The techniques herein are directed generally to a zero-knowledge data management network. Users are able to share verifiable proof of data and/or identity information, and businesses are able to request, consume, and act on the dataall without a data storage server or those businesses ever seeing or having access to the raw sensitive information (where server-stored data is viewable only by the intended recipients, which may even be selected after storage). In one embodiment, source data is encrypted with a source encryption key (e.g., source public key), with a rekeying key being an encrypting combination of a source decryption key (e.g., source private key) and a recipient's public key. Without being able to decrypt the data, the storage server can use the rekeying key to re-encrypt the source data with the recipient's public key, to then be decrypted only by the corresponding recipient using its private key, accordingly.

The techniques herein are directed generally to a zero-knowledge data management network. Users are able to share verifiable proof of data and/or identity information, and businesses are able to request, consume, and act on the dataall without a data storage server or those businesses ever seeing or having access to the raw sensitive information (where server-stored data is viewable only by the intended recipients, which may even be selected after storage). In one embodiment, source data is encrypted with a source encryption key (e.g., source public key), with a rekeying key being an encrypting combination of a source decryption key (e.g., source private key) and a recipient's public key. Without being able to decrypt the data, the storage server can use the rekeying key to re-encrypt the source data with the recipient's public key, to then be decrypted only by the corresponding recipient using its private key, accordingly.

The techniques herein are directed generally to a zero-knowledge data management network. Users are able to share verifiable proof of data and/or identity information, and businesses are able to request, consume, and act on the dataall without a data storage server or those businesses ever seeing or having access to the raw sensitive information (where server-stored data is viewable only by the intended recipients, which may even be selected after storage). In one embodiment, source data is encrypted with a source encryption key (e.g., source public key), with a rekeying key being an encrypting combination of a source decryption key (e.g., source private key) and a recipient's public key. Without being able to decrypt the data, the storage server can use the rekeying key to re-encrypt the source data with the recipient's public key, to then be decrypted only by the corresponding recipient using its private key, accordingly.

The techniques herein are directed generally to a zero-knowledge data management network. Users are able to share verifiable proof of data and/or identity information, and businesses are able to request, consume, and act on the dataall without a data storage server or those businesses ever seeing or having access to the raw sensitive information (where server-stored data is viewable only by the intended recipients, which may even be selected after storage). In one embodiment, source data is encrypted with a source encryption key (e.g., source public key), with a rekeying key being an encrypting combination of a source decryption key (e.g., source private key) and a recipient's public key. Without being able to decrypt the data, the storage server can use the rekeying key to re-encrypt the source data with the recipient's public key, to then be decrypted only by the corresponding recipient using its private key, accordingly.

For zero-touch provisioning of devices at scale using device configuration templates by device type, a secure element, a provisioning wizard, a provisioning client, an enrollment client, an update client, an enrollment service, an update publisher service, signing and encryption certificates, a method including generating device configuration templates for enrollment and update by device type, sending device configuration templates signed with a device owner signing certificate, and a device owner encryption certificate to the device manufacturer, generating a device configuration for a device based on the device configuration templates using a secure element on the device for immutable device identity, an extended configuration for the device, signing the device configuration with a device manufacturer signing certificate and a secure element signing certificate, encrypting the doubly signed device configuration with an owner encryption certificate, configuring bootstrap metadata, and configuring the device provisioning client to autostart at power-on for device enrollment and update.

Automated provisioning of hosts on a network with reasonable levels of security is described in this application. A certificate management service (CMS) on a host, one or more trusted agents, and a public key infrastructure are utilized in a secure framework to establish host identity. Once host identity is established, signed encryption certificates may be exchanged and secure communication may take place.

A virtual private network (VPN) over a telecommunications network is created by sending a request from a first VPN device to a second VPN device for establishing a VPN between the first and second VPN devices. The request includes a first signed certificate having a verified VPN parameter for the first VPN device. A reply is received at the first VPN device from the second VPN device that includes a second signed certificate having a verified VPN parameter for the second VPN device. The VPN is established between the first and second VPN devices based on each verified VPN parameter for each of the first and second VPN devices.

Systems and methods for detecting misuse of devices comprising: receiving, from a device, a message comprising a first hash of device data that is indicative of a current device location and usage; generating a second hash of stored data, the stored data being based on an expected location and usage associated with the device; comparing the first and second hashes; and when the first and second hashes do not match, generating an alert.

A method for requesting a credential associated with token in a multiple token layer environment is disclosed. A tokenization certificate serves to validate the identity of a credential requestor and provide information about the requestor's authorization for de-tokenizing a token. Also, a public key in the tokenization certificate is used to encrypt the credential for secure transmission to the requestor.

Apparatus and methods of operation of the apparatus that create a virtual machine and enable an Agent within the virtual machine to another Agent via a digital communications network and establish a communication channel for logical communications via the digital communications network. Communications transmitted and received according to the present invention proceed directly from a PeN agent to a second Agent without any storage or recordation of the transaction on an intermediate server. In some embodiments, the digital communications according to the present invention remain essentially imperceptible to network operators.