// Copyright (c) 2012 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.
#ifndef CHROME_SERVICE_SERVICE_PROCESS_H_
#define CHROME_SERVICE_SERVICE_PROCESS_H_
#include <string>
#include "base/gtest_prod_util.h"
#include "base/memory/ref_counted.h"
#include "base/memory/scoped_ptr.h"
#include "base/threading/sequenced_worker_pool.h"
#include "base/threading/thread.h"
#include "base/synchronization/waitable_event.h"
#include "chrome/service/cloud_print/cloud_print_proxy.h"
class ServiceProcessPrefs;
class ServiceIPCServer;
class ServiceURLRequestContextGetter;
class ServiceProcessState;
namespace base {
class CommandLine;
}
namespace net {
class NetworkChangeNotifier;
}
// The ServiceProcess does not inherit from ChildProcess because this
// process can live independently of the browser process.
// ServiceProcess Design Notes
// https://sites.google.com/a/chromium.org/dev/developers/design-documents/service-processes
class ServiceProcess : public cloud_print::CloudPrintProxy::Client {
public:
ServiceProcess();
virtual ~ServiceProcess();
// Initialize the ServiceProcess with the message loop that it should run on.
// ServiceProcess takes ownership of |state|.
bool Initialize(base::MessageLoopForUI* message_loop,
const base::CommandLine& command_line,
ServiceProcessState* state);
bool Teardown();
// TODO(sanjeevr): Change various parts of the code such as
// net::ProxyService::CreateSystemProxyConfigService to take in
// MessageLoopProxy* instead of MessageLoop*. When we have done that, we can
// remove the io_thread() and file_thread() accessors and replace them with
// io_message_loop_proxy() and file_message_loop_proxy() respectively.
// Returns the thread that we perform I/O coordination on (network requests,
// communication with renderers, etc.
// NOTE: You should ONLY use this to pass to IPC or other objects which must
// need a MessageLoop*. If you just want to post a task, use the thread's
// message_loop_proxy() as it takes care of checking that a thread is still
// alive, race conditions, lifetime differences etc.
// If you still must use this, need to check the return value for NULL.
base::Thread* io_thread() const {
return io_thread_.get();
}
// Returns the thread that we perform random file operations on. For code
// that wants to do I/O operations (not network requests or even file: URL
// requests), this is the thread to use to avoid blocking the UI thread.
base::Thread* file_thread() const {
return file_thread_.get();
}
// A global event object that is signalled when the main thread's message
// loop exits. This gives background threads a way to observe the main
// thread shutting down.
base::WaitableEvent* shutdown_event() {
return &shutdown_event_;
}
// Shutdown the service process. This is likely triggered by a IPC message.
void Shutdown();
void SetUpdateAvailable() {
update_available_ = true;
}
bool update_available() const { return update_available_; }
// Called by the IPC server when a client disconnects. A return value of
// true indicates that the IPC server should continue listening for new
// connections.
bool HandleClientDisconnect();
cloud_print::CloudPrintProxy* GetCloudPrintProxy();
// CloudPrintProxy::Client implementation.
virtual void OnCloudPrintProxyEnabled(bool persist_state) OVERRIDE;
virtual void OnCloudPrintProxyDisabled(bool persist_state) OVERRIDE;
ServiceURLRequestContextGetter* GetServiceURLRequestContextGetter();
private:
friend class TestServiceProcess;
// Schedule a call to ShutdownIfNeeded.
void ScheduleShutdownCheck();
// Shuts down the process if no services are enabled and no clients are
// connected.
void ShutdownIfNeeded();
// Schedule a call to CloudPrintPolicyCheckIfNeeded.
void ScheduleCloudPrintPolicyCheck();
// Launch the browser for a policy check if we're not connected.
void CloudPrintPolicyCheckIfNeeded();
// Called exactly ONCE per process instance for each service that gets
// enabled in this process.
void OnServiceEnabled();
// Called exactly ONCE per process instance for each service that gets
// disabled in this process (note that shutdown != disabled).
void OnServiceDisabled();
// Terminate forces the service process to quit.
void Terminate();
scoped_ptr<net::NetworkChangeNotifier> network_change_notifier_;
scoped_ptr<base::Thread> io_thread_;
scoped_ptr<base::Thread> file_thread_;
scoped_refptr<base::SequencedWorkerPool> blocking_pool_;
scoped_ptr<cloud_print::CloudPrintProxy> cloud_print_proxy_;
scoped_ptr<ServiceProcessPrefs> service_prefs_;
scoped_ptr<ServiceIPCServer> ipc_server_;
scoped_ptr<ServiceProcessState> service_process_state_;
// An event that will be signalled when we shutdown.
base::WaitableEvent shutdown_event_;
// Pointer to the main message loop that host this object.
base::MessageLoop* main_message_loop_;
// Count of currently enabled services in this process.
int enabled_services_;
// Speficies whether a product update is available.
bool update_available_;
scoped_refptr<ServiceURLRequestContextGetter> request_context_getter_;
DISALLOW_COPY_AND_ASSIGN(ServiceProcess);
};
extern ServiceProcess* g_service_process;
#endif // CHROME_SERVICE_SERVICE_PROCESS_H_