1fb7266469
- 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.
70 lines
2.1 KiB
Solidity
70 lines
2.1 KiB
Solidity
// SPDX-License-Identifier: MIT
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pragma solidity ^0.8.19;
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import {Test, console} from "forge-std/Test.sol";
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import {Multicall} from "../contracts/utils/Multicall.sol";
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import {WETH} from "../contracts/tokens/WETH.sol";
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contract MulticallTest is Test {
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Multicall public multicall;
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WETH public weth;
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function setUp() public {
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multicall = new Multicall();
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weth = new WETH();
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vm.deal(address(this), 10 ether);
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}
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function testAggregate() public {
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weth.deposit{value: 1 ether}();
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Multicall.Call[] memory calls = new Multicall.Call[](2);
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calls[0] = Multicall.Call({
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target: address(weth),
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callData: abi.encodeWithSignature("totalSupply()")
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});
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calls[1] = Multicall.Call({
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target: address(weth),
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callData: abi.encodeWithSignature("balanceOf(address)", address(this))
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});
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bytes[] memory results = multicall.aggregate(calls);
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uint256 totalSupply = abi.decode(results[0], (uint256));
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uint256 balance = abi.decode(results[1], (uint256));
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assertEq(totalSupply, 1 ether);
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assertEq(balance, 1 ether);
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}
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function testTryAggregate() public {
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weth.deposit{value: 1 ether}();
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Multicall.Call[] memory calls = new Multicall.Call[](2);
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calls[0] = Multicall.Call({
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target: address(weth),
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callData: abi.encodeWithSignature("totalSupply()")
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});
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calls[1] = Multicall.Call({
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target: address(0xdead),
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callData: abi.encodeWithSignature("balanceOf(address)", address(this))
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});
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Multicall.Result[] memory results = multicall.tryAggregate(false, calls);
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assertTrue(results[0].success);
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assertFalse(results[1].success);
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}
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function testGetChainId() public {
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uint256 chainId = multicall.getChainId();
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assertEq(chainId, block.chainid);
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}
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function testGetCurrentBlockNumber() public {
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uint256 blockNumber = multicall.getCurrentBlockNumber();
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assertEq(blockNumber, block.number);
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}
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}
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