| // Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| // |
| // Dart test program for testing dart:ffi function pointers. |
| // |
| // VMOptions= |
| // VMOptions=--deterministic --optimization-counter-threshold=10 |
| // VMOptions=--use-slow-path |
| // VMOptions=--use-slow-path --stacktrace-every=100 |
| // VMOptions=--write-protect-code --no-dual-map-code |
| // VMOptions=--write-protect-code --no-dual-map-code --use-slow-path |
| // VMOptions=--write-protect-code --no-dual-map-code --stacktrace-every=100 |
| // SharedObjects=ffi_test_functions |
| |
| import 'dart:ffi'; |
| |
| import "package:ffi/ffi.dart"; |
| import "package:expect/expect.dart"; |
| |
| import 'dylib_utils.dart'; |
| |
| void main() { |
| for (int i = 0; i < 100; ++i) { |
| testNativeFunctionFromCast(); |
| testNativeFunctionFromLookup(); |
| test64bitInterpretations(); |
| testExtension(); |
| testTruncation(); |
| testNativeFunctionDoubles(); |
| testNativeFunctionFloats(); |
| testNativeFunctionManyArguments1(); |
| testNativeFunctionManyArguments2(); |
| testNativeFunctionManyArguments3(); |
| testNativeFunctionManyArguments4(); |
| testNativeFunctionManyArguments5(); |
| testNativeFunctionPointer(); |
| testNullPointers(); |
| testFloatRounding(); |
| testVoidReturn(); |
| testNoArgs(); |
| } |
| } |
| |
| final ffiTestFunctions = dlopenPlatformSpecific("ffi_test_functions"); |
| |
| typedef NativeBinaryOp = Int32 Function(Int32, Int32); |
| typedef UnaryOp = int Function(int); |
| typedef BinaryOp = int Function(int, int); |
| typedef GenericBinaryOp<T> = int Function(int, T); |
| |
| void testNativeFunctionFromCast() { |
| Pointer<IntPtr> p1 = calloc(); |
| Pointer<NativeFunction<NativeBinaryOp>> p2 = p1.cast(); |
| p2.asFunction<BinaryOp>(); |
| p2.asFunction<GenericBinaryOp<int>>(); |
| calloc.free(p1); |
| } |
| |
| typedef NativeQuadOpSigned = Int64 Function(Int8, Int16, Int32, Int64); |
| typedef QuadOp = int Function(int, int, int, int); |
| typedef NativeQuadOpUnsigned = Uint64 Function(Uint8, Uint16, Uint32, Uint64); |
| |
| BinaryOp sumPlus42 = |
| ffiTestFunctions.lookupFunction<NativeBinaryOp, BinaryOp>("SumPlus42"); |
| |
| QuadOp intComputation = ffiTestFunctions |
| .lookupFunction<NativeQuadOpSigned, QuadOp>("IntComputation"); |
| |
| void testNativeFunctionFromLookup() { |
| Expect.equals(49, sumPlus42(3, 4)); |
| Expect.equals(49, (sumPlus42 as dynamic)(3, 4)); |
| Expect.throwsNoSuchMethodError(() => (sumPlus42 as dynamic)()); |
| Expect.throwsTypeError(() => (sumPlus42 as dynamic)(3, 4.0)); |
| |
| Expect.equals(625, intComputation(125, 250, 500, 1000)); |
| Expect.equals(625, (intComputation as dynamic)(125, 250, 500, 1000)); |
| |
| Expect.equals( |
| 0x7FFFFFFFFFFFFFFF, intComputation(0, 0, 0, 0x7FFFFFFFFFFFFFFF)); |
| Expect.equals( |
| -0x8000000000000000, intComputation(0, 0, 0, -0x8000000000000000)); |
| |
| Expect.equals(0x7FFFFFFFFFFFFFFF, |
| (intComputation as dynamic)(0, 0, 0, 0x7FFFFFFFFFFFFFFF)); |
| Expect.equals(-0x8000000000000000, |
| (intComputation as dynamic)(0, 0, 0, -0x8000000000000000)); |
| } |
| |
| typedef NativeReturnMaxUint8 = Uint8 Function(); |
| int Function() returnMaxUint8 = ffiTestFunctions |
| .lookup("ReturnMaxUint8") |
| .cast<NativeFunction<NativeReturnMaxUint8>>() |
| .asFunction(); |
| int Function() returnMaxUint8v2 = ffiTestFunctions |
| .lookup("ReturnMaxUint8v2") |
| .cast<NativeFunction<NativeReturnMaxUint8>>() |
| .asFunction(); |
| |
| typedef NativeReturnMaxUint16 = Uint16 Function(); |
| int Function() returnMaxUint16 = ffiTestFunctions |
| .lookup("ReturnMaxUint16") |
| .cast<NativeFunction<NativeReturnMaxUint16>>() |
| .asFunction(); |
| int Function() returnMaxUint16v2 = ffiTestFunctions |
| .lookup("ReturnMaxUint16v2") |
| .cast<NativeFunction<NativeReturnMaxUint16>>() |
| .asFunction(); |
| |
| typedef NativeReturnMaxUint32 = Uint32 Function(); |
| int Function() returnMaxUint32 = ffiTestFunctions |
| .lookup("ReturnMaxUint32") |
| .cast<NativeFunction<NativeReturnMaxUint32>>() |
| .asFunction(); |
| int Function() returnMaxUint32v2 = ffiTestFunctions |
| .lookup("ReturnMaxUint32v2") |
| .cast<NativeFunction<NativeReturnMaxUint32>>() |
| .asFunction(); |
| |
| typedef NativeReturnMinInt8 = Int8 Function(); |
| int Function() returnMinInt8 = ffiTestFunctions |
| .lookup("ReturnMinInt8") |
| .cast<NativeFunction<NativeReturnMinInt8>>() |
| .asFunction(); |
| int Function() returnMinInt8v2 = ffiTestFunctions |
| .lookup("ReturnMinInt8v2") |
| .cast<NativeFunction<NativeReturnMinInt8>>() |
| .asFunction(); |
| |
| typedef NativeReturnMinInt16 = Int16 Function(); |
| int Function() returnMinInt16 = ffiTestFunctions |
| .lookup("ReturnMinInt16") |
| .cast<NativeFunction<NativeReturnMinInt16>>() |
| .asFunction(); |
| int Function() returnMinInt16v2 = ffiTestFunctions |
| .lookup("ReturnMinInt16v2") |
| .cast<NativeFunction<NativeReturnMinInt16>>() |
| .asFunction(); |
| |
| typedef NativeReturnMinInt32 = Int32 Function(); |
| int Function() returnMinInt32 = ffiTestFunctions |
| .lookup("ReturnMinInt32") |
| .cast<NativeFunction<NativeReturnMinInt32>>() |
| .asFunction(); |
| int Function() returnMinInt32v2 = ffiTestFunctions |
| .lookup("ReturnMinInt32v2") |
| .cast<NativeFunction<NativeReturnMinInt32>>() |
| .asFunction(); |
| |
| typedef NativeTakeMaxUint8 = IntPtr Function(Uint8); |
| int Function(int) takeMaxUint8 = ffiTestFunctions |
| .lookup("TakeMaxUint8") |
| .cast<NativeFunction<NativeTakeMaxUint8>>() |
| .asFunction(); |
| |
| typedef NativeTakeMaxUint16 = IntPtr Function(Uint16); |
| int Function(int) takeMaxUint16 = ffiTestFunctions |
| .lookup("TakeMaxUint16") |
| .cast<NativeFunction<NativeTakeMaxUint16>>() |
| .asFunction(); |
| |
| typedef NativeTakeMaxUint32 = IntPtr Function(Uint32); |
| int Function(int) takeMaxUint32 = ffiTestFunctions |
| .lookup("TakeMaxUint32") |
| .cast<NativeFunction<NativeTakeMaxUint32>>() |
| .asFunction(); |
| |
| typedef NativeTakeMinInt8 = IntPtr Function(Int8); |
| int Function(int) takeMinInt8 = ffiTestFunctions |
| .lookup("TakeMinInt8") |
| .cast<NativeFunction<NativeTakeMinInt8>>() |
| .asFunction(); |
| |
| typedef NativeTakeMinInt16 = IntPtr Function(Int16); |
| int Function(int) takeMinInt16 = ffiTestFunctions |
| .lookup("TakeMinInt16") |
| .cast<NativeFunction<NativeTakeMinInt16>>() |
| .asFunction(); |
| |
| typedef NativeTakeMinInt32 = IntPtr Function(Int32); |
| int Function(int) takeMinInt32 = ffiTestFunctions |
| .lookup("TakeMinInt32") |
| .cast<NativeFunction<NativeTakeMinInt32>>() |
| .asFunction(); |
| |
| typedef NativeTakeMaxUint8x10 = IntPtr Function( |
| Uint8, Uint8, Uint8, Uint8, Uint8, Uint8, Uint8, Uint8, Uint8, Uint8); |
| int Function(int, int, int, int, int, int, int, int, int, int) takeMaxUint8x10 = |
| ffiTestFunctions |
| .lookup("TakeMaxUint8x10") |
| .cast<NativeFunction<NativeTakeMaxUint8x10>>() |
| .asFunction(); |
| |
| void testExtension() { |
| // Sign extension on the way back to Dart. |
| Expect.equals(0xff, returnMaxUint8()); |
| Expect.equals(0xffff, returnMaxUint16()); |
| Expect.equals(0xffffffff, returnMaxUint32()); |
| Expect.equals(-0x80, returnMinInt8()); |
| Expect.equals(-0x8000, returnMinInt16()); |
| Expect.equals(-0x80000000, returnMinInt32()); |
| // Truncation in C, and sign extension back to Dart. |
| Expect.equals(0xff, returnMaxUint8v2()); |
| Expect.equals(0xffff, returnMaxUint16v2()); |
| Expect.equals(0xffffffff, returnMaxUint32v2()); |
| Expect.equals(-0x80, returnMinInt8v2()); |
| Expect.equals(-0x8000, returnMinInt16v2()); |
| Expect.equals(-0x80000000, returnMinInt32v2()); |
| |
| // Upper bits propper, should work without truncation. |
| Expect.equals(1, takeMaxUint8(0xff)); |
| Expect.equals(1, takeMaxUint16(0xffff)); |
| Expect.equals(1, takeMaxUint32(0xffffffff)); |
| Expect.equals(1, takeMinInt8(-0x80)); |
| Expect.equals(1, takeMinInt16(-0x8000)); |
| Expect.equals(1, takeMinInt32(-0x80000000)); |
| Expect.equals( |
| 1, |
| takeMaxUint8x10( |
| 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff)); |
| // Upper bits garbage, needs to truncate. |
| Expect.equals(1, takeMaxUint8(0xabcff)); |
| Expect.equals(1, takeMaxUint16(0xabcffff)); |
| Expect.equals(1, takeMaxUint32(0xabcffffffff)); |
| Expect.equals(1, takeMinInt8(0x8abc80)); |
| Expect.equals(1, takeMinInt16(0x8abc8000)); |
| Expect.equals(1, takeMinInt32(0x8abc80000000)); |
| Expect.equals( |
| 1, |
| takeMaxUint8x10(0xabcff, 0xabcff, 0xabcff, 0xabcff, 0xabcff, 0xabcff, |
| 0xabcff, 0xabcff, 0xabcff, 0xabcff)); |
| } |
| |
| QuadOp uintComputation = ffiTestFunctions |
| .lookupFunction<NativeQuadOpUnsigned, QuadOp>("UintComputation"); |
| |
| void test64bitInterpretations() { |
| // 2 ^ 63 - 1 |
| Expect.equals( |
| 0x7FFFFFFFFFFFFFFF, uintComputation(0, 0, 0, 0x7FFFFFFFFFFFFFFF)); |
| // -2 ^ 63 interpreted as 2 ^ 63 |
| Expect.equals( |
| -0x8000000000000000, uintComputation(0, 0, 0, -0x8000000000000000)); |
| // -1 interpreted as 2 ^ 64 - 1 |
| Expect.equals(-1, uintComputation(0, 0, 0, -1)); |
| } |
| |
| typedef NativeSenaryOp = Int64 Function( |
| Int8, Int16, Int32, Uint8, Uint16, Uint32); |
| typedef SenaryOp = int Function(int, int, int, int, int, int); |
| |
| SenaryOp sumSmallNumbers = ffiTestFunctions |
| .lookupFunction<NativeSenaryOp, SenaryOp>("SumSmallNumbers"); |
| |
| void testTruncation() { |
| sumSmallNumbers(128, 0, 0, 0, 0, 0); |
| sumSmallNumbers(-129, 0, 0, 0, 0, 0); |
| sumSmallNumbers(0, 0, 0, 256, 0, 0); |
| sumSmallNumbers(0, 0, 0, -1, 0, 0); |
| |
| sumSmallNumbers(0, 0x8000, 0, 0, 0, 0); |
| sumSmallNumbers(0, 0xFFFFFFFFFFFF7FFF, 0, 0, 0, 0); |
| sumSmallNumbers(0, 0, 0, 0, 0x10000, 0); |
| sumSmallNumbers(0, 0, 0, 0, -1, 0); |
| |
| Expect.equals(0xFFFFFFFF80000000, sumSmallNumbers(0, 0, 0x80000000, 0, 0, 0)); |
| Expect.equals( |
| 0x000000007FFFFFFF, sumSmallNumbers(0, 0, 0xFFFFFFFF7FFFFFFF, 0, 0, 0)); |
| Expect.equals(0, sumSmallNumbers(0, 0, 0, 0, 0, 0x100000000)); |
| Expect.equals(0xFFFFFFFF, sumSmallNumbers(0, 0, 0, 0, 0, -1)); |
| } |
| |
| typedef NativeDoubleUnaryOp = Double Function(Double); |
| typedef DoubleUnaryOp = double Function(double); |
| |
| DoubleUnaryOp times1_337Double = ffiTestFunctions |
| .lookupFunction<NativeDoubleUnaryOp, DoubleUnaryOp>("Times1_337Double"); |
| |
| void testNativeFunctionDoubles() { |
| Expect.approxEquals(2.0 * 1.337, times1_337Double(2.0)); |
| } |
| |
| typedef NativeFloatUnaryOp = Float Function(Float); |
| |
| DoubleUnaryOp times1_337Float = ffiTestFunctions |
| .lookupFunction<NativeFloatUnaryOp, DoubleUnaryOp>("Times1_337Float"); |
| |
| void testNativeFunctionFloats() { |
| Expect.approxEquals(1337.0, times1_337Float(1000.0)); |
| } |
| |
| typedef NativeDecenaryOp = IntPtr Function(IntPtr, IntPtr, IntPtr, IntPtr, |
| IntPtr, IntPtr, IntPtr, IntPtr, IntPtr, IntPtr); |
| typedef NativeDecenaryOp2 = Int16 Function( |
| Int8, Int16, Int8, Int16, Int8, Int16, Int8, Int16, Int8, Int16); |
| typedef DecenaryOp = int Function( |
| int, int, int, int, int, int, int, int, int, int); |
| |
| DecenaryOp sumManyInts = ffiTestFunctions |
| .lookupFunction<NativeDecenaryOp, DecenaryOp>("SumManyInts"); |
| |
| void testNativeFunctionManyArguments1() { |
| Expect.equals(55, sumManyInts(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)); |
| } |
| |
| DecenaryOp sumManySmallInts = ffiTestFunctions |
| .lookupFunction<NativeDecenaryOp2, DecenaryOp>("SumManySmallInts"); |
| |
| void testNativeFunctionManyArguments5() { |
| Expect.equals(55, sumManySmallInts(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)); |
| } |
| |
| typedef NativeUndenaryOp = IntPtr Function(IntPtr, IntPtr, IntPtr, IntPtr, |
| IntPtr, IntPtr, IntPtr, IntPtr, IntPtr, IntPtr, IntPtr); |
| typedef UndenaryOp = int Function( |
| int, int, int, int, int, int, int, int, int, int, int); |
| |
| UndenaryOp sumManyIntsOdd = ffiTestFunctions |
| .lookupFunction<NativeUndenaryOp, UndenaryOp>("SumManyIntsOdd"); |
| |
| void testNativeFunctionManyArguments4() { |
| Expect.equals(66, sumManyIntsOdd(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11)); |
| } |
| |
| typedef NativeDoubleDecenaryOp = Double Function(Double, Double, Double, Double, |
| Double, Double, Double, Double, Double, Double); |
| typedef DoubleDecenaryOp = double Function(double, double, double, double, |
| double, double, double, double, double, double); |
| |
| DoubleDecenaryOp sumManyDoubles = ffiTestFunctions |
| .lookupFunction<NativeDoubleDecenaryOp, DoubleDecenaryOp>("SumManyDoubles"); |
| |
| void testNativeFunctionManyArguments2() { |
| Expect.approxEquals( |
| 55.0, sumManyDoubles(1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0)); |
| } |
| |
| typedef NativeVigesimalOp = Double Function( |
| IntPtr, |
| Float, |
| IntPtr, |
| Double, |
| IntPtr, |
| Float, |
| IntPtr, |
| Double, |
| IntPtr, |
| Float, |
| IntPtr, |
| Double, |
| IntPtr, |
| Float, |
| IntPtr, |
| Double, |
| IntPtr, |
| Float, |
| IntPtr, |
| Double); |
| typedef VigesimalOp = double Function( |
| int, |
| double, |
| int, |
| double, |
| int, |
| double, |
| int, |
| double, |
| int, |
| double, |
| int, |
| double, |
| int, |
| double, |
| int, |
| double, |
| int, |
| double, |
| int, |
| double); |
| |
| VigesimalOp sumManyNumbers = ffiTestFunctions |
| .lookupFunction<NativeVigesimalOp, VigesimalOp>("SumManyNumbers"); |
| |
| void testNativeFunctionManyArguments3() { |
| Expect.approxEquals( |
| 210.0, |
| sumManyNumbers(1, 2.0, 3, 4.0, 5, 6.0, 7, 8.0, 9, 10.0, 11, 12.0, 13, |
| 14.0, 15, 16.0, 17, 18.0, 19, 20.0)); |
| } |
| |
| typedef Int64PointerUnOp = Pointer<Int64> Function(Pointer<Int64>); |
| |
| Int64PointerUnOp assign1337Index1 = ffiTestFunctions |
| .lookupFunction<Int64PointerUnOp, Int64PointerUnOp>("Assign1337Index1"); |
| |
| void testNativeFunctionPointer() { |
| Pointer<Int64> p2 = calloc(2); |
| p2.value = 42; |
| p2[1] = 1000; |
| Pointer<Int64> result = assign1337Index1(p2); |
| Expect.equals(1337, result.value); |
| Expect.equals(1337, p2[1]); |
| Expect.equals(p2.elementAt(1).address, result.address); |
| calloc.free(p2); |
| } |
| |
| Int64PointerUnOp nullableInt64ElemAt1 = ffiTestFunctions |
| .lookupFunction<Int64PointerUnOp, Int64PointerUnOp>("NullableInt64ElemAt1"); |
| |
| void testNullPointers() { |
| Pointer<Int64> result = nullableInt64ElemAt1(nullptr); |
| Expect.equals(result, nullptr); |
| |
| Pointer<Int64> p2 = calloc(2); |
| result = nullableInt64ElemAt1(p2); |
| Expect.notEquals(result, nullptr); |
| calloc.free(p2); |
| } |
| |
| typedef NativeFloatPointerToBool = Uint8 Function(Pointer<Float>); |
| typedef FloatPointerToBool = int Function(Pointer<Float>); |
| |
| FloatPointerToBool isRoughly1337 = ffiTestFunctions.lookupFunction< |
| NativeFloatPointerToBool, FloatPointerToBool>("IsRoughly1337"); |
| |
| void testFloatRounding() { |
| Pointer<Float> p2 = calloc(); |
| p2.value = 1337.0; |
| |
| int result = isRoughly1337(p2); |
| Expect.equals(1, result); |
| |
| calloc.free(p2); |
| } |
| |
| typedef NativeFloatToVoid = Void Function(Float); |
| typedef DoubleToVoid = void Function(double); |
| |
| DoubleToVoid devNullFloat = ffiTestFunctions |
| .lookupFunction<NativeFloatToVoid, DoubleToVoid>("DevNullFloat"); |
| |
| void testVoidReturn() { |
| devNullFloat(1337.0); |
| |
| dynamic loseSignature = devNullFloat; |
| dynamic result = loseSignature(1337.0); |
| Expect.isNull(result); |
| } |
| |
| typedef NativeVoidToFloat = Float Function(); |
| typedef VoidToDouble = double Function(); |
| |
| VoidToDouble inventFloatValue = ffiTestFunctions |
| .lookupFunction<NativeVoidToFloat, VoidToDouble>("InventFloatValue"); |
| |
| void testNoArgs() { |
| double result = inventFloatValue(); |
| Expect.approxEquals(1337.0, result); |
| } |