/* * Copyright (c) 2020, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ /* * @test * @modules jdk.incubator.foreign/jdk.internal.foreign * jdk.incubator.foreign/jdk.internal.foreign.abi * jdk.incubator.foreign/jdk.internal.foreign.abi.x64 * jdk.incubator.foreign/jdk.internal.foreign.abi.x64.windows * @build CallArrangerTestBase * @run testng TestWindowsCallArranger */ import jdk.incubator.foreign.FunctionDescriptor; import jdk.incubator.foreign.MemoryAddress; import jdk.incubator.foreign.MemoryLayout; import jdk.incubator.foreign.MemorySegment; import jdk.internal.foreign.abi.Binding; import jdk.internal.foreign.abi.CallingSequence; import jdk.internal.foreign.abi.x64.windows.CallArranger; import org.testng.annotations.Test; import java.lang.invoke.MethodType; import static jdk.internal.foreign.PlatformLayouts.Win64.*; import static jdk.internal.foreign.abi.Binding.*; import static jdk.internal.foreign.abi.Binding.copy; import static jdk.internal.foreign.abi.x64.X86_64Architecture.*; import static org.testng.Assert.*; public class TestWindowsCallArranger extends CallArrangerTestBase { @Test public void testEmpty() { MethodType mt = MethodType.methodType(void.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid(); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{}); checkReturnBindings(callingSequence, new Binding[]{}); } @Test public void testIntegerRegs() { MethodType mt = MethodType.methodType(void.class, int.class, int.class, int.class, int.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid(C_INT, C_INT, C_INT, C_INT); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { vmStore(rcx, int.class) }, { vmStore(rdx, int.class) }, { vmStore(r8, int.class) }, { vmStore(r9, int.class) } }); checkReturnBindings(callingSequence, new Binding[]{}); } @Test public void testDoubleRegs() { MethodType mt = MethodType.methodType(void.class, double.class, double.class, double.class, double.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid(C_DOUBLE, C_DOUBLE, C_DOUBLE, C_DOUBLE); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { vmStore(xmm0, double.class) }, { vmStore(xmm1, double.class) }, { vmStore(xmm2, double.class) }, { vmStore(xmm3, double.class) } }); checkReturnBindings(callingSequence, new Binding[]{}); } @Test public void testMixed() { MethodType mt = MethodType.methodType(void.class, long.class, long.class, float.class, float.class, long.class, long.class, float.class, float.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid( C_LONG_LONG, C_LONG_LONG, C_FLOAT, C_FLOAT, C_LONG_LONG, C_LONG_LONG, C_FLOAT, C_FLOAT); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { vmStore(rcx, long.class) }, { vmStore(rdx, long.class) }, { vmStore(xmm2, float.class) }, { vmStore(xmm3, float.class) }, { vmStore(stackStorage(0), long.class) }, { vmStore(stackStorage(1), long.class) }, { vmStore(stackStorage(2), float.class) }, { vmStore(stackStorage(3), float.class) } }); checkReturnBindings(callingSequence, new Binding[]{}); } @Test public void testAbiExample() { MemoryLayout structLayout = MemoryLayout.ofStruct(C_INT, C_INT, C_DOUBLE); MethodType mt = MethodType.methodType(void.class, int.class, int.class, MemorySegment.class, int.class, int.class, double.class, double.class, double.class, int.class, int.class, int.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid( C_INT, C_INT, structLayout, C_INT, C_INT, C_DOUBLE, C_DOUBLE, C_DOUBLE, C_INT, C_INT, C_INT); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { vmStore(rcx, int.class) }, { vmStore(rdx, int.class) }, { copy(structLayout), baseAddress(), unboxAddress(), vmStore(r8, long.class) }, { vmStore(r9, int.class) }, { vmStore(stackStorage(0), int.class) }, { vmStore(stackStorage(1), double.class) }, { vmStore(stackStorage(2), double.class) }, { vmStore(stackStorage(3), double.class) }, { vmStore(stackStorage(4), int.class) }, { vmStore(stackStorage(5), int.class) }, { vmStore(stackStorage(6), int.class) } }); checkReturnBindings(callingSequence, new Binding[]{}); } @Test public void testAbiExampleVarargs() { MethodType mt = MethodType.methodType(void.class, int.class, double.class, int.class, double.class, double.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid( C_INT, C_DOUBLE, asVarArg(C_INT), asVarArg(C_DOUBLE), asVarArg(C_DOUBLE)); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { vmStore(rcx, int.class) }, { vmStore(xmm1, double.class) }, { vmStore(r8, int.class) }, { dup(), vmStore(r9, double.class), vmStore(xmm3, double.class) }, { vmStore(stackStorage(0), double.class) }, }); checkReturnBindings(callingSequence, new Binding[]{}); } /** * struct s { * uint64_t u0; * } s; * * void m(struct s s); * * m(s); */ @Test public void testStructRegister() { MemoryLayout struct = MemoryLayout.ofStruct(C_LONG_LONG); MethodType mt = MethodType.methodType(void.class, MemorySegment.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid(struct); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { bufferLoad(0, long.class), vmStore(rcx, long.class) } }); checkReturnBindings(callingSequence, new Binding[]{}); } /** * struct s { * uint64_t u0, u1; * } s; * * void m(struct s s); * * m(s); */ @Test public void testStructReference() { MemoryLayout struct = MemoryLayout.ofStruct(C_LONG_LONG, C_LONG_LONG); MethodType mt = MethodType.methodType(void.class, MemorySegment.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid(struct); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { copy(struct), baseAddress(), unboxAddress(), vmStore(rcx, long.class) } }); checkReturnBindings(callingSequence, new Binding[]{}); } /** * typedef void (*f)(void); * * void m(f f); * void f_impl(void); * * m(f_impl); */ @Test public void testMemoryAddress() { MethodType mt = MethodType.methodType(void.class, MemoryAddress.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid(C_POINTER); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { unboxAddress(), vmStore(rcx, long.class) } }); checkReturnBindings(callingSequence, new Binding[]{}); } @Test public void testReturnRegisterStruct() { MemoryLayout struct = MemoryLayout.ofStruct(C_LONG_LONG); MethodType mt = MethodType.methodType(MemorySegment.class); FunctionDescriptor fd = FunctionDescriptor.of(struct); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{}); checkReturnBindings(callingSequence, new Binding[]{ allocate(struct), dup(), vmLoad(rax, long.class), bufferStore(0, long.class) }); } @Test public void testIMR() { MemoryLayout struct = MemoryLayout.ofStruct(C_LONG_LONG, C_LONG_LONG); MethodType mt = MethodType.methodType(MemorySegment.class); FunctionDescriptor fd = FunctionDescriptor.of(struct); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertTrue(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), MethodType.methodType(void.class, MemoryAddress.class)); assertEquals(callingSequence.functionDesc(), FunctionDescriptor.ofVoid(C_POINTER)); checkArgumentBindings(callingSequence, new Binding[][]{ { unboxAddress(), vmStore(rcx, long.class) } }); checkReturnBindings(callingSequence, new Binding[]{}); } @Test public void testStackStruct() { MemoryLayout struct = MemoryLayout.ofStruct(C_POINTER, C_DOUBLE, C_INT); MethodType mt = MethodType.methodType(void.class, MemorySegment.class, int.class, double.class, MemoryAddress.class, MemorySegment.class, int.class, double.class, MemoryAddress.class, MemorySegment.class, int.class, double.class, MemoryAddress.class, MemorySegment.class, int.class, double.class, MemoryAddress.class); FunctionDescriptor fd = FunctionDescriptor.ofVoid( struct, C_INT, C_DOUBLE, C_POINTER, struct, C_INT, C_DOUBLE, C_POINTER, struct, C_INT, C_DOUBLE, C_POINTER, struct, C_INT, C_DOUBLE, C_POINTER); CallArranger.Bindings bindings = CallArranger.getBindings(mt, fd, false); assertFalse(bindings.isInMemoryReturn); CallingSequence callingSequence = bindings.callingSequence; assertEquals(callingSequence.methodType(), mt); assertEquals(callingSequence.functionDesc(), fd); checkArgumentBindings(callingSequence, new Binding[][]{ { copy(struct), baseAddress(), unboxAddress(), vmStore(rcx, long.class) }, { vmStore(rdx, int.class) }, { vmStore(xmm2, double.class) }, { unboxAddress(), vmStore(r9, long.class) }, { copy(struct), baseAddress(), unboxAddress(), vmStore(stackStorage(0), long.class) }, { vmStore(stackStorage(1), int.class) }, { vmStore(stackStorage(2), double.class) }, { unboxAddress(), vmStore(stackStorage(3), long.class) }, { copy(struct), baseAddress(), unboxAddress(), vmStore(stackStorage(4), long.class) }, { vmStore(stackStorage(5), int.class) }, { vmStore(stackStorage(6), double.class) }, { unboxAddress(), vmStore(stackStorage(7), long.class) }, { copy(struct), baseAddress(), unboxAddress(), vmStore(stackStorage(8), long.class) }, { vmStore(stackStorage(9), int.class) }, { vmStore(stackStorage(10), double.class) }, { unboxAddress(), vmStore(stackStorage(11), long.class) }, }); checkReturnBindings(callingSequence, new Binding[]{}); } }