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/*
* Copyright (C) 2008 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Support for -Xcheck:jni (the "careful" version of the JNI interfaces).
*
* We want to verify types, make sure class and field IDs are valid, and
* ensure that JNI's semantic expectations are being met. JNI seems to
* be relatively lax when it comes to requirements for permission checks,
* e.g. access to private methods is generally allowed from anywhere.
*/
#include "Dalvik.h"
#include "JniInternal.h"
#include <sys/mman.h>
#include <zlib.h>
/*
* Abort if we are configured to bail out on JNI warnings.
*/
static void abortMaybe() {
if (!gDvmJni.warnOnly) {
dvmDumpThread(dvmThreadSelf(), false);
dvmAbort();
}
}
/*
* ===========================================================================
* JNI call bridge wrapper
* ===========================================================================
*/
/*
* Check the result of a native method call that returns an object reference.
*
* The primary goal here is to verify that native code is returning the
* correct type of object. If it's declared to return a String but actually
* returns a byte array, things will fail in strange ways later on.
*
* This can be a fairly expensive operation, since we have to look up the
* return type class by name in method->clazz' class loader. We take a
* shortcut here and allow the call to succeed if the descriptor strings
* match. This will allow some false-positives when a class is redefined
* by a class loader, but that's rare enough that it doesn't seem worth
* testing for.
*
* At this point, pResult->l has already been converted to an object pointer.
*/
static void checkCallResultCommon(const u4* args, const JValue* pResult,
const Method* method, Thread* self)
{
assert(pResult->l != NULL);
const Object* resultObj = (const Object*) pResult->l;
if (resultObj == kInvalidIndirectRefObject) {
LOGW("JNI WARNING: invalid reference returned from native code");
const Method* method = dvmGetCurrentJNIMethod();
char* desc = dexProtoCopyMethodDescriptor(&method->prototype);
LOGW(" in %s.%s:%s", method->clazz->descriptor, method->name, desc);
free(desc);
abortMaybe();
return;
}
ClassObject* objClazz = resultObj->clazz;
/*
* Make sure that pResult->l is an instance of the type this
* method was expected to return.
*/
const char* declType = dexProtoGetReturnType(&method->prototype);
const char* objType = objClazz->descriptor;
if (strcmp(declType, objType) == 0) {
/* names match; ignore class loader issues and allow it */
LOGV("Check %s.%s: %s io %s (FAST-OK)",
method->clazz->descriptor, method->name, objType, declType);
} else {
/*
* Names didn't match. We need to resolve declType in the context
* of method->clazz->classLoader, and compare the class objects
* for equality.
*
* Since we're returning an instance of declType, it's safe to
* assume that it has been loaded and initialized (or, for the case
* of an array, generated). However, the current class loader may
* not be listed as an initiating loader, so we can't just look for
* it in the loaded-classes list.
*/
ClassObject* declClazz = dvmFindClassNoInit(declType, method->clazz->classLoader);
if (declClazz == NULL) {
LOGW("JNI WARNING: method declared to return '%s' returned '%s'",
declType, objType);
LOGW(" failed in %s.%s ('%s' not found)",
method->clazz->descriptor, method->name, declType);
abortMaybe();
return;
}
if (!dvmInstanceof(objClazz, declClazz)) {
LOGW("JNI WARNING: method declared to return '%s' returned '%s'",
declType, objType);
LOGW(" failed in %s.%s",
method->clazz->descriptor, method->name);
abortMaybe();
return;
} else {
LOGV("Check %s.%s: %s io %s (SLOW-OK)",
method->clazz->descriptor, method->name, objType, declType);
}
}
}
/*
* Determine if we need to check the return type coming out of the call.
*
* (We don't simply do this at the top of checkCallResultCommon() because
* this is on the critical path for native method calls.)
*/
static inline bool callNeedsCheck(const u4* args, JValue* pResult,
const Method* method, Thread* self)
{
return (method->shorty[0] == 'L' && !dvmCheckException(self) && pResult->l != NULL);
}
/*
* Check a call into native code.
*/
void dvmCheckCallJNIMethod(const u4* args, JValue* pResult,
const Method* method, Thread* self)
{
dvmCallJNIMethod(args, pResult, method, self);
if (callNeedsCheck(args, pResult, method, self)) {
checkCallResultCommon(args, pResult, method, self);
}
}
/*
* ===========================================================================
* JNI function helpers
* ===========================================================================
*/
static inline const JNINativeInterface* baseEnv(JNIEnv* env) {
return ((JNIEnvExt*) env)->baseFuncTable;
}
static inline const JNIInvokeInterface* baseVm(JavaVM* vm) {
return ((JavaVMExt*) vm)->baseFuncTable;
}
class ScopedCheckJniThreadState {
public:
explicit ScopedCheckJniThreadState(JNIEnv* env) {
dvmChangeStatus(NULL, THREAD_RUNNING);
}
~ScopedCheckJniThreadState() {
dvmChangeStatus(NULL, THREAD_NATIVE);
}
private:
// Disallow copy and assignment.
ScopedCheckJniThreadState(const ScopedCheckJniThreadState&);
void operator=(const ScopedCheckJniThreadState&);
};
/*
* Flags passed into ScopedCheck.
*/
#define kFlag_Default 0x0000
#define kFlag_CritBad 0x0000 /* calling while in critical is bad */
#define kFlag_CritOkay 0x0001 /* ...okay */
#define kFlag_CritGet 0x0002 /* this is a critical "get" */
#define kFlag_CritRelease 0x0003 /* this is a critical "release" */
#define kFlag_CritMask 0x0003 /* bit mask to get "crit" value */
#define kFlag_ExcepBad 0x0000 /* raised exceptions are bad */
#define kFlag_ExcepOkay 0x0004 /* ...okay */
#define kFlag_Release 0x0010 /* are we in a non-critical release function? */
#define kFlag_NullableUtf 0x0020 /* are our UTF parameters nullable? */
#define kFlag_Invocation 0x8000 /* Part of the invocation interface (JavaVM*) */
static const char* indirectRefKindName(IndirectRef iref)
{
return indirectRefKindToString(indirectRefKind(iref));
}
class ScopedCheck {
public:
// For JNIEnv* functions.
explicit ScopedCheck(JNIEnv* env, int flags, const char* functionName) {
init(env, flags, functionName, true);
checkThread(flags);
}
// For JavaVM* functions.
explicit ScopedCheck(bool hasMethod, const char* functionName) {
init(NULL, kFlag_Invocation, functionName, hasMethod);
}
/*
* In some circumstances the VM will screen class names, but it doesn't
* for class lookup. When things get bounced through a class loader, they
* can actually get normalized a couple of times; as a result, passing in
* a class name like "java.lang.Thread" instead of "java/lang/Thread" will
* work in some circumstances.
*
* This is incorrect and could cause strange behavior or compatibility
* problems, so we want to screen that out here.
*
* We expect "fully-qualified" class names, like "java/lang/Thread" or
* "[Ljava/lang/Object;".
*/
void checkClassName(const char* className) {
if (!dexIsValidClassName(className, false)) {
LOGW("JNI WARNING: illegal class name '%s' (%s)", className, mFunctionName);
LOGW(" (should be formed like 'dalvik/system/DexFile')");
LOGW(" or '[Ldalvik/system/DexFile;' or '[[B')");
abortMaybe();
}
}
void checkFieldTypeForGet(jfieldID fid, const char* expectedSignature, bool isStatic) {
if (fid == NULL) {
LOGW("JNI WARNING: null jfieldID");
showLocation();
abortMaybe();
}
bool printWarn = false;
Field* field = (Field*) fid;
const char* actualSignature = field->signature;
if (*expectedSignature == 'L') {
// 'actualSignature' has the exact type.
// We just know we're expecting some kind of reference.
if (*actualSignature != 'L' && *actualSignature != '[') {
printWarn = true;
}
} else if (*actualSignature != *expectedSignature) {
printWarn = true;
}
if (!printWarn && isStatic && !dvmIsStaticField(field)) {
if (isStatic) {
LOGW("JNI WARNING: accessing non-static field %s as static", field->name);
} else {
LOGW("JNI WARNING: accessing static field %s as non-static", field->name);
}
printWarn = true;
}
if (printWarn) {
LOGW("JNI WARNING: %s for field '%s' of expected type %s, got %s",
mFunctionName, field->name, expectedSignature, actualSignature);
showLocation();
abortMaybe();
}
}
/*
* Verify that the field is of the appropriate type. If the field has an
* object type, "jobj" is the object we're trying to assign into it.
*
* Works for both static and instance fields.
*/
void checkFieldTypeForSet(jobject jobj, jfieldID fieldID, PrimitiveType prim, bool isStatic) {
if (fieldID == NULL) {
LOGW("JNI WARNING: null jfieldID");
showLocation();
abortMaybe();
}
bool printWarn = false;
Field* field = (Field*) fieldID;
if ((field->signature[0] == 'L' || field->signature[0] == '[') && jobj != NULL) {
ScopedCheckJniThreadState ts(mEnv);
Object* obj = dvmDecodeIndirectRef(self(), jobj);
/*
* If jobj is a weak global ref whose referent has been cleared,
* obj will be NULL. Otherwise, obj should always be non-NULL
* and valid.
*/
if (obj != NULL && !dvmIsHeapAddress(obj)) {
LOGW("JNI WARNING: field operation on invalid %s reference (%p)",
indirectRefKindName(jobj), jobj);
printWarn = true;
} else {
ClassObject* fieldClass = dvmFindLoadedClass(field->signature);
ClassObject* objClass = obj->clazz;
assert(fieldClass != NULL);
assert(objClass != NULL);
if (!dvmInstanceof(objClass, fieldClass)) {
LOGW("JNI WARNING: set field '%s' expected type %s, got %s",
field->name, field->signature, objClass->descriptor);
printWarn = true;
}
}
} else if (dexGetPrimitiveTypeFromDescriptorChar(field->signature[0]) != prim) {
LOGW("JNI WARNING: %s for field '%s' expected type %s, got %s",
mFunctionName, field->name, field->signature, primitiveTypeToName(prim));
printWarn = true;
} else if (isStatic && !dvmIsStaticField(field)) {
if (isStatic) {
LOGW("JNI WARNING: accessing non-static field %s as static", field->name);
} else {
LOGW("JNI WARNING: accessing static field %s as non-static", field->name);
}
printWarn = true;
}
if (printWarn) {
showLocation();
abortMaybe();
}
}
/*
* Verify that this instance field ID is valid for this object.
*
* Assumes "jobj" has already been validated.
*/
void checkInstanceFieldID(jobject jobj, jfieldID fieldID) {
ScopedCheckJniThreadState ts(mEnv);
Object* obj = dvmDecodeIndirectRef(self(), jobj);
if (!dvmIsHeapAddress(obj)) {
LOGW("JNI ERROR: field operation on invalid reference (%p)", jobj);
dvmAbort();
}
/*
* Check this class and all of its superclasses for a matching field.
* Don't need to scan interfaces.
*/
ClassObject* clazz = obj->clazz;
while (clazz != NULL) {
if ((InstField*) fieldID >= clazz->ifields &&
(InstField*) fieldID < clazz->ifields + clazz->ifieldCount) {
return;
}
clazz = clazz->super;
}
LOGW("JNI WARNING: instance fieldID %p not valid for class %s",
fieldID, obj->clazz->descriptor);
showLocation();
abortMaybe();
}
/*
* Verify that the pointer value is non-NULL.
*/
void checkNonNull(const void* ptr) {
if (ptr == NULL) {
LOGW("JNI WARNING: invalid null pointer (%s)", mFunctionName);
abortMaybe();
}
}
/*
* Verify that the method's return type matches the type of call.
* 'expectedType' will be "L" for all objects, including arrays.
*/
void checkSig(jmethodID methodID, const char* expectedType, bool isStatic) {
const Method* method = (const Method*) methodID;
bool printWarn = false;
if (*expectedType != method->shorty[0]) {
LOGW("JNI WARNING: expected return type '%s'", expectedType);
printWarn = true;
} else if (isStatic && !dvmIsStaticMethod(method)) {
if (isStatic) {
LOGW("JNI WARNING: calling non-static method with static call");
} else {
LOGW("JNI WARNING: calling static method with non-static call");
}
printWarn = true;
}
if (printWarn) {
char* desc = dexProtoCopyMethodDescriptor(&method->prototype);
LOGW(" calling %s.%s %s", method->clazz->descriptor, method->name, desc);
free(desc);
showLocation();
abortMaybe();
}
}
/*
* Verify that this static field ID is valid for this class.
*
* Assumes "jclazz" has already been validated.
*/
void checkStaticFieldID(jclass jclazz, jfieldID fieldID) {
ScopedCheckJniThreadState ts(mEnv);
ClassObject* clazz = (ClassObject*) dvmDecodeIndirectRef(self(), jclazz);
StaticField* base = &clazz->sfields[0];
int fieldCount = clazz->sfieldCount;
if ((StaticField*) fieldID < base || (StaticField*) fieldID >= base + fieldCount) {
LOGW("JNI WARNING: static fieldID %p not valid for class %s",
fieldID, clazz->descriptor);
LOGW(" base=%p count=%d", base, fieldCount);
showLocation();
abortMaybe();
}
}
/*
* Verify that "methodID" is appropriate for "clazz".
*
* A mismatch isn't dangerous, because the jmethodID defines the class. In
* fact, jclazz is unused in the implementation. It's best if we don't
* allow bad code in the system though.
*
* Instances of "jclazz" must be instances of the method's declaring class.
*/
void checkStaticMethod(jclass jclazz, jmethodID methodID) {
ScopedCheckJniThreadState ts(mEnv);
ClassObject* clazz = (ClassObject*) dvmDecodeIndirectRef(self(), jclazz);
const Method* method = (const Method*) methodID;
if (!dvmInstanceof(clazz, method->clazz)) {
LOGW("JNI WARNING: can't call static %s.%s on class %s",
method->clazz->descriptor, method->name, clazz->descriptor);
showLocation();
// no abort?
}
}
/*
* Verify that "methodID" is appropriate for "jobj".
*
* Make sure the object is an instance of the method's declaring class.
* (Note the methodID might point to a declaration in an interface; this
* will be handled automatically by the instanceof check.)
*/
void checkVirtualMethod(jobject jobj, jmethodID methodID) {
ScopedCheckJniThreadState ts(mEnv);
Object* obj = dvmDecodeIndirectRef(self(), jobj);
const Method* method = (const Method*) methodID;
if (!dvmInstanceof(obj->clazz, method->clazz)) {
LOGW("JNI WARNING: can't call %s.%s on instance of %s",
method->clazz->descriptor, method->name, obj->clazz->descriptor);
showLocation();
abortMaybe();
}
}
/**
* The format string is a sequence of the following characters,
* and must be followed by arguments of the corresponding types
* in the same order.
*
* Java primitive types:
* B - jbyte
* C - jchar
* D - jdouble
* F - jfloat
* I - jint
* J - jlong
* S - jshort
* Z - jboolean (shown as true and false)
* V - void
*
* Java reference types:
* L - jobject
* a - jarray
* c - jclass
* s - jstring
*
* JNI types:
* b - jboolean (shown as JNI_TRUE and JNI_FALSE)
* f - jfieldID
* m - jmethodID
* p - void*
* r - jint (for release mode arguments)
* u - const char* (modified UTF-8)
* z - jsize (for lengths; use i if negative values are okay)
* v - JavaVM*
* E - JNIEnv*
* . - no argument; just print "..." (used for varargs JNI calls)
*
* Use the kFlag_NullableUtf flag where 'u' field(s) are nullable.
*/
void check(bool entry, const char* fmt0, ...) {
va_list ap;
bool shouldTrace = false;
const Method* method = NULL;
if ((gDvm.jniTrace || gDvmJni.logThirdPartyJni) && mHasMethod) {
// We need to guard some of the invocation interface's calls: a bad caller might
// use DetachCurrentThread or GetEnv on a thread that's not yet attached.
if ((mFlags & kFlag_Invocation) == 0 || dvmThreadSelf() != NULL) {
method = dvmGetCurrentJNIMethod();
}
}
if (method != NULL) {
// If both "-Xcheck:jni" and "-Xjnitrace:" are enabled, we print trace messages
// when a native method that matches the Xjnitrace argument calls a JNI function
// such as NewByteArray.
if (gDvm.jniTrace && strstr(method->clazz->descriptor, gDvm.jniTrace) != NULL) {
shouldTrace = true;
}
// If -Xjniopts:logThirdPartyJni is on, we want to log any JNI function calls
// made by a third-party native method.
if (gDvmJni.logThirdPartyJni) {
shouldTrace |= method->shouldTrace;
}
}
if (shouldTrace) {
va_start(ap, fmt0);
std::string msg;
for (const char* fmt = fmt0; *fmt;) {
char ch = *fmt++;
if (ch == 'B') { // jbyte
jbyte b = va_arg(ap, int);
if (b >= 0 && b < 10) {
StringAppendF(&msg, "%d", b);
} else {
StringAppendF(&msg, "%#x (%d)", b, b);
}
} else if (ch == 'C') { // jchar
jchar c = va_arg(ap, int);
if (c < 0x7f && c >= ' ') {
StringAppendF(&msg, "U+%x ('%c')", c, c);
} else {
StringAppendF(&msg, "U+%x", c);
}
} else if (ch == 'F' || ch == 'D') { // jfloat, jdouble
StringAppendF(&msg, "%g", va_arg(ap, double));
} else if (ch == 'I' || ch == 'S') { // jint, jshort
StringAppendF(&msg, "%d", va_arg(ap, int));
} else if (ch == 'J') { // jlong
StringAppendF(&msg, "%lld", va_arg(ap, jlong));
} else if (ch == 'Z') { // jboolean
StringAppendF(&msg, "%s", va_arg(ap, int) ? "true" : "false");
} else if (ch == 'V') { // void
msg += "void";
} else if (ch == 'v') { // JavaVM*
JavaVM* vm = va_arg(ap, JavaVM*);
StringAppendF(&msg, "(JavaVM*)%p", vm);
} else if (ch == 'E') { // JNIEnv*
JNIEnv* env = va_arg(ap, JNIEnv*);
StringAppendF(&msg, "(JNIEnv*)%p", env);
} else if (ch == 'L' || ch == 'a' || ch == 's') { // jobject, jarray, jstring
// For logging purposes, these are identical.
jobject o = va_arg(ap, jobject);
if (o == NULL) {
msg += "NULL";
} else {
StringAppendF(&msg, "%p", o);
}
} else if (ch == 'b') { // jboolean (JNI-style)
jboolean b = va_arg(ap, int);
msg += (b ? "JNI_TRUE" : "JNI_FALSE");
} else if (ch == 'c') { // jclass
jclass jc = va_arg(ap, jclass);
Object* c = dvmDecodeIndirectRef(self(), jc);
if (c == NULL) {
msg += "NULL";
} else if (c == kInvalidIndirectRefObject || !dvmIsHeapAddress(c)) {
StringAppendF(&msg, "%p(INVALID)", jc);
} else {
std::string className(dvmHumanReadableType(c));
StringAppendF(&msg, "%s", className.c_str());
if (!entry) {
StringAppendF(&msg, " (%p)", jc);
}
}
} else if (ch == 'f') { // jfieldID
jfieldID fid = va_arg(ap, jfieldID);
std::string name(dvmHumanReadableField((Field*) fid));
StringAppendF(&msg, "%s", name.c_str());
if (!entry) {
StringAppendF(&msg, " (%p)", fid);
}
} else if (ch == 'z') { // non-negative jsize
// You might expect jsize to be size_t, but it's not; it's the same as jint.
// We only treat this specially so we can do the non-negative check.
// TODO: maybe this wasn't worth it?
jint i = va_arg(ap, jint);
StringAppendF(&msg, "%d", i);
} else if (ch == 'm') { // jmethodID
jmethodID mid = va_arg(ap, jmethodID);
std::string name(dvmHumanReadableMethod((Method*) mid, true));
StringAppendF(&msg, "%s", name.c_str());
if (!entry) {
StringAppendF(&msg, " (%p)", mid);
}
} else if (ch == 'p') { // void* ("pointer")
void* p = va_arg(ap, void*);
if (p == NULL) {
msg += "NULL";
} else {
StringAppendF(&msg, "(void*) %p", p);
}
} else if (ch == 'r') { // jint (release mode)
jint releaseMode = va_arg(ap, jint);
if (releaseMode == 0) {
msg += "0";
} else if (releaseMode == JNI_ABORT) {
msg += "JNI_ABORT";
} else if (releaseMode == JNI_COMMIT) {
msg += "JNI_COMMIT";
} else {
StringAppendF(&msg, "invalid release mode %d", releaseMode);
}
} else if (ch == 'u') { // const char* (modified UTF-8)
const char* utf = va_arg(ap, const char*);
if (utf == NULL) {
msg += "NULL";
} else {
StringAppendF(&msg, "\"%s\"", utf);
}
} else if (ch == '.') {
msg += "...";
} else {
LOGE("unknown trace format specifier %c", ch);
dvmAbort();
}
if (*fmt) {
StringAppendF(&msg, ", ");
}
}
va_end(ap);
if (entry) {
if (mHasMethod) {
std::string methodName(dvmHumanReadableMethod(method, false));
LOGI("JNI: %s -> %s(%s)", methodName.c_str(), mFunctionName, msg.c_str());
mIndent = methodName.size() + 1;
} else {
LOGI("JNI: -> %s(%s)", mFunctionName, msg.c_str());
mIndent = 0;
}
} else {
LOGI("JNI: %*s<- %s returned %s", mIndent, "", mFunctionName, msg.c_str());
}
}
// We always do the thorough checks on entry, and never on exit...
if (entry) {
va_start(ap, fmt0);
for (const char* fmt = fmt0; *fmt; ++fmt) {
char ch = *fmt;
if (ch == 'a') {
checkArray(va_arg(ap, jarray));
} else if (ch == 'c') {
checkClass(va_arg(ap, jclass));
} else if (ch == 'L') {
checkObject(va_arg(ap, jobject));
} else if (ch == 'r') {
checkReleaseMode(va_arg(ap, jint));
} else if (ch == 's') {
checkString(va_arg(ap, jstring));
} else if (ch == 'u') {
if ((mFlags & kFlag_Release) != 0) {
checkNonNull(va_arg(ap, const char*));
} else {
bool nullable = ((mFlags & kFlag_NullableUtf) != 0);
checkUtfString(va_arg(ap, const char*), nullable);
}
} else if (ch == 'z') {
checkLengthPositive(va_arg(ap, jsize));
} else if (strchr("BCISZbfmpEv", ch) != NULL) {
va_arg(ap, int); // Skip this argument.
} else if (ch == 'D' || ch == 'F') {
va_arg(ap, double); // Skip this argument.
} else if (ch == 'J') {
va_arg(ap, long); // Skip this argument.
} else if (ch == '.') {
} else {
LOGE("unknown check format specifier %c", ch);
dvmAbort();
}
}
va_end(ap);
}
}
// Only safe after checkThread returns.
Thread* self() {
return ((JNIEnvExt*) mEnv)->self;
}
private:
JNIEnv* mEnv;
const char* mFunctionName;
int mFlags;
bool mHasMethod;
size_t mIndent;
void init(JNIEnv* env, int flags, const char* functionName, bool hasMethod) {
mEnv = env;
mFlags = flags;
// Use +6 to drop the leading "Check_"...
mFunctionName = functionName + 6;
// Set "hasMethod" to true if we have a valid thread with a method pointer.
// We won't have one before attaching a thread, after detaching a thread, or
// after destroying the VM.
mHasMethod = hasMethod;
}
/*
* Verify that "array" is non-NULL and points to an Array object.
*
* Since we're dealing with objects, switch to "running" mode.
*/
void checkArray(jarray jarr) {
if (jarr == NULL) {
LOGW("JNI WARNING: received null array");
showLocation();
abortMaybe();
return;
}
ScopedCheckJniThreadState ts(mEnv);
bool printWarn = false;
Object* obj = dvmDecodeIndirectRef(self(), jarr);
if (!dvmIsHeapAddress(obj)) {
LOGW("JNI WARNING: jarray is an invalid %s reference (%p)",
indirectRefKindName(jarr), jarr);
printWarn = true;
} else if (obj->clazz->descriptor[0] != '[') {
LOGW("JNI WARNING: jarray arg has wrong type (expected array, got %s)",
obj->clazz->descriptor);
printWarn = true;
}
if (printWarn) {
showLocation();
abortMaybe();
}
}
void checkClass(jclass c) {
checkInstance(c, gDvm.classJavaLangClass, "jclass");
}
void checkLengthPositive(jsize length) {
if (length < 0) {
LOGW("JNI WARNING: negative jsize (%s)", mFunctionName);
abortMaybe();
}
}
/*
* Verify that "jobj" is a valid object, and that it's an object that JNI
* is allowed to know about. We allow NULL references.
*
* Switches to "running" mode before performing checks.
*/
void checkObject(jobject jobj) {
if (jobj == NULL) {
return;
}
ScopedCheckJniThreadState ts(mEnv);
bool printWarn = false;
if (dvmGetJNIRefType(self(), jobj) == JNIInvalidRefType) {
LOGW("JNI WARNING: %p is not a valid JNI reference", jobj);
printWarn = true;
} else {
Object* obj = dvmDecodeIndirectRef(self(), jobj);
if (obj == kInvalidIndirectRefObject) {
LOGW("JNI WARNING: native code passing in invalid reference %p", jobj);
printWarn = true;
} else if (obj != NULL && !dvmIsHeapAddress(obj)) {
// TODO: when we remove workAroundAppJniBugs, this should be impossible.
LOGW("JNI WARNING: native code passing in reference to invalid object %p %p",
jobj, obj);
printWarn = true;
}
}
if (printWarn) {
showLocation();
abortMaybe();
}
}
/*
* Verify that the "mode" argument passed to a primitive array Release
* function is one of the valid values.
*/
void checkReleaseMode(jint mode) {
if (mode != 0 && mode != JNI_COMMIT && mode != JNI_ABORT) {
LOGW("JNI WARNING: bad value for mode (%d) (%s)", mode, mFunctionName);
abortMaybe();
}
}
void checkString(jstring s) {
checkInstance(s, gDvm.classJavaLangString, "jstring");
}
void checkThread(int flags) {
// Get the *correct* JNIEnv by going through our TLS pointer.
JNIEnvExt* threadEnv = dvmGetJNIEnvForThread();
/*
* Verify that the current thread is (a) attached and (b) associated with
* this particular instance of JNIEnv.
*/
bool printWarn = false;
if (threadEnv == NULL) {
LOGE("JNI ERROR: non-VM thread making JNI calls");
// don't set printWarn -- it'll try to call showLocation()
dvmAbort();
} else if ((JNIEnvExt*) mEnv != threadEnv) {
if (dvmThreadSelf()->threadId != threadEnv->envThreadId) {
LOGE("JNI: threadEnv != thread->env?");
dvmAbort();
}
LOGW("JNI WARNING: threadid=%d using env from threadid=%d",
threadEnv->envThreadId, ((JNIEnvExt*) mEnv)->envThreadId);
printWarn = true;
// If we're keeping broken code limping along, we need to suppress the abort...
if (gDvmJni.workAroundAppJniBugs) {
printWarn = false;
}
/* this is a bad idea -- need to throw as we exit, or abort func */
//dvmThrowRuntimeException("invalid use of JNI env ptr");
} else if (((JNIEnvExt*) mEnv)->self != dvmThreadSelf()) {
/* correct JNIEnv*; make sure the "self" pointer is correct */
LOGE("JNI ERROR: env->self != thread-self (%p vs. %p)",
((JNIEnvExt*) mEnv)->self, dvmThreadSelf());
dvmAbort();
}
/*
* Verify that, if this thread previously made a critical "get" call, we
* do the corresponding "release" call before we try anything else.
*/
switch (flags & kFlag_CritMask) {
case kFlag_CritOkay: // okay to call this method
break;
case kFlag_CritBad: // not okay to call
if (threadEnv->critical) {
LOGW("JNI WARNING: threadid=%d using JNI after critical get",
threadEnv->envThreadId);
printWarn = true;
}
break;
case kFlag_CritGet: // this is a "get" call
/* don't check here; we allow nested gets */
threadEnv->critical++;
break;
case kFlag_CritRelease: // this is a "release" call
threadEnv->critical--;
if (threadEnv->critical < 0) {
LOGW("JNI WARNING: threadid=%d called too many crit releases",
threadEnv->envThreadId);
printWarn = true;
}
break;
default:
assert(false);
}
/*
* Verify that, if an exception has been raised, the native code doesn't
* make any JNI calls other than the Exception* methods.
*/
bool printException = false;
if ((flags & kFlag_ExcepOkay) == 0 && dvmCheckException(dvmThreadSelf())) {
LOGW("JNI WARNING: JNI method called with exception pending");
printWarn = true;
printException = true;
}
if (printWarn) {
showLocation();
}
if (printException) {
LOGW("Pending exception is:");
dvmLogExceptionStackTrace();
}
if (printWarn) {
abortMaybe();
}
}
/*
* Verify that "bytes" points to valid "modified UTF-8" data.
*/
void checkUtfString(const char* bytes, bool nullable) {
if (bytes == NULL) {
if (!nullable) {
LOGW("JNI WARNING: non-nullable const char* was NULL");
showLocation();
abortMaybe();
}
return;
}
const char* errorKind = NULL;
u1 utf8 = checkUtfBytes(bytes, &errorKind);
if (errorKind != NULL) {
LOGW("JNI WARNING: input is not valid Modified UTF-8: illegal %s byte %#x", errorKind, utf8);
LOGW(" string: '%s'", bytes);
showLocation();
abortMaybe();
}
}
/*
* Verify that "jobj" is a valid non-NULL object reference, and points to
* an instance of expectedClass.
*
* Because we're looking at an object on the GC heap, we have to switch
* to "running" mode before doing the checks.
*/
void checkInstance(jobject jobj, ClassObject* expectedClass, const char* argName) {
if (jobj == NULL) {
LOGW("JNI WARNING: received null %s", argName);
showLocation();
abortMaybe();
return;
}
ScopedCheckJniThreadState ts(mEnv);
bool printWarn = false;
Object* obj = dvmDecodeIndirectRef(self(), jobj);
if (!dvmIsHeapAddress(obj)) {
LOGW("JNI WARNING: %s is an invalid %s reference (%p)",
argName, indirectRefKindName(jobj), jobj);
printWarn = true;
} else if (obj->clazz != expectedClass) {
LOGW("JNI WARNING: %s arg has wrong type (expected %s, got %s)",
argName, expectedClass->descriptor, obj->clazz->descriptor);
printWarn = true;
}
if (printWarn) {
showLocation();
abortMaybe();
}
}
static u1 checkUtfBytes(const char* bytes, const char** errorKind) {
while (*bytes != '\0') {
u1 utf8 = *(bytes++);
// Switch on the high four bits.
switch (utf8 >> 4) {
case 0x00:
case 0x01:
case 0x02:
case 0x03:
case 0x04:
case 0x05:
case 0x06:
case 0x07:
// Bit pattern 0xxx. No need for any extra bytes.
break;
case 0x08:
case 0x09:
case 0x0a:
case 0x0b:
case 0x0f:
/*
* Bit pattern 10xx or 1111, which are illegal start bytes.
* Note: 1111 is valid for normal UTF-8, but not the
* modified UTF-8 used here.
*/
*errorKind = "start";
return utf8;
case 0x0e:
// Bit pattern 1110, so there are two additional bytes.
utf8 = *(bytes++);
if ((utf8 & 0xc0) != 0x80) {
*errorKind = "continuation";
return utf8;
}
// Fall through to take care of the final byte.
case 0x0c:
case 0x0d:
// Bit pattern 110x, so there is one additional byte.
utf8 = *(bytes++);
if ((utf8 & 0xc0) != 0x80) {
*errorKind = "continuation";
return utf8;
}
break;
}
}
return 0;
}
/**
* Returns a human-readable name for the given primitive type.
*/
static const char* primitiveTypeToName(PrimitiveType primType) {
switch (primType) {
case PRIM_VOID: return "void";
case PRIM_BOOLEAN: return "boolean";
case PRIM_BYTE: return "byte";
case PRIM_SHORT: return "short";
case PRIM_CHAR: return "char";
case PRIM_INT: return "int";
case PRIM_LONG: return "long";
case PRIM_FLOAT: return "float";
case PRIM_DOUBLE: return "double";
case PRIM_NOT: return "Object/array";
default: return "???";
}
}
void showLocation() {
const Method* method = dvmGetCurrentJNIMethod();
char* desc = dexProtoCopyMethodDescriptor(&method->prototype);
LOGW(" in %s.%s:%s (%s)", method->clazz->descriptor, method->name, desc, mFunctionName);
free(desc);
}
// Disallow copy and assignment.
ScopedCheck(const ScopedCheck&);
void operator=(const ScopedCheck&);
};
/*
* ===========================================================================
* Guarded arrays
* ===========================================================================
*/
#define kGuardLen 512 /* must be multiple of 2 */
#define kGuardPattern 0xd5e3 /* uncommon values; d5e3d5e3 invalid addr */
#define kGuardMagic 0xffd5aa96
/* this gets tucked in at the start of the buffer; struct size must be even */
struct GuardedCopy {
u4 magic;
uLong adler;
size_t originalLen;
const void* originalPtr;
/* find the GuardedCopy given the pointer into the "live" data */
static inline const GuardedCopy* fromData(const void* dataBuf) {
return reinterpret_cast<const GuardedCopy*>(actualBuffer(dataBuf));
}
/*
* Create an over-sized buffer to hold the contents of "buf". Copy it in,
* filling in the area around it with guard data.
*
* We use a 16-bit pattern to make a rogue memset less likely to elude us.
*/
static void* create(const void* buf, size_t len, bool modOkay) {
size_t newLen = actualLength(len);
u1* newBuf = debugAlloc(newLen);
/* fill it in with a pattern */
u2* pat = (u2*) newBuf;
for (size_t i = 0; i < newLen / 2; i++) {
*pat++ = kGuardPattern;
}
/* copy the data in; note "len" could be zero */
memcpy(newBuf + kGuardLen / 2, buf, len);
/* if modification is not expected, grab a checksum */
uLong adler = 0;
if (!modOkay) {
adler = adler32(0L, Z_NULL, 0);
adler = adler32(adler, (const Bytef*)buf, len);
*(uLong*)newBuf = adler;
}
GuardedCopy* pExtra = reinterpret_cast<GuardedCopy*>(newBuf);
pExtra->magic = kGuardMagic;
pExtra->adler = adler;
pExtra->originalPtr = buf;
pExtra->originalLen = len;
return newBuf + kGuardLen / 2;
}
/*
* Free up the guard buffer, scrub it, and return the original pointer.
*/
static void* destroy(void* dataBuf) {
const GuardedCopy* pExtra = GuardedCopy::fromData(dataBuf);
void* originalPtr = (void*) pExtra->originalPtr;
size_t len = pExtra->originalLen;
debugFree(dataBuf, len);
return originalPtr;
}
/*
* Verify the guard area and, if "modOkay" is false, that the data itself
* has not been altered.
*
* The caller has already checked that "dataBuf" is non-NULL.
*/
static bool check(const void* dataBuf, bool modOkay) {
static const u4 kMagicCmp = kGuardMagic;
const u1* fullBuf = actualBuffer(dataBuf);
const GuardedCopy* pExtra = GuardedCopy::fromData(dataBuf);
/*
* Before we do anything with "pExtra", check the magic number. We
* do the check with memcmp rather than "==" in case the pointer is
* unaligned. If it points to completely bogus memory we're going
* to crash, but there's no easy way around that.
*/
if (memcmp(&pExtra->magic, &kMagicCmp, 4) != 0) {
u1 buf[4];
memcpy(buf, &pExtra->magic, 4);
LOGE("JNI: guard magic does not match (found 0x%02x%02x%02x%02x) -- incorrect data pointer %p?",
buf[3], buf[2], buf[1], buf[0], dataBuf); /* assume little endian */
return false;
}
size_t len = pExtra->originalLen;
/* check bottom half of guard; skip over optional checksum storage */
const u2* pat = (u2*) fullBuf;
for (size_t i = sizeof(GuardedCopy) / 2; i < (kGuardLen / 2 - sizeof(GuardedCopy)) / 2; i++) {
if (pat[i] != kGuardPattern) {
LOGE("JNI: guard pattern(1) disturbed at %p + %d", fullBuf, i*2);
return false;
}
}
int offset = kGuardLen / 2 + len;
if (offset & 0x01) {
/* odd byte; expected value depends on endian-ness of host */
const u2 patSample = kGuardPattern;
if (fullBuf[offset] != ((const u1*) &patSample)[1]) {
LOGE("JNI: guard pattern disturbed in odd byte after %p (+%d) 0x%02x 0x%02x",
fullBuf, offset, fullBuf[offset], ((const u1*) &patSample)[1]);
return false;
}
offset++;
}
/* check top half of guard */
pat = (u2*) (fullBuf + offset);
for (size_t i = 0; i < kGuardLen / 4; i++) {
if (pat[i] != kGuardPattern) {
LOGE("JNI: guard pattern(2) disturbed at %p + %d", fullBuf, offset + i*2);
return false;
}
}
/*
* If modification is not expected, verify checksum. Strictly speaking
* this is wrong: if we told the client that we made a copy, there's no
* reason they can't alter the buffer.
*/
if (!modOkay) {
uLong adler = adler32(0L, Z_NULL, 0);
adler = adler32(adler, (const Bytef*)dataBuf, len);
if (pExtra->adler != adler) {
LOGE("JNI: buffer modified (0x%08lx vs 0x%08lx) at addr %p",
pExtra->adler, adler, dataBuf);
return false;
}
}
return true;
}
private:
static u1* debugAlloc(size_t len) {
void* result = mmap(NULL, len, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANON, -1, 0);
if (result == MAP_FAILED) {
LOGE("GuardedCopy::create mmap(%d) failed: %s", len, strerror(errno));
dvmAbort();
}
return reinterpret_cast<u1*>(result);
}
static void debugFree(void* dataBuf, size_t len) {
u1* fullBuf = actualBuffer(dataBuf);
size_t totalByteCount = actualLength(len);
// TODO: we could mprotect instead, and keep the allocation around for a while.
// This would be even more expensive, but it might catch more errors.
// if (mprotect(fullBuf, totalByteCount, PROT_NONE) != 0) {
// LOGW("mprotect(PROT_NONE) failed: %s", strerror(errno));
// }
if (munmap(fullBuf, totalByteCount) != 0) {
LOGW("munmap failed: %s", strerror(errno));
dvmAbort();
}
}
static const u1* actualBuffer(const void* dataBuf) {
return reinterpret_cast<const u1*>(dataBuf) - kGuardLen / 2;
}
static u1* actualBuffer(void* dataBuf) {
return reinterpret_cast<u1*>(dataBuf) - kGuardLen / 2;
}
// Underlying length of a user allocation of 'length' bytes.
static size_t actualLength(size_t length) {
return (length + kGuardLen + 1) & ~0x01;
}
};
/*
* Return the width, in bytes, of a primitive type.
*/
static int dvmPrimitiveTypeWidth(PrimitiveType primType) {
switch (primType) {
case PRIM_BOOLEAN: return 1;
case PRIM_BYTE: return 1;
case PRIM_SHORT: return 2;
case PRIM_CHAR: return 2;
case PRIM_INT: return 4;
case PRIM_LONG: return 8;
case PRIM_FLOAT: return 4;
case PRIM_DOUBLE: return 8;
case PRIM_VOID:
default: {
assert(false);
return -1;
}
}
}
/*
* Create a guarded copy of a primitive array. Modifications to the copied
* data are allowed. Returns a pointer to the copied data.
*/
static void* createGuardedPACopy(JNIEnv* env, const jarray jarr, jboolean* isCopy) {
ScopedCheckJniThreadState ts(env);
ArrayObject* arrObj = (ArrayObject*) dvmDecodeIndirectRef(dvmThreadSelf(), jarr);
PrimitiveType primType = arrObj->clazz->elementClass->primitiveType;
int len = arrObj->length * dvmPrimitiveTypeWidth(primType);
void* result = GuardedCopy::create(arrObj->contents, len, true);
if (isCopy != NULL) {
*isCopy = JNI_TRUE;
}
return result;
}
/*
* Perform the array "release" operation, which may or may not copy data
* back into the VM, and may or may not release the underlying storage.
*/
static void* releaseGuardedPACopy(JNIEnv* env, jarray jarr, void* dataBuf, int mode) {
ScopedCheckJniThreadState ts(env);
ArrayObject* arrObj = (ArrayObject*) dvmDecodeIndirectRef(dvmThreadSelf(), jarr);
if (!GuardedCopy::check(dataBuf, true)) {
LOGE("JNI: failed guarded copy check in releaseGuardedPACopy");
abortMaybe();
return NULL;
}
if (mode != JNI_ABORT) {
size_t len = GuardedCopy::fromData(dataBuf)->originalLen;
memcpy(arrObj->contents, dataBuf, len);
}
u1* result = NULL;
if (mode != JNI_COMMIT) {
result = (u1*) GuardedCopy::destroy(dataBuf);
} else {
result = (u1*) (void*) GuardedCopy::fromData(dataBuf)->originalPtr;
}
/* pointer is to the array contents; back up to the array object */
result -= OFFSETOF_MEMBER(ArrayObject, contents);
return result;
}
/*
* ===========================================================================
* JNI functions
* ===========================================================================
*/
#define CHECK_JNI_ENTRY(flags, types, args...) \
ScopedCheck sc(env, flags, __FUNCTION__); \
sc.check(true, types, ##args)
#define CHECK_JNI_EXIT(type, exp) ({ \
typeof (exp) _rc = (exp); \
sc.check(false, type, _rc); \
_rc; })
#define CHECK_JNI_EXIT_VOID() \
sc.check(false, "V")
static jint Check_GetVersion(JNIEnv* env) {
CHECK_JNI_ENTRY(kFlag_Default, "E", env);
return CHECK_JNI_EXIT("I", baseEnv(env)->GetVersion(env));
}
static jclass Check_DefineClass(JNIEnv* env, const char* name, jobject loader,
const jbyte* buf, jsize bufLen)
{
CHECK_JNI_ENTRY(kFlag_Default, "EuLpz", env, name, loader, buf, bufLen);
sc.checkClassName(name);
return CHECK_JNI_EXIT("c", baseEnv(env)->DefineClass(env, name, loader, buf, bufLen));
}
static jclass Check_FindClass(JNIEnv* env, const char* name) {
CHECK_JNI_ENTRY(kFlag_Default, "Eu", env, name);
sc.checkClassName(name);
return CHECK_JNI_EXIT("c", baseEnv(env)->FindClass(env, name));
}
static jclass Check_GetSuperclass(JNIEnv* env, jclass clazz) {
CHECK_JNI_ENTRY(kFlag_Default, "Ec", env, clazz);
return CHECK_JNI_EXIT("c", baseEnv(env)->GetSuperclass(env, clazz));
}
static jboolean Check_IsAssignableFrom(JNIEnv* env, jclass clazz1, jclass clazz2) {
CHECK_JNI_ENTRY(kFlag_Default, "Ecc", env, clazz1, clazz2);
return CHECK_JNI_EXIT("b", baseEnv(env)->IsAssignableFrom(env, clazz1, clazz2));
}
static jmethodID Check_FromReflectedMethod(JNIEnv* env, jobject method) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, method);
// TODO: check that 'field' is a java.lang.reflect.Method.
return CHECK_JNI_EXIT("m", baseEnv(env)->FromReflectedMethod(env, method));
}
static jfieldID Check_FromReflectedField(JNIEnv* env, jobject field) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, field);
// TODO: check that 'field' is a java.lang.reflect.Field.
return CHECK_JNI_EXIT("f", baseEnv(env)->FromReflectedField(env, field));
}
static jobject Check_ToReflectedMethod(JNIEnv* env, jclass cls,
jmethodID methodID, jboolean isStatic)
{
CHECK_JNI_ENTRY(kFlag_Default, "Ecmb", env, cls, methodID, isStatic);
return CHECK_JNI_EXIT("L", baseEnv(env)->ToReflectedMethod(env, cls, methodID, isStatic));
}
static jobject Check_ToReflectedField(JNIEnv* env, jclass cls,
jfieldID fieldID, jboolean isStatic)
{
CHECK_JNI_ENTRY(kFlag_Default, "Ecfb", env, cls, fieldID, isStatic);
return CHECK_JNI_EXIT("L", baseEnv(env)->ToReflectedField(env, cls, fieldID, isStatic));
}
static jint Check_Throw(JNIEnv* env, jthrowable obj) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, obj);
// TODO: check that 'obj' is a java.lang.Throwable.
return CHECK_JNI_EXIT("I", baseEnv(env)->Throw(env, obj));
}
static jint Check_ThrowNew(JNIEnv* env, jclass clazz, const char* message) {
CHECK_JNI_ENTRY(kFlag_NullableUtf, "Ecu", env, clazz, message);
return CHECK_JNI_EXIT("I", baseEnv(env)->ThrowNew(env, clazz, message));
}
static jthrowable Check_ExceptionOccurred(JNIEnv* env) {
CHECK_JNI_ENTRY(kFlag_ExcepOkay, "E", env);
return CHECK_JNI_EXIT("L", baseEnv(env)->ExceptionOccurred(env));
}
static void Check_ExceptionDescribe(JNIEnv* env) {
CHECK_JNI_ENTRY(kFlag_ExcepOkay, "E", env);
baseEnv(env)->ExceptionDescribe(env);
CHECK_JNI_EXIT_VOID();
}
static void Check_ExceptionClear(JNIEnv* env) {
CHECK_JNI_ENTRY(kFlag_ExcepOkay, "E", env);
baseEnv(env)->ExceptionClear(env);
CHECK_JNI_EXIT_VOID();
}
static void Check_FatalError(JNIEnv* env, const char* msg) {
CHECK_JNI_ENTRY(kFlag_NullableUtf, "Eu", env, msg);
baseEnv(env)->FatalError(env, msg);
CHECK_JNI_EXIT_VOID();
}
static jint Check_PushLocalFrame(JNIEnv* env, jint capacity) {
CHECK_JNI_ENTRY(kFlag_Default | kFlag_ExcepOkay, "EI", env, capacity);
return CHECK_JNI_EXIT("I", baseEnv(env)->PushLocalFrame(env, capacity));
}
static jobject Check_PopLocalFrame(JNIEnv* env, jobject res) {
CHECK_JNI_ENTRY(kFlag_Default | kFlag_ExcepOkay, "EL", env, res);
return CHECK_JNI_EXIT("L", baseEnv(env)->PopLocalFrame(env, res));
}
static jobject Check_NewGlobalRef(JNIEnv* env, jobject obj) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, obj);
return CHECK_JNI_EXIT("L", baseEnv(env)->NewGlobalRef(env, obj));
}
static void Check_DeleteGlobalRef(JNIEnv* env, jobject globalRef) {
CHECK_JNI_ENTRY(kFlag_Default | kFlag_ExcepOkay, "EL", env, globalRef);
if (globalRef != NULL && dvmGetJNIRefType(sc.self(), globalRef) != JNIGlobalRefType) {
LOGW("JNI WARNING: DeleteGlobalRef on non-global %p (type=%d)",
globalRef, dvmGetJNIRefType(sc.self(), globalRef));
abortMaybe();
} else {
baseEnv(env)->DeleteGlobalRef(env, globalRef);
CHECK_JNI_EXIT_VOID();
}
}
static jobject Check_NewLocalRef(JNIEnv* env, jobject ref) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, ref);
return CHECK_JNI_EXIT("L", baseEnv(env)->NewLocalRef(env, ref));
}
static void Check_DeleteLocalRef(JNIEnv* env, jobject localRef) {
CHECK_JNI_ENTRY(kFlag_Default | kFlag_ExcepOkay, "EL", env, localRef);
if (localRef != NULL && dvmGetJNIRefType(sc.self(), localRef) != JNILocalRefType) {
LOGW("JNI WARNING: DeleteLocalRef on non-local %p (type=%d)",
localRef, dvmGetJNIRefType(sc.self(), localRef));
abortMaybe();
} else {
baseEnv(env)->DeleteLocalRef(env, localRef);
CHECK_JNI_EXIT_VOID();
}
}
static jint Check_EnsureLocalCapacity(JNIEnv *env, jint capacity) {
CHECK_JNI_ENTRY(kFlag_Default, "EI", env, capacity);
return CHECK_JNI_EXIT("I", baseEnv(env)->EnsureLocalCapacity(env, capacity));
}
static jboolean Check_IsSameObject(JNIEnv* env, jobject ref1, jobject ref2) {
CHECK_JNI_ENTRY(kFlag_Default, "ELL", env, ref1, ref2);
return CHECK_JNI_EXIT("b", baseEnv(env)->IsSameObject(env, ref1, ref2));
}
static jobject Check_AllocObject(JNIEnv* env, jclass clazz) {
CHECK_JNI_ENTRY(kFlag_Default, "Ec", env, clazz);
return CHECK_JNI_EXIT("L", baseEnv(env)->AllocObject(env, clazz));
}
static jobject Check_NewObject(JNIEnv* env, jclass clazz, jmethodID methodID, ...) {
CHECK_JNI_ENTRY(kFlag_Default, "Ecm.", env, clazz, methodID);
va_list args;
va_start(args, methodID);
jobject result = baseEnv(env)->NewObjectV(env, clazz, methodID, args);
va_end(args);
return CHECK_JNI_EXIT("L", result);
}
static jobject Check_NewObjectV(JNIEnv* env, jclass clazz, jmethodID methodID, va_list args) {
CHECK_JNI_ENTRY(kFlag_Default, "Ecm.", env, clazz, methodID);
return CHECK_JNI_EXIT("L", baseEnv(env)->NewObjectV(env, clazz, methodID, args));
}
static jobject Check_NewObjectA(JNIEnv* env, jclass clazz, jmethodID methodID, jvalue* args) {
CHECK_JNI_ENTRY(kFlag_Default, "Ecm.", env, clazz, methodID);
return CHECK_JNI_EXIT("L", baseEnv(env)->NewObjectA(env, clazz, methodID, args));
}
static jclass Check_GetObjectClass(JNIEnv* env, jobject obj) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, obj);
return CHECK_JNI_EXIT("c", baseEnv(env)->GetObjectClass(env, obj));
}
static jboolean Check_IsInstanceOf(JNIEnv* env, jobject obj, jclass clazz) {
CHECK_JNI_ENTRY(kFlag_Default, "ELc", env, obj, clazz);
return CHECK_JNI_EXIT("b", baseEnv(env)->IsInstanceOf(env, obj, clazz));
}
static jmethodID Check_GetMethodID(JNIEnv* env, jclass clazz, const char* name, const char* sig) {
CHECK_JNI_ENTRY(kFlag_Default, "Ecuu", env, clazz, name, sig);
return CHECK_JNI_EXIT("m", baseEnv(env)->GetMethodID(env, clazz, name, sig));
}
static jfieldID Check_GetFieldID(JNIEnv* env, jclass clazz, const char* name, const char* sig) {
CHECK_JNI_ENTRY(kFlag_Default, "Ecuu", env, clazz, name, sig);
return CHECK_JNI_EXIT("f", baseEnv(env)->GetFieldID(env, clazz, name, sig));
}
static jmethodID Check_GetStaticMethodID(JNIEnv* env, jclass clazz,
const char* name, const char* sig)
{
CHECK_JNI_ENTRY(kFlag_Default, "Ecuu", env, clazz, name, sig);
return CHECK_JNI_EXIT("m", baseEnv(env)->GetStaticMethodID(env, clazz, name, sig));
}
static jfieldID Check_GetStaticFieldID(JNIEnv* env, jclass clazz,
const char* name, const char* sig)
{
CHECK_JNI_ENTRY(kFlag_Default, "Ecuu", env, clazz, name, sig);
return CHECK_JNI_EXIT("f", baseEnv(env)->GetStaticFieldID(env, clazz, name, sig));
}
#define FIELD_ACCESSORS(_ctype, _jname, _ftype, _type) \
static _ctype Check_GetStatic##_jname##Field(JNIEnv* env, jclass clazz, jfieldID fieldID) { \
CHECK_JNI_ENTRY(kFlag_Default, "Ecf", env, clazz, fieldID); \
sc.checkStaticFieldID(clazz, fieldID); \
sc.checkFieldTypeForGet(fieldID, _type, true); \
return CHECK_JNI_EXIT(_type, baseEnv(env)->GetStatic##_jname##Field(env, clazz, fieldID)); \
} \
static _ctype Check_Get##_jname##Field(JNIEnv* env, jobject obj, jfieldID fieldID) { \
CHECK_JNI_ENTRY(kFlag_Default, "ELf", env, obj, fieldID); \
sc.checkInstanceFieldID(obj, fieldID); \
sc.checkFieldTypeForGet(fieldID, _type, false); \
return CHECK_JNI_EXIT(_type, baseEnv(env)->Get##_jname##Field(env, obj, fieldID)); \
} \
static void Check_SetStatic##_jname##Field(JNIEnv* env, jclass clazz, jfieldID fieldID, _ctype value) { \
CHECK_JNI_ENTRY(kFlag_Default, "Ecf" _type, env, clazz, fieldID, value); \
sc.checkStaticFieldID(clazz, fieldID); \
/* "value" arg only used when type == ref */ \
sc.checkFieldTypeForSet((jobject)(u4)value, fieldID, _ftype, true); \
baseEnv(env)->SetStatic##_jname##Field(env, clazz, fieldID, value); \
CHECK_JNI_EXIT_VOID(); \
} \
static void Check_Set##_jname##Field(JNIEnv* env, jobject obj, jfieldID fieldID, _ctype value) { \
CHECK_JNI_ENTRY(kFlag_Default, "ELf" _type, env, obj, fieldID, value); \
sc.checkInstanceFieldID(obj, fieldID); \
/* "value" arg only used when type == ref */ \
sc.checkFieldTypeForSet((jobject)(u4) value, fieldID, _ftype, false); \
baseEnv(env)->Set##_jname##Field(env, obj, fieldID, value); \
CHECK_JNI_EXIT_VOID(); \
}
FIELD_ACCESSORS(jobject, Object, PRIM_NOT, "L");
FIELD_ACCESSORS(jboolean, Boolean, PRIM_BOOLEAN, "Z");
FIELD_ACCESSORS(jbyte, Byte, PRIM_BYTE, "B");
FIELD_ACCESSORS(jchar, Char, PRIM_CHAR, "C");
FIELD_ACCESSORS(jshort, Short, PRIM_SHORT, "S");
FIELD_ACCESSORS(jint, Int, PRIM_INT, "I");
FIELD_ACCESSORS(jlong, Long, PRIM_LONG, "J");
FIELD_ACCESSORS(jfloat, Float, PRIM_FLOAT, "F");
FIELD_ACCESSORS(jdouble, Double, PRIM_DOUBLE, "D");
#define CALL(_ctype, _jname, _retdecl, _retasgn, _retok, _retsig) \
/* Virtual... */ \
static _ctype Check_Call##_jname##Method(JNIEnv* env, jobject obj, \
jmethodID methodID, ...) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "ELm.", env, obj, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, false); \
sc.checkVirtualMethod(obj, methodID); \
_retdecl; \
va_list args; \
va_start(args, methodID); \
_retasgn baseEnv(env)->Call##_jname##MethodV(env, obj, methodID, args); \
va_end(args); \
_retok; \
} \
static _ctype Check_Call##_jname##MethodV(JNIEnv* env, jobject obj, \
jmethodID methodID, va_list args) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "ELm.", env, obj, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, false); \
sc.checkVirtualMethod(obj, methodID); \
_retdecl; \
_retasgn baseEnv(env)->Call##_jname##MethodV(env, obj, methodID, args); \
_retok; \
} \
static _ctype Check_Call##_jname##MethodA(JNIEnv* env, jobject obj, \
jmethodID methodID, jvalue* args) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "ELm.", env, obj, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, false); \
sc.checkVirtualMethod(obj, methodID); \
_retdecl; \
_retasgn baseEnv(env)->Call##_jname##MethodA(env, obj, methodID, args); \
_retok; \
} \
/* Non-virtual... */ \
static _ctype Check_CallNonvirtual##_jname##Method(JNIEnv* env, \
jobject obj, jclass clazz, jmethodID methodID, ...) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "ELcm.", env, obj, clazz, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, false); \
sc.checkVirtualMethod(obj, methodID); \
_retdecl; \
va_list args; \
va_start(args, methodID); \
_retasgn baseEnv(env)->CallNonvirtual##_jname##MethodV(env, obj, clazz, methodID, args); \
va_end(args); \
_retok; \
} \
static _ctype Check_CallNonvirtual##_jname##MethodV(JNIEnv* env, \
jobject obj, jclass clazz, jmethodID methodID, va_list args) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "ELcm.", env, obj, clazz, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, false); \
sc.checkVirtualMethod(obj, methodID); \
_retdecl; \
_retasgn baseEnv(env)->CallNonvirtual##_jname##MethodV(env, obj, clazz, methodID, args); \
_retok; \
} \
static _ctype Check_CallNonvirtual##_jname##MethodA(JNIEnv* env, \
jobject obj, jclass clazz, jmethodID methodID, jvalue* args) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "ELcm.", env, obj, clazz, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, false); \
sc.checkVirtualMethod(obj, methodID); \
_retdecl; \
_retasgn baseEnv(env)->CallNonvirtual##_jname##MethodA(env, obj, clazz, methodID, args); \
_retok; \
} \
/* Static... */ \
static _ctype Check_CallStatic##_jname##Method(JNIEnv* env, \
jclass clazz, jmethodID methodID, ...) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "Ecm.", env, clazz, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, true); \
sc.checkStaticMethod(clazz, methodID); \
_retdecl; \
va_list args; \
va_start(args, methodID); \
_retasgn baseEnv(env)->CallStatic##_jname##MethodV(env, clazz, methodID, args); \
va_end(args); \
_retok; \
} \
static _ctype Check_CallStatic##_jname##MethodV(JNIEnv* env, \
jclass clazz, jmethodID methodID, va_list args) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "Ecm.", env, clazz, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, true); \
sc.checkStaticMethod(clazz, methodID); \
_retdecl; \
_retasgn baseEnv(env)->CallStatic##_jname##MethodV(env, clazz, methodID, args); \
_retok; \
} \
static _ctype Check_CallStatic##_jname##MethodA(JNIEnv* env, \
jclass clazz, jmethodID methodID, jvalue* args) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "Ecm.", env, clazz, methodID); /* TODO: args! */ \
sc.checkSig(methodID, _retsig, true); \
sc.checkStaticMethod(clazz, methodID); \
_retdecl; \
_retasgn baseEnv(env)->CallStatic##_jname##MethodA(env, clazz, methodID, args); \
_retok; \
}
#define NON_VOID_RETURN(_retsig, _ctype) return CHECK_JNI_EXIT(_retsig, (_ctype) result)
#define VOID_RETURN CHECK_JNI_EXIT_VOID()
CALL(jobject, Object, Object* result, result=(Object*), NON_VOID_RETURN("L", jobject), "L");
CALL(jboolean, Boolean, jboolean result, result=, NON_VOID_RETURN("Z", jboolean), "Z");
CALL(jbyte, Byte, jbyte result, result=, NON_VOID_RETURN("B", jbyte), "B");
CALL(jchar, Char, jchar result, result=, NON_VOID_RETURN("C", jchar), "C");
CALL(jshort, Short, jshort result, result=, NON_VOID_RETURN("S", jshort), "S");
CALL(jint, Int, jint result, result=, NON_VOID_RETURN("I", jint), "I");
CALL(jlong, Long, jlong result, result=, NON_VOID_RETURN("J", jlong), "J");
CALL(jfloat, Float, jfloat result, result=, NON_VOID_RETURN("F", jfloat), "F");
CALL(jdouble, Double, jdouble result, result=, NON_VOID_RETURN("D", jdouble), "D");
CALL(void, Void, , , VOID_RETURN, "V");
static jstring Check_NewString(JNIEnv* env, const jchar* unicodeChars, jsize len) {
CHECK_JNI_ENTRY(kFlag_Default, "Epz", env, unicodeChars, len);
return CHECK_JNI_EXIT("s", baseEnv(env)->NewString(env, unicodeChars, len));
}
static jsize Check_GetStringLength(JNIEnv* env, jstring string) {
CHECK_JNI_ENTRY(kFlag_CritOkay, "Es", env, string);
return CHECK_JNI_EXIT("I", baseEnv(env)->GetStringLength(env, string));
}
static const jchar* Check_GetStringChars(JNIEnv* env, jstring string, jboolean* isCopy) {
CHECK_JNI_ENTRY(kFlag_CritOkay, "Esp", env, string, isCopy);
const jchar* result = baseEnv(env)->GetStringChars(env, string, isCopy);
if (gDvmJni.forceCopy && result != NULL) {
ScopedCheckJniThreadState ts(env);
StringObject* strObj = (StringObject*) dvmDecodeIndirectRef(dvmThreadSelf(), string);
int byteCount = strObj->length() * 2;
result = (const jchar*) GuardedCopy::create(result, byteCount, false);
if (isCopy != NULL) {
*isCopy = JNI_TRUE;
}
}
return CHECK_JNI_EXIT("p", result);
}
static void Check_ReleaseStringChars(JNIEnv* env, jstring string, const jchar* chars) {
CHECK_JNI_ENTRY(kFlag_Default | kFlag_ExcepOkay, "Esp", env, string, chars);
sc.checkNonNull(chars);
if (gDvmJni.forceCopy) {
if (!GuardedCopy::check(chars, false)) {
LOGE("JNI: failed guarded copy check in ReleaseStringChars");
abortMaybe();
return;
}
chars = (const jchar*) GuardedCopy::destroy((jchar*)chars);
}
baseEnv(env)->ReleaseStringChars(env, string, chars);
CHECK_JNI_EXIT_VOID();
}
static jstring Check_NewStringUTF(JNIEnv* env, const char* bytes) {
CHECK_JNI_ENTRY(kFlag_NullableUtf, "Eu", env, bytes); // TODO: show pointer and truncate string.
return CHECK_JNI_EXIT("s", baseEnv(env)->NewStringUTF(env, bytes));
}
static jsize Check_GetStringUTFLength(JNIEnv* env, jstring string) {
CHECK_JNI_ENTRY(kFlag_CritOkay, "Es", env, string);
return CHECK_JNI_EXIT("I", baseEnv(env)->GetStringUTFLength(env, string));
}
static const char* Check_GetStringUTFChars(JNIEnv* env, jstring string, jboolean* isCopy) {
CHECK_JNI_ENTRY(kFlag_CritOkay, "Esp", env, string, isCopy);
const char* result = baseEnv(env)->GetStringUTFChars(env, string, isCopy);
if (gDvmJni.forceCopy && result != NULL) {
result = (const char*) GuardedCopy::create(result, strlen(result) + 1, false);
if (isCopy != NULL) {
*isCopy = JNI_TRUE;
}
}
return CHECK_JNI_EXIT("u", result); // TODO: show pointer and truncate string.
}
static void Check_ReleaseStringUTFChars(JNIEnv* env, jstring string, const char* utf) {
CHECK_JNI_ENTRY(kFlag_ExcepOkay | kFlag_Release, "Esu", env, string, utf); // TODO: show pointer and truncate string.
if (gDvmJni.forceCopy) {
if (!GuardedCopy::check(utf, false)) {
LOGE("JNI: failed guarded copy check in ReleaseStringUTFChars");
abortMaybe();
return;
}
utf = (const char*) GuardedCopy::destroy((char*)utf);
}
baseEnv(env)->ReleaseStringUTFChars(env, string, utf);
CHECK_JNI_EXIT_VOID();
}
static jsize Check_GetArrayLength(JNIEnv* env, jarray array) {
CHECK_JNI_ENTRY(kFlag_CritOkay, "Ea", env, array);
return CHECK_JNI_EXIT("I", baseEnv(env)->GetArrayLength(env, array));
}
static jobjectArray Check_NewObjectArray(JNIEnv* env, jsize length,
jclass elementClass, jobject initialElement)
{
CHECK_JNI_ENTRY(kFlag_Default, "EzcL", env, length, elementClass, initialElement);
return CHECK_JNI_EXIT("a", baseEnv(env)->NewObjectArray(env, length, elementClass, initialElement));
}
static jobject Check_GetObjectArrayElement(JNIEnv* env, jobjectArray array, jsize index) {
CHECK_JNI_ENTRY(kFlag_Default, "EaI", env, array, index);
return CHECK_JNI_EXIT("L", baseEnv(env)->GetObjectArrayElement(env, array, index));
}
static void Check_SetObjectArrayElement(JNIEnv* env, jobjectArray array, jsize index, jobject value)
{
CHECK_JNI_ENTRY(kFlag_Default, "EaIL", env, array, index, value);
baseEnv(env)->SetObjectArrayElement(env, array, index, value);
CHECK_JNI_EXIT_VOID();
}
#define NEW_PRIMITIVE_ARRAY(_artype, _jname) \
static _artype Check_New##_jname##Array(JNIEnv* env, jsize length) { \
CHECK_JNI_ENTRY(kFlag_Default, "Ez", env, length); \
return CHECK_JNI_EXIT("a", baseEnv(env)->New##_jname##Array(env, length)); \
}
NEW_PRIMITIVE_ARRAY(jbooleanArray, Boolean);
NEW_PRIMITIVE_ARRAY(jbyteArray, Byte);
NEW_PRIMITIVE_ARRAY(jcharArray, Char);
NEW_PRIMITIVE_ARRAY(jshortArray, Short);
NEW_PRIMITIVE_ARRAY(jintArray, Int);
NEW_PRIMITIVE_ARRAY(jlongArray, Long);
NEW_PRIMITIVE_ARRAY(jfloatArray, Float);
NEW_PRIMITIVE_ARRAY(jdoubleArray, Double);
/*
* Hack to allow forcecopy to work with jniGetNonMovableArrayElements.
* The code deliberately uses an invalid sequence of operations, so we
* need to pass it through unmodified. Review that code before making
* any changes here.
*/
#define kNoCopyMagic 0xd5aab57f
#define GET_PRIMITIVE_ARRAY_ELEMENTS(_ctype, _jname) \
static _ctype* Check_Get##_jname##ArrayElements(JNIEnv* env, \
_ctype##Array array, jboolean* isCopy) \
{ \
CHECK_JNI_ENTRY(kFlag_Default, "Eap", env, array, isCopy); \
u4 noCopy = 0; \
if (gDvmJni.forceCopy && isCopy != NULL) { \
/* capture this before the base call tramples on it */ \
noCopy = *(u4*) isCopy; \
} \
_ctype* result = baseEnv(env)->Get##_jname##ArrayElements(env, array, isCopy); \
if (gDvmJni.forceCopy && result != NULL) { \
if (noCopy == kNoCopyMagic) { \
LOGV("FC: not copying %p %x", array, noCopy); \
} else { \
result = (_ctype*) createGuardedPACopy(env, array, isCopy); \
} \
} \
return CHECK_JNI_EXIT("p", result); \
}
#define RELEASE_PRIMITIVE_ARRAY_ELEMENTS(_ctype, _jname) \
static void Check_Release##_jname##ArrayElements(JNIEnv* env, \
_ctype##Array array, _ctype* elems, jint mode) \
{ \
CHECK_JNI_ENTRY(kFlag_Default | kFlag_ExcepOkay, "Eapr", env, array, elems, mode); \
sc.checkNonNull(elems); \
if (gDvmJni.forceCopy) { \
if ((uintptr_t)elems == kNoCopyMagic) { \
LOGV("FC: not freeing %p", array); \
elems = NULL; /* base JNI call doesn't currently need */ \
} else { \
elems = (_ctype*) releaseGuardedPACopy(env, array, elems, mode); \
} \
} \
baseEnv(env)->Release##_jname##ArrayElements(env, array, elems, mode); \
CHECK_JNI_EXIT_VOID(); \
}
#define GET_PRIMITIVE_ARRAY_REGION(_ctype, _jname) \
static void Check_Get##_jname##ArrayRegion(JNIEnv* env, \
_ctype##Array array, jsize start, jsize len, _ctype* buf) { \
CHECK_JNI_ENTRY(kFlag_Default, "EaIIp", env, array, start, len, buf); \
baseEnv(env)->Get##_jname##ArrayRegion(env, array, start, len, buf); \
CHECK_JNI_EXIT_VOID(); \
}
#define SET_PRIMITIVE_ARRAY_REGION(_ctype, _jname) \
static void Check_Set##_jname##ArrayRegion(JNIEnv* env, \
_ctype##Array array, jsize start, jsize len, const _ctype* buf) { \
CHECK_JNI_ENTRY(kFlag_Default, "EaIIp", env, array, start, len, buf); \
baseEnv(env)->Set##_jname##ArrayRegion(env, array, start, len, buf); \
CHECK_JNI_EXIT_VOID(); \
}
#define PRIMITIVE_ARRAY_FUNCTIONS(_ctype, _jname, _typechar) \
GET_PRIMITIVE_ARRAY_ELEMENTS(_ctype, _jname); \
RELEASE_PRIMITIVE_ARRAY_ELEMENTS(_ctype, _jname); \
GET_PRIMITIVE_ARRAY_REGION(_ctype, _jname); \
SET_PRIMITIVE_ARRAY_REGION(_ctype, _jname);
/* TODO: verify primitive array type matches call type */
PRIMITIVE_ARRAY_FUNCTIONS(jboolean, Boolean, 'Z');
PRIMITIVE_ARRAY_FUNCTIONS(jbyte, Byte, 'B');
PRIMITIVE_ARRAY_FUNCTIONS(jchar, Char, 'C');
PRIMITIVE_ARRAY_FUNCTIONS(jshort, Short, 'S');
PRIMITIVE_ARRAY_FUNCTIONS(jint, Int, 'I');
PRIMITIVE_ARRAY_FUNCTIONS(jlong, Long, 'J');
PRIMITIVE_ARRAY_FUNCTIONS(jfloat, Float, 'F');
PRIMITIVE_ARRAY_FUNCTIONS(jdouble, Double, 'D');
static jint Check_RegisterNatives(JNIEnv* env, jclass clazz, const JNINativeMethod* methods,
jint nMethods)
{
CHECK_JNI_ENTRY(kFlag_Default, "EcpI", env, clazz, methods, nMethods);
return CHECK_JNI_EXIT("I", baseEnv(env)->RegisterNatives(env, clazz, methods, nMethods));
}
static jint Check_UnregisterNatives(JNIEnv* env, jclass clazz) {
CHECK_JNI_ENTRY(kFlag_Default, "Ec", env, clazz);
return CHECK_JNI_EXIT("I", baseEnv(env)->UnregisterNatives(env, clazz));
}
static jint Check_MonitorEnter(JNIEnv* env, jobject obj) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, obj);
return CHECK_JNI_EXIT("I", baseEnv(env)->MonitorEnter(env, obj));
}
static jint Check_MonitorExit(JNIEnv* env, jobject obj) {
CHECK_JNI_ENTRY(kFlag_Default | kFlag_ExcepOkay, "EL", env, obj);
return CHECK_JNI_EXIT("I", baseEnv(env)->MonitorExit(env, obj));
}
static jint Check_GetJavaVM(JNIEnv *env, JavaVM **vm) {
CHECK_JNI_ENTRY(kFlag_Default, "Ep", env, vm);
return CHECK_JNI_EXIT("I", baseEnv(env)->GetJavaVM(env, vm));
}
static void Check_GetStringRegion(JNIEnv* env, jstring str, jsize start, jsize len, jchar* buf) {
CHECK_JNI_ENTRY(kFlag_CritOkay, "EsIIp", env, str, start, len, buf);
baseEnv(env)->GetStringRegion(env, str, start, len, buf);
CHECK_JNI_EXIT_VOID();
}
static void Check_GetStringUTFRegion(JNIEnv* env, jstring str, jsize start, jsize len, char* buf) {
CHECK_JNI_ENTRY(kFlag_CritOkay, "EsIIp", env, str, start, len, buf);
baseEnv(env)->GetStringUTFRegion(env, str, start, len, buf);
CHECK_JNI_EXIT_VOID();
}
static void* Check_GetPrimitiveArrayCritical(JNIEnv* env, jarray array, jboolean* isCopy) {
CHECK_JNI_ENTRY(kFlag_CritGet, "Eap", env, array, isCopy);
void* result = baseEnv(env)->GetPrimitiveArrayCritical(env, array, isCopy);
if (gDvmJni.forceCopy && result != NULL) {
result = createGuardedPACopy(env, array, isCopy);
}
return CHECK_JNI_EXIT("p", result);
}
static void Check_ReleasePrimitiveArrayCritical(JNIEnv* env, jarray array, void* carray, jint mode)
{
CHECK_JNI_ENTRY(kFlag_CritRelease | kFlag_ExcepOkay, "Eapr", env, array, carray, mode);
sc.checkNonNull(carray);
if (gDvmJni.forceCopy) {
carray = releaseGuardedPACopy(env, array, carray, mode);
}
baseEnv(env)->ReleasePrimitiveArrayCritical(env, array, carray, mode);
CHECK_JNI_EXIT_VOID();
}
static const jchar* Check_GetStringCritical(JNIEnv* env, jstring string, jboolean* isCopy) {
CHECK_JNI_ENTRY(kFlag_CritGet, "Esp", env, string, isCopy);
const jchar* result = baseEnv(env)->GetStringCritical(env, string, isCopy);
if (gDvmJni.forceCopy && result != NULL) {
ScopedCheckJniThreadState ts(env);
StringObject* strObj = (StringObject*) dvmDecodeIndirectRef(dvmThreadSelf(), string);
int byteCount = strObj->length() * 2;
result = (const jchar*) GuardedCopy::create(result, byteCount, false);
if (isCopy != NULL) {
*isCopy = JNI_TRUE;
}
}
return CHECK_JNI_EXIT("p", result);
}
static void Check_ReleaseStringCritical(JNIEnv* env, jstring string, const jchar* carray) {
CHECK_JNI_ENTRY(kFlag_CritRelease | kFlag_ExcepOkay, "Esp", env, string, carray);
sc.checkNonNull(carray);
if (gDvmJni.forceCopy) {
if (!GuardedCopy::check(carray, false)) {
LOGE("JNI: failed guarded copy check in ReleaseStringCritical");
abortMaybe();
return;
}
carray = (const jchar*) GuardedCopy::destroy((jchar*)carray);
}
baseEnv(env)->ReleaseStringCritical(env, string, carray);
CHECK_JNI_EXIT_VOID();
}
static jweak Check_NewWeakGlobalRef(JNIEnv* env, jobject obj) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, obj);
return CHECK_JNI_EXIT("L", baseEnv(env)->NewWeakGlobalRef(env, obj));
}
static void Check_DeleteWeakGlobalRef(JNIEnv* env, jweak obj) {
CHECK_JNI_ENTRY(kFlag_Default | kFlag_ExcepOkay, "EL", env, obj);
baseEnv(env)->DeleteWeakGlobalRef(env, obj);
CHECK_JNI_EXIT_VOID();
}
static jboolean Check_ExceptionCheck(JNIEnv* env) {
CHECK_JNI_ENTRY(kFlag_CritOkay | kFlag_ExcepOkay, "E", env);
return CHECK_JNI_EXIT("b", baseEnv(env)->ExceptionCheck(env));
}
static jobjectRefType Check_GetObjectRefType(JNIEnv* env, jobject obj) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, obj);
// TODO: proper decoding of jobjectRefType!
return CHECK_JNI_EXIT("I", baseEnv(env)->GetObjectRefType(env, obj));
}
static jobject Check_NewDirectByteBuffer(JNIEnv* env, void* address, jlong capacity) {
CHECK_JNI_ENTRY(kFlag_Default, "EpJ", env, address, capacity);
if (address == NULL || capacity < 0) {
LOGW("JNI WARNING: invalid values for address (%p) or capacity (%ld)",
address, (long) capacity);
abortMaybe();
return NULL;
}
return CHECK_JNI_EXIT("L", baseEnv(env)->NewDirectByteBuffer(env, address, capacity));
}
static void* Check_GetDirectBufferAddress(JNIEnv* env, jobject buf) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, buf);
// TODO: check that 'buf' is a java.nio.Buffer.
return CHECK_JNI_EXIT("p", baseEnv(env)->GetDirectBufferAddress(env, buf));
}
static jlong Check_GetDirectBufferCapacity(JNIEnv* env, jobject buf) {
CHECK_JNI_ENTRY(kFlag_Default, "EL", env, buf);
// TODO: check that 'buf' is a java.nio.Buffer.
return CHECK_JNI_EXIT("J", baseEnv(env)->GetDirectBufferCapacity(env, buf));
}
/*
* ===========================================================================
* JNI invocation functions
* ===========================================================================
*/
static jint Check_DestroyJavaVM(JavaVM* vm) {
ScopedCheck sc(false, __FUNCTION__);
sc.check(true, "v", vm);
return CHECK_JNI_EXIT("I", baseVm(vm)->DestroyJavaVM(vm));
}
static jint Check_AttachCurrentThread(JavaVM* vm, JNIEnv** p_env, void* thr_args) {
ScopedCheck sc(false, __FUNCTION__);
sc.check(true, "vpp", vm, p_env, thr_args);
return CHECK_JNI_EXIT("I", baseVm(vm)->AttachCurrentThread(vm, p_env, thr_args));
}
static jint Check_AttachCurrentThreadAsDaemon(JavaVM* vm, JNIEnv** p_env, void* thr_args) {
ScopedCheck sc(false, __FUNCTION__);
sc.check(true, "vpp", vm, p_env, thr_args);
return CHECK_JNI_EXIT("I", baseVm(vm)->AttachCurrentThreadAsDaemon(vm, p_env, thr_args));
}
static jint Check_DetachCurrentThread(JavaVM* vm) {
ScopedCheck sc(true, __FUNCTION__);
sc.check(true, "v", vm);
return CHECK_JNI_EXIT("I", baseVm(vm)->DetachCurrentThread(vm));
}
static jint Check_GetEnv(JavaVM* vm, void** env, jint version) {
ScopedCheck sc(true, __FUNCTION__);
sc.check(true, "v", vm);
return CHECK_JNI_EXIT("I", baseVm(vm)->GetEnv(vm, env, version));
}
/*
* ===========================================================================
* Function tables
* ===========================================================================
*/
static const struct JNINativeInterface gCheckNativeInterface = {
NULL,
NULL,
NULL,
NULL,
Check_GetVersion,
Check_DefineClass,
Check_FindClass,
Check_FromReflectedMethod,
Check_FromReflectedField,
Check_ToReflectedMethod,
Check_GetSuperclass,
Check_IsAssignableFrom,
Check_ToReflectedField,
Check_Throw,
Check_ThrowNew,
Check_ExceptionOccurred,
Check_ExceptionDescribe,
Check_ExceptionClear,
Check_FatalError,
Check_PushLocalFrame,
Check_PopLocalFrame,
Check_NewGlobalRef,
Check_DeleteGlobalRef,
Check_DeleteLocalRef,
Check_IsSameObject,
Check_NewLocalRef,
Check_EnsureLocalCapacity,
Check_AllocObject,
Check_NewObject,
Check_NewObjectV,
Check_NewObjectA,
Check_GetObjectClass,
Check_IsInstanceOf,
Check_GetMethodID,
Check_CallObjectMethod,
Check_CallObjectMethodV,
Check_CallObjectMethodA,
Check_CallBooleanMethod,
Check_CallBooleanMethodV,
Check_CallBooleanMethodA,
Check_CallByteMethod,
Check_CallByteMethodV,
Check_CallByteMethodA,
Check_CallCharMethod,
Check_CallCharMethodV,
Check_CallCharMethodA,
Check_CallShortMethod,
Check_CallShortMethodV,
Check_CallShortMethodA,
Check_CallIntMethod,
Check_CallIntMethodV,
Check_CallIntMethodA,
Check_CallLongMethod,
Check_CallLongMethodV,
Check_CallLongMethodA,
Check_CallFloatMethod,
Check_CallFloatMethodV,
Check_CallFloatMethodA,
Check_CallDoubleMethod,
Check_CallDoubleMethodV,
Check_CallDoubleMethodA,
Check_CallVoidMethod,
Check_CallVoidMethodV,
Check_CallVoidMethodA,
Check_CallNonvirtualObjectMethod,
Check_CallNonvirtualObjectMethodV,
Check_CallNonvirtualObjectMethodA,
Check_CallNonvirtualBooleanMethod,
Check_CallNonvirtualBooleanMethodV,
Check_CallNonvirtualBooleanMethodA,
Check_CallNonvirtualByteMethod,
Check_CallNonvirtualByteMethodV,
Check_CallNonvirtualByteMethodA,
Check_CallNonvirtualCharMethod,
Check_CallNonvirtualCharMethodV,
Check_CallNonvirtualCharMethodA,
Check_CallNonvirtualShortMethod,
Check_CallNonvirtualShortMethodV,
Check_CallNonvirtualShortMethodA,
Check_CallNonvirtualIntMethod,
Check_CallNonvirtualIntMethodV,
Check_CallNonvirtualIntMethodA,
Check_CallNonvirtualLongMethod,
Check_CallNonvirtualLongMethodV,
Check_CallNonvirtualLongMethodA,
Check_CallNonvirtualFloatMethod,
Check_CallNonvirtualFloatMethodV,
Check_CallNonvirtualFloatMethodA,
Check_CallNonvirtualDoubleMethod,
Check_CallNonvirtualDoubleMethodV,
Check_CallNonvirtualDoubleMethodA,
Check_CallNonvirtualVoidMethod,
Check_CallNonvirtualVoidMethodV,
Check_CallNonvirtualVoidMethodA,
Check_GetFieldID,
Check_GetObjectField,
Check_GetBooleanField,
Check_GetByteField,
Check_GetCharField,
Check_GetShortField,
Check_GetIntField,
Check_GetLongField,
Check_GetFloatField,
Check_GetDoubleField,
Check_SetObjectField,
Check_SetBooleanField,
Check_SetByteField,
Check_SetCharField,
Check_SetShortField,
Check_SetIntField,
Check_SetLongField,
Check_SetFloatField,
Check_SetDoubleField,
Check_GetStaticMethodID,
Check_CallStaticObjectMethod,
Check_CallStaticObjectMethodV,
Check_CallStaticObjectMethodA,
Check_CallStaticBooleanMethod,
Check_CallStaticBooleanMethodV,
Check_CallStaticBooleanMethodA,
Check_CallStaticByteMethod,
Check_CallStaticByteMethodV,
Check_CallStaticByteMethodA,
Check_CallStaticCharMethod,
Check_CallStaticCharMethodV,
Check_CallStaticCharMethodA,
Check_CallStaticShortMethod,
Check_CallStaticShortMethodV,
Check_CallStaticShortMethodA,
Check_CallStaticIntMethod,
Check_CallStaticIntMethodV,
Check_CallStaticIntMethodA,
Check_CallStaticLongMethod,
Check_CallStaticLongMethodV,
Check_CallStaticLongMethodA,
Check_CallStaticFloatMethod,
Check_CallStaticFloatMethodV,
Check_CallStaticFloatMethodA,
Check_CallStaticDoubleMethod,
Check_CallStaticDoubleMethodV,
Check_CallStaticDoubleMethodA,
Check_CallStaticVoidMethod,
Check_CallStaticVoidMethodV,
Check_CallStaticVoidMethodA,
Check_GetStaticFieldID,
Check_GetStaticObjectField,
Check_GetStaticBooleanField,
Check_GetStaticByteField,
Check_GetStaticCharField,
Check_GetStaticShortField,
Check_GetStaticIntField,
Check_GetStaticLongField,
Check_GetStaticFloatField,
Check_GetStaticDoubleField,
Check_SetStaticObjectField,
Check_SetStaticBooleanField,
Check_SetStaticByteField,
Check_SetStaticCharField,
Check_SetStaticShortField,
Check_SetStaticIntField,
Check_SetStaticLongField,
Check_SetStaticFloatField,
Check_SetStaticDoubleField,
Check_NewString,
Check_GetStringLength,
Check_GetStringChars,
Check_ReleaseStringChars,
Check_NewStringUTF,
Check_GetStringUTFLength,
Check_GetStringUTFChars,
Check_ReleaseStringUTFChars,
Check_GetArrayLength,
Check_NewObjectArray,
Check_GetObjectArrayElement,
Check_SetObjectArrayElement,
Check_NewBooleanArray,
Check_NewByteArray,
Check_NewCharArray,
Check_NewShortArray,
Check_NewIntArray,
Check_NewLongArray,
Check_NewFloatArray,
Check_NewDoubleArray,
Check_GetBooleanArrayElements,
Check_GetByteArrayElements,
Check_GetCharArrayElements,
Check_GetShortArrayElements,
Check_GetIntArrayElements,
Check_GetLongArrayElements,
Check_GetFloatArrayElements,
Check_GetDoubleArrayElements,
Check_ReleaseBooleanArrayElements,
Check_ReleaseByteArrayElements,
Check_ReleaseCharArrayElements,
Check_ReleaseShortArrayElements,
Check_ReleaseIntArrayElements,
Check_ReleaseLongArrayElements,
Check_ReleaseFloatArrayElements,
Check_ReleaseDoubleArrayElements,
Check_GetBooleanArrayRegion,
Check_GetByteArrayRegion,
Check_GetCharArrayRegion,
Check_GetShortArrayRegion,
Check_GetIntArrayRegion,
Check_GetLongArrayRegion,
Check_GetFloatArrayRegion,
Check_GetDoubleArrayRegion,
Check_SetBooleanArrayRegion,
Check_SetByteArrayRegion,
Check_SetCharArrayRegion,
Check_SetShortArrayRegion,
Check_SetIntArrayRegion,
Check_SetLongArrayRegion,
Check_SetFloatArrayRegion,
Check_SetDoubleArrayRegion,
Check_RegisterNatives,
Check_UnregisterNatives,
Check_MonitorEnter,
Check_MonitorExit,
Check_GetJavaVM,
Check_GetStringRegion,
Check_GetStringUTFRegion,
Check_GetPrimitiveArrayCritical,
Check_ReleasePrimitiveArrayCritical,
Check_GetStringCritical,
Check_ReleaseStringCritical,
Check_NewWeakGlobalRef,
Check_DeleteWeakGlobalRef,
Check_ExceptionCheck,
Check_NewDirectByteBuffer,
Check_GetDirectBufferAddress,
Check_GetDirectBufferCapacity,
Check_GetObjectRefType
};
static const struct JNIInvokeInterface gCheckInvokeInterface = {
NULL,
NULL,
NULL,
Check_DestroyJavaVM,
Check_AttachCurrentThread,
Check_DetachCurrentThread,
Check_GetEnv,
Check_AttachCurrentThreadAsDaemon,
};
/*
* Replace the normal table with the checked table.
*/
void dvmUseCheckedJniEnv(JNIEnvExt* pEnv) {
assert(pEnv->funcTable != &gCheckNativeInterface);
pEnv->baseFuncTable = pEnv->funcTable;
pEnv->funcTable = &gCheckNativeInterface;
}
/*
* Replace the normal table with the checked table.
*/
void dvmUseCheckedJniVm(JavaVMExt* pVm) {
assert(pVm->funcTable != &gCheckInvokeInterface);
pVm->baseFuncTable = pVm->funcTable;
pVm->funcTable = &gCheckInvokeInterface;
}
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