// Copyright 2019 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 "test/wasm-api-tests/wasm-api-test.h" namespace v8 { namespace internal { namespace wasm { using ::wasm::GlobalType; TEST_F(WasmCapiTest, Globals) { const bool kMutable = true; const bool kImmutable = false; // Define imported and exported globals in the module. const uint32_t cfi_index = builder()->AddGlobalImport(CStrVector("const f32"), kWasmF32, kImmutable); const uint32_t cii_index = builder()->AddGlobalImport(CStrVector("const i64"), kWasmI64, kImmutable); const uint32_t vfi_index = builder()->AddGlobalImport(CStrVector("var f32"), kWasmF32, kMutable); const uint32_t vii_index = builder()->AddGlobalImport(CStrVector("var i64"), kWasmI64, kMutable); const int kNumImported = 4; const uint32_t cfe_index = kNumImported + builder()->AddExportedGlobal(kWasmF32, kImmutable, WasmInitExpr(5.f), CStrVector("const f32")); const uint32_t cie_index = kNumImported + builder()->AddExportedGlobal(kWasmI64, kImmutable, WasmInitExpr(int64_t{6}), CStrVector("const i64")); const uint32_t vfe_index = kNumImported + builder()->AddExportedGlobal(kWasmF32, kMutable, WasmInitExpr(7.f), CStrVector("var f32")); const uint32_t vie_index = kNumImported + builder()->AddExportedGlobal(kWasmI64, kMutable, WasmInitExpr(int64_t{8}), CStrVector("var i64")); // Define functions for inspecting globals. ValueType f32_type[] = {kWasmF32}; ValueType i64_type[] = {kWasmI64}; FunctionSig return_f32(1, 0, f32_type); FunctionSig return_i64(1, 0, i64_type); byte gcfi[] = {WASM_GET_GLOBAL(cfi_index)}; AddExportedFunction(CStrVector("get const f32 import"), gcfi, sizeof(gcfi), &return_f32); byte gcii[] = {WASM_GET_GLOBAL(cii_index)}; AddExportedFunction(CStrVector("get const i64 import"), gcii, sizeof(gcii), &return_i64); byte gvfi[] = {WASM_GET_GLOBAL(vfi_index)}; AddExportedFunction(CStrVector("get var f32 import"), gvfi, sizeof(gvfi), &return_f32); byte gvii[] = {WASM_GET_GLOBAL(vii_index)}; AddExportedFunction(CStrVector("get var i64 import"), gvii, sizeof(gvii), &return_i64); byte gcfe[] = {WASM_GET_GLOBAL(cfe_index)}; AddExportedFunction(CStrVector("get const f32 export"), gcfe, sizeof(gcfe), &return_f32); byte gcie[] = {WASM_GET_GLOBAL(cie_index)}; AddExportedFunction(CStrVector("get const i64 export"), gcie, sizeof(gcie), &return_i64); byte gvfe[] = {WASM_GET_GLOBAL(vfe_index)}; AddExportedFunction(CStrVector("get var f32 export"), gvfe, sizeof(gvfe), &return_f32); byte gvie[] = {WASM_GET_GLOBAL(vie_index)}; AddExportedFunction(CStrVector("get var i64 export"), gvie, sizeof(gvie), &return_i64); // Define functions for manipulating globals. FunctionSig param_f32(0, 1, f32_type); FunctionSig param_i64(0, 1, i64_type); byte svfi[] = {WASM_SET_GLOBAL(vfi_index, WASM_GET_LOCAL(0))}; AddExportedFunction(CStrVector("set var f32 import"), svfi, sizeof(svfi), ¶m_f32); byte svii[] = {WASM_SET_GLOBAL(vii_index, WASM_GET_LOCAL(0))}; AddExportedFunction(CStrVector("set var i64 import"), svii, sizeof(svii), ¶m_i64); byte svfe[] = {WASM_SET_GLOBAL(vfe_index, WASM_GET_LOCAL(0))}; AddExportedFunction(CStrVector("set var f32 export"), svfe, sizeof(svfe), ¶m_f32); byte svie[] = {WASM_SET_GLOBAL(vie_index, WASM_GET_LOCAL(0))}; AddExportedFunction(CStrVector("set var i64 export"), svie, sizeof(svie), ¶m_i64); // Create imported globals. own const_f32_type = GlobalType::make(ValType::make(::wasm::F32), ::wasm::CONST); own const_i64_type = GlobalType::make(ValType::make(::wasm::I64), ::wasm::CONST); own var_f32_type = GlobalType::make(ValType::make(::wasm::F32), ::wasm::VAR); own var_i64_type = GlobalType::make(ValType::make(::wasm::I64), ::wasm::VAR); own const_f32_import = Global::make(store(), const_f32_type.get(), Val::f32(1)); own const_i64_import = Global::make(store(), const_i64_type.get(), Val::i64(2)); own var_f32_import = Global::make(store(), var_f32_type.get(), Val::f32(3)); own var_i64_import = Global::make(store(), var_i64_type.get(), Val::i64(4)); Extern* imports[] = {const_f32_import.get(), const_i64_import.get(), var_f32_import.get(), var_i64_import.get()}; Instantiate(imports); // Extract exports. size_t i = 0; Global* const_f32_export = GetExportedGlobal(i++); Global* const_i64_export = GetExportedGlobal(i++); Global* var_f32_export = GetExportedGlobal(i++); Global* var_i64_export = GetExportedGlobal(i++); Func* get_const_f32_import = GetExportedFunction(i++); Func* get_const_i64_import = GetExportedFunction(i++); Func* get_var_f32_import = GetExportedFunction(i++); Func* get_var_i64_import = GetExportedFunction(i++); Func* get_const_f32_export = GetExportedFunction(i++); Func* get_const_i64_export = GetExportedFunction(i++); Func* get_var_f32_export = GetExportedFunction(i++); Func* get_var_i64_export = GetExportedFunction(i++); Func* set_var_f32_import = GetExportedFunction(i++); Func* set_var_i64_import = GetExportedFunction(i++); Func* set_var_f32_export = GetExportedFunction(i++); Func* set_var_i64_export = GetExportedFunction(i++); // Try cloning. EXPECT_TRUE(var_f32_import->copy()->same(var_f32_import.get())); // Check initial values. EXPECT_EQ(1.f, const_f32_import->get().f32()); EXPECT_EQ(2, const_i64_import->get().i64()); EXPECT_EQ(3.f, var_f32_import->get().f32()); EXPECT_EQ(4, var_i64_import->get().i64()); EXPECT_EQ(5.f, const_f32_export->get().f32()); EXPECT_EQ(6, const_i64_export->get().i64()); EXPECT_EQ(7.f, var_f32_export->get().f32()); EXPECT_EQ(8, var_i64_export->get().i64()); Val result[1]; get_const_f32_import->call(nullptr, result); EXPECT_EQ(1.f, result[0].f32()); get_const_i64_import->call(nullptr, result); EXPECT_EQ(2, result[0].i64()); get_var_f32_import->call(nullptr, result); EXPECT_EQ(3.f, result[0].f32()); get_var_i64_import->call(nullptr, result); EXPECT_EQ(4, result[0].i64()); get_const_f32_export->call(nullptr, result); EXPECT_EQ(5.f, result[0].f32()); get_const_i64_export->call(nullptr, result); EXPECT_EQ(6, result[0].i64()); get_var_f32_export->call(nullptr, result); EXPECT_EQ(7.f, result[0].f32()); get_var_i64_export->call(nullptr, result); EXPECT_EQ(8, result[0].i64()); // Modify variables through the API and check again. var_f32_import->set(Val::f32(33)); var_i64_import->set(Val::i64(34)); var_f32_export->set(Val::f32(35)); var_i64_export->set(Val::i64(36)); EXPECT_EQ(33.f, var_f32_import->get().f32()); EXPECT_EQ(34, var_i64_import->get().i64()); EXPECT_EQ(35.f, var_f32_export->get().f32()); EXPECT_EQ(36, var_i64_export->get().i64()); get_var_f32_import->call(nullptr, result); EXPECT_EQ(33.f, result[0].f32()); get_var_i64_import->call(nullptr, result); EXPECT_EQ(34, result[0].i64()); get_var_f32_export->call(nullptr, result); EXPECT_EQ(35.f, result[0].f32()); get_var_i64_export->call(nullptr, result); EXPECT_EQ(36, result[0].i64()); // Modify variables through calls and check again. Val args[1]; args[0] = Val::f32(73); set_var_f32_import->call(args, nullptr); args[0] = Val::i64(74); set_var_i64_import->call(args, nullptr); args[0] = Val::f32(75); set_var_f32_export->call(args, nullptr); args[0] = Val::i64(76); set_var_i64_export->call(args, nullptr); EXPECT_EQ(73.f, var_f32_import->get().f32()); EXPECT_EQ(74, var_i64_import->get().i64()); EXPECT_EQ(75.f, var_f32_export->get().f32()); EXPECT_EQ(76, var_i64_export->get().i64()); get_var_f32_import->call(nullptr, result); EXPECT_EQ(73.f, result[0].f32()); get_var_i64_import->call(nullptr, result); EXPECT_EQ(74, result[0].i64()); get_var_f32_export->call(nullptr, result); EXPECT_EQ(75.f, result[0].f32()); get_var_i64_export->call(nullptr, result); EXPECT_EQ(76, result[0].i64()); } } // namespace wasm } // namespace internal } // namespace v8