// Copyright 2018 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/codegen/assembler-inl.h" #include "src/codegen/code-stub-assembler.h" #include "src/codegen/macro-assembler.h" #include "test/cctest/cctest.h" #include "test/cctest/compiler/code-assembler-tester.h" #include "test/cctest/compiler/function-tester.h" namespace v8 { namespace internal { namespace compiler { namespace test_run_retpoline { #define __ assembler. namespace { // Function that takes a number of pointer-sized integer arguments, calculates a // weighted sum of them and returns it. Handle BuildCallee(Isolate* isolate, CallDescriptor* call_descriptor) { CodeAssemblerTester tester(isolate, call_descriptor, "callee"); CodeStubAssembler assembler(tester.state()); int param_count = static_cast(call_descriptor->StackParameterCount()); Node* sum = __ IntPtrConstant(0); for (int i = 0; i < param_count; ++i) { TNode product = __ Signed(__ IntPtrMul(__ Parameter(i), __ IntPtrConstant(i + 1))); sum = __ IntPtrAdd(sum, product); } __ Return(sum); return tester.GenerateCodeCloseAndEscape(); } // Function that tail-calls another function with a number of pointer-sized // integer arguments. Handle BuildCaller(Isolate* isolate, CallDescriptor* call_descriptor, CallDescriptor* callee_descriptor, bool tail) { CodeAssemblerTester tester(isolate, call_descriptor, "caller"); CodeStubAssembler assembler(tester.state()); std::vector params; // The first parameter is always the callee. Handle callee = BuildCallee(isolate, callee_descriptor); // defeat the instruction selector. CodeStubAssembler::Variable target_var(&assembler, MachineRepresentation::kTagged); CodeStubAssembler::Label t(&assembler), f(&assembler), end(&assembler, &target_var); __ Branch(__ Int32Constant(0), &t, &f); __ BIND(&t); target_var.Bind(__ HeapConstant(callee)); __ Goto(&end); __ BIND(&f); target_var.Bind(__ HeapConstant(callee)); __ Goto(&end); __ BIND(&end); params.push_back(target_var.value()); int param_count = static_cast(callee_descriptor->StackParameterCount()); for (int i = 0; i < param_count; ++i) { params.push_back(__ IntPtrConstant(i)); } DCHECK_EQ(param_count + 1, params.size()); if (tail) { tester.raw_assembler_for_testing()->TailCallN( callee_descriptor, param_count + 1, params.data()); } else { Node* result = tester.raw_assembler_for_testing()->CallN( callee_descriptor, param_count + 1, params.data()); __ Return(result); } return tester.GenerateCodeCloseAndEscape(); } // Setup function, which calls "caller". Handle BuildSetupFunction(Isolate* isolate, CallDescriptor* caller_descriptor, CallDescriptor* callee_descriptor, bool tail) { CodeAssemblerTester tester(isolate, 0); CodeStubAssembler assembler(tester.state()); std::vector params; // The first parameter is always the callee. params.push_back(__ HeapConstant( BuildCaller(isolate, caller_descriptor, callee_descriptor, tail))); // Set up arguments for "Caller". int param_count = static_cast(caller_descriptor->StackParameterCount()); for (int i = 0; i < param_count; ++i) { // Use values that are different from the ones we will pass to this // function's callee later. params.push_back(__ IntPtrConstant(i + 42)); } DCHECK_EQ(param_count + 1, params.size()); Node* raw_result = tester.raw_assembler_for_testing()->CallN( caller_descriptor, param_count + 1, params.data()); __ Return(__ SmiTag(raw_result)); return tester.GenerateCodeCloseAndEscape(); } CallDescriptor* CreateDescriptorForStackArguments(Zone* zone, int stack_param_count) { LocationSignature::Builder locations(zone, 1, static_cast(stack_param_count)); locations.AddReturn(LinkageLocation::ForRegister(kReturnRegister0.code(), MachineType::IntPtr())); for (int i = 0; i < stack_param_count; ++i) { locations.AddParam(LinkageLocation::ForCallerFrameSlot( i - stack_param_count, MachineType::IntPtr())); } return new (zone) CallDescriptor(CallDescriptor::kCallCodeObject, // kind MachineType::AnyTagged(), // target MachineType LinkageLocation::ForAnyRegister( MachineType::AnyTagged()), // target location locations.Build(), // location_sig stack_param_count, // stack_parameter_count Operator::kNoProperties, // properties kNoCalleeSaved, // callee-saved registers kNoCalleeSaved, // callee-saved fp CallDescriptor::kRetpoline); // flags } // Test a tail call from a caller with n parameters to a callee with m // parameters. All parameters are pointer-sized. void TestHelper(int n, int m, bool tail) { HandleAndZoneScope scope; Isolate* isolate = scope.main_isolate(); CanonicalHandleScope canonical(isolate); Zone* zone = scope.main_zone(); CallDescriptor* caller_descriptor = CreateDescriptorForStackArguments(zone, n); CallDescriptor* callee_descriptor = CreateDescriptorForStackArguments(zone, m); Handle setup = BuildSetupFunction(isolate, caller_descriptor, callee_descriptor, tail); FunctionTester ft(setup, 0); Handle result = ft.Call().ToHandleChecked(); int expected = 0; for (int i = 0; i < m; ++i) expected += (i + 1) * i; CHECK_EQ(expected, Handle::cast(result)->value()); } } // namespace #undef __ TEST(RetpolineOddEven) { TestHelper(1, 0, false); TestHelper(1, 2, false); TestHelper(3, 2, false); TestHelper(3, 4, false); } TEST(RetpolineOddEvenTail) { TestHelper(1, 0, true); TestHelper(1, 2, true); TestHelper(3, 2, true); TestHelper(3, 4, true); } TEST(RetpolineOddOdd) { TestHelper(1, 1, false); TestHelper(1, 3, false); TestHelper(3, 1, false); TestHelper(3, 3, false); } TEST(RetpolineOddOddTail) { TestHelper(1, 1, true); TestHelper(1, 3, true); TestHelper(3, 1, true); TestHelper(3, 3, true); } TEST(RetpolineEvenEven) { TestHelper(0, 0, false); TestHelper(0, 2, false); TestHelper(2, 0, false); TestHelper(2, 2, false); } TEST(RetpolineEvenEvenTail) { TestHelper(0, 0, true); TestHelper(0, 2, true); TestHelper(2, 0, true); TestHelper(2, 2, true); } TEST(RetpolineEvenOdd) { TestHelper(0, 1, false); TestHelper(0, 3, false); TestHelper(2, 1, false); TestHelper(2, 3, false); } TEST(RetpolineEvenOddTail) { TestHelper(0, 1, true); TestHelper(0, 3, true); TestHelper(2, 1, true); TestHelper(2, 3, true); } } // namespace test_run_retpoline } // namespace compiler } // namespace internal } // namespace v8