The present disclosure involves systems, software, and computer implemented methods for key pattern management. One example method includes receiving a query for a logical database table from an application. A determination is made as to whether the query is a write query. In response to determining that the query is a write query, a determination is made as to whether the query complies with a key pattern configuration that describes keys of records included in a physical database table that is part of a logical table implementation. The physical table includes records of the logical database table that are allowed to be written by the application. The write query is redirected to the physical database table in response to determining that the query complies with the key pattern definition. The query is rejected in response to determining that the query does not comply with the key pattern configuration.

Systems and methods for encrypted content management are provided and include generating a user private key, a user public key, and a symmetric encryption key. A group private key, a group public key, and a group symmetric encryption key are generated and the group private key is encrypted with the group symmetric encryption key. A first shared-secret key is generated based on the user public key and the group private key using a diffie-hellman exchange algorithm. The group symmetric encryption key is encrypted using the first shared-secret key to generate an escrow key. Plaintext data is encrypted using a content symmetric key. A second shared-secret key is generated based on an ephemeral private key and the group public key using a diffie-hellman exchange algorithm. The content symmetric key is encrypted using the second shared-secret key.

An electronic device and method of operating an electronic device are provided. The electronic device includes an integrated circuit including at least one key, at least one processor including the integrated circuit, and a memory operatively connected to the at least one processor. The memory stores instructions that, when executed, cause the at least one processor to obtain at least one piece of hardware information related to the electronic device, generate a signed certificate signing request including the at least one piece of hardware information, based on the at least one key, transmit the signed certificate signing request to an external electronic device, receive an attestation certificate generated based on the signed certificate signing request, from the external electronic device, and store the received attestation certificate in the memory.

This disclosure describes systems, methods, and devices related to security for multi-link operation. A device may determine a multi-link communication with a first multi-link device comprising two or more links associated with two or more station devices (STAs) included in the first multi-link device. The device may determine a first medium access control (MAC) address associated with a first link of the two or more links. The device may determine a second MAC address associated with a second link of the two or more links. The device may generate one or more pairwise security keys to be used in the multi-link communication on the two or more links. The device may cause to send a frame to the first multi-link device using at least one combination of the one or more pairwise security keys.

One disclosed example method includes obtaining a meeting cryptographic key; transmitting, from a client device to a video conference provider, a request to initiate an encrypted video conference, the encrypted video conference including a plurality of participants; distributing the meeting cryptographic key to each participant of the plurality of participants; obtaining a public cryptographic key of a key pair, the key pair including the public cryptographic key and a private cryptographic key; encrypting the meeting cryptographic key using the public cryptographic key; transmitting, from the client device to the video conference provider, a request to record the video conference; encrypting audio and video from a microphone and image sensor of the client device using the meeting cryptographic key; transmitting the encrypted audio and video to the video conference provider; and providing the encrypted meeting cryptographic key to the video conference provider.

This disclosure describes systems, methods, and devices related to security for multi-link operation. A device may determine a multi-link communication with a first multi-link device comprising two or more links associated with two or more station devices (STAs) included in the first multi-link device. The device may determine a first medium access control (MAC) address associated with a first link of the two or more links. The device may determine a second MAC address associated with a second link of the two or more links. The device may generate one or more pairwise security keys to be used in the multi-link communication on the two or more links. The device may cause to send a frame to the first multi-link device using at least one combination of the one or more pairwise security keys.

A form of the invention is applicable for use in conjunction with a security credential management system that produces and manages pseudonym digital certificates issued to vehicles and used by vehicles to establish trust in vehicle-to-vehicle communications, the security credential management system including a pseudonym certificate authority processor entity which issues pseudonym digital certificates to vehicles, a registration authority processor entity that validates, processes and forwards requests for pseudonym digital certificates to the pseudonym certificate authority processor entity, and a misbehavior authority processor entity that receives misbehavior reports from reporter vehicles that include information about the reporter vehicles and suspect misbehaving vehicles and is responsible for producing a list of revoked credentials; the pseudonym certificate processor entity and registration authority processor entity participating in producing linkage values to be contained within the issued pseudonym digital certificates, the linkage values being derived ultimately, using a one-way function, from linkage seeds thereby enabling, in predetermined circumstances, at least some of the certificates containing linkage values derived from a given linkage seed to be revoked. A method is set forth for improving operation of the security credential management system, including the following steps: in conjunction with deriving the linkage values from the linkage seeds, additionally producing encrypted linkage maps that relate, in encrypted form, linkage values with linkage seeds from which they are derived; determining particular linkage values deemed to be of interest based at least in part on information derived from misbehavior reports; and determining linkage seeds associated with the particular linkage values utilizing decryptions of the encrypted linkage maps.

Techniques described herein relate to a method for performing telemetry services for composed information handling systems. The method includes obtaining, by a system control processor manager, a telemetry request associated with a composed information handling system from a user associated with a group; in response to obtaining the telemetry request: identifying a telemetry intent associated with the telemetry request; aggregating telemetry data based on the telemetry intent to obtain aggregated telemetry data; encrypting the aggregated telemetry data based on telemetry distribution information associated with the group to obtain encrypted aggregated telemetry data; and providing the encrypted aggregated telemetry data to the group.

An end-to-end group messaging method or apparatus organizes a plurality of local groups of members into local-group (LG) trees and a public-group (PG) tree. Each tree has a plurality of nodes including a root node connecting to a plurality of leaf nodes. Each LG tree corresponds to a local group. Each member of a local group is associated with a leaf node of the corresponding LG tree. Each LG tree is associated with a leaf node of the PG tree. Members of a same local group may establish communication therebetween by using a group key associated with the root node of the LG tree of the local group. Members of all local groups may establish communication therebetween by using a group key associated with the root node of the PG tree.

In order to improve security upon distributing a group key, there is provided a gateway (20) to a core network for a group of MTC devices (10_1-10_n) communicating with the core network. The gateway (20) protects confidentiality and integrity of a group key, and distributes the protected group key to each of the MTC devices (10_1-10_n). The protection is performed by using: a key (Kgr) that is preliminarily shared between the gateway (20) and each of the MTC devices (10_1-10_n), and that is used for the gateway (20) to authenticate each of the MTC devices (10_1-10_n) as a member of the group; or a key (K_iwf) that is shared between an MTC-IWF (50) and each of the MTC devices (10_1-10_n), and that is used to derive temporary keys for securely conducting individual communication between the MTC-IWF (50) and each of the MTC devices (10_1-10_n).