import { blockchainTests, constants, describe, expect } from '@0x/contracts-test-utils'; import { BigNumber, SafeMathRevertErrors } from '@0x/utils'; import * as _ from 'lodash'; import { artifacts, TestSafeMathContract } from '../src'; import * as ReferenceFunctions from '../src/reference_functions'; function toBigNumber(a: number | string): BigNumber { return new BigNumber(a); } blockchainTests('SafeMath', env => { const { ONE_ETHER } = constants; let safeMath: TestSafeMathContract; before(async () => { // Deploy SafeMath safeMath = await TestSafeMathContract.deployFrom0xArtifactAsync( artifacts.TestSafeMath, env.provider, env.txDefaults, ); }); describe('_safeMul', () => { it('should match the output of the reference function', async () => { const a = ONE_ETHER; const b = ONE_ETHER.times(2); const expected = ReferenceFunctions.safeMul(a, b); const actual = await safeMath.externalSafeMul.callAsync(a, b); expect(actual).bignumber.to.be.eq(expected); }); it('should return zero if first argument is zero', async () => { const result = await safeMath.externalSafeMul.callAsync(constants.ZERO_AMOUNT, toBigNumber(1)); expect(result).bignumber.to.be.eq(constants.ZERO_AMOUNT); }); it('should return zero if second argument is zero', async () => { const result = await safeMath.externalSafeMul.callAsync(toBigNumber(1), constants.ZERO_AMOUNT); expect(result).bignumber.to.be.eq(constants.ZERO_AMOUNT); }); it('should revert if the multiplication overflows', async () => { const a = toBigNumber('0xffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff'); // The largest uint256 number const b = toBigNumber(2); const expectedError = new SafeMathRevertErrors.SafeMathError( SafeMathRevertErrors.SafeMathErrorCodes.Uint256MultiplicationOverflow, a, b, ); return expect(safeMath.externalSafeMul.callAsync(a, b)).to.revertWith(expectedError); }); it("should calculate correct value for values that don't overflow", async () => { const result = await safeMath.externalSafeMul.callAsync(toBigNumber(15), toBigNumber(13)); expect(result).bignumber.to.be.eq(toBigNumber(195)); }); }); describe('_safeDiv', () => { it('should match the output of the reference function', async () => { const a = ONE_ETHER; const b = ONE_ETHER.times(2); const expected = ReferenceFunctions.safeDiv(a, b); const actual = await safeMath.externalSafeDiv.callAsync(a, b); expect(actual).bignumber.to.be.eq(expected); }); it('should return the correct value if both values are the same', async () => { const result = await safeMath.externalSafeDiv.callAsync(toBigNumber(1), toBigNumber(1)); expect(result).bignumber.to.be.eq(toBigNumber(1)); }); it('should return the correct value if the values are different', async () => { const result = await safeMath.externalSafeDiv.callAsync(toBigNumber(3), toBigNumber(2)); expect(result).bignumber.to.be.eq(toBigNumber(1)); }); it('should return zero if the numerator is smaller than the denominator', async () => { const result = await safeMath.externalSafeDiv.callAsync(toBigNumber(2), toBigNumber(3)); expect(result).bignumber.to.be.eq(constants.ZERO_AMOUNT); }); it('should return zero if first argument is zero', async () => { const result = await safeMath.externalSafeDiv.callAsync(constants.ZERO_AMOUNT, toBigNumber(1)); expect(result).bignumber.to.be.eq(constants.ZERO_AMOUNT); }); it('should revert if second argument is zero', async () => { const a = toBigNumber(1); const b = toBigNumber(0); const expectedError = new SafeMathRevertErrors.SafeMathError( SafeMathRevertErrors.SafeMathErrorCodes.Uint256DivisionByZero, a, b, ); return expect(safeMath.externalSafeDiv.callAsync(a, b)).to.revertWith(expectedError); }); }); describe('_safeSub', () => { it('should match the output of the reference function', async () => { const a = ONE_ETHER; const b = ONE_ETHER.dividedToIntegerBy(2); const expected = ReferenceFunctions.safeSub(a, b); const actual = await safeMath.externalSafeSub.callAsync(a, b); expect(actual).bignumber.to.be.eq(expected); }); it('should revert if the subtraction underflows', async () => { const a = toBigNumber(0); const b = toBigNumber(1); const expectedError = new SafeMathRevertErrors.SafeMathError( SafeMathRevertErrors.SafeMathErrorCodes.Uint256SubtractionUnderflow, a, b, ); return expect(safeMath.externalSafeSub.callAsync(a, b)).to.revertWith(expectedError); }); it('should calculate correct value for values that are equal', async () => { const result = await safeMath.externalSafeMul.callAsync(constants.ZERO_AMOUNT, constants.ZERO_AMOUNT); expect(result).bignumber.to.be.eq(constants.ZERO_AMOUNT); }); it('should calculate correct value for values that are not equal', async () => { const result = await safeMath.externalSafeSub.callAsync(toBigNumber(15), toBigNumber(13)); expect(result).bignumber.to.be.eq(toBigNumber(2)); }); }); describe('_safeAdd', () => { it('should match the output of the reference function', async () => { const a = ONE_ETHER; const b = ONE_ETHER.dividedToIntegerBy(2); const expected = ReferenceFunctions.safeAdd(a, b); const actual = await safeMath.externalSafeAdd.callAsync(a, b); expect(actual).bignumber.to.be.eq(expected); }); it('should revert if the addition overflows', async () => { const a = toBigNumber('0xffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff'); // The largest uint256 number const b = toBigNumber(1); const expectedError = new SafeMathRevertErrors.SafeMathError( SafeMathRevertErrors.SafeMathErrorCodes.Uint256AdditionOverflow, a, b, ); return expect(safeMath.externalSafeAdd.callAsync(a, b)).to.revertWith(expectedError); }); it('should calculate correct value if addition does not overflow', async () => { const result = await safeMath.externalSafeAdd.callAsync(toBigNumber(15), toBigNumber(13)); expect(result).bignumber.to.be.eq(toBigNumber(28)); }); it('should calculate correct value if first argument is zero', async () => { const result = await safeMath.externalSafeAdd.callAsync(constants.ZERO_AMOUNT, toBigNumber(13)); expect(result).bignumber.to.be.eq(toBigNumber(13)); }); it('should calculate correct value if second argument is zero', async () => { const result = await safeMath.externalSafeAdd.callAsync(toBigNumber(13), constants.ZERO_AMOUNT); expect(result).bignumber.to.be.eq(toBigNumber(13)); }); }); describe('_maxUint256', () => { it('should return first argument if it is greater than the second', async () => { const result = await safeMath.externalMaxUint256.callAsync(toBigNumber(13), constants.ZERO_AMOUNT); expect(result).bignumber.to.be.eq(toBigNumber(13)); }); it('should return first argument if it is equal the second', async () => { const result = await safeMath.externalMaxUint256.callAsync(constants.ZERO_AMOUNT, constants.ZERO_AMOUNT); expect(result).bignumber.to.be.eq(constants.ZERO_AMOUNT); }); it('should return second argument if it is greater than the first', async () => { const result = await safeMath.externalMaxUint256.callAsync(constants.ZERO_AMOUNT, toBigNumber(13)); expect(result).bignumber.to.be.eq(toBigNumber(13)); }); }); describe('_minUint256', () => { it('should return first argument if it is less than the second', async () => { const result = await safeMath.externalMaxUint256.callAsync(constants.ZERO_AMOUNT, toBigNumber(13)); expect(result).bignumber.to.be.eq(toBigNumber(13)); }); it('should return first argument if it is equal the second', async () => { const result = await safeMath.externalMaxUint256.callAsync(constants.ZERO_AMOUNT, constants.ZERO_AMOUNT); expect(result).bignumber.to.be.eq(constants.ZERO_AMOUNT); }); it('should return second argument if it is less than the first', async () => { const result = await safeMath.externalMaxUint256.callAsync(toBigNumber(13), constants.ZERO_AMOUNT); expect(result).bignumber.to.be.eq(toBigNumber(13)); }); }); });