Matt Corallo: Most crypto wallets are quantum secure, Bitcoin soft fork could require proof of seed phrase ownership, and the Ethereum Foundation is a leader in responding to quantum threats

Key takeaways

• Most crypto wallets use quantum-secure derivation schemes for seed phrases, improving security against quantum threats.
• A soft fork could be implemented in Bitcoin to require proof of ownership of the seed phrase, thereby addressing potential quantum threats.
• Identifying relevant Bitcoin developers is difficult due to noise from less influential contributors.
• Organizations like Chaincode Labs and Blockstream Research play a crucial role in advancing post-quantum security for Bitcoin.
• The Bitcoin community could adapt to post-quantum challenges faster than expected.
• There is consensus among Bitcoin developers on approaches to dealing with quantum threats.
• Preparing Bitcoin for a post-quantum world might be easier than expected, despite higher data requirements.
• Current post-quantum cryptographic systems are in their infancy and may not yet be reliable.
• Quantum computing poses a significant threat to all cryptographic protocols, including Bitcoin.
• The Ethereum Foundation is taking a more proactive approach to quantum threats compared to Bitcoin.
• It may take seven years for Bitcoin to transition to a post-quantum state, but proactive steps are being taken.
• Public perception of quantum threats may pose a greater risk to Bitcoin than the actual technological threat in the near term.

Guest presentation

Matt Corallo is a Bitcoin Core contributor at Chaincode Labs. He is co-founder of Blockstream and creator and maintainer of the Fast Internet Bitcoin Relay Engine (FIBER).

Quantum Security Measures in Crypto Wallets

• “Most crypto wallets use quantum-secure bypass schemes” – Matt Corallo
• Seed phrases in wallets improve security against quantum threats.
• A soft fork could require proof of ownership of the seed phrase to combat quantum threats.
• “We could do a soft fork into Bitcoin and require a seed phrase proof” – Matt Corallo
• Understanding wallet security mechanisms is crucial to guarding against quantum computing.
• Quantum security measures are already integrated into many crypto wallets.
• The implications of quantum computing for wallet security are significant.
• Adapting to quantum threats does not necessarily require extensive wallet upgrades.

Identify relevant Bitcoin developers

• “It can be difficult to tell who is relevant in the development of Bitcoin” – Matt Corallo
• Noise from less influential contributors makes it harder to identify key developers.
• Organizations like Chaincode Labs are focusing on post-quantum security.
• “Chaincode Labs has spent time charting a post-quantum future for Bitcoin” – Matt Corallo
• Understanding the dynamics of the Bitcoin development community is crucial.
• The distinction between impactful and non-impactful contributors is essential.
• Engaging with the right developers is essential for stakeholders.
• The Bitcoin community is preparing for post-quantum challenges.

Consensus and roadmap for post-quantum Bitcoin

• A consensus is forming among developers on how to deal with quantum threats.
• “There is consensus in terms of approaches” – Matt Corallo
• Preparing Bitcoin for a post-quantum world might be easier than expected.
• Higher data requirements must be taken into account when preparing for quantum threats.
• “Bitcoin core developers are conservative on data requirements” – Matt Corallo
• A roadmap to confront quantum threats is the subject of consensus.
• The technical feasibility of adapting Bitcoin is optimistic.
• Developers are actively working on post-quantum security measures.

Challenges and opportunities of post-quantum cryptography

• Current post-quantum cryptographic schemes are in their infancy.
• “Post-quantum schemes are still quite young” – Matt Corallo
• Hash-based signatures allow a gradual transition without immediate dependencies.
• “You can start using addresses that commit to using post-quantum hash-based signatures” – Matt Corallo
• The integration of new cryptographic methods is a strategic approach.
• The reliability of current post-quantum schemes is currently being evaluated.
• A gradual transition to post-quantum cryptography is possible.
• Bitcoin security measures are evolving to address future threats.

The impact of quantum computing on cryptographic protocols

• Quantum computing poses a significant threat to cryptographic protocols.
• “A quantum computer could keep plans secret, leaving its holders vulnerable” – Matt Corallo
• Ethereum is more proactive in combating quantum threats than Bitcoin.
• “The Ethereum Foundation has a group dedicated to this work” – Matt Corallo
• The threat of quantum computing requires immediate attention.
• The different strategies between Ethereum and Bitcoin highlight contrasting approaches.
• Quantum threats pose a critical risk in the blockchain space.
• Proactive measures are essential to mitigate quantum vulnerabilities.

Transition to post-quantum public keys

• The transition to post-quantum public keys involves community consensus.
• “You have to flip that switch, it’s up to the community” – Matt Corallo
• Cryptocurrencies face the same challenges as other cryptographic systems.
• “There’s not much unique about this crypto decision” – Matt Corallo
• Community consensus is crucial to accepting old public keys.
• The decision-making process involves complex considerations.
• The broader industry issue of quantum security affects all cryptographic systems.
• The transition to post-quantum security is a challenge common to all sectors.

Market dynamics and Bitcoin forks

• The market will prefer forks that disable insecure spending avenues.
• “The market will prefer the fork with insecure spending channels disabled” – Matt Corallo
• Market forces determine the value and fate of cryptocurrencies.
• “It depends on the market, not the consensus among all stakeholders” – Matt Corallo
• The role of market dynamics is essential in crypto forks.
• Developers prioritize principles like censorship resistance.
• “Contributors focus on principles rather than specific groups” – Matt Corallo
• The development of Bitcoin is guided by fundamental principles.

Lack of trust and quantum threats

• Lack of trust is a key focus for Bitcoin developers.
• “Lack of trust is the right answer for Bitcoin development” – Matt Corallo
• Quantum computing threatens Bitcoin’s lack of trust.
• “A quantum computer stealing coins impacts trust in the system” – Matt Corallo
• User trust is linked to lack of system trust.
• Developers prioritize user autonomy and security.
• Continued security considerations are necessary for Bitcoin.
• Quantum threats challenge the fundamentals of Bitcoin.

Bitcoin’s competition for capital

• Bitcoin faces competition from new investment classes like AI.
• “Bitcoin competes for capital with AI, a new class of investment” – Matt Corallo
• Short-term price movements are not a priority for developers.
• “Developers focus on principles, not short-term prices” – Matt Corallo
• Market dynamics could favor forks with lower supply.
• “Forks with lower supply could win in market dynamics” – Matt Corallo
• The changing investment landscape impacts Bitcoin’s performance.
• Developer priorities differ from market price fluctuations.

Crypto Risks and Mitigation Strategies

• Traditional mathematical advances could threaten cryptography.
• “There is a risk that traditional advances will lead to cryptographic problems” – Matt Corallo
• Requiring multiple signature systems can mitigate risk.
• “Require two different signing schemes to ensure security” – Matt Corallo
• Cryptographic vulnerabilities evolve gradually over time.
• “Cryptographic primitives weren’t broken overnight” – Matt Corallo
• Proactive measures are needed to address crypto risks.
• The blockchain community is thinking about technical solutions to complex problems.