update_attempter.h - chromiumos/platform/update_engine - Git at Google

 // Copyright (c) 2012 The Chromium OS 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 CHROMEOS_PLATFORM_UPDATE_ENGINE_UPDATE_ATTEMPTER_H_
 #define CHROMEOS_PLATFORM_UPDATE_ENGINE_UPDATE_ATTEMPTER_H_

 #include <time.h>

 #include <memory>
 #include <string>
 #include <vector>

 #include <base/time/time.h>
 #include <glib.h>
 #include <gtest/gtest_prod.h>  // for FRIEND_TEST

 #include "update_engine/action_processor.h"
 #include "update_engine/chrome_browser_proxy_resolver.h"
 #include "update_engine/download_action.h"
 #include "update_engine/filesystem_copier_action.h"
 #include "update_engine/omaha_request_params.h"
 #include "update_engine/omaha_response_handler_action.h"
 #include "update_engine/proxy_resolver.h"
 #include "update_engine/system_state.h"

 class MetricsLibraryInterface;
 struct UpdateEngineService;

 namespace policy {
   class PolicyProvider;
 }

 namespace chromeos_update_engine {

 class UpdateCheckScheduler;

 enum UpdateStatus {
   UPDATE_STATUS_IDLE = 0,
   UPDATE_STATUS_CHECKING_FOR_UPDATE,
   UPDATE_STATUS_UPDATE_AVAILABLE,
   UPDATE_STATUS_DOWNLOADING,
   UPDATE_STATUS_VERIFYING,
   UPDATE_STATUS_FINALIZING,
   UPDATE_STATUS_UPDATED_NEED_REBOOT,
   UPDATE_STATUS_REPORTING_ERROR_EVENT,
   UPDATE_STATUS_ATTEMPTING_ROLLBACK
 };

 const char* UpdateStatusToString(UpdateStatus status);

 class UpdateAttempter : public ActionProcessorDelegate,
                         public DownloadActionDelegate {
  public:
   static const int kMaxDeltaUpdateFailures;

   UpdateAttempter(SystemState* system_state,
                   DBusWrapperInterface* dbus_iface);
   virtual ~UpdateAttempter();

   // Further initialization to be done post construction.
   void Init();

   // Checks for update and, if a newer version is available, attempts to update
   // the system. Non-empty |in_app_version| or |in_update_url| prevents
   // automatic detection of the parameter.  If |obey_proxies| is true, the
   // update will likely respect Chrome's proxy setting. For security reasons, we
   // may still not honor them.  Interactive should be true if this was called
   // from the user (ie dbus).  |is_test| will lead to using an alternative test
   // server URL, if |omaha_url| is empty. |is_user_initiated| will be true
   // only if the update is being kicked off through dbus and will be false for
   // other types of kick off such as scheduled updates.
   virtual void Update(const std::string& app_version,
                       const std::string& omaha_url,
                       bool obey_proxies,
                       bool interactive);

   // ActionProcessorDelegate methods:
   void ProcessingDone(const ActionProcessor* processor, ErrorCode code);
   void ProcessingStopped(const ActionProcessor* processor);
   void ActionCompleted(ActionProcessor* processor,
                        AbstractAction* action,
                        ErrorCode code);

   // Stop updating. An attempt will be made to record status to the disk
   // so that updates can be resumed later.
   void Terminate();

   // Try to resume from a previously Terminate()d update.
   void ResumeUpdating();

   // Resets the current state to UPDATE_STATUS_IDLE.
   // Used by update_engine_client for restarting a new update without
   // having to reboot once the previous update has reached
   // UPDATE_STATUS_UPDATED_NEED_REBOOT state. This is used only
   // for testing purposes.
   bool ResetStatus();

   // Returns the current status in the out params. Returns true on success.
   virtual bool GetStatus(int64_t* last_checked_time,
                          double* progress,
                          std::string* current_operation,
                          std::string* new_version,
                          int64_t* new_size);

   // Runs chromeos-setgoodkernel, whose responsibility it is to mark the
   // currently booted partition has high priority/permanent/etc. The execution
   // is asynchronous. On completion, the action processor may be started
   // depending on the |start_action_processor_| field. Note that every update
   // attempt goes through this method.
   void UpdateBootFlags();

   // Subprocess::Exec callback.
   void CompleteUpdateBootFlags(int return_code);
   static void StaticCompleteUpdateBootFlags(int return_code,
                                             const std::string& output,
                                             void* p);

   UpdateStatus status() const { return status_; }

   int http_response_code() const { return http_response_code_; }
   void set_http_response_code(int code) { http_response_code_ = code; }

   void set_dbus_service(struct UpdateEngineService* dbus_service) {
     dbus_service_ = dbus_service;
   }

   UpdateCheckScheduler* update_check_scheduler() const {
     return update_check_scheduler_;
   }
   void set_update_check_scheduler(UpdateCheckScheduler* scheduler) {
     update_check_scheduler_ = scheduler;
   }

   // This is the internal entry point for going through an
   // update. If the current status is idle invokes Update.
   // This is called by the DBus implementation.
   void CheckForUpdate(const std::string& app_version,
                       const std::string& omaha_url,
                       bool is_interactive);

   // This is the internal entry point for going through a rollback. This will
   // attempt to run the postinstall on the non-active partition and set it as
   // the partition to boot from. If |powerwash| is True, perform a powerwash
   // as part of rollback. Returns True on success.
   bool Rollback(bool powerwash);

   // This is the internal entry point for checking if we can rollback.
   bool CanRollback() const;

   // This is the internal entry point for getting a rollback partition name,
   // if one exists. It returns the bootable rollback kernel device partition
   // name or empty string if none is available.
   std::string GetRollbackPartition() const;

   // Returns a list of available kernel partitions along with information
   // whether it is possible to boot from it.
   std::vector<std::pair<std::string, bool>> GetKernelDevices() const;

   // Initiates a reboot if the current state is
   // UPDATED_NEED_REBOOT. Returns true on sucess, false otherwise.
   bool RebootIfNeeded();

   // DownloadActionDelegate methods
   void SetDownloadStatus(bool active);
   void BytesReceived(uint64_t bytes_received, uint64_t total);

   // Broadcasts the current status over D-Bus.
   void BroadcastStatus();

   // Returns the special flags to be added to ErrorCode values based on the
   // parameters used in the current update attempt.
   uint32_t GetErrorCodeFlags();

   // Returns true if we should cancel the current download attempt based on the
   // current state of the system, in which case |cancel_reason| indicates the
   // reason for the cancellation.  False otherwise, in which case
   // |cancel_reason| is untouched.
   bool ShouldCancel(ErrorCode* cancel_reason);

   // Called at update_engine startup to do various house-keeping.
   void UpdateEngineStarted();

   // Reloads the device policy from libchromeos. Note: This method doesn't
   // cause a real-time policy fetch from the policy server. It just reloads the
   // latest value that libchromeos has cached. libchromeos fetches the policies
   // from the server asynchronously at its own frequency.
   void RefreshDevicePolicy();

   // Returns the boottime (CLOCK_BOOTTIME) recorded at the last
   // successful update. Returns false if the device has not updated.
   virtual bool GetBootTimeAtUpdate(base::Time *out_boot_time);

   // Returns a version OS version that was being used before the last reboot,
   // and if that reboot happended to be into an update (current version).
   // This will return an empty string otherwise.
   std::string const& GetPrevVersion() const { return prev_version_; }

   // Returns the nubmer of consecutive failed update checks.
   virtual unsigned int consecutive_failed_update_checks() const {
     return consecutive_failed_update_checks_;
   }

  private:
   // Update server URL for automated lab test.
   static const char* const kTestUpdateUrl;

   // Special ctor + friend declarations for testing purposes.
   UpdateAttempter(SystemState* system_state,
                   DBusWrapperInterface* dbus_iface,
                   const std::string& update_completed_marker);

   friend class UpdateAttempterUnderTest;
   friend class UpdateAttempterTest;
   FRIEND_TEST(UpdateAttempterTest, ActionCompletedDownloadTest);
   FRIEND_TEST(UpdateAttempterTest, ActionCompletedErrorTest);
   FRIEND_TEST(UpdateAttempterTest, ActionCompletedOmahaRequestTest);
   FRIEND_TEST(UpdateAttempterTest, CreatePendingErrorEventTest);
   FRIEND_TEST(UpdateAttempterTest, CreatePendingErrorEventResumedTest);
   FRIEND_TEST(UpdateAttempterTest, DisableDeltaUpdateIfNeededTest);
   FRIEND_TEST(UpdateAttempterTest, MarkDeltaUpdateFailureTest);
   FRIEND_TEST(UpdateAttempterTest, ReadTrackFromPolicy);
   FRIEND_TEST(UpdateAttempterTest, PingOmahaTest);
   FRIEND_TEST(UpdateAttempterTest, ScheduleErrorEventActionNoEventTest);
   FRIEND_TEST(UpdateAttempterTest, ScheduleErrorEventActionTest);
   FRIEND_TEST(UpdateAttempterTest, UpdateTest);
   FRIEND_TEST(UpdateAttempterTest, ReportDailyMetrics);
   FRIEND_TEST(UpdateAttempterTest, BootTimeInUpdateMarkerFile);

   // Checks if it's more than 24 hours since daily metrics were last
   // reported and, if so, reports daily metrics. Returns |true| if
   // metrics were reported, |false| otherwise.
   bool CheckAndReportDailyMetrics();

   // Calculates and reports the age of the currently running OS. This
   // is defined as the age of the /etc/lsb-release file.
   void ReportOSAge();

   // Sets the status to the given status and notifies a status update over dbus.
   void SetStatusAndNotify(UpdateStatus status);

   // Sets up the download parameters after receiving the update check response.
   void SetupDownload();

   // Creates an error event object in |error_event_| to be included in an
   // OmahaRequestAction once the current action processor is done.
   void CreatePendingErrorEvent(AbstractAction* action, ErrorCode code);

   // If there's a pending error event allocated in |error_event_|, schedules an
   // OmahaRequestAction with that event in the current processor, clears the
   // pending event, updates the status and returns true. Returns false
   // otherwise.
   bool ScheduleErrorEventAction();

   // Sets the cpu shares to |shares| and updates |shares_| if the new
   // |shares| is different than the current |shares_|, otherwise simply
   // returns.
   void SetCpuShares(utils::CpuShares shares);

   // Sets the cpu shares to low and sets up timeout events to increase it.
   void SetupCpuSharesManagement();

   // Resets the cpu shares to normal and destroys any scheduled timeout
   // sources.
   void CleanupCpuSharesManagement();

   // The cpu shares timeout source callback sets the current cpu shares to
   // normal. Returns false so that GLib destroys the timeout source.
   static gboolean StaticManageCpuSharesCallback(gpointer data);
   bool ManageCpuSharesCallback();

   // Callback to start the action processor.
   static gboolean StaticStartProcessing(gpointer data);

   // Schedules an event loop callback to start the action processor. This is
   // scheduled asynchronously to unblock the event loop.
   void ScheduleProcessingStart();

   // Checks if a full update is needed and forces it by updating the Omaha
   // request params.
   void DisableDeltaUpdateIfNeeded();

   // If this was a delta update attempt that failed, count it so that a full
   // update can be tried when needed.
   void MarkDeltaUpdateFailure();

   ProxyResolver* GetProxyResolver() {
     return obeying_proxies_ ?
         reinterpret_cast<ProxyResolver*>(&chrome_proxy_resolver_) :
         reinterpret_cast<ProxyResolver*>(&direct_proxy_resolver_);
   }

   // Sends a ping to Omaha.
   // This is used after an update has been applied and we're waiting for the
   // user to reboot.  This ping helps keep the number of actives count
   // accurate in case a user takes a long time to reboot the device after an
   // update has been applied.
   void PingOmaha();

   // Helper method of Update() to calculate the update-related parameters
   // from various sources and set the appropriate state. Please refer to
   // Update() method for the meaning of the parametes.
   bool CalculateUpdateParams(const std::string& app_version,
                              const std::string& omaha_url,
                              bool obey_proxies,
                              bool interactive);

   // Calculates all the scattering related parameters (such as waiting period,
   // which type of scattering is enabled, etc.) and also updates/deletes
   // the corresponding prefs file used in scattering. Should be called
   // only after the device policy has been loaded and set in the system_state_.
   void CalculateScatteringParams(bool is_interactive);

   // Sets a random value for the waiting period to wait for before downloading
   // an update, if one available. This value will be upperbounded by the
   // scatter factor value specified from policy.
   void GenerateNewWaitingPeriod();

   // Helper method of Update() and Rollback() to construct the sequence of
   // actions to be performed for the postinstall.
   // |previous_action| is the previous action to get
   // bonded with the install_plan that gets passed to postinstall.
   void BuildPostInstallActions(InstallPlanAction* previous_action);

   // Helper method of Update() to construct the sequence of actions to
   // be performed for an update check. Please refer to
   // Update() method for the meaning of the parameters.
   void BuildUpdateActions(bool interactive);

   // Decrements the count in the kUpdateCheckCountFilePath.
   // Returns True if successfully decremented, false otherwise.
   bool DecrementUpdateCheckCount();

   // Starts p2p and performs housekeeping. Returns true only if p2p is
   // running and housekeeping was done.
   bool StartP2PAndPerformHousekeeping();

   // Calculates whether peer-to-peer should be used. Sets the
   // |use_p2p_to_download_| and |use_p2p_to_share_| parameters
   // on the |omaha_request_params_| object.
   void CalculateP2PParams(bool interactive);

   // Starts P2P if it's enabled and there are files to actually share.
   // Called only at program startup. Returns true only if p2p was
   // started and housekeeping was performed.
   bool StartP2PAtStartup();

   // Writes to the processing completed marker. Does nothing if
   // |update_completed_marker_| is empty.
   void WriteUpdateCompletedMarker();

   // Last status notification timestamp used for throttling. Use monotonic
   // TimeTicks to ensure that notifications are sent even if the system clock is
   // set back in the middle of an update.
   base::TimeTicks last_notify_time_;

   std::vector<std::shared_ptr<AbstractAction> > actions_;
   scoped_ptr<ActionProcessor> processor_;

   // External state of the system outside the update_engine process
   // carved out separately to mock out easily in unit tests.
   SystemState* system_state_;

   // If non-null, this UpdateAttempter will send status updates over this
   // dbus service.
   UpdateEngineService* dbus_service_ = nullptr;

   // Pointer to the OmahaResponseHandlerAction in the actions_ vector.
   std::shared_ptr<OmahaResponseHandlerAction> response_handler_action_;

   // Pointer to the DownloadAction in the actions_ vector.
   std::shared_ptr<DownloadAction> download_action_;

   // Pointer to the preferences store interface. This is just a cached
   // copy of system_state->prefs() because it's used in many methods and
   // is convenient this way.
   PrefsInterface* prefs_ = nullptr;

   // The current UpdateCheckScheduler to notify of state transitions.
   UpdateCheckScheduler* update_check_scheduler_ = nullptr;

   // Pending error event, if any.
   scoped_ptr<OmahaEvent> error_event_;

   // If we should request a reboot even tho we failed the update
   bool fake_update_success_ = false;

   // HTTP server response code from the last HTTP request action.
   int http_response_code_ = 0;

   // Current cpu shares.
   utils::CpuShares shares_ = utils::kCpuSharesNormal;

   // The cpu shares management timeout source.
   GSource* manage_shares_source_ = nullptr;

   // Set to true if an update download is active (and BytesReceived
   // will be called), set to false otherwise.
   bool download_active_ = false;

   // For status:
   UpdateStatus status_;
   double download_progress_ = 0.0;
   int64_t last_checked_time_ = 0;
   std::string prev_version_;
   std::string new_version_ = "0.0.0.0";
   int64_t new_payload_size_ = 0;

   // Common parameters for all Omaha requests.
   OmahaRequestParams* omaha_request_params_ = nullptr;

   // Number of consecutive manual update checks we've had where we obeyed
   // Chrome's proxy settings.
   int proxy_manual_checks_ = 0;

   // If true, this update cycle we are obeying proxies
   bool obeying_proxies_ = true;

   // Our two proxy resolvers
   DirectProxyResolver direct_proxy_resolver_;
   ChromeBrowserProxyResolver chrome_proxy_resolver_;

   // Originally, both of these flags are false. Once UpdateBootFlags is called,
   // |update_boot_flags_running_| is set to true. As soon as UpdateBootFlags
   // completes its asynchronous run, |update_boot_flags_running_| is reset to
   // false and |updated_boot_flags_| is set to true. From that point on there
   // will be no more changes to these flags.
   //
   // True if UpdateBootFlags has completed.
   bool updated_boot_flags_ = false;
   // True if UpdateBootFlags is running.
   bool update_boot_flags_running_ = false;

   // True if the action processor needs to be started by the boot flag updater.
   bool start_action_processor_ = false;

   // Used for fetching information about the device policy.
   scoped_ptr<policy::PolicyProvider> policy_provider_;

   // The current scatter factor as found in the policy setting.
   base::TimeDelta scatter_factor_;

   // Update completed marker file. An empty string means this marker is being
   // ignored (nor is it being written), which is useful for testing situations.
   std::string update_completed_marker_;

   // The number of consecutive failed update checks. Needed for calculating the
   // next update check interval.
   unsigned int consecutive_failed_update_checks_ = 0;

   DISALLOW_COPY_AND_ASSIGN(UpdateAttempter);
 };

 }  // namespace chromeos_update_engine

 #endif  // CHROMEOS_PLATFORM_UPDATE_ENGINE_UPDATE_ATTEMPTER_H_
	// Copyright (c) 2012 The Chromium OS 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 CHROMEOS_PLATFORM_UPDATE_ENGINE_UPDATE_ATTEMPTER_H_
	#define CHROMEOS_PLATFORM_UPDATE_ENGINE_UPDATE_ATTEMPTER_H_

	#include <time.h>

	#include <memory>
	#include <string>
	#include <vector>

	#include <base/time/time.h>
	#include <glib.h>
	#include <gtest/gtest_prod.h> // for FRIEND_TEST

	#include "update_engine/action_processor.h"
	#include "update_engine/chrome_browser_proxy_resolver.h"
	#include "update_engine/download_action.h"
	#include "update_engine/filesystem_copier_action.h"
	#include "update_engine/omaha_request_params.h"
	#include "update_engine/omaha_response_handler_action.h"
	#include "update_engine/proxy_resolver.h"
	#include "update_engine/system_state.h"

	class MetricsLibraryInterface;
	struct UpdateEngineService;

	namespace policy {
	class PolicyProvider;
	}

	namespace chromeos_update_engine {

	class UpdateCheckScheduler;

	enum UpdateStatus {
	UPDATE_STATUS_IDLE = 0,
	UPDATE_STATUS_CHECKING_FOR_UPDATE,
	UPDATE_STATUS_UPDATE_AVAILABLE,
	UPDATE_STATUS_DOWNLOADING,
	UPDATE_STATUS_VERIFYING,
	UPDATE_STATUS_FINALIZING,
	UPDATE_STATUS_UPDATED_NEED_REBOOT,
	UPDATE_STATUS_REPORTING_ERROR_EVENT,
	UPDATE_STATUS_ATTEMPTING_ROLLBACK
	};

	const char* UpdateStatusToString(UpdateStatus status);

	class UpdateAttempter : public ActionProcessorDelegate,
	public DownloadActionDelegate {
	public:
	static const int kMaxDeltaUpdateFailures;

	UpdateAttempter(SystemState* system_state,
	DBusWrapperInterface* dbus_iface);
	virtual ~UpdateAttempter();

	// Further initialization to be done post construction.
	void Init();

	// Checks for update and, if a newer version is available, attempts to update
	// the system. Non-empty \|in_app_version\| or \|in_update_url\| prevents
	// automatic detection of the parameter. If \|obey_proxies\| is true, the
	// update will likely respect Chrome's proxy setting. For security reasons, we
	// may still not honor them. Interactive should be true if this was called
	// from the user (ie dbus). \|is_test\| will lead to using an alternative test
	// server URL, if \|omaha_url\| is empty. \|is_user_initiated\| will be true
	// only if the update is being kicked off through dbus and will be false for
	// other types of kick off such as scheduled updates.
	virtual void Update(const std::string& app_version,
	const std::string& omaha_url,
	bool obey_proxies,
	bool interactive);

	// ActionProcessorDelegate methods:
	void ProcessingDone(const ActionProcessor* processor, ErrorCode code);
	void ProcessingStopped(const ActionProcessor* processor);
	void ActionCompleted(ActionProcessor* processor,
	AbstractAction* action,
	ErrorCode code);

	// Stop updating. An attempt will be made to record status to the disk
	// so that updates can be resumed later.
	void Terminate();

	// Try to resume from a previously Terminate()d update.
	void ResumeUpdating();

	// Resets the current state to UPDATE_STATUS_IDLE.
	// Used by update_engine_client for restarting a new update without
	// having to reboot once the previous update has reached
	// UPDATE_STATUS_UPDATED_NEED_REBOOT state. This is used only
	// for testing purposes.
	bool ResetStatus();

	// Returns the current status in the out params. Returns true on success.
	virtual bool GetStatus(int64_t* last_checked_time,
	double* progress,
	std::string* current_operation,
	std::string* new_version,
	int64_t* new_size);

	// Runs chromeos-setgoodkernel, whose responsibility it is to mark the
	// currently booted partition has high priority/permanent/etc. The execution
	// is asynchronous. On completion, the action processor may be started
	// depending on the \|start_action_processor_\| field. Note that every update
	// attempt goes through this method.
	void UpdateBootFlags();

	// Subprocess::Exec callback.
	void CompleteUpdateBootFlags(int return_code);
	static void StaticCompleteUpdateBootFlags(int return_code,
	const std::string& output,
	void* p);

	UpdateStatus status() const { return status_; }

	int http_response_code() const { return http_response_code_; }
	void set_http_response_code(int code) { http_response_code_ = code; }

	void set_dbus_service(struct UpdateEngineService* dbus_service) {
	dbus_service_ = dbus_service;
	}

	UpdateCheckScheduler* update_check_scheduler() const {
	return update_check_scheduler_;
	}
	void set_update_check_scheduler(UpdateCheckScheduler* scheduler) {
	update_check_scheduler_ = scheduler;
	}

	// This is the internal entry point for going through an
	// update. If the current status is idle invokes Update.
	// This is called by the DBus implementation.
	void CheckForUpdate(const std::string& app_version,
	const std::string& omaha_url,
	bool is_interactive);

	// This is the internal entry point for going through a rollback. This will
	// attempt to run the postinstall on the non-active partition and set it as
	// the partition to boot from. If \|powerwash\| is True, perform a powerwash
	// as part of rollback. Returns True on success.
	bool Rollback(bool powerwash);

	// This is the internal entry point for checking if we can rollback.
	bool CanRollback() const;

	// This is the internal entry point for getting a rollback partition name,
	// if one exists. It returns the bootable rollback kernel device partition
	// name or empty string if none is available.
	std::string GetRollbackPartition() const;

	// Returns a list of available kernel partitions along with information
	// whether it is possible to boot from it.
	std::vector<std::pair<std::string, bool>> GetKernelDevices() const;

	// Initiates a reboot if the current state is
	// UPDATED_NEED_REBOOT. Returns true on sucess, false otherwise.
	bool RebootIfNeeded();

	// DownloadActionDelegate methods
	void SetDownloadStatus(bool active);
	void BytesReceived(uint64_t bytes_received, uint64_t total);

	// Broadcasts the current status over D-Bus.
	void BroadcastStatus();

	// Returns the special flags to be added to ErrorCode values based on the
	// parameters used in the current update attempt.
	uint32_t GetErrorCodeFlags();

	// Returns true if we should cancel the current download attempt based on the
	// current state of the system, in which case \|cancel_reason\| indicates the
	// reason for the cancellation. False otherwise, in which case
	// \|cancel_reason\| is untouched.
	bool ShouldCancel(ErrorCode* cancel_reason);

	// Called at update_engine startup to do various house-keeping.
	void UpdateEngineStarted();

	// Reloads the device policy from libchromeos. Note: This method doesn't
	// cause a real-time policy fetch from the policy server. It just reloads the
	// latest value that libchromeos has cached. libchromeos fetches the policies
	// from the server asynchronously at its own frequency.
	void RefreshDevicePolicy();

	// Returns the boottime (CLOCK_BOOTTIME) recorded at the last
	// successful update. Returns false if the device has not updated.
	virtual bool GetBootTimeAtUpdate(base::Time *out_boot_time);

	// Returns a version OS version that was being used before the last reboot,
	// and if that reboot happended to be into an update (current version).
	// This will return an empty string otherwise.
	std::string const& GetPrevVersion() const { return prev_version_; }

	// Returns the nubmer of consecutive failed update checks.
	virtual unsigned int consecutive_failed_update_checks() const {
	return consecutive_failed_update_checks_;
	}

	private:
	// Update server URL for automated lab test.
	static const char* const kTestUpdateUrl;

	// Special ctor + friend declarations for testing purposes.
	UpdateAttempter(SystemState* system_state,
	DBusWrapperInterface* dbus_iface,
	const std::string& update_completed_marker);

	friend class UpdateAttempterUnderTest;
	friend class UpdateAttempterTest;
	FRIEND_TEST(UpdateAttempterTest, ActionCompletedDownloadTest);
	FRIEND_TEST(UpdateAttempterTest, ActionCompletedErrorTest);
	FRIEND_TEST(UpdateAttempterTest, ActionCompletedOmahaRequestTest);
	FRIEND_TEST(UpdateAttempterTest, CreatePendingErrorEventTest);
	FRIEND_TEST(UpdateAttempterTest, CreatePendingErrorEventResumedTest);
	FRIEND_TEST(UpdateAttempterTest, DisableDeltaUpdateIfNeededTest);
	FRIEND_TEST(UpdateAttempterTest, MarkDeltaUpdateFailureTest);
	FRIEND_TEST(UpdateAttempterTest, ReadTrackFromPolicy);
	FRIEND_TEST(UpdateAttempterTest, PingOmahaTest);
	FRIEND_TEST(UpdateAttempterTest, ScheduleErrorEventActionNoEventTest);
	FRIEND_TEST(UpdateAttempterTest, ScheduleErrorEventActionTest);
	FRIEND_TEST(UpdateAttempterTest, UpdateTest);
	FRIEND_TEST(UpdateAttempterTest, ReportDailyMetrics);
	FRIEND_TEST(UpdateAttempterTest, BootTimeInUpdateMarkerFile);

	// Checks if it's more than 24 hours since daily metrics were last
	// reported and, if so, reports daily metrics. Returns \|true\| if
	// metrics were reported, \|false\| otherwise.
	bool CheckAndReportDailyMetrics();

	// Calculates and reports the age of the currently running OS. This
	// is defined as the age of the /etc/lsb-release file.
	void ReportOSAge();

	// Sets the status to the given status and notifies a status update over dbus.
	void SetStatusAndNotify(UpdateStatus status);

	// Sets up the download parameters after receiving the update check response.
	void SetupDownload();

	// Creates an error event object in \|error_event_\| to be included in an
	// OmahaRequestAction once the current action processor is done.
	void CreatePendingErrorEvent(AbstractAction* action, ErrorCode code);

	// If there's a pending error event allocated in \|error_event_\|, schedules an
	// OmahaRequestAction with that event in the current processor, clears the
	// pending event, updates the status and returns true. Returns false
	// otherwise.
	bool ScheduleErrorEventAction();

	// Sets the cpu shares to \|shares\| and updates \|shares_\| if the new
	// \|shares\| is different than the current \|shares_\|, otherwise simply
	// returns.
	void SetCpuShares(utils::CpuShares shares);

	// Sets the cpu shares to low and sets up timeout events to increase it.
	void SetupCpuSharesManagement();

	// Resets the cpu shares to normal and destroys any scheduled timeout
	// sources.
	void CleanupCpuSharesManagement();

	// The cpu shares timeout source callback sets the current cpu shares to
	// normal. Returns false so that GLib destroys the timeout source.
	static gboolean StaticManageCpuSharesCallback(gpointer data);
	bool ManageCpuSharesCallback();

	// Callback to start the action processor.
	static gboolean StaticStartProcessing(gpointer data);

	// Schedules an event loop callback to start the action processor. This is
	// scheduled asynchronously to unblock the event loop.
	void ScheduleProcessingStart();

	// Checks if a full update is needed and forces it by updating the Omaha
	// request params.
	void DisableDeltaUpdateIfNeeded();

	// If this was a delta update attempt that failed, count it so that a full
	// update can be tried when needed.
	void MarkDeltaUpdateFailure();

	ProxyResolver* GetProxyResolver() {
	return obeying_proxies_ ?
	reinterpret_cast<ProxyResolver*>(&chrome_proxy_resolver_) :
	reinterpret_cast<ProxyResolver*>(&direct_proxy_resolver_);
	}

	// Sends a ping to Omaha.
	// This is used after an update has been applied and we're waiting for the
	// user to reboot. This ping helps keep the number of actives count
	// accurate in case a user takes a long time to reboot the device after an
	// update has been applied.
	void PingOmaha();

	// Helper method of Update() to calculate the update-related parameters
	// from various sources and set the appropriate state. Please refer to
	// Update() method for the meaning of the parametes.
	bool CalculateUpdateParams(const std::string& app_version,
	const std::string& omaha_url,
	bool obey_proxies,
	bool interactive);

	// Calculates all the scattering related parameters (such as waiting period,
	// which type of scattering is enabled, etc.) and also updates/deletes
	// the corresponding prefs file used in scattering. Should be called
	// only after the device policy has been loaded and set in the system_state_.
	void CalculateScatteringParams(bool is_interactive);

	// Sets a random value for the waiting period to wait for before downloading
	// an update, if one available. This value will be upperbounded by the
	// scatter factor value specified from policy.
	void GenerateNewWaitingPeriod();

	// Helper method of Update() and Rollback() to construct the sequence of
	// actions to be performed for the postinstall.
	// \|previous_action\| is the previous action to get
	// bonded with the install_plan that gets passed to postinstall.
	void BuildPostInstallActions(InstallPlanAction* previous_action);

	// Helper method of Update() to construct the sequence of actions to
	// be performed for an update check. Please refer to
	// Update() method for the meaning of the parameters.
	void BuildUpdateActions(bool interactive);

	// Decrements the count in the kUpdateCheckCountFilePath.
	// Returns True if successfully decremented, false otherwise.
	bool DecrementUpdateCheckCount();

	// Starts p2p and performs housekeeping. Returns true only if p2p is
	// running and housekeeping was done.
	bool StartP2PAndPerformHousekeeping();

	// Calculates whether peer-to-peer should be used. Sets the
	// \|use_p2p_to_download_\| and \|use_p2p_to_share_\| parameters
	// on the \|omaha_request_params_\| object.
	void CalculateP2PParams(bool interactive);

	// Starts P2P if it's enabled and there are files to actually share.
	// Called only at program startup. Returns true only if p2p was
	// started and housekeeping was performed.
	bool StartP2PAtStartup();

	// Writes to the processing completed marker. Does nothing if
	// \|update_completed_marker_\| is empty.
	void WriteUpdateCompletedMarker();

	// Last status notification timestamp used for throttling. Use monotonic
	// TimeTicks to ensure that notifications are sent even if the system clock is
	// set back in the middle of an update.
	base::TimeTicks last_notify_time_;

	std::vector<std::shared_ptr<AbstractAction> > actions_;
	scoped_ptr<ActionProcessor> processor_;

	// External state of the system outside the update_engine process
	// carved out separately to mock out easily in unit tests.
	SystemState* system_state_;

	// If non-null, this UpdateAttempter will send status updates over this
	// dbus service.
	UpdateEngineService* dbus_service_ = nullptr;

	// Pointer to the OmahaResponseHandlerAction in the actions_ vector.
	std::shared_ptr<OmahaResponseHandlerAction> response_handler_action_;

	// Pointer to the DownloadAction in the actions_ vector.
	std::shared_ptr<DownloadAction> download_action_;

	// Pointer to the preferences store interface. This is just a cached
	// copy of system_state->prefs() because it's used in many methods and
	// is convenient this way.
	PrefsInterface* prefs_ = nullptr;

	// The current UpdateCheckScheduler to notify of state transitions.
	UpdateCheckScheduler* update_check_scheduler_ = nullptr;

	// Pending error event, if any.
	scoped_ptr<OmahaEvent> error_event_;

	// If we should request a reboot even tho we failed the update
	bool fake_update_success_ = false;

	// HTTP server response code from the last HTTP request action.
	int http_response_code_ = 0;

	// Current cpu shares.
	utils::CpuShares shares_ = utils::kCpuSharesNormal;

	// The cpu shares management timeout source.
	GSource* manage_shares_source_ = nullptr;

	// Set to true if an update download is active (and BytesReceived
	// will be called), set to false otherwise.
	bool download_active_ = false;

	// For status:
	UpdateStatus status_;
	double download_progress_ = 0.0;
	int64_t last_checked_time_ = 0;
	std::string prev_version_;
	std::string new_version_ = "0.0.0.0";
	int64_t new_payload_size_ = 0;

	// Common parameters for all Omaha requests.
	OmahaRequestParams* omaha_request_params_ = nullptr;

	// Number of consecutive manual update checks we've had where we obeyed
	// Chrome's proxy settings.
	int proxy_manual_checks_ = 0;

	// If true, this update cycle we are obeying proxies
	bool obeying_proxies_ = true;

	// Our two proxy resolvers
	DirectProxyResolver direct_proxy_resolver_;
	ChromeBrowserProxyResolver chrome_proxy_resolver_;

	// Originally, both of these flags are false. Once UpdateBootFlags is called,
	// \|update_boot_flags_running_\| is set to true. As soon as UpdateBootFlags
	// completes its asynchronous run, \|update_boot_flags_running_\| is reset to
	// false and \|updated_boot_flags_\| is set to true. From that point on there
	// will be no more changes to these flags.
	//
	// True if UpdateBootFlags has completed.
	bool updated_boot_flags_ = false;
	// True if UpdateBootFlags is running.
	bool update_boot_flags_running_ = false;

	// True if the action processor needs to be started by the boot flag updater.
	bool start_action_processor_ = false;

	// Used for fetching information about the device policy.
	scoped_ptr<policy::PolicyProvider> policy_provider_;

	// The current scatter factor as found in the policy setting.
	base::TimeDelta scatter_factor_;

	// Update completed marker file. An empty string means this marker is being
	// ignored (nor is it being written), which is useful for testing situations.
	std::string update_completed_marker_;

	// The number of consecutive failed update checks. Needed for calculating the
	// next update check interval.
	unsigned int consecutive_failed_update_checks_ = 0;

	DISALLOW_COPY_AND_ASSIGN(UpdateAttempter);
	};

	} // namespace chromeos_update_engine

	#endif // CHROMEOS_PLATFORM_UPDATE_ENGINE_UPDATE_ATTEMPTER_H_