(19)
(11)EP 3 403 177 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
14.09.2022 Bulletin 2022/37

(21)Application number: 17702219.1

(22)Date of filing:  13.01.2017
(51)International Patent Classification (IPC): 
G06F 8/61(2018.01)
G06F 9/445(2018.01)
(52)Cooperative Patent Classification (CPC):
G06F 8/61; G06F 9/44521; G06F 9/44505
(86)International application number:
PCT/US2017/013542
(87)International publication number:
WO 2017/124023 (20.07.2017 Gazette  2017/29)

(54)

MANAGING DELIVERY OF CODE AND DEPENDENT DATA USING APPLICATION CONTAINERS

VERWALTUNG DER BEREITSTELLUNG EINES CODES UND ABHÄNGIGE DATEN UNTER VERWENDUNG VON ANWENDUNGS-CONTAINERN

GESTION DE FOURNITURE DE CODE ET DE DONNÉES DÉPENDANTES AU MOYEN DE CONTENEURS D'APPLICATIONS


(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

(30)Priority: 15.01.2016 US 201662279571 P

(43)Date of publication of application:
21.11.2018 Bulletin 2018/47

(60)Divisional application:
19182411.9 / 3584696

(73)Proprietor: Google LLC
Mountain View, CA 94043 (US)

(72)Inventors:
  • KIRKPATRICK, Ficus
    Mountain View California 94043 (US)
  • VARADARAJAN, Vachaspati
    Mountain View California 94043 (US)
  • GANAPATHY, Subramaniam
    Mountain View California 94043 (US)
  • BAUMANN, Patrick
    Mountain View California 94043 (US)
  • EVANS, Jesse
    Mountain View California 94043 (US)

(74)Representative: Anderson, Oliver Ben et al
Venner Shipley LLP 200 Aldersgate
London EC1A 4HD
London EC1A 4HD (GB)


(56)References cited: : 
  
  • Anthony Kinney: "Getting started with Microsoft Application Virtualization", , 2008, XP055347962, Retrieved from the Internet: URL:http://download.microsoft.com/document s/uk/technet/downloads/technetmagazine/nov 2008issue/34_41_Vrtlsn_GttgStrtdwMSApp_des 2ar.pdf [retrieved on 2017-02-21]
  • MICHAEL KIRCHER ET AL: "Pooling", INTERNET CITATION, 10 May 2003 (2003-05-10), pages 1-11, XP002677112, Retrieved from the Internet: URL:http://www.kircher-schwanninger.de/mic hael/publications/Pooling.pdf [retrieved on 2012-05-31]
  
Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


Description

BACKGROUND



[0001] Computing devices can perform various functions, such as executing applications, receiving user input, and outputting information for display. For instance, computing devices may execute applications, such as an email client, travel assistant, messaging client, and the like. An application may include one or more executable components that implement various functionality. In some distributed environments, a user computing device (e.g., a smartphone) may use a media store application to search for and install applications, which are provided by a remote computing system. Typically, when a user selects an application in the media store application to install at the user computing device, the remote computing system sends a single file that includes all of the executable components to perform all functionality of the application, regardless of whether the user actually uses all the functionality. Further, the application is typically not executable until after all of the executable components have been downloaded and installed at the user computing device.

[0002] "Getting started with Microsoft Application Virtualization" by Anthony Kinney (retrieved from http://download.microsoft.com/documents/uk/technet/downloads/technetmagazine/ n0v2008issue/34_41_Vrtlsn_GttgStrtdwMSApp_des2ar.pdf) relates to an application virtualization platform which consists of a sequencer, a database, clients, a management server, a streaming server and a management console.

[0003] Pooling by Michael Kircher and Prashant Jain (retrieved from http://www.kircher-schwanninger.de/michael/publications/Pooling.pdf) relates to a pooling pattern which describes how expensive acquisition and release of resources can be avoided by recycling the resources no longer needed.

SUMMARY



[0004] The claims define the matter for protection.

[0005] In general, techniques of the present disclosure provide for managing delivery of application code and dependent data by an application container without requiring modification to the underlying operating system. To the operating system, the application container appears to be the application itself even though, without any application code executing within the application container, the application container is not a standalone functional application. The application container may provide a number of different application programming interfaces (APIs) usable by a developer when writing an application. That is, the developer may avoid relying upon APIs provided by the underlying operating system or by shared libraries and may avoid statically linking various libraries at compile time. Instead, the developer may assume that the APIs provided by the application container are invariant and the application container itself manages the application dependencies, shared library updates, and the like. If a user initiates installation of an application, the application container will, in parallel, retrieve one or more distinct sub- packages for the application as well as any dependent data specified by the developer. The dependent data may include mandatory dependent data as well as optional dependent data.

[0006] Once at least one sub-package and the mandatory dependent data is retrieved, the application container may begin execution of the application, even though not all of the sub- packages or optional dependent data may be retrieved. That is, rather than waiting for all of the application sub-packages and dependent data to be downloaded to the computing device, techniques of this disclosure enable the computing device to use an application container to manage the retrieval of the application sub-packages and dependent data and, once the required sub-package(s) and dependent data is retrieved, begin executing the application even though not all of the sub-packages and dependent data have been downloaded to the computing device. In this way, the computing device may begin executing the application more quickly than if required to download all of the data prior to execution. Further, the techniques may more efficiently use the data storage space available at the computing device as, by only downloading sub-packages and data required to perform certain functionality of the application, the application may consume less storage space on the computing device.

[0007] The details of one or more examples are set forth in the accompanying drawings and the description below. Other features, objects, and advantages of the disclosure will be apparent from the description and drawings, and from the claims.

BRIEF DESCRIPTION OF DRAWINGS



[0008] 

FIG. 1 is a conceptual diagram illustrating an example computing device with application containers that dynamically loads application dependencies, in accordance with techniques of this disclosure.

FIG. 2 is a block diagram illustrating further details of a computing device, in accordance with one or more aspects of the present disclosure.

FIG. 3 is a flow diagram illustrating example operations of a computing device with application containers for dynamically loading application dependencies, in accordance with techniques of this disclosure.


DETAILED DESCRIPTION



[0009] FIG. 1 is a conceptual diagram illustrating an example computing device 100 with application containers 102A-102C ("application containers 102") that dynamically loads application dependencies, in accordance with techniques of this disclosure. Examples of computing device 100 may include, but are not limited to, portable or mobile devices such as mobile phones (including smart phones), laptop computers, tablet computers, wearable computing devices such as smart watches or computerized eyewear, smart television platforms, vehicle computing systems such as a vehicle head unit, cameras, personal digital assistants (PDAs), etc. In some examples, computing device 100 may include stationary computing devices such as desktop computers, servers, mainframes, etc.

[0010] As shown in FIG. 1, computing device 100 includes application containers 102, system runtime 126, operating system 136, and hardware components 138. Computing device 100 may communicate with one or more other remote computing devices 142A-142C ("remote computing devices 142") via network 140 and communication links 148A-148B. As shown in FIG. 1, network 140 represents any public or private communication network, for instance, a cellular, Wi-Fi, and/or other type of network for transmitting data between computing devices. Computing device 100 and remote computing devices 142 may send and receive data across network 140 using any suitable communication techniques. For example, computing device 100 may be operatively coupled to network 140 using communication link 148A. Remote computing device 142A may be operatively coupled to network 140 by communication link 148B. Network 140 may include network hubs, network switches, network routers, etc., that are operatively inter-coupled thereby providing for the exchange of information between computing device 100 and remote computing devices 142. In some examples, communication links 138A-138B may be Ethernet, ATM or other network connections. Such connections may be wireless and/or wired connections.

[0011] Hardware components 138 may include but are not limited to computer processors, communication units (e.g., modems, network interface controllers, and the like), input components, output components, a presence-sensitive display, volatile and non-volatile memories, and a power source to name only a few examples. Operating system 136 may execute on hardware components 138 and manage hardware and software components of computing device 100. For instance, operating system 136 may perform memory management, process scheduling and non-volatile storage management. Operating system 136 may also provide network and security services to applications executing at computing device 100. Operating system 136 may also perform more or fewer functions than described above.

[0012] Runtime system 126 implements an execution model for applications that are built according to a particular programming language in which the applications are written and built or compiled. Runtime system 126 may include one or more libraries and/or services that are accessible to application containers 102 during execution. As further described in this disclosure, each application container 102 may correspond to a distinct application. Runtime system 126 may include thread-management services, screen drawing and user-interface rendering component, and inter- and intra-application messaging services to name only a few example services. Application containers 102 may access the services through Application Programming Interfaces (APIs) that are exposed by runtime components 128. In some examples, runtime system 126 may be executed as one or more processes and/or threads. One or more of the processes and/or threads may execute with or without operating system privileges.

[0013] As shown in FIG. 1, runtime system 126 may include runtime components 128. Each distinct runtime component may be implemented with one or more processes and/or threads. In some examples, each distinct runtime component may provide a user-defined set of functionality. For instance, a user-interface rendering component may be implemented with one or more libraries that define user-interface elements (e.g., buttons, lists, images, input fields, and the like) and their corresponding behaviors. The user-interface rendering component may provide APIs, which are called by application containers 102 to render the user-interface elements in a graphical user interface.

[0014] Supervisor component 128A is included in runtime components 128. Supervisor component 128A performs installation and maintenance of application containers 102 and provides inter- and intra-application messaging services. In general, supervisor component 128A is distinct from operating system 136 executing at the computing device. Supervisor component 128A includes a message broker 130 that listens for messages generated by application containers 102 and performs actions for the sending application container or one or more other application containers. Supervisor component 128A may have first priority or the first opportunity at dispatching any message (e.g., a message containing a URI as a user-specified identifier). In some examples, message broker 130 may provide additional processing for messages, such as allocating application containers from application container pool 132, enforcing security for messages, and logging messages, to name only a few examples. As an example, application container 102A may generate a message to navigate from a first user interface to a second user interface within the same application. Application container 102A may send the message to message broker 130, which includes a messaging table 134 comprising a set of filters, where each filter has one or more conditions and one or more corresponding actions. If the content of the message matches a condition of a filter, message broker 130 may execute the corresponding action, such as executing instructions to output the second graphical user interface. In some examples, such messages described above may be routed internally by router 112 without forwarding the messages to message broker 130.

[0015] In some examples, supervisor component 128A ensures that at least one application container is included in application container pool 132 and ready to be woken up. Each application container included in application container pool 132 are not currently allocated to a particular application and are not currently executing application code. However, each application container included in application container pool 132 includes enough bootstrapping code to be able to load and run application code when supervisor component 128A wake up the particular application container and assigns the particular application container to a particular application. The particular application container from application container pool 132 receives instructions from supervisor component 128A to begin loading and running the application code for the particular application.

[0016] As described above, each of application containers 102 may correspond to a distinct application at the time the corresponding application is executing. In various instances, supervisor component 128A maintains a mapping of which application containers are mapped to which executing applications. Applications may include distinct functionality to perform operations on computing device 100. For instance, applications may include an email application, text messing application, instant messaging application, weather application, video conferencing application, social networking application, weather application, stock market application, emergency alert application, sports application, office productivity application, multimedia player, to name only a few examples.

[0017] As a user or operating system invokes particular applications, supervisor component 128A dynamically allocates application containers 102 from application container pool 132 and maintains a mapping of the particular application containers 102 to the corresponding applications. When an application is terminated, supervisor component 128A may clean up any application containers 102 that are no longer needed. For example, supervisor component 128A may reset a state of an application container 102 or may uninstall the application container 102 that was mapped to a now terminated application. In examples where supervisor component 128A uninstalls application container 102 that are no longer mapped to an actively executing application, supervisor component 128A may install new applications containers and add them to application container pool 132 to ensure that at least one application container is ready to be woken up in response to invocation of an application. In this way, the user-interactive latency of application installation may be reduced to zero or nearly zero while, from the operating system perspective, maintaining separate identities for each application.

[0018] As shown in FIG. 1, application container 102A provides an execution environment and supporting services to direct the execution of executable components 108 of an application. Application containers 102 may execute as separate processes in operating system 136 and may include a set of common functionality for a plurality of different applications. In some examples, application container 102A includes a messaging interface 115. Router 112 may receive messages from runtime system 126 via messaging interface 115, and runtime system 126 may receive messages from executable components 108 and router 112 via messaging interface 115. Program logic for application container 102A may be implemented in executable components 108. An executable component may be a logical grouping of machine-executable code. For instance, in object-oriented design, a single executable component may be a single, compiled class file that includes machine-executable code.

[0019] Application container 102A may be a vessel for one or more sub-packages 104. In some examples, a sub-package includes two or more executable components 108. A sub-package may include resources (e.g., images, text, videos or any other non-compiled data), security and/or signing information, version information and/or dependency information, or any other information for an application. A software developer may design an application to be comprised of multiple, user-defined sub-packages. Each user-defined sub-package may include set of executable components that collectively provide a discrete set of functionality. For instance, a software developer may design a navigation application with multiple different user interfaces. Each user interface may include a different set of user interface elements and corresponding behaviors. As such each user interface may be implemented with a distinct set of executable components. For instance, the navigation application may include a turn-by-turn navigation user interface, a point-of-interest user interface (e.g., displaying details for a point of interest on a map), and a settings user interface. The software developer may design the application with three different sub-packages, where each sub-package includes a set of executable components to implement the functionality for the respective user interface.

[0020] Application container 102A may include container runtime 124. Container runtime 124 may include one or more libraries and/or one or more Application Programming Interfaces (APIs) 117 to services and/or functions that are provided by libraries within container runtime 124, runtime system 126, and/or operating system 136. As such, container runtime 124 may provide a secure in-process API layer. That is, each application container 102 shares a process and address space with the application code for the particular application to which the application container is mapped. By sharing the process and address space, application container 102 may simplify method call semantics between application code and shared API code. That is, rather than requiring a developer to use blocking interprocess communication calls, the developer may directly utilize APIs 117.

[0021] By controlling the application container and container runtime, runtime system 126 can proxy API calls and verify that application container and container runtime have not been tampered with and therefore provide runtime logic for sensitive behavior. For instance, an application that requests access a user's device identifier (e.g., a globally unique identifier of the device) could be required to call through APIs of the container runtime, which could then check with supervisor component 128A to ensure this is allowed behavior or even to modify the output of that API by, for example, scrubbing or pseudonymizing personally identifying information. In general, application containers 102 may permit some direct access to operating system 136, may permit some indirect action via the proxying, and may also block access to certain APIs. In this way, container runtime 124 may enforce a guarantee that such checks occur various operations because such operations could only be made through APIs of container runtime 124. Further, because container runtime 124 of application containers 102 provide APIs 117, updates to application containers 102 may be performed an application update rather than requiring an update to the underlying operating system 136, which may increase the adoption rate of any such updates, which may, in turn, increase security of the operating platform.

[0022] The invention requires determining the one or more dependencies of the application comprises parsing, by the container runtime, metadata of the application, wherein the metadata specifies that the at least one installable sub-package of the application requires dependent data. Container runtime 124 may thus provide a layer to iterate on APIs that require platform coordination. For instance, sub-package could declare that it requires some particular data, such as location, and container runtime 124 could obtain the location in parallel with loading executable components for a particular sub-package and provide the location as an argument on startup of an application. As one example, a developer may specify, in metadata for an application, that some dependent data is required for execution of the application. Container runtime 124 may not only retrieve and begin executing the application code for the application, but may also, in parallel, identify and retrieve the dependent data. In some instances, the developer may specify whether the dependent data is mandatory (i.e., required for the application to execute) or "best effort" (i.e., improves operation/functionality of the application, but not strictly required for the application to execute). An example of mandatory dependent data may be data that is required to display a basic user interface for the application. For "best effort" dependent data, container runtime 124 may begin executing the application code as soon as the application code is downloaded and available to execute, even if container runtime 124 has not yet received the "best effort" dependent data.

[0023] For example, consider a simple application that shows all state parks for a particular state, but also supports a mode where nearby parks are shown. The developer may specify the application's metadata requirements as follows: url: / ads: optional location: optional atom: home screen url: /nearby ads: optional location: required atom: nearby screen

[0024] If the user executes the application and navigates to an initial applications screen (which may correspond to the url "/"), container runtime 124 may, in parallel, begin downloading the home screen atom (e.g., downloading one of sub-packages 146 from remote computing device 142 A), request the ads creative, and initiate a global positioning fix. In instances where container runtime 124 finishes downloading the home screen atom before getting a global positioning system fix, application container 102A may cause a list of parks is displayed with empty space where a distance from a currently location of computing device 100 to each park would otherwise be shown, along with an area for the ad creative to be displayed. Once container runtime 124 finished retrieving and loading the ad creative, application container 102 A updates the graphical user interface to include the ad. Similarly, once container runtime 124 is able to get a current location of computing device 100 (i.e., the GPS fix), application container 102A may update the graphical user interface to include the respective distances to each park from the current location.

[0025] If a user navigates to a nearby park application screen (which may correspond to the url "/nearby") prior to container runtime 124 getting a current location of computing device 100, container runtime 124 will refrain from executing the nearby screen atom and displaying the nearby park application screen until container runtime 124 receives the current location information because the developer specified that the location is required for execution of the nearby screen atom. In this way, the developer does not need to specially handle the case where the application is waiting to receive location information and can, instead, rely upon container runtime 124 to handle such a situation.

[0026] Container runtime 124 may automatically determine and proactively retrieve data for an application. For example, while the state park application example is described as having a hierarchical structure explicitly defined in the metadata by the developer, in various examples, the developer need not define the application structure in the metadata. Instead, in some other examples useful for understanding the claimed subject matter, container runtime 124 may analyze the application code, determine data likely needed by the application, optimistically retrieve that data needed by the application without a developer specifying the data dependencies. That is, application containers 102 may obviate the need for static libraries in some cases by providing good runtime dependency satisfaction. Because application code is run by application containers 102, container runtime 124 can first determine through understanding of application metadata, dependencies of the application, including relevant versioning rules, satisfy those dependencies, and then begin executing the application code. Further, because application containers 102 and runtime system 126 operated outside of operating system 136, operating system 136 need not be modified in order to support the techniques of this disclosure.

[0027] Techniques of this disclosure may also enable container runtime 124 to perform optimistic prefetching of additional application code and data dependencies of the additional code. In some instances, container runtime 124 may predict additional code likely be needed to provide certain functionality of the application (e.g., for commonly used feature) and proactively retrieve the additional code. For example, container runtime 124 may predict that a user who loads the navigation application is likely to also request directions, the functionality for which may be in a different sub-package from the sub-package that provides the initial user interface for the navigation application. Container runtime 124 may retrieve the additional code (e.g., download one of sub-packages 146 from remote computing device 142A, load a sub-package 104 stored at computing device 100, etc.), identify any data dependencies of the additional code, and pre-fetch the data dependencies of the additional code. In other words, container runtime 124 may determine application code likely to be needed by application container 102 and fetch it while also fetching data on which the code is dependent. In contrast, systems which just pre-fetch the code wait to fetch required data until that code actually is executed.

[0028] As further described below, by allowing the software developer to design an application with separate sub-packages for separate sets of functionality, application containers 102 may enable an application to execute at computing device 100 without all of its respective execution components for all of its sub-packages being locally resident on computing device 100. In this way, the initial execution of an application may not require the retrieval and/or installation of all sub-packages but rather only a subset of sub-packages that include executable components implementing the requested functionality. Moreover, by packaging multiple, executable components in a single sub-package, the retrieval and/or installation of executable components may occur on a sub-package basis according to requested functionality (e.g., to render a particular user interface) rather retrieving and installing executable components on an executable component-by-executable component basis, which may have poorer performance and/or result in a poorer user experience.

[0029] As described above, each application may be executed with an application container that includes one or more executable components that define the operations of the application. Application container 102A includes a router 112 that sends and receives messages, which change the behavior of the application and/or cause the application to perform one or more operations, with executable components 108 and messaging interface 115. For instance, router 112 may receive a message that requests the execution of one or more operations. Router 112 may determine, based on the contents of the message, whether a sub-package that includes executable components to perform the one or more operations are stored locally or are otherwise accessible on computing device 100. The contents of the message may include an identifier such as a Uniform Resource Identifier (URI) that corresponds to the sub-package. If the sub-package is stored locally or is otherwise accessible on computing device 100, then router 112 identifies one or more executable components to perform the operations based on contents of the message. In some examples, the message may include additional attributes (e.g., category for launching user interface, MIME type of data, explicit component class for execution) or data (e.g., user data or machine generated data) that further specify the one or more operations to perform. As such, the one or more executable components identified by router 112 may perform the one or more operations based on the additional attributes or data.

[0030] As described above, all of the sub-packages for a particular application need not be locally resident at computing device 100 to execute the application. To determine whether a sub-package for specific functionality is resident or otherwise accessible at computing device 100, router 112 may perform a lookup on application definition 116. Application definition 116, generally, may define mappings between user-specified identifiers (e.g., URIs, strings, integers, or any other suitable identifier) and sub-packages that specify specific functionality for the application. Application definition 116 includes these mappings in routing table 118, which includes mappings between user-specified identifiers 120A-120N ("user-specified identifiers 120") and sub-package identifiers 122A-122N ("sub-package identifiers 122"). If router 112 receives a message with a user-specified identifier to perform functionality using a particular sub-package, router 112 may perform a lookup in router table 118. If router 112 determines that user-specified identifier 120A, for example, matches the user-specified identifier in the message, router 112 may determine whether sub-package 104A that corresponds to sub-package identifier 122A is resident on computing device 100. Since sub-package 104A is resident on computing device 100, router 112 executes a call to sub-package 104A based on the message or sends the message to sub-package 104A, which performs one or more operations using executable components 108A.

[0031] As described above, because the entire set of sub-packages for an application need not be stored locally on computing device 100, the initial installation and/or initial execution of an application at computing device 100 may require less time than if the entire application needed to be downloaded from a remote computing device, installed, and executed by computing device 100. As such, a user may experience greater responsiveness from the application and/or performance for the behavior of the application.

[0032] In the example of FIG. 1, a user may desire to initially install and execute the navigation application as described above. Initially, none of the sub-packages or the application definition for navigation application may be stored at computing device 100. The user may provide a user input to computing device 100 to initially select an icon in a user interface provided by operating system 136 that corresponds to the map application. Alternatively, the user may select the map application in a media store application (not shown) that executes at computing device 100 and communicates with remote computing devices 142 to retrieve sub-packages and application definitions. In any case, message broker 130 of supervisor component 128A receives a message from operating system 136 or the media store application that requests execution of particular functionality for the navigation application. Because the navigation application is not yet installed, the particular functionality requested is to display the default or main user interface for the application.

[0033] Supervisor component 128A may determine whether an application container has already been allocated in the memory of computing device 100 for the navigation application based on the content of the message. For instance, the content of the message may include a unique identifier of the navigation application, such as name for the application. In response to determining that supervisor component 128A has not yet allocated an application container for the navigation application, supervisor component 128A may allocate an application container 102A from application container pool 132. Application container pool 132 may include a set of processes that are reserved for and usable to execute applications. In some examples, supervisor component 128A may communicate with operating system 136 to create a new process for application container 102A.

[0034] Supervisor component 128A may determine that the navigation application is not yet installed and request an application definition from one or more of remote computing devices 142. For instance, supervisor component 128A may send a message to remote computing device 142A, where the message includes an identifier for the navigation application that is globally unique in remote computing devices 142. Remote computing device 142A, upon receiving the message, selects application definition 116 from application definitions 144, and sends application definition 116 to computing device 100. Supervisor component 128A receives application definition 116, which may be included in or accessible to application container 102A.

[0035] Supervisor component 128A causes message broker 130 to send a message to application container 102A to display the default or main user interface for the application. In particular, the message may include a user-specified identifier that corresponds to a sub-package with functionality to display the default or main user interface for the application. In some examples, message broker 130 receives (or generates) the user-specified identifier based on information received from the media store application, or from bootstrapping functionality associated with the icon for the mapping application that was initially selected by the user. The bootstrapping functionality may include, but is not limited to, sending the user-specified identifier to message broker 130.

[0036] Router 112 receives the message with the user-specified identifier via messaging interface 115. In this example of FIG. 1, the user-specified identifier is 120A. Based on the user-specified identifier, router 112 determines that the sub-package for sub-package identifier 122A corresponding to user-specified identifier 120A is not stored locally at computing device 100. Router 112 may send a message, using container runtime 124 and/or runtime system 126, to remote computing device 142A to request the sub-package for sub-package identifier 122A. For instance, the message sent by container runtime 124 and/or runtime system 126 to remote computing device 142A may include sub-package identifier 122A. Remote computing device 142A may send a sub-package to computing device 100 comprising executable components for displaying the default or main user interface of the navigation application.

[0037] Router 112, in response to determining that the sub-package for sub-package identifier 122A is not stored locally, may cause lifecycle manager 110 to listen for system lifecycles calls via callback interface 113, where the lifecycle calls are issued by runtime system 126. Lifecycle calls may include starting an application, pausing an application, restarting an application, or terminating an application, to name only a few examples. Lifecycle manager 110 may buffer the lifecycle calls, which will be executed by the executable components of sub-package 104A, once computing device 100 has retrieved sub-package 104A from remote computing device 142A. Once sub-package 104A has been retrieved by computing device 100, lifecycle manager 110 may send each of the buffered lifecycle calls to sub-package 104A.

[0038] In the example of FIG. 1, upon lifecycle manager 110 determining that computing device 100 has retrieved and stored sub-package 104A locally, lifecycle manager 110 sends a call or otherwise invokes loader 106 to load one or more of executable components 108 into memory of computing device 100 in order to execute the particular functionality initially requested, e.g., display the default or main user interface for the application. In some examples, loader 106 is responsible for loading executable components into memory. In some examples, loader 106 may represent multiple loaders, where each loader is responsible for loading a different executable component into memory. Loader 106 may, for a particular executable component, locate corresponding libraries used by the particular executable component and load any such libraries into memory, such that the libraries are accessible to the particular executable component. Lifecycle manager 110 may also send the buffered lifecycle calls to one or more of executable components 108. Upon receiving the buffered lifecycle calls, the one or more of executable components 108 cause computing device 100 to display the default or main user interface for the application.

[0039] At a later time, if the user wishes to navigate to a settings user interface, the user may provide a user input that selects a user interface element (e.g., icon, button, label, or the like) for the settings in the currently displayed default or main user interface for the application. Runtime system 126 sends a message to application container 102A that indicates the selection of the user interface element. Executable component 108A determines that the selection displays the settings user interface. Executable component 108A generates a message with a user-specified identifier 120N for sub-package 122N that includes the functionality for the settings user interface. Executable component 108A may send the message to router 112 directly, or to runtime system 126, which in turn routes the message back to router 112. In either case, router 112 performs a lookup of user-specified identifier 120N and determines that the sub-package for sub-package identifier 122N is not locally stored at computing device 100.

[0040] In a similar manner, as described above with respect to sub-package 104A, router 112 sends a message, using container runtime 124 and/or runtime system 126, to remote computing device 142A to retrieve the sub-package for sub-package identifier 122N. Remote computing device 142A may send sub-package 122N to computing device 100 comprising executable components for displaying the settings interface of the navigation application. While computing device 100 is retrieving sub-package 122N, lifecycle manager 110 may buffer lifecycle calls received at callback interface 113. Upon downloading sub-package 122N, lifecycle manager 110 causes loader 106 to load executable components of sub-package 122N into memory. Loader 106 may initiate execution of one or more of the executable components to cause the settings interface of the navigation application to be displayed at a display device of computing device 100.

[0041] FIG. 2 is a block diagram illustrating further details of computing device 100, in accordance with one or more aspects of the present disclosure. FIG. 2 illustrates only one particular example of computing device 100. Many other examples of computing device 100 may be used in other instances and may include a subset of the components included in example computing device 100 or may include additional components not shown example computing device 100 in FIG. 2.

[0042] As shown in the example of FIG. 2, computing device 100 includes one or more processors 240, one or more input components 242, one or more communication units 244, one or more output components 246, one or more storage devices 248, and presence-sensitive display 252. Storage devices 248 of computing device 100 include application containers 102, system runtime 128, and operating system 136. Communication channels 250 may interconnect each of the components 240, 242, 244, 246, 248, 252, 254, and/or 256 for inter-component communications (physically, communicatively, and/or operatively). In some examples, communication channels 250 may include a system bus, a network connection, one or more inter-process communication data structures, or any other components for communicating data between hardware and/or software.

[0043] One or more processors 240 may implement functionality and/or execute instructions within computing device 100. For example, processors 240 on computing device 100 may receive and execute instructions stored by storage devices 248 that provide the functionality of operating system 136, application containers 102, and system runtime 126. These instructions executed by processors 240 may cause computing device 100 to store and/or modify information, within storage devices 248 during program execution. Processors 240 may execute instructions of operating system 136, application containers 102, and system runtime 126 to perform one or more operations. That is, operating system 136, application containers 102, and system runtime 126 may be operable by processors 240 to perform various functions described in this disclosure.

[0044] One or more input components 242 of computing device 100 may receive input. Examples of input are tactile, audio, kinetic, and optical input, to name only a few examples. Input components 242 of computing device 100, in one example, include a mouse, keyboard, voice responsive system, video camera, buttons, control pad, microphone or any other type of device for detecting input from a human or machine. In some examples, input component 242 may be a presence-sensitive input component, which may include a presence-sensitive screen, touch-sensitive screen, etc.

[0045] One or more output components 246 of computing device 100 may generate output. Examples of output are tactile, audio, and video output. Output components 246 of computing device 100, in some examples, include a presence-sensitive screen, sound card, video graphics adapter card, speaker, cathode ray tube (CRT) monitor, liquid crystal display (LCD), or any other type of device for generating output to a human or machine. Output components may include display components such as cathode ray tube (CRT) monitor, liquid crystal display (LCD), Light-Emitting Diode (LED) or any other type of device for generating tactile, audio, and/or visual output.

[0046] In some examples, presence-sensitive display 252 of computing device 100 may include functionality of input component 242 and/or output components 246. In the example of FIG. 2, presence-sensitive display 252 may include a presence-sensitive input component 256, such as a presence-sensitive screen or touch-sensitive screen. In some examples, presence-sensitive input component 256 may detect an object at and/or near the presence-sensitive input component. As one example range, presence-sensitive input component 256 may detect an object, such as a finger or stylus that is within two inches or less of presence-sensitive input component 256. Presence-sensitive input component 256 may determine a location (e.g., an (x,y) coordinate) of the presence-sensitive input component at which the object was detected. In another example range, presence-sensitive input component 256 may detect an object two inches or less from presence-sensitive input component 256 and other ranges are also possible. Presence-sensitive input component 256 may determine the location of presence-sensitive input component 256 selected by a user's finger using capacitive, inductive, and/or optical recognition techniques.

[0047] In some examples, presence-sensitive display 252 may also provide output to a user using tactile, audio, or video stimuli as described with respect to output component 246. For instance, presence-sensitive display 252 may include display component 254 that presents a graphical user interface. Display component 254 may be any type of output component that provides visual output, such as described with respect to output components 246. While illustrated as an integrated component of computing device 100, presence-sensitive display 252 may, in some examples, be an external component that shares a data path with other components of computing device 100 for transmitting and/or receiving input and output. For instance, presence-sensitive display 252 may be a built-in component of computing device 100 located within and physically connected to the external packaging of computing device 100 (e.g., a screen on a mobile phone). In another example, presence-sensitive display 252 may be an external component of computing device 100 located outside and physically separated from the packaging of computing device 100 (e.g., a monitor, a projector, etc. that shares a wired and/or wireless data path with a tablet computer). In some examples, presence-sensitive display 252, when located outside of and physically separated from the packaging of computing device 100, may be implemented by two separate components: a presence-sensitive input component 256 for receiving input and a display component 254 for providing output.

[0048] One or more communication units 244 of computing device 100 may communicate with external devices by transmitting and/or receiving data. For example, computing device 100 may use communication units 244 to transmit and/or receive radio signals on a radio network such as a cellular radio network. In some examples, communication units 244 may transmit and/or receive satellite signals on a satellite network such as a Global Positioning System (GPS) network. Examples of communication units 244 include a network interface card (e.g. such as an Ethernet card), an optical transceiver, a radio frequency transceiver, a GPS receiver, or any other type of device that can send and/or receive information. Other examples of communication units 244 may include Bluetooth®, GPS, 3G, 4G, and Wi-Fi® radios found in mobile devices as well as Universal Serial Bus (USB) controllers and the like.

[0049] As shown in FIG. 2, computing device 100 may include a power source 258. In some examples, power source 258 may be a battery. Power source 258 may provide power to one or more components of computing device 100. Examples of power source 258 may include, but are not necessarily limited to, batteries having zinc-carbon, lead-acid, nickel cadmium (NiCd), nickel metal hydride (NiMH), lithium ion (Li-ion), and/or lithium ion polymer (Li-ion polymer) chemistries. In some examples, power source 258 may have a limited capacity (e.g., 1000-3000 mAh).

[0050] One or more storage devices 248 within computing device 100 may store information for processing during operation of computing device 100. In some examples, storage device 248 is a temporary memory, meaning that a primary purpose of storage device 248 is not long-term storage. Storage devices 248 on computing device 100 may configured for short-term storage of information as volatile memory and therefore not retain stored contents if deactivated. Examples of volatile memories include random access memories (RAM), dynamic random access memories (DRAM), static random access memories (SRAM), and other forms of volatile memories known in the art.

[0051] Storage devices 248, in some examples, also include one or more computer-readable storage media. Storage devices 248 may be configured to store larger amounts of information than volatile memory. Storage devices 248 may further be configured for long-term storage of information as non-volatile memory space and retain information after activate/off cycles. Examples of non-volatile memories include magnetic hard discs, optical discs, floppy discs, flash memories, or forms of electrically programmable memories (EPROM) or electrically erasable and programmable (EEPROM) memories. Storage devices 248 may store program instructions and/or data associated with operating system 136, system runtime 126, and application containers 102.

[0052] Each respective application container 102 may correspond to a distinct application. For instance, an operating system may include a user interface that allows a user to select different applications (e.g., from a menu or icon grid) based on respective icons that correspond to the different applications. For example, a user may select an email client icon from the operating system user interface that causes execution of the email client application with its own separate application container. Unlike an application container, an extension or other sub-application (e.g., plugins, JavaScript, Java Virtual Machine, etc.,) of a web-browser may not be represented as a separate application to be launched in a user interface of an operating system. For instance, even if a web browser created a separate process for each tab of a tabbed interface, each of the tabs may not be represented as a separate application within a user interface of the operating system as different launchable applications.

[0053] An application container, as described in this disclosure, may differ from a web browser because an application container may include a container runtime. As described in this disclosure, a container runtime of an application container may include libraries, but may also expose operating system APIs to executable components of sub-packages within an application container. Unlike an application container, a web browser may not expose, and may even prevent access to, such operating system APIs to extensions or other sub-applications within the web-browser.

[0054] An application container, as described in this disclosure, may differ from a web browser because the application container may receive user-specified identifiers (e.g., URI's) from a supervisor component (e.g., in a runtime system or operating system) that is external to the application container that may cause the retrieval of sub-packages that change the execution behavior or appearance of the application without additional user intervention. The user-specified identifiers may originate from other applications executing on the same computing device or different computing devices, and upon being received by an application container may automatically change the execution behavior or appearance of the application. By contrast, a web browser may receive user input (e.g., inputting text for a URL) within the web-browser itself and not from a source external to the application container, e.g., either a supervisor component or another application external to the web-browser. Additionally, a web browser may not include a router and/or application definition, as described within an application container of this disclosure, to perform a lookup of user-specified identifiers and change the execution of the application represented by the application container. Unlike an application container, a web browser may not include a callback interface, which receives and buffers lifecycle calls to change the operation of sub-packages within the application container.

[0055] In some examples, a web browser may include core functionality (e.g., rendering engine) and one or more third-party extensions, plugins, and/or sub-application. A web browser, unlike an application container, may not function properly or execute at all without all of the web browser's core functionality being stored locally and available to the computing device for execution. By contrast, an application container may function properly with only a sub-set of its core functionality (e.g., only sub-packages for a subset of user interfaces) stored locally and available to the computing device for execution.

[0056] In accordance with techniques of the disclosure, system runtime 126 receives a request to execute an application. For instance, a user may provide a user input at presence-sensitive display 204 to execute the application or particular functionality of the application. Presence-sensitive display 204 may cause system runtime 126 to generate an event that corresponds to selection of an icon for the application. In response to receiving an indication of the user input, system runtime 126 may determine whether at least one application container 102 is allocated for the application.

[0057] Responsive to determining that an application container for maintaining installable sub-packages of the application is not allocated in volatile memory of storage components 248, system runtime 126 retrieves an application definition from a remote computing device. For instance, system runtime 126 causes one of communication units 244 to send a request to the remote computing device for the application definition. The application definition may define a plurality of mappings between the installable sub-packages of the application and user-specified identifiers.

[0058] Responsive to allocating application container 102A in the volatile memory of computing device 100 or to determining that application container 102 was already allocated in the memory of computing device 100, system runtime 126 may initiate, based at least in part on a user-specified identifier of the request, the particular functionality of the application by, for example, sending a command to application container 102A.

[0059] Application container 102A determines a plurality of dependencies for the application or for the particular functionality of the application by parsing metadata of the application, such as a manifest file or other information for the application. Based on the configuration file, application container 102A determines the plurality of dependencies for the application or the particular functionality of the application.

[0060] The plurality of dependencies includes one or more required dependencies and one or more optional dependencies. A dependency is a required dependency if the dependency is required to execute the application and/or to provide the particular functionality of the application. For example, application container 102A may determine that a sub-package that includes program code for the particular functionality of the application is a required dependency. As another example, if the particular functionality requested by the user is navigation functionality, application container 102A may determine that location information is a required dependency. A dependency is an optional dependency if the dependency is not required to execute the application and/or provide the particular functionality of the application. For example, application container 102A may determine that a dependency is an optional dependency if the dependency is image data for a new story presented by the application. As another example, if the particular functionality requested by the user is information about a particular brand, application container 102A may determine that location information is an optional dependency. However, if the user were to then select find a store functionality of the application, application container 102A may determine that the location information is now a required dependency as the location information may now be required to identify stores located near the current location of computing device 100.

[0061] Responsive to determining that one or more required and/or one or more optional dependencies are not currently stored at computing device 100 and/or available to application container 102A, application container 102A initiates retrieval of the one or more required dependencies and/or the one or more optional dependencies. For example, if one of the required dependencies is an installable sub-package for the particular functionality of the application, application container 102A may retrieve the installable sub-package that includes a plurality of executable components from a remote computing device. Similarly, if any of the one or more optional dependencies include information (e.g., textual data, image data, audio data, video data, third-party data, etc.) that is not stored at computing device 100, but is available at a remote computing device, application container 102A may retrieve the data from the remote computing device. The remote computing device may be the same computing device that includes the application definition or a different computing device. In some examples, if the computing devices are different, they may be operated by a common operator. Further, the remote computing device may include two more remote computing devices. In some instances, application container 102A may retrieve the one or more required dependencies from a first data source (e.g., a first remote computing device) and the one or more optional dependencies from a second data source different from the first data source (e.g., a second, different remote computing device).

[0062] Once the required dependencies have been received by computing device 100, application container 102A executes the application or the particular functionality of the application required by the user. That is, application container 102A may execute the application and/or the particular functionality of the application even though at least a portion of the one or more optional dependencies have not yet been received. In other words, in response to receiving all of the one or more required dependencies and while at least one of the optional dependencies has not yet been received by application container 102A, computing device 100 may execute the application.

[0063] In some examples, computing device 100 begins executing the application prior to receiving all of the optional dependencies, computing device 100 may output, for display (e.g., by presence-sensitive display 252), a graphical user interface of the application including a placeholder graphical element for the at least one of the one or more optional dependencies not yet received by application container 102A. In response to receiving the at least one of the one or more optional dependencies, computing device 100 may output, for display, information associated with the at least one optional dependency in place of the placeholder element.

[0064] Application container 102A may prefetch additional installable sub-packages of the application, additional data for the application, or any other dependencies (required or optional) that may likely be used by the user. That is, computing device 100 may anticipate additional functionality likely to be requested by the user (e.g., based on usage data from other users, historical usage patterns of the user, etc.) and proactively retrieve the corresponding required dependencies and, in some instances, optional dependencies. In some examples, computing device 100 may determine, based on data included in the one or more optional dependencies, one or more installable sub-packages of the application configured to use the data included in the one or more optional dependencies. In other words, computing device 100 may identify other features of the application that uses the data included in the optional dependencies received by computing device 100. In such instances, application container 102 may prefetch at least one of the one or more installable sub-packages of the application configured to use the data.

[0065] FIG. 3 is a flow diagram illustrating example operations of a computing device with application containers for dynamically loading application dependencies, in accordance with techniques of this disclosure. For purposes of illustration only, the example operations are described below within the context of computing device 100 of FIG. 1.

[0066] In FIG. 3, computing device 100 may initially receive a request to execute particular functionality of an application (300). For instance, a user may provide a user input at computing device 100 to launch the application and supervisor component 128A of computing device 100 may receive an indication of the user input as a request to execute the application. Supervisor component 128A may determine whether an application container for maintaining installable sub-packages of the application (e.g., one of application containers 102, such as application container 102A) is allocated in memory (e.g., one of storage components 248 of FIG. 2) of computing device 100 (302).

[0067] Responsive to determining that an application container for maintaining installable sub-packages of the application is not allocated in memory ("NO" branch of 302), computing device 100 may allocated an application container (e.g., application container 102A) (304). For example, computing device 100 may retrieve an application definition from a remote computing system by, for instance, sending a request to the remote computing system that includes a unique identifier for the application. The remote computing system may perform a lookup and identify a corresponding application definition. The remote computing system may send the application definition to computing device 100. Computing device 100 may receive the application definition from the remote computing system and allocate application container 102A in the memory of computing device 100 for the application.

[0068] Responsive to allocating the application container in the memory or in response to determining that the application container is already allocated in the memory ("YES" branch of 302), application container 102A determines one or more required dependencies and one or more optional dependencies for the particular functionality of the application (306). Container runtime 124 of application container 102A parses metadata of the application to determine the one or more required dependencies and the one or more optional dependencies. The one or more required dependencies include one or more of a set of the installable sub-packages of the application. The one or more optional dependencies may include one or more of application data, image data, user data, location data, or third-party data.

[0069] Application container 102A initiates retrieval of the determined one or more required dependencies and the determined one or more optional dependencies (308). In some examples, container runtime 124 retrieves the one or more required dependencies from a first data source and the one or more optional dependencies from a second data source different form the first data source.

[0070] Prior to receiving all of the optional dependencies and after receiving all of the required dependencies, computing device 100 executes the application (310). That is, computing device 100 may execute the application, using application container 102 A, even though not all of the optional dependencies have been received by computing device 100. In some examples, the optional dependencies include image data. In such examples, application container 102 A may determine whether all of the optional dependency image data has been received by computing device 100. If all of the optional dependency image data has not been received by computing device 100, computing device 100 may output, for display, a graphical user interface of the application including a placeholder graphical element for the at least one of the one or more optional dependencies not yet received by container runtime 124. If all of the optional dependency image data has been received by computing device 100 (including optional dependency image data received after the placeholder graphical element may have been included in the graphical user interface), computing device 100 may output, for display, information associated with the at least one optional dependency in place of the placeholder element.

[0071] In some examples, computing device 100 may be configured to prefetch additional installable sub-packages for the application (312). In such examples, computing device 100 may determine, based on data included in the one or more optional dependencies, one or more installable sub-packages of the application configured to use the data included in the one or more optional dependencies and may prefetch at least one of the one or more installable sub-packages of the application configured to use the data. In this way, computing device 100 may proactively retrieve additional functionality likely to be used by the user of computing device 100, which may reduce the amount of time required to load such functionality at the time the user requests the functionality.

[0072] By way of example, and not limitation, such computer-readable storage media can comprise RAM, ROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage, or other magnetic storage devices, flash memory, or any other medium that can be used to store desired program code in the form of instructions or data structures and that can be accessed by a computer. Also, any connection is properly termed a computer-readable medium. For example, if instructions are transmitted from a website, server, or other remote source using a coaxial cable, fiber optic cable, twisted pair, digital subscriber line (DSL), or wireless technologies such as infrared, radio, and microwave, then the coaxial cable, fiber optic cable, twisted pair, DSL, or wireless technologies such as infrared, radio, and microwave are included in the definition of medium. It should be understood, however, that computer-readable storage media and data storage media do not include connections, carrier waves, signals, or other transient media, but are instead directed to non-transient, tangible storage media. Disk and disc, as used herein, includes compact disc (CD), laser disc, optical disc, digital versatile disc (DVD), floppy disk and Blu-ray disc, where disks usually reproduce data magnetically, while discs reproduce data optically with lasers. Combinations of the above should also be included within the scope of computer-readable media.

[0073] Instructions may be executed by one or more processors, such as one or more digital signal processors (DSPs), general purpose microprocessors, application specific integrated circuits (ASICs), field programmable logic arrays (FPGAs), or other equivalent integrated or discrete logic circuitry. Accordingly, the term "processor," as used herein may refer to any of the foregoing structure or any other structure suitable for implementation of the techniques described herein. In addition, in some aspects, the functionality described herein may be provided within dedicated hardware and/or software modules. Also, the techniques could be fully implemented in one or more circuits or logic elements.

[0074] The techniques of this disclosure may be implemented in a wide variety of devices or apparatuses, including a wireless handset, an integrated circuit (IC) or a set of ICs (e.g., a chip set). Various components, modules, or units are described in this disclosure to emphasize functional aspects of devices configured to perform the disclosed techniques, but do not necessarily require realization by different hardware units. Rather, as described above, various units may be combined in a hardware unit or provided by a collection of interoperative hardware units, including one or more processors as described above, in conjunction with suitable software and/or firmware.


Claims

1. A method comprising:

receiving, by a supervisor component (128A) executing at a computing device (100), a request to execute an application;

determining, by the supervisor component (128A), whether an application container (102A) for maintaining installable sub-packages of the application is allocated in memory of the computing device (100), wherein each installable sub-package (104A) of the application includes a set of executable components (108) which provide a discrete set of functionality of the application;

responsive to determining that the application container (102A) is allocated in the memory of the computing device (100), determining, by a container runtime (124) of the application container (102A), one or more dependencies of the application, wherein the one or more dependencies include one or more required dependencies and one or more optional dependencies, and wherein the one or more required dependencies include at least one installable sub-package (104A) of the application,

wherein determining the one or more dependencies of the application comprises:
parsing, by the container runtime, metadata of the application, wherein the metadata specifies that the at least one installable sub-package of the application requires dependent data;

initiating, by the container runtime (124), retrieval of the one or more required dependencies, wherein retrieval of the one or more required dependencies comprises retrieval, in parallel, of the at least one installable sub-package of the application and the dependent data;

installing, at the computing device, the at least one installable sub-package of the application from among the retrieved one or more required dependencies;

initiating, by the container runtime (124), retrieval of the one or more optional dependencies; and

responsive to receiving all of the one or more required dependencies and while at least one of the one or more optional dependencies has not yet been received by the container runtime (124), providing the dependent data for execution of the application and executing, by the computing device (100), the application.


 
2. The method of claim 1, wherein executing the application comprises:

outputting, by the computing device, for display, a graphical user interface of the application including a placeholder graphical element for the at least one of the one or more optional dependencies not yet received by the container runtime; and

responsive to receiving the at least one of the one or more optional dependencies, outputting, by the computing device, for display, information associated with the at least one optional dependency in place of the placeholder element.


 
3. The method of any combination of claims 1 and 2, further comprising: determining, by the computing device and based on data included in the one or more optional dependencies, one or more installable sub-packages of the application configured to use the data included in the one or more optional dependencies; and
prefetching, by the application container, at least one of the one or more installable sub-packages of the application configured to use the data.
 
4. The method of claim 1, further comprising, by the container runtime (124):

predicting additional sub-packages likely to be needed to provide certain functionality of the application;

proactively retrieving the additional sub-packages;

identifying any data dependencies of the additional sub-packages; and

pre-fetching the data dependencies of the additional sub-packages.


 
5. The method of any combination of claims 1-3, wherein determining the one or more dependencies of the application comprises:
retrieving, from a remote server, dependency information derived from heuristic analysis of the application.
 
6. The method of any combination of claims 1-5, wherein the container runtime retrieves the one or more required dependencies from a first data source and the one or more optional dependencies from a second data source different from the first data source.
 
7. The method of any combination of claims 1-6, wherein the one or more required dependencies include one or more of a set of the installable sub-packages of the application or location data, and wherein the one or more optional dependencies include one or more of application data, image data, user data, location data, or third-party data.
 
8. The method of any combination of claims 1-7, wherein the supervisor component is distinct from an operating system executing at the computing device, and wherein the application container includes a set of common functionality for a plurality of different applications.
 
9. A computing device (100) comprising:

one or more storage components (248) that store a supervisor component (128A); and

one or more processors (240) that execute the supervisor component (128A) to:

receive a request to execute an application; and

determine whether an application container (102A) for maintaining installable sub-packages (104A) of the application is allocated in the one or more storage components (248), wherein each installable sub-package (104A) of the application includes a set of executable components (108) which provide a discrete set of functionality of the application;

wherein, responsive to the supervisor component (128A) determining that the application container (102A) is allocated in the one or more storage components (248), a container runtime (124) of the application container (102A) is executable by the one or more processors (240) to:

determine one or more dependencies of the application, wherein the one or more dependencies include one or more required dependencies and one or more optional dependencies, wherein the one or more required dependencies include at least one installable sub-package (104A) of the application,

wherein determining the one or more dependencies of the application comprises:
parsing, by the container runtime, metadata of the application, wherein the metadata specifies that the at least one installable sub-package of the application requires dependent data;

initiate retrieval of the one or more required dependencies, wherein retrieval of the one or more required dependencies comprises retrieval, in parallel, of the at least one installable sub-package of the application and the dependent data;

install, at the computing device, the at least one installable sub-package of the application from among the retrieved one or more required dependencies

initiate retrieval of the one or more optional dependencies; and

responsive to receiving all of the one or more required dependencies and while at least one of the one or more optional dependencies has not yet been received by the container runtime (124), provide the dependent data for execution of the application and execute the application.


 
10. The computing device of claim 9, wherein the container runtime is further executable by the one or more processors to:

output, for display, a graphical user interface of the application including a placeholder graphical element for the at least one of the one or more optional dependencies not yet received by the container runtime; and

responsive to receiving the at least one of the one or more optional dependencies, output, for display, information associated with the at least one optional dependency in place of the placeholder element.


 
11. The computing device of any combination of claims 9-10, wherein the container runtime is executable by the one or more processor to determine the one or more optional dependencies by at least being executable to retrieve, from a remote server, dependency information derived from heuristic analysis of the application.
 
12. A computer-readable storage medium encoded with instructions that, when executed, cause one or more processors of a computing device to perform any combination of the methods of claims 1-8.
 


Ansprüche

1. Verfahren, umfassend:

Empfangen einer Anfrage zum Ausführen einer Anwendung durch eine Supervisorkomponente (128A), die auf einem Computergerät (100) ausgeführt wird;

Ermitteln, durch die Supervisorkomponente (128A), ob ein Anwendungscontainer (102A) zum Verwalten installierbarer Unterpakete der Anwendung im Speicher des Computergeräts (100) zugeteilt ist, wobei jedes installierbare Unterpaket (104A) der Anwendung einen Satz von ausführbaren Komponenten (108) beinhaltet, die einen diskreten Satz an Funktionalität der Anwendung bereitstellen;

in Reaktion auf das Ermitteln, dass der Anwendungscontainer (102A) in dem Speicher des Computergeräts (100) zugeteilt ist, Ermitteln einer oder mehrerer Abhängigkeiten der Anwendung durch eine Containerlaufzeit (124) des Anwendungscontainers (102A), wobei die eine oder die mehreren Abhängigkeiten eine oder mehrere erforderliche Abhängigkeiten und eine oder mehrere optionale Abhängigkeiten beinhalten, und wobei die eine oder die mehreren erforderlichen Abhängigkeiten zumindest ein installierbares Unterpaket (104A) der Anwendung beinhalten,

wobei das Ermitteln der einen oder der mehreren Abhängigkeiten der Anwendung Folgendes umfasst:
Parsen, durch die Containerlaufzeit, von Metadaten der Anwendung, wobei die Metadaten angeben, dass das zumindest eine installierbare Unterpaket der Anwendung abhängige Daten erfordert;

Initiieren, durch die Containerlaufzeit (124), eines Abrufens der einen oder der mehreren erforderlichen Abhängigkeiten, wobei das Abrufen der einen oder der mehreren erforderlichen Abhängigkeiten parallel dazu ein Abrufen des zumindest einen installierbaren Unterpakets der Anwendung und der abhängigen Daten umfasst;

Installieren, auf dem Computergerät, des zumindest einen installierbaren Unterpakets der Anwendung aus der einen oder den mehreren abgerufenen erforderlichen Abhängigkeiten;

Initiieren, durch die Containerlaufzeit (124), des Abrufens der einen oder der mehreren optionalen Abhängigkeiten; und

in Reaktion auf das Empfangen aller von der einen oder den mehreren erforderlichen Abhängigkeiten und während zumindest eine von der einen oder den mehreren optionalen Abhängigkeiten noch nicht durch die Containerlaufzeit (124) empfangen wurde, Bereitstellen der abhängigen Daten zur Ausführung der Anwendung und Ausführen der Anwendung durch das Computergerät (100).


 
2. Verfahren nach Anspruch 1, wobei das Ausführen der Anwendung Folgendes umfasst:

Ausgeben einer grafischen Benutzeroberfläche der Anwendung, die ein grafisches Platzhalterelement für die zumindest eine von der einen oder den mehreren optionalen Abhängigkeiten, die noch nicht durch die Containerlaufzeit empfangen wurden, beinhaltet, durch das Computergerät zur Anzeige; und

in Reaktion auf das Empfangen der zumindest einen von der einen oder den mehreren optionalen Abhängigkeiten, Ausgeben von Informationen im Zusammenhang mit der zumindest einen optionalen Abhängigkeit anstelle des Platzhalterelements durch das Computergerät zur Anzeige.


 
3. Verfahren nach einer beliebigen Kombination der Ansprüche 1 und 2, das ferner Folgendes umfasst: Ermitteln, durch das Computergerät und basierend auf Daten, die in der einen oder den mehreren optionalen Abhängigkeiten enthalten sind, eines oder mehrerer installierbarer Unterpakete der Anwendung, die konfiguriert sind, die Daten zu verwenden, die in der einen oder den mehreren optionalen Abhängigkeiten enthalten sind; und
Vorabrufen zumindest eines von dem einen oder den mehreren installierbaren Unterpaketen der Anwendung, die konfiguriert sind, die Daten zu verwenden, durch den Anwendungscontainer.
 
4. Verfahren nach Anspruch 1, ferner umfassend, durch die Containerlaufzeit (124):

Vorhersagen zusätzlicher Unterpakete, die voraussichtlich erfordert werden, um eine bestimmte Funktionalität der Anwendung bereitzustellen;

proaktives Abrufen der zusätzlichen Unterpakete;

Identifizieren aller Datenabhängigkeiten der zusätzlichen Unterpakete; und

Vorabrufen der Datenabhängigkeiten der zusätzlichen Unterpakete.


 
5. Verfahren nach einer beliebigen Kombination der Ansprüche 1-3, wobei das Ermitteln der einen oder der mehreren Abhängigkeiten der Anwendung Folgendes umfasst:
Abrufen von Abhängigkeitsinformationen, die anhand heuristischer Analyse der Anwendung abgeleitet werden, von einem entfernten Server.
 
6. Verfahren nach einer beliebigen Kombination der Ansprüche 1-5, wobei die Containerlaufzeit die eine oder die mehreren erforderlichen Abhängigkeiten aus einer ersten Datenquelle und die eine oder die mehreren optionalen Abhängigkeiten aus einer zweiten Datenquelle, die sich von der ersten Datenquelle unterscheidet, abruft.
 
7. Verfahren nach einer beliebigen Kombination der Ansprüche 1-6, wobei die eine oder die mehreren erforderlichen Abhängigkeiten eines oder mehrere von einem Satz der installierbaren Unterpakete der Anwendung oder Standortdaten beinhalten, und wobei die eine oder die mehreren optionalen Abhängigkeiten eines oder mehrere von Anwendungsdaten, Bilddaten, Benutzerdaten, Standortdaten oder Drittanbieterdaten beinhalten.
 
8. Verfahren nach einer beliebigen Kombination der Ansprüche 1-7, wobei sich die Supervisorkomponente von einem Betriebssystem unterscheidet, das auf dem Computergerät ausgeführt wird, und wobei der Anwendungscontainer einen Satz von gemeinsamer Funktionalität für eine Vielzahl von verschiedenen Anwendungen beinhaltet.
 
9. Computergerät (100), umfassend:

eine oder mehrere Speicherkomponenten (248), die eine Supervisorkomponente (128A) speichern; und

einen oder mehrere Prozessoren (240), die die Supervisorkomponente (128A) ausführen, um:

eine Anforderung zum Ausführen einer Anwendung zu empfangen; und

zu ermitteln, ob ein Anwendungscontainer (102A) zum Verwalten installierbarer Unterpakete (104A) der Anwendung in der einen oder den mehreren Speicherkomponenten (248) zugeteilt ist, wobei jedes installierbare Unterpaket (104A) der Anwendung einen Satz von ausführbaren Komponenten (108) beinhaltet, die einen diskreten Satz an Funktionalität der Anwendung bereitstellen;

wobei, in Reaktion darauf, dass die Supervisorkomponente (128A) ermittelt, dass der Anwendungscontainer (102A) in der einen oder den mehreren Speicherkomponenten (248) zugeteilt ist, eine Containerlaufzeit (124) des Anwendungscontainers (102A) durch den einen oder die mehreren Prozessoren (240) ausgeführt werden kann, um:

eine oder mehrere Abhängigkeiten der Anwendung zu ermitteln, wobei die eine oder die mehreren Abhängigkeiten eine oder mehrere erforderliche Abhängigkeiten und eine oder mehrere optionale Abhängigkeiten beinhalten, wobei die eine oder die mehreren erforderlichen Abhängigkeiten zumindest ein installierbares Unterpaket (104A) der Anwendung beinhalten,

wobei das Ermitteln der einen oder der mehreren Abhängigkeiten der Anwendung Folgendes umfasst:
Parsen, durch die Containerlaufzeit, von Metadaten der Anwendung, wobei die Metadaten angeben, dass das zumindest eine installierbare Unterpaket der Anwendung abhängige Daten erfordert;

ein Abrufen der einen oder der mehreren erforderlichen Abhängigkeiten zu initiieren, wobei das Abrufen der einen oder der mehreren erforderlichen Abhängigkeiten parallel dazu ein Abrufen des zumindest einen installierbaren Unterpakets der Anwendung und der abhängigen Daten umfasst;

auf dem Computergerät das zumindest eine installierbare Unterpaket der Anwendung aus der einen oder den mehreren abgerufenen erforderlichen Abhängigkeiten zu installieren;

ein Abrufen der einen oder der mehreren optionalen Abhängigkeiten zu initiieren; und

in Reaktion auf ein Empfangen aller von der einen oder den mehreren erforderlichen Abhängigkeiten und während zumindest eine von der einen oder den mehreren optionalen Abhängigkeiten noch nicht durch die Containerlaufzeit (124) empfangen wurde, die abhängigen Daten zur Ausführung der Anwendung bereitzustellen und die Anwendung auszuführen.


 
10. Computergerät nach Anspruch 9, wobei ferner die Containerlaufzeit durch den einen oder die mehreren Prozessoren ausgeführt werden kann, um:

eine grafische Benutzeroberfläche der Anwendung, die ein grafisches Platzhalterelement für die zumindest eine von der einen oder den mehreren optionalen Abhängigkeiten, die noch nicht durch die Containerlaufzeit empfangen wurden, beinhaltet, zur Anzeige auszugeben; und

in Reaktion auf das Empfangen der zumindest einen von der einen oder den mehreren optionalen Abhängigkeiten, Informationen im Zusammenhang mit der zumindest einen optionalen Abhängigkeit anstelle des Platzhalterelements zur Anzeige auszugeben.


 
11. Computergerät nach einer beliebigen Kombination der Ansprüche 9-10, wobei die Containerlaufzeit durch den einen oder die mehreren Prozessoren ausgeführt werden kann, um die eine oder die mehreren optionalen Abhängigkeiten zu ermitteln, indem sie zumindest so ausgeführt werden kann, dass sie von einem entfernten Server Abhängigkeitsinformationen abruft, die anhand einer heuristischen Analyse der Anwendung abgeleitet werden.
 
12. Computerlesbares Speichermedium, auf dem Anweisungen codiert sind, die bei Ausführung einen oder mehrere Prozessoren eines Computergeräts veranlassen, eine beliebige Kombination der Verfahren nach Ansprüchen 1-8 durchzuführen.
 


Revendications

1. Procédé comprenant :

la réception, par un composant superviseur (128A) s'exécutant au niveau d'un dispositif informatique (100), d'une demande d'exécution d'une application ;

la détermination, par le composant superviseur (128A), du fait qu'un conteneur d'application (102A) destiné à conserver des sous-paquets installables de l'application est attribué ou non dans une mémoire du dispositif informatique (100), dans lequel chaque sous-paquet installable (104A) de l'application comporte un ensemble de composants exécutables (108) qui fournissent un ensemble discret de fonctionnalités de l'application ;

en réponse à la détermination du fait que le conteneur d'application (102A) est attribué dans la mémoire du dispositif informatique (100), la détermination, par une exécution de conteneur (124) du conteneur d'application (102A), d'une ou de plusieurs dépendances de l'application, dans lequel les une ou plusieurs dépendances comportent une ou plusieurs dépendances requises et une ou plusieurs dépendances facultatives, et dans lequel les une ou plusieurs dépendances requises comportent au moins un sous-paquet installable (104A) de l'application,

dans lequel la détermination des une ou plusieurs dépendances de l'application comprend :
l'analyse, par l'exécution de conteneur, de métadonnées de l'application, dans lequel les métadonnées spécifient que l'au moins un sous-paquet installable de l'application requiert des données dépendantes ;

le lancement, par l'exécution de conteneur (124), de la récupération des une ou plusieurs dépendances requises, dans lequel la récupération des une ou plusieurs dépendances requises comprend la récupération, en parallèle, de l'au moins un sous-paquet installable de l'application et des données dépendantes ;

l'installation, au niveau du dispositif informatique, de l'au moins un sous-paquet installable de l'application parmi les une ou plusieurs dépendances requises récupérées ;

le lancement, par l'exécution de conteneur (124), de la récupération des une ou plusieurs dépendances facultatives ; et

en réponse à la réception de l'ensemble des une ou plusieurs dépendances requises et tandis qu'au moins l'une des une ou plusieurs dépendances facultatives n'a pas encore été reçue par l'exécution de conteneur (124), la fourniture des données dépendantes pour une exécution de l'application et l'exécution, par le dispositif informatique (100), de l'application.


 
2. Procédé selon la revendication 1, dans lequel l'exécution de l'application comprend :

la fourniture en sortie, par le dispositif informatique, pour un affichage, d'une interface utilisateur graphique de l'application comportant un élément graphique d'emplacement réservé pour l'au moins une des une ou plusieurs dépendances facultatives non encore reçues par l'exécution de conteneur ; et

en réponse à la réception de l'au moins une des une ou plusieurs dépendances facultatives, la fourniture en sortie, par le dispositif informatique, pour un affichage, d'informations associées à l'au moins une dépendance facultative à la place de l'élément d'emplacement réservé.


 
3. Procédé selon une combinaison quelconque des revendications 1 et 2, comprenant en outre : la détermination, par le dispositif informatique et sur la base des données incluses dans les une ou plusieurs dépendances facultatives, d'un ou de plusieurs sous-paquets installables de l'application configurés pour utiliser les données incluses dans les une ou plusieurs dépendances facultatives ; et
la pré-extraction, par le conteneur d'application, d'au moins l'un des un ou plusieurs sous-paquets installables de l'application configuré pour utiliser les données.
 
4. Procédé selon la revendication 1, comprenant en outre, par l'exécution de conteneur (124) :

la prédiction de sous-paquets supplémentaires susceptibles d'être nécessaires pour fournir certaines fonctionnalités de l'application ;

la récupération proactive des sous-paquets supplémentaires ;

l'identification de toute dépendance de données des sous-paquets supplémentaires ; et

la pré-extraction des dépendances de données des sous-paquets supplémentaires.


 
5. Procédé selon une combinaison quelconque des revendications 1 à 3, dans lequel la détermination des une ou plusieurs dépendances de l'application comprend :
la récupération, à partir d'un serveur distant, d'informations de dépendance dérivées d'une analyse heuristique de l'application.
 
6. Procédé selon une combinaison quelconque des revendications 1 à 5, dans lequel l'exécution de conteneur récupère les une ou plusieurs dépendances requises à partir d'une première source de données et les une ou plusieurs dépendances facultatives à partir d'une deuxième source de données différente de la première source de données.
 
7. Procédé selon une combinaison quelconque des revendications 1 à 6, dans lequel les une ou plusieurs dépendances requises comportent un ou plusieurs d'un ensemble des sous-paquets installables des données d'application ou de localisation, et dans lequel les une ou plusieurs dépendances facultatives comportent unes ou plusieurs parmi des données d'application, des données d'image, des données d'utilisateur, des données de localisation ou des données de tiers.
 
8. Procédé selon une combinaison quelconque des revendications 1 à 7, dans lequel le composant superviseur est distinct d'un système d'exploitation s'exécutant au niveau du dispositif informatique, et dans lequel le conteneur d'application comprend un ensemble de fonctionnalités communes pour une pluralité d'applications différentes.
 
9. Dispositif informatique (100), comprenant :

un ou plusieurs composants de stockage (248) qui stockent un composant superviseur (128A) ; et

un ou plusieurs processeurs (240) qui exécutent le composant superviseur (128A) pour :

recevoir une demande d'exécution d'une application ; et

déterminer si un conteneur d'application (102A) destiné à conserver des sous-paquets installables (104A) de l'application est attribué dans les un ou plusieurs composants de stockage (248), dans lequel chaque sous-paquet installable (104A) de l'application comporte un ensemble de composants exécutables (108) qui fournissent un ensemble discret de fonctionnalités de l'application ;

dans lequel, en réponse à la détermination par le composant superviseur (128A) du fait que le conteneur d'application (102A) est attribué dans les un ou plusieurs composants de stockage (248), une d'exécution de conteneur (124) du conteneur d'application (102A) est exécutable par les un ou plusieurs processeurs (240) pour :

déterminer une ou plusieurs dépendances de l'application, dans lequel les une ou plusieurs dépendances comportent une ou plusieurs dépendances requises et une ou plusieurs dépendances facultatives, dans lequel les une ou plusieurs dépendances requises comportent au moins un sous-paquet installable (104A) de l'application,

dans lequel la détermination des une ou plusieurs dépendances de l'application comprend :
l'analyse, par l'exécution de conteneur, de métadonnées de l'application, dans lequel les métadonnées spécifient que l'au moins un sous-paquet installable de l'application requiert des données dépendantes ;

lancer la récupération des une ou plusieurs dépendances requises, dans lequel la récupération des une ou plusieurs dépendances requises comprend la récupération, en parallèle, de l'au moins un sous-paquet installable de l'application et

des données dépendantes ;

installer, au niveau du dispositif informatique, l'au moins un sous-paquet installable de l'application parmi les une ou plusieurs dépendances requises récupérées

lancer la récupération des une ou plusieurs dépendances facultatives ; et

en réponse à la réception de l'ensemble des une ou plusieurs dépendances requises et tandis qu'au moins l'une des une ou plusieurs dépendances facultatives n'a pas encore été reçue par l'exécution de conteneur (124), fournir les données dépendantes pour une exécution de l'application et l'exécution de l'application.


 
10. Dispositif informatique selon la revendication 9, dans lequel l'exécution de conteneur est en outre exécutable par un ou plusieurs processeurs pour :

fournir en sortie, pour un affichage, une interface utilisateur graphique de l'application comportant un élément graphique d'emplacement réservé pour l'au moins une des une ou plusieurs dépendances facultatives non encore reçues par l'exécution de conteneur ; et

en réponse à la réception de l'au moins une des une ou plusieurs dépendances facultatives, fournir en sortie, pour un affichage, des informations associées à l'au moins une dépendance facultative à la place de l'élément d'emplacement réservé.


 
11. Dispositif informatique selon une combinaison quelconque des revendications 9 et 10, dans lequel l'exécution de conteneur est exécutable par les un ou plusieurs processeurs pour déterminer les une ou plusieurs dépendances facultatives en étant au moins exécutable pour récupérer, à partir d'un serveur distant, des informations de dépendance dérivées d'une analyse heuristique de l'application.
 
12. Support de stockage lisible par ordinateur sur lequel sont codées des instructions qui, lorsqu'elles sont exécutées, amènent un ou plusieurs processeurs d'un dispositif informatique à réaliser une combinaison quelconque des procédés des revendications 1 à 8.
 




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