Abstract: Systems and methods for securing user location data are described. A method includes receiving, by a location server computer, an encrypted location from a mobile device. The encrypted location is a location of the mobile device encrypted with a public key. The method then includes receiving, by the location server computer, a location request message from an interaction processing server and partially decrypting, by the location server computer, the encrypted location with a first private key share to form a partially decrypted location. The method further includes transmitting, by the location server computer to the interaction processing server, a location response message with the encrypted location and the partially decrypted location. The interaction processing server then uses the partially decrypted location and the second private key share to form a decrypted location.

Abstract: Methods and systems are presented for facilitating a data migration process between two data centers in an automated and secured manner. Based on detection of an event, a migration server initiates a data migration process for migrating data from a source data center to a destination data center. The migration server transmits instructions to a first migration application of the source data center, which causes the first migration application to retrieve the data, encrypt the data within an attested enclave of the source data center, and transfer the encrypted data to a pipeline. The migration server also transmits instructions to a second migration application of the destination data center, which causes the second migration application to retrieve the encrypted data from the pipeline, decrypt the encrypted data in an attested enclave of the destination data center, and store the decrypted data in a data storage of the destination data center.

Abstract: Methods and systems are presented for facilitating a data migration process between two data centers in an automated and secured manner. Based on detection of an event, a migration server initiates a data migration process for migrating data from a source data center to a destination data center. The migration server transmits instructions to a first migration application of the source data center, which causes the first migration application to retrieve the data, encrypt the data within an attested enclave of the source data center, and transfer the encrypted data to a pipeline. The migration server also transmits instructions to a second migration application of the destination data center, which causes the second migration application to retrieve the encrypted data from the pipeline, decrypt the encrypted data in an attested enclave of the destination data center, and store the decrypted data in a data storage of the destination data center.

Abstract: Systems and methods for securing user location data are described. A method includes receiving, by a location server computer, an encrypted location from a mobile device. The encrypted location is a location of the mobile device encrypted with a public key. The method then includes receiving, by the location server computer, a location request message from an interaction processing server and partially decrypting, by the location server computer, the encrypted location with a first private key share to form a partially decrypted location. The method further includes transmitting, by the location server computer to the interaction processing server, a location response message with the encrypted location and the partially decrypted location. The interaction processing server then uses the partially decrypted location and the second private key share to form a decrypted location.

Abstract: Systems and methods for securing user location data are described. A method includes receiving, by a location server computer, an encrypted location from a mobile device. The encrypted location is a location of the mobile device encrypted with a public key. The method then includes receiving, by the location server computer, a location request message from an interaction processing server and partially decrypting, by the location server computer, the encrypted location with a first private key share to form a partially decrypted location. The method further includes transmitting, by the location server computer to the interaction processing server, a location response message with the encrypted location and the partially decrypted location. The interaction processing server then uses the partially decrypted location and the second private key share to form a decrypted location.

Abstract: Systems and methods for securing user location data are described. A method includes receiving, by a location server computer, an encrypted location from a mobile device. The encrypted location is a location of the mobile device encrypted with a public key. The method then includes receiving, by the location server computer, a location request message from an interaction processing server and partially decrypting, by the location server computer, the encrypted location with a first private key share to form a partially decrypted location. The method further includes transmitting, by the location server computer to the interaction processing server, a location response message with the encrypted location and the partially decrypted location. The interaction processing server then uses the partially decrypted location and the second private key share to form a decrypted location.