Patent application number | Description | Published |
20100146611 | Credential Sharing Between Multiple Client Applications - Disclosed are techniques for sharing user credentials between multiple client applications when connecting to a set of remote resources. The mechanism enables a single sign-on between a terminal server web access service and the remote applications, remote desktops and corresponding terminal servers accessible through the service. User credentials may be received by one of the client applications and passed to a credential store running as a local software object in association with the user's logon session. Further requests to launch a new remote connection may then pass through the credential store. Upon successful validation of the request, the credential store may attach user credential information to the request and pass the request to the requested client. The requested client may also execute as a software object associated with the current logon session. The client may then use the supplied credential for authentication to the requested resource or application. | 06-10-2010 |
20120084369 | Unified Reconnection To Multiple Remote Servers - Techniques are disclosed for connecting a user to all of his resources (e.g. remote desktop or remote application) in a deployment of server farm(s). The user's client sends a message to the deployment requesting any disconnected resources for the user and/or any active resources communicating with a different client. The deployment determines what those resources are, then strips out redundant information (e.g. two resources are remote applications executing within the same session) and sends a stripped list to the client, which reconnects. The client first reconnects to a resource that is not a VM and stores any user input (e.g. credentials) prompted for during that log in. Then, it reconnects to the other resources in parallel, using in these later reconnections any input received from the client during the first reconnection. | 04-05-2012 |
20130067100 | MULTI-DESKTOP INTERACTION USING NESTED REMOTE DESKTOP SESSIONS - As described herein, a computer system receives a first indication that an interactive login session is to be established. The first indication includes user credentials for establishing the interactive login session. The computer system then establishes the interactive login session using the received user credentials. The interactive login session includes a data transfer endpoint for receiving data from other sessions. The computer system receives a second indication that a child session is to be established in parallel to the established interactive login session. The child session is configured to direct input and output data through a loopback connection to the data transfer endpoint of the interactive login session. The computer system also establishes the child session using the received user credentials. The child session then transfers at least a portion of data to the data transfer endpoint of the interactive login session using the loopback connection. | 03-14-2013 |
20130152077 | PERSONAL AND POOLED VIRTUAL MACHINE UPDATE - The updating of virtual machines. A task broker schedules update tasks for multiple virtual machines on the host machine. As each update task is to be performed, if the virtual machine is not currently running, as might be the case for a personal virtual machine, the virtual machine is caused to begin running to allow the update task to be performed on the virtual machine. Also, a pooled virtual machine is updated by copying information from the old virtual hard drive to a location to allow the information to be preserved as the master image is updated. After the update is completed, the virtual machine is formed, associated with the new virtual hard drive, and copied back to the virtual machine. | 06-13-2013 |
20140289718 | PERSONAL AND POOLED VIRTUAL MACHINE UPDATE - The updating of virtual machines. A task broker schedules update tasks for multiple virtual machines on the host machine. As each update task is to be performed, if the virtual machine is not currently running, as might be the case for a personal virtual machine, the virtual machine is caused to begin running to allow the update task to be performed on the virtual machine. Also, a pooled virtual machine is updated by copying information from the old virtual hard drive to a location to allow the information to be preserved as the master image is updated. After the update is completed, the virtual machine is formed, associated with the new virtual hard drive, and copied back to the virtual machine. | 09-25-2014 |