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/*
* Copyright (C) 2007, 2008 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "SQLTransaction.h"
#if ENABLE(DATABASE)
#include "Database.h"
#include "DatabaseThread.h"
#include "Logging.h"
#include "PlatformString.h"
#include "ScriptExecutionContext.h"
#include "SQLError.h"
#include "SQLiteTransaction.h"
#include "SQLStatement.h"
#include "SQLStatementCallback.h"
#include "SQLStatementErrorCallback.h"
#include "SQLTransactionCallback.h"
#include "SQLTransactionClient.h"
#include "SQLTransactionCoordinator.h"
#include "SQLTransactionErrorCallback.h"
#include "SQLValue.h"
#include "VoidCallback.h"
#include <wtf/OwnPtr.h>
#include <wtf/PassRefPtr.h>
#include <wtf/RefPtr.h>
// There's no way of knowing exactly how much more space will be required when a statement hits the quota limit.
// For now, we'll arbitrarily choose currentQuota + 1mb.
// In the future we decide to track if a size increase wasn't enough, and ask for larger-and-larger increases until its enough.
static const int DefaultQuotaSizeIncrease = 1048576;
namespace WebCore {
PassRefPtr<SQLTransaction> SQLTransaction::create(Database* db, PassRefPtr<SQLTransactionCallback> callback, PassRefPtr<SQLTransactionErrorCallback> errorCallback,
PassRefPtr<VoidCallback> successCallback, PassRefPtr<SQLTransactionWrapper> wrapper, bool readOnly)
{
return adoptRef(new SQLTransaction(db, callback, errorCallback, successCallback, wrapper, readOnly));
}
SQLTransaction::SQLTransaction(Database* db, PassRefPtr<SQLTransactionCallback> callback, PassRefPtr<SQLTransactionErrorCallback> errorCallback,
PassRefPtr<VoidCallback> successCallback, PassRefPtr<SQLTransactionWrapper> wrapper, bool readOnly)
: m_nextStep(&SQLTransaction::acquireLock)
, m_executeSqlAllowed(false)
, m_database(db)
, m_wrapper(wrapper)
, m_callback(callback)
, m_successCallback(successCallback)
, m_errorCallback(errorCallback)
, m_shouldRetryCurrentStatement(false)
, m_modifiedDatabase(false)
, m_lockAcquired(false)
, m_readOnly(readOnly)
{
ASSERT(m_database);
}
SQLTransaction::~SQLTransaction()
{
ASSERT(!m_sqliteTransaction);
}
void SQLTransaction::executeSQL(const String& sqlStatement, const Vector<SQLValue>& arguments, PassRefPtr<SQLStatementCallback> callback, PassRefPtr<SQLStatementErrorCallback> callbackError, ExceptionCode& e)
{
if (!m_executeSqlAllowed || !m_database->opened()) {
e = INVALID_STATE_ERR;
return;
}
bool readOnlyMode = m_readOnly;
if (!readOnlyMode) {
if (m_database->scriptExecutionContext()->isDatabaseReadOnly())
readOnlyMode = true;
}
RefPtr<SQLStatement> statement = SQLStatement::create(sqlStatement, arguments, callback, callbackError, readOnlyMode);
if (m_database->deleted())
statement->setDatabaseDeletedError();
if (!m_database->versionMatchesExpected())
statement->setVersionMismatchedError();
enqueueStatement(statement);
}
void SQLTransaction::enqueueStatement(PassRefPtr<SQLStatement> statement)
{
MutexLocker locker(m_statementMutex);
m_statementQueue.append(statement);
}
#ifndef NDEBUG
const char* SQLTransaction::debugStepName(SQLTransaction::TransactionStepMethod step)
{
if (step == &SQLTransaction::acquireLock)
return "acquireLock";
else if (step == &SQLTransaction::openTransactionAndPreflight)
return "openTransactionAndPreflight";
else if (step == &SQLTransaction::runStatements)
return "runStatements";
else if (step == &SQLTransaction::postflightAndCommit)
return "postflightAndCommit";
else if (step == &SQLTransaction::cleanupAfterTransactionErrorCallback)
return "cleanupAfterTransactionErrorCallback";
else if (step == &SQLTransaction::deliverTransactionCallback)
return "deliverTransactionCallback";
else if (step == &SQLTransaction::deliverTransactionErrorCallback)
return "deliverTransactionErrorCallback";
else if (step == &SQLTransaction::deliverStatementCallback)
return "deliverStatementCallback";
else if (step == &SQLTransaction::deliverQuotaIncreaseCallback)
return "deliverQuotaIncreaseCallback";
else if (step == &SQLTransaction::deliverSuccessCallback)
return "deliverSuccessCallback";
else if (step == &SQLTransaction::cleanupAfterSuccessCallback)
return "cleanupAfterSuccessCallback";
else
return "UNKNOWN";
}
#endif
void SQLTransaction::checkAndHandleClosedOrInterruptedDatabase()
{
if (m_database->opened() && !m_database->isInterrupted())
return;
// If the database was stopped, don't do anything and cancel queued work
LOG(StorageAPI, "Database was stopped or interrupted - cancelling work for this transaction");
MutexLocker locker(m_statementMutex);
m_statementQueue.clear();
m_nextStep = 0;
// Release the unneeded callbacks, to break reference cycles.
m_callback = 0;
m_successCallback = 0;
m_errorCallback = 0;
// The next steps should be executed only if we're on the DB thread.
if (currentThread() != database()->scriptExecutionContext()->databaseThread()->getThreadID())
return;
// The current SQLite transaction should be stopped, as well
if (m_sqliteTransaction) {
m_sqliteTransaction->stop();
m_sqliteTransaction.clear();
}
if (m_lockAcquired)
m_database->transactionCoordinator()->releaseLock(this);
}
bool SQLTransaction::performNextStep()
{
LOG(StorageAPI, "Step %s\n", debugStepName(m_nextStep));
ASSERT(m_nextStep == &SQLTransaction::acquireLock ||
m_nextStep == &SQLTransaction::openTransactionAndPreflight ||
m_nextStep == &SQLTransaction::runStatements ||
m_nextStep == &SQLTransaction::postflightAndCommit ||
m_nextStep == &SQLTransaction::cleanupAfterSuccessCallback ||
m_nextStep == &SQLTransaction::cleanupAfterTransactionErrorCallback);
checkAndHandleClosedOrInterruptedDatabase();
if (m_nextStep)
(this->*m_nextStep)();
// If there is no nextStep after performing the above step, the transaction is complete
return !m_nextStep;
}
void SQLTransaction::performPendingCallback()
{
LOG(StorageAPI, "Callback %s\n", debugStepName(m_nextStep));
ASSERT(m_nextStep == &SQLTransaction::deliverTransactionCallback ||
m_nextStep == &SQLTransaction::deliverTransactionErrorCallback ||
m_nextStep == &SQLTransaction::deliverStatementCallback ||
m_nextStep == &SQLTransaction::deliverQuotaIncreaseCallback ||
m_nextStep == &SQLTransaction::deliverSuccessCallback);
checkAndHandleClosedOrInterruptedDatabase();
if (m_nextStep)
(this->*m_nextStep)();
}
void SQLTransaction::notifyDatabaseThreadIsShuttingDown()
{
ASSERT(currentThread() == database()->scriptExecutionContext()->databaseThread()->getThreadID());
// If the transaction is in progress, we should roll it back here, since this is our last
// oportunity to do something related to this transaction on the DB thread.
// Clearing m_sqliteTransaction invokes SQLiteTransaction's destructor which does just that.
m_sqliteTransaction.clear();
}
void SQLTransaction::acquireLock()
{
m_database->transactionCoordinator()->acquireLock(this);
}
void SQLTransaction::lockAcquired()
{
m_lockAcquired = true;
m_nextStep = &SQLTransaction::openTransactionAndPreflight;
LOG(StorageAPI, "Scheduling openTransactionAndPreflight immediately for transaction %p\n", this);
m_database->scheduleTransactionStep(this, true);
}
void SQLTransaction::openTransactionAndPreflight()
{
ASSERT(!m_database->sqliteDatabase().transactionInProgress());
ASSERT(m_lockAcquired);
LOG(StorageAPI, "Opening and preflighting transaction %p", this);
// If the database was deleted, jump to the error callback
if (m_database->deleted()) {
m_transactionError = SQLError::create(SQLError::UNKNOWN_ERR, "unable to open a transaction, because the user deleted the database");
handleTransactionError(false);
return;
}
// Set the maximum usage for this transaction if this transactions is not read-only
if (!m_readOnly)
m_database->sqliteDatabase().setMaximumSize(m_database->maximumSize());
ASSERT(!m_sqliteTransaction);
m_sqliteTransaction = adoptPtr(new SQLiteTransaction(m_database->sqliteDatabase(), m_readOnly));
m_database->resetDeletes();
m_database->disableAuthorizer();
m_sqliteTransaction->begin();
m_database->enableAuthorizer();
// Transaction Steps 1+2 - Open a transaction to the database, jumping to the error callback if that fails
if (!m_sqliteTransaction->inProgress()) {
ASSERT(!m_database->sqliteDatabase().transactionInProgress());
m_sqliteTransaction.clear();
m_transactionError = SQLError::create(SQLError::DATABASE_ERR, "unable to open a transaction to the database");
handleTransactionError(false);
return;
}
// Transaction Steps 3 - Peform preflight steps, jumping to the error callback if they fail
if (m_wrapper && !m_wrapper->performPreflight(this)) {
m_sqliteTransaction.clear();
m_transactionError = m_wrapper->sqlError();
if (!m_transactionError)
m_transactionError = SQLError::create(SQLError::UNKNOWN_ERR, "unknown error occured setting up transaction");
handleTransactionError(false);
return;
}
// Transaction Step 4 - Invoke the transaction callback with the new SQLTransaction object
m_nextStep = &SQLTransaction::deliverTransactionCallback;
LOG(StorageAPI, "Scheduling deliverTransactionCallback for transaction %p\n", this);
m_database->scheduleTransactionCallback(this);
}
void SQLTransaction::deliverTransactionCallback()
{
bool shouldDeliverErrorCallback = false;
if (m_callback) {
m_executeSqlAllowed = true;
shouldDeliverErrorCallback = !m_callback->handleEvent(this);
m_executeSqlAllowed = false;
m_callback = 0;
}
// Transaction Step 5 - If the transaction callback was null or raised an exception, jump to the error callback
if (shouldDeliverErrorCallback) {
m_transactionError = SQLError::create(SQLError::UNKNOWN_ERR, "the SQLTransactionCallback was null or threw an exception");
deliverTransactionErrorCallback();
} else
scheduleToRunStatements();
}
void SQLTransaction::scheduleToRunStatements()
{
m_nextStep = &SQLTransaction::runStatements;
LOG(StorageAPI, "Scheduling runStatements for transaction %p\n", this);
m_database->scheduleTransactionStep(this);
}
void SQLTransaction::runStatements()
{
ASSERT(m_lockAcquired);
// If there is a series of statements queued up that are all successful and have no associated
// SQLStatementCallback objects, then we can burn through the queue
do {
if (m_shouldRetryCurrentStatement && !m_sqliteTransaction->wasRolledBackBySqlite()) {
m_shouldRetryCurrentStatement = false;
// FIXME - Another place that needs fixing up after <rdar://problem/5628468> is addressed.
// See ::openTransactionAndPreflight() for discussion
// Reset the maximum size here, as it was increased to allow us to retry this statement.
// m_shouldRetryCurrentStatement is set to true only when a statement exceeds
// the quota, which can happen only in a read-write transaction. Therefore, there
// is no need to check here if the transaction is read-write.
m_database->sqliteDatabase().setMaximumSize(m_database->maximumSize());
} else {
// If the current statement has already been run, failed due to quota constraints, and we're not retrying it,
// that means it ended in an error. Handle it now
if (m_currentStatement && m_currentStatement->lastExecutionFailedDueToQuota()) {
handleCurrentStatementError();
break;
}
// Otherwise, advance to the next statement
getNextStatement();
}
} while (runCurrentStatement());
// If runCurrentStatement() returned false, that means either there was no current statement to run,
// or the current statement requires a callback to complete. In the later case, it also scheduled
// the callback or performed any other additional work so we can return
if (!m_currentStatement)
postflightAndCommit();
}
void SQLTransaction::getNextStatement()
{
m_currentStatement = 0;
MutexLocker locker(m_statementMutex);
if (!m_statementQueue.isEmpty()) {
m_currentStatement = m_statementQueue.takeFirst();
}
}
bool SQLTransaction::runCurrentStatement()
{
if (!m_currentStatement)
return false;
m_database->resetAuthorizer();
if (m_currentStatement->execute(m_database.get())) {
if (m_database->lastActionChangedDatabase()) {
// Flag this transaction as having changed the database for later delegate notification
m_modifiedDatabase = true;
// Also dirty the size of this database file for calculating quota usage
m_database->transactionClient()->didExecuteStatement(database());
}
if (m_currentStatement->hasStatementCallback()) {
m_nextStep = &SQLTransaction::deliverStatementCallback;
LOG(StorageAPI, "Scheduling deliverStatementCallback for transaction %p\n", this);
m_database->scheduleTransactionCallback(this);
return false;
}
return true;
}
if (m_currentStatement->lastExecutionFailedDueToQuota()) {
m_nextStep = &SQLTransaction::deliverQuotaIncreaseCallback;
LOG(StorageAPI, "Scheduling deliverQuotaIncreaseCallback for transaction %p\n", this);
m_database->scheduleTransactionCallback(this);
return false;
}
handleCurrentStatementError();
return false;
}
void SQLTransaction::handleCurrentStatementError()
{
// Transaction Steps 6.error - Call the statement's error callback, but if there was no error callback,
// or the transaction was rolled back, jump to the transaction error callback
if (m_currentStatement->hasStatementErrorCallback() && !m_sqliteTransaction->wasRolledBackBySqlite()) {
m_nextStep = &SQLTransaction::deliverStatementCallback;
LOG(StorageAPI, "Scheduling deliverStatementCallback for transaction %p\n", this);
m_database->scheduleTransactionCallback(this);
} else {
m_transactionError = m_currentStatement->sqlError();
if (!m_transactionError)
m_transactionError = SQLError::create(SQLError::DATABASE_ERR, "the statement failed to execute");
handleTransactionError(false);
}
}
void SQLTransaction::deliverStatementCallback()
{
ASSERT(m_currentStatement);
// Transaction Step 6.6 and 6.3(error) - If the statement callback went wrong, jump to the transaction error callback
// Otherwise, continue to loop through the statement queue
m_executeSqlAllowed = true;
bool result = m_currentStatement->performCallback(this);
m_executeSqlAllowed = false;
if (result) {
m_transactionError = SQLError::create(SQLError::UNKNOWN_ERR, "the statement callback raised an exception or statement error callback did not return false");
handleTransactionError(true);
} else
scheduleToRunStatements();
}
void SQLTransaction::deliverQuotaIncreaseCallback()
{
ASSERT(m_currentStatement);
ASSERT(!m_shouldRetryCurrentStatement);
m_shouldRetryCurrentStatement = m_database->transactionClient()->didExceedQuota(database());
m_nextStep = &SQLTransaction::runStatements;
LOG(StorageAPI, "Scheduling runStatements for transaction %p\n", this);
m_database->scheduleTransactionStep(this);
}
void SQLTransaction::postflightAndCommit()
{
ASSERT(m_lockAcquired);
// Transaction Step 7 - Peform postflight steps, jumping to the error callback if they fail
if (m_wrapper && !m_wrapper->performPostflight(this)) {
m_transactionError = m_wrapper->sqlError();
if (!m_transactionError)
m_transactionError = SQLError::create(SQLError::UNKNOWN_ERR, "unknown error occured setting up transaction");
handleTransactionError(false);
return;
}
// Transacton Step 8+9 - Commit the transaction, jumping to the error callback if that fails
ASSERT(m_sqliteTransaction);
m_database->disableAuthorizer();
m_sqliteTransaction->commit();
m_database->enableAuthorizer();
// If the commit failed, the transaction will still be marked as "in progress"
if (m_sqliteTransaction->inProgress()) {
m_successCallback = 0;
m_transactionError = SQLError::create(SQLError::DATABASE_ERR, "failed to commit the transaction");
handleTransactionError(false);
return;
}
// Vacuum the database if anything was deleted.
if (m_database->hadDeletes())
m_database->incrementalVacuumIfNeeded();
// The commit was successful. If the transaction modified this database, notify the delegates.
if (m_modifiedDatabase)
m_database->transactionClient()->didCommitWriteTransaction(database());
// Now release our unneeded callbacks, to break reference cycles.
m_errorCallback = 0;
// Transaction Step 10 - Deliver success callback, if there is one
if (m_successCallback) {
m_nextStep = &SQLTransaction::deliverSuccessCallback;
LOG(StorageAPI, "Scheduling deliverSuccessCallback for transaction %p\n", this);
m_database->scheduleTransactionCallback(this);
} else
cleanupAfterSuccessCallback();
}
void SQLTransaction::deliverSuccessCallback()
{
// Transaction Step 10 - Deliver success callback
ASSERT(m_successCallback);
m_successCallback->handleEvent();
// Release the last callback to break reference cycle
m_successCallback = 0;
// Schedule a "post-success callback" step to return control to the database thread in case there
// are further transactions queued up for this Database
m_nextStep = &SQLTransaction::cleanupAfterSuccessCallback;
LOG(StorageAPI, "Scheduling cleanupAfterSuccessCallback for transaction %p\n", this);
m_database->scheduleTransactionStep(this);
}
void SQLTransaction::cleanupAfterSuccessCallback()
{
ASSERT(m_lockAcquired);
// Transaction Step 11 - End transaction steps
// There is no next step
LOG(StorageAPI, "Transaction %p is complete\n", this);
ASSERT(!m_database->sqliteDatabase().transactionInProgress());
m_sqliteTransaction.clear();
m_nextStep = 0;
// Release the lock on this database
m_database->transactionCoordinator()->releaseLock(this);
}
void SQLTransaction::handleTransactionError(bool inCallback)
{
if (m_errorCallback) {
if (inCallback)
deliverTransactionErrorCallback();
else {
m_nextStep = &SQLTransaction::deliverTransactionErrorCallback;
LOG(StorageAPI, "Scheduling deliverTransactionErrorCallback for transaction %p\n", this);
m_database->scheduleTransactionCallback(this);
}
return;
}
// No error callback, so fast-forward to:
// Transaction Step 12 - Rollback the transaction.
if (inCallback) {
m_nextStep = &SQLTransaction::cleanupAfterTransactionErrorCallback;
LOG(StorageAPI, "Scheduling cleanupAfterTransactionErrorCallback for transaction %p\n", this);
m_database->scheduleTransactionStep(this);
} else {
cleanupAfterTransactionErrorCallback();
}
}
void SQLTransaction::deliverTransactionErrorCallback()
{
ASSERT(m_transactionError);
// Transaction Step 12 - If exists, invoke error callback with the last
// error to have occurred in this transaction.
if (m_errorCallback) {
m_errorCallback->handleEvent(m_transactionError.get());
m_errorCallback = 0;
}
m_nextStep = &SQLTransaction::cleanupAfterTransactionErrorCallback;
LOG(StorageAPI, "Scheduling cleanupAfterTransactionErrorCallback for transaction %p\n", this);
m_database->scheduleTransactionStep(this);
}
void SQLTransaction::cleanupAfterTransactionErrorCallback()
{
ASSERT(m_lockAcquired);
m_database->disableAuthorizer();
if (m_sqliteTransaction) {
// Transaction Step 12 - Rollback the transaction.
m_sqliteTransaction->rollback();
ASSERT(!m_database->sqliteDatabase().transactionInProgress());
m_sqliteTransaction.clear();
}
m_database->enableAuthorizer();
// Transaction Step 12 - Any still-pending statements in the transaction are discarded.
{
MutexLocker locker(m_statementMutex);
m_statementQueue.clear();
}
// Transaction is complete! There is no next step
LOG(StorageAPI, "Transaction %p is complete with an error\n", this);
ASSERT(!m_database->sqliteDatabase().transactionInProgress());
m_nextStep = 0;
// Now release the lock on this database
m_database->transactionCoordinator()->releaseLock(this);
}
} // namespace WebCore
#endif // ENABLE(DATABASE)
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