Secure Digital Provenance: Challenges and a New Design

Rangwala, Mohammed M.

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Derived from the field of art curation, digital provenance is an unforgeable record of a digital object's chain of successive custody and sequence of operations performed on the object. It plays an important role in accessing the trustworthiness of the object, verifying its reliability and conducting audit trails of its lineage. Digital provenance forms an immutable directed acyclic graph (DAG) structure. Since history of an object cannot be changed, once a provenance chain has been created it must be protected in order to guarantee its reliability. Provenance can face attacks against the integrity of records and the confidentiality of user information, making security an important trait required for digital provenance. The digital object and its associated provenance can have different security requirements, and this makes the security of provenance different from that of traditional data. Research on digital provenance has primarily focused on provenance generation, storage and management frameworks in different fields. Security of digital provenance has also gained attention in recent years, particularly as more and more data is migrated in cloud environments which are distributed and are not under the complete control of data owners. However, there still lacks a viable secure digital provenance scheme which can provide comprehensive security for digital provenance, particularly for generic and dynamic ones. In this work, we address two important aspects of secure digital provenance that have not been investigated thoroughly in existing works: 1) capturing the DAG structure of provenance and 2) supporting dynamic information sharing. We propose a scheme that uses signature-based mutual agreements between successive users to clearly delineate the transition of responsibility of the digital object as it is passed along the chain of users. In addition to preserving the properties of confidentiality, immutability and availability for a digital provenance chain, it supports the representation of DAG structures of provenance. Our scheme supports dynamic information sharing scenarios where the sequence of users who have custody of the document is not predetermined. Security analysis and empirical results indicate that our scheme improves the security of the typical secure provenance schemes with comparable performance.

availability

confidentiality

cryptography

integrity

provenance

signatures

Cryptography -- Research

Data protection -- Research

Digital signatures

Cultural property -- Protection

Computer networks -- Security measures

Database management

Databases -- Quality control

Computer networks -- Monitoring

Information services -- Quality control

Application software -- Development

Computer programs -- Validation

Smart card fault attacks on public key and elliptic curve cryptography

Ling, Jie

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Blömmer, Otto, and Seifert presented a fault attack on elliptic curve scalar multiplication called the Sign Change Attack, which causes a fault that changes the sign of the accumulation point. As the use of a sign bit for an extended integer is highly unlikely, this appears to be a highly selective manipulation of the key stream. In this thesis we describe two plausible fault attacks on a smart card implementation of elliptic curve cryptography. King and Wang designed a new attack called counter fault attack by attacking the scalar multiple of discrete-log cryptosystem. They then successfully generalize this approach to a family of attacks. By implementing King and Wang's scheme on RSA, we successfully attacked RSA keys for a variety of sizes. Further, we generalized the attack model to an attack on any implementation that uses NAF and wNAF key.

Smart Card

RSA

ECC

Fault Attack

Smart Card Security

Public Key

NAF

wNAF

Counter Fault Attack

Bit Flip Attack

Doubling Attack

Attack Simulation

Data encryption (Computer science)

Curves, Elliptic -- Data processing

Cryptography -- Mathematics

Public key cryptography -- Research

Data protection -- Research

Computer engineering -- Research

Coding theory

Computer security

Data structures (Computer science)

Embedded computer systems

Smart card industry

Computer networks -- Security measures

Computers -- Access control