A method is provided of managing a non-static collection of machines. A first client machine runs a first communication protocol. The non-static collection of machines includes a first linear communication orbit, the first linear communication orbit comprising a sequence of machines that run the first communication protocol, and a second linear communication orbit, the second linear communication orbit comprising a sequence of machines that run a second communication protocol distinct from the first communication protocol. The first client machine receives an instruction from a server to install the second communication protocol, installs the second communication protocol, and then submits a registration request to the server. The first client machine receives, from the server, contact information of a list of potential neighbors. The first client machine then, proactively constructs and maintains a respective local segment of the second linear communication orbit.

Disclosed are examples of systems, apparatus, devices, computer program products, and methods implementing aspects of a decentralized content fabric. In some implementations, one or more processors are configured to execute a software stack to define a fabric node of a plurality of fabric nodes of an overlay network situated in an application layer differentiated from an internet protocol layer. The defined fabric node is configured to: obtain a request for digital content from a client device; obtain, from one or more of the plurality of fabric nodes, a plurality of content object parts of a content object representing, in the overlay network, at least a portion of the digital content; generate consumable media using: raw data stored in the content object parts, metadata stored in the content object parts, and build instructions stored in the content object parts; and provide the consumable media to the client device. In some instances, the consumable media is further generated using a digital contract stored in a blockchain.

The technology described herein documents and verifies interactions in a cloud computing environment. The system creates a first partition within the cloud computing environment for a first entity and a second partition within the cloud computing environment for a second entity. A blockchain ledger can be created for a set of interactions between the first entity and the second entity, where the blockchain ledger is disengaged when the first entity and the second entity are not interacting. The system can receive a request from the first entity for an interaction with the second entity and can activate the blockchain ledger. In response to receiving consensus from a blockchain community within the cloud computing environment, the system can allow the interaction, where the interaction is appended to the blockchain ledger.

Provided is a process, medium, or system including using block chain as a distributed routing environment for routing data between edge-based data centers.

Disclosed are examples of systems, apparatus, devices, computer program products, and methods implementing aspects of a decentralized content fabric. In some implementations, one or more processors are configured to provide fabric nodes of an overlay network, including one or more fabric nodes that receive a client’s request to access digital content on the overlay network. The request includes an authorization token digitally signed by or on behalf of a user of the client. The fabric node(s) extract a user identifier (ID) from the authorization token, then determine that one or more rules maintained on the overlay network are satisfied. The one or more rules condition access to the digital content upon the extracted user ID matching an ID associated with an owner of a digital instrument. The digital instrument, which can be a non-fungible token, is stored in a blockchain ledger as a unique representation of the digital content.

Disclosed herein are enhancements for operating a web application firewall to reduce load. In one implementation, a method of operating a content server for a web application comprising running a web accelerator with a plurality of threads on the content server. The method further provides receiving a request for content which will be provided to a web application, filtering the request and determining that the content will be requested from a second server. After determining that the content will be requested from a second server, reviewing the request with a web application firewall operating at a network layer 7, forwarding the request, receiving the content, and providing the content. Further, the web application firewall is controlled by a plurality of sets of rules, which can be updated without restarting the web accelerator.

A tracking system and method for incorporating sensor measurements into a blockchain are provided. The system comprises at least one meter for measuring GHG emissions and generating measurements related to the emissions, at least one server communicating with the at least on meter over a peer-to-peer network. The peer-to-peer network is implemented as a distributed ledger of the blockchain. The at least one meter transforms the measurements into at least one carbon block and writes the at least one carbon block to the distributed ledger. The at least one carbon block is distributed to the at least one server via a blockchain protocol.

The subject technology receives, in an application on an electronic device, a message, the message being associated with a user and including information in a header portion of the message. The subject technology determines, on the electronic device, a current state of messaging activity of the user based at least in part on a log of previous events associated with the user, where the log of previous events includes information that has been hashed using a cryptographic hash function. The subject technology determines, on the electronic device using a set of rules provided by a machine learning model, that the user is likely to view the message based on the current state of the messaging activity of the user. The subject technology sets, on the electronic device, an indication that the message is important based on the determining.

A computer-implemented method (900) and system (1) for verifying the integrity of a computer software for installation using a distributed hash table (13) and a peer-to-peer distributed ledger (14). This may be the Bitcoin blockchain or an alternative implementation. The method includes determining (910) a metadata associated with a transaction record stored on the peer-to-peer distributed ledger (14). An indication of an entry stored on the distributed hash table (13) may be determined (920) from the metadata. The method further includes determining (930) a third hash value based on the computer software and determining (940) a fourth hash value from the entry on the distributed hash table (13). The method further includes comparing (950) the third hash value and the fourth hash value and verifying (960) the integrity of the computer software based on the comparing of the third hash value and the fourth hash value.

The processor may collect, from a first peer, a first data set associated with a channel. The channel may include one or more assets associated with a first peer. The channel may link the first peer to a second peer. The processor may analyze the first data set to determine a first status for the one or more assets. The processor may provide the first status of the one or more assets in a viewable channel to the blockchain network.