Abstract:
The disclosure describes systems, methods and devices relating to a sign-on and management hub or service for users of multiple internal, external or Software-as-a-Service (SaaS) software applications (Apps), with options for centralized management and sharing of accounts without needing to provide login credentials to individual users.

Description:
[0001]    This application claims priority to U.S. Provisional Patent No. 61/782,519, to Gustayson et al., filed on Mar. 14, 2013, and entitled “SYSTEM FOR MANAGING REMOTE SOFTWARE APPLICATIONS.” 
     
    
     BACKGROUND OF THE INVENTION 
       [0002]    1. Field of the Invention 
         [0003]    The invention relates generally to methods and systems for managing remote software applications. Specifically providing a unified login experience to applications and management of application login credentials. 
         [0004]    2. Description of the Related Art 
         [0005]    Software-as-a-Service (SaaS) is a method for software deployment or delivery using the Internet, internal corporate network or similar networks. This software is generally centrally hosted, either by a service provider or by an organization. Under SaaS, a software provider licenses a software application (App) to clients for use on demand. Basic access to an App might be free of charge or with a fee. SaaS allows the provider to develop, host and operate a software application, for use by clients, who use a computer or smart device with internet access to download, if required, and run the software application and/or to access a host via a web browser or similar thin-client to run the software application. The App can be licensed to single user (one-user, one-account) or a group of users or an organization, and each user account may have many clients and/or client sessions (shared account). Some current examples of Apps include Amazon Web Services, Google Apps, Salesforce.com, Concur Travel &amp; Expense, and Twitter. 
         [0006]    As popularity of the SaaS model has grown, modern organizations and employees, such as individual knowledge workers, rely on an increasing number of services and Apps. Each App is typically secured with its own username and password combination, requiring users and/or organizations to keep track of the many combinations. These passwords are frequently stored insecurely, often scribbled on Post-It notes on monitors, or held in shared spreadsheets. 
         [0007]    It is also common in some Apps to have one account that is shared by multiple users. For example, an organization will typically have one Twitter account, which will be updated and managed by many staff members. To access the account, each staff member will need to be given the username and password. This creates security concerns when a staff member leaves the organization, at which point the organization wishes to revoke the ex-member&#39;s access. This often necessitates creating a new password, which then must be redistributed to all active staff members (who then typically update their Post-It notes). The shared account and password model also complicates the use of contractors or consultants, for concerns over sharing passwords with temporary team members or outside organizations, and subsequent access revocation and password resetting. 
         [0008]    Managing Apps with the one-user one-account model is also complicated for organizations, requiring significant time from IT administrators to setup accounts for large departments or organizations when a new App is rolled out to the organization. On-going maintenance is also challenging, as administrators try to keep, add or remove App accounts when members join and leave the organization. 
         [0009]    Additionally, organizations typically have little to no information about which members access which Apps or when. This prevents the organizations from having traceable audit trails, required by many licensing bodies. 
         [0010]    Existing Apps typically provide services in a one-to-one relationship with the end user, a relationship with the end user&#39;s systems and/or with the end user&#39;s organization. Integration between an end user&#39;s systems and Apps or between an end user&#39;s Apps requires pre-arranged coordination and configuration by all parties. Additionally, the Apps are not aware of each other and have no mechanism to communicate or coordinate without the participation and pre-arranged coordination of the end user and/or the end user&#39;s organization. 
         [0011]    For example, an organization might store data in a remote spreadsheet service (for example, “Google Docs” or “Windows 365”) and want to import that data into a customer relationship management (CRM) service or marketing automation service (for example, Salesforce.com or Marketo.com, respectively). Presently, each of the mentioned services would require direct integration effort to work together, potentially involving four distinct integrations as follows: (i) Google Docs to Marketo, (ii) Google Docs to Salesforce.com, (iii) Windows 365 to Marketo, (iv) Windows 365 to Salesforce.com. The problem grows as more Apps require integration with each other and when multiple Apps simultaneously require integration with each other. 
         [0012]    A further example would be moving press release content from a content management system (CMS) (for example, wordpress.com, squarespace.com, or tumblr.com) and sending that data to a social media service or social media management service (examples: twitter.com, facebook.com, Google+, hootsuite.com, cotweet.com, buddymedia.com). The listed examples would involve 18 different integration points—the number of integrations rises exponentially with the number of integrated applications. Solutions are desirable to streamline these operations and the others described above. 
       SUMMARY OF THE INVENTION 
       [0013]    The disclosure describes methods and systems relating to the access of externally hosted applications, such as software as a service (SaaS) applications (Apps), via a service accessed from a single user interface or portal. This service may provide a unified login experience to a number of external applications, such that the credentials required to access the external applications do not need to be known to the user. Embodiments of this service can provide a set of features, such as authentication, authorization, audit, delegated credentials, messaging, storage, data access, and alerts (Core Services), such that a set of services or Apps may be available to be interacted with, to an end user; an organization that the user is a member of; or other Apps to provide coordinated functionality to the user and organization without requiring pre-arranged integration between the Apps. This set of Core Services, individually or in combination, can allow one or more Apps to provide functionality beyond what is available from an individual App operating in a one-to-one relationship with the end user or end user&#39;s organization. 
         [0014]    In some configurations, the systems and methods may allow for users to access the external applications by having access and credentials to the service itself and not the external applications. The systems and methods may allow multiple users access to external applications and shared pages without having to share the login credentials, such as a password. Users may also be able to view messages and alerts from all external applications in a consolidated alert or message box. Users and administrators may also be able to request or grant access to external applications without sharing credentials and create/modify/delete users and user access to applications individually or via a bulk process. These features and functions are discussed in more detail below. 
         [0015]    In some configurations according to the present disclosure a method providing sign-on to applications may be provided. The method may comprise accepting a user login from a user to a system and accepting an application access request for at least one application. The method may also include providing an authenticated session to the application. 
         [0016]    Other configurations provide a single sign-on system operable on a server, accessible by a network. The system comprises a server component for allowing single sign-on to multiple applications, the server component capable of storing user information, application login credentials and user application permission information. The server also includes a client interface which interacts with the server component, the client interface capable of receiving user information and requests for user access to at least an application. Furthermore, the server component is capable of creating an authenticated session to the application and providing the session to a user. 
         [0017]    Yet other configurations include a computer program product, comprising a non-transitory computer-readable medium. The computer program product comprises code for accepting a user login from a user to a system and code for accepting an application access request for an at least one application. The computer program product may also include code for providing an authenticated session to the application. 
         [0018]    A better understanding of the features and advantages of the present embodiments will be obtained by reference to the following detailed description of the invention and accompanying drawings, which set forth illustrative embodiments in which the principles of the invention are utilized. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0019]    The accompanying drawings are included to provide a further understanding of the present invention, and are incorporated in and constitute a part of this specification. 
           [0020]      FIG. 1  illustrates an exemplary system for allowing sign-on for multiple applications according to one embodiment of the present disclosure. 
           [0021]      FIG. 2  illustrates another embodiment of a system for allowing sign-on for multiple software as a service (SaaS) applications according to one embodiment of the present disclosure. 
           [0022]      FIG. 3  illustrates a flowchart for performing a method of sign-on for multiple software as a service (SaaS) applications according to one embodiment of the present disclosure. 
           [0023]      FIG. 4  illustrates a process for managing user accounts en masse according to one embodiment of the present disclosure. 
           [0024]      FIG. 5  illustrates a system for creating an integrated message inbox for a user of multiple external services according to one embodiment of the present disclosure. 
           [0025]      FIG. 6  illustrates another representation of an exemplary system for providing single sign-on to multiple applications according to one embodiment of the present disclosure. 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0026]    In the description that follows, numerous details are set forth in order to provide a thorough understanding of the invention. It will be appreciated by those skilled in the art that variations of these specific details are possible while still achieving the results of the invention. Well-known elements and processing steps are generally not described in detail in order to avoid unnecessarily obscuring the description of the invention. 
         [0027]    Embodiments of the invention are described herein with reference to illustrations that are schematic illustrations of embodiments of the invention. As such, the actual size, components and features can be different, and variations from the components of the illustrations as a result, for example, of manufacturing techniques and/or tolerances and system configurations are expected. Embodiments of the invention should not be construed as limited to the particular components illustrated herein, but are to include deviations in system architecture and improvements. The regions, sections and components illustrated in the figures are schematic in nature and their devices and shapes are not intended to illustrate the precise shape of a feature of a device or device itself and are not intended to limit the scope of the invention. Furthermore, components described as being connected or connections may not be direct. Intervening components or connections may exist. Also, components may be shown as one unit, but may instead be a collection of components or units. 
         [0028]    In the drawings accompanying the description that follows, reference numerals and legends (labels, text descriptions) may be used to identify elements. If legends are provided, they are intended merely as an aid to the reader, and should not in any way be interpreted as limiting. 
         [0029]    As the use of software as a service (SaaS) applications becomes more widely used by individuals and organizations alike, it is desirable to streamline and improve the use of these applications. The present disclosure discusses systems and methods to do so, including, for example, providing a single sign-on experience to a user for multiple applications, managing the users and user access to multiple applications whether one or many users use the same application, and notifying users of messages and alerts from these applications on a unified screen. 
         [0030]      FIG. 1  illustrates one configuration of a system according to the present disclosure for allowing sign-on for multiple applications. In some configurations, this sign-on may function to an end user as a single sign-on to multiple applications. Also, the sign-on process may be transparent to the end user, occurring in the background or unnoticed by a user. The applications accessed may be traditional applications, remotely hosted applications, or applications referred to as software as a service (SaaS) applications. The system over which communication is held may be any network, such as an Internet or private network connected system that includes a client-side UI and/or component, and various server-side components. A user can utilize this system by accessing an interface to allow single sign-on to multiple external SaaS applications (“external Apps”). The system may be accessed via an internet-based, browser-based or app-based interface. 
         [0031]    In this configuration of the system, the service  103  manages the user sign-on process, such that a user signs in the service and then proceeds to access the applications available to the user through an interface of the service. More specifically, by signing into the service  103 , the user is able to create authenticated sessions with all pre-configured external Apps without having to supply credentials (e.g., username and password) for the external App. The user does not need to know and may never have even seen the password or other credentials for the account they&#39;re logging into in the external App. 
         [0032]    The system generally incorporates three components, a client side component  101 , a server side component  103 , and access to third-party external applications  104 . In  FIG. 1 , the process starts in the top left, with a user accessing the Client Application  101 , using it to sign onto the service  103 . The client application  101  may be hosted in the same location as the server side component  103  or elsewhere. The client application  101  allows the user to view the available external Apps that the user may access. These Apps include those that the user and/or an administrator have previously configured for the user to access. The user selects the external App that the user wishes to use, and this selection initiates a request to the server side component, the service  103 . This request may be initiated directly or in other embodiments it may be initiated through a service agent/plugin  102 , if installed (if not installed, the user is guided through installation). Though the term “plugin” is used here, in other embodiments this function might be performed by any other component on the user or client side, such as directly by the browser, extensions, software agents, add-ons, snap-ins, scriptlets, a stand-alone application or similar technologies. 
         [0033]    A request then passes from the client application  101 , or plugin  102 , to the server side component or service  103 , where various operations and checks are performed, and the previously stored login credentials for the user for the desired external App are retrieved. Thereby, removing any need for the user to directly provide credentials to initiate an authenticated session with the external App  104 . 
         [0034]    Most external Apps  104  utilize session authentication methods that can be initiated via server-to-server (“server-side”) logins, e.g. passing the user credentials directly from the service  103  to the external App systems  104 , and receiving useable session credentials in return. However, some external Apps  104  employ additional levels of security in their session credentials, such as the IP address from which the session was initiated, which in turn requires that the login procedure be conducted from the client. If the external App  104  allows server-side logins, a login request is sent from the service  103 , passing the user&#39;s login credentials to the external App&#39;s servers  104 . The external App  104  replies with information, which the service  103  sends back to the client  101  or plugin  102 . This information, which may be a session credential, session/cookie or other necessary information to conduct an authenticated session in the external App, might be a set of standard HTTP cookies. In other embodiments of the invention, this information could be a session GUID or similar token, or any other manner of tracking identifiers typically transferred between systems to indicate an authenticated session. 
         [0035]    If the external App  104  does not allow server-side logins, the service  103  passes an encrypted or digitally signed script, including the user&#39;s login credentials, back to the client  101  or plugin  102 . The client  101  or plugin  102  then issues a login request to the external App  104 , and captures the session information response. 
         [0036]    In both cases, the plugin  102 , when used, then passes the session information to the client application  101 , and the user, via the client application  101 , is forwarded to their desired external App  104 , where the user arrives already logged in, without being required to enter login information or credentials (for example, username and password) to start their authenticated session. In other embodiments, the user or administrator may have the option of allowing the user to directly login to selected or all Apps by providing a username and password, rather than having the system handle the login process. 
         [0037]      FIG. 2  is a more detailed illustration of another embodiment of a system  200  for allowing sign-on for multiple software as a service (SaaS) applications in accordance with the present disclosure. The system  200  is an Internet or private network connected system that includes a client-side UI and/or component, and various server-side components. Server side components may include an intelligent external App API layer, User-App Credentials and Logging databases. Additional components may also be incorporated. A user will utilize this system by accessing the Internet-based or app-based interface as a single sign-in portal via a public or private network, such as the Internet or corporate network. 
         [0038]    Starting from the top left of  FIG. 2 , a user interface  201  to the system or service  205  is provided as an Internet or private network-based front-end portal  202 . The portal may be hosted remotely or locally. The primary component of the portal  202  includes a dashboard that acts as a container for all other user interface elements or widgets  203  for initiated functions of the system  205 . In other embodiments of the invention, this front-end portal could be replaced with an application or “app”. The widgets  203  are graphical elements that represent links to external applications (Apps)  210  that the user of the system has selected or that have been selected for the user by an administrator from the user&#39;s organization. Additionally, the widgets  203  also contain links and/or shortcuts to other functions of the system  205  available through the portal  202 . In other configurations, the system  205  may include additional functionality that is exposed through the portal  202  such as enhanced chat features. These enhanced chat features may offer standard inter-user and group messaging, but may also offer the ability to share App access, synchronize App views, and in other embodiments may allow a wide range of real-time commands to be executed on the client to expand functionality of the portal  202  or the external Apps  210 . 
         [0039]    In some embodiments, the graphic elements or widgets  203  are not confined to a stationary location, but can be moved and re-ordered within the dashboard of the portal  202  by the user of the system  205 . To this end, the dashboard of the portal  202  is dynamic in nature, and can be customized. 
         [0040]    As seen in  FIG. 2 , the single sign-on function starts when a user requests a session with the external application (App) of their choosing from those available in their dashboard  202 , by selecting (clicking, tapping, etc.) on the corresponding widget/logo  203 . A “session” herein indicates any interaction between the user and a service or application. An “authenticated session” indicates an interaction wherein the identity of the user has been asserted and, in some configurations, verified. 
         [0041]    This selection initiates a request to the plugin  204 , if installed (if not installed, in some embodiments the user is prompted to install the plugin). The term “plugin” is used here, but in other embodiments of the invention this function might be performed by any other component such as extensions, software agents, add-ons, snap-ins, scriptlets, or similar technologies. 
         [0042]    A request then passes from the plugin  204  to the services  206 , where a database, such as the User-App Login DB  208 , is checked, and corresponding login credentials for the user are retrieved. The User-App Login DB  208  may be hosted as part of the services  206 , or may be an externally-hosted database or similar system. These login credentials might be, for example, username and password, a PIN, a public key or certificate, biometric information, or any other type of authentication information. 
         [0043]    In some embodiments, all external connections to and from the system  205  are performed over a network, such as the public Internet or private networks. 
         [0044]    If the external App  210  allows server-side logins, a login request is sent from the services  206 , passing the user&#39;s login credentials to the external App&#39;s servers  210 . This login request may occur via submitting the external App&#39;s  210  login from inside a virtual browser  207 , or other user client emulator, or via an API, if available. The external App  210  replies with session/cookie information, which the services  206  send back to plugin  204 . This session/cookie information might be standard HTTP cookies, or in other embodiments of the invention, it could be a session GUID or similar token, or any other manner of tracking identifiers typically transferred between systems to indicate an authenticated session. The service  206  logs this access in the Access Log database  209  for later auditing. 
         [0045]    If the external App  210  does not allow server-side logins, the services  206  pass an encrypted script, including the user&#39;s login credentials, back to the plugin  204 . The plugin  204  then issues a login request to the external App  210 , and captures the session/cookie information response. 
         [0046]    In both cases, the plugin  204  then passes the session/cookie information to the user&#39;s browser  201 , and the user&#39;s browser  201  is forwarded to their desired App  210 , where the user arrives already logged in, without being required to enter login information to start their session. The plugin  204  can also log this access in the Access Log database  209  via the services  205 , for later auditing. 
         [0047]    In some configurations, the system  205  includes a secondary auditing function which may be very beneficial to the user of the service with respect to business compliance and governance. The data contained within this Access Log database  209  can be queried and reported in various formats. This data can be used to create reports for testing evidence for audits such as SOX, GLB, PCI, HIPAA, and other industry-specific data and information security compliance regulations. Such data can also be used to produce activity reports for a single user or a group of users across all managed and monitored SaaS applications. 
         [0048]      FIG. 3  illustrates a flowchart for performing a method of sign-on for multiple software as a service (SaaS) applications in accordance with an embodiment of the invention. This drawing is a walk-through of embodiments of systems according to the present disclosure such as the system described in  FIG. 2 . 
         [0049]    As seen in  FIG. 3 , the single sign-on function starts at step  300  when a user requests a session with the external application (App) of their choosing. This request may be initiated by choosing from the Apps available in their dashboard  202 , by clicking on the corresponding widget/logo  203 . At step  301 , this request is then passed from the user&#39;s browser, optionally through the plugin  204 , and on to the service  205 . 
         [0050]    In step  302 , the request is received by the service  205 , where the service  205  verifies that the user is validly signed in to the service  205 . If not, this request process ends at step  303 , where the user is asked to sign in to the service  205 . If the user is properly signed in to the service  205 , the user&#39;s sign-in credentials with the desired App are retrieved from a database, such as the User-App DB  208 , in step  304 . If no valid credentials are found for the user for the desired external App  210  in the User-App DB  208 , this request process ends at step  303 , where the user is alerted to the missing/invalid credentials. 
         [0051]    If valid sign-in credentials are found in step  304 , or, in some embodiments, in steps  304  and  305 , the service  205  next determines if the external App  210  requires client-side login, in step  306 . 
         [0052]    If in step  306  it is determined the external App  210  requires client-side login, a login script is generated by the services  205  in step  307 . In some configurations it may be desirable to have sensitive data in the script encrypted, and the entire script cryptographically signed, to detect and prevent tampering. This script is then returned to the plugin  204 , where the script is executed, via a connection to the external App  210 , in step  308 . 
         [0053]    If in step  306  it is determined that the external App  210  does not require a client-side login, in step  309  the services  205  next evaluate if the App requires a special API to execute the login. This evaluation may take place using any method which would allow the system to recognize whether an API is required, or the requirement may be saved or designated by the service such that an evaluation is not required at each access. In some configurations, this evaluation is based on a hierarchy of access methods. For example, if a standards-based SSO API, such as but not limited to SAML or OpenID, is available from external App  210 , it is utilized. The system  205  may elect to use a configured access token (for example, API key or OAuth) in requests not involving authentication. If the external App does require a special API call, in step  310  the service constructs and executes the required API call. 
         [0054]    If in step  309  it is determined that no special API is required, in step  311  a “virtual browser” or other similar emulator is started by the service  205 . In step  312 , the virtual browser loads the external App&#39;s login form, supplies the user&#39;s credentials, and submits the form. 
         [0055]    Successful execution of steps  308 ,  310 , and  312  all lead to step  313 , where the session/cookie response of the external App  210  to the various potential methods of login requests is captured, and transmitted to the plugin  204 , or directly to the user if a plugin is not in use, if not already there. 
         [0056]    In step  314 , the plugin  204  passes the session/cookie information to the user&#39;s browser  201 , and in step  315  the browser is forwarded to the desired App&#39;s URL. The process ends at step  316 , as the user arrives at the external App  210  as a logged in user, without being required to enter login information to start their session. 
         [0057]    As described previously, it can also be desirable to be able to manage user accounts for various Apps through the service. Such a process may allow an administrator or user to detect existing users and associated accounts and map them to each other to give users access to these accounts. The process may also allow for deleting, clearing, and quick management of other accounts and account access. The process may also allow for quick bulk creation of new/existing user access to new/existing Apps.  FIG. 4  illustrates one configuration of a process according to one embodiment of the present disclosure for creating user accounts en masse in the service  205  or an external App  210 , such that users can then access these user accounts from their client application, based on existing user accounts in either. This process may be useful in organizations with many users, using many Apps, saving Administrators and users time when starting to use the service, or when rolling out new external Apps to the organization. By starting with the list of users already existing in one (or multiple) systems, accounts can quickly be created for all required users in any new Apps. This process may also be useful in identifying accounts that should be removed or disabled from one or more of the systems. 
         [0058]    In step  405 , the lists of user accounts, along with basic account information (examples: email address, first name, last name) for the organization are gathered from the service and from the external App. The external App referenced here might be an SaaS system, an LDAP service or similar directory system containing accounts for some or all members of the organization. This process may be automated, via APIs, or the administrator may supply a text file with the account information. The basic account information may be for members of the organization or third parties that the organization may want to provide access or accounts for to the system. 
         [0059]    In step  410 , the lists are compared, searching for exact matches of the information fields provided (for example, based on email address associated with the user account). 
         [0060]    In step  415 , the lists are compared, searching for “fuzzy” or near matches of the information fields being compared (for example, based on first and last name associated with the user account). In some configurations, steps  410  and  415  may be combined, whereas in other configurations only one or both of the steps may exist. 
         [0061]    In step  420 , the lists are compared, to find accounts in either system that were not matched in steps  410  or  415 . 
         [0062]    In step  425 , the results of the mapping process (steps  410 - 420 ) are presented to the user/Administrator, who is allowed to make corrections (for example: adding, removing or modifying account mappings, or excluding new accounts from being created). In some configurations, this step may be omitted proceeding directly to step  430 . 
         [0063]    In step  430 , accounts are created/removed/modified in the service  205  or the external App  210  as needed. The creation/removal/modification of accounts may be completely automated, via, for example, APIs, or may enlist user involvement. After the accounts have been created/removed/modified, all account mappings are saved in the User-App Login DB  208 . These saved account mappings are later used to associate the user account in the service  205  with the corresponding account in the external App(s)  210 , and are referenced, for example, when a user requests a session with an external App  210 , or when the service needs to check an external App  210  for new messages for the user. 
         [0064]    In some configurations, the service may provide users with a streamlined view of messages, alerts, or notifications from all or a subset of the Apps they can access through the service.  FIG. 5  illustrates a system  500  for creating an integrated message inbox for a user of multiple external services, in accordance with an embodiment of the invention. The “messages” might be e-mail-like correspondence, system status updates or alerts, social media updates, or any other type of message that might be generated by the external Apps  210 . This system aggregates the messages generated by the various external Apps  210  for the user in one central repository. In other configurations, the messages or alerts may be placed in any number of separate inboxes rather a single inbox. This central repository may also contain system alerts and e-mail-like correspondence from the service  205 . 
         [0065]    The integrated message box system flow starts when the Message Retrieval Service  501  executes. This process may start automatically (scheduled, periodic, etc.), or on user (for example, end user or administrator) request. 
         [0066]    The Message Retrieval Service  501  may execute for all users, a group of users, or a single user listed in a database, such as the User-App Login DB  505 . The Message Retrieval Service iterates over the following process for all or a subset of the external Apps  210  associated with the user accounts for which it is attempting to retrieve messages: 
         [0067]    The Message Retrieval Service  501  retrieves the necessary Login Credentials for the account(s) for which it will be retrieving messages from the User-App Login DB  505 . It then passes a request to the App Interaction Layer  502 , where the system decides the appropriate method for connecting to the external App  507 . n  in question. The App Interaction Layer may connect to the external App  507 . n  via a Virtual Browser  503 , via an API  504 , or any other appropriate connection method. 
         [0068]    In either case, the user account&#39;s login credentials are sent to the external App  507 . n , and any new messages for the user are requested. 
         [0069]    Any new messages received from the external App  507 . n  are saved into the App Message DB  506 , and will be available for the user when they access the portal  202 . In some configurations, while the user is using the portal  202 , these messages may also be updated in real time through use of available real time update techniques or technologies (for example, web sockets, long-polling or other persistent or semi-persistent network connections). In yet other configurations, these techniques may also be used to update, in real time, areas of the interface unrelated to messaging, such as the list of available Apps. 
         [0070]      FIG. 6  depicts an illustration of a system which provides single sign-on to an application. The system  600  incorporates a user interface  604 , a user and permissions database  606 , and the functionality which allows the creation of application authentication  608 . As described previously, a manager, company, or managing user  612  may access the system  600  and provide settings or information to provide access to users  602  for applications  610 . The user  602  may be a member or employee of the company the manager  612  belongs to or an outside party or other system user that has been authorized access to an app  610  by a manager or other person  612  authorized to provide access or access credentials. 
         [0071]    A manager  612  may access the system  600  via a user interface  604 . From the user interface  604  the manager  612  may enter credentials for access to 3rd party applications  610  into the user and permissions database  606 . These credentials may be for the manager  612  themselves or for other system users  602 . These may be existing users or newly created users. The manager  612  may also manage and maintain lists of users  602  and access permissions. 
         [0072]    A user  602  may access the system  600  via a user interface  604 , using a single log on to the system. Once logged into the system  600  a user  602  would be presented with an interface which displays a listing of 3 rd  party applications or apps that the user may access. The listing may be of applications that the user already has been given permissions to, without further input of log in credentials, but may also include other applications the user may access if the user can provide access credentials. 
         [0073]    After a user chooses an application  610  to access, the system  600  determines whether the user has access to the chosen application. Next the system  600  executes the appropriate app authentication process  608  and passes the authenticated session to the user  602 . As described previously, this authentication may be done server to server between the system  600  and the 3 rd  party app  610 , such that the session is then passed to the user  602 , or the information may be passed to a plugin  614  on the user&#39;s system  602 , such that encrypted information may be passed to the plugin  614  from the system  600  to create or initiate the authenticated session for the app  610 , without the user ever inputting or having known the log in credentials for the app  610 . Thereby, the user can access several 3 rd  party apps by logging in to the system with a single log in and not providing any further log in credentials. 
         [0074]    While the foregoing written description of the invention enables one of ordinary skill to create and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific embodiment, method, and examples herein. The invention should therefore not be limited by the above described embodiment, method, and examples, but by all embodiments and methods within the scope and spirit of the invention.