Aspects of this description provide for a computer program product comprising computer executable instructions. In at least some examples, the instructions are executable by a controller to cause the controller to broadcast, in a data frame, a scan request to a node, the scan request including a certificate of the controller and a public authentication key of the controller, receive, in the data frame, a scan response from the node, the scan response including a certificate of the node and a public authentication key of the node, and perform pairing between the controller and the node based on the public authentication key of the node and a private authentication key of the controller.

According to an aspect, a method for accessing a computing device includes receiving, by the computing device, an authentication credential for recovery access to the computing device, the authentication credential being different from an authentication credential used to access encrypted data on the computing device, obtaining, in response to receipt of the authentication credential for recovery access, a first key portion stored on the computing device, transmitting, over a network, a request to receive a second key portion, receiving, over the network, a response that includes the second key portion, recovering a decryption key using the first key portion and the second key portion, and decrypting the encrypted data on the computing device using the decryption key.

A method for sharing data encryption keys among a plurality of storage systems is disclosed. The method generates, by a first storage system, a data encryption key for encrypting data sent from the first storage system to cloud storage. The method stores the encrypted data in the cloud storage in the form of an encrypted data object. In certain embodiments, the first storage system stores an Internet Protocol (IP) address of a second storage system belonging to a same key sharing network as the first storage system. The method replicates, from the first storage system to the second storage system, the data encryption key. The second storage system retrieves the encrypted data object from the cloud storage and decrypts the encrypted data in the encrypted data object using the data encryption key received from the first storage system.

A method for authentication between a control module and a lighting module for a motor vehicle, in which at least one of the two modules is a transmitter module, the other being a receiver module, the two modules comprising a unit for transmitting/receiving data and being linked by a data communication channel that enables the modules to exchange data. The method including transmitting of data describing at least one authentication factor from the transmitter module to the receiver module, verification of the authentication factor by means of a calculation unit, and abandoning communication, in the receiver module, with the transmitter module if the verification fails, or otherwise continuing communication.

A method including determining, by a device, a sharing decryption key based at least in part on an assigned private key associated with the device and a group access public key associated with a group; decrypting, by the device, a group access private key associated with the group by utilizing the sharing decryption key; and decrypting, by the device, encrypted content included in a folder associated with the group based at least in part on utilizing the group access private key associated with the group. Various other aspects are contemplated.

Some embodiments of the invention provide a method for a trusted (or originator) device to modify the security state of a target device (e.g., unlocking the device) based on a securing ranging operation (e.g., determining a distance, proximity, etc.). The method of some embodiments exchanges messages as a part of a ranging operation in order to determine whether the trusted and target devices are within a specified range of each other before allowing the trusted device to modify the security state of the target device. In some embodiments, the messages are derived by both devices based on a shared secret and are used to verify the source of ranging signals used for the ranging operation. In some embodiments, the method is performed using multiple different frequency bands.

In one embodiment, a processor includes a memory hierarchy and a core coupled to the memory hierarchy. The memory hierarchy stores encrypted data, and the core includes circuitry to access the encrypted data stored in the memory hierarchy, decrypt the encrypted data to yield decrypted data, perform an entropy test on the decrypted data, and update a processor state based on a result of the entropy test. The entropy test may include determining a number of data entities in the decrypted data whose values are equal to one another, determining a number of adjacent data entities in the decrypted data whose values are equal to one another, determining a number of data entities in the decrypted data whose values are equal to at least one special value from a set of special values, or determining a sum of n highest data entity value frequencies.

Methods in a cloud object store facilitate strong data encryption, customer-management of object (encryption) keys, reductions in latency, globally-distributed object storage, and handling of streamed uploads. A method for encrypting objects stored in a cloud includes encrypting each object with a unique encryption (object) key. The plaintext object keys are generated in advance of uploads. The plaintext object keys can be stored in an object database in the cloud. Alternatively, the plaintext object keys can be provided to a customer's HSM, encrypted, and returned to the cloud, such that encrypted object keys, encrypted by the customer, are stored in the cloud. The cloud can alternatively encrypt the customer's object keys with a master key for the customer, which is then encrypted by the customer's HSM before being stored in the cloud. Proxies are also deployed for efficiently communicating with customer security modules.

Systems, devices, media, and methods are presented for retrieving authentication credentials and decryption keys to access remotely stored user-generated content. The systems and methods receive a first authentication credential and access a second authentication credential based on receiving the first authentication credential. The system and methods generate an authentication token and an encryption token. Based on the authentication token, the system and methods access a set of encrypted content and an encrypted content key. The systems and methods decrypt the encrypted content key using the encryption token and decrypt the set of encrypted content using the decrypted content key. At least a portion of the content is presented at the user device.

Technologies for providing shared memory for accelerator sleds includes an accelerator sled to receive, with a memory controller, a memory access request from an accelerator device to access a region of memory. The request is to identify the region of memory with a logical address. Additionally, the accelerator sled is to determine from a map of logical addresses and associated physical address, the physical address associated with the region of memory. In addition, the accelerator sled is to route the memory access request to a memory device associated with the determined physical address.