// Copyright 2016 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. // Flags: --validate-asm --allow-natives-syntax // Note that this test file contains tests that explicitly check modules are // valid asm.js and then break them with invalid instantiation arguments. If // this script is run more than once (e.g. --stress-opt) then modules remain // broken in the second run and assertions would fail. We prevent re-runs. // Flags: --nostress-opt function assertValidAsm(func) { assertTrue(%IsAsmWasmCode(func)); } (function TestConst() { function Module(s) { "use asm"; var fround = s.Math.fround; // Global constants. These are treated just like numeric literals. const fConst = fround(-3.0); const dConst = -3.0; const iConst = -3; // consts can be used to initialize other consts. const fPrime = fConst; // The following methods verify that return statements with global constants // do not need type annotations. function f() { return fPrime; } function d() { return dConst; } function i() { return iConst; } // The following methods verify that locals initialized with global // constants do not need type annotations. function fVar() { var v = fPrime; return fround(v); } function iVar() { var v = iConst; return v|0; } function dVar() { var v = dConst; return +v; } return { f: f, d: d, i: i, fVar: fVar, dVar: dVar, iVar: iVar, }; } function DisallowAssignToConstGlobal() { const constant = 0; function invalid(i) { i = i|0; constant = i; return constant; } return invalid; } var m = Module(this); assertValidAsm(Module); assertEquals(-3, m.i()); assertEquals(-3.0, m.d()); assertEquals(Math.fround(-3.0), m.f()); assertEquals(-3, m.iVar()); assertEquals(-3.0, m.dVar()); assertEquals(Math.fround(-3.0), m.fVar()); var m = DisallowAssignToConstGlobal(); assertFalse(%IsAsmWasmCode(DisallowAssignToConstGlobal)); })(); (function TestModuleArgs() { function Module1(stdlib) { "use asm"; function foo() { } return { foo: foo }; } function Module2(stdlib, ffi) { "use asm"; function foo() { } return { foo: foo }; } function Module3(stdlib, ffi, heap) { "use asm"; function foo() { } return { foo: foo }; } var modules = [Module1, Module2, Module3]; var heap = new ArrayBuffer(1024 * 1024); for (var i = 0; i < modules.length; ++i) { print('Module' + (i + 1)); var module = modules[i]; var m = module(); assertValidAsm(module); var m = module({}); assertValidAsm(module); var m = module({}, {}); assertValidAsm(module); var m = module({}, {}, heap); assertValidAsm(module); var m = module({}, {}, heap, {}); assertValidAsm(module); } })(); (function TestBadModule() { function Module(stdlib, ffi, heap) { "use asm"; function foo() { var y = 3; var x = 1 + y; return 123; } return { foo: foo }; } var m = Module({}); assertFalse(%IsAsmWasmCode(Module)); assertEquals(123, m.foo()); })(); (function TestBadArgTypes() { function Module(a, b, c) { "use asm"; var NaN = a.NaN; return {}; } var m = Module(1, 2, 3); assertFalse(%IsAsmWasmCode(Module)); assertEquals({}, m); })(); (function TestBadArgTypesMismatch() { function Module(a, b, c) { "use asm"; var NaN = a.NaN; return {}; } var m = Module(1, 2); assertFalse(%IsAsmWasmCode(Module)); assertEquals({}, m); })(); (function TestModuleNoStdlib() { function Module() { "use asm"; function foo() { return 123; } return { foo: foo }; } var m = Module({}); assertValidAsm(Module); assertEquals(123, m.foo()); })(); (function TestModuleWith5() { function Module(a, b, c, d, e) { "use asm"; function foo() { return 123; } return { foo: foo }; } var heap = new ArrayBuffer(1024 * 1024); var m = Module({}, {}, heap); assertFalse(%IsAsmWasmCode(Module)); assertEquals(123, m.foo()); })(); (function TestModuleNoStdlibCall() { function Module(stdlib, ffi, heap) { "use asm"; function foo() { return 123; } return { foo: foo }; } var m = Module(); assertValidAsm(Module); assertEquals(123, m.foo()); })(); (function TestModuleNew() { function Module(stdlib, ffi, heap) { "use asm"; function foo() { return 123; } return { foo: foo }; } var m = new Module({}, {}); assertValidAsm(Module); assertEquals(123, m.foo()); })(); (function TestMultipleFailures() { function Module(stdlib) { "use asm"; var NaN = stdlib.NaN; function foo() { return 123; } return { foo: foo }; } var m1 = Module(1, 2, 3); assertFalse(%IsAsmWasmCode(Module)); var m2 = Module(1, 2, 3); assertFalse(%IsAsmWasmCode(Module)); assertEquals(123, m1.foo()); assertEquals(123, m2.foo()); })(); (function TestFailureThenSuccess() { function MkModule() { function Module(stdlib, ffi, heap) { "use asm"; var NaN = stdlib.NaN; function foo() { return 123; } return { foo: foo }; } return Module; } var Module1 = MkModule(); var Module2 = MkModule(); var heap = new ArrayBuffer(1024 * 1024); var m1 = Module1(1, 2, 3); assertFalse(%IsAsmWasmCode(Module1)); var m2 = Module2({}, {}, heap); assertFalse(%IsAsmWasmCode(Module2)); assertEquals(123, m1.foo()); assertEquals(123, m2.foo()); })(); (function TestSuccessThenFailure() { function MkModule() { function Module(stdlib, ffi, heap) { "use asm"; var NaN = stdlib.NaN; function foo() { return 123; } return { foo: foo }; } return Module; } var Module1 = MkModule(); var Module2 = MkModule(); var heap = new ArrayBuffer(1024 * 1024); var m1 = Module1({NaN: NaN}, {}, heap); assertValidAsm(Module1); var m2 = Module2(1, 2, 3); assertFalse(%IsAsmWasmCode(Module2)); assertEquals(123, m1.foo()); assertEquals(123, m2.foo()); })(); (function TestSuccessThenFailureThenRetry() { function MkModule() { function Module(stdlib, ffi, heap) { "use asm"; var NaN = stdlib.NaN; function foo() { return 123; } return { foo: foo }; } return Module; } var Module1 = MkModule(); var Module2 = MkModule(); var heap = new ArrayBuffer(1024 * 1024); var m1a = Module1({NaN: NaN}, {}, heap); assertValidAsm(Module1); var m2 = Module2(1, 2, 3); assertFalse(%IsAsmWasmCode(Module2)); var m1b = Module1({NaN: NaN}, {}, heap); assertFalse(%IsAsmWasmCode(Module1)); assertEquals(123, m1a.foo()); assertEquals(123, m1b.foo()); assertEquals(123, m2.foo()); })(); (function TestBoundFunction() { function Module(stdlib, ffi, heap) { "use asm"; function foo() { return 123; } return { foo: foo }; } var heap = new ArrayBuffer(1024 * 1024); var ModuleBound = Module.bind(this, {}, {}, heap); var m = ModuleBound(); assertValidAsm(Module); assertEquals(123, m.foo()); })(); (function TestBadConstUnsignedReturn() { function Module() { "use asm"; const i = 0xffffffff; function foo() { return i; } return { foo: foo }; } var m = Module(); assertFalse(%IsAsmWasmCode(Module)); assertEquals(0xffffffff, m.foo()); })(); (function TestBadBooleanParamAnnotation() { function Module() { "use asm"; function foo(x) { x = x | true; return x; } return { foo: foo }; } var m = Module(); assertFalse(%IsAsmWasmCode(Module)); assertEquals(3, m.foo(3)); })(); (function TestBadExportTwice() { function Module() { "use asm"; function bar() { return 1; } function baz() { return 2; } return {foo: bar, foo: baz}; } var m = Module(); assertTrue(%IsAsmWasmCode(Module)); assertEquals(2, m.foo()); })(); (function TestBadImport() { function Module(stdlib) { "use asm"; var set = 0; var foo = stdlib[set]; return {}; } var m = Module(this); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestBadFroundTrue() { function Module(stdlib) { "use asm"; var fround = stdlib.Math.fround; function foo() { var x = fround(true); return +x; } return { foo: foo }; } var m = Module(this); assertFalse(%IsAsmWasmCode(Module)); assertEquals(1, m.foo()); })(); (function TestBadCase() { function Module() { "use asm"; function foo(x) { x = x | 0; switch (x|0) { case true: return 42; default: return 43; } return 0; } return { foo: foo }; } var m = Module(); assertFalse(%IsAsmWasmCode(Module)); assertEquals(43, m.foo(3)); })(); (function TestVarHidesExport() { function Module() { "use asm"; var foo; function foo() {} return foo; } Module(); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestUndefinedGlobalCall() { function Module() { "use asm"; function foo() { return bar() | 0; } return foo; } Module(); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestConditionalReturn() { function Module() { 'use asm'; function foo(a, b) { a = +a; b = +b; // Allowed, despite not matching the spec, as emscripten emits this in // practice. return a == b ? +a : +b; } return foo; } var m = Module(); assertEquals(4, m(4, 4)); assertEquals(5, m(4, 5)); assertEquals(4, m(5, 4)); assertValidAsm(Module); })(); (function TestMismatchedConditionalReturn() { function Module() { 'use asm'; function foo(a, b) { a = +a; return a == 0.0 ? 0 : +a; } return foo; } Module(); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestBadIntConditionalReturn() { function Module() { 'use asm'; function foo(a, b) { a = a | 0; b = b | 0; // Disallowed because signature must be signed, but these will be int. return 1 ? a : b; } return foo; } Module(); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestBadSignedConditionalReturn() { function Module() { 'use asm'; function foo(a, b) { a = a | 0; b = b | 0; // Disallowed because conditional yields int, even when both sides // are signed. return 1 ? a | 0 : b | 0; } return foo; } Module(); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestAsmIsRegular() { function Module() { 'use asm'; var g = 123; function foo() { return g | 0; } return {x: foo}; } var o = Module(); assertValidAsm(Module); assertFalse(o instanceof WebAssembly.Instance); assertTrue(o instanceof Object); assertTrue(o.__proto__ === Object.prototype); var p = Object.getOwnPropertyDescriptor(o, "x") assertTrue(p.writable); assertTrue(p.enumerable); assertTrue(p.configurable); assertTrue(typeof o.x === 'function'); o.x = 5; assertTrue(typeof o.x === 'number'); assertTrue(o.__single_function__ === undefined); assertTrue(o.__foreign_init__ === undefined); })(); (function TestAsmExportOrderPreserved() { function Module() { "use asm"; function f() {} function g() {} return { a:f, b:g, x:f, c:g, d:f }; } var m = Module(); assertValidAsm(Module); var props = Object.getOwnPropertyNames(m); assertEquals(["a","b","x","c","d"], props); })(); (function TestDuplicateParameterName() { function module1(x, x, heap) { 'use asm'; return {}; } module1({}, {}, new ArrayBuffer(4096)); assertFalse(%IsAsmWasmCode(module1)); function module2(x, ffi, x) { 'use asm'; return {}; } module2({}, {}, new ArrayBuffer(4096)); assertFalse(%IsAsmWasmCode(module2)); function module3(stdlib, x, x) { 'use asm'; return {}; } module3({}, {}, new ArrayBuffer(4096)); assertFalse(%IsAsmWasmCode(module3)); // Regression test for https://crbug.com/1068355. function regress1068355(ffi, ffi, heap) { 'use asm'; var result = new ffi.Uint8Array(heap); function bar() {} return {f: bar}; } let heap = new ArrayBuffer(4096); assertThrows( () => regress1068355({Uint8Array: Uint8Array}, {}, heap), TypeError, /Uint8Array is not a constructor/); assertFalse(%IsAsmWasmCode(regress1068355)); })();