A Secure, Modular, Upgradeable Smart Contract Wallet enabling mass adoption of Web3
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Modularity is one of the key principles in software engineering. Modular architecture and code enable high reusability, easy maintainability & testing, lesser interdependency between components, and most importantly provide straightforward purpose and functionality that reduce code bugs and security issues.
Barz also considers Modularity as the key principle across the overall architecture and at the code level.
For modularity, we impose the EIP-2535 Diamond, Multi-Facet Proxy standard and provide each feature-set in a single facet attached to Diamond(Barz). These modules include:
Each of these modules can be attached and detached by the owner whenever they want.
Barz detaches the storage of each module through FacetStorage
, and Barz modules will only access the FacetStorage
the module needs. This reduces the chance of accessing unneeded storage and unwanted modification of storage from modules, especially during implementation upgrade.
With this architecture of detaching the storage each module use, Barz helps prevent each module from having storage collisions which reduces introducing potential vulnerability in proxy pattern.
Barz's architecture also provides benefits on upgrades. While the conventional proxy pattern requires upgrading the whole logic implementation to upgrade a part of it, Barz only needs relevant modules to be replaced accordingly, which introduces Modular Upgradeability to Accounts.
Modular architecture helps to break down the code into smaller modules, which contributes to isolating and limiting the functionality of each module. This helps to reduce the attack surface and limit the potential damage caused by a security breach in a module. This is maximized together with Barz's architecture of only accessing to the storage the module needs.
Unlike other upgradeable architecture which needs an upgrade of the whole logic contract or the whole module containing the feature set, the architecture of Barz supports modular upgradeability for each function, allowing maximum modularity and upgradeability in the wallet contract.
As a form of this, our account contract "Barz" supports multiple signature scheme. Users will be able to change the signature scheme very seamlessly with function calls on the account contract. This enables users to multiple options of wallet UX, for example:
Users wanting a seamless interaction, and no privateKey back up. They can use ECDSA on Secp256r1 signature scheme and use the passkey("WebAuthn") to securely protect their private key in the password manager (e.g., iCloud keychain).
Users wanting to use the conventional wallet style or hardware wallets might want to use the ECDSA("Secp256k1") signature scheme for signature verification.
Currently, we are supporting 2 signature schemes(ECDSA on Secp256k1 & Secp256r1 Curve), however, we'll continue to expand our support for multiple different signature schemes including BLS & PQC, etc
This is enabled by a modular architecture of having signature facets being attached and detached to the account facet according to the preference of the user's regarding the UX each signature scheme could provide.
During the signature scheme update, the updating function should check the following:
yarn
yarn compile
yarn test
yarn size
forge test