Gespeichert in:
Bibliographische Detailangaben
1. Verfasser: Wang, Jian Sheng
Format: Preprint
Veröffentlicht: 2026
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2603.02690
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
_version_ 1866911481742753792
author Wang, Jian Sheng
author_facet Wang, Jian Sheng
contents Serverless wallet recovery must balance portability, usability, and privacy. Public registries enable decentralized lookup but naive identifier hashing leaks membership through enumeration. We present VA-DAR, a keyed-discovery protocol for ACE-GF-based wallets that use device-bound passkeys for day-to-day local unlock while supporting cross-device recovery using only a user-provided identifier (e.g., email) and a single recovery passphrase. As a discovery-and-recovery layer over ACE-GF, VA-DAR inherits ACE-GF's context-isolated, algorithm-agile derivation substrate, enabling non-disruptive migration to post-quantum algorithms at the identity layer. The design introduces a decentralized discovery-and-recovery layer that maps a privacy-preserving discovery identifier to an immutable content identifier of a backup sealed artifact stored on a decentralized storage network. Concretely, a user derives passphrase-rooted key material with a memory-hard KDF, domain-separates keys for artifact sealing and discovery indexing, and publishes a registry record keyed by a passphrase-derived discovery identifier. VA-DAR provides: (i) practical cross-device recovery using only identifier and passphrase, (ii) computational resistance to public-directory enumeration, (iii) integrity of discovery mappings via owner authorization, and (iv) rollback/tamper detection via monotonic versioning and artifact commitments. We define three sealed artifact roles, two update-authorization options, and three protocol flows (registration, recovery, update). We formalize security goals via cryptographic games and prove, under standard assumptions, that VA-DAR meets these goals while remaining vendor-agnostic and chain-agnostic. End-to-end post-quantum deployment additionally requires a PQ-secure instantiation of registry authorization.
format Preprint
id arxiv_https___arxiv_org_abs_2603_02690
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle VA-DAR: A PQC-Ready, Vendor-Agnostic Deterministic Artifact Resolution for Serverless, Enumeration-Resistant Wallet Recovery
Wang, Jian Sheng
Cryptography and Security
Serverless wallet recovery must balance portability, usability, and privacy. Public registries enable decentralized lookup but naive identifier hashing leaks membership through enumeration. We present VA-DAR, a keyed-discovery protocol for ACE-GF-based wallets that use device-bound passkeys for day-to-day local unlock while supporting cross-device recovery using only a user-provided identifier (e.g., email) and a single recovery passphrase. As a discovery-and-recovery layer over ACE-GF, VA-DAR inherits ACE-GF's context-isolated, algorithm-agile derivation substrate, enabling non-disruptive migration to post-quantum algorithms at the identity layer. The design introduces a decentralized discovery-and-recovery layer that maps a privacy-preserving discovery identifier to an immutable content identifier of a backup sealed artifact stored on a decentralized storage network. Concretely, a user derives passphrase-rooted key material with a memory-hard KDF, domain-separates keys for artifact sealing and discovery indexing, and publishes a registry record keyed by a passphrase-derived discovery identifier. VA-DAR provides: (i) practical cross-device recovery using only identifier and passphrase, (ii) computational resistance to public-directory enumeration, (iii) integrity of discovery mappings via owner authorization, and (iv) rollback/tamper detection via monotonic versioning and artifact commitments. We define three sealed artifact roles, two update-authorization options, and three protocol flows (registration, recovery, update). We formalize security goals via cryptographic games and prove, under standard assumptions, that VA-DAR meets these goals while remaining vendor-agnostic and chain-agnostic. End-to-end post-quantum deployment additionally requires a PQ-secure instantiation of registry authorization.
title VA-DAR: A PQC-Ready, Vendor-Agnostic Deterministic Artifact Resolution for Serverless, Enumeration-Resistant Wallet Recovery
topic Cryptography and Security
url https://arxiv.org/abs/2603.02690