In one embodiment, a crypto cloudlet is provided that includes a security wrapper to a virtual machine to guarantee secure Input/Output exchange between a client and one or more cryptographic adaptive services powered by a set of virtual CPUs through a single well defined channel, an adaptive service running in the virtual machine that identifies hardware resources necessary to satisfy a cryptographic demand or request, and an Ethernet interface communicatively coupled to the security wrapper providing network channel services for exchange of cryptographic data and commands. The security wrapper presents to the adaptive services the hardware accelerators exposed by the virtual machine. Other embodiments are disclosed.

In one implementation, a system for a session key repository includes a monitor engine to monitor communication between a first computing device and a second computing device that is encrypted with a private key, an identification engine to determine a number of session keys and session IDs that correspond to the encrypted communication, a rules engine to determine a number of rules for storing and sharing the number of corresponding session keys and session IDs, a repository engine to send a portion of the number of session keys and session IDs to a network tool based on the number of rules and identification of the network tool.

Embodiments of the present disclosure provide a method, an electronic device, and a program product implemented at an edge switch for data encryption. For example, the present disclosure provides a data encryption method implemented at an edge switch. The method may include receiving encryption and decryption information for an encryption operation or a decryption operation from a source device. In addition, the method may include encrypting a data packet received from the source device based on encryption information in the encryption and decryption information to generate an encrypted data packet. The method may further include sending the encrypted data packet to a target device indicated by the data packet. The embodiments of the present disclosure can reduce the computing loads of Internet of Things (IoT) devices, clouds, and servers while ensuring encryption performance, and can also reduce the time delay caused by encryption and decryption operations.

A data exchange system and method for creating a virtual channel are presented. The data exchange system comprises at least one content provider, at least one content receiver, and a communication platform for connecting the at least one content provider to the at least one content receiver. The communication platform is configured to create a virtual channel for transmitting data between a content provider and a content receiver in response to the content receiver satisfying predefined authentication conditions of the content provider, wherein the virtual channel specifies at least a part of the data to transmit.

Rules are applied at a network perimeter to outbound network communications that contain file attachments. The rules may, in a variety of circumstances, require wrapping of an outbound file from the endpoint in a portable encrypted container. The network perimeter may be enforced locally at the endpoint, or at any network device between the endpoint and a recipient.

An execution environment has a deployed virtual machine image. The virtual machine image provides a service that is identified by a role. The execution environment generates a measurement of the virtual machine image and provides it to a key service to request role keys that enable operation of the virtual machine image in the execution environment. The key service determines whether the virtual machine image is mapped to the role and, if so, returns the role keys to the requesting execution environment.

An execution environment has a deployed virtual machine image. The virtual machine image provides a service that is identified by a role. The execution environment generates a measurement of the virtual machine image and provides it to a key service to request role keys that enable operation of the virtual machine image in the execution environment. The key service determines whether the virtual machine image is mapped to the role and, if so, returns the role keys to the requesting execution environment.

A content delivery platform is provided that includes generating a first content package of content that is encrypted with a unique symmetric key, and a second content package including a link encrypted with the key to the first content package. The first content package is stored in a repository, and a request including the key is transmitted to a first computing device associated with a mail exchange for an encryption key file. An encryption key file is generated using the unique symmetric key and together with a authorizing token is received. A third content package is generated that is encrypted using the encryption key file and includes the encrypted link. The third content package is transmitted to a distributor gateway and the encrypted link is accessible in response to the consumer decrypting the third content package. The link is available to provide to access to the content for the consumer.

In general, embodiments of the technology relate to encryption requirements for distributed data archives. More specifically, embodiments of the technology relate to accessing globally distributed data archives by way of local query nodes while providing that encryption rules are enforced.

An apparatus, system, and method are disclosed for secure data transmissions. A method includes receiving a request for data that is encrypted according to a first encryption scheme, and determining a first public IP address associated with the request. The first public IP address identifies a remote client that created the request and is located in a field of a data packet that includes the request. The method includes determining a second public IP address associated with the request that identifies a sender of the request and is determined dynamically when the request is received. The method includes verifying an authenticity of the request in response to the first public IP address of the remote client matching the second public IP address of the sender. The method includes encrypting the requested data according to a second encryption scheme, and transferring the data to the remote client.