Design Hook

Overview

Designs a Uniswap V4 hook architecture without generating code. Delegates to the hook-builder agent in design-only mode to produce a comprehensive design document covering: which callbacks are needed, hook flag requirements, state management approach, gas estimates, security considerations, and architecture decisions. Use this to plan before building, or to evaluate feasibility.

When to Use

Activate when the user asks:

• "Design a hook for..."
• "What callbacks do I need for..."
• "Hook architecture for..."
• "Plan a V4 hook"
• "Is it possible to build a hook that..."
• "What would a dynamic fee hook look like?"
• "Help me think through a hook design"
• "Which flags do I need for a TWAMM?"

Parameters

Workflow

1. Extract parameters from the user's request: identify the hook behavior, constraints, and any external integrations.

2. Delegate to hook-builder in design-only mode: Invoke Task(subagent_type:hook-builder) with explicit instruction to produce a design document only -- no code generation, no file writes. The hook-builder will:

   • Analyze the requirements and determine which V4 callbacks are needed
   • Map callbacks to hook flags and validate the combination
   • Design the state management approach (what storage, what data structures)
   • Estimate gas overhead per callback
   • Identify security considerations specific to this hook design
   • Evaluate feasibility and flag any concerns

3. Present the design document to the user covering:

   • Callbacks needed and why each is required
   • Hook flags and bitmask
   • State management design (storage variables, data structures, access patterns)
   • Gas estimates and performance implications
   • Security considerations and mitigations
   • Architecture decisions with rationale
   • Comparison with alternative approaches if applicable

Output Format

Present a structured design document:

V4 Hook Design: Dynamic Fee Hook

  Callbacks Required:
    - beforeSwap: Read volatility oracle, calculate dynamic fee
    - beforeInitialize: Set initial fee parameters and oracle address

  Hook Flags: BEFORE_SWAP_FLAG | BEFORE_INITIALIZE_FLAG
  Bitmask: 0x2080

  State Management:
    - volatilityOracle: IVolatilityOracle (immutable, set in constructor)
    - baseFee: uint24 (configurable by owner)
    - maxFee: uint24 (cap to prevent excessive fees)
    - feeMultiplier: uint24 (scales with volatility)

  Gas Estimates:
    beforeSwap: ~30,000 gas (oracle read + fee calculation)
    beforeInitialize: ~25,000 gas (one-time setup)

  Security Considerations:
    - Oracle manipulation: Use TWAP, not spot price
    - Fee cap: Enforce maxFee to protect traders
    - Owner control: Fee parameters updatable by owner only

  Architecture Decisions:
    - Using beforeSwap (not afterSwap) to set fee before execution
    - External oracle for volatility data rather than on-chain calculation
    - Fee bounded between baseFee and maxFee for predictability

  Alternative Approaches:
    - On-chain volatility calculation (higher gas, no oracle dependency)
    - Fixed fee tiers with governance voting (simpler, less responsive)

Important Notes

• This skill produces a design document only -- no code is generated and no files are written.
• The design document provides enough detail to proceed with build-hook when the user is ready.
• If the hook design is infeasible (e.g., requires callbacks that V4 doesn't support), this will be clearly communicated.
• Gas estimates are approximations based on typical implementations -- actual gas depends on implementation details.

Error Handling