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harb/onchain/test/abstracts/PriceOracle.t.sol
johba d7c2184ccf Add Solidity linting with solhint, Foundry formatter, and pre-commit hooks (#51) 
## Changes

### Configuration
- Added .solhint.json with recommended rules + custom config
  - 160 char line length (warn)
  - Double quotes enforcement (error)
  - Explicit visibility required (error)
  - Console statements allowed (scripts/tests need them)
  - Gas optimization warnings enabled
  - Ignores test/helpers/, lib/, out/, cache/, broadcast/

- Added foundry.toml [fmt] section
  - 160 char line length
  - 4-space tabs
  - Double quotes
  - Thousands separators for numbers
  - Sort imports enabled

- Added .lintstagedrc.json for pre-commit auto-fix
  - Runs solhint --fix on .sol files
  - Runs forge fmt on .sol files

- Added husky pre-commit hook via lint-staged

### NPM Scripts
- lint:sol - run solhint
- lint:sol:fix - auto-fix solhint issues
- format:sol - format with forge fmt
- format:sol:check - check formatting
- lint / lint:fix - combined commands

### Code Changes
- Added explicit visibility modifiers (internal) to constants in scripts and tests
- Fixed quote style in DeployLocal.sol
- All Solidity files formatted with forge fmt

## Verification
-  forge fmt --check passes
-  No solhint errors (warnings only)
-  forge build succeeds
-  forge test passes (107/107)

resolves #44

Co-authored-by: johba <johba@harb.eth>
Reviewed-on: https://codeberg.org/johba/harb/pulls/51
2025-10-04 15:17:09 +02:00

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// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity ^0.8.19;
import "../../src/abstracts/PriceOracle.sol";
import "@uniswap-v3-core/interfaces/IUniswapV3Pool.sol";
import "forge-std/Test.sol";
/**
* @title PriceOracle Test Suite
* @notice Unit tests for price stability validation using Uniswap V3 TWAP oracle
*/
// Mock Uniswap V3 Pool for testing
contract MockUniswapV3Pool {
int56[] public tickCumulatives;
uint160[] public liquidityCumulatives;
bool public shouldRevert;
function setTickCumulatives(int56[] memory _tickCumulatives) external {
tickCumulatives = _tickCumulatives;
}
function setLiquidityCumulatives(uint160[] memory _liquidityCumulatives) external {
liquidityCumulatives = _liquidityCumulatives;
}
function setShouldRevert(bool _shouldRevert) external {
shouldRevert = _shouldRevert;
}
function observe(uint32[] calldata) external view returns (int56[] memory, uint160[] memory) {
if (shouldRevert) {
revert("Mock oracle failure");
}
return (tickCumulatives, liquidityCumulatives);
}
}
// Test implementation of PriceOracle
contract MockPriceOracle is PriceOracle {
MockUniswapV3Pool public mockPool;
constructor() {
mockPool = new MockUniswapV3Pool();
}
function _getPool() internal view override returns (IUniswapV3Pool) {
return IUniswapV3Pool(address(mockPool));
}
// Expose internal functions for testing
function isPriceStable(int24 currentTick) external view returns (bool) {
return _isPriceStable(currentTick);
}
function validatePriceMovement(
int24 currentTick,
int24 centerTick,
int24 tickSpacing,
bool token0isWeth
)
external
pure
returns (bool isUp, bool isEnough)
{
return _validatePriceMovement(currentTick, centerTick, tickSpacing, token0isWeth);
}
function getMockPool() external view returns (MockUniswapV3Pool) {
return mockPool;
}
}
contract PriceOracleTest is Test {
MockPriceOracle internal priceOracle;
MockUniswapV3Pool internal mockPool;
int24 internal constant TICK_SPACING = 200;
uint32 internal constant PRICE_STABILITY_INTERVAL = 300; // 5 minutes
int24 internal constant MAX_TICK_DEVIATION = 50;
function setUp() public {
priceOracle = new MockPriceOracle();
mockPool = priceOracle.getMockPool();
}
// ========================================
// PRICE STABILITY TESTS
// ========================================
function testPriceStableWithinDeviation() public {
// Setup: current tick should be within MAX_TICK_DEVIATION of TWAP average
int24 currentTick = 1000;
int24 averageTick = 1025; // Within 50 tick deviation
// Mock oracle to return appropriate tick cumulatives
int56[] memory tickCumulatives = new int56[](2);
tickCumulatives[0] = 0; // 5 minutes ago
tickCumulatives[1] = averageTick * int56(int32(PRICE_STABILITY_INTERVAL)); // Current
uint160[] memory liquidityCumulatives = new uint160[](2);
liquidityCumulatives[0] = 1000;
liquidityCumulatives[1] = 1000;
mockPool.setTickCumulatives(tickCumulatives);
mockPool.setLiquidityCumulatives(liquidityCumulatives);
bool isStable = priceOracle.isPriceStable(currentTick);
assertTrue(isStable, "Price should be stable when within deviation threshold");
}
function testPriceUnstableOutsideDeviation() public {
// Setup: current tick outside MAX_TICK_DEVIATION of TWAP average
int24 currentTick = 1000;
int24 averageTick = 1100; // 100 ticks away, outside deviation
int56[] memory tickCumulatives = new int56[](2);
tickCumulatives[0] = 0;
tickCumulatives[1] = averageTick * int56(int32(PRICE_STABILITY_INTERVAL));
uint160[] memory liquidityCumulatives = new uint160[](2);
liquidityCumulatives[0] = 1000;
liquidityCumulatives[1] = 1000;
mockPool.setTickCumulatives(tickCumulatives);
mockPool.setLiquidityCumulatives(liquidityCumulatives);
bool isStable = priceOracle.isPriceStable(currentTick);
assertFalse(isStable, "Price should be unstable when outside deviation threshold");
}
function testPriceStabilityOracleFailureFallback() public {
// Test fallback behavior when oracle fails
mockPool.setShouldRevert(true);
// Should not revert but should still return a boolean
// The actual implementation tries a longer timeframe on failure
int24 currentTick = 1000;
// This might fail or succeed depending on implementation details
// The key is that it doesn't cause the entire transaction to revert
try priceOracle.isPriceStable(currentTick) returns (bool result) {
// If it succeeds, that's fine
console.log("Oracle fallback succeeded, result:", result);
} catch {
// If it fails, that's also expected behavior for this test
console.log("Oracle fallback failed as expected");
}
}
function testPriceStabilityExactBoundary() public {
// Test exactly at the boundary of MAX_TICK_DEVIATION
int24 currentTick = 1000;
int24 averageTick = currentTick + MAX_TICK_DEVIATION; // Exactly at boundary
int56[] memory tickCumulatives = new int56[](2);
tickCumulatives[0] = 0;
tickCumulatives[1] = averageTick * int56(int32(PRICE_STABILITY_INTERVAL));
uint160[] memory liquidityCumulatives = new uint160[](2);
liquidityCumulatives[0] = 1000;
liquidityCumulatives[1] = 1000;
mockPool.setTickCumulatives(tickCumulatives);
mockPool.setLiquidityCumulatives(liquidityCumulatives);
bool isStable = priceOracle.isPriceStable(currentTick);
assertTrue(isStable, "Price should be stable exactly at deviation boundary");
}
function testPriceStabilityNegativeTicks() public {
// Test with negative tick values
int24 currentTick = -1000;
int24 averageTick = -1025; // Within deviation
int56[] memory tickCumulatives = new int56[](2);
tickCumulatives[0] = 0;
tickCumulatives[1] = averageTick * int56(int32(PRICE_STABILITY_INTERVAL));
uint160[] memory liquidityCumulatives = new uint160[](2);
liquidityCumulatives[0] = 1000;
liquidityCumulatives[1] = 1000;
mockPool.setTickCumulatives(tickCumulatives);
mockPool.setLiquidityCumulatives(liquidityCumulatives);
bool isStable = priceOracle.isPriceStable(currentTick);
assertTrue(isStable, "Price stability should work with negative ticks");
}
// ========================================
// PRICE MOVEMENT VALIDATION TESTS
// ========================================
function testPriceMovementWethToken0Up() public {
// When WETH is token0, price goes "up" when currentTick < centerTick
int24 currentTick = 1000;
int24 centerTick = 1500;
bool token0isWeth = true;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertTrue(isUp, "Should be up when WETH is token0 and currentTick < centerTick");
assertTrue(isEnough, "Movement should be enough (500 > 400)");
}
function testPriceMovementWethToken0Down() public {
// When WETH is token0, price goes "down" when currentTick > centerTick
int24 currentTick = 1500;
int24 centerTick = 1000;
bool token0isWeth = true;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertFalse(isUp, "Should be down when WETH is token0 and currentTick > centerTick");
assertTrue(isEnough, "Movement should be enough (500 > 400)");
}
function testPriceMovementTokenToken0Up() public {
// When token is token0, price goes "up" when currentTick > centerTick
int24 currentTick = 1500;
int24 centerTick = 1000;
bool token0isWeth = false;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertTrue(isUp, "Should be up when token is token0 and currentTick > centerTick");
assertTrue(isEnough, "Movement should be enough (500 > 400)");
}
function testPriceMovementTokenToken0Down() public {
// When token is token0, price goes "down" when currentTick < centerTick
int24 currentTick = 1000;
int24 centerTick = 1500;
bool token0isWeth = false;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertFalse(isUp, "Should be down when token is token0 and currentTick < centerTick");
assertTrue(isEnough, "Movement should be enough (500 > 400)");
}
function testPriceMovementInsufficientAmplitude() public {
// Test when movement is less than minimum amplitude (2 * TICK_SPACING = 400)
int24 currentTick = 1000;
int24 centerTick = 1300; // Difference of 300, less than 400
bool token0isWeth = true;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertTrue(isUp, "Direction should still be correct");
assertFalse(isEnough, "Movement should not be enough (300 < 400)");
}
function testPriceMovementExactAmplitude() public {
// Test when movement is exactly at minimum amplitude
int24 currentTick = 1000;
int24 centerTick = 1400; // Difference of exactly 400
bool token0isWeth = true;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertTrue(isUp, "Direction should be correct");
assertFalse(isEnough, "Movement should not be enough (400 == 400, needs >)");
}
function testPriceMovementJustEnoughAmplitude() public {
// Test when movement is just above minimum amplitude
int24 currentTick = 1000;
int24 centerTick = 1401; // Difference of 401, just above 400
bool token0isWeth = true;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertTrue(isUp, "Direction should be correct");
assertTrue(isEnough, "Movement should be enough (401 > 400)");
}
function testPriceMovementNegativeTicks() public {
// Test with negative tick values
int24 currentTick = -1000;
int24 centerTick = -500; // Movement of 500 ticks
bool token0isWeth = false;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertFalse(isUp, "Should be down when token0 != weth and currentTick < centerTick");
assertTrue(isEnough, "Movement should be enough (500 > 400)");
}
// ========================================
// EDGE CASE TESTS
// ========================================
function testPriceMovementZeroDifference() public {
// Test when currentTick equals centerTick
int24 currentTick = 1000;
int24 centerTick = 1000;
bool token0isWeth = true;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertFalse(isUp, "Should be down when currentTick == centerTick for WETH token0");
assertFalse(isEnough, "Movement should not be enough (0 < 400)");
}
function testPriceMovementExtremeValues() public {
// Test with large but safe tick values to avoid overflow
int24 currentTick = 100_000;
int24 centerTick = -100_000;
bool token0isWeth = true;
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, TICK_SPACING, token0isWeth);
assertFalse(isUp, "Should be down when currentTick > centerTick for WETH token0");
assertTrue(isEnough, "Movement should definitely be enough with large values");
}
// ========================================
// FUZZ TESTS
// ========================================
function testFuzzPriceMovementValidation(int24 currentTick, int24 centerTick, int24 tickSpacing, bool token0isWeth) public {
// Bound inputs to reasonable ranges
currentTick = int24(bound(int256(currentTick), -1_000_000, 1_000_000));
centerTick = int24(bound(int256(centerTick), -1_000_000, 1_000_000));
tickSpacing = int24(bound(int256(tickSpacing), 1, 1000));
(bool isUp, bool isEnough) = priceOracle.validatePriceMovement(currentTick, centerTick, tickSpacing, token0isWeth);
// Validate direction logic
if (token0isWeth) {
if (currentTick < centerTick) {
assertTrue(isUp, "Should be up when WETH token0 and currentTick < centerTick");
} else {
assertFalse(isUp, "Should be down when WETH token0 and currentTick >= centerTick");
}
} else {
if (currentTick > centerTick) {
assertTrue(isUp, "Should be up when token token0 and currentTick > centerTick");
} else {
assertFalse(isUp, "Should be down when token token0 and currentTick <= centerTick");
}
}
// Validate amplitude logic
int256 diff = int256(currentTick) - int256(centerTick);
uint256 amplitude = diff >= 0 ? uint256(diff) : uint256(-diff);
uint256 minAmplitude = uint256(int256(tickSpacing)) * 2;
if (amplitude > minAmplitude) {
assertTrue(isEnough, "Should be enough when amplitude > minAmplitude");
} else {
assertFalse(isEnough, "Should not be enough when amplitude <= minAmplitude");
}
}
}
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