124 lines
3.7 KiB
Python
124 lines
3.7 KiB
Python
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#!/usr/bin/env python3
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"""
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Bond Sizing Analysis Tool
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Analyzes optimal bond sizing for trustless bridge
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"""
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import json
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import sys
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from typing import Dict, List
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from dataclasses import dataclass
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@dataclass
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class BondAnalysis:
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"""Bond sizing analysis result"""
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deposit_amount: float
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current_bond: float
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bond_multiplier: float
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min_bond: float
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optimal_bond: float
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recommendation: str
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def analyze_bond_sizing(
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deposit_amounts: List[float],
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bond_multiplier: float = 1.1,
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min_bond: float = 1.0,
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gas_price_eth: float = 0.0001, # 100 gwei in ETH
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attack_cost_multiplier: float = 1.2 # Attack should cost 20% more than profit
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) -> List[BondAnalysis]:
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"""
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Analyze bond sizing for various deposit amounts
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Args:
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deposit_amounts: List of deposit amounts in ETH
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bond_multiplier: Current bond multiplier (default 1.1 = 110%)
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min_bond: Minimum bond amount in ETH
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gas_price_eth: Gas price in ETH (for attack cost calculation)
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attack_cost_multiplier: Multiplier for attack cost vs profit
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Returns:
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List of bond analysis results
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"""
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results = []
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for deposit in deposit_amounts:
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# Current bond calculation
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current_bond = max(deposit * bond_multiplier, min_bond)
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# Attack cost (gas for fraudulent claim + bond)
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attack_gas_cost = 0.001 * gas_price_eth # Estimate 1M gas
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attack_total_cost = current_bond + attack_gas_cost
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# Profit from successful fraud
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fraud_profit = deposit
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# Optimal bond should make attack unprofitable
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# attack_cost >= fraud_profit * attack_cost_multiplier
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optimal_bond = (fraud_profit * attack_cost_multiplier) - attack_gas_cost
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optimal_bond = max(optimal_bond, min_bond)
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# Recommendation
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if current_bond >= optimal_bond:
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recommendation = "Current bond is sufficient"
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elif current_bond < optimal_bond * 0.9:
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recommendation = f"Consider increasing bond to {optimal_bond:.2f} ETH"
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else:
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recommendation = "Current bond is close to optimal"
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results.append(BondAnalysis(
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deposit_amount=deposit,
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current_bond=current_bond,
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bond_multiplier=bond_multiplier,
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min_bond=min_bond,
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optimal_bond=optimal_bond,
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recommendation=recommendation
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))
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return results
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def print_analysis(results: List[BondAnalysis]):
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"""Print bond analysis results"""
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print("=" * 80)
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print("Bond Sizing Analysis")
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print("=" * 80)
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print(f"{'Deposit':<12} {'Current Bond':<15} {'Optimal Bond':<15} {'Recommendation':<30}")
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print("-" * 80)
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for result in results:
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print(f"{result.deposit_amount:>10.2f} ETH "
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f"{result.current_bond:>12.2f} ETH "
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f"{result.optimal_bond:>12.2f} ETH "
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f"{result.recommendation:<30}")
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print("=" * 80)
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def main():
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"""Main entry point"""
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# Example deposit amounts to analyze
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deposit_amounts = [0.1, 0.5, 1.0, 5.0, 10.0, 50.0, 100.0]
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# Analyze bond sizing
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results = analyze_bond_sizing(deposit_amounts)
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# Print results
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print_analysis(results)
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# Optional: Export to JSON
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if len(sys.argv) > 1 and sys.argv[1] == '--json':
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output = {
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'analysis': [
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{
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'deposit_amount': r.deposit_amount,
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'current_bond': r.current_bond,
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'optimal_bond': r.optimal_bond,
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'recommendation': r.recommendation
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}
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for r in results
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]
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}
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print(json.dumps(output, indent=2))
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if __name__ == '__main__':
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main()
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