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testWasm.cpp
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testWasm.cpp
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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "mozilla/ScopeExit.h"
#include "jsapi.h"
#include "jspubtd.h"
#include "fuzz-tests/tests.h"
#include "vm/GlobalObject.h"
#include "vm/Interpreter.h"
#include "vm/TypedArrayObject.h"
#include "wasm/WasmCompile.h"
#include "wasm/WasmCraneliftCompile.h"
#include "wasm/WasmIonCompile.h"
#include "wasm/WasmJS.h"
#include "wasm/WasmTable.h"
#include "vm/ArrayBufferObject-inl.h"
#include "vm/JSContext-inl.h"
using namespace js;
using namespace js::wasm;
// These are defined and pre-initialized by the harness (in tests.cpp).
extern JS::PersistentRootedObject gGlobal;
extern JSContext* gCx;
static int testWasmInit(int* argc, char*** argv) {
if (!wasm::HasSupport(gCx) ||
!GlobalObject::getOrCreateConstructor(gCx, JSProto_WebAssembly)) {
MOZ_CRASH("Failed to initialize wasm support");
}
return 0;
}
static bool emptyNativeFunction(JSContext* cx, unsigned argc, Value* vp) {
CallArgs args = CallArgsFromVp(argc, vp);
args.rval().setUndefined();
return true;
}
static bool callExportedFunc(HandleFunction func,
MutableHandleValue lastReturnVal) {
// TODO: We can specify a thisVal here.
RootedValue thisVal(gCx, UndefinedValue());
JS::RootedValueVector args(gCx);
if (!lastReturnVal.isNull() && !lastReturnVal.isUndefined() &&
!args.append(lastReturnVal)) {
return false;
}
RootedValue returnVal(gCx);
if (!Call(gCx, thisVal, func, args, &returnVal)) {
gCx->clearPendingException();
} else {
lastReturnVal.set(returnVal);
}
return true;
}
template <typename T>
static bool assignImportKind(const Import& import, HandleObject obj,
HandleObject lastExportsObj,
JS::Handle<JS::IdVector> lastExportIds,
size_t* currentExportId, size_t exportsLength,
HandleValue defaultValue) {
bool assigned = false;
while (*currentExportId < exportsLength) {
RootedValue propVal(gCx);
if (!JS_GetPropertyById(gCx, lastExportsObj,
lastExportIds[*currentExportId], &propVal)) {
return false;
}
(*currentExportId)++;
if (propVal.isObject() && propVal.toObject().is<T>()) {
if (!JS_SetProperty(gCx, obj, import.field.get(), propVal)) {
return false;
}
assigned = true;
break;
}
}
if (!assigned) {
if (!JS_SetProperty(gCx, obj, import.field.get(), defaultValue)) {
return false;
}
}
return true;
}
static int testWasmFuzz(const uint8_t* buf, size_t size) {
auto gcGuard = mozilla::MakeScopeExit([&] {
JS::PrepareForFullGC(gCx);
JS::NonIncrementalGC(gCx, GC_NORMAL, JS::GCReason::API);
});
const size_t MINIMUM_MODULE_SIZE = 8;
// The smallest valid wasm module is 8 bytes and we need 1 byte for size
if (size < MINIMUM_MODULE_SIZE + 1) return 0;
size_t currentIndex = 0;
// Store the last non-empty exports object and its enumerated Ids here
RootedObject lastExportsObj(gCx);
JS::Rooted<JS::IdVector> lastExportIds(gCx, JS::IdVector(gCx));
// Store the last return value so we can pass it in as an argument during
// the next call (which can be on another module as well).
RootedValue lastReturnVal(gCx);
while (size - currentIndex >= MINIMUM_MODULE_SIZE + 1) {
// Ensure we have no lingering exceptions from previous modules
gCx->clearPendingException();
unsigned char moduleLen = buf[currentIndex];
currentIndex++;
if (size - currentIndex < moduleLen) {
moduleLen = size - currentIndex;
}
if (moduleLen < MINIMUM_MODULE_SIZE) {
continue;
}
if (currentIndex == 1) {
// If this is the first module we are reading, we use the first
// few bytes to tweak some settings. These are fixed anyway and
// overwritten later on.
uint8_t optByte = (uint8_t)buf[currentIndex];
// Note that IonPlatformSupport() and CraneliftPlatformSupport() do not
// take into account whether those compilers support particular features
// that may have been enabled.
bool enableWasmBaseline = ((optByte & 0xF0) == (1 << 7));
bool enableWasmIon =
IonPlatformSupport() && ((optByte & 0xF0) == (1 << 6));
bool enableWasmCranelift = false;
#ifdef ENABLE_WASM_CRANELIFT
enableWasmCranelift =
CraneliftPlatformSupport() && ((optByte & 0xF0) == (1 << 5));
#endif
bool enableWasmAwaitTier2 = (IonPlatformSupport()
#ifdef ENABLE_WASM_CRANELIFT
|| CraneliftPlatformSupport()
#endif
) &&
((optByte & 0xF) == (1 << 3));
if (!enableWasmBaseline && !enableWasmIon && !enableWasmCranelift) {
// If nothing is selected explicitly, select Ion to test
// more platform specific JIT code. However, on some platforms,
// e.g. ARM64, we do not have Ion available, so we need to switch
// to baseline instead.
if (IonPlatformSupport()) {
enableWasmIon = true;
} else {
enableWasmBaseline = true;
}
}
if (enableWasmAwaitTier2) {
// Tier 2 needs Baseline + {Ion,Cranelift}
enableWasmBaseline = true;
if (!enableWasmIon && !enableWasmCranelift) {
enableWasmIon = true;
}
}
JS::ContextOptionsRef(gCx)
.setWasmBaseline(enableWasmBaseline)
.setWasmIon(enableWasmIon)
.setTestWasmAwaitTier2(enableWasmAwaitTier2)
#ifdef ENABLE_WASM_CRANELIFT
.setWasmCranelift(enableWasmCranelift)
#endif
;
}
// Expected header for a valid WebAssembly module
uint32_t magic_header = 0x6d736100;
uint32_t magic_version = 0x1;
// We just skip over the first 8 bytes now because we fill them
// with `magic_header` and `magic_version` anyway.
currentIndex += 8;
moduleLen -= 8;
RootedWasmInstanceObject instanceObj(gCx);
MutableBytes bytecode = gCx->new_<ShareableBytes>();
if (!bytecode || !bytecode->append((uint8_t*)&magic_header, 4) ||
!bytecode->append((uint8_t*)&magic_version, 4) ||
!bytecode->append(&buf[currentIndex], moduleLen)) {
return 0;
}
currentIndex += moduleLen;
ScriptedCaller scriptedCaller;
SharedCompileArgs compileArgs =
CompileArgs::build(gCx, std::move(scriptedCaller));
if (!compileArgs) {
return 0;
}
UniqueChars error;
UniqueCharsVector warnings;
SharedModule module =
CompileBuffer(*compileArgs, *bytecode, &error, &warnings);
if (!module) {
continue;
}
// At this point we have a valid module and we should try to ensure
// that its import requirements are met for instantiation.
const ImportVector& importVec = module->imports();
// Empty native function used to fill in function import slots if we
// run out of functions exported by other modules.
JS::RootedFunction emptyFunction(gCx);
emptyFunction =
JS_NewFunction(gCx, emptyNativeFunction, 0, 0, "emptyFunction");
if (!emptyFunction) {
return 0;
}
RootedValue emptyFunctionValue(gCx, ObjectValue(*emptyFunction));
RootedValue nullValue(gCx, NullValue());
RootedObject importObj(gCx, JS_NewPlainObject(gCx));
if (!importObj) {
return 0;
}
size_t exportsLength = lastExportIds.length();
size_t currentFunctionExportId = 0;
size_t currentTableExportId = 0;
size_t currentMemoryExportId = 0;
size_t currentGlobalExportId = 0;
for (const Import& import : importVec) {
// First try to get the namespace object, create one if this is the
// first time.
RootedValue v(gCx);
if (!JS_GetProperty(gCx, importObj, import.module.get(), &v) ||
!v.isObject()) {
// Insert empty object at importObj[import.module.get()]
RootedObject plainObj(gCx, JS_NewPlainObject(gCx));
if (!plainObj) {
return 0;
}
RootedValue plainVal(gCx, ObjectValue(*plainObj));
if (!JS_SetProperty(gCx, importObj, import.module.get(), plainVal)) {
return 0;
}
// Get the object we just inserted, store in v, ensure it is an
// object (no proxies or other magic at work).
if (!JS_GetProperty(gCx, importObj, import.module.get(), &v) ||
!v.isObject()) {
return 0;
}
}
RootedObject obj(gCx, &v.toObject());
bool found = false;
if (JS_HasProperty(gCx, obj, import.field.get(), &found) && !found) {
// Insert i-th export object that fits the type requirement
// at `v[import.field.get()]`.
switch (import.kind) {
case DefinitionKind::Function:
if (!assignImportKind<JSFunction>(
import, obj, lastExportsObj, lastExportIds,
¤tFunctionExportId, exportsLength,
emptyFunctionValue)) {
return 0;
}
break;
case DefinitionKind::Table:
// TODO: Pass a dummy defaultValue
if (!assignImportKind<WasmTableObject>(
import, obj, lastExportsObj, lastExportIds,
¤tTableExportId, exportsLength, nullValue)) {
return 0;
}
break;
case DefinitionKind::Memory:
// TODO: Pass a dummy defaultValue
if (!assignImportKind<WasmMemoryObject>(
import, obj, lastExportsObj, lastExportIds,
¤tMemoryExportId, exportsLength, nullValue)) {
return 0;
}
break;
case DefinitionKind::Global:
// TODO: Pass a dummy defaultValue
if (!assignImportKind<WasmGlobalObject>(
import, obj, lastExportsObj, lastExportIds,
¤tGlobalExportId, exportsLength, nullValue)) {
return 0;
}
break;
}
}
}
Rooted<ImportValues> imports(gCx);
if (!GetImports(gCx, *module, importObj, imports.address())) {
continue;
}
if (!module->instantiate(gCx, imports.get(), nullptr, &instanceObj)) {
continue;
}
// At this module we have a valid WebAssembly module instance.
RootedObject exportsObj(gCx, &instanceObj->exportsObj());
JS::Rooted<JS::IdVector> exportIds(gCx, JS::IdVector(gCx));
if (!JS_Enumerate(gCx, exportsObj, &exportIds)) {
continue;
}
if (!exportIds.length()) {
continue;
}
// Store the last exports for re-use later
lastExportsObj = exportsObj;
lastExportIds.get() = std::move(exportIds.get());
for (size_t i = 0; i < lastExportIds.length(); i++) {
RootedValue propVal(gCx);
if (!JS_GetPropertyById(gCx, exportsObj, lastExportIds[i], &propVal)) {
return 0;
}
if (propVal.isObject()) {
RootedObject propObj(gCx, &propVal.toObject());
if (propObj->is<JSFunction>()) {
RootedFunction func(gCx, &propObj->as<JSFunction>());
if (!callExportedFunc(func, &lastReturnVal)) {
return 0;
}
}
if (propObj->is<WasmTableObject>()) {
Rooted<WasmTableObject*> tableObj(gCx,
&propObj->as<WasmTableObject>());
size_t tableLen = tableObj->table().length();
RootedValue tableGetVal(gCx);
if (!JS_GetProperty(gCx, tableObj, "get", &tableGetVal)) {
return 0;
}
RootedFunction tableGet(gCx,
&tableGetVal.toObject().as<JSFunction>());
for (size_t i = 0; i < tableLen; i++) {
JS::RootedValueVector tableGetArgs(gCx);
if (!tableGetArgs.append(NumberValue(uint32_t(i)))) {
return 0;
}
RootedValue readFuncValue(gCx);
if (!Call(gCx, tableObj, tableGet, tableGetArgs, &readFuncValue)) {
return 0;
}
if (readFuncValue.isNull()) {
continue;
}
RootedFunction callee(gCx,
&readFuncValue.toObject().as<JSFunction>());
if (!callExportedFunc(callee, &lastReturnVal)) {
return 0;
}
}
}
if (propObj->is<WasmMemoryObject>()) {
Rooted<WasmMemoryObject*> memory(gCx,
&propObj->as<WasmMemoryObject>());
size_t byteLen = memory->volatileMemoryLength();
if (byteLen) {
// Read the bounds of the buffer to ensure it is valid.
// AddressSanitizer would detect any out-of-bounds here.
uint8_t* rawMemory = memory->buffer().dataPointerEither().unwrap();
volatile uint8_t rawMemByte = 0;
rawMemByte += rawMemory[0];
rawMemByte += rawMemory[byteLen - 1];
}
}
if (propObj->is<WasmGlobalObject>()) {
Rooted<WasmGlobalObject*> global(gCx,
&propObj->as<WasmGlobalObject>());
if (global->type() != ValType::I64) {
global->value(gCx, &lastReturnVal);
}
}
}
}
}
return 0;
}
MOZ_FUZZING_INTERFACE_RAW(testWasmInit, testWasmFuzz, Wasm);