validation-test/stdlib/SipHash.swift - third_party/swift - Git at Google

 // RUN: %target-run-stdlib-swift
 // REQUIRES: executable_test

 import StdlibUnittest

 let SipHashTests = TestSuite("SipHashTests")

 extension Hasher {
   typealias HashValue = Int
 }

 struct SipHashTest {
   let input: [UInt8]
   let seed: (UInt64, UInt64)
   let output: UInt64

   /// Test vector from the reference C implementation.
   ///
   /// SipHash output with
   ///
   ///     seed = 00 01 02 ...
   ///
   /// and
   ///
   ///     input = (empty string)
   ///     input = 00 (1 byte)
   ///     input = 00 01 (2 bytes)
   ///     input = 00 01 02 (3 bytes)
   ///     ...
   ///     input = 00 01 02 ... 3e (63 bytes)
   init(referenceVectorIndex i: Int, output: UInt64) {
     self.input = Array(0..<UInt8(i))
     self.seed = (0x07060504_03020100, 0x0F0E0D0C_0B0A0908)
     self.output = output
   }

   init(input: [UInt8], seed: (UInt64, UInt64), output: UInt64) {
     self.input = input
     self.seed = seed
     self.output = output
   }
 }

 let sipHash13Tests: [SipHashTest] = [
   SipHashTest(referenceVectorIndex: 0, output: 0xabac0158050fc4dc),
   SipHashTest(referenceVectorIndex: 1, output: 0xc9f49bf37d57ca93),
   SipHashTest(referenceVectorIndex: 2, output: 0x82cb9b024dc7d44d),
   SipHashTest(referenceVectorIndex: 3, output: 0x8bf80ab8e7ddf7fb),
   SipHashTest(referenceVectorIndex: 4, output: 0xcf75576088d38328),
   SipHashTest(referenceVectorIndex: 5, output: 0xdef9d52f49533b67),
   SipHashTest(referenceVectorIndex: 6, output: 0xc50d2b50c59f22a7),
   SipHashTest(referenceVectorIndex: 7, output: 0xd3927d989bb11140),
   SipHashTest(referenceVectorIndex: 8, output: 0x369095118d299a8e),
   SipHashTest(referenceVectorIndex: 9, output: 0x25a48eb36c063de4),
   SipHashTest(referenceVectorIndex: 10, output: 0x79de85ee92ff097f),
   SipHashTest(referenceVectorIndex: 11, output: 0x70c118c1f94dc352),
   SipHashTest(referenceVectorIndex: 12, output: 0x78a384b157b4d9a2),
   SipHashTest(referenceVectorIndex: 13, output: 0x306f760c1229ffa7),
   SipHashTest(referenceVectorIndex: 14, output: 0x605aa111c0f95d34),
   SipHashTest(referenceVectorIndex: 15, output: 0xd320d86d2a519956),
   SipHashTest(referenceVectorIndex: 16, output: 0xcc4fdd1a7d908b66),
   SipHashTest(referenceVectorIndex: 17, output: 0x9cf2689063dbd80c),
   SipHashTest(referenceVectorIndex: 18, output: 0x8ffc389cb473e63e),
   SipHashTest(referenceVectorIndex: 19, output: 0xf21f9de58d297d1c),
   SipHashTest(referenceVectorIndex: 20, output: 0xc0dc2f46a6cce040),
   SipHashTest(referenceVectorIndex: 21, output: 0xb992abfe2b45f844),
   SipHashTest(referenceVectorIndex: 22, output: 0x7ffe7b9ba320872e),
   SipHashTest(referenceVectorIndex: 23, output: 0x525a0e7fdae6c123),
   SipHashTest(referenceVectorIndex: 24, output: 0xf464aeb267349c8c),
   SipHashTest(referenceVectorIndex: 25, output: 0x45cd5928705b0979),
   SipHashTest(referenceVectorIndex: 26, output: 0x3a3e35e3ca9913a5),
   SipHashTest(referenceVectorIndex: 27, output: 0xa91dc74e4ade3b35),
   SipHashTest(referenceVectorIndex: 28, output: 0xfb0bed02ef6cd00d),
   SipHashTest(referenceVectorIndex: 29, output: 0x88d93cb44ab1e1f4),
   SipHashTest(referenceVectorIndex: 30, output: 0x540f11d643c5e663),
   SipHashTest(referenceVectorIndex: 31, output: 0x2370dd1f8c21d1bc),
   SipHashTest(referenceVectorIndex: 32, output: 0x81157b6c16a7b60d),
   SipHashTest(referenceVectorIndex: 33, output: 0x4d54b9e57a8ff9bf),
   SipHashTest(referenceVectorIndex: 34, output: 0x759f12781f2a753e),
   SipHashTest(referenceVectorIndex: 35, output: 0xcea1a3bebf186b91),
   SipHashTest(referenceVectorIndex: 36, output: 0x2cf508d3ada26206),
   SipHashTest(referenceVectorIndex: 37, output: 0xb6101c2da3c33057),
   SipHashTest(referenceVectorIndex: 38, output: 0xb3f47496ae3a36a1),
   SipHashTest(referenceVectorIndex: 39, output: 0x626b57547b108392),
   SipHashTest(referenceVectorIndex: 40, output: 0xc1d2363299e41531),
   SipHashTest(referenceVectorIndex: 41, output: 0x667cc1923f1ad944),
   SipHashTest(referenceVectorIndex: 42, output: 0x65704ffec8138825),
   SipHashTest(referenceVectorIndex: 43, output: 0x24f280d1c28949a6),
   SipHashTest(referenceVectorIndex: 44, output: 0xc2ca1cedfaf8876b),
   SipHashTest(referenceVectorIndex: 45, output: 0xc2164bfc9f042196),
   SipHashTest(referenceVectorIndex: 46, output: 0xa16e9c9368b1d623),
   SipHashTest(referenceVectorIndex: 47, output: 0x49fb169c8b5114fd),
   SipHashTest(referenceVectorIndex: 48, output: 0x9f3143f8df074c46),
   SipHashTest(referenceVectorIndex: 49, output: 0xc6fdaf2412cc86b3),
   SipHashTest(referenceVectorIndex: 50, output: 0x7eaf49d10a52098f),
   SipHashTest(referenceVectorIndex: 51, output: 0x1cf313559d292f9a),
   SipHashTest(referenceVectorIndex: 52, output: 0xc44a30dda2f41f12),
   SipHashTest(referenceVectorIndex: 53, output: 0x36fae98943a71ed0),
   SipHashTest(referenceVectorIndex: 54, output: 0x318fb34c73f0bce6),
   SipHashTest(referenceVectorIndex: 55, output: 0xa27abf3670a7e980),
   SipHashTest(referenceVectorIndex: 56, output: 0xb4bcc0db243c6d75),
   SipHashTest(referenceVectorIndex: 57, output: 0x23f8d852fdb71513),
   SipHashTest(referenceVectorIndex: 58, output: 0x8f035f4da67d8a08),
   SipHashTest(referenceVectorIndex: 59, output: 0xd89cd0e5b7e8f148),
   SipHashTest(referenceVectorIndex: 60, output: 0xf6f4e6bcf7a644ee),
   SipHashTest(referenceVectorIndex: 61, output: 0xaec59ad80f1837f2),
   SipHashTest(referenceVectorIndex: 62, output: 0xc3b2f6154b6694e0),
   SipHashTest(referenceVectorIndex: 63, output: 0x9d199062b7bbb3a8),

   SipHashTest(
     input: [
       0x72, 0xdc, 0xde, 0xd4, 0x6d, 0xb4, 0xc8, 0xa1,
       0xcf, 0x22, 0xe2, 0x7f, 0xe3, 0xf6, 0xe5, 0x6d,
       0x8b, 0x66, 0x0b, 0xaf, 0xba, 0x16, 0x25, 0xf3,
       0x63, 0x8e, 0x69, 0x80, 0xf3, 0x7e, 0xd6, 0xe3,
     ],
     seed: (0xa3432fc680796c34, 0x1173946a79aeaae5),
     output: 0x4d457d818f46941d),
 ]

 let incrementalPatterns: [[Int]] = [
   [1], [2], [3], [4], [5], [6], [7], [8], [9],
   [15], [16], [17],
   [31], [32], [33],
   [0, 1],
   [1, 2],
   [1, 3, 5],
   [1, 7],
   [1, 9],
   [7, 9],
 ]

 struct Loop<C: Collection>: Sequence, IteratorProtocol {
   var base: C
   var iterator: C.Iterator

   init(_ base: C) {
     self.base = base
     self.iterator = base.makeIterator()
   }

   mutating func next() -> C.Element? {
     if let element = iterator.next() {
       return element
     }
     iterator = base.makeIterator()
     return iterator.next()
   }
 }

 SipHashTests.test("Hasher/combine(UnsafeRawBufferPointer)")
   .forEach(in: sipHash13Tests) { test in
   var hasher = Hasher(_rawSeed: test.seed)
   test.input.withUnsafeBytes { hasher.combine(bytes: $0) }
   let hash = hasher.finalize()
   expectEqual(Hasher.HashValue(truncatingIfNeeded: test.output), hash)
 }

 SipHashTests.test("Hasher/combine(UnsafeRawBufferPointer)/pattern")
   .forEach(in: cartesianProduct(sipHash13Tests, incrementalPatterns)) { test_ in
   let (test, pattern) = test_

   var hasher = Hasher(_rawSeed: test.seed)
   var chunkSizes = Loop(pattern).makeIterator()
   var startIndex = 0
   while startIndex != test.input.endIndex {
     let chunkSize = min(
       chunkSizes.next()!,
       test.input.endIndex - startIndex)
     let slice = test.input[startIndex..<(startIndex+chunkSize)]
     slice.withUnsafeBytes { hasher.combine(bytes: $0) }
     startIndex += chunkSize
   }
   let hash = hasher.finalize()
   expectEqual(Hasher.HashValue(truncatingIfNeeded: test.output), hash)
 }


 func testIntegerType<I: FixedWidthInteger>(
   _ type: I.Type,
   combiner: @escaping (inout Hasher, I) -> Void) {
   SipHashTests.test("Hasher._combine(\(type.self))")
     .forEach(in: sipHash13Tests) { test in

     var hasher = Hasher(_rawSeed: test.seed)

     // Load little-endian chunks and combine them into the hasher.
     let bitWidth = I.bitWidth
     var i = 0
     var count = 0
     var chunk: I = 0
     while i < test.input.count {
       chunk |= I(test.input[i]) << (8 * count)
       i += 1
       count += 1
       if 8 * count == bitWidth {
         combiner(&hasher, chunk)
         count = 0
         chunk = 0
       }
     }
     // Combine tail bytes.
     if count > 0 {
       hasher._combine(bytes: UInt64(truncatingIfNeeded: chunk), count: count)
     }

     let hash = hasher.finalize()
     expectEqual(Hasher.HashValue(truncatingIfNeeded: test.output), hash)
   }
 }

 testIntegerType(UInt.self) { $0._combine($1) }
 testIntegerType(UInt64.self) { $0._combine($1) }
 testIntegerType(UInt32.self) { $0._combine($1) }
 testIntegerType(UInt16.self) { $0._combine($1) }
 testIntegerType(UInt8.self) { $0._combine($1) }

 SipHashTests.test("Hasher/OperationsAfterFinalize") {
   // Verify that finalize is nonmutating.
   var hasher1 = Hasher(_rawSeed: (0, 0))
   hasher1._combine(1 as UInt8)
   _ = hasher1.finalize()
   // Hasher is now consumed. The operations below are illegal, but this isn't
   // currently enforced. Check that the behavior matches that of a nonmutating
   // function.
   hasher1._combine(2 as UInt16)
   let hash1a = hasher1.finalize()
   let hash1b = hasher1.finalize()
   expectEqual(hash1a, hash1b)

   var hasher2 = Hasher(_rawSeed: (0, 0))
   hasher2._combine(1 as UInt8)
   hasher2._combine(2 as UInt16)
   let hash2 = hasher2.finalize()
   expectEqual(hash1a, hash2)
 }

 runAllTests()
	// RUN: %target-run-stdlib-swift
	// REQUIRES: executable_test

	import StdlibUnittest

	let SipHashTests = TestSuite("SipHashTests")

	extension Hasher {
	typealias HashValue = Int
	}

	struct SipHashTest {
	let input: [UInt8]
	let seed: (UInt64, UInt64)
	let output: UInt64

	/// Test vector from the reference C implementation.
	///
	/// SipHash output with
	///
	/// seed = 00 01 02 ...
	///
	/// and
	///
	/// input = (empty string)
	/// input = 00 (1 byte)
	/// input = 00 01 (2 bytes)
	/// input = 00 01 02 (3 bytes)
	/// ...
	/// input = 00 01 02 ... 3e (63 bytes)
	init(referenceVectorIndex i: Int, output: UInt64) {
	self.input = Array(0..<UInt8(i))
	self.seed = (0x07060504_03020100, 0x0F0E0D0C_0B0A0908)
	self.output = output
	}

	init(input: [UInt8], seed: (UInt64, UInt64), output: UInt64) {
	self.input = input
	self.seed = seed
	self.output = output
	}
	}

	let sipHash13Tests: [SipHashTest] = [
	SipHashTest(referenceVectorIndex: 0, output: 0xabac0158050fc4dc),
	SipHashTest(referenceVectorIndex: 1, output: 0xc9f49bf37d57ca93),
	SipHashTest(referenceVectorIndex: 2, output: 0x82cb9b024dc7d44d),
	SipHashTest(referenceVectorIndex: 3, output: 0x8bf80ab8e7ddf7fb),
	SipHashTest(referenceVectorIndex: 4, output: 0xcf75576088d38328),
	SipHashTest(referenceVectorIndex: 5, output: 0xdef9d52f49533b67),
	SipHashTest(referenceVectorIndex: 6, output: 0xc50d2b50c59f22a7),
	SipHashTest(referenceVectorIndex: 7, output: 0xd3927d989bb11140),
	SipHashTest(referenceVectorIndex: 8, output: 0x369095118d299a8e),
	SipHashTest(referenceVectorIndex: 9, output: 0x25a48eb36c063de4),
	SipHashTest(referenceVectorIndex: 10, output: 0x79de85ee92ff097f),
	SipHashTest(referenceVectorIndex: 11, output: 0x70c118c1f94dc352),
	SipHashTest(referenceVectorIndex: 12, output: 0x78a384b157b4d9a2),
	SipHashTest(referenceVectorIndex: 13, output: 0x306f760c1229ffa7),
	SipHashTest(referenceVectorIndex: 14, output: 0x605aa111c0f95d34),
	SipHashTest(referenceVectorIndex: 15, output: 0xd320d86d2a519956),
	SipHashTest(referenceVectorIndex: 16, output: 0xcc4fdd1a7d908b66),
	SipHashTest(referenceVectorIndex: 17, output: 0x9cf2689063dbd80c),
	SipHashTest(referenceVectorIndex: 18, output: 0x8ffc389cb473e63e),
	SipHashTest(referenceVectorIndex: 19, output: 0xf21f9de58d297d1c),
	SipHashTest(referenceVectorIndex: 20, output: 0xc0dc2f46a6cce040),
	SipHashTest(referenceVectorIndex: 21, output: 0xb992abfe2b45f844),
	SipHashTest(referenceVectorIndex: 22, output: 0x7ffe7b9ba320872e),
	SipHashTest(referenceVectorIndex: 23, output: 0x525a0e7fdae6c123),
	SipHashTest(referenceVectorIndex: 24, output: 0xf464aeb267349c8c),
	SipHashTest(referenceVectorIndex: 25, output: 0x45cd5928705b0979),
	SipHashTest(referenceVectorIndex: 26, output: 0x3a3e35e3ca9913a5),
	SipHashTest(referenceVectorIndex: 27, output: 0xa91dc74e4ade3b35),
	SipHashTest(referenceVectorIndex: 28, output: 0xfb0bed02ef6cd00d),
	SipHashTest(referenceVectorIndex: 29, output: 0x88d93cb44ab1e1f4),
	SipHashTest(referenceVectorIndex: 30, output: 0x540f11d643c5e663),
	SipHashTest(referenceVectorIndex: 31, output: 0x2370dd1f8c21d1bc),
	SipHashTest(referenceVectorIndex: 32, output: 0x81157b6c16a7b60d),
	SipHashTest(referenceVectorIndex: 33, output: 0x4d54b9e57a8ff9bf),
	SipHashTest(referenceVectorIndex: 34, output: 0x759f12781f2a753e),
	SipHashTest(referenceVectorIndex: 35, output: 0xcea1a3bebf186b91),
	SipHashTest(referenceVectorIndex: 36, output: 0x2cf508d3ada26206),
	SipHashTest(referenceVectorIndex: 37, output: 0xb6101c2da3c33057),
	SipHashTest(referenceVectorIndex: 38, output: 0xb3f47496ae3a36a1),
	SipHashTest(referenceVectorIndex: 39, output: 0x626b57547b108392),
	SipHashTest(referenceVectorIndex: 40, output: 0xc1d2363299e41531),
	SipHashTest(referenceVectorIndex: 41, output: 0x667cc1923f1ad944),
	SipHashTest(referenceVectorIndex: 42, output: 0x65704ffec8138825),
	SipHashTest(referenceVectorIndex: 43, output: 0x24f280d1c28949a6),
	SipHashTest(referenceVectorIndex: 44, output: 0xc2ca1cedfaf8876b),
	SipHashTest(referenceVectorIndex: 45, output: 0xc2164bfc9f042196),
	SipHashTest(referenceVectorIndex: 46, output: 0xa16e9c9368b1d623),
	SipHashTest(referenceVectorIndex: 47, output: 0x49fb169c8b5114fd),
	SipHashTest(referenceVectorIndex: 48, output: 0x9f3143f8df074c46),
	SipHashTest(referenceVectorIndex: 49, output: 0xc6fdaf2412cc86b3),
	SipHashTest(referenceVectorIndex: 50, output: 0x7eaf49d10a52098f),
	SipHashTest(referenceVectorIndex: 51, output: 0x1cf313559d292f9a),
	SipHashTest(referenceVectorIndex: 52, output: 0xc44a30dda2f41f12),
	SipHashTest(referenceVectorIndex: 53, output: 0x36fae98943a71ed0),
	SipHashTest(referenceVectorIndex: 54, output: 0x318fb34c73f0bce6),
	SipHashTest(referenceVectorIndex: 55, output: 0xa27abf3670a7e980),
	SipHashTest(referenceVectorIndex: 56, output: 0xb4bcc0db243c6d75),
	SipHashTest(referenceVectorIndex: 57, output: 0x23f8d852fdb71513),
	SipHashTest(referenceVectorIndex: 58, output: 0x8f035f4da67d8a08),
	SipHashTest(referenceVectorIndex: 59, output: 0xd89cd0e5b7e8f148),
	SipHashTest(referenceVectorIndex: 60, output: 0xf6f4e6bcf7a644ee),
	SipHashTest(referenceVectorIndex: 61, output: 0xaec59ad80f1837f2),
	SipHashTest(referenceVectorIndex: 62, output: 0xc3b2f6154b6694e0),
	SipHashTest(referenceVectorIndex: 63, output: 0x9d199062b7bbb3a8),

	SipHashTest(
	input: [
	0x72, 0xdc, 0xde, 0xd4, 0x6d, 0xb4, 0xc8, 0xa1,
	0xcf, 0x22, 0xe2, 0x7f, 0xe3, 0xf6, 0xe5, 0x6d,
	0x8b, 0x66, 0x0b, 0xaf, 0xba, 0x16, 0x25, 0xf3,
	0x63, 0x8e, 0x69, 0x80, 0xf3, 0x7e, 0xd6, 0xe3,
	],
	seed: (0xa3432fc680796c34, 0x1173946a79aeaae5),
	output: 0x4d457d818f46941d),
	]

	let incrementalPatterns: [[Int]] = [
	[1], [2], [3], [4], [5], [6], [7], [8], [9],
	[15], [16], [17],
	[31], [32], [33],
	[0, 1],
	[1, 2],
	[1, 3, 5],
	[1, 7],
	[1, 9],
	[7, 9],
	]

	struct Loop<C: Collection>: Sequence, IteratorProtocol {
	var base: C
	var iterator: C.Iterator

	init(_ base: C) {
	self.base = base
	self.iterator = base.makeIterator()
	}

	mutating func next() -> C.Element? {
	if let element = iterator.next() {
	return element
	}
	iterator = base.makeIterator()
	return iterator.next()
	}
	}

	SipHashTests.test("Hasher/combine(UnsafeRawBufferPointer)")
	.forEach(in: sipHash13Tests) { test in
	var hasher = Hasher(_rawSeed: test.seed)
	test.input.withUnsafeBytes { hasher.combine(bytes: $0) }
	let hash = hasher.finalize()
	expectEqual(Hasher.HashValue(truncatingIfNeeded: test.output), hash)
	}

	SipHashTests.test("Hasher/combine(UnsafeRawBufferPointer)/pattern")
	.forEach(in: cartesianProduct(sipHash13Tests, incrementalPatterns)) { test_ in
	let (test, pattern) = test_

	var hasher = Hasher(_rawSeed: test.seed)
	var chunkSizes = Loop(pattern).makeIterator()
	var startIndex = 0
	while startIndex != test.input.endIndex {
	let chunkSize = min(
	chunkSizes.next()!,
	test.input.endIndex - startIndex)
	let slice = test.input[startIndex..<(startIndex+chunkSize)]
	slice.withUnsafeBytes { hasher.combine(bytes: $0) }
	startIndex += chunkSize
	}
	let hash = hasher.finalize()
	expectEqual(Hasher.HashValue(truncatingIfNeeded: test.output), hash)
	}


	func testIntegerType<I: FixedWidthInteger>(
	_ type: I.Type,
	combiner: @escaping (inout Hasher, I) -> Void) {
	SipHashTests.test("Hasher._combine(\(type.self))")
	.forEach(in: sipHash13Tests) { test in

	var hasher = Hasher(_rawSeed: test.seed)

	// Load little-endian chunks and combine them into the hasher.
	let bitWidth = I.bitWidth
	var i = 0
	var count = 0
	var chunk: I = 0
	while i < test.input.count {
	chunk \|= I(test.input[i]) << (8 * count)
	i += 1
	count += 1
	if 8 * count == bitWidth {
	combiner(&hasher, chunk)
	count = 0
	chunk = 0
	}
	}
	// Combine tail bytes.
	if count > 0 {
	hasher._combine(bytes: UInt64(truncatingIfNeeded: chunk), count: count)
	}

	let hash = hasher.finalize()
	expectEqual(Hasher.HashValue(truncatingIfNeeded: test.output), hash)
	}
	}

	testIntegerType(UInt.self) { $0._combine($1) }
	testIntegerType(UInt64.self) { $0._combine($1) }
	testIntegerType(UInt32.self) { $0._combine($1) }
	testIntegerType(UInt16.self) { $0._combine($1) }
	testIntegerType(UInt8.self) { $0._combine($1) }

	SipHashTests.test("Hasher/OperationsAfterFinalize") {
	// Verify that finalize is nonmutating.
	var hasher1 = Hasher(_rawSeed: (0, 0))
	hasher1._combine(1 as UInt8)
	_ = hasher1.finalize()
	// Hasher is now consumed. The operations below are illegal, but this isn't
	// currently enforced. Check that the behavior matches that of a nonmutating
	// function.
	hasher1._combine(2 as UInt16)
	let hash1a = hasher1.finalize()
	let hash1b = hasher1.finalize()
	expectEqual(hash1a, hash1b)

	var hasher2 = Hasher(_rawSeed: (0, 0))
	hasher2._combine(1 as UInt8)
	hasher2._combine(2 as UInt16)
	let hash2 = hasher2.finalize()
	expectEqual(hash1a, hash2)
	}

	runAllTests()