs and for each db, get its size and pagesize
List<Pair<String, String>> attachedDbs = db.getAttachedDbs();
if (attachedDbs == null) {
continue;
}
for (int i = 0; i < attachedDbs.size(); i++) {
Pair<String, String> p = attachedDbs.get(i);
long pageCount = DatabaseUtils.longForQuery(db, "PRAGMA " + p.first
+ ".page_count;", null);
// first entry in the attached db list is always the main database
// don't worry about prefixing the dbname with "main"
String dbName;
if (i == 0) {
dbName = lastnode;
} else {
// lookaside is only relevant for the main db
lookasideUsed = 0;
dbName = " (attached) " + p.first;
// if the attached db has a path, attach the lastnode from the path to above
if (p.second.trim().length() > 0) {
int idx = p.second.lastIndexOf("/");
dbName += " : " + p.second.substring((idx != -1) ? ++idx : 0);
}
}
if (pageCount > 0) {
dbStatsList.add(new DbStats(dbName, pageCount, db.getPageSize(),
lookasideUsed, db.getCacheHitNum(), db.getCacheMissNum(),
db.getCachesize()));
}
}
// if there are pooled connections, return the cache stats for them also.
// while we are trying to query the pooled connections for stats, some other thread
// could be disabling conneciton pool. so, grab a reference to the connection pool.
DatabaseConnectionPool connPool = db.mConnectionPool;
if (connPool != null) {
for (SQLiteDatabase pDb : connPool.getConnectionList()) {
dbStatsList.add(new DbStats("(pooled # " + pDb.mConnectionNum + ") "
+ lastnode, 0, 0, 0, pDb.getCacheHitNum(),
pDb.getCacheMissNum(), pDb.getCachesize()));
}
}
} catch (SQLiteException e) {
// ignore. we don't care about exceptions when we are taking adb
// bugreport!
}
}
return dbStatsList;
}
/**
* Returns list of full pathnames of all attached databases including the main database
* by executing 'pragma database_list' on the database.
*
* @return ArrayList of pairs of (database name, database file path) or null if the database
* is not open.
*/
public List<Pair<String, String>> getAttachedDbs() {
if (!isOpen()) {
return null;
}
ArrayList<Pair<String, String>> attachedDbs = new ArrayList<Pair<String, String>>();
if (!mHasAttachedDbs) {
// No attached databases.
// There is a small window where attached databases exist but this flag is not set yet.
// This can occur when this thread is in a race condition with another thread
// that is executing the SQL statement: "attach database <blah> as <foo>"
// If this thread is NOT ok with such a race condition (and thus possibly not receive
// the entire list of attached databases), then the caller should ensure that no thread
// is executing any SQL statements while a thread is calling this method.
// Typically, this method is called when 'adb bugreport' is done or the caller wants to
// collect stats on the database and all its attached databases.
attachedDbs.add(new Pair<String, String>("main", mPath));
return attachedDbs;
}
// has attached databases. query sqlite to get the list of attached databases.
Cursor c = null;
try {
c = rawQuery("pragma database_list;", null);
while (c.moveToNext()) {
// sqlite returns a row for each database in the returned list of databases.
// in each row,
// 1st column is the database name such as main, or the database
// name specified on the "ATTACH" command
// 2nd column is the database file path.
attachedDbs.add(new Pair<String, String>(c.getString(1), c.getString(2)));
}
} finally {
if (c != null) {
c.close();
}
}
return attachedDbs;
}
/**
* Runs 'pragma integrity_check' on the given database (and all the attached databases)
* and returns true if the given database (and all its attached databases) pass integrity_check,
* false otherwise.
*<p>
* If the result is false, then this method logs the errors reported by the integrity_check
* command execution.
*<p>
* Note that 'pragma integrity_check' on a database can take a long time.
*
* @return true if the given database (and all its attached databases) pass integrity_check,
* false otherwise.
*/
public boolean isDatabaseIntegrityOk() {
verifyDbIsOpen();
List<Pair<String, String>> attachedDbs = null;
try {
attachedDbs = getAttachedDbs();
if (attachedDbs == null) {
throw new IllegalStateException("databaselist for: " + getPath() + " couldn't " +
"be retrieved. probably because the database is closed");
}
} catch (SQLiteException e) {
// can't get attachedDb list. do integrity check on the main database
attachedDbs = new ArrayList<Pair<String, String>>();
attachedDbs.add(new Pair<String, String>("main", this.mPath));
}
for (int i = 0; i < attachedDbs.size(); i++) {
Pair<String, String> p = attachedDbs.get(i);
SQLiteStatement prog = null;
try {
prog = compileStatement("PRAGMA " + p.first + ".integrity_check(1);");
String rslt = prog.simpleQueryForString();
if (!rslt.equalsIgnoreCase("ok")) {
// integrity_checker failed on main or attached databases
Log.e(TAG, "PRAGMA integrity_check on " + p.second + " returned: " + rslt);
return false;
}
} finally {
if (prog != null) prog.close();
}
}
return true;
}
/**
* Native call to open the database.
*
* @param path The full path to the database
*/
private native void dbopen(String path, int flags);
/**
* Native call to setup tracing of all SQL statements
*
* @param path the full path to the database
* @param connectionNum connection number: 0 - N, where the main database
* connection handle is numbered 0 and the connection handles in the connection
* pool are numbered 1..N.
*/
private native void enableSqlTracing(String path, short connectionNum);
/**
* Native call to setup profiling of all SQL statements.
* currently, sqlite's profiling = printing of execution-time
* (wall-clock time) of each of the SQL statements, as they
* are executed.
*
* @param path the full path to the database
* @param connectionNum connection number: 0 - N, where the main database
* connection handle is numbered 0 and the connection handles in the connection
* pool are numbered 1..N.
*/
private native void enableSqlProfiling(String path, short connectionNum);
/**
* Native call to set the locale. {@link #lock} must be held when calling
* this method.
* @throws SQLException
*/
private native void native_setLocale(String loc, int flags);
/**
* return the SQLITE_DBSTATUS_LOOKASIDE_USED documented here
* http://www.sqlite.org/c3ref/c_dbstatus_lookaside_used.html
* @return int value of SQLITE_DBSTATUS_LOOKASIDE_USED
*/
private native int native_getDbLookaside();
/**
* finalizes the given statement id.
*
* @param statementId statement to be finzlied by sqlite
*/
private final native void native_finalize(int statementId);
/**
* set sqlite soft heap limit
* http://www.sqlite.org/c3ref/soft_heap_limit64.html
*/
private native void native_setSqliteSoftHeapLimit(int softHeapLimit);
}