src/components/update_client/update_client.h - cobalt - Git at Google

 // Copyright 2015 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 COMPONENTS_UPDATE_CLIENT_UPDATE_CLIENT_H_
 #define COMPONENTS_UPDATE_CLIENT_UPDATE_CLIENT_H_

 #include <stdint.h>

 #include <map>
 #include <string>
 #include <vector>

 #include "base/callback_forward.h"
 #include "base/memory/ref_counted.h"
 #include "base/optional.h"
 #include "base/version.h"
 #include "components/update_client/update_client_errors.h"

 // The UpdateClient class is a facade with a simple interface. The interface
 // exposes a few APIs to install a CRX or update a group of CRXs.
 //
 // The difference between a CRX install and a CRX update is relatively minor.
 // The terminology going forward will use the word "update" to cover both
 // install and update scenarios, except where details regarding the install
 // case are relevant.
 //
 // Handling an update consists of a series of actions such as sending an update
 // check to the server, followed by parsing the server response, identifying
 // the CRXs that require an update, downloading the differential update if
 // it is available, unpacking and patching the differential update, then
 // falling back to trying a similar set of actions using the full update.
 // At the end of this process, completion pings are sent to the server,
 // as needed, for the CRXs which had updates.
 //
 // As a general idea, this code handles the action steps needed to update
 // a group of components serially, one step at a time. However, concurrent
 // execution of calls to UpdateClient::Update is possible, therefore,
 // queuing of updates could happen in some cases. More below.
 //
 // The UpdateClient class features a subject-observer interface to observe
 // the CRX state changes during an update.
 //
 // The threading model for this code assumes that most of the code in the
 // public interface runs on a SingleThreadTaskRunner.
 // This task runner corresponds to the browser UI thread in many cases. There
 // are parts of the installer interface that run on blocking task runners, which
 // are usually threads in a thread pool.
 //
 // Using the UpdateClient is relatively easy. This assumes that the client
 // of this code has already implemented the observer interface as needed, and
 // can provide an installer, as described below.
 //
 //    std::unique_ptr<UpdateClient> update_client(UpdateClientFactory(...));
 //    update_client->AddObserver(&observer);
 //    std::vector<std::string> ids;
 //    ids.push_back(...));
 //    update_client->Update(ids, base::BindOnce(...), base::BindOnce(...));
 //
 // UpdateClient::Update takes two callbacks as parameters. First callback
 // allows the client of this code to provide an instance of CrxComponent
 // data structure that specifies additional parameters of the update.
 // CrxComponent has a CrxInstaller data member, which must be provided by the
 // callers of this class. The second callback indicates that this non-blocking
 // call has completed.
 //
 // There could be several ways of triggering updates for a CRX, user-initiated,
 // or timer-based. Since the execution of updates is concurrent, the parameters
 // for the update must be provided right before the update is handled.
 // Otherwise, the version of the CRX set in the CrxComponent may not be correct.
 //
 // The UpdateClient public interface includes two functions: Install and
 // Update. These functions correspond to installing one CRX immediately as a
 // foreground activity (Install), and updating a group of CRXs silently in the
 // background (Update). This distinction is important. Background updates are
 // queued up and their actions run serially, one at a time, for the purpose of
 // conserving local resources such as CPU, network, and I/O.
 // On the other hand, installs are never queued up but run concurrently, as
 // requested by the user.
 //
 // The update client introduces a runtime constraint regarding interleaving
 // updates and installs. If installs or updates for a given CRX are in progress,
 // then installs for the same CRX will fail with a specific error.
 //
 // Implementation details.
 //
 // The implementation details below are not relevant to callers of this
 // code. However, these design notes are relevant to the owners and maintainers
 // of this module.
 //
 // The design for the update client consists of a number of abstractions
 // such as: task, update engine, update context, and action.
 // The execution model for these abstractions is simple. They usually expose
 // a public, non-blocking Run function, and they invoke a callback when
 // the Run function has completed.
 //
 // A task is the unit of work for the UpdateClient. A task is associated
 // with a single call of the Update function. A task represents a group
 // of CRXs that are updated together.
 //
 // The UpdateClient is responsible for the queuing of tasks, if queuing is
 // needed.
 //
 // When the task runs, it calls the update engine to handle the updates for
 // the CRXs associated with the task. The UpdateEngine is the abstraction
 // responsible for breaking down the update in a set of discrete steps, which
 // are implemented as actions, and running the actions.
 //
 // The UpdateEngine maintains a set of UpdateContext instances. Each of
 // these instances maintains the update state for all the CRXs belonging to
 // a given task. The UpdateContext contains a queue of CRX ids.
 // The UpdateEngine will handle updates for the CRXs in the order they appear
 // in the queue, until the queue is empty.
 //
 // The update state for each CRX is maintained in a container of CrxUpdateItem*.
 // As actions run, each action updates the CRX state, represented by one of
 // these CrxUpdateItem* instances.
 //
 // Although the UpdateEngine can and will run update tasks concurrently, the
 // actions of a task are run sequentially.
 //
 // The Action is a polymorphic type. There is some code reuse for convenience,
 // implemented as a mixin. The polymorphic behavior of some of the actions
 // is achieved using a template method.
 //
 // State changes of a CRX could generate events, which are observed using a
 // subject-observer interface.
 //
 // The actions chain up. In some sense, the actions implement a state machine,
 // as the CRX undergoes a series of state transitions in the process of
 // being checked for updates and applying the update.

 class PrefRegistrySimple;

 namespace base {
 class FilePath;
 }

 namespace crx_file {
 enum class VerifierFormat;
 }

 namespace update_client {

 class Configurator;
 enum class Error;
 struct CrxUpdateItem;

 enum class ComponentState {
   kNew,
   kChecking,
   kCanUpdate,
   kDownloadingDiff,
   kDownloading,
   kDownloaded,
   kUpdatingDiff,
   kUpdating,
   kUpdated,
   kUpToDate,
   kUpdateError,
   kUninstalled,
   kRun,
   kLastStatus
 };

 // Defines an interface for a generic CRX installer.
 class CrxInstaller : public base::RefCountedThreadSafe<CrxInstaller> {
  public:
   // Contains the result of the Install operation.
   struct Result {
     explicit Result(int error, int extended_error = 0)
         : error(error), extended_error(extended_error) {}
     explicit Result(InstallError error, int extended_error = 0)
         : error(static_cast<int>(error)), extended_error(extended_error) {}
     int error = 0;  // 0 indicates that install has been successful.
     int extended_error = 0;
   };

   using Callback = base::OnceCallback<void(const Result& result)>;

   // Called on the main thread when there was a problem unpacking or
   // verifying the CRX. |error| is a non-zero value which is only meaningful
   // to the caller.
   virtual void OnUpdateError(int error) = 0;

   // Called by the update service when a CRX has been unpacked
   // and it is ready to be installed. |unpack_path| contains the
   // temporary directory with all the unpacked CRX files. |pubkey| contains the
   // public key of the CRX in the PEM format, without the header and the footer.
   // The caller must invoke the |callback| when the install flow has completed.
   // This method may be called from a thread other than the main thread.
   virtual void Install(const base::FilePath& unpack_path,
                        const std::string& public_key,
                        Callback callback) = 0;

   // Sets |installed_file| to the full path to the installed |file|. |file| is
   // the filename of the file in this CRX. Returns false if this is
   // not possible (the file has been removed or modified, or its current
   // location is unknown). Otherwise, it returns true.
   virtual bool GetInstalledFile(const std::string& file,
                                 base::FilePath* installed_file) = 0;

   // Called when a CRX has been unregistered and all versions should
   // be uninstalled from disk. Returns true if uninstallation is supported,
   // and false otherwise.
   virtual bool Uninstall() = 0;

  protected:
   friend class base::RefCountedThreadSafe<CrxInstaller>;

   virtual ~CrxInstaller() {}
 };

 // A dictionary of installer-specific, arbitrary name-value pairs, which
 // may be used in the update checks requests.
 using InstallerAttributes = std::map<std::string, std::string>;

 struct CrxComponent {
   CrxComponent();
   CrxComponent(const CrxComponent& other);
   ~CrxComponent();

   // Optional SHA256 hash of the CRX's public key. If not supplied, the
   // unpacker can accept any CRX for this app, provided that the CRX meets the
   // VerifierFormat requirements specified by the service's configurator.
   // Callers that know or need a specific developer signature on acceptable CRX
   // files must provide this.
   std::vector<uint8_t> pk_hash;

   scoped_refptr<CrxInstaller> installer;
   std::string app_id;

   // The current version if the CRX is updated. Otherwise, "0" or "0.0" if
   // the CRX is installed.
   base::Version version;

   std::string fingerprint;  // Optional.
   std::string name;         // Optional.
   std::vector<std::string> handled_mime_types;

   // Optional.
   // Valid values for the name part of an attribute match
   // ^[-_a-zA-Z0-9]{1,256}$ and valid values the value part of an attribute
   // match ^[-.,;+_=a-zA-Z0-9]{0,256}$ .
   InstallerAttributes installer_attributes;

   // Specifies that the CRX can be background-downloaded in some cases.
   // The default for this value is |true|.
   bool allows_background_download;

   // Specifies that the update checks and pings associated with this component
   // require confidentiality. The default for this value is |true|. As a side
   // note, the confidentiality of the downloads is enforced by the server,
   // which only returns secure download URLs in this case.
   bool requires_network_encryption;

   // Specifies the strength of package validation required for the item.
   crx_file::VerifierFormat crx_format_requirement;

   // True if the component allows enabling or disabling updates by group policy.
   // This member should be set to |false| for data, non-binary components, such
   // as CRLSet, Supervised User Whitelists, STH Set, Origin Trials, and File
   // Type Policies.
   bool supports_group_policy_enable_component_updates;

   // Reasons why this component/extension is disabled.
   std::vector<int> disabled_reasons;

   // Information about where the component/extension was installed from.
   // For extension, this information is set from the update service, which
   // gets the install source from the update URL.
   std::string install_source;

   // Information about where the component/extension was loaded from.
   // For extensions, this information is inferred from the extension
   // registry.
   std::string install_location;
 };

 // Called when a non-blocking call of UpdateClient completes.
 using Callback = base::OnceCallback<void(Error error)>;

 // All methods are safe to call only from the browser's main thread. Once an
 // instance of this class is created, the reference to it must be released
 // only after the thread pools of the browser process have been destroyed and
 // the browser process has gone single-threaded.
 class UpdateClient : public base::RefCounted<UpdateClient> {
  public:
   using CrxDataCallback =
       base::OnceCallback<std::vector<base::Optional<CrxComponent>>(
           const std::vector<std::string>& ids)>;

   // Defines an interface to observe the UpdateClient. It provides
   // notifications when state changes occur for the service itself or for the
   // registered CRXs.
   class Observer {
    public:
     enum class Events {
       // Sent before the update client does an update check.
       COMPONENT_CHECKING_FOR_UPDATES = 1,

       // Sent when there is a new version of a registered CRX. After
       // the notification is sent the CRX will be downloaded unless the
       // update client inserts a
       COMPONENT_UPDATE_FOUND,

       // Sent when a CRX is in the update queue but it can't be acted on
       // right away, because the update client spaces out CRX updates due to a
       // throttling policy.
       COMPONENT_WAIT,

       // Sent after the new CRX has been downloaded but before the install
       // or the upgrade is attempted.
       COMPONENT_UPDATE_READY,

       // Sent when a CRX has been successfully updated.
       COMPONENT_UPDATED,

       // Sent when a CRX has not been updated because there was no update
       // available for this component.
       COMPONENT_NOT_UPDATED,

       // Sent when an error ocurred during an update for any reason, including
       // the update check itself failed, or the download of the update payload
       // failed, or applying the update failed.
       COMPONENT_UPDATE_ERROR,

       // Sent when CRX bytes are being downloaded.
       COMPONENT_UPDATE_DOWNLOADING,
     };

     virtual ~Observer() {}

     // Called by the update client when a state change happens.
     // If an |id| is specified, then the event is fired on behalf of the
     // specific CRX. The implementors of this interface are
     // expected to filter the relevant events based on the id of the CRX.
     virtual void OnEvent(Events event, const std::string& id) = 0;
   };

   // Adds an observer for this class. An observer should not be added more
   // than once. The caller retains the ownership of the observer object.
   virtual void AddObserver(Observer* observer) = 0;

   // Removes an observer. It is safe for an observer to be removed while
   // the observers are being notified.
   virtual void RemoveObserver(Observer* observer) = 0;

   // Installs the specified CRX. Calls back on |callback| after the
   // update has been handled. The |error| parameter of the |callback|
   // contains an error code in the case of a run-time error, or 0 if the
   // install has been handled successfully. Overlapping calls of this function
   // are executed concurrently, as long as the id parameter is different,
   // meaning that installs of different components are parallelized.
   // The |Install| function is intended to be used for foreground installs of
   // one CRX. These cases are usually associated with on-demand install
   // scenarios, which are triggered by user actions. Installs are never
   // queued up.
   virtual void Install(const std::string& id,
                        CrxDataCallback crx_data_callback,
                        Callback callback) = 0;

   // Updates the specified CRXs. Calls back on |crx_data_callback| before the
   // update is attempted to give the caller the opportunity to provide the
   // instances of CrxComponent to be used for this update. The |Update| function
   // is intended to be used for background updates of several CRXs. Overlapping
   // calls to this function result in a queuing behavior, and the execution
   // of each call is serialized. In addition, updates are always queued up when
   // installs are running. The |is_foreground| parameter must be set to true if
   // the invocation of this function is a result of a user initiated update.
   virtual void Update(const std::vector<std::string>& ids,
                       CrxDataCallback crx_data_callback,
                       bool is_foreground,
                       Callback callback) = 0;

   // Sends an uninstall ping for the CRX identified by |id| and |version|. The
   // |reason| parameter is defined by the caller. The current implementation of
   // this function only sends a best-effort, fire-and-forget ping. It has no
   // other side effects regarding installs or updates done through an instance
   // of this class.
   virtual void SendUninstallPing(const std::string& id,
                                  const base::Version& version,
                                  int reason,
                                  Callback callback) = 0;

   // Returns status details about a CRX update. The function returns true in
   // case of success and false in case of errors, such as |id| was
   // invalid or not known.
   virtual bool GetCrxUpdateState(const std::string& id,
                                  CrxUpdateItem* update_item) const = 0;

   // Returns true if the |id| is found in any running task.
   virtual bool IsUpdating(const std::string& id) const = 0;

   // Cancels the queued updates and makes a best effort to stop updates in
   // progress as soon as possible. Some updates may not be stopped, in which
   // case, the updates will run to completion. Calling this function has no
   // effect if updates are not currently executed or queued up.
   virtual void Stop() = 0;

  protected:
   friend class base::RefCounted<UpdateClient>;

   virtual ~UpdateClient() {}
 };

 // Creates an instance of the update client.
 scoped_refptr<UpdateClient> UpdateClientFactory(
     scoped_refptr<Configurator> config);

 // This must be called prior to the construction of any Configurator that
 // contains a PrefService.
 void RegisterPrefs(PrefRegistrySimple* registry);

 // This must be called prior to the construction of any Configurator that
 // needs access to local user profiles.
 // This function is mostly used for ExtensionUpdater, which requires update
 // info from user profiles.
 void RegisterProfilePrefs(PrefRegistrySimple* registry);

 }  // namespace update_client

 #endif  // COMPONENTS_UPDATE_CLIENT_UPDATE_CLIENT_H_
	// Copyright 2015 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 COMPONENTS_UPDATE_CLIENT_UPDATE_CLIENT_H_
	#define COMPONENTS_UPDATE_CLIENT_UPDATE_CLIENT_H_

	#include <stdint.h>

	#include <map>
	#include <string>
	#include <vector>

	#include "base/callback_forward.h"
	#include "base/memory/ref_counted.h"
	#include "base/optional.h"
	#include "base/version.h"
	#include "components/update_client/update_client_errors.h"

	// The UpdateClient class is a facade with a simple interface. The interface
	// exposes a few APIs to install a CRX or update a group of CRXs.
	//
	// The difference between a CRX install and a CRX update is relatively minor.
	// The terminology going forward will use the word "update" to cover both
	// install and update scenarios, except where details regarding the install
	// case are relevant.
	//
	// Handling an update consists of a series of actions such as sending an update
	// check to the server, followed by parsing the server response, identifying
	// the CRXs that require an update, downloading the differential update if
	// it is available, unpacking and patching the differential update, then
	// falling back to trying a similar set of actions using the full update.
	// At the end of this process, completion pings are sent to the server,
	// as needed, for the CRXs which had updates.
	//
	// As a general idea, this code handles the action steps needed to update
	// a group of components serially, one step at a time. However, concurrent
	// execution of calls to UpdateClient::Update is possible, therefore,
	// queuing of updates could happen in some cases. More below.
	//
	// The UpdateClient class features a subject-observer interface to observe
	// the CRX state changes during an update.
	//
	// The threading model for this code assumes that most of the code in the
	// public interface runs on a SingleThreadTaskRunner.
	// This task runner corresponds to the browser UI thread in many cases. There
	// are parts of the installer interface that run on blocking task runners, which
	// are usually threads in a thread pool.
	//
	// Using the UpdateClient is relatively easy. This assumes that the client
	// of this code has already implemented the observer interface as needed, and
	// can provide an installer, as described below.
	//
	// std::unique_ptr<UpdateClient> update_client(UpdateClientFactory(...));
	// update_client->AddObserver(&observer);
	// std::vector<std::string> ids;
	// ids.push_back(...));
	// update_client->Update(ids, base::BindOnce(...), base::BindOnce(...));
	//
	// UpdateClient::Update takes two callbacks as parameters. First callback
	// allows the client of this code to provide an instance of CrxComponent
	// data structure that specifies additional parameters of the update.
	// CrxComponent has a CrxInstaller data member, which must be provided by the
	// callers of this class. The second callback indicates that this non-blocking
	// call has completed.
	//
	// There could be several ways of triggering updates for a CRX, user-initiated,
	// or timer-based. Since the execution of updates is concurrent, the parameters
	// for the update must be provided right before the update is handled.
	// Otherwise, the version of the CRX set in the CrxComponent may not be correct.
	//
	// The UpdateClient public interface includes two functions: Install and
	// Update. These functions correspond to installing one CRX immediately as a
	// foreground activity (Install), and updating a group of CRXs silently in the
	// background (Update). This distinction is important. Background updates are
	// queued up and their actions run serially, one at a time, for the purpose of
	// conserving local resources such as CPU, network, and I/O.
	// On the other hand, installs are never queued up but run concurrently, as
	// requested by the user.
	//
	// The update client introduces a runtime constraint regarding interleaving
	// updates and installs. If installs or updates for a given CRX are in progress,
	// then installs for the same CRX will fail with a specific error.
	//
	// Implementation details.
	//
	// The implementation details below are not relevant to callers of this
	// code. However, these design notes are relevant to the owners and maintainers
	// of this module.
	//
	// The design for the update client consists of a number of abstractions
	// such as: task, update engine, update context, and action.
	// The execution model for these abstractions is simple. They usually expose
	// a public, non-blocking Run function, and they invoke a callback when
	// the Run function has completed.
	//
	// A task is the unit of work for the UpdateClient. A task is associated
	// with a single call of the Update function. A task represents a group
	// of CRXs that are updated together.
	//
	// The UpdateClient is responsible for the queuing of tasks, if queuing is
	// needed.
	//
	// When the task runs, it calls the update engine to handle the updates for
	// the CRXs associated with the task. The UpdateEngine is the abstraction
	// responsible for breaking down the update in a set of discrete steps, which
	// are implemented as actions, and running the actions.
	//
	// The UpdateEngine maintains a set of UpdateContext instances. Each of
	// these instances maintains the update state for all the CRXs belonging to
	// a given task. The UpdateContext contains a queue of CRX ids.
	// The UpdateEngine will handle updates for the CRXs in the order they appear
	// in the queue, until the queue is empty.
	//
	// The update state for each CRX is maintained in a container of CrxUpdateItem*.
	// As actions run, each action updates the CRX state, represented by one of
	// these CrxUpdateItem* instances.
	//
	// Although the UpdateEngine can and will run update tasks concurrently, the
	// actions of a task are run sequentially.
	//
	// The Action is a polymorphic type. There is some code reuse for convenience,
	// implemented as a mixin. The polymorphic behavior of some of the actions
	// is achieved using a template method.
	//
	// State changes of a CRX could generate events, which are observed using a
	// subject-observer interface.
	//
	// The actions chain up. In some sense, the actions implement a state machine,
	// as the CRX undergoes a series of state transitions in the process of
	// being checked for updates and applying the update.

	class PrefRegistrySimple;

	namespace base {
	class FilePath;
	}

	namespace crx_file {
	enum class VerifierFormat;
	}

	namespace update_client {

	class Configurator;
	enum class Error;
	struct CrxUpdateItem;

	enum class ComponentState {
	kNew,
	kChecking,
	kCanUpdate,
	kDownloadingDiff,
	kDownloading,
	kDownloaded,
	kUpdatingDiff,
	kUpdating,
	kUpdated,
	kUpToDate,
	kUpdateError,
	kUninstalled,
	kRun,
	kLastStatus
	};

	// Defines an interface for a generic CRX installer.
	class CrxInstaller : public base::RefCountedThreadSafe<CrxInstaller> {
	public:
	// Contains the result of the Install operation.
	struct Result {
	explicit Result(int error, int extended_error = 0)
	: error(error), extended_error(extended_error) {}
	explicit Result(InstallError error, int extended_error = 0)
	: error(static_cast<int>(error)), extended_error(extended_error) {}
	int error = 0; // 0 indicates that install has been successful.
	int extended_error = 0;
	};

	using Callback = base::OnceCallback<void(const Result& result)>;

	// Called on the main thread when there was a problem unpacking or
	// verifying the CRX. \|error\| is a non-zero value which is only meaningful
	// to the caller.
	virtual void OnUpdateError(int error) = 0;

	// Called by the update service when a CRX has been unpacked
	// and it is ready to be installed. \|unpack_path\| contains the
	// temporary directory with all the unpacked CRX files. \|pubkey\| contains the
	// public key of the CRX in the PEM format, without the header and the footer.
	// The caller must invoke the \|callback\| when the install flow has completed.
	// This method may be called from a thread other than the main thread.
	virtual void Install(const base::FilePath& unpack_path,
	const std::string& public_key,
	Callback callback) = 0;

	// Sets \|installed_file\| to the full path to the installed \|file\|. \|file\| is
	// the filename of the file in this CRX. Returns false if this is
	// not possible (the file has been removed or modified, or its current
	// location is unknown). Otherwise, it returns true.
	virtual bool GetInstalledFile(const std::string& file,
	base::FilePath* installed_file) = 0;

	// Called when a CRX has been unregistered and all versions should
	// be uninstalled from disk. Returns true if uninstallation is supported,
	// and false otherwise.
	virtual bool Uninstall() = 0;

	protected:
	friend class base::RefCountedThreadSafe<CrxInstaller>;

	virtual ~CrxInstaller() {}
	};

	// A dictionary of installer-specific, arbitrary name-value pairs, which
	// may be used in the update checks requests.
	using InstallerAttributes = std::map<std::string, std::string>;

	struct CrxComponent {
	CrxComponent();
	CrxComponent(const CrxComponent& other);
	~CrxComponent();

	// Optional SHA256 hash of the CRX's public key. If not supplied, the
	// unpacker can accept any CRX for this app, provided that the CRX meets the
	// VerifierFormat requirements specified by the service's configurator.
	// Callers that know or need a specific developer signature on acceptable CRX
	// files must provide this.
	std::vector<uint8_t> pk_hash;

	scoped_refptr<CrxInstaller> installer;
	std::string app_id;

	// The current version if the CRX is updated. Otherwise, "0" or "0.0" if
	// the CRX is installed.
	base::Version version;

	std::string fingerprint; // Optional.
	std::string name; // Optional.
	std::vector<std::string> handled_mime_types;

	// Optional.
	// Valid values for the name part of an attribute match
	// ^[-_a-zA-Z0-9]{1,256}$ and valid values the value part of an attribute
	// match ^[-.,;+_=a-zA-Z0-9]{0,256}$ .
	InstallerAttributes installer_attributes;

	// Specifies that the CRX can be background-downloaded in some cases.
	// The default for this value is \|true\|.
	bool allows_background_download;

	// Specifies that the update checks and pings associated with this component
	// require confidentiality. The default for this value is \|true\|. As a side
	// note, the confidentiality of the downloads is enforced by the server,
	// which only returns secure download URLs in this case.
	bool requires_network_encryption;

	// Specifies the strength of package validation required for the item.
	crx_file::VerifierFormat crx_format_requirement;

	// True if the component allows enabling or disabling updates by group policy.
	// This member should be set to \|false\| for data, non-binary components, such
	// as CRLSet, Supervised User Whitelists, STH Set, Origin Trials, and File
	// Type Policies.
	bool supports_group_policy_enable_component_updates;

	// Reasons why this component/extension is disabled.
	std::vector<int> disabled_reasons;

	// Information about where the component/extension was installed from.
	// For extension, this information is set from the update service, which
	// gets the install source from the update URL.
	std::string install_source;

	// Information about where the component/extension was loaded from.
	// For extensions, this information is inferred from the extension
	// registry.
	std::string install_location;
	};

	// Called when a non-blocking call of UpdateClient completes.
	using Callback = base::OnceCallback<void(Error error)>;

	// All methods are safe to call only from the browser's main thread. Once an
	// instance of this class is created, the reference to it must be released
	// only after the thread pools of the browser process have been destroyed and
	// the browser process has gone single-threaded.
	class UpdateClient : public base::RefCounted<UpdateClient> {
	public:
	using CrxDataCallback =
	base::OnceCallback<std::vector<base::Optional<CrxComponent>>(
	const std::vector<std::string>& ids)>;

	// Defines an interface to observe the UpdateClient. It provides
	// notifications when state changes occur for the service itself or for the
	// registered CRXs.
	class Observer {
	public:
	enum class Events {
	// Sent before the update client does an update check.
	COMPONENT_CHECKING_FOR_UPDATES = 1,

	// Sent when there is a new version of a registered CRX. After
	// the notification is sent the CRX will be downloaded unless the
	// update client inserts a
	COMPONENT_UPDATE_FOUND,

	// Sent when a CRX is in the update queue but it can't be acted on
	// right away, because the update client spaces out CRX updates due to a
	// throttling policy.
	COMPONENT_WAIT,

	// Sent after the new CRX has been downloaded but before the install
	// or the upgrade is attempted.
	COMPONENT_UPDATE_READY,

	// Sent when a CRX has been successfully updated.
	COMPONENT_UPDATED,

	// Sent when a CRX has not been updated because there was no update
	// available for this component.
	COMPONENT_NOT_UPDATED,

	// Sent when an error ocurred during an update for any reason, including
	// the update check itself failed, or the download of the update payload
	// failed, or applying the update failed.
	COMPONENT_UPDATE_ERROR,

	// Sent when CRX bytes are being downloaded.
	COMPONENT_UPDATE_DOWNLOADING,
	};

	virtual ~Observer() {}

	// Called by the update client when a state change happens.
	// If an \|id\| is specified, then the event is fired on behalf of the
	// specific CRX. The implementors of this interface are
	// expected to filter the relevant events based on the id of the CRX.
	virtual void OnEvent(Events event, const std::string& id) = 0;
	};

	// Adds an observer for this class. An observer should not be added more
	// than once. The caller retains the ownership of the observer object.
	virtual void AddObserver(Observer* observer) = 0;

	// Removes an observer. It is safe for an observer to be removed while
	// the observers are being notified.
	virtual void RemoveObserver(Observer* observer) = 0;

	// Installs the specified CRX. Calls back on \|callback\| after the
	// update has been handled. The \|error\| parameter of the \|callback\|
	// contains an error code in the case of a run-time error, or 0 if the
	// install has been handled successfully. Overlapping calls of this function
	// are executed concurrently, as long as the id parameter is different,
	// meaning that installs of different components are parallelized.
	// The \|Install\| function is intended to be used for foreground installs of
	// one CRX. These cases are usually associated with on-demand install
	// scenarios, which are triggered by user actions. Installs are never
	// queued up.
	virtual void Install(const std::string& id,
	CrxDataCallback crx_data_callback,
	Callback callback) = 0;

	// Updates the specified CRXs. Calls back on \|crx_data_callback\| before the
	// update is attempted to give the caller the opportunity to provide the
	// instances of CrxComponent to be used for this update. The \|Update\| function
	// is intended to be used for background updates of several CRXs. Overlapping
	// calls to this function result in a queuing behavior, and the execution
	// of each call is serialized. In addition, updates are always queued up when
	// installs are running. The \|is_foreground\| parameter must be set to true if
	// the invocation of this function is a result of a user initiated update.
	virtual void Update(const std::vector<std::string>& ids,
	CrxDataCallback crx_data_callback,
	bool is_foreground,
	Callback callback) = 0;

	// Sends an uninstall ping for the CRX identified by \|id\| and \|version\|. The
	// \|reason\| parameter is defined by the caller. The current implementation of
	// this function only sends a best-effort, fire-and-forget ping. It has no
	// other side effects regarding installs or updates done through an instance
	// of this class.
	virtual void SendUninstallPing(const std::string& id,
	const base::Version& version,
	int reason,
	Callback callback) = 0;

	// Returns status details about a CRX update. The function returns true in
	// case of success and false in case of errors, such as \|id\| was
	// invalid or not known.
	virtual bool GetCrxUpdateState(const std::string& id,
	CrxUpdateItem* update_item) const = 0;

	// Returns true if the \|id\| is found in any running task.
	virtual bool IsUpdating(const std::string& id) const = 0;

	// Cancels the queued updates and makes a best effort to stop updates in
	// progress as soon as possible. Some updates may not be stopped, in which
	// case, the updates will run to completion. Calling this function has no
	// effect if updates are not currently executed or queued up.
	virtual void Stop() = 0;

	protected:
	friend class base::RefCounted<UpdateClient>;

	virtual ~UpdateClient() {}
	};

	// Creates an instance of the update client.
	scoped_refptr<UpdateClient> UpdateClientFactory(
	scoped_refptr<Configurator> config);

	// This must be called prior to the construction of any Configurator that
	// contains a PrefService.
	void RegisterPrefs(PrefRegistrySimple* registry);

	// This must be called prior to the construction of any Configurator that
	// needs access to local user profiles.
	// This function is mostly used for ExtensionUpdater, which requires update
	// info from user profiles.
	void RegisterProfilePrefs(PrefRegistrySimple* registry);

	} // namespace update_client

	#endif // COMPONENTS_UPDATE_CLIENT_UPDATE_CLIENT_H_