The present disclosure provides a secure, user-transparent, and highly efficient content provider-specific identifier read-only cookie (“ROC”). These ROCs can be generated by the client device and encrypted with a public key of the content provider, preventing third parties from indirectly identifying matches. The ROCs can include authentication token to enable the client device to determine whether the ROC was cached or otherwise misused by a content provider or other third-party.

Embodiments of the present application provide a blockchain-based data evidence storage method, a blockchain-based data check method, and relevant apparatuses. The data evidence storage method comprises: performing irreversible encryption on data content of a target file to obtain irreversibly encrypted data of the target file; storing the irreversibly encrypted data in a blockchain and obtaining on-chain evidence storage information of the irreversibly encrypted data; generating a digital watermark of the on-chain evidence storage information; embedding the digital watermark into the target file; and storing the target file embedded with the digital watermark of the on-chain evidence storage information.

Embodiments of the disclosure provide a method for sharing content and a related terminal device. The method is applicable by an electronic device. The electronic device obtains a target emoji sequence based on an instruction related to target content. The target emoji sequence corresponds to the target content. In addition, the electronic device obtains a sharing token based on the target emoji sequence. Furthermore, the electronic device shares the target content based on the sharing token.

A controller receives an encrypted media stream (“EMS”) and an identifier indicative of a selected content key from a headend. The EMS is encrypted with an encryption key and can be decrypted with a corresponding decryption key which is determinable from the selected content key. The controller receives indexes and content keys from the headend prior to receiving the EMS. Each index respectively corresponds to an identifier with one index corresponding to the identifier indicative of the selected content key. The content keys correspond to the indexes with one content key corresponding to the index corresponding to the identifier indicative of the selected content key. The controller selects the index corresponding to the identifier indicative of the selected content key upon receiving the EMS, determines the selected content key from the selected index, determines the decryption key from the selected content key, and decrypts the EMS with the decryption key.

A novel architecture for a data sharing system (DSS) is disclosed and seeks to ensure the privacy and security of users' personal information. In this type of network, a user's personally identifiable information is stored and transmitted in an encrypted form, with few exceptions. The only key with which that encrypted data can be decrypted, and thus viewed, remains in the sole possession of the user and the user's friends/contacts within the system. This arrangement ensures that a user's personally identifiable information cannot be examined by anyone other than the user or his friends/contacts. This arrangement also makes it more difficult for the web site or service hosting the DSS to exploit its users' personally identifiable information. Such a system facilitates the encryption, storage, exchange and decryption of personal, confidential and/or proprietary data.

In some implementations, a system is capable of managing keys for encrypting media streams over UDP communications between a media source and an associated server. A key is initially generated for encrypting a media stream captured by a media source device associated with a monitoring system of a property. A first instruction is provided to the media source device and over a secure communication channel. The first instruction causes the media source device to encrypt the media stream using the key when received by the media source device. A second instruction is generated for decrypting the encrypted media stream. The second instruction is provided to a computing device associated with the property. The second instruction causes the computing device to decrypt the encrypted media stream when received by the computing device.

Methods and systems for authenticated supplemental content delivery are disclosed herein. The systems can include a first requestor and a second requestor. The system can include a plurality of networked servers. The plurality of networked servers can: receive a first supplemental content request including a digital certificate from the first requestor; determine the inclusion of the digital certificate in the first supplemental content request; validate the digital certificate; determine a supplemental content class from a set of supplemental content classes based on the digital certificate; select first supplemental content based on: the determined supplemental content class; and provide the selected first supplemental content in an electronic form to the first requestor.

A method is provided for managing key rotation (use of series of keys) and secure key distribution in over-the-top content delivery. The method provided supports supplying a first content encryption key to a content packaging engine for encryption of a first portion of a video stream. Once the first content encryption key has expired, a second content encryption key is provided to the content packaging engine for encryption of a second portion of a video stream. The method further provides for notification of client devices of imminent key changes, as well as support for secure retrieval of new keys by client devices. A system is also specified for implementing a client and server infrastructure in accordance with the provisions of the method.

A method and apparatus of a device that downloads content to a local device using a decentralized content distribution network is described. In an exemplary embodiment, the device receives a request from an application to download content using the decentralized content distribution network. In addition, the device determines a plurality of nodes in the decentralized content distribution network to download the content. For each of the plurality of nodes, the device attempts to establish communications between the device and that node. In addition, the device downloads a portion of the content from that node if communication is established between the local device and that node, wherein the size of the portion is based on at least a characteristic of that node. Furthermore, the device downloads a portion of the content from a proxy if communication cannot be established between the local device and that node, wherein the size of the portion is based on at least a characteristic of that proxy.

Methods are provided. A method includes receiving, by a real-time visual media generation engine of a streaming server, a visual medium input to be formed into a living artwork. The method further includes generating, by the real-time visual media generation engine, variational versions of the visual medium input as the living artwork. Each of the variational versions has one or more image elements altered based on one or more variables. Each of the variational versions is unique with respect to each other and persists for a period of time while non-variational versions maintain static content.