FailSafe: Advanced Security for Digital Assets
  • Introduction to FailSafe
  • Whitepaper
    • Introduction
      • Defense-in-Depth
      • Forward Security
    • Web3 Threats to Your Crypto
      • The Human Factor: Design with Operator Error in Mind
    • Defense-in-Depth & the Lifecycle of a Transaction
      • Defense 1: de-risk Web3 Asset Positions
      • Defense 2: FailSafe Blockchain Reconnaissance
      • Defense 3: FailSafe Interceptor Service
      • Discussion
    • FailSafe Architecture
      • Forward Security in FailSafe
        • Quantum Threats to EVM-based Blockchains
          • On ECDSA Key Re-use
          • On New Quantum-resilient Alternatives
          • Account Abstraction as a Path to Sunseting ECDSA on Ethereum?
        • Introducing the Quantum Migration Tool (qMig)
          • Assumptions and Goals
          • How Does qMig work?
          • Discussion
          • FailSafe+qMig
    • Conclusion
    • Further Reading
  • How FailSafe helps your Organisation
    • Reduce Attack Surface Area
    • Radar for Security Risks
    • React to Malicious Threats
    • Forward Security against Looming Quantum Computing Threats
  • FailSafe as a tool for Enterprise Risk Management
Powered by GitBook
On this page
  1. Whitepaper
  2. Defense-in-Depth & the Lifecycle of a Transaction

Discussion

As a result of all these measures, the antifraud gauntlet of mechanisms would have been effective, and in light of any user mistakes, the user’s assets would have been saved. But in the event that the attackers transaction got through, any loss would be minimized, since at any one time the vast majority of user assets are under the ownership of the cold wallet address which is highly restricted and protected, it never interacts with external addresses.

Last updated 2 years ago