Methods and apparatus for control of data and content protection mechanisms across a network using a download delivery paradigm. In one embodiment, conditional access (CA), digital rights management (DRM), and trusted domain (TD) security policies are delivered, configured and enforced with respect to consumer premises equipment (CPE) within a cable television network. A trusted domain is established within the user's premises within which content access, distribution, and reproduction can be controlled remotely by the network operator. The content may be distributed to secure or non-secure output domains consistent with the security policies enforced by secure CA, DRM, and TD clients running within the trusted domain. Legacy and retail CPE models are also supported. A network security architecture comprising an authentication proxy (AP), provisioning system (MPS), and conditional access system (CAS) is also disclosed, which can interface with a trusted authority (TA) for cryptographic element management and CPE/user device authentication.

An ID service provisioned on a server interacts with a corresponding ID app installed on a user device such as a smart phone for secure user authentication (login). A user acquires two asymmetric encryption keys pairs. One of the private keys is secured on SIM on the user device, and the other one stored in the ID app on the user device. At login attempt, the ID service generates two random challenge messages, and encrypts each of them with one of the public keys. Decryption of one challenge is conducted by the SIM and decryption of the other is done by the ID app. A token based on the two decrypted challenge results is returned to the ID service. Alternatively, a single challenge can be double-wrapped with the two keys. The verifies the results and enables secure login without requiring a password.

Embodiments of the present invention provide methods, systems and computer program products for the centralized, secure offloading of security services for distributed security enforcement points. In an embodiment, a network data processing system can be configured for centralized secure offload of security services for distributed security enforcement points and can include a set of security enforcement points controlling communication flows between devices in different less trusted zones of protection. The system also can include a security server communicatively coupled to the security enforcement points and hosting security services logic disposed in a more trusted zone of protection. Each of the security enforcement points can include an interface to the security services logic and program code enabled to offload security related services processing through the interface to the security services logic disposed in the more trusted zone of protection.

A system and method for sharing electronic data between participants of a phone conference, such as an online presentation, without a need to exchange passwords to link two devices together for data transfer nor go through a login procedure to access the data resource. To achieve this, the participants use a device or software application that samples the audio of the phone conversation and creates a stream of audio fingerprints. The streams of fingerprints are sent to a matching service on the internet. This matching service finds the fingerprints that correspond to the same conversation among the streams of simultaneous users. Once a match is found with a high enough confidence level, the matching service exchanges identifiers such as public IP addresses and sends those back to the fingerprinting units. When instructed by the user, the units can then proceed to setup a secure data connection.

Apparatus, methods and systems facilitating communications via a mobile internet-enabled connection interface are provided. One apparatus is configured to perform various operations, including performing a first type of security function associated with determining whether an information package is authorized to be received and downloaded to a device other than the apparatus, wherein the information package is associated with updating a functionality of the device; and performing a second type of security function associated with identifying an authorized user of the apparatus.

A providing device according to the present application includes a detecting unit and a providing unit. The detecting unit detects a function, from among functions used for communication with an authentication server that authenticates the identity of a user by verifying a signature of authentication result information that is information created by adding the signature using a predetermined key to an authentication result obtained by an authentication device that performs personal authentication on the user and that is information processed by a specific authentication procedure, that is not held by a terminal device that is used by the user. The providing unit provides the function detected by the detecting unit to the terminal device that is used by the user.

A security network system may include a security gateway operable to establish a client session between the security gateway and a client device. The security gateway is operable to receive client session information from the client session. The client session information includes an identification of a server with which the client device needs to exchange data. The security network system may also include a Hardware Security Module (HSM) in communication with the security gateway. The HSM is operable to establish, in concert with the security gateway, a secure session between the security gateway and the server based on the client session data, a public key, a secret key, and context attributed to the secure session.

Techniques to securely store and retrieve data are disclosed. In various embodiments, a process of retrieving secure data includes receiving a request, where the request includes a first secret data and a second secret data. The process further includes identifying a first encrypted data to retrieve based on the request, using the first secret data to decrypt the first encrypted data to generate a decrypted data, generating a second encrypted data, where the second encrypted data is encrypted using the second secret data. In response to the request, the second encrypted data is provided.

A semiconductor memory device includes a memory core including a plurality of memory cells, an on-chip processor and a memory security controller. The on-chip processor performs on-chip data processing. The memory security controller decrypts encrypted data provided from the memory core or from a memory controller and to provide the decrypted data to the on-chip processor and encrypts result data from the on-chip processor to provide result-encrypted data to the memory core or the memory controller. Data processing efficiency may be enhanced without degradation of data security by decrypting the encrypted data in the semiconductor memory device to perform the on-chip data processing.

There is provided a networked computing system comprising one or more network endpoints and an intermediate device which includes a hardware processor connected to a non-transitory memory. The intermediate device is configured to receive a secure input of a type using a one-to-one encryption and decryption protocol from a client computer and communicates with the at least one network endpoint.