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contract/test/MockEnv.sol
Tim Olson 97b95e7ba3 mockenv staking/liquidity fix
2023-11-06 16:27:20 -04:00

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// SPDX-License-Identifier: UNLICENSED
//pragma solidity =0.7.6;
pragma solidity >=0.8.0;
pragma abicoder v2;
import "forge-std/console2.sol";
import "../src/MockERC20.sol";
import "../src/Util.sol";
import "../src/Constants.sol";
import "@uniswap/v3-core/contracts/interfaces/IUniswapV3Pool.sol";
import "@uniswap/v3-core/contracts/libraries/TickMath.sol";
import "@uniswap/v3-periphery/contracts/interfaces/INonfungiblePositionManager.sol";
import "@uniswap/v3-periphery/contracts/interfaces/ISwapRouter.sol";
import "@uniswap/v3-periphery/contracts/libraries/LiquidityAmounts.sol";
contract MockEnv {
INonfungiblePositionManager public nfpm = Constants.uniswapV3NonfungiblePositionManager;
ISwapRouter public swapper = Constants.uniswapV3SwapRouter;
IUniswapV3Pool public pool;
uint24 public fee;
MockERC20 public COIN;
MockERC20 public USD;
address public token0; // either COIN or USD depending on the order in the pool
address public token1;
bool public inverted;
// sets up two mock coins COIN and USD, plus a uniswap v3 pool.
// the initial price is 1.000000, but since COIN has 18 decimals and USD only has 6, the raw pool price is 1e-12
// therefore the sqrt price is 1e-6
// 1000e12 liquidity is put into the pool at each tick spacing for 10 tick spacings to either side of $1
function init() public {
COIN = new MockERC20('Mock Coin', 'MOCK', 18);
console2.log('COIN');
console2.log(address(COIN));
USD = new MockERC20('Universally Stable Denomination', 'USD', 6);
console2.log('USD');
console2.log(address(USD));
fee = 500;
inverted = address(COIN) > address(USD);
token0 = inverted ? address(USD) : address(COIN);
token1 = inverted ? address(COIN) : address(USD);
uint160 initialPrice = uint160(79228162514264337593543950336000000); // $1.00
console2.log('if this is the last line before a revert then make sure to run forge with --rpc-url');
// if this reverts here make sure Anvil is started and you are running forge with --rpc-url
pool = IUniswapV3Pool(nfpm.createAndInitializePoolIfNecessary(token0, token1, fee, initialPrice));
console2.log('v3 pool');
console2.log(address(pool));
// stake a super wide range so we have liquidity everywhere.
stake(10_000_000, TickMath.MIN_TICK, TickMath.MAX_TICK);
}
function stake(uint256 amount, int24 width) public {
require(width>0);
(, int24 tick, , , , ,) = pool.slot0();
stake(amount, tick-width, tick+width);
}
function stake(uint256 amount, int24 lower, int24 upper) public {
uint256 coinAmount = amount * 10**18 / 2;
uint256 usdAmount = amount * 10**6 / 2;
stake(coinAmount, usdAmount, lower, upper);
}
function stake(uint256 coinAmount, uint256 usdAmount, int24 lower, int24 upper) public
returns (
uint256 tokenId,
uint128 liquidity,
uint256 amount0,
uint256 amount1
)
{
return _stake(coinAmount, usdAmount, lower, upper);
}
function _stake(uint256 coinAmount, uint256 usdAmount, int24 lower, int24 upper) private
returns (
uint256 tokenId,
uint128 liquidity,
uint256 amount0,
uint256 amount1
)
{
console2.log('stake amounts');
console2.log(coinAmount);
console2.log(usdAmount);
COIN.mint(address(this), coinAmount);
COIN.approve(address(nfpm), coinAmount);
console2.log('COIN minted');
USD.mint(address(this), usdAmount);
USD.approve(address(nfpm), usdAmount);
console2.log('USD minted');
// struct MintParams {
// address token0;
// address token1;
// uint24 fee;
// int24 tickLower;
// int24 tickUpper;
// uint256 amount0Desired;
// uint256 amount1Desired;
// uint256 amount0Min;
// uint256 amount1Min;
// address recipient;
// uint256 deadline;
// }
int24 ts = pool.tickSpacing();
lower = Util.roundTick(lower, ts);
upper = Util.roundTick(upper, ts);
(uint256 a0, uint256 a1) = inverted ? (usdAmount, coinAmount) : (coinAmount, usdAmount);
INonfungiblePositionManager.MintParams memory params = INonfungiblePositionManager.MintParams(
token0, token1, fee, lower, upper, a0, a1, 0, 0, msg.sender, block.timestamp
);
(tokenId, liquidity, amount0, amount1) = nfpm.mint(params);
console2.log('minted');
console2.log(liquidity);
console2.log(amount0);
console2.log(amount1);
}
function swap(MockERC20 inToken, MockERC20 outToken, uint256 amountIn) public returns (uint256 amountOut) {
uint160 limit = address(inToken) == pool.token0() ? TickMath.MIN_SQRT_RATIO + 1 : TickMath.MAX_SQRT_RATIO - 1;
return swap(inToken, outToken, amountIn, limit);
}
function swap(MockERC20 inToken, MockERC20 outToken, uint256 amountIn, uint160 sqrtPriceLimitX96) public returns (uint256 amountOut) {
inToken.approve(address(swapper), amountIn);
// struct ExactInputSingleParams {
// address tokenIn;
// address tokenOut;
// uint24 fee;
// address recipient;
// uint256 deadline;
// uint256 amountIn;
// uint256 amountOutMinimum;
// uint160 sqrtPriceLimitX96;
// }
ISwapRouter.ExactInputSingleParams memory params = ISwapRouter.ExactInputSingleParams(
address(inToken), address(outToken), fee, msg.sender, block.timestamp, amountIn, 0, sqrtPriceLimitX96
);
return swapper.exactInputSingle(params);
}
function price() public view returns (uint160 sqrtPriceX96) {
(sqrtPriceX96,,,,,,) = pool.slot0();
}
function swapToPrice(uint160 sqrtPriceLimitX96) public {
console2.log('swapToPrice');
console2.log(sqrtPriceLimitX96);
uint160 curPrice = price();
console2.log(curPrice);
if( curPrice == sqrtPriceLimitX96 )
return;
MockERC20 inToken = curPrice > sqrtPriceLimitX96 ? MockERC20(token0) : MockERC20(token1);
MockERC20 outToken = curPrice < sqrtPriceLimitX96 ? MockERC20(token0) : MockERC20(token1);
// instead of calculating how much we need, we just mint an absurd amount
uint256 aLot = 2**100;
inToken.mint(address(this), aLot);
swap(inToken, outToken, aLot, sqrtPriceLimitX96);
}
}
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