Stay up to Date on the Latest in Bitcoin Tech

Sep 15 - Sep 21, 2025

Toby Sharp introduces an innovative approach to Bitcoin consensus rules through the development of the Hornet Node and a domain-specific language (DSL), Hornet DSL, which facilitates a declarative and executable framework aimed at enhancing the understanding and implementation of Bitcoin's consensus mechanisms. This project has reached a significant milestone by successfully synchronizing headers and blocks, with plans to incorporate full script validation, demonstrating its potential to align with and improve upon Bitcoin's existing protocol standards. The initiative underscores a broader movement towards increasing the transparency, efficiency, and security in blockchain technology development, with further details available at [Hornet Node and the Hornet DSL: A Minimal, Executable Specification for Bitcoin Consensus](hornetnode.org/paper.html). ZmnSCPxj presents the MultiChannel and MultiPTLC constructions within the Bitcoin Lightning Network as a novel solution to achieve high availability, consistency, and partition tolerance, enhancing network reliability. These constructions introduce a shift in trust dynamics, requiring Lightning Service Providers (LSPs) to trust each other regarding fund safety, while ensuring users' funds remain secure under all conditions. The proposed Decker-Wattenhofer nested construction variant aims to reduce the need for mutual trust among LSPs by utilizing a complex network of payment channels to prevent unauthorized fund access, despite the challenges in managing channel states and the necessity for periodic and onchain cleanups to maintain operability. This development signifies a substantial step forward in addressing the Lightning Network's critical issues of availability, consistency, and partition tolerance, detailed further at [A Decker-Wattenhofer MultiChannel for Reduced Inter-LSP Trust](https://delvingbitcoin.org/t/a-decker-wattenhofer-multichannel-for-reduced-inter-lsp-trust/1994).

Sep 8 - Sep 14, 2025

The workshop on CHECKSIGFROMSTACK, led by Michael Zaikin, brought together Bitcoin developers to delve into the Bitcoin Improvement Proposal (BIP), exploring its applications and transaction creation techniques. The session emphasized community collaboration in advancing Bitcoin's development, with subsequent workshops planned to further investigate the creation and implications of different types of pools using CTV and CSFS technologies [source](https://ctv-csfs-workshops.github.io/bip348/logs). In parallel, significant strides were made in Bitcoin Core's development, with the release candidate for version 30.0rc1 announced by fanquake, marking a critical step towards the new major version. This release candidate, available for testing, introduces various updates and improvements, encouraging community feedback to ensure its readiness for official release [source](https://delvingbitcoin.org/t/bitcoin-core-v30-0-release-candidate-is-available/1980). Keyser Söze proposed two Bitcoin Improvement Proposals aiming to enhance wallet interoperability and security through standardized encryption and serialization formats, underscoring an ongoing effort to achieve a more secure, standardized, and interoperable framework within the Bitcoin ecosystem [source](https://gnusha.org/pi/bitcoindev/06b5d067-7293-4618-b3c5-510380a55efan@googlegroups.com/T/#u#m1bfc71750061f5bc1b4867968cbe5933e4cf36f9). Meanwhile, ZmnSCPxj's discussion on the CAP Theorem's implications for Bitcoin and the Lightning Network highlighted the trade-offs between consistency, availability, and partition tolerance in distributed systems. The analysis illustrated how Bitcoin’s design prioritizes availability and partition tolerance, while the Lightning Network seeks to achieve consistency and partition tolerance, suggesting innovations like multi-signature schemes and Point Time-Locked Contracts (PTLCs) to balance these principles with the needs of financial transactions [source](https://delvingbitcoin.org/t/multichannel-and-multiptlc-towards-a-global-high-availability-cp-database-for-bitcoin-payments/1983).

Sep 1 - Sep 7, 2025

The development team at WizardSardine has made significant strides in securing Liana wallet descriptors, incorporating an encryption scheme inspired by Salvatore Ingala's work, with the progress documented through draft implementations and a Bitcoin Improvement Proposal (BIP) for community feedback. Resources and discussions have been made available on [GitHub](https://github.com/bitcoin/bips/pull/1951) and [DelvingBitcoin](https://delvingbitcoin.org/t/a-simple-backup-scheme-for-wallet-accounts), highlighting the technical advancements and open questions regarding cryptographic methodologies and the choice of cipher. An upcoming Bitcoin development workshop, detailed on [ctv-csfs-workshops.github.io](https://ctv-csfs-workshops.github.io/bip119/logs), aims to deepen the understanding of BIP 348 and the creation of CSFS transactions, indicating a concerted effort to engage the community in protocol enhancement discussions. Concurrently, the release of Bitcoin Knots version 29.1.knots20250903, as announced by Luke Dashjr, brings new features and improvements to the software, with further details and community engagement opportunities available at [bitcoinknots.org](https://bitcoinknots.org/files/29.x/29.1.knots20250903/). Christopher Allen's efforts to integrate FROST with BDK for enhancing Bitcoin's security through distributed key generation and Schnorr-based signatures are showcased through demonstrations and resources available at [Blockchain Commons' GitHub](https://github.com/sponsors/BlockchainCommons). This initiative exemplifies the ongoing advancements in Bitcoin technology and the community's dedication to improving security and functionality. Meanwhile, research revealing vulnerabilities in the Bitcoin network through stealthier variants of BGP hijacking underscores the critical need for enhanced security measures, as discussed on [DelvingBitcoin](https://delvingbitcoin.org/t/eclipsing-bitcoin-nodes-with-bgp-interception-attacks/1965), suggesting strategies for mitigating potential eclipse attacks and emphasizing the importance of robust defense mechanisms.