d-bis/smom-dbis-138
4
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
1fb72664696e8c427adf0e1d280f5f658745ff8e
smom-dbis-138/script/DeployWETH9Direct.s.sol
defiQUG 1fb7266469 Add Oracle Aggregator and CCIP Integration 
- Introduced Aggregator.sol for Chainlink-compatible oracle functionality, including round-based updates and access control.
- Added OracleWithCCIP.sol to extend Aggregator with CCIP cross-chain messaging capabilities.
- Created .gitmodules to include OpenZeppelin contracts as a submodule.
- Developed a comprehensive deployment guide in NEXT_STEPS_COMPLETE_GUIDE.md for Phase 2 and smart contract deployment.
- Implemented Vite configuration for the orchestration portal, supporting both Vue and React frameworks.
- Added server-side logic for the Multi-Cloud Orchestration Portal, including API endpoints for environment management and monitoring.
- Created scripts for resource import and usage validation across non-US regions.
- Added tests for CCIP error handling and integration to ensure robust functionality.
- Included various new files and directories for the orchestration portal and deployment scripts.
2025-12-12 14:57:48 -08:00

177 lines
7.2 KiB
Solidity
Raw Blame History

// SPDX-License-Identifier: MIT
pragma solidity ^0.8.19;
import {Script, console} from "forge-std/Script.sol";
import {WETH} from "../contracts/tokens/WETH.sol";
/**
* @title DeployWETH9Direct
* @notice Deploy WETH9 directly to the exact address from genesis.json
* @dev Since the address is pre-allocated in genesis.json, we can:
* 1. Calculate the salt if we know the deployer (reverse CREATE2 calculation)
* 2. Use vm.startPrank to impersonate any deployer address
* 3. Deploy using CREATE2 with the calculated salt
*
* Alternatively, if the address is just pre-allocated in genesis, we might
* be able to deploy directly to it using vm.etch (for testing) or by
* ensuring the deployment happens at the right nonce/conditions.
*/
contract DeployWETH9Direct is Script {
// Target address from genesis.json
address constant TARGET_WETH9 = 0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2;
// Standard CREATE2 deployer (commonly used for deterministic deployments)
address constant CREATE2_DEPLOYER = 0x4e59b44847b379578588920cA78FbF26c0B4956C;
function run() external {
console.log("Deploying WETH9 to exact address:", vm.toString(TARGET_WETH9));
console.log("Strategy: Calculate salt or use direct deployment");
// Get WETH bytecode
bytes memory wethBytecode = type(WETH).creationCode;
bytes32 bytecodeHash = keccak256(wethBytecode);
console.log("WETH9 bytecode hash:", vm.toString(bytecodeHash));
// Strategy 1: Try to calculate salt for known deployers
// We'll try the standard CREATE2 deployer first
uint256 salt = calculateSaltForAddress(CREATE2_DEPLOYER, wethBytecode, TARGET_WETH9);
if (salt != type(uint256).max) {
console.log("Found salt:", vm.toString(salt));
console.log("Using CREATE2 deployer:", vm.toString(CREATE2_DEPLOYER));
// Impersonate the CREATE2 deployer (if it exists on-chain)
// If it doesn't exist, we'll need to deploy it first or use a different approach
vm.startBroadcast();
// Deploy using CREATE2 with the calculated salt
address deployedAddress = deployWithCREATE2(CREATE2_DEPLOYER, wethBytecode, salt);
require(deployedAddress == TARGET_WETH9, "Address mismatch!");
// Verify deployment
WETH weth = WETH(payable(TARGET_WETH9));
console.log("WETH9 name:", weth.name());
console.log("WETH9 symbol:", weth.symbol());
console.log("WETH9 decimals:", weth.decimals());
vm.stopBroadcast();
console.log("\n=== Deployment Summary ===");
console.log("WETH9 Address:", vm.toString(TARGET_WETH9));
console.log("Deployer:", vm.toString(CREATE2_DEPLOYER));
console.log("Salt:", vm.toString(salt));
} else {
// Strategy 2: Since address is in genesis.json, it might be a special case
// We can try deploying directly using vm.etch (for testing) or
// by ensuring we deploy with the right nonce
console.log("Could not calculate salt for known deployers");
console.log("Trying alternative approach: deploy with vm.etch or direct deployment");
vm.startBroadcast();
// For testing: use vm.etch to set the bytecode directly
// Note: This only works in fork mode or local testnets
bytes memory deployedBytecode = abi.encodePacked(wethBytecode);
// Verify if contract already exists
uint256 codeSize;
assembly {
codeSize := extcodesize(TARGET_WETH9)
}
if (codeSize == 0) {
// Deploy a new WETH contract - it will get a random address
// But we want it at a specific address, so we need CREATE2
console.log("Contract does not exist yet at target address");
console.log("Need to use CREATE2 with correct salt and deployer");
revert("Cannot deploy to exact address without CREATE2 parameters");
} else {
console.log("Contract already exists at target address");
WETH weth = WETH(payable(TARGET_WETH9));
console.log("WETH9 name:", weth.name());
}
vm.stopBroadcast();
}
}
/**
* @notice Calculate what salt would produce the target address
* @dev This is a reverse CREATE2 calculation - we know the address, we need the salt
* Unfortunately, CREATE2 is a one-way function, so we can't directly reverse it
* But we can try common salts and see which one produces the target address
*
* CREATE2 formula: keccak256(0xff ++ deployer ++ salt ++ keccak256(bytecode))[12:]
*/
function calculateSaltForAddress(
address deployer,
bytes memory bytecode,
address target
) internal pure returns (uint256) {
bytes32 bytecodeHash = keccak256(bytecode);
// Try common salts
bytes32[] memory commonSalts = new bytes32[](20);
commonSalts[0] = bytes32(uint256(0)); // Zero
commonSalts[1] = bytes32(uint256(1)); // One
commonSalts[2] = bytes32(uint256(138)); // Chain ID
commonSalts[3] = keccak256("WETH9");
commonSalts[4] = keccak256("WETH");
commonSalts[5] = keccak256(abi.encodePacked(target));
commonSalts[6] = bytes32(uint256(uint160(target)));
for (uint256 i = 7; i < 20; i++) {
commonSalts[i] = keccak256(abi.encodePacked("WETH9", i));
}
for (uint256 i = 0; i < commonSalts.length; i++) {
bytes32 hash = keccak256(
abi.encodePacked(bytes1(0xff), deployer, commonSalts[i], bytecodeHash)
);
address computed = address(uint160(uint256(hash)));
if (computed == target) {
return uint256(commonSalts[i]);
}
}
return type(uint256).max; // Not found
}
/**
* @notice Deploy using CREATE2 with a specific deployer, bytecode, and salt
* @dev This requires the deployer contract to exist or be deployed first
*/
function deployWithCREATE2(
address deployerAddr,
bytes memory bytecode,
uint256 salt
) internal returns (address) {
// If deployer doesn't exist, we'd need to deploy it first
// For now, we'll use inline assembly to deploy with CREATE2
address addr;
assembly {
let ptr := mload(0x40)
// Copy bytecode to memory
let bytecodeLength := mload(bytecode)
let bytecodePtr := add(bytecode, 0x20)
mstore(ptr, bytecodeLength)
let codeDataPtr := add(ptr, 0x20)
codecopy(codeDataPtr, bytecodePtr, bytecodeLength)
// Deploy using CREATE2
addr := create2(0, codeDataPtr, bytecodeLength, salt)
if iszero(addr) {
revert(0, 0)
}
}
return addr;
}
}
Reference in New Issue View Git Blame Copy Permalink