import chai from 'chai'; import { decode, encode } from '../cborg.js'; import { fromHex, toHex } from '../lib/byte-utils.js'; const {assert} = chai; const fixtures = [ { data: '00', expected: 0, type: 'uint8' }, { data: '02', expected: 2, type: 'uint8' }, { data: '18ff', expected: 255, type: 'uint8' }, { data: '1901f4', expected: 500, type: 'uint16' }, { data: '1900ff', expected: 255, type: 'uint16', strict: false }, { data: '19ffff', expected: 65535, type: 'uint16' }, { data: '1a000000ff', expected: 255, type: 'uint32', strict: false }, { data: '1a00010000', expected: 65536, type: 'uint32' }, { data: '1a000f4240', expected: 1000000, type: 'uint32' }, { data: '1aa5f702b3', expected: 2784428723, type: 'uint32' }, { data: '1b00000000000000ff', expected: 255, type: 'uint64', strict: false }, { data: '1b0016db6db6db6db7', expected: Number.MAX_SAFE_INTEGER / 1.4, type: 'uint64' }, { data: '1b001fffffffffffff', expected: Number.MAX_SAFE_INTEGER, type: 'uint64' }, { data: '1ba5f702b3a5f702b3', expected: BigInt('11959030306112471731'), type: 'uint64' }, { data: '1bffffffffffffffff', expected: BigInt('18446744073709551615'), type: 'uint64' } ]; describe('uint', () => { describe('decode', () => { for (const fixture of fixtures) { const data = fromHex(fixture.data); it(`should decode ${ fixture.type }=${ fixture.expected }`, () => { assert.ok(decode(data) === fixture.expected, `decode ${ fixture.type } ${ decode(data) } != ${ fixture.expected }`); if (fixture.strict === false) { assert.throws(() => decode(data, { strict: true }), Error, 'CBOR decode error: integer encoded in more bytes than necessary (strict decode)'); } else { assert.ok(decode(data, { strict: true }) === fixture.expected, `decode ${ fixture.type }`); } }); } }); it('should throw error', () => { assert.throws(() => decode(fromHex('1ca5f702b3a5f702b3')), Error, 'CBOR decode error: encountered invalid minor (28) for major 0'); assert.throws(() => decode(fromHex('1ba5f702b3a5f702')), Error, 'CBOR decode error: not enough data for type'); }); describe('encode', () => { for (const fixture of fixtures) { it(`should encode ${ fixture.type }=${ fixture.expected }`, () => { if (fixture.strict === false) { assert.notStrictEqual(toHex(encode(fixture.expected)), fixture.data, `encode ${ fixture.type } !strict`); } else { assert.strictEqual(toHex(encode(fixture.expected)), fixture.data, `encode ${ fixture.type }`); } }); } }); describe('roundtrip', () => { for (const fixture of fixtures) { if (fixture.strict !== false) { it(`should roundtrip ${ fixture.type }=${ fixture.expected }`, () => { assert.ok(decode(encode(fixture.expected)) === fixture.expected, `roundtrip ${ fixture.type }`); }); } } }); describe('toobig', () => { it('bigger than 64-bit', () => { assert.doesNotThrow(() => encode(BigInt('18446744073709551615'))); assert.throws(() => encode(BigInt('18446744073709551616')), /BigInt larger than allowable range/); }); it('disallow BigInt', () => { for (const fixture of fixtures) { const data = fromHex(fixture.data); if (!Number.isSafeInteger(fixture.expected)) { assert.throws(() => decode(data, { allowBigInt: false }), /safe integer range/); } else { assert.ok(decode(data, { allowBigInt: false }) === fixture.expected, `decode ${ fixture.type }`); } } }); }); describe('toosmall', () => { for (const fixture of fixtures) { if (fixture.strict !== false && typeof fixture.expected === 'number') { const small = BigInt(fixture.expected); it(`should encode ${ small }n`, () => { assert.strictEqual(toHex(encode(BigInt(small))), fixture.data, `encode ${ small }`); }); } } }); });