content/child/web_database_observer_impl.cc - chromium/src - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "content/child/web_database_observer_impl.h"

 #include "base/metrics/histogram.h"
 #include "base/strings/string16.h"
 #include "content/common/database_messages.h"
 #include "third_party/WebKit/public/platform/WebCString.h"
 #include "third_party/WebKit/public/platform/WebString.h"
 #include "third_party/sqlite/sqlite3.h"

 using blink::WebString;

 namespace content {

 namespace {

 const int kResultHistogramSize = 50;
 const int kCallsiteHistogramSize = 10;

 int DetermineHistogramResult(int websql_error, int sqlite_error) {
   // If we have a sqlite error, log it after trimming the extended bits.
   // There are 26 possible values, but we leave room for some new ones.
   if (sqlite_error)
     return std::min(sqlite_error & 0xff, 30);

   // Otherwise, websql_error may be an SQLExceptionCode, SQLErrorCode
   // or a DOMExceptionCode, or -1 for success.
   if (websql_error == -1)
     return 0;  // no error

   // SQLExceptionCode starts at 1000
   if (websql_error >= 1000)
     websql_error -= 1000;

   return std::min(websql_error + 30, kResultHistogramSize - 1);
 }

 #define HISTOGRAM_WEBSQL_RESULT(name, is_sync_database, \
                                 callsite, websql_error, sqlite_error) \
   do { \
     DCHECK(callsite < kCallsiteHistogramSize); \
     int result = DetermineHistogramResult(websql_error, sqlite_error); \
     if (is_sync_database) { \
       UMA_HISTOGRAM_ENUMERATION("websql.Sync." name, \
                                 result, kResultHistogramSize); \
       if (result) { \
         UMA_HISTOGRAM_ENUMERATION("websql.Sync." name ".ErrorSite", \
                                   callsite, kCallsiteHistogramSize); \
       } \
     } else { \
       UMA_HISTOGRAM_ENUMERATION("websql.Async." name, \
                                 result, kResultHistogramSize); \
       if (result) { \
         UMA_HISTOGRAM_ENUMERATION("websql.Async." name ".ErrorSite", \
                                   callsite, kCallsiteHistogramSize); \
       } \
     } \
   } while (0)

 }  // namespace

 WebDatabaseObserverImpl::WebDatabaseObserverImpl(
     IPC::SyncMessageFilter* sender)
     : sender_(sender),
       open_connections_(new webkit_database::DatabaseConnectionsWrapper) {
   DCHECK(sender);
 }

 WebDatabaseObserverImpl::~WebDatabaseObserverImpl() {
 }

 void WebDatabaseObserverImpl::databaseOpened(
     const WebString& origin_identifier,
     const WebString& database_name,
     const WebString& database_display_name,
     unsigned long estimated_size) {
   open_connections_->AddOpenConnection(origin_identifier.utf8(),
                                        database_name);
   sender_->Send(new DatabaseHostMsg_Opened(
       origin_identifier.utf8(), database_name,
       database_display_name, estimated_size));
 }

 void WebDatabaseObserverImpl::databaseModified(
     const WebString& origin_identifier,
     const WebString& database_name) {
   sender_->Send(new DatabaseHostMsg_Modified(
       origin_identifier.utf8(), database_name));
 }

 void WebDatabaseObserverImpl::databaseClosed(
     const WebString& origin_identifier,
     const WebString& database_name) {
   sender_->Send(new DatabaseHostMsg_Closed(
       origin_identifier.utf8(), database_name));
   open_connections_->RemoveOpenConnection(origin_identifier.utf8(),
                                           database_name);
 }

 void WebDatabaseObserverImpl::reportOpenDatabaseResult(
     const WebString& origin_identifier,
     const WebString& database_name,
     bool is_sync_database,
     int callsite, int websql_error, int sqlite_error) {
   HISTOGRAM_WEBSQL_RESULT("OpenResult", is_sync_database,
                           callsite, websql_error, sqlite_error);
   HandleSqliteError(origin_identifier, database_name, sqlite_error);
 }

 void WebDatabaseObserverImpl::reportChangeVersionResult(
     const WebString& origin_identifier,
     const WebString& database_name,
     bool is_sync_database,
     int callsite, int websql_error, int sqlite_error) {
   HISTOGRAM_WEBSQL_RESULT("ChangeVersionResult", is_sync_database,
                           callsite, websql_error, sqlite_error);
   HandleSqliteError(origin_identifier, database_name, sqlite_error);
 }

 void WebDatabaseObserverImpl::reportStartTransactionResult(
     const WebString& origin_identifier,
     const WebString& database_name,
     bool is_sync_database,
     int callsite, int websql_error, int sqlite_error) {
   HISTOGRAM_WEBSQL_RESULT("BeginResult", is_sync_database,
                           callsite, websql_error, sqlite_error);
   HandleSqliteError(origin_identifier, database_name, sqlite_error);
 }

 void WebDatabaseObserverImpl::reportCommitTransactionResult(
     const WebString& origin_identifier,
     const WebString& database_name,
     bool is_sync_database,
     int callsite, int websql_error, int sqlite_error) {
   HISTOGRAM_WEBSQL_RESULT("CommitResult", is_sync_database,
                           callsite, websql_error, sqlite_error);
   HandleSqliteError(origin_identifier, database_name, sqlite_error);
 }

 void WebDatabaseObserverImpl::reportExecuteStatementResult(
     const WebString& origin_identifier,
     const WebString& database_name,
     bool is_sync_database,
     int callsite, int websql_error, int sqlite_error) {
   HISTOGRAM_WEBSQL_RESULT("StatementResult", is_sync_database,
                           callsite, websql_error, sqlite_error);
   HandleSqliteError(origin_identifier, database_name, sqlite_error);
 }

 void WebDatabaseObserverImpl::reportVacuumDatabaseResult(
     const WebString& origin_identifier,
     const WebString& database_name,
     bool is_sync_database,
     int sqlite_error) {
   int result = DetermineHistogramResult(-1, sqlite_error);
   if (is_sync_database) {
     UMA_HISTOGRAM_ENUMERATION("websql.Sync.VacuumResult",
                               result, kResultHistogramSize);
   } else {
     UMA_HISTOGRAM_ENUMERATION("websql.Async.VacuumResult",
                               result, kResultHistogramSize);
   }
   HandleSqliteError(origin_identifier, database_name, sqlite_error);
 }

 void WebDatabaseObserverImpl::WaitForAllDatabasesToClose() {
   open_connections_->WaitForAllDatabasesToClose();
 }

 void WebDatabaseObserverImpl::HandleSqliteError(
     const WebString& origin_identifier,
     const WebString& database_name,
     int error) {
   // We filter out errors which the backend doesn't act on to avoid
   // a unnecessary ipc traffic, this method can get called at a fairly
   // high frequency (per-sqlstatement).
   if (error == SQLITE_CORRUPT || error == SQLITE_NOTADB) {
     sender_->Send(new DatabaseHostMsg_HandleSqliteError(
         origin_identifier.utf8(),
         database_name,
         error));
   }
 }

 }  // namespace content
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "content/child/web_database_observer_impl.h"

	#include "base/metrics/histogram.h"
	#include "base/strings/string16.h"
	#include "content/common/database_messages.h"
	#include "third_party/WebKit/public/platform/WebCString.h"
	#include "third_party/WebKit/public/platform/WebString.h"
	#include "third_party/sqlite/sqlite3.h"

	using blink::WebString;

	namespace content {

	namespace {

	const int kResultHistogramSize = 50;
	const int kCallsiteHistogramSize = 10;

	int DetermineHistogramResult(int websql_error, int sqlite_error) {
	// If we have a sqlite error, log it after trimming the extended bits.
	// There are 26 possible values, but we leave room for some new ones.
	if (sqlite_error)
	return std::min(sqlite_error & 0xff, 30);

	// Otherwise, websql_error may be an SQLExceptionCode, SQLErrorCode
	// or a DOMExceptionCode, or -1 for success.
	if (websql_error == -1)
	return 0; // no error

	// SQLExceptionCode starts at 1000
	if (websql_error >= 1000)
	websql_error -= 1000;

	return std::min(websql_error + 30, kResultHistogramSize - 1);
	}

	#define HISTOGRAM_WEBSQL_RESULT(name, is_sync_database, \
	callsite, websql_error, sqlite_error) \
	do { \
	DCHECK(callsite < kCallsiteHistogramSize); \
	int result = DetermineHistogramResult(websql_error, sqlite_error); \
	if (is_sync_database) { \
	UMA_HISTOGRAM_ENUMERATION("websql.Sync." name, \
	result, kResultHistogramSize); \
	if (result) { \
	UMA_HISTOGRAM_ENUMERATION("websql.Sync." name ".ErrorSite", \
	callsite, kCallsiteHistogramSize); \
	} \
	} else { \
	UMA_HISTOGRAM_ENUMERATION("websql.Async." name, \
	result, kResultHistogramSize); \
	if (result) { \
	UMA_HISTOGRAM_ENUMERATION("websql.Async." name ".ErrorSite", \
	callsite, kCallsiteHistogramSize); \
	} \
	} \
	} while (0)

	} // namespace

	WebDatabaseObserverImpl::WebDatabaseObserverImpl(
	IPC::SyncMessageFilter* sender)
	: sender_(sender),
	open_connections_(new webkit_database::DatabaseConnectionsWrapper) {
	DCHECK(sender);
	}

	WebDatabaseObserverImpl::~WebDatabaseObserverImpl() {
	}

	void WebDatabaseObserverImpl::databaseOpened(
	const WebString& origin_identifier,
	const WebString& database_name,
	const WebString& database_display_name,
	unsigned long estimated_size) {
	open_connections_->AddOpenConnection(origin_identifier.utf8(),
	database_name);
	sender_->Send(new DatabaseHostMsg_Opened(
	origin_identifier.utf8(), database_name,
	database_display_name, estimated_size));
	}

	void WebDatabaseObserverImpl::databaseModified(
	const WebString& origin_identifier,
	const WebString& database_name) {
	sender_->Send(new DatabaseHostMsg_Modified(
	origin_identifier.utf8(), database_name));
	}

	void WebDatabaseObserverImpl::databaseClosed(
	const WebString& origin_identifier,
	const WebString& database_name) {
	sender_->Send(new DatabaseHostMsg_Closed(
	origin_identifier.utf8(), database_name));
	open_connections_->RemoveOpenConnection(origin_identifier.utf8(),
	database_name);
	}

	void WebDatabaseObserverImpl::reportOpenDatabaseResult(
	const WebString& origin_identifier,
	const WebString& database_name,
	bool is_sync_database,
	int callsite, int websql_error, int sqlite_error) {
	HISTOGRAM_WEBSQL_RESULT("OpenResult", is_sync_database,
	callsite, websql_error, sqlite_error);
	HandleSqliteError(origin_identifier, database_name, sqlite_error);
	}

	void WebDatabaseObserverImpl::reportChangeVersionResult(
	const WebString& origin_identifier,
	const WebString& database_name,
	bool is_sync_database,
	int callsite, int websql_error, int sqlite_error) {
	HISTOGRAM_WEBSQL_RESULT("ChangeVersionResult", is_sync_database,
	callsite, websql_error, sqlite_error);
	HandleSqliteError(origin_identifier, database_name, sqlite_error);
	}

	void WebDatabaseObserverImpl::reportStartTransactionResult(
	const WebString& origin_identifier,
	const WebString& database_name,
	bool is_sync_database,
	int callsite, int websql_error, int sqlite_error) {
	HISTOGRAM_WEBSQL_RESULT("BeginResult", is_sync_database,
	callsite, websql_error, sqlite_error);
	HandleSqliteError(origin_identifier, database_name, sqlite_error);
	}

	void WebDatabaseObserverImpl::reportCommitTransactionResult(
	const WebString& origin_identifier,
	const WebString& database_name,
	bool is_sync_database,
	int callsite, int websql_error, int sqlite_error) {
	HISTOGRAM_WEBSQL_RESULT("CommitResult", is_sync_database,
	callsite, websql_error, sqlite_error);
	HandleSqliteError(origin_identifier, database_name, sqlite_error);
	}

	void WebDatabaseObserverImpl::reportExecuteStatementResult(
	const WebString& origin_identifier,
	const WebString& database_name,
	bool is_sync_database,
	int callsite, int websql_error, int sqlite_error) {
	HISTOGRAM_WEBSQL_RESULT("StatementResult", is_sync_database,
	callsite, websql_error, sqlite_error);
	HandleSqliteError(origin_identifier, database_name, sqlite_error);
	}

	void WebDatabaseObserverImpl::reportVacuumDatabaseResult(
	const WebString& origin_identifier,
	const WebString& database_name,
	bool is_sync_database,
	int sqlite_error) {
	int result = DetermineHistogramResult(-1, sqlite_error);
	if (is_sync_database) {
	UMA_HISTOGRAM_ENUMERATION("websql.Sync.VacuumResult",
	result, kResultHistogramSize);
	} else {
	UMA_HISTOGRAM_ENUMERATION("websql.Async.VacuumResult",
	result, kResultHistogramSize);
	}
	HandleSqliteError(origin_identifier, database_name, sqlite_error);
	}

	void WebDatabaseObserverImpl::WaitForAllDatabasesToClose() {
	open_connections_->WaitForAllDatabasesToClose();
	}

	void WebDatabaseObserverImpl::HandleSqliteError(
	const WebString& origin_identifier,
	const WebString& database_name,
	int error) {
	// We filter out errors which the backend doesn't act on to avoid
	// a unnecessary ipc traffic, this method can get called at a fairly
	// high frequency (per-sqlstatement).
	if (error == SQLITE_CORRUPT \|\| error == SQLITE_NOTADB) {
	sender_->Send(new DatabaseHostMsg_HandleSqliteError(
	origin_identifier.utf8(),
	database_name,
	error));
	}
	}

	} // namespace content