Abstract:
In some implementations, encrypted data (e.g., application data, keychain data, stored passwords, etc.) stored on a mobile device can be accessed (e.g., decrypted, made available) based on the context of the mobile device. The context can include the current device state (e.g., locked, unlocked, after first unlock, etc.). The context can include the current device settings (e.g., passcode enabled/disabled). The context can include data that has been received by the mobile device (e.g., fingerprint scan, passcode entered, location information, encryption key received, time information).
Abstract:
Some embodiments provide an electronic device with a novel content redaction engine. The content redaction engine of some embodiments determines whether to redact content for output based on whether a user is biometrically verified. When the content redaction engine receives verification data indicating that the user is biometrically verified, the device displays content without any portion redacted. On the other hand, when the content redaction engine does not receive such verification data, the device displays the content with at least a portion redacted. The electronic device of some embodiments additionally includes a biometric reader and a biometric verification engine. The biometric reader reads a person's uniquely identifying biometric data (e.g., thumbprint/fingerprint, iris scan, voice, etc.). This biometric information is then read by the biometric verification engine for comparison to a stored set of verified user biometric data. When the biometric data matches the stored data, the person is verified.
Abstract:
Some embodiments provide an electronic device with a novel content redaction engine. The content redaction engine of some embodiments determines whether to redact content for output based on whether a user is biometrically verified. When the content redaction engine receives verification data indicating that the user is biometrically verified, the device displays content without any portion redacted. On the other hand, when the content redaction engine does not receive such verification data, the device displays the content with at least a portion redacted. The electronic device of some embodiments additionally includes a biometric reader and a biometric verification engine. The biometric reader reads a person's uniquely identifying biometric data (e.g., thumbprint/fingerprint, iris scan, voice, etc.). This biometric information is then read by the biometric verification engine for comparison to a stored set of verified user biometric data. When the biometric data matches the stored data, the person is verified.
Abstract:
Some embodiments provide an electronic device with a novel content redaction engine. The content redaction engine of some embodiments determines whether to redact content for output based on whether a user is biometrically verified. When the content redaction engine receives verification data indicating that the user is biometrically verified, the device displays content without any portion redacted. On the other hand, when the content redaction engine does not receive such verification data, the device displays the content with at least a portion redacted. The electronic device of some embodiments additionally includes a biometric reader and a biometric verification engine. The biometric reader reads a person's uniquely identifying biometric data (e.g., thumbprint/fingerprint, iris scan, voice, etc.). This biometric information is then read by the biometric verification engine for comparison to a stored set of verified user biometric data. When the biometric data matches the stored data, the person is verified.
Abstract:
Some embodiments provide an electronic device with a novel content redaction engine. The content redaction engine of some embodiments determines whether to redact content for output based on whether a user is biometrically verified. When the content redaction engine receives verification data indicating that the user is biometrically verified, the device displays content without any portion redacted. On the other hand, when the content redaction engine does not receive such verification data, the device displays the content with at least a portion redacted. The electronic device of some embodiments additionally includes a biometric reader and a biometric verification engine. The biometric reader reads a person's uniquely identifying biometric data (e.g., thumbprint/fingerprint, iris scan, voice, etc.). This biometric information is then read by the biometric verification engine for comparison to a stored set of verified user biometric data. When the biometric data matches the stored data, the person is verified.
Abstract:
Some embodiments provide an electronic device with a novel content redaction engine. The content redaction engine of some embodiments determines whether to redact content for output based on whether a user is biometrically verified. When the content redaction engine receives verification data indicating that the user is biometrically verified, the device displays content without any portion redacted. On the other hand, when the content redaction engine does not receive such verification data, the device displays the content with at least a portion redacted. The electronic device of some embodiments additionally includes a biometric reader and a biometric verification engine. The biometric reader reads a person's uniquely identifying biometric data (e.g., thumbprint/fingerprint, iris scan, voice, etc.). This biometric information is then read by the biometric verification engine for comparison to a stored set of verified user biometric data. When the biometric data matches the stored data, the person is verified.
Abstract:
Some embodiments provide convenient auto-authentication for user data on a primary device, while still providing a significant level of security, by taking advantage of existing security and cryptographic measures used to communicate with a secondary device. The primary device of some embodiments encrypts the user data on the primary device using a cryptographic key based on a set of keys received from the secondary device. In some embodiments, the primary device encrypts authentication data, or a local key generated from the authentication data, using a remote key received from the secondary device, and encrypts the user data with the local key. In some embodiments, the keys received from the secondary device are an existing set of keys for establishing an encrypted channel of communication for transmitting digital rights management (DRM) protected content according to a DRM protection scheme.
Abstract:
Some embodiments provide convenient auto-authentication for user data on a primary device, while still providing a significant level of security, by taking advantage of existing security and cryptographic measures used to communicate with a secondary device. The primary device of some embodiments encrypts the user data on the primary device using a cryptographic key based on a set of keys received from the secondary device. In some embodiments, the primary device encrypts authentication data, or a local key generated from the authentication data, using a remote key received from the secondary device, and encrypts the user data with the local key. In some embodiments, the keys received from the secondary device are an existing set of keys for establishing an encrypted channel of communication for transmitting digital rights management (DRM) protected content according to a DRM protection scheme.
Abstract:
Some embodiments provide an electronic device with a novel content redaction engine. The content redaction engine of some embodiments determines whether to redact content for output based on whether a user is biometrically verified. When the content redaction engine receives verification data indicating that the user is biometrically verified, the device displays content without any portion redacted. On the other hand, when the content redaction engine does not receive such verification data, the device displays the content with at least a portion redacted. The electronic device of some embodiments additionally includes a biometric reader and a biometric verification engine. The biometric reader reads a person's uniquely identifying biometric data (e.g., thumbprint/fingerprint, iris scan, voice, etc.). This biometric information is then read by the biometric verification engine for comparison to a stored set of verified user biometric data. When the biometric data matches the stored data, the person is verified.
Abstract:
In some implementations, encrypted data (e.g., application data, keychain data, stored passwords, etc.) stored on a mobile device can be accessed (e.g., decrypted, made available) based on the context of the mobile device. The context can include the current device state (e.g., locked, unlocked, after first unlock, etc.). The context can include the current device settings (e.g., passcode enabled/disabled). The context can include data that has been received by the mobile device (e.g., fingerprint scan, passcode entered, location information, encryption key received, time information).