Source: https://patents.google.com/patent/US20150074783A1/en
Timestamp: 2018-05-23 15:30:39
Document Index: 587537795

Matched Legal Cases: ['art 600', 'art 600', 'art 600', 'art 600', 'art 600', 'art 700', 'art 700', 'art 700', 'art 700', 'art 700', 'art 800', 'art 800', 'art 800', 'art 800', 'art 800', 'art 800']

US20150074783A1 - Single sign on for applications - Google Patents
Single sign on for applications Download PDF
US20150074783A1
US20150074783A1 US14485665 US201414485665A US2015074783A1 US 20150074783 A1 US20150074783 A1 US 20150074783A1 US 14485665 US14485665 US 14485665 US 201414485665 A US201414485665 A US 201414485665A US 2015074783 A1 US2015074783 A1 US 2015074783A1
US14485665
US9825933B2 (en )
Matthew P. Clothier
Sean P. Corbett
Systems and method for providing single sign on access to an application executing at a client device. An API request is intercepted at the client device for signing on a user of the client device for accessing the application. The API request is sent to a remote system where user credentials are determined based on the intercepted API request. The user credentials are returned to the client device where they are used to agnostically sign on the user for accessing the application.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 61/877,212, filed on Sep. 12, 2013, entitled “SINGLE SIGN ON FOR LOCALLY INSTALLED APPLICATIONS,” which is incorporated herein by reference.
An area of ongoing research and development is providing single sign on access to applications for users. Traditionally, single sign on access has been developed for web-based applications executed at a client device and not for applications residing in their entirety or partially in their entirety on a client device. There therefore exists the need for providing single sign on access for applications residing in their entirety or partially in their entirety on a client device
In various implementations, single sign on access to an application executing at a client device is provided. In various implementations, an API request is intercepted at the client device for signing on a user of the client device for accessing the application. Further, in various implementations, the API request is sent to a remote system where user credentials are determined based on the intercepted API request. In various implementations, the user credentials are returned to the client device where they are used to agnostically sign on the user for accessing the application.
FIG. 1 depicts a diagram of an example of a system for providing single sign on access to applications executed on a client device using intercepted API requests for the applications.
FIG. 2 depicts a diagram of an example of a system for providing single sign on access to an application virtualized on a client device using intercepted API requests for the applications.
FIG. 3 depicts a diagram of an example of an API based single sign on application execution system implemented on a client device.
FIG. 4 depicts a diagram of an example of a system for providing user credentials remotely to a client device for single sign on access for a user to applications executing on a client device based on APIs.
FIG. 5 depicts a diagram of an example of a system for performing single sign on of a user to access applications executed on a client device based on user credentials received remotely.
FIG. 6 depicts a flowchart of an example of a method for providing single sign on access to an application executing at a client device using an intercepted API request made by the application.
FIG. 7 depicts a flowchart of an example of a method for determining user credentials for single sign on access to an application executing on a client device using an intercepted API request.
FIG. 8 depicts a flowchart of an example of a method for agnostically signing on a user for access to an application executing on a client device based on user credentials received from a remote system.
FIG. 1 depicts a diagram 100 of an example of a system for providing single sign on access to applications executed on a client device using intercepted API requests for the applications. The system of the example of FIG. 1 includes a computer-readable medium 102, a client device 104, a user login credentials datastore 106, and an API based application single sign on access system 108.
The client device 102, the user long credentials datastore 106, and the API based application single sign on access system 108 are coupled to each other through the computer-readable medium 102. As used in this paper, a “computer-readable medium” is intended to include all mediums that are statutory (e.g., in the United States, under 35 U.S.C. 101), and to specifically exclude all mediums that are non-statutory in nature to the extent that the exclusion is necessary for a claim that includes the computer-readable medium to be valid. Known statutory computer-readable mediums include hardware (e.g., registers, random access memory (RAM), non-volatile (NV) storage, to name a few), but may or may not be limited to hardware.
The computer-readable medium 102, the client device 104, the API based application single sign on access system 108, and other applicable systems, or devices described in this paper can be implemented as a computer system, a plurality of computer systems, or parts of a computer system or a plurality of computer systems. A computer system, as used in this paper, is intended to be construed broadly. In general, a computer system will include a processor, memory, non-volatile storage, and an interface. A typical computer system will usually include at least a processor, memory, and a device (e.g., a bus) coupling the memory to the processor. The processor can be, for example, a general-purpose central processing unit (CPU), such as a microprocessor, or a special-purpose processor, such as a microcontroller.
In a specific implementation, the client device 104 functions according to an applicable device for executing an application. In executing an application, the client device can send and receive data. Depending upon implementation-specific or other considerations, an application executed at the client device 104 can reside only partially on the client device, thereby leading to virtualization of the application on the client device 104. Further depending upon implementation-specific or other considerations, the client device 104 can be a thin client or an ultra-thin client.
In a specific implementation, the user login credentials datastore 106 functions to store user credentials of a user of the client device 104. User credentials stored in the user login credentials datastore 106 can be received from the client device 104. Depending upon implementation-specific or other considerations, user credentials can be received from the client device at the beginning of every session a user has with the client device 104, or during a previous session the user had with the client device 104. For example, if a user interacted with applications on the client device 104 a week ago, user credentials of the user could have been received when the user interacted with applications on the client device 104 a week ago. Depending upon implementation-specific or other considerations, the user login credentials datastore 106 can store application data for applications executing on the client device 104. For example, the user login credentials datastore can store a configuration of an application executing on the client device 104.
In a specific implementation, the API based application single sign on access system 108 functions to provide user credentials for single sign on access of a user in accessing applications at the client device based on an intercepted API request at the client device 104. Specifically, the API based application single sign on access system 108 can provide user credentials based on an intercepted API request made by an application for signing in a user for access to the application. Depending upon implementation-specific or other considerations, an application which the API based application single sign on access system 108 providers user credentials for single sign on access can be either an application that resides in its entirety on the client device 104 or an application that is virtualized at the client device 104.
In a specific implementation, the API based application single sign on access system 108 is remote from the client device 104 and functions to received data from the client device 104. Depending upon implementation-specific or other considerations, the API based application single sign on access system 108 can receive application data for applications executing on the client device from client device. Additionally, the API based application single sign on access system 108 can received intercepted API requests for signing on a user to access applications executing on the client device from the client device.
In a specific implementation, the API based application single sign on access system 108 functions to determine credentials necessary to sign on a user for accessing an application executing on the client device. Credentials necessary to sign on a user for accessing an application executing on the client device can be specific to applications. Depending upon implementation-specific or other considerations, the API based application single sign on access system 108 can determine credentials necessary to sign a user on for accessing an application based on application data for the application. Further depending upon implementation-specific or other considerations, the API based application single sign on access system 108 can determine credentials necessary to sign a user on for accessing an application based on an intercepted API request. For example, if an intercepted API request for an application indicates that a user name and a password are needed, then the API based application single sign on access system 108 can determine that a user name and a password are needed to sign on a user for accessing the application.
In a specific implementation, the API based application single sign on access system 108 functions to determine user credentials for signing on a user to access an application. The API based application single sign on access system 108 can determine user credentials for signing on a user based on determined credentials necessary to sign on a user for accessing an application. The API based application single sign on access system 108 can determine user credentials for signing on a user to access an application from user credentials stored in the user login credentials datastore 106. For example if the API based application single sign on access system 108 determines that a user name and a password are necessary to sign on a user for accessing an application, the API based application single sign on access system 108 can determine a user name and a password of a user from the user credentials stored in the user login credentials datastore 106.
In a specific implementation, the API based application single sign on access system 108 determines a configuration of an application for execution on the client device 104. For example, the API based application single sign on access system 108 can determine settings for executing an application at the client device. The API based application single sign on access system 108 can determine a configuration for an application from application data for the application. For example if application data specifies a specific configuration of the application for a user, then the API based application single sign on access system 108 can determine the specific configuration of the application. Depending upon implementation-specific or other considerations, the API based application single sign on access system 108 can determine a configuration of an application that is either or both specific to the client device 104 which the application is executing on and a user of the client device 104 accessing the application.
In a specific implementation, the API based application single sign on access system 108 functions to transmit data to the client device 104. The API based application single sign on access system 108 can transmit determined user credentials for signing on a user to access an application executing at the client device 104. Depending upon implementation-specific or other considerations, the API based application single sign on access system 108 can transmit a determined configuration of an application executing on the client device 104.
In the example system shown in FIG. 1, the client device 104 includes an API based single sign on application execution system 110. In a specific implementation, the API based single sign on application execution system 110 functions to provide single sign on access to applications executing at the client device 104 based on intercepted API requests. The API based single sign on application execution system 110 can provider single sign on access to application executing at the client device 104 from user credentials for a user of the client device 104, received from the API based application single sign on access system 108.
In a specific implementation, the API based single sign on application execution system 110 functions to intercept API requests of applications executing at the client device 104. the API based single sign on application execution system 110 can be configured to intercept API requests made by an application for singing on a user to use the application. Depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 or applicable portions of the API based single sign on application execution system 110 can be implemented through additional code added to an application to cause the API requests to be intercepted. Additional code for implementing the API based single sign on application execution system 110 or applicable portions of the API based single sign on application execution system 110 at the client device 104 can be dynamically injected at runtime of the application. Further depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 or applicable portions of the API based single sign on application execution system 110 can be implemented as a library in an application executing at the client device. Depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 can be configured to instruct an operating system of the client device 104 to hide or otherwise not display a login form window of an application, for which the API based single sign on application execution system 110 intercepts an API request.
In a specific implementation, the API based single sign on application execution system 110 can inspect API requests made by an application and determine whether to intercept the API requests. For example, the API based single sign on application execution system 110 can inspect API requests to determine whether they are used for signing on a user to use an application, and appropriately intercept the API requests if it determined that the API requests are for signing on the user. Depending upon implementation-specific or other considerations, in intercepting API requests of an application, the API based single sign on application execution system 110 or an applicable portion of the API based single sign on application execution system 110 can be implemented in a layer between the application executing in an application layer and an operating system executing in an operating system layer of the client device. Further depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 or an applicable portion of the API based single sign on application execution system 110 can be implemented as part of an operating system layer in which an operating system is executed on the client device or a hypervisor layer on the client device.
In a specific implementation, the API based single sign on application execution system 110 functions to identify application data of an application executing on the client device. Application data for an application can include an identification of the application. The API based single sign on application execution system 110 can determined an identification of the application using an intercepted API request. Depending upon implementation-specific or other considerations, application data for an application can include a configuration of the application on the client device. For example, if the application is configured uniquely for execution on a client device, the API based single sign on application execution system 110 can identify the configuration of the application. The API based single sign on application execution system 110 can determine a configuration of an application executing at a client device, either or both from a current execution of the application on the client device or a previous execution of the application on the client device.
In a specific implementation, the API based single sign on application execution system 110 functions to send data to the API based application single sign on access system 108. The API based single sign on application execution system 110 can send API requests for signing on a user to access an application intercepted by the API based single sign on application execution system 110. The API based single sign on application execution system 110 can send user credentials of a user of the client device 104 for storing in the user login credentials datastore 106. Additionally, the API based single sign on application execution system 110 can send application data for an application executing at a client device 104.
In a specific implementation, the API based single sign on application execution system 110 functions to communicate with the API based application single sign on access system 108. In communicating with the API based application single sign on access system 108, the API based single sign on application execution system 110 can received determined user credentials used in signing on a user for accessing an application. Depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 can receive a determined configuration for an application executing at the client device.
In a specific implementation, the API based single sign on application execution system 110 functions to sign on a user for accessing an application executing on the client device. In singing on a user, the user is agnostic as to that they are being signed on to an application. Specifically, the user does not view a login page and does not need to input their credentials for signing on to the application, after the user has initially input their user credentials, thereby accomplishing single sign on access. In singing on a user, the API based single sign on application execution system 110 can populate field in a login page and activate a submit button for achieving sign on to an application. Depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 can generate an API response based on received user credentials to cause a user to be signed in for accessing an application. Further depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 can identify objects in a login page that need to be input in order to sign on a user and send an API response to the application to cause these fields to be populated. Depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 can identify an object that is used to submit data populated in determined fields for sign on a user, and send an API response to cause the object to be activated after the fields have been populated.
In a specific implementation, the API based single sign on application execution system 110 functions to manipulate an application according to a determined configuration of the application. Depending upon implementation-specific or other considerations, a configuration of an application can be determined from application data for the application. Further depending upon implementation-specific or other considerations, the API based single sign on application execution system 110 can manipulate an application according to a configuration of an application specific to either or both a user or the client device. In manipulating the application, the API based single sign on application execution system 110 can set up or change setting of an application based on a determined configuration of the application.
In an example of operation of the example system shown in FIG. 1, the API based single sign on application execution system 110 intercepts an API request, from an application executing at the client device 104, for signing on a user to access the application. In the example of operation of the example system shown in FIG. 1, the API based application single sign on access system 108 determines user credentials used for signing on the user to access the application based on the intercepted API request. Further in the example, of operation of the example system shown in FIG. 1, the API based single sign on application execution system 110 uses the user credentials determined by the API based application single sign on access system 108 to agnostically sign on a user of the client device 104 for accessing the application, resulting in single sign on into the application.
FIG. 2 depicts a diagram 200 of an example of a system for providing single sign on access to an application virtualized on a client device using intercepted API requests for the applications. The example system shown in FIG. 2 includes a computer-readable medium 202, a client device 204, an application server 206, a user login credentials datastore 208, and an API based application single sign on access system 210. In the example system shown in FIG. 2, the client device 204, the application server 206, the user login credentials datastore 208, and the API based application single sign on access system 210 are coupled to each other through the computer-readable medium 202.
In a specific implementation, the client device 204 functions according to an applicable device for executing an application virtualized on the client device. In executing an application virtualized on the client device 204, the client device 204 can send and receive data. For example, the client device 204 can receive portions of an application as they are needed to continue execution of the application. Further depending upon implementation-specific or other considerations, the client device 204 can be a thin client or an ultra-thin client.
In a specific implementation, the application server 206 functions to provider portions of an application virtualized on the client device 204 to the client device 204. Depending upon implementation-specific or other considerations, the application server 206 can provide portions of the application to the client device 204 in response to requests for the portions of the application received from the client device 204. Further depending upon implementation-specific or other considerations, the application server 206 can predict portions of an application that will be needed by the client device and send the predicted portions of the application to the client device 204.
In a specific implementation, the user login credentials datastore 208 functions to store user credentials of a user of the client device 204. User credentials stored in the user login credentials datastore 208 can be received from the client device 204. Depending upon implementation-specific or other considerations, user credentials can be received from the client device at the beginning of every session a user has with the client device 204, or during a previous session the user had with the client device 204. Depending upon implementation-specific or other considerations, the user login credentials datastore 208 can store application data for applications executing on the client device 208. For example, the user login credentials datastore can store a configuration of an application executing on the client device 204.
In a specific implementation, the API based application single sign on access system 210 functions according to an applicable system for returning user credentials based on an intercepted API request, such as the API based application single sign on access systems described in this paper. The API based application single sign on access system 210 can determined credentials necessary to sign a user onto accessing an application executing at a client device using an intercepted API request to sign on the user. The API based application single sign on access system 210 can use determined credentials necessary to sign a user onto accessing an application to determined specific user credentials for signing a specific user onto the application. The API based application single sign on access system 210 can return determined user credentials to the client device 204. Depending upon implementation, specific or other considerations, the API based application single sign on access system 210 can determine a configuration of an application and send the configuration of the application to the client device 204.
In the example system shown in FIG. 2, the client device 204 includes an API based single sign on application execution system 212. In a specific implementation, the API based single sign on application execution system 212 functions according to an applicable system for providing single sign on access to applications using remote received user credentials, such as the API based single sign on application execution systems described in this paper. The API based single sign on application execution system 212 can be configured to intercept an API request for signing a user on to an application. The API based single sign on application execution system 212 can also be configured to sign on a user for accessing an application using user credentials received from a remote source in response to an intercepted API request. Depending upon implementation-specific or other considerations, the API based single sign on application execution system 212 can manipulate an application to execute according to a determined configuration for the application.
FIG. 3 depicts a diagram 300 of an example of an API based single sign on application execution system implemented on a client device. The example system shown in FIG. 3 includes a computer-readable medium 302, a user credentials input engine 304, an API request interception engine 306, a target application identification engine 308, an on-device communication engine 310, and an application datastore 312. In the example system shown in FIG. 3, the user credentials input engine 304, the API request interception engine 306, the target application identification engine 308, the on-device communication engine 310, and the application datastore 312 are coupled to each other the computer-readable medium 302.
In a specific implementation, the user credentials input engine 304 functions to receive user credentials for a user in accessing applications executing on the client device. Depending upon implementation-specific or other considerations, applications executing on the client device can be web-based applications, or applications residing at the client device. Further depending upon implementation-specific or other considerations, applications executing on the client device can reside partially on the client device and therefore be virtualized on the client device. The user credentials input engine 304 can receive user credentials from a user either or both every time a user begins a session on a client device, or the first session the user has on the client device. User credentials received by the user credentials input engine 304 can include an identification of a user, a username of a user, a password of a user, and setting specific to the user in executing a specific application.
In a specific implementation, the API request interception engine 306 functions to intercept API requests of applications executing at the client device. The API request interception engine 306 can be configured to intercept API requests made by an application for singing on a user to use the application. Depending upon implementation-specific or other considerations, the API request interception engine 306 can be implemented through additional code added to an application to cause the API requests to be intercepted. Additional code for implementing the API request interception engine 306 at the client device can be dynamically injected at runtime of the application. Further depending upon implementation-specific or other considerations, the API request interception engine 306 can be implemented as a library in an application executing at the client device. Depending upon implementation-specific or other considerations, the API request interception engine 306 can be configured to instruct an operating system of the client device to hide or otherwise not display a login form window of an application, for which the API request interception engine 306 intercepts an API request.
In a specific implementation, the API request interception engine 306 can inspect API requests made by an application and determine whether to intercept the API requests. For example, the API request interception engine 306 can inspect API requests to determine whether they are used for signing on a user to use an application, and appropriately intercept the API requests if it determined that the API requests are for signing on the user. Depending upon implementation-specific or other considerations, in intercepting API requests of an application, the API request interception engine 306 can be implemented in a layer between the application executing in an application layer and an operating system executing in an operating system layer of the client device. Further depending upon implementation-specific or other considerations, the API request interception engine 306 can be implemented as part of an operating system layer in which an operating system is executed on the client device or a hypervisor layer on the client device.
In a specific implementation, the target application identification engine 308 functions to identify application data of an application executing on the client device. Application data for an application can include an identification of the application. The target application identification engine 308 can determined an identification of the application using an API request from the application intercepted by the API request interception engine 306. Depending upon implementation-specific or other considerations, application data for an application can include a configuration of the application on the client device. For example, if the application is configured uniquely for execution on a client device, the target application identification engine 308 can identify the configuration of the application. The target application identification engine 308 can determine a configuration of an application executing at a client device, either or both from a current execution of the application on the client device or a previous execution of the application on the client device.
In a specific implementation, the on-device communication engine 310 functions to send data remotely to a system for providing single sign on access to applications executing at a client device. The on-device communication engine 310 can communicate with an applicable system for providing single sign on access to applications executing at a client device, such as the API based application single sign on access systems described in this paper. The on-device communication engine 310 can send API requests for signing on a user to access an application intercepted by the API request interception engine 306. The on-device communication engine 310 can send user credentials of a user of the client device received by the user credentials input engine 304. Additionally, the on-device communication engine 310 can send application data for an application executing at a client device, as determined by the target application identification engine 308.
In a specific implementation, the application datastore 312 functions to store application data for an application executing at the client device. Application data stored in the application datastore 312 can include an identification of an application executing at the client device and/or a configuration of the application executing at the client device. Depending upon implementation-specific or other considerations, application data stored in the application datastore 312 can be generated by the target application identification engine 308.
In an example of operation of the example system shown in FIG. 3, the user credentials input engine 304 functions to receive use credentials of a user for signing on to applications executing at a client device. In the example of operation of the example system shown in FIG. 3, the API request interception engine 306 functions to intercept API requests for signing on the user to access the applications executing at the client device. Additionally, in the example of operation of the example system shown in FIG. 3, the target application identification engine 308 functions to determine application data for the applications executing at the client device. In the example of operation of the example system shown in FIG. 3, the on-device communication engine 310 functions to send the intercepted API requests to a system remote from the client device for providing single sign on access for a user to the applications executing at the client device.
FIG. 4 depicts a diagram 400 of an example of a system for providing user credentials remotely to a client device for single sign on access for a user to applications executing on a client device based on APIs. The example system shown in FIG. 4 includes a computer-readable medium 402, an API based single sign on application execution system 404, a user login credentials datastore 406, and an API based application single sign on access system 408. In the example system shown in FIG. 4, the API based single sign on application execution system 404, the user login credentials datastore 406, and the API based application single sign on access system 408 are coupled to each other through the computer-readable medium 402. In the example system shown in FIG. 4, the API based single sign on application execution system 404 is implemented as part of a client device used by a user for accessing applications executing at the client device.
In a specific implementation, the API based single sign on application execution system 404 functions according to an applicable system for providing single sign on access to applications at a client device using intercepted APIs, such as the API based single sign on application execution systems described in this paper. The API based single sign on application execution system 404 can provider user credentials input by a user of the client device. Depending upon implementation-specific or other considerations, the API based single sign on application execution system 404 can provide application data for applications executing at the client device. Additionally, the API based single sing on application execution system 404 can provide intercepted API requests for signing a user in to access an application executing at the client device.
In a specific implementation, the user login credentials datastore 406 functions to store user credentials of a user of the client device. User credentials stored in the user login credentials datastore 406 can be received from the API based single sign on application execution system 404. Depending upon implementation-specific or other considerations, the user login credentials datastore 406 can store application data for applications executing on the client device. For example, the user login credentials datastore can store a configuration of an application on the client device.
In a specific implementation, the API based application single sign on access system 408 functions according to an applicable system for remotely providing user credentials for single sign on of a user to applications executing at the client device. In providing user credentials for single sign on of a user for access to applications, the API based application single sign on access system 408 can determine applicable user credentials based on an API request for signing on a user for an application, intercepted at the client device. The API based application single sign on access system 408 can determine what credentials are necessary to sign a user on for a specific application. Additionally, the API based application single sign on access system 408 can determine a configuration of an application executing on the client device.
In the example system shown in FIG. 4, the API based application single sing on access system 408 includes an application specific credential determination engine 410, a user login credential determination engine 412, an application specific user credential determination engine 412, an application configuration determination engine 414, and a remote communication engine 416. In a specific implementation, the remote communication engine 416 functions to received data from the API based single sign on application execution system 404. Depending upon implementation-specific or other considerations, the remote communication engine 416 can receive application data for applications executing on the client device from the API based single sign on application execution system 404. Additionally, the remote communication engine 416 can received intercepted API requests for signing on a user to access applications executing on the client device from the API based single sign on application execution system 404.
In a specific implementation, the application specific credential determination engine 410 functions to determine credentials necessary to sign on a user for accessing an application executing on the client device. Credentials necessary to sign on a user for accessing an application executing on the client device can be specific to applications. For example the application specific credential determination engine 410 can determine that only a user name is necessary to sign on for one application and determine a user name and a password are necessary to sign on for another application. Depending upon implementation-specific or other considerations, the application specific credential determination engine 410 can determine credentials necessary to sign a user on for accessing an application based on application data for the application. For example, the application specific credential determination engine 410 can determine credentials for a specific application using an identification of the application, included as part application data for the application. Further depending upon implementation-specific or other considerations, the application specific credential determination engine 410 can determine credentials necessary to sign a user on for accessing an application based on an intercepted API request. For example, if an intercepted API request for an application indicates that a user name and a password are needed, then the application specific credential determination engine 410 can determine that a user name and a password are needed to sign on a user for accessing the application.
In a specific implementation, the application specific user credential determination engine 412 functions to determine user credentials for signing on a user to access an application. The application specific user credential determination engine 412 can determine user credentials for signing on a user based on credentials necessary to sign on a user for accessing an application, as determined by the application specific credential determination engine 410. The application specific user credential determination engine 412 can determine user credentials for signing on a user to access an application from user credentials stored in the user login credentials datastore 406. For example if the application specific credential determination engine 410 determines that a user name and a password are necessary to sign on a user for accessing an application, the application specific user credential determination engine 412 can determine a user name and a password of a user from the user credentials stored in the user login credentials datastore 406.
In a specific implementation, the application configuration determination engine 414 determines a configuration of an application for execution on a client device. For example, the application configuration determination engine 414 can determine settings for executing an application at the client device. The application configuration determination engine 414 can determine a configuration for an application from application data for the application. For example if application data specifies a specific configuration of the application for a user, then the application configuration determination engine 414 can determine the specific configuration of the application. Depending upon implementation-specific or other considerations, the application configuration determination engine 414 can determine a configuration of an application that is either or both specific to the client device which the application is executing on and a user of the client device accessing the application.
In a specific implementation, the remote communication engine 416 functions to transmit data from the API based application single sign on access system 408 to the API based single sign on application execution system 404. The remote communication engine 416 can transmit user credentials for signing on a user to access an application executing at the client device, as determined by the application specific user credential determination engine 412. Depending upon implementation-specific or other considerations, the remote communication engine 416 can transmit a configuration of an application executing on the client device, as determined by the application configuration determination engine 414.
In an example of operation of the example system shown in FIG. 4, the API based single sign on application execution system 404 sends an intercepted API request for signing a user on for accessing an application. In the example of operation of the example system shown in FIG. 4, the application specific credential determination engine 410 determines credentials necessary to sign a user on for accessing an application using the intercepted API request. Further, in the example of operation of the example system shown in FIG. 4, the application specific user credential determination engine 412 determines user credentials of the user for signing the user on for accessing the application based on the necessary credentials determined by the application specific credential determination engine 410. In the example of operation of the example system shown in FIG. 4, the remote communication engine 416 returns the user credentials of the user to the API based single sign on application execution system for signing on the user for accessing the application.
FIG. 5 depicts a diagram 500 of an example of a system for performing single sign on of a user to access applications executed on a client device based on user credentials received remotely. The example system shown in FIG. 5 includes a computer-readable medium 502, an API based application single sign on access system 504, an application datastore 506, an API based single sign on application execution system 508. In the example system shown in FIG. 5, the API based application single sign on access system 504, the application datastore 506, and the API based single sign on application execution system are coupled to each other through the computer-readable medium 502. The API based single sign on application execution system 508 is implemented on a client device.
In a specific implementation, the API based application single sign on access system 504 functions according to an applicable system for returning user credentials based on an intercepted API request, such as the API based application single sign on access systems described in this paper. The API based application single sign on access system 504 can determined credentials necessary to sign a user onto accessing an application executing at a client device using an intercepted API request to sign on the user. The API based application single sign on access system 504 can use determined credentials necessary to sign a user onto accessing an application to determined specific user credentials for signing a specific user onto the application. The API based application single sign on access system 504 can return determined user credentials to the client device. Depending upon implementation, specific or other considerations, the API based application single sign on access system 504 can determine a configuration of an application and send the configuration of the application to the client device.
In a specific implementation, the application datastore 506 functions to store application data of an application executed at the client device. Application data stored in the application datastore 506 can include an identification of an application. Depending upon implementation-specific or other considerations, application data stored in the application datastore 506 can include a configuration of the application on the client device. For example, if the application is configured uniquely for execution on the client device, application data for the application can identify the configuration of the application. Further depending upon implementation-specific or other considerations, application data stored in the application datastore 506 can be determined by either or both applicable systems in the API based application single sign on access system 504 and the API based single sign on application execution system 508.
In a specific implementation, the API based single sign on application execution system 508 functions according to an applicable system for providing single sign on access to applications using remote received user credentials, such as the API based single sign on application execution systems described in this paper. The API based single sign on application execution system 508 can be configured to intercept an API request for signing a user on to an application. The API based single sign on application execution system 508 can also be configured to sign on a user for accessing an application using user credentials received from a remote source in response to an intercepted API request. Depending upon implementation-specific or other considerations, the API based single sign on application execution system 508 can manipulate an application to execute according to a determined configuration for the application.
In the example system shown in FIG. 5, the API based single sign on application execution system 508 includes an on-device communication engine 510, a sign on engine 512, and an application manipulation engine 514. In a specific implementation, the on-device communication engine 510 functions according to an applicable engine for communicating with systems remote from the client device, such as the on-device communication engines described in this paper. The on-device communication engine 510 can communicate with the API based application single sign on access system 504. In communicating with the API based application single sign on access system 504, the on-device communication engine 510 can received determined user credentials used in signing on a user for accessing an application. Depending upon implementation-specific or other considerations, the on-device communication engine 510 can receive a determined configuration for an application executing at the client device.
In a specific implementation, the sign on engine 512 functions to sign on a user for accessing an application executing on the client device. In singing on a user, the user is agnostic as to that they are being signed on to an application. Specifically, the user does not view a login page and does not need to input their credentials for signing on to the application, after the user has initially input their user credentials, thereby accomplishing single sign on access. In singing on a user, the sign on engine 512 can populate field in a login page and activate a submit button for achieving sign on to an application. Depending upon implementation-specific or other considerations, the sign on engine 512 can generate an API response based on received user credentials to cause a user to be signed in for accessing an application. Further depending upon implementation-specific or other considerations, the sign on engine 512 can identify objects in a login page that need to be input in order to sign on a user and send an API call to the application to cause these fields to be populated. Depending upon implementation-specific or other considerations, the sign on engine 512 can identify an object that is used to submit data populated in determined fields for sign on a user, and send an API call to the application to cause the object to be activated after the fields have been populated.
In a specific implementation, the application manipulation engine 514 functions to manipulate an application according to a determined configuration of the application. Depending upon implementation-specific or other considerations, a configuration of an application can be determined from application data for the application. Further depending upon implementation-specific or other considerations, the application manipulation engine 514 can manipulate an application according to a configuration of an application specific to either or both a user or the client device. In manipulating the application, the application manipulation engine 514 can set up or change setting of an application based on a determined configuration of the application.
In an example of operation of the example system shown in FIG. 5, the API based application single sign on access system 504 provides user credentials to the API based single sign on application execution system 508. In the example of operation of the example system shown in FIG. 5, the sign on engine 512 agnostically signs on a user to access an application with the received user credentials. Further in the example of operation of the example system shown in FIG. 5, the application manipulation engine 514 manipulates the application executing at the client device according to a determined configuration of the application.
FIG. 6 depicts a flowchart 600 of an example of a method for providing single sign on access to an application executing at a client device using an intercepted API request made by the application. The flowchart 600 begins at module 602 where an API request is intercepted from an application executing at a client device 602. Depending upon implementation-specific or other considerations, an application executing at the client can reside entirely on the client device or partially reside at the client device, whereby the application is virtualized on the client device. An API request interception engine can intercept the API request. An API request intercepted at module 602 can be an API request for signing on a user to access an application.
The flowchart 600 continues to module 604, where the API request is sent to a remote system from the client device. The API request can be sent to an API based application single sign on access system. The API request can be sent to an API based application single sign on access system by an on-device communication engine residing at the client device.
The flowchart 600 continues to module 606, where, at the remote system, user credentials for signing on a user to access the application are determined using the API request. User credentials can be determined by an application specific user credential determination engine. User credentials can be determined based on necessary credentials for signing on a user of the application. For example, necessary credentials for signing on a user of the application can include that a user name and a password are needed to sign on the user for access to the application and the user name and the password of the user can be determined as a result. User credentials for signing on a user to access the application can be determined from user credentials input by a user of the client device and received from the client device. Depending upon implementation-specific or other considerations, user credentials can be input by the user at the beginning of a session with the client device or during a previous session with the client device.
The flowchart 600 continues to module 608, where the user is agnostically signed on to gain access to the application using the user credentials at the client device. As used in this paper, actions performed agnostically, are actions performed without prompting a user for input or guidance. A sign on engine can agnostically sign on the user to access the application based on the user credentials. Depending upon implementation-specific or other considerations, in agnostically signing on the user, the sign on engine can identify necessary fields to populate with the user credentials and send an API call to the application to cause the fields to populate with the user credentials. Further depending upon implementation-specific or other considerations, in agnostically signing on the user, the sign on engine can identify an object to activate to cause the user credentials populated in fields to be submitted and send an API call to the application to cause the object to active, thereby agnostically signing on the user for accessing the application at the client device.
FIG. 7 depicts a flowchart 700 of an example of a method for determining user credentials for single sign on access to an application executing on a client device using an intercepted API request. The flowchart 700 begins at module 702, where an API request intercepted from an application executing at a client device is received at a remote system from the client device. Depending upon implementation-specific or other considerations, an application executing at the client device can reside entirely on the client device or partially reside at the client device, whereby the application is virtualized on the client device. An API request interception engine can intercept the API request. An API received at module 702 can be an API request for signing on a user to access an application. The API request can be received at an API based application single sign on access system.
The flowchart 700 continues to module 704, where necessary credentials to sign on a user to access the application are determined. Necessary credentials to sign on a user to access the application can be determined by an application specific credential determination engine. Credentials necessary to sign on a user for accessing an application executing on the client device can be specific to applications. For example necessary credentials can include that only a user name is necessary to sign on for one application and determine a user name and a password are necessary to sign on for another application. Depending upon implementation-specific or other considerations, necessary credentials to sign on a user for accessing an application can be determined from application data for the application. Further depending upon implementation-specific or other considerations, credentials necessary to sign a user on for accessing an application can be determined from the intercepted API request received at module 702.
The flowchart 700 continues to module 706, where user credentials of a user for the necessary credentials are determined. User credentials can be determined by an application specific user credential determination engine. User credentials for signing on a user to access the application can be determined from user credentials input by a user of the client device and received from the client device. Depending upon implementation-specific or other considerations, user credentials can be input by the user at the beginning of a session with the client device or during a previous session with the client device.
The flowchart 700 continues to module 708, where the user credentials are returned to the client device for agnostic sign on of the user for accessing the application. The user credentials can be sent to an API based single sign on application execution system. A sign on engine residing at the client device can agnostically sign on the user for accessing the application executing at the client device based on the user credentials. In agnostically signing on the user for accessing the application, single sign on is provided for the application.
FIG. 8 depicts a flowchart 800 of an example of a method for agnostically signing on a user for access to an application executing on a client device based on user credentials received from a remote system. The flowchart 800 begins at module 802, where user credentials for agnostically signing on a user for access to an application executing at a client device are received at the client device from a remote system. The user credentials can be determined from an API request intercepted from the application executing at the client device. Depending upon implementation-specific or other considerations, an application executing at the client device can reside entirely on the client device or partially reside at the client device, whereby the application is virtualized on the client device. An API based single sign on application execution system can receive the user credentials at the client device from an API based application single sign on access system remote from the client device.
The flowchart 800 continues to module 804 where fields to populate with the user credentials for signing on a user are determined. The fields to populate with the user credentials for signing on a user can be determined by a sign on engine. The fields to populate with the user credentials for signing on a user can be determined from an API request intercepted from the application for signing on the user for accessing the application.
The flowchart 800 continues to module 806 where the fields determined at module 804 are populated agnostically from the user. A sign on engine can populate the fields in the application executing at the client device. Depending upon implementation-specific or other considerations, the sign on engine can generate and send an API call using the user credentials to the application to cause the field to become populated with the user credentials.
The flowchart 800 continues to module 808 where an object that upon activation submits user credentials populated in the fields and subsequently signs on the user for accessing the application is determined. The object to activate for signing on a user can be determined by a sign on engine. The object to activate for signing on a user can be determined from an API request intercepted from the application for signing on the user for accessing the application.
The flowchart 800 continues to module 810 where the object determined at module 808 is activated agnostically from the user. A sign on engine can activate the object in the application executing at the client device. Depending upon implementation-specific or other considerations, the sign on engine can generate and send an API call to the application to cause the object to become activated. As a result of the field begin populated and the object being activated agnostically from the user, single sign on access to the application is achieved.
an API based application single sign on access system;
a user login credentials datastore;
an API based single sign on application execution system residing on a client device.
US14485665 2013-09-12 2014-09-12 Single sign on for applications Active US9825933B2 (en)
US201361877212 true 2013-09-12 2013-09-12
US14485665 US9825933B2 (en) 2013-09-12 2014-09-12 Single sign on for applications
US20150074783A1 true true US20150074783A1 (en) 2015-03-12
US9825933B2 US9825933B2 (en) 2017-11-21
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US14485665 Active US9825933B2 (en) 2013-09-12 2014-09-12 Single sign on for applications
US (1) US9825933B2 (en)
CN104735066A (en) * 2015-03-18 2015-06-24 百度在线网络技术（北京）有限公司 Single sign-on method, device and system oriented to web page applications
US9825933B2 (en) 2017-11-21 grant
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:CLOTHIER, MATTHEW P.;CORBETT, SEAN P.;REEL/FRAME:034211/0140