load(libdir + "wasm-binary.js"); const { extractStackFrameFunction } = WasmHelpers; const { Module, RuntimeError, CompileError } = WebAssembly; const magicError = /failed to match magic number/; const unknownSection = /expected custom section/; function sectionError(section) { return RegExp(`failed to start ${section} section`); } function versionError(actual) { var expect = encodingVersion; var str = `binary version 0x${actual.toString(16)} does not match expected version 0x${expect.toString(16)}`; return RegExp(str); } const U32MAX_LEB = [255, 255, 255, 255, 15]; const wasmEval = (code, imports) => new WebAssembly.Instance(new Module(code), imports).exports; assertErrorMessage(() => wasmEval(toU8([])), CompileError, magicError); assertErrorMessage(() => wasmEval(toU8([42])), CompileError, magicError); assertErrorMessage(() => wasmEval(toU8([magic0, magic1, magic2])), CompileError, magicError); assertErrorMessage(() => wasmEval(toU8([1,2,3,4])), CompileError, magicError); assertErrorMessage(() => wasmEval(toU8([magic0, magic1, magic2, magic3])), CompileError, versionError(0x6d736100)); assertErrorMessage(() => wasmEval(toU8([magic0, magic1, magic2, magic3, 1])), CompileError, versionError(0x6d736100)); assertErrorMessage(() => wasmEval(toU8([magic0, magic1, magic2, magic3, ver0])), CompileError, versionError(0x6d736100)); assertErrorMessage(() => wasmEval(toU8([magic0, magic1, magic2, magic3, ver0, ver1, ver2])), CompileError, versionError(0x6d736100)); var o = wasmEval(toU8(moduleHeaderThen())); assertEq(Object.getOwnPropertyNames(o).length, 0); // unfinished known sections assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(typeId))), CompileError, sectionError("type")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(importId))), CompileError, sectionError("import")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(functionId))), CompileError, sectionError("function")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(tableId))), CompileError, sectionError("table")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(memoryId))), CompileError, sectionError("memory")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(globalId))), CompileError, sectionError("global")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(exportId))), CompileError, sectionError("export")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(startId))), CompileError, sectionError("start")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(elemId))), CompileError, sectionError("elem")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(codeId))), CompileError, sectionError("code")); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(dataId))), CompileError, sectionError("data")); // unknown sections are unconditionally rejected assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(37))), CompileError, unknownSection); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(37, 0))), CompileError, unknownSection); assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(37, 1, 0))), CompileError, unknownSection); // user sections have special rules assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(0))), CompileError, sectionError("custom")); // no length assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(0, 0))), CompileError, sectionError("custom")); // no id assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(0, 0, 0))), CompileError, sectionError("custom")); // payload too small to have id length assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(0, 1, 1))), CompileError, sectionError("custom")); // id not present assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(0, 1, 1, 65))), CompileError, sectionError("custom")); // id length doesn't fit in section assertErrorMessage(() => wasmEval(toU8(moduleHeaderThen(0, 1, 0, 0))), CompileError, sectionError("custom")); // second, unfinished custom section wasmEval(toU8(moduleHeaderThen(0, 1, 0))); // empty id wasmEval(toU8(moduleHeaderThen(0, 1, 0, 0, 1, 0))); // 2x empty id wasmEval(toU8(moduleHeaderThen(0, 2, 1, 65))); // id = "A" const v2vSig = {args:[], ret:VoidCode}; const v2vSigSection = sigSection([v2vSig]); const i2vSig = {args:[I32Code], ret:VoidCode}; const v2vBody = funcBody({locals:[], body:[]}); assertErrorMessage(() => wasmEval(moduleWithSections([ {name: typeId, body: U32MAX_LEB } ])), CompileError, /too many types/); assertErrorMessage(() => wasmEval(moduleWithSections([ {name: typeId, body: [1, 0], } ])), CompileError, /expected type form/); assertErrorMessage(() => wasmEval(moduleWithSections([ {name: typeId, body: [1, FuncCode, ...U32MAX_LEB], } ])), CompileError, /too many arguments in signature/); assertThrowsInstanceOf(() => wasmEval(moduleWithSections([{name: typeId, body: [1]}])), CompileError); assertThrowsInstanceOf(() => wasmEval(moduleWithSections([{name: typeId, body: [1, 1, 0]}])), CompileError); wasmEval(moduleWithSections([sigSection([])])); wasmEval(moduleWithSections([v2vSigSection])); wasmEval(moduleWithSections([sigSection([i2vSig])])); wasmEval(moduleWithSections([sigSection([v2vSig, i2vSig])])); assertErrorMessage(() => wasmEval(moduleWithSections([sigSection([{args:[], ret:33}])])), CompileError, /bad type/); assertErrorMessage(() => wasmEval(moduleWithSections([sigSection([{args:[33], ret:VoidCode}])])), CompileError, /bad type/); assertThrowsInstanceOf(() => wasmEval(moduleWithSections([sigSection([]), declSection([0])])), CompileError, /signature index out of range/); assertThrowsInstanceOf(() => wasmEval(moduleWithSections([v2vSigSection, declSection([1])])), CompileError, /signature index out of range/); assertErrorMessage(() => wasmEval(moduleWithSections([v2vSigSection, declSection([0])])), CompileError, /expected code section/); wasmEval(moduleWithSections([v2vSigSection, declSection([0]), bodySection([v2vBody])])); assertErrorMessage(() => wasmEval(moduleWithSections([v2vSigSection, declSection([0]), bodySection([v2vBody.concat(v2vBody)])])), CompileError, /byte size mismatch in code section/); assertThrowsInstanceOf(() => wasmEval(moduleWithSections([v2vSigSection, {name: importId, body:[]}])), CompileError); assertErrorMessage(() => wasmEval(moduleWithSections([importSection([{sigIndex:0, module:"a", func:"b"}])])), CompileError, /signature index out of range/); assertErrorMessage(() => wasmEval(moduleWithSections([v2vSigSection, importSection([{sigIndex:1, module:"a", func:"b"}])])), CompileError, /signature index out of range/); wasmEval(moduleWithSections([v2vSigSection, importSection([])])); wasmEval(moduleWithSections([v2vSigSection, importSection([{sigIndex:0, module:"a", func:""}])]), {a:{"":()=>{}}}); wasmEval(moduleWithSections([ v2vSigSection, importSection([{sigIndex:0, module:"a", func:""}]), declSection([0]), bodySection([v2vBody]) ]), {a:{"":()=>{}}}); assertErrorMessage(() => wasmEval(moduleWithSections([ dataSection([{offset:1, elems:[]}]) ])), CompileError, /data segment requires a memory section/); wasmEval(moduleWithSections([tableSection(0)])); wasmEval(moduleWithSections([elemSection([])])); wasmEval(moduleWithSections([tableSection(0), elemSection([])])); wasmEval(moduleWithSections([tableSection(1), elemSection([{offset:1, elems:[]}])])); assertErrorMessage(() => wasmEval(moduleWithSections([tableSection(1), elemSection([{offset:0, elems:[0]}])])), CompileError, /element index out of range/); wasmEval(moduleWithSections([v2vSigSection, declSection([0]), tableSection(1), elemSection([{offset:0, elems:[0]}]), bodySection([v2vBody])])); wasmEval(moduleWithSections([v2vSigSection, declSection([0]), tableSection(2), elemSection([{offset:0, elems:[0,0]}]), bodySection([v2vBody])])); assertErrorMessage(() => wasmEval(moduleWithSections([v2vSigSection, declSection([0]), tableSection(2), elemSection([{offset:0, elems:[0,1]}]), bodySection([v2vBody])])), CompileError, /element index out of range/); wasmEval(moduleWithSections([v2vSigSection, declSection([0,0,0]), tableSection(4), elemSection([{offset:0, elems:[0,1,0,2]}]), bodySection([v2vBody, v2vBody, v2vBody])])); wasmEval(moduleWithSections([sigSection([v2vSig,i2vSig]), declSection([0,0,1]), tableSection(3), elemSection([{offset:0,elems:[0,1,2]}]), bodySection([v2vBody, v2vBody, v2vBody])])); wasmEval(moduleWithSections([tableSection0()])); wasmEval(moduleWithSections([memorySection(0)])); function invalidMemorySection2() { var body = []; body.push(...varU32(2)); // number of memories body.push(...varU32(0x0)); body.push(...varU32(0)); body.push(...varU32(0x0)); body.push(...varU32(0)); return { name: memoryId, body }; } wasmEval(moduleWithSections([memorySection0()])); assertErrorMessage(() => wasmEval(moduleWithSections([invalidMemorySection2()])), CompileError, /number of memories must be at most one/); // Test early 'end' const bodyMismatch = /(function body length mismatch)|(operators remaining after end of function)/; assertErrorMessage(() => wasmEval(moduleWithSections([v2vSigSection, declSection([0]), bodySection([funcBody({locals:[], body:[EndCode]})])])), CompileError, bodyMismatch); assertErrorMessage(() => wasmEval(moduleWithSections([v2vSigSection, declSection([0]), bodySection([funcBody({locals:[], body:[UnreachableCode,EndCode]})])])), CompileError, bodyMismatch); assertErrorMessage(() => wasmEval(moduleWithSections([v2vSigSection, declSection([0]), bodySection([funcBody({locals:[], body:[EndCode,UnreachableCode]})])])), CompileError, bodyMismatch); // Ignore errors in name section. var tooBigNameSection = { name: userDefinedId, body: [...string(nameName), ...varU32(Math.pow(2, 31))] // declare 2**31 functions. }; wasmEval(moduleWithSections([tooBigNameSection])); // Skip custom sections before any expected section var customDefSec = customSection("wee", 42, 13); var declSec = declSection([0]); var bodySec = bodySection([v2vBody]); var nameSec = nameSection([funcNameSubsection([{name:'hi'}])]); wasmEval(moduleWithSections([customDefSec, v2vSigSection, declSec, bodySec])); wasmEval(moduleWithSections([v2vSigSection, customDefSec, declSec, bodySec])); wasmEval(moduleWithSections([v2vSigSection, declSec, customDefSec, bodySec])); wasmEval(moduleWithSections([v2vSigSection, declSec, bodySec, customDefSec])); wasmEval(moduleWithSections([customDefSec, customDefSec, v2vSigSection, declSec, bodySec])); wasmEval(moduleWithSections([customDefSec, customDefSec, v2vSigSection, customDefSec, declSec, customDefSec, bodySec])); // custom sections reflection: function checkCustomSection(buf, val) { assertEq(buf instanceof ArrayBuffer, true); assertEq(buf.byteLength, 1); assertEq(new Uint8Array(buf)[0], val); } var custom1 = customSection("one", 1); var custom2 = customSection("one", 2); var custom3 = customSection("two", 3); var custom4 = customSection("three", 4); var custom5 = customSection("three", 5); var custom6 = customSection("three", 6); var m = new Module(moduleWithSections([custom1, v2vSigSection, custom2, declSec, custom3, bodySec, custom4, nameSec, custom5, custom6])); var arr = Module.customSections(m, "one"); assertEq(arr.length, 2); checkCustomSection(arr[0], 1); checkCustomSection(arr[1], 2); var arr = Module.customSections(m, "two"); assertEq(arr.length, 1); checkCustomSection(arr[0], 3); var arr = Module.customSections(m, "three"); assertEq(arr.length, 3); checkCustomSection(arr[0], 4); checkCustomSection(arr[1], 5); checkCustomSection(arr[2], 6); var arr = Module.customSections(m, "name"); assertEq(arr.length, 1); assertEq(arr[0].byteLength, nameSec.body.length - 5 /* 4name */); // Test name/custom section warnings: const nameWarning = /validated with warning.*'name' custom section/; const okNameSec = nameSection([]); assertNoWarning(() => wasmEval(moduleWithSections([v2vSigSection, declSec, bodySec, okNameSec]))); const badNameSec1 = nameSection([]); badNameSec1.body.push(1); assertWarning(() => wasmEval(moduleWithSections([v2vSigSection, declSec, bodySec, badNameSec1])), nameWarning); const badNameSec2 = nameSection([funcNameSubsection([{name:'blah'}])]); badNameSec2.body.push(100, 20, 42, 83); assertWarning(() => wasmEval(moduleWithSections([v2vSigSection, declSec, bodySec, badNameSec2])), nameWarning); const badNameSec3 = nameSection([funcNameSubsection([{name:'blah'}])]); badNameSec3.body.pop(); assertWarning(() => wasmEval(moduleWithSections([v2vSigSection, declSec, bodySec, badNameSec3])), nameWarning); assertNoWarning(() => wasmEval(moduleWithSections([nameSection([moduleNameSubsection('hi')])]))); assertWarning(() => wasmEval(moduleWithSections([nameSection([moduleNameSubsection('hi'), moduleNameSubsection('boo')])])), nameWarning); // Unknown name subsection assertNoWarning(() => wasmEval(moduleWithSections([nameSection([moduleNameSubsection('hi'), [4, 0]])]))); assertWarning(() => wasmEval(moduleWithSections([nameSection([moduleNameSubsection('hi'), [4, 1]])])), nameWarning); assertNoWarning(() => wasmEval(moduleWithSections([nameSection([moduleNameSubsection('hi'), [4, 1, 42]])]))); // Provide a module name but no function names. assertErrorMessage(() => wasmEval(moduleWithSections([ v2vSigSection, declSection([0]), exportSection([{funcIndex: 0, name: "f"}]), bodySection([funcBody({locals:[], body:[UnreachableCode]})]), nameSection([moduleNameSubsection('hi')])]) ).f(), RuntimeError, /unreachable/); // Diagnose invalid block signature types. for (var bad of [0xff, 1, 0x3f]) assertErrorMessage(() => wasmEval(moduleWithSections([sigSection([v2vSig]), declSection([0]), bodySection([funcBody({locals:[], body:[BlockCode, bad, EndCode]})])])), CompileError, /(invalid .*block type)|(unknown type)/); const multiValueModule = moduleWithSections([sigSection([v2vSig]), declSection([0]), bodySection([funcBody({locals:[], body:[BlockCode, 0, EndCode]})])]); // In this test module, 0 denotes a void-to-void block type. assertEq(WebAssembly.validate(multiValueModule), true); // Ensure all invalid opcodes are rejected. Note that the game here (and for // the prefixed cases below) is to present only opcodes which will be rejected by // *both* Baseline and Ion. for (let op of undefinedOpcodes) { let binary = moduleWithSections([v2vSigSection, declSection([0]), bodySection([funcBody({locals:[], body:[op]})])]); assertErrorMessage(() => wasmEval(binary), CompileError, /((unrecognized|Unknown) opcode)|(tail calls support is not enabled)|(Exceptions support is not enabled)|(Unexpected EOF)/); assertEq(WebAssembly.validate(binary), false); } // Prefixed opcodes function checkIllegalPrefixed(prefix, opcode) { let binary = moduleWithSections([v2vSigSection, declSection([0]), bodySection([funcBody({locals:[], body:[prefix, ...varU32(opcode)]})])]); assertErrorMessage(() => wasmEval(binary), CompileError, /((unrecognized|Unknown) opcode)|(Unknown.*subopcode)|(Unexpected EOF)|(SIMD support is not enabled)|(invalid lane index)/); assertEq(WebAssembly.validate(binary), false); } // Illegal GcPrefix opcodes let reservedGc = {}; if (wasmGcEnabled()) { reservedGc = { // Structure operations 0x00: true, 0x01: true, 0x02: true, 0x03: true, 0x04: true, 0x05: true, // Array operations 0x06: true, 0x07: true, 0x08: true, 0x09: true, 0x0a: true, 0x0b: true, 0x0c: true, 0x0d: true, 0x0e: true, 0x0f: true, 0x10: true, 0x11: true, 0x12: true, 0x13: true, // Ref operations 0x14: true, 0x15: true, 0x16: true, 0x17: true, 0x18: true, 0x19: true, 0x1a: true, 0x1b: true, // i31 operations 0x1c: true, 0x1d: true, 0x1e: true, }; } for (let i = 0; i < 256; i++) { if (reservedGc.hasOwnProperty(i)) { continue; } checkIllegalPrefixed(GcPrefix, i); } // Illegal ThreadPrefix opcodes // // June 2017 threads draft: // // 0x00 .. 0x03 are wait/wake/fence ops // 0x10 .. 0x4f are primitive atomic ops for (let i = 0x4; i < 0x10; i++) checkIllegalPrefixed(ThreadPrefix, i); for (let i = 0x4f; i < 0x100; i++) checkIllegalPrefixed(ThreadPrefix, i); // Illegal Misc opcodes var reservedMisc = { // Saturating conversions (standardized) 0x00: true, 0x01: true, 0x02: true, 0x03: true, 0x04: true, 0x05: true, 0x06: true, 0x07: true, // Bulk memory (proposed) 0x08: true, 0x09: true, 0x0a: true, 0x0b: true, 0x0c: true, 0x0d: true, 0x0e: true, // Table (proposed) 0x0f: true, 0x10: true, 0x11: true, 0x12: true, // Structure operations (experimental, internal) 0x50: true, 0x51: true, 0x52: true, 0x53: true }; for (let i = 0; i < 256; i++) { if (reservedMisc.hasOwnProperty(i)) continue; checkIllegalPrefixed(MiscPrefix, i); } // Illegal SIMD opcodes - the upper bound is actually very large, not much to be // done about that. if (!wasmSimdEnabled()) { for (let i = 0; i < 0x130; i++) { checkIllegalPrefixed(SimdPrefix, i); } } else { let reservedSimd = [ 0x9a, 0xa2, 0xa5, 0xa6, 0xaf, 0xb0, 0xb2, 0xb3, 0xb4, 0xbb, 0xc2, 0xc5, 0xc6, 0xcf, 0xd0, 0xd2, 0xd3, 0xd4, 0xe2, 0xee, 0x115, 0x116, 0x117, 0x118, 0x119, 0x11a, 0x11b, 0x11c, 0x11d, 0x11e, 0x11f, 0x120, 0x121, 0x122, 0x123, 0x124, 0x125, 0x126, 0x127, 0x128, 0x129, 0x12a, 0x12b, 0x12c, 0x12d, 0x12e, 0x12f, ]; for (let i of reservedSimd) { checkIllegalPrefixed(SimdPrefix, i); } } // Illegal MozPrefix opcodes (all of them) for (let i = 0; i < 256; i++) checkIllegalPrefixed(MozPrefix, i); for (let prefix of [ThreadPrefix, MiscPrefix, SimdPrefix, MozPrefix]) { // Prefix without a subsequent opcode. We must ask funcBody not to add an // End code after the prefix, so the body really is just the prefix byte. let binary = moduleWithSections([v2vSigSection, declSection([0]), bodySection([funcBody({locals:[], body:[prefix]}, /*withEndCode=*/false)])]); assertErrorMessage(() => wasmEval(binary), CompileError, /(unable to read opcode)|(Unexpected EOF)|(Unknown opcode)/); assertEq(WebAssembly.validate(binary), false); } // Checking stack trace. function runStackTraceTest(moduleName, funcNames, expectedName) { var sections = [ sigSection([v2vSig]), importSection([{sigIndex:0, module:"env", func:"callback"}]), declSection([0]), exportSection([{funcIndex:1, name: "run"}]), bodySection([funcBody({locals: [], body: [CallCode, varU32(0)]})]), customSection("whoa"), customSection("wee", 42), ]; if (moduleName || funcNames) { var subsections = []; if (moduleName) subsections.push(moduleNameSubsection(moduleName)); if (funcNames) subsections.push(funcNameSubsection(funcNames)); sections.push(nameSection(subsections)); } sections.push(customSection("yay", 13)); var result = ""; var callback = () => { result = extractStackFrameFunction(new Error().stack.split('\n')[1]); }; wasmEval(moduleWithSections(sections), {"env": { callback }}).run(); assertEq(result, expectedName); }; runStackTraceTest(null, null, 'wasm-function[1]'); runStackTraceTest(null, [{name:'blah'}, {name:'test'}], 'test'); runStackTraceTest(null, [{name:'test', index:1}], 'test'); runStackTraceTest(null, [{name:'blah'}, {name:'test', locals: [{name: 'var1'}, {name: 'var2'}]}], 'test'); runStackTraceTest(null, [{name:'blah'}, {name:'test', locals: [{name: 'var1'}, {name: 'var2'}]}], 'test'); runStackTraceTest(null, [{name:'blah'}, {name:'test1'}], 'test1'); runStackTraceTest(null, [{name:'blah'}, {name:'test☃'}], 'test☃'); runStackTraceTest(null, [{name:'blah'}, {name:'te\xE0\xFF'}], 'te\xE0\xFF'); runStackTraceTest(null, [{name:'blah'}], 'wasm-function[1]'); runStackTraceTest(null, [], 'wasm-function[1]'); runStackTraceTest("", [{name:'blah'}, {name:'test'}], 'test'); runStackTraceTest("a", [{name:'blah'}, {name:'test'}], 'a.test'); // Notice that invalid names section content shall not fail the parsing runStackTraceTest(null, [{name:'blah'}, {name:'test', index: 2}], 'wasm-function[1]'); // invalid index runStackTraceTest(null, [{name:'blah'}, {name:'test', index: 100000}], 'wasm-function[1]'); // invalid index runStackTraceTest(null, [{name:'blah'}, {name:'test', nameLen: 100}], 'wasm-function[1]'); // invalid name size runStackTraceTest(null, [{name:'blah'}, {name:''}], 'wasm-function[1]'); // empty name // Enable and disable Gecko profiling mode, to ensure all live instances // names won't make us crash. enableGeckoProfiling(); disableGeckoProfiling(); function testValidNameSectionWithProfiling() { enableGeckoProfiling(); wasmEval(moduleWithSections([v2vSigSection, declSec, bodySec, nameSec])); disableGeckoProfiling(); } testValidNameSectionWithProfiling(); // Memory alignment can use non-minimal LEB128 wasmEval(moduleWithSections([ v2vSigSection, declSection([0]), memorySection(0), bodySection([ funcBody({locals: [], body: [ I32ConstCode, 0x00, // i32.const 0 I32Load, 0x81, 0x00, // alignment 1, non-minimal 0x00, // offset 0 DropCode, ]}), ]), ]));