/*
* Find the return type in the signature, and convert it to a class
* object. For primitive types we use a boxed class, for reference types
* we do a name lookup.
*
* On failure, we return NULL with an exception raised.
*/
ClassObject* dvmGetBoxedReturnType(const Method* meth)
{
const char* sig = dexProtoGetReturnType(&meth->prototype);
switch (*sig) {
case 'Z':
case 'C':
case 'F':
case 'D':
case 'B':
case 'S':
case 'I':
case 'J':
case 'V':
return dvmFindPrimitiveClass(*sig);
case '[':
case 'L':
return dvmFindClass(sig, meth->clazz->classLoader);
default: {
/* should not have passed verification */
char* desc = dexProtoCopyMethodDescriptor(&meth->prototype);
ALOGE("Bad return type in signature '%s'", desc);
free(desc);
dvmThrowInternalError(NULL);
return NULL;
}
}
}
/*
* static final Class getPrimitiveClass(char prim_type)
*/
static void Dalvik_java_lang_VMClassLoader_getPrimitiveClass(const u4* args,
JValue* pResult)
{
int primType = args[0];
pResult->l = dvmFindPrimitiveClass(primType);
}
/*
* Find the named class object. We have to trim "*pSignature" down to just
* the first token, do the lookup, and then restore anything important
* that we've stomped on.
*
* "pSig" will be advanced to the start of the next token.
*/
static ClassObject* convertSignaturePartToClass(char** pSignature,
const ClassObject* defClass)
{
ClassObject* clazz = NULL;
char* signature = *pSignature;
if (*signature == '[') {
/* looks like "[[[Landroid/debug/Stuff;"; we want the whole thing */
char savedChar;
while (*++signature == '[')
;
if (*signature == 'L') {
while (*++signature != ';')
;
}
/* advance past ';', and stomp on whatever comes next */
savedChar = *++signature;
*signature = '\0';
clazz = dvmFindArrayClass(*pSignature, defClass->classLoader);
*signature = savedChar;
} else if (*signature == 'L') {
/* looks like 'Landroid/debug/Stuff;"; we want the whole thing */
char savedChar;
while (*++signature != ';')
;
savedChar = *++signature;
*signature = '\0';
clazz = dvmFindClassNoInit(*pSignature, defClass->classLoader);
*signature = savedChar;
} else {
clazz = dvmFindPrimitiveClass(*signature++);
}
if (clazz == NULL) {
ALOGW("Unable to match class for part: '%s'", *pSignature);
}
*pSignature = signature;
return clazz;
}
// Based on dvmResolveClass.
static void preloadDexCachesResolveType(DvmDex* pDvmDex, uint32_t typeIdx) {
ClassObject* clazz = dvmDexGetResolvedClass(pDvmDex, typeIdx);
if (clazz != NULL) {
return;
}
const DexFile* pDexFile = pDvmDex->pDexFile;
const char* className = dexStringByTypeIdx(pDexFile, typeIdx);
if (className[0] != '\0' && className[1] == '\0') {
/* primitive type */
clazz = dvmFindPrimitiveClass(className[0]);
} else {
clazz = dvmLookupClass(className, NULL, true);
}
if (clazz == NULL) {
return;
}
// Skip uninitialized classes because filled cache entry implies it is initialized.
if (!dvmIsClassInitialized(clazz)) {
// ALOGI("VMRuntime.preloadDexCaches uninitialized clazz=%s", className);
return;
}
// ALOGI("VMRuntime.preloadDexCaches found clazz=%s", className);
dvmDexSetResolvedClass(pDvmDex, typeIdx, clazz);
}
static void dexspyCallHandler(const u4* args, JValue* pResult, const Method* method, ::Thread* self) {
OriginalMethodsIt original = findOriginalMethod(method);
if (original == dexspyOriginalMethods.end()) {
dvmThrowNoSuchMethodError("could not find Dexspy original method - how did you even get here?");
return;
}
ThreadStatus oldThreadStatus = self->status;
JNIEnv* env = self->jniEnv;
// get java.lang.reflect.Method object for original method
jobject originalReflected = env->ToReflectedMethod(
(jclass)dexspyAddLocalReference(self, original->clazz),
(jmethodID)method,
true);
// convert/box arguments
const char* desc = &method->shorty[1]; // [0] is the return type.
Object* thisObject = NULL;
size_t srcIndex = 0;
size_t dstIndex = 0;
// for non-static methods determine the "this" pointer
if (!dvmIsStaticMethod(&(*original))) {
thisObject = (Object*) dexspyAddLocalReference(self, (Object*)args[0]);
srcIndex++;
}
jclass objectClass = env->FindClass("java/lang/Object");
jobjectArray argsArray = env->NewObjectArray(strlen(method->shorty) - 1, objectClass, NULL);
while (*desc != '\0') {
char descChar = *(desc++);
JValue value;
Object* obj;
switch (descChar) {
case 'Z':
case 'C':
case 'F':
case 'B':
case 'S':
case 'I':
value.i = args[srcIndex++];
obj = (Object*) dvmBoxPrimitive(value, dvmFindPrimitiveClass(descChar));
dvmReleaseTrackedAlloc(obj, NULL);
break;
case 'D':
case 'J':
value.j = dvmGetArgLong(args, srcIndex);
srcIndex += 2;
obj = (Object*) dvmBoxPrimitive(value, dvmFindPrimitiveClass(descChar));
dvmReleaseTrackedAlloc(obj, NULL);
break;
case '[':
case 'L':
obj = (Object*) args[srcIndex++];
break;
default:
ALOGE("Unknown method signature description character: %c\n", descChar);
obj = NULL;
srcIndex++;
}
env->SetObjectArrayElement(argsArray, dstIndex++, dexspyAddLocalReference(self, obj));
}
// call the Java handler function
jobject resultRef = env->CallStaticObjectMethod(
dexspyClass, dexspyHandleHookedMethod, originalReflected, thisObject, argsArray);
// exceptions are thrown to the caller
if (env->ExceptionCheck()) {
dvmChangeStatus(self, oldThreadStatus);
return;
}
// return result with proper type
Object* result = dvmDecodeIndirectRef(self, resultRef);
ClassObject* returnType = dvmGetBoxedReturnType(method);
if (returnType->primitiveType == PRIM_VOID) {
// ignored
} else if (result == NULL) {
if (dvmIsPrimitiveClass(returnType)) {
dvmThrowNullPointerException("null result when primitive expected");
}
pResult->l = NULL;
} else {
if (!dvmUnboxPrimitive(result, returnType, pResult)) {
dvmThrowClassCastException(result->clazz, returnType);
}
}
// set the thread status back to running. must be done after the last env->...()
dvmChangeStatus(self, oldThreadStatus);
}
/*
* Return a new Object[] array with the contents of "args". We determine
* the number and types of values in "args" based on the method signature.
* Primitive types are boxed.
*
* Returns NULL if the method takes no arguments.
*
* The caller must call dvmReleaseTrackedAlloc() on the return value.
*
* On failure, returns with an appropriate exception raised.
*/
static ArrayObject* boxMethodArgs(const Method* method, const u4* args)
{
const char* desc = &method->shorty[1]; // [0] is the return type.
ArrayObject* argArray = NULL;
int argCount;
Object** argObjects;
bool failed = true;
/* count args */
argCount = dexProtoGetParameterCount(&method->prototype);
/* allocate storage */
argArray = dvmAllocArray(gDvm.classJavaLangObjectArray, argCount,
kObjectArrayRefWidth, ALLOC_DEFAULT);
if (argArray == NULL)
goto bail;
argObjects = (Object**) argArray->contents;
/*
* Fill in the array.
*/
int srcIndex = 0;
argCount = 0;
while (*desc != '\0') {
char descChar = *(desc++);
JValue value;
switch (descChar) {
case 'Z':
case 'C':
case 'F':
case 'B':
case 'S':
case 'I':
value.i = args[srcIndex++];
argObjects[argCount] = (Object*) dvmWrapPrimitive(value,
dvmFindPrimitiveClass(descChar));
/* argObjects is tracked, don't need to hold this too */
dvmReleaseTrackedAlloc(argObjects[argCount], NULL);
argCount++;
break;
case 'D':
case 'J':
value.j = dvmGetArgLong(args, srcIndex);
srcIndex += 2;
argObjects[argCount] = (Object*) dvmWrapPrimitive(value,
dvmFindPrimitiveClass(descChar));
dvmReleaseTrackedAlloc(argObjects[argCount], NULL);
argCount++;
break;
case '[':
case 'L':
argObjects[argCount++] = (Object*) args[srcIndex++];
break;
}
}
failed = false;
bail:
if (failed) {
dvmReleaseTrackedAlloc((Object*)argArray, NULL);
argArray = NULL;
}
return argArray;
}
/*
* Find the class corresponding to "classIdx", which maps to a class name
* string. It might be in the same DEX file as "referrer", in a different
* DEX file, generated by a class loader, or generated by the VM (e.g.
* array classes).
*
* Because the DexTypeId is associated with the referring class' DEX file,
* we may have to resolve the same class more than once if it's referred
* to from classes in multiple DEX files. This is a necessary property for
* DEX files associated with different class loaders.
*
* We cache a copy of the lookup in the DexFile's "resolved class" table,
* so future references to "classIdx" are faster.
*
* Note that "referrer" may be in the process of being linked.
*
* Traditional VMs might do access checks here, but in Dalvik the class
* "constant pool" is shared between all classes in the DEX file. We rely
* on the verifier to do the checks for us.
*
* Does not initialize the class.
*
* "fromUnverifiedConstant" should only be set if this call is the direct
* result of executing a "const-class" or "instance-of" instruction, which
* use class constants not resolved by the bytecode verifier.
*
* Returns NULL with an exception raised on failure.
*/
ClassObject* dvmResolveClass(const ClassObject* referrer, u4 classIdx,
bool fromUnverifiedConstant)
{
DvmDex* pDvmDex = referrer->pDvmDex;
ClassObject* resClass;
const char* className;
/*
* Check the table first -- this gets called from the other "resolve"
* methods.
*/
resClass = dvmDexGetResolvedClass(pDvmDex, classIdx);
if (resClass != NULL)
return resClass;
LOGVV("--- resolving class %u (referrer=%s cl=%p)\n",
classIdx, referrer->descriptor, referrer->classLoader);
/*
* Class hasn't been loaded yet, or is in the process of being loaded
* and initialized now. Try to get a copy. If we find one, put the
* pointer in the DexTypeId. There isn't a race condition here --
* 32-bit writes are guaranteed atomic on all target platforms. Worst
* case we have two threads storing the same value.
*
* If this is an array class, we'll generate it here.
*/
className = dexStringByTypeIdx(pDvmDex->pDexFile, classIdx);
if (className[0] != '\0' && className[1] == '\0') {
/* primitive type */
resClass = dvmFindPrimitiveClass(className[0]);
} else {
resClass = dvmFindClassNoInit(className, referrer->classLoader);
}
if (resClass != NULL) {
/*
* If the referrer was pre-verified, the resolved class must come
* from the same DEX or from a bootstrap class. The pre-verifier
* makes assumptions that could be invalidated by a wacky class
* loader. (See the notes at the top of oo/Class.c.)
*
* The verifier does *not* fail a class for using a const-class
* or instance-of instruction referring to an unresolveable class,
* because the result of the instruction is simply a Class object
* or boolean -- there's no need to resolve the class object during
* verification. Instance field and virtual method accesses can
* break dangerously if we get the wrong class, but const-class and
* instance-of are only interesting at execution time. So, if we
* we got here as part of executing one of the "unverified class"
* instructions, we skip the additional check.
*
* Ditto for class references from annotations and exception
* handler lists.
*/
if (!fromUnverifiedConstant &&
IS_CLASS_FLAG_SET(referrer, CLASS_ISPREVERIFIED))
{
ClassObject* resClassCheck = resClass;
if (dvmIsArrayClass(resClassCheck))
resClassCheck = resClassCheck->elementClass;
if (referrer->pDvmDex != resClassCheck->pDvmDex &&
resClassCheck->classLoader != NULL)
{
LOGW("Class resolved by unexpected DEX:"
" %s(%p):%p ref [%s] %s(%p):%p\n",
referrer->descriptor, referrer->classLoader,
referrer->pDvmDex,
resClass->descriptor, resClassCheck->descriptor,
resClassCheck->classLoader, resClassCheck->pDvmDex);
LOGW("(%s had used a different %s during pre-verification)\n",
referrer->descriptor, resClass->descriptor);
dvmThrowException("Ljava/lang/IllegalAccessError;",
"Class ref in pre-verified class resolved to unexpected "
"implementation");
return NULL;
}
}
LOGVV("##### +ResolveClass(%s): referrer=%s dex=%p ldr=%p ref=%d\n",
resClass->descriptor, referrer->descriptor, referrer->pDvmDex,
referrer->classLoader, classIdx);
/*
* Add what we found to the list so we can skip the class search
* next time through.
*
* TODO: should we be doing this when fromUnverifiedConstant==true?
* (see comments at top of oo/Class.c)
*/
dvmDexSetResolvedClass(pDvmDex, classIdx, resClass);
} else {
/* not found, exception should be raised */
LOGVV("Class not found: %s\n",
dexStringByTypeIdx(pDvmDex->pDexFile, classIdx));
assert(dvmCheckException(dvmThreadSelf()));
}
return resClass;
}
/*
* Alternate version of dvmResolveClass for use with verification and
* optimization. Performs access checks on every resolve, and refuses
* to acknowledge the existence of classes defined in more than one DEX
* file.
*
* Exceptions caused by failures are cleared before returning.
*
* On failure, returns NULL, and sets *pFailure if pFailure is not NULL.
*/
ClassObject* dvmOptResolveClass(ClassObject* referrer, u4 classIdx,
VerifyError* pFailure)
{
DvmDex* pDvmDex = referrer->pDvmDex;
ClassObject* resClass;
/*
* Check the table first. If not there, do the lookup by name.
*/
resClass = dvmDexGetResolvedClass(pDvmDex, classIdx);
if (resClass == NULL) {
const char* className = dexStringByTypeIdx(pDvmDex->pDexFile, classIdx);
if (className[0] != '\0' && className[1] == '\0') {
/* primitive type */
resClass = dvmFindPrimitiveClass(className[0]);
} else {
resClass = dvmFindClassNoInit(className, referrer->classLoader);
}
if (resClass == NULL) {
/* not found, exception should be raised */
ALOGV("DexOpt: class %d (%s) not found",
classIdx,
dexStringByTypeIdx(pDvmDex->pDexFile, classIdx));
if (pFailure != NULL) {
/* dig through the wrappers to find the original failure */
Object* excep = dvmGetException(dvmThreadSelf());
while (true) {
Object* cause = dvmGetExceptionCause(excep);
if (cause == NULL)
break;
excep = cause;
}
if (strcmp(excep->clazz->descriptor,
"Ljava/lang/IncompatibleClassChangeError;") == 0)
{
*pFailure = VERIFY_ERROR_CLASS_CHANGE;
} else {
*pFailure = VERIFY_ERROR_NO_CLASS;
}
}
dvmClearOptException(dvmThreadSelf());
return NULL;
}
/*
* Add it to the resolved table so we're faster on the next lookup.
*/
dvmDexSetResolvedClass(pDvmDex, classIdx, resClass);
}
/* multiple definitions? */
if (IS_CLASS_FLAG_SET(resClass, CLASS_MULTIPLE_DEFS)) {
ALOGI("DexOpt: not resolving ambiguous class '%s'",
resClass->descriptor);
if (pFailure != NULL)
*pFailure = VERIFY_ERROR_NO_CLASS;
return NULL;
}
/* access allowed? */
tweakLoader(referrer, resClass);
bool allowed = dvmCheckClassAccess(referrer, resClass);
untweakLoader(referrer, resClass);
if (!allowed) {
ALOGW("DexOpt: resolve class illegal access: %s -> %s",
referrer->descriptor, resClass->descriptor);
if (pFailure != NULL)
*pFailure = VERIFY_ERROR_ACCESS_CLASS;
return NULL;
}
return resClass;
}
static void xposedCallHandler(const u4* args, JValue* pResult,
const Method* method, ::Thread* self) {
if (!xposedIsHooked(method)) {
dvmThrowNoSuchMethodError(
"could not find Xposed original method - how did you even get here?");
return;
}
XposedHookInfo* hookInfo = (XposedHookInfo*) method->insns;
Method* original = (Method*) hookInfo;
Object* originalReflected = hookInfo->reflectedMethod;
Object* additionalInfo = hookInfo->additionalInfo;
// convert/box arguments
const char* desc = &method->shorty[1]; // [0] is the return type.
Object* thisObject = NULL;
size_t srcIndex = 0;
size_t dstIndex = 0;
// for non-static methods determine the "this" pointer
if (!dvmIsStaticMethod(original)) {
thisObject = (Object*) args[0];
srcIndex++;
}
ArrayObject* argsArray = dvmAllocArrayByClass(objectArrayClass,
strlen(method->shorty) - 1, ALLOC_DEFAULT);
if (argsArray == NULL) {
return;
}
while (*desc != '\0') {
char descChar = *(desc++);
JValue value;
Object* obj;
switch (descChar) {
case 'Z':
case 'C':
case 'F':
case 'B':
case 'S':
case 'I':
value.i = args[srcIndex++];
obj = (Object*) dvmBoxPrimitive(value,
dvmFindPrimitiveClass(descChar));
dvmReleaseTrackedAlloc(obj, self);
break;
case 'D':
case 'J':
value.j = dvmGetArgLong(args, srcIndex);
srcIndex += 2;
obj = (Object*) dvmBoxPrimitive(value,
dvmFindPrimitiveClass(descChar));
dvmReleaseTrackedAlloc(obj, self);
break;
case '[':
case 'L':
obj = (Object*) args[srcIndex++];
break;
default:
ALOGE("Unknown method signature description character: %c\n",
descChar);
obj = NULL;
srcIndex++;
}
xposedSetObjectArrayElement(argsArray, dstIndex++, obj);
}
// call the Java handler function
JValue result;
dvmCallMethod(self, xposedHandleHookedMethod, NULL, &result,
originalReflected, (int) original, additionalInfo, thisObject,
argsArray);
dvmReleaseTrackedAlloc(argsArray, self);
// exceptions are thrown to the caller
if (dvmCheckException(self)) {
return;
}
// return result with proper type
ClassObject* returnType = dvmGetBoxedReturnType(method);
if (returnType->primitiveType == PRIM_VOID) {
// ignored
} else if (result.l == NULL) {
if (dvmIsPrimitiveClass(returnType)) {
dvmThrowNullPointerException("null result when primitive expected");
}
pResult->l = NULL;
} else {
if (!dvmUnboxPrimitive(result.l, returnType, pResult)) {
dvmThrowClassCastException(result.l->clazz, returnType);
}
}
}