blob: 2ea6f765145e16697258f5f2ce68207b23e3e4cb [file] [log] [blame]
// Copyright 2011 Google Inc. All Rights Reserved.
#include "jni_internal.h"
#include <dlfcn.h>
#include <sys/mman.h>
#include <cstdarg>
#include <map>
#include <utility>
#include <vector>
#include "ScopedLocalRef.h"
#include "UniquePtr.h"
#include "assembler.h"
#include "class_linker.h"
#include "class_loader.h"
#include "jni.h"
#include "logging.h"
#include "object.h"
#include "runtime.h"
#include "scoped_jni_thread_state.h"
#include "stringpiece.h"
#include "thread.h"
namespace art {
/*
* Add a local reference for an object to the current stack frame. When
* the native function returns, the reference will be discarded.
*
* We need to allow the same reference to be added multiple times.
*
* This will be called on otherwise unreferenced objects. We cannot do
* GC allocations here, and it's best if we don't grab a mutex.
*
* Returns the local reference (currently just the same pointer that was
* passed in), or NULL on failure.
*/
template<typename T>
T AddLocalReference(JNIEnv* public_env, const Object* const_obj) {
// The jobject type hierarchy has no notion of const, so it's not worth carrying through.
Object* obj = const_cast<Object*>(const_obj);
if (obj == NULL) {
return NULL;
}
JNIEnvExt* env = reinterpret_cast<JNIEnvExt*>(public_env);
IndirectReferenceTable& locals = env->locals;
uint32_t cookie = IRT_FIRST_SEGMENT; // TODO
IndirectRef ref = locals.Add(cookie, obj);
if (ref == NULL) {
// TODO: just change Add's DCHECK to CHECK and lose this?
locals.Dump();
LOG(FATAL) << "Failed adding to JNI local reference table "
<< "(has " << locals.Capacity() << " entries)";
// TODO: dvmDumpThread(dvmThreadSelf(), false);
}
#if 0 // TODO: fix this to understand PushLocalFrame, so we can turn it on.
if (env->check_jni) {
size_t entry_count = locals.Capacity();
if (entry_count > 16) {
std::string class_descriptor(PrettyDescriptor(obj->GetClass()->GetDescriptor()));
LOG(WARNING) << "Warning: more than 16 JNI local references: "
<< entry_count << " (most recent was a " << class_descriptor << ")";
locals.Dump();
// TODO: dvmDumpThread(dvmThreadSelf(), false);
// dvmAbort();
}
}
#endif
if (env->work_around_app_jni_bugs) {
// Hand out direct pointers to support broken old apps.
return reinterpret_cast<T>(obj);
}
return reinterpret_cast<T>(ref);
}
// For external use.
template<typename T>
T Decode(JNIEnv* public_env, jobject obj) {
JNIEnvExt* env = reinterpret_cast<JNIEnvExt*>(public_env);
return reinterpret_cast<T>(env->self->DecodeJObject(obj));
}
// Explicit instantiations.
template Class* Decode<Class*>(JNIEnv*, jobject);
template ClassLoader* Decode<ClassLoader*>(JNIEnv*, jobject);
template Object* Decode<Object*>(JNIEnv*, jobject);
template String* Decode<String*>(JNIEnv*, jobject);
namespace {
jweak AddWeakGlobalReference(ScopedJniThreadState& ts, Object* obj) {
if (obj == NULL) {
return NULL;
}
JavaVMExt* vm = ts.Vm();
IndirectReferenceTable& weak_globals = vm->weak_globals;
MutexLock mu(vm->weak_globals_lock);
IndirectRef ref = weak_globals.Add(IRT_FIRST_SEGMENT, obj);
return reinterpret_cast<jweak>(ref);
}
// For internal use.
template<typename T>
T Decode(ScopedJniThreadState& ts, jobject obj) {
return reinterpret_cast<T>(ts.Self()->DecodeJObject(obj));
}
Field* DecodeField(ScopedJniThreadState& ts, jfieldID fid) {
return Decode<Field*>(ts, reinterpret_cast<jweak>(fid));
}
Method* DecodeMethod(ScopedJniThreadState& ts, jmethodID mid) {
return Decode<Method*>(ts, reinterpret_cast<jweak>(mid));
}
byte* CreateArgArray(ScopedJniThreadState& ts, Method* method, va_list ap) {
size_t num_bytes = method->NumArgArrayBytes();
UniquePtr<byte[]> arg_array(new byte[num_bytes]);
const StringPiece& shorty = method->GetShorty();
for (int i = 1, offset = 0; i < shorty.size(); ++i) {
switch (shorty[i]) {
case 'Z':
case 'B':
case 'C':
case 'S':
case 'I':
*reinterpret_cast<int32_t*>(&arg_array[offset]) = va_arg(ap, jint);
offset += 4;
break;
case 'F':
*reinterpret_cast<float*>(&arg_array[offset]) = va_arg(ap, jdouble);
offset += 4;
break;
case 'L': {
Object* obj = Decode<Object*>(ts, va_arg(ap, jobject));
*reinterpret_cast<Object**>(&arg_array[offset]) = obj;
offset += sizeof(Object*);
break;
}
case 'D':
*reinterpret_cast<double*>(&arg_array[offset]) = va_arg(ap, jdouble);
offset += 8;
break;
case 'J':
*reinterpret_cast<int64_t*>(&arg_array[offset]) = va_arg(ap, jlong);
offset += 8;
break;
}
}
return arg_array.release();
}
byte* CreateArgArray(ScopedJniThreadState& ts, Method* method, jvalue* args) {
size_t num_bytes = method->NumArgArrayBytes();
UniquePtr<byte[]> arg_array(new byte[num_bytes]);
const StringPiece& shorty = method->GetShorty();
for (int i = 1, offset = 0; i < shorty.size(); ++i) {
switch (shorty[i]) {
case 'Z':
case 'B':
case 'C':
case 'S':
case 'I':
*reinterpret_cast<uint32_t*>(&arg_array[offset]) = args[i - 1].i;
offset += 4;
break;
case 'F':
*reinterpret_cast<float*>(&arg_array[offset]) = args[i - 1].f;
offset += 4;
break;
case 'L': {
Object* obj = Decode<Object*>(ts, args[i - 1].l);
*reinterpret_cast<Object**>(&arg_array[offset]) = obj;
offset += sizeof(Object*);
break;
}
case 'D':
*reinterpret_cast<double*>(&arg_array[offset]) = args[i - 1].d;
offset += 8;
break;
case 'J':
*reinterpret_cast<uint64_t*>(&arg_array[offset]) = args[i - 1].j;
offset += 8;
break;
}
}
return arg_array.release();
}
JValue InvokeWithArgArray(ScopedJniThreadState& ts, Object* receiver,
Method* method, byte* args) {
JValue result;
method->Invoke(ts.Self(), receiver, args, &result);
return result;
}
JValue InvokeWithJValues(ScopedJniThreadState& ts, jobject obj,
jmethodID mid, jvalue* args) {
Object* receiver = Decode<Object*>(ts, obj);
Method* method = DecodeMethod(ts, mid);
UniquePtr<byte[]> arg_array(CreateArgArray(ts, method, args));
return InvokeWithArgArray(ts, receiver, method, arg_array.get());
}
JValue InvokeWithVarArgs(ScopedJniThreadState& ts, jobject obj,
jmethodID mid, va_list args) {
Object* receiver = Decode<Object*>(ts, obj);
Method* method = DecodeMethod(ts, mid);
UniquePtr<byte[]> arg_array(CreateArgArray(ts, method, args));
return InvokeWithArgArray(ts, receiver, method, arg_array.get());
}
Method* FindVirtualMethod(Object* receiver, Method* method) {
return receiver->GetClass()->FindVirtualMethodForVirtualOrInterface(method);
}
JValue InvokeVirtualOrInterfaceWithJValues(ScopedJniThreadState& ts, jobject obj, jmethodID mid, jvalue* args) {
Object* receiver = Decode<Object*>(ts, obj);
Method* method = FindVirtualMethod(receiver, DecodeMethod(ts, mid));
UniquePtr<byte[]> arg_array(CreateArgArray(ts, method, args));
return InvokeWithArgArray(ts, receiver, method, arg_array.get());
}
JValue InvokeVirtualOrInterfaceWithVarArgs(ScopedJniThreadState& ts, jobject obj, jmethodID mid, va_list args) {
Object* receiver = Decode<Object*>(ts, obj);
Method* method = FindVirtualMethod(receiver, DecodeMethod(ts, mid));
UniquePtr<byte[]> arg_array(CreateArgArray(ts, method, args));
return InvokeWithArgArray(ts, receiver, method, arg_array.get());
}
// Section 12.3.2 of the JNI spec describes JNI class descriptors. They're
// separated with slashes but aren't wrapped with "L;" like regular descriptors
// (i.e. "a/b/C" rather than "La/b/C;"). Arrays of reference types are an
// exception; there the "L;" must be present ("[La/b/C;"). Historically we've
// supported names with dots too (such as "a.b.C").
std::string NormalizeJniClassDescriptor(const char* name) {
std::string result;
// Add the missing "L;" if necessary.
if (name[0] == '[') {
result = name;
} else {
result += 'L';
result += name;
result += ';';
}
// Rewrite '.' as '/' for backwards compatibility.
if (result.find('.') != std::string::npos) {
LOG(WARNING) << "Call to JNI FindClass with dots in name: "
<< "\"" << name << "\"";
std::replace(result.begin(), result.end(), '.', '/');
}
return result;
}
jmethodID FindMethodID(ScopedJniThreadState& ts, jclass jni_class, const char* name, const char* sig, bool is_static) {
Class* c = Decode<Class*>(ts, jni_class);
if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(c)) {
return NULL;
}
Method* method = NULL;
if (is_static) {
method = c->FindDirectMethod(name, sig);
} else {
method = c->FindVirtualMethod(name, sig);
if (method == NULL) {
// No virtual method matching the signature. Search declared
// private methods and constructors.
method = c->FindDeclaredDirectMethod(name, sig);
}
}
if (method == NULL || method->IsStatic() != is_static) {
Thread* self = Thread::Current();
std::string method_name(PrettyMethod(method));
// TODO: try searching for the opposite kind of method from is_static
// for better diagnostics?
self->ThrowNewException("Ljava/lang/NoSuchMethodError;",
"no %s method %s", is_static ? "static" : "non-static",
method_name.c_str());
return NULL;
}
return reinterpret_cast<jmethodID>(AddWeakGlobalReference(ts, method));
}
jfieldID FindFieldID(ScopedJniThreadState& ts, jclass jni_class, const char* name, const char* sig, bool is_static) {
Class* c = Decode<Class*>(ts, jni_class);
if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(c)) {
return NULL;
}
Field* field = NULL;
Class* field_type;
ClassLinker* class_linker = Runtime::Current()->GetClassLinker();
if (sig[1] != '\0') {
// TODO: need to get the appropriate ClassLoader.
const ClassLoader* cl = ts.Self()->GetClassLoaderOverride();
field_type = class_linker->FindClass(sig, cl);
} else {
field_type = class_linker->FindPrimitiveClass(*sig);
}
if (field_type == NULL) {
// Failed to find type from the signature of the field.
DCHECK(ts.Self()->IsExceptionPending());
ts.Self()->ClearException();
std::string class_descriptor(c->GetDescriptor()->ToModifiedUtf8());
ts.Self()->ThrowNewException("Ljava/lang/NoSuchFieldError;",
"no type \"%s\" found and so no field \"%s\" could be found in class "
"\"%s\" or its superclasses", sig, name, class_descriptor.c_str());
return NULL;
}
if (is_static) {
field = c->FindStaticField(name, field_type);
} else {
field = c->FindInstanceField(name, field_type);
}
if (field == NULL) {
std::string class_descriptor(c->GetDescriptor()->ToModifiedUtf8());
ts.Self()->ThrowNewException("Ljava/lang/NoSuchFieldError;",
"no \"%s\" field \"%s\" in class \"%s\" or its superclasses", sig,
name, class_descriptor.c_str());
return NULL;
}
// Check invariant that all jfieldIDs have resolved types (how else would
// the type equality in Find...Field hold?)
DCHECK(field->GetType() != NULL);
jweak fid = AddWeakGlobalReference(ts, field);
return reinterpret_cast<jfieldID>(fid);
}
void PinPrimitiveArray(ScopedJniThreadState& ts, const Array* array) {
JavaVMExt* vm = ts.Vm();
MutexLock mu(vm->pins_lock);
vm->pin_table.Add(array);
}
void UnpinPrimitiveArray(ScopedJniThreadState& ts, const Array* array) {
JavaVMExt* vm = ts.Vm();
MutexLock mu(vm->pins_lock);
vm->pin_table.Remove(array);
}
template<typename JniT, typename ArtT>
JniT NewPrimitiveArray(ScopedJniThreadState& ts, jsize length) {
CHECK_GE(length, 0); // TODO: ReportJniError
ArtT* result = ArtT::Alloc(length);
return AddLocalReference<JniT>(ts.Env(), result);
}
template <typename ArrayT, typename CArrayT, typename ArtArrayT>
CArrayT GetPrimitiveArray(ScopedJniThreadState& ts, ArrayT java_array, jboolean* is_copy) {
ArtArrayT* array = Decode<ArtArrayT*>(ts, java_array);
PinPrimitiveArray(ts, array);
if (is_copy != NULL) {
*is_copy = JNI_FALSE;
}
return array->GetData();
}
template <typename ArrayT>
void ReleasePrimitiveArray(ScopedJniThreadState& ts, ArrayT java_array, jint mode) {
if (mode != JNI_COMMIT) {
Array* array = Decode<Array*>(ts, java_array);
UnpinPrimitiveArray(ts, array);
}
}
void ThrowAIOOBE(ScopedJniThreadState& ts, Array* array, jsize start, jsize length, const char* identifier) {
std::string type(PrettyType(array));
ts.Self()->ThrowNewException("Ljava/lang/ArrayIndexOutOfBoundsException;",
"%s offset=%d length=%d %s.length=%d",
type.c_str(), start, length, identifier, array->GetLength());
}
void ThrowSIOOBE(ScopedJniThreadState& ts, jsize start, jsize length, jsize array_length) {
ts.Self()->ThrowNewException("Ljava/lang/StringIndexOutOfBoundsException;",
"offset=%d length=%d string.length()=%d", start, length, array_length);
}
template <typename JavaArrayT, typename JavaT, typename ArrayT>
void GetPrimitiveArrayRegion(ScopedJniThreadState& ts, JavaArrayT java_array, jsize start, jsize length, JavaT* buf) {
ArrayT* array = Decode<ArrayT*>(ts, java_array);
if (start < 0 || length < 0 || start + length > array->GetLength()) {
ThrowAIOOBE(ts, array, start, length, "src");
} else {
JavaT* data = array->GetData();
memcpy(buf, data + start, length * sizeof(JavaT));
}
}
template <typename JavaArrayT, typename JavaT, typename ArrayT>
void SetPrimitiveArrayRegion(ScopedJniThreadState& ts, JavaArrayT java_array, jsize start, jsize length, const JavaT* buf) {
ArrayT* array = Decode<ArrayT*>(ts, java_array);
if (start < 0 || length < 0 || start + length > array->GetLength()) {
ThrowAIOOBE(ts, array, start, length, "dst");
} else {
JavaT* data = array->GetData();
memcpy(data + start, buf, length * sizeof(JavaT));
}
}
jclass InitDirectByteBufferClass(JNIEnv* env) {
ScopedLocalRef<jclass> buffer_class(env, env->FindClass("java/nio/ReadWriteDirectByteBuffer"));
CHECK(buffer_class.get() != NULL);
return reinterpret_cast<jclass>(env->NewGlobalRef(buffer_class.get()));
}
jclass GetDirectByteBufferClass(JNIEnv* env) {
static jclass buffer_class = InitDirectByteBufferClass(env);
return buffer_class;
}
jint JII_AttachCurrentThread(JavaVM* vm, JNIEnv** p_env, void* thr_args, bool as_daemon) {
if (vm == NULL || p_env == NULL) {
return JNI_ERR;
}
JavaVMAttachArgs* in_args = static_cast<JavaVMAttachArgs*>(thr_args);
JavaVMAttachArgs args;
if (thr_args == NULL) {
// Allow the v1.1 calling convention.
args.version = JNI_VERSION_1_2;
args.name = NULL;
args.group = NULL; // TODO: get "main" thread group
} else {
args.version = in_args->version;
args.name = in_args->name;
if (in_args->group != NULL) {
UNIMPLEMENTED(WARNING) << "thr_args->group != NULL";
args.group = NULL; // TODO: decode in_args->group
} else {
args.group = NULL; // TODO: get "main" thread group
}
}
CHECK_GE(args.version, JNI_VERSION_1_2);
Runtime* runtime = reinterpret_cast<JavaVMExt*>(vm)->runtime;
runtime->AttachCurrentThread(args.name, as_daemon);
*p_env = Thread::Current()->GetJniEnv();
return JNI_OK;
}
class SharedLibrary {
public:
SharedLibrary(const std::string& path, void* handle, Object* class_loader)
: path_(path),
handle_(handle),
jni_on_load_lock_(Mutex::Create("JNI_OnLoad lock")),
jni_on_load_thread_id_(Thread::Current()->GetThinLockId()),
jni_on_load_result_(kPending) {
pthread_cond_init(&jni_on_load_cond_, NULL);
}
~SharedLibrary() {
delete jni_on_load_lock_;
}
Object* GetClassLoader() {
return class_loader_;
}
std::string GetPath() {
return path_;
}
/*
* Check the result of an earlier call to JNI_OnLoad on this library. If
* the call has not yet finished in another thread, wait for it.
*/
bool CheckOnLoadResult(JavaVMExt* vm) {
Thread* self = Thread::Current();
if (jni_on_load_thread_id_ == self->GetThinLockId()) {
// Check this so we don't end up waiting for ourselves. We need
// to return "true" so the caller can continue.
LOG(INFO) << *self << " recursive attempt to load library "
<< "\"" << path_ << "\"";
return true;
}
MutexLock mu(jni_on_load_lock_);
while (jni_on_load_result_ == kPending) {
if (vm->verbose_jni) {
LOG(INFO) << "[" << *self << " waiting for \"" << path_ << "\" "
<< "JNI_OnLoad...]";
}
ScopedThreadStateChange tsc(self, Thread::kWaiting); // TODO: VMWAIT
pthread_cond_wait(&jni_on_load_cond_, jni_on_load_lock_->GetImpl());
}
bool okay = (jni_on_load_result_ == kOkay);
if (vm->verbose_jni) {
LOG(INFO) << "[Earlier JNI_OnLoad for \"" << path_ << "\" "
<< (okay ? "succeeded" : "failed") << "]";
}
return okay;
}
void SetResult(bool result) {
jni_on_load_result_ = result ? kOkay : kFailed;
jni_on_load_thread_id_ = 0;
// Broadcast a wakeup to anybody sleeping on the condition variable.
MutexLock mu(jni_on_load_lock_);
pthread_cond_broadcast(&jni_on_load_cond_);
}
void* FindSymbol(const std::string& symbol_name) {
return dlsym(handle_, symbol_name.c_str());
}
private:
enum JNI_OnLoadState {
kPending,
kFailed,
kOkay,
};
// Path to library "/system/lib/libjni.so".
std::string path_;
// The void* returned by dlopen(3).
void* handle_;
// The ClassLoader this library is associated with.
Object* class_loader_;
// Guards remaining items.
Mutex* jni_on_load_lock_;
// Wait for JNI_OnLoad in other thread.
pthread_cond_t jni_on_load_cond_;
// Recursive invocation guard.
uint32_t jni_on_load_thread_id_;
// Result of earlier JNI_OnLoad call.
JNI_OnLoadState jni_on_load_result_;
};
} // namespace
// This exists mainly to keep implementation details out of the header file.
class Libraries {
public:
Libraries() {
}
~Libraries() {
// Delete our map values. (The keys will be cleaned up by the map itself.)
for (It it = libraries_.begin(); it != libraries_.end(); ++it) {
delete it->second;
}
}
SharedLibrary* Get(const std::string& path) {
return libraries_[path];
}
void Put(const std::string& path, SharedLibrary* library) {
libraries_[path] = library;
}
// See section 11.3 "Linking Native Methods" of the JNI spec.
void* FindNativeMethod(const Method* m) {
std::string jni_short_name(JniShortName(m));
std::string jni_long_name(JniLongName(m));
const ClassLoader* declaring_class_loader = m->GetDeclaringClass()->GetClassLoader();
for (It it = libraries_.begin(); it != libraries_.end(); ++it) {
SharedLibrary* library = it->second;
if (library->GetClassLoader() != declaring_class_loader) {
// We only search libraries loaded by the appropriate ClassLoader.
continue;
}
// Try the short name then the long name...
void* fn = library->FindSymbol(jni_short_name);
if (fn == NULL) {
fn = library->FindSymbol(jni_long_name);
}
if (fn != NULL) {
if (Runtime::Current()->GetJavaVM()->verbose_jni) {
LOG(INFO) << "[Found native code for " << PrettyMethod(m)
<< " in \"" << library->GetPath() << "\"]";
}
return fn;
}
}
std::string detail;
detail += "No implementation found for ";
detail += PrettyMethod(m);
LOG(ERROR) << detail;
Thread::Current()->ThrowNewException("Ljava/lang/UnsatisfiedLinkError;",
"%s", detail.c_str());
return NULL;
}
private:
typedef std::map<std::string, SharedLibrary*>::iterator It; // TODO: C++0x auto
std::map<std::string, SharedLibrary*> libraries_;
};
class JNI {
public:
static jint GetVersion(JNIEnv* env) {
ScopedJniThreadState ts(env);
return JNI_VERSION_1_6;
}
static jclass DefineClass(JNIEnv* env, const char*, jobject, const jbyte*, jsize) {
ScopedJniThreadState ts(env);
LOG(WARNING) << "JNI DefineClass is not supported";
return NULL;
}
static jclass FindClass(JNIEnv* env, const char* name) {
ScopedJniThreadState ts(env);
Runtime* runtime = Runtime::Current();
ClassLinker* class_linker = runtime->GetClassLinker();
std::string descriptor(NormalizeJniClassDescriptor(name));
Class* c = NULL;
if (runtime->IsStarted()) {
// TODO: need to get the appropriate ClassLoader.
const ClassLoader* cl = ts.Self()->GetClassLoaderOverride();
c = class_linker->FindClass(descriptor, cl);
} else {
c = class_linker->FindSystemClass(descriptor);
}
return AddLocalReference<jclass>(env, c);
}
static jmethodID FromReflectedMethod(JNIEnv* env, jobject java_method) {
ScopedJniThreadState ts(env);
Method* method = Decode<Method*>(ts, java_method);
return reinterpret_cast<jmethodID>(AddWeakGlobalReference(ts, method));
}
static jfieldID FromReflectedField(JNIEnv* env, jobject java_field) {
ScopedJniThreadState ts(env);
Field* field = Decode<Field*>(ts, java_field);
return reinterpret_cast<jfieldID>(AddWeakGlobalReference(ts, field));
}
static jobject ToReflectedMethod(JNIEnv* env, jclass, jmethodID mid, jboolean) {
ScopedJniThreadState ts(env);
Method* method = DecodeMethod(ts, mid);
return AddLocalReference<jobject>(env, method);
}
static jobject ToReflectedField(JNIEnv* env, jclass, jfieldID fid, jboolean) {
ScopedJniThreadState ts(env);
Field* field = DecodeField(ts, fid);
return AddLocalReference<jobject>(env, field);
}
static jclass GetObjectClass(JNIEnv* env, jobject java_object) {
ScopedJniThreadState ts(env);
Object* o = Decode<Object*>(ts, java_object);
return AddLocalReference<jclass>(env, o->GetClass());
}
static jclass GetSuperclass(JNIEnv* env, jclass java_class) {
ScopedJniThreadState ts(env);
Class* c = Decode<Class*>(ts, java_class);
return AddLocalReference<jclass>(env, c->GetSuperClass());
}
static jboolean IsAssignableFrom(JNIEnv* env, jclass java_class1, jclass java_class2) {
ScopedJniThreadState ts(env);
Class* c1 = Decode<Class*>(ts, java_class1);
Class* c2 = Decode<Class*>(ts, java_class2);
return c1->IsAssignableFrom(c2) ? JNI_TRUE : JNI_FALSE;
}
static jboolean IsInstanceOf(JNIEnv* env, jobject jobj, jclass clazz) {
ScopedJniThreadState ts(env);
CHECK_NE(static_cast<jclass>(NULL), clazz); // TODO: ReportJniError
if (jobj == NULL) {
// NB. JNI is different from regular Java instanceof in this respect
return JNI_TRUE;
} else {
Object* obj = Decode<Object*>(ts, jobj);
Class* klass = Decode<Class*>(ts, clazz);
return Object::InstanceOf(obj, klass) ? JNI_TRUE : JNI_FALSE;
}
}
static jint Throw(JNIEnv* env, jthrowable java_exception) {
ScopedJniThreadState ts(env);
Throwable* exception = Decode<Throwable*>(ts, java_exception);
if (exception == NULL) {
return JNI_ERR;
}
ts.Self()->SetException(exception);
return JNI_OK;
}
static jint ThrowNew(JNIEnv* env, jclass c, const char* msg) {
ScopedJniThreadState ts(env);
// TODO: check for a pending exception to decide what constructor to call.
jmethodID mid = env->GetMethodID(c, "<init>", "(Ljava/lang/String;)V");
if (mid == NULL) {
return JNI_ERR;
}
ScopedLocalRef<jstring> s(env, env->NewStringUTF(msg));
if (s.get() == NULL) {
return JNI_ERR;
}
jvalue args[1];
args[0].l = s.get();
ScopedLocalRef<jthrowable> exception(env, reinterpret_cast<jthrowable>(env->NewObjectA(c, mid, args)));
if (exception.get() == NULL) {
return JNI_ERR;
}
LOG(INFO) << "Throwing " << PrettyType(Decode<Throwable*>(ts, exception.get()))
<< ": " << msg;
ts.Self()->SetException(Decode<Throwable*>(ts, exception.get()));
return JNI_OK;
}
static jboolean ExceptionCheck(JNIEnv* env) {
ScopedJniThreadState ts(env);
return ts.Self()->IsExceptionPending() ? JNI_TRUE : JNI_FALSE;
}
static void ExceptionClear(JNIEnv* env) {
ScopedJniThreadState ts(env);
ts.Self()->ClearException();
}
static void ExceptionDescribe(JNIEnv* env) {
ScopedJniThreadState ts(env);
Thread* self = ts.Self();
Throwable* original_exception = self->GetException();
self->ClearException();
ScopedLocalRef<jthrowable> exception(env, AddLocalReference<jthrowable>(env, original_exception));
ScopedLocalRef<jclass> exception_class(env, env->GetObjectClass(exception.get()));
jmethodID mid = env->GetMethodID(exception_class.get(), "printStackTrace", "()V");
if (mid == NULL) {
LOG(WARNING) << "JNI WARNING: no printStackTrace()V in "
<< PrettyType(original_exception);
} else {
env->CallVoidMethod(exception.get(), mid);
if (self->IsExceptionPending()) {
LOG(WARNING) << "JNI WARNING: " << PrettyType(self->GetException())
<< " thrown while calling printStackTrace";
self->ClearException();
}
}
self->SetException(original_exception);
}
static jthrowable ExceptionOccurred(JNIEnv* env) {
ScopedJniThreadState ts(env);
Object* exception = ts.Self()->GetException();
if (exception == NULL) {
return NULL;
} else {
// TODO: if adding a local reference failing causes the VM to abort
// then the following check will never occur.
jthrowable localException = AddLocalReference<jthrowable>(env, exception);
if (localException == NULL) {
// We were unable to add a new local reference, and threw a new
// exception. We can't return "exception", because it's not a
// local reference. So we have to return NULL, indicating that
// there was no exception, even though it's pretty much raining
// exceptions in here.
LOG(WARNING) << "JNI WARNING: addLocal/exception combo";
}
return localException;
}
}
static void FatalError(JNIEnv* env, const char* msg) {
ScopedJniThreadState ts(env);
LOG(FATAL) << "JNI FatalError called: " << msg;
}
static jint PushLocalFrame(JNIEnv* env, jint cap) {
ScopedJniThreadState ts(env);
UNIMPLEMENTED(WARNING) << "ignoring PushLocalFrame(" << cap << ")";
return JNI_OK;
}
static jobject PopLocalFrame(JNIEnv* env, jobject res) {
ScopedJniThreadState ts(env);
UNIMPLEMENTED(WARNING) << "ignoring PopLocalFrame " << res;
return res;
}
static jint EnsureLocalCapacity(JNIEnv* env, jint cap) {
ScopedJniThreadState ts(env);
UNIMPLEMENTED(WARNING) << "ignoring EnsureLocalCapacity(" << cap << ")";
return 0;
}
static jobject NewGlobalRef(JNIEnv* env, jobject obj) {
ScopedJniThreadState ts(env);
if (obj == NULL) {
return NULL;
}
JavaVMExt* vm = ts.Vm();
IndirectReferenceTable& globals = vm->globals;
MutexLock mu(vm->globals_lock);
IndirectRef ref = globals.Add(IRT_FIRST_SEGMENT, Decode<Object*>(ts, obj));
return reinterpret_cast<jobject>(ref);
}
static void DeleteGlobalRef(JNIEnv* env, jobject obj) {
ScopedJniThreadState ts(env);
if (obj == NULL) {
return;
}
JavaVMExt* vm = ts.Vm();
IndirectReferenceTable& globals = vm->globals;
MutexLock mu(vm->globals_lock);
if (!globals.Remove(IRT_FIRST_SEGMENT, obj)) {
LOG(WARNING) << "JNI WARNING: DeleteGlobalRef(" << obj << ") "
<< "failed to find entry";
}
}
static jweak NewWeakGlobalRef(JNIEnv* env, jobject obj) {
ScopedJniThreadState ts(env);
return AddWeakGlobalReference(ts, Decode<Object*>(ts, obj));
}
static void DeleteWeakGlobalRef(JNIEnv* env, jweak obj) {
ScopedJniThreadState ts(env);
if (obj == NULL) {
return;
}
JavaVMExt* vm = ts.Vm();
IndirectReferenceTable& weak_globals = vm->weak_globals;
MutexLock mu(vm->weak_globals_lock);
if (!weak_globals.Remove(IRT_FIRST_SEGMENT, obj)) {
LOG(WARNING) << "JNI WARNING: DeleteWeakGlobalRef(" << obj << ") "
<< "failed to find entry";
}
}
static jobject NewLocalRef(JNIEnv* env, jobject obj) {
ScopedJniThreadState ts(env);
if (obj == NULL) {
return NULL;
}
IndirectReferenceTable& locals = ts.Env()->locals;
uint32_t cookie = IRT_FIRST_SEGMENT; // TODO
IndirectRef ref = locals.Add(cookie, Decode<Object*>(ts, obj));
return reinterpret_cast<jobject>(ref);
}
static void DeleteLocalRef(JNIEnv* env, jobject obj) {
ScopedJniThreadState ts(env);
if (obj == NULL) {
return;
}
IndirectReferenceTable& locals = ts.Env()->locals;
uint32_t cookie = IRT_FIRST_SEGMENT; // TODO
if (!locals.Remove(cookie, obj)) {
// Attempting to delete a local reference that is not in the
// topmost local reference frame is a no-op. DeleteLocalRef returns
// void and doesn't throw any exceptions, but we should probably
// complain about it so the user will notice that things aren't
// going quite the way they expect.
LOG(WARNING) << "JNI WARNING: DeleteLocalRef(" << obj << ") "
<< "failed to find entry";
}
}
static jboolean IsSameObject(JNIEnv* env, jobject obj1, jobject obj2) {
ScopedJniThreadState ts(env);
return (Decode<Object*>(ts, obj1) == Decode<Object*>(ts, obj2))
? JNI_TRUE : JNI_FALSE;
}
static jobject AllocObject(JNIEnv* env, jclass java_class) {
ScopedJniThreadState ts(env);
Class* c = Decode<Class*>(ts, java_class);
if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(c)) {
return NULL;
}
return AddLocalReference<jobject>(env, c->AllocObject());
}
static jobject NewObject(JNIEnv* env, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list args;
va_start(args, mid);
jobject result = NewObjectV(env, clazz, mid, args);
va_end(args);
return result;
}
static jobject NewObjectV(JNIEnv* env, jclass java_class, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
Class* c = Decode<Class*>(ts, java_class);
if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(c)) {
return NULL;
}
Object* result = c->AllocObject();
jobject local_result = AddLocalReference<jobject>(env, result);
CallNonvirtualVoidMethodV(env, local_result, java_class, mid, args);
return local_result;
}
static jobject NewObjectA(JNIEnv* env, jclass java_class, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
Class* c = Decode<Class*>(ts, java_class);
if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(c)) {
return NULL;
}
Object* result = c->AllocObject();
jobject local_result = AddLocalReference<jobjectArray>(env, result);
CallNonvirtualVoidMethodA(env, local_result, java_class, mid, args);
return local_result;
}
static jmethodID GetMethodID(JNIEnv* env, jclass c, const char* name, const char* sig) {
ScopedJniThreadState ts(env);
return FindMethodID(ts, c, name, sig, false);
}
static jmethodID GetStaticMethodID(JNIEnv* env, jclass c, const char* name, const char* sig) {
ScopedJniThreadState ts(env);
return FindMethodID(ts, c, name, sig, true);
}
static jobject CallObjectMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return AddLocalReference<jobject>(env, result.l);
}
static jobject CallObjectMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args);
return AddLocalReference<jobject>(env, result.l);
}
static jobject CallObjectMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
JValue result = InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args);
return AddLocalReference<jobject>(env, result.l);
}
static jboolean CallBooleanMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.z;
}
static jboolean CallBooleanMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args).z;
}
static jboolean CallBooleanMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args).z;
}
static jbyte CallByteMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.b;
}
static jbyte CallByteMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args).b;
}
static jbyte CallByteMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args).b;
}
static jchar CallCharMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.c;
}
static jchar CallCharMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args).c;
}
static jchar CallCharMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args).c;
}
static jdouble CallDoubleMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.d;
}
static jdouble CallDoubleMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args).d;
}
static jdouble CallDoubleMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args).d;
}
static jfloat CallFloatMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.f;
}
static jfloat CallFloatMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args).f;
}
static jfloat CallFloatMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args).f;
}
static jint CallIntMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.i;
}
static jint CallIntMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args).i;
}
static jint CallIntMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args).i;
}
static jlong CallLongMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.j;
}
static jlong CallLongMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args).j;
}
static jlong CallLongMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args).j;
}
static jshort CallShortMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.s;
}
static jshort CallShortMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args).s;
}
static jshort CallShortMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args).s;
}
static void CallVoidMethod(JNIEnv* env, jobject obj, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, ap);
va_end(ap);
}
static void CallVoidMethodV(JNIEnv* env, jobject obj, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
InvokeVirtualOrInterfaceWithVarArgs(ts, obj, mid, args);
}
static void CallVoidMethodA(JNIEnv* env, jobject obj, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
InvokeVirtualOrInterfaceWithJValues(ts, obj, mid, args);
}
static jobject CallNonvirtualObjectMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
jobject local_result = AddLocalReference<jobject>(env, result.l);
va_end(ap);
return local_result;
}
static jobject CallNonvirtualObjectMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
JValue result = InvokeWithVarArgs(ts, obj, mid, args);
return AddLocalReference<jobject>(env, result.l);
}
static jobject CallNonvirtualObjectMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
JValue result = InvokeWithJValues(ts, obj, mid, args);
return AddLocalReference<jobject>(env, result.l);
}
static jboolean CallNonvirtualBooleanMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.z;
}
static jboolean CallNonvirtualBooleanMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, obj, mid, args).z;
}
static jboolean CallNonvirtualBooleanMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, obj, mid, args).z;
}
static jbyte CallNonvirtualByteMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.b;
}
static jbyte CallNonvirtualByteMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, obj, mid, args).b;
}
static jbyte CallNonvirtualByteMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, obj, mid, args).b;
}
static jchar CallNonvirtualCharMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.c;
}
static jchar CallNonvirtualCharMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, obj, mid, args).c;
}
static jchar CallNonvirtualCharMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, obj, mid, args).c;
}
static jshort CallNonvirtualShortMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.s;
}
static jshort CallNonvirtualShortMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, obj, mid, args).s;
}
static jshort CallNonvirtualShortMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, obj, mid, args).s;
}
static jint CallNonvirtualIntMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.i;
}
static jint CallNonvirtualIntMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, obj, mid, args).i;
}
static jint CallNonvirtualIntMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, obj, mid, args).i;
}
static jlong CallNonvirtualLongMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.j;
}
static jlong CallNonvirtualLongMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, obj, mid, args).j;
}
static jlong CallNonvirtualLongMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, obj, mid, args).j;
}
static jfloat CallNonvirtualFloatMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.f;
}
static jfloat CallNonvirtualFloatMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, obj, mid, args).f;
}
static jfloat CallNonvirtualFloatMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, obj, mid, args).f;
}
static jdouble CallNonvirtualDoubleMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
return result.d;
}
static jdouble CallNonvirtualDoubleMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, obj, mid, args).d;
}
static jdouble CallNonvirtualDoubleMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, obj, mid, args).d;
}
static void CallNonvirtualVoidMethod(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
InvokeWithVarArgs(ts, obj, mid, ap);
va_end(ap);
}
static void CallNonvirtualVoidMethodV(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
InvokeWithVarArgs(ts, obj, mid, args);
}
static void CallNonvirtualVoidMethodA(JNIEnv* env,
jobject obj, jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
InvokeWithJValues(ts, obj, mid, args);
}
static jfieldID GetFieldID(JNIEnv* env,
jclass c, const char* name, const char* sig) {
ScopedJniThreadState ts(env);
return FindFieldID(ts, c, name, sig, false);
}
static jfieldID GetStaticFieldID(JNIEnv* env,
jclass c, const char* name, const char* sig) {
ScopedJniThreadState ts(env);
return FindFieldID(ts, c, name, sig, true);
}
static jobject GetObjectField(JNIEnv* env, jobject obj, jfieldID fid) {
ScopedJniThreadState ts(env);
Object* o = Decode<Object*>(ts, obj);
Field* f = DecodeField(ts, fid);
return AddLocalReference<jobject>(env, f->GetObject(o));
}
static jobject GetStaticObjectField(JNIEnv* env, jclass, jfieldID fid) {
ScopedJniThreadState ts(env);
Field* f = DecodeField(ts, fid);
return AddLocalReference<jobject>(env, f->GetObject(NULL));
}
static void SetObjectField(JNIEnv* env, jobject java_object, jfieldID fid, jobject java_value) {
ScopedJniThreadState ts(env);
Object* o = Decode<Object*>(ts, java_object);
Object* v = Decode<Object*>(ts, java_value);
Field* f = DecodeField(ts, fid);
f->SetObject(o, v);
}
static void SetStaticObjectField(JNIEnv* env, jclass, jfieldID fid, jobject java_value) {
ScopedJniThreadState ts(env);
Object* v = Decode<Object*>(ts, java_value);
Field* f = DecodeField(ts, fid);
f->SetObject(NULL, v);
}
#define GET_PRIMITIVE_FIELD(fn, instance) \
ScopedJniThreadState ts(env); \
Object* o = Decode<Object*>(ts, instance); \
Field* f = DecodeField(ts, fid); \
return f->fn(o)
#define SET_PRIMITIVE_FIELD(fn, instance, value) \
ScopedJniThreadState ts(env); \
Object* o = Decode<Object*>(ts, instance); \
Field* f = DecodeField(ts, fid); \
f->fn(o, value)
static jboolean GetBooleanField(JNIEnv* env, jobject obj, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetBoolean, obj);
}
static jbyte GetByteField(JNIEnv* env, jobject obj, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetByte, obj);
}
static jchar GetCharField(JNIEnv* env, jobject obj, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetChar, obj);
}
static jshort GetShortField(JNIEnv* env, jobject obj, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetShort, obj);
}
static jint GetIntField(JNIEnv* env, jobject obj, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetInt, obj);
}
static jlong GetLongField(JNIEnv* env, jobject obj, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetLong, obj);
}
static jfloat GetFloatField(JNIEnv* env, jobject obj, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetFloat, obj);
}
static jdouble GetDoubleField(JNIEnv* env, jobject obj, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetDouble, obj);
}
static jboolean GetStaticBooleanField(JNIEnv* env, jclass clazz, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetBoolean, NULL);
}
static jbyte GetStaticByteField(JNIEnv* env, jclass clazz, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetByte, NULL);
}
static jchar GetStaticCharField(JNIEnv* env, jclass clazz, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetChar, NULL);
}
static jshort GetStaticShortField(JNIEnv* env, jclass clazz, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetShort, NULL);
}
static jint GetStaticIntField(JNIEnv* env, jclass clazz, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetInt, NULL);
}
static jlong GetStaticLongField(JNIEnv* env, jclass clazz, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetLong, NULL);
}
static jfloat GetStaticFloatField(JNIEnv* env, jclass clazz, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetFloat, NULL);
}
static jdouble GetStaticDoubleField(JNIEnv* env, jclass clazz, jfieldID fid) {
GET_PRIMITIVE_FIELD(GetDouble, NULL);
}
static void SetBooleanField(JNIEnv* env, jobject obj, jfieldID fid, jboolean v) {
SET_PRIMITIVE_FIELD(SetBoolean, obj, v);
}
static void SetByteField(JNIEnv* env, jobject obj, jfieldID fid, jbyte v) {
SET_PRIMITIVE_FIELD(SetByte, obj, v);
}
static void SetCharField(JNIEnv* env, jobject obj, jfieldID fid, jchar v) {
SET_PRIMITIVE_FIELD(SetChar, obj, v);
}
static void SetFloatField(JNIEnv* env, jobject obj, jfieldID fid, jfloat v) {
SET_PRIMITIVE_FIELD(SetFloat, obj, v);
}
static void SetDoubleField(JNIEnv* env, jobject obj, jfieldID fid, jdouble v) {
SET_PRIMITIVE_FIELD(SetDouble, obj, v);
}
static void SetIntField(JNIEnv* env, jobject obj, jfieldID fid, jint v) {
SET_PRIMITIVE_FIELD(SetInt, obj, v);
}
static void SetLongField(JNIEnv* env, jobject obj, jfieldID fid, jlong v) {
SET_PRIMITIVE_FIELD(SetLong, obj, v);
}
static void SetShortField(JNIEnv* env, jobject obj, jfieldID fid, jshort v) {
SET_PRIMITIVE_FIELD(SetShort, obj, v);
}
static void SetStaticBooleanField(JNIEnv* env, jclass, jfieldID fid, jboolean v) {
SET_PRIMITIVE_FIELD(SetBoolean, NULL, v);
}
static void SetStaticByteField(JNIEnv* env, jclass, jfieldID fid, jbyte v) {
SET_PRIMITIVE_FIELD(SetByte, NULL, v);
}
static void SetStaticCharField(JNIEnv* env, jclass, jfieldID fid, jchar v) {
SET_PRIMITIVE_FIELD(SetChar, NULL, v);
}
static void SetStaticFloatField(JNIEnv* env, jclass, jfieldID fid, jfloat v) {
SET_PRIMITIVE_FIELD(SetFloat, NULL, v);
}
static void SetStaticDoubleField(JNIEnv* env, jclass, jfieldID fid, jdouble v) {
SET_PRIMITIVE_FIELD(SetDouble, NULL, v);
}
static void SetStaticIntField(JNIEnv* env, jclass, jfieldID fid, jint v) {
SET_PRIMITIVE_FIELD(SetInt, NULL, v);
}
static void SetStaticLongField(JNIEnv* env, jclass, jfieldID fid, jlong v) {
SET_PRIMITIVE_FIELD(SetLong, NULL, v);
}
static void SetStaticShortField(JNIEnv* env, jclass, jfieldID fid, jshort v) {
SET_PRIMITIVE_FIELD(SetShort, NULL, v);
}
static jobject CallStaticObjectMethod(JNIEnv* env,
jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
jobject local_result = AddLocalReference<jobject>(env, result.l);
va_end(ap);
return local_result;
}
static jobject CallStaticObjectMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
JValue result = InvokeWithVarArgs(ts, NULL, mid, args);
return AddLocalReference<jobject>(env, result.l);
}
static jobject CallStaticObjectMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
JValue result = InvokeWithJValues(ts, NULL, mid, args);
return AddLocalReference<jobject>(env, result.l);
}
static jboolean CallStaticBooleanMethod(JNIEnv* env,
jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
return result.z;
}
static jboolean CallStaticBooleanMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, NULL, mid, args).z;
}
static jboolean CallStaticBooleanMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, NULL, mid, args).z;
}
static jbyte CallStaticByteMethod(JNIEnv* env, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
return result.b;
}
static jbyte CallStaticByteMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, NULL, mid, args).b;
}
static jbyte CallStaticByteMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, NULL, mid, args).b;
}
static jchar CallStaticCharMethod(JNIEnv* env, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
return result.c;
}
static jchar CallStaticCharMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, NULL, mid, args).c;
}
static jchar CallStaticCharMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, NULL, mid, args).c;
}
static jshort CallStaticShortMethod(JNIEnv* env, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
return result.s;
}
static jshort CallStaticShortMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, NULL, mid, args).s;
}
static jshort CallStaticShortMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, NULL, mid, args).s;
}
static jint CallStaticIntMethod(JNIEnv* env, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
return result.i;
}
static jint CallStaticIntMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, NULL, mid, args).i;
}
static jint CallStaticIntMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, NULL, mid, args).i;
}
static jlong CallStaticLongMethod(JNIEnv* env, jclass clazz, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
return result.j;
}
static jlong CallStaticLongMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, NULL, mid, args).j;
}
static jlong CallStaticLongMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, NULL, mid, args).j;
}
static jfloat CallStaticFloatMethod(JNIEnv* env, jclass cls, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
return result.f;
}
static jfloat CallStaticFloatMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, NULL, mid, args).f;
}
static jfloat CallStaticFloatMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, NULL, mid, args).f;
}
static jdouble CallStaticDoubleMethod(JNIEnv* env, jclass cls, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
JValue result = InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
return result.d;
}
static jdouble CallStaticDoubleMethodV(JNIEnv* env,
jclass clazz, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
return InvokeWithVarArgs(ts, NULL, mid, args).d;
}
static jdouble CallStaticDoubleMethodA(JNIEnv* env,
jclass clazz, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
return InvokeWithJValues(ts, NULL, mid, args).d;
}
static void CallStaticVoidMethod(JNIEnv* env, jclass cls, jmethodID mid, ...) {
ScopedJniThreadState ts(env);
va_list ap;
va_start(ap, mid);
InvokeWithVarArgs(ts, NULL, mid, ap);
va_end(ap);
}
static void CallStaticVoidMethodV(JNIEnv* env,
jclass cls, jmethodID mid, va_list args) {
ScopedJniThreadState ts(env);
InvokeWithVarArgs(ts, NULL, mid, args);
}
static void CallStaticVoidMethodA(JNIEnv* env,
jclass cls, jmethodID mid, jvalue* args) {
ScopedJniThreadState ts(env);
InvokeWithJValues(ts, NULL, mid, args);
}
static jstring NewString(JNIEnv* env, const jchar* chars, jsize char_count) {
ScopedJniThreadState ts(env);
if (chars == NULL && char_count == 0) {
return NULL;
}
String* result = String::AllocFromUtf16(char_count, chars);
return AddLocalReference<jstring>(env, result);
}
static jstring NewStringUTF(JNIEnv* env, const char* utf) {
ScopedJniThreadState ts(env);
if (utf == NULL) {
return NULL;
}
String* result = String::AllocFromModifiedUtf8(utf);
return AddLocalReference<jstring>(env, result);
}
static jsize GetStringLength(JNIEnv* env, jstring java_string) {
ScopedJniThreadState ts(env);
return Decode<String*>(ts, java_string)->GetLength();
}
static jsize GetStringUTFLength(JNIEnv* env, jstring java_string) {
ScopedJniThreadState ts(env);
return Decode<String*>(ts, java_string)->GetUtfLength();
}
static void GetStringRegion(JNIEnv* env, jstring java_string, jsize start, jsize length, jchar* buf) {
ScopedJniThreadState ts(env);
String* s = Decode<String*>(ts, java_string);
if (start < 0 || length < 0 || start + length > s->GetLength()) {
ThrowSIOOBE(ts, start, length, s->GetLength());
} else {
const jchar* chars = s->GetCharArray()->GetData() + s->GetOffset();
memcpy(buf, chars + start, length * sizeof(jchar));
}
}
static void GetStringUTFRegion(JNIEnv* env, jstring java_string, jsize start, jsize length, char* buf) {
ScopedJniThreadState ts(env);
String* s = Decode<String*>(ts, java_string);
if (start < 0 || length < 0 || start + length > s->GetLength()) {
ThrowSIOOBE(ts, start, length, s->GetLength());
} else {
const jchar* chars = s->GetCharArray()->GetData() + s->GetOffset();
ConvertUtf16ToModifiedUtf8(buf, chars + start, length);
}
}
static const jchar* GetStringChars(JNIEnv* env, jstring java_string, jboolean* is_copy) {
ScopedJniThreadState ts(env);
String* s = Decode<String*>(ts, java_string);
const CharArray* chars = s->GetCharArray();
PinPrimitiveArray(ts, chars);
if (is_copy != NULL) {
*is_copy = JNI_FALSE;
}
return chars->GetData() + s->GetOffset();
}
static void ReleaseStringChars(JNIEnv* env, jstring java_string, const jchar* chars) {
ScopedJniThreadState ts(env);
UnpinPrimitiveArray(ts, Decode<String*>(ts, java_string)->GetCharArray());
}
static const jchar* GetStringCritical(JNIEnv* env, jstring java_string, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetStringChars(env, java_string, is_copy);
}
static void ReleaseStringCritical(JNIEnv* env, jstring java_string, const jchar* chars) {
ScopedJniThreadState ts(env);
return ReleaseStringChars(env, java_string, chars);
}
static const char* GetStringUTFChars(JNIEnv* env, jstring java_string, jboolean* is_copy) {
ScopedJniThreadState ts(env);
if (java_string == NULL) {
return NULL;
}
if (is_copy != NULL) {
*is_copy = JNI_TRUE;
}
String* s = Decode<String*>(ts, java_string);
size_t byte_count = s->GetUtfLength();
char* bytes = new char[byte_count + 1];
if (bytes == NULL) {
ts.Self()->ThrowOutOfMemoryError();
return NULL;
}
const uint16_t* chars = s->GetCharArray()->GetData() + s->GetOffset();
ConvertUtf16ToModifiedUtf8(bytes, chars, s->GetLength());
bytes[byte_count] = '\0';
return bytes;
}
static void ReleaseStringUTFChars(JNIEnv* env, jstring, const char* chars) {
ScopedJniThreadState ts(env);
delete[] chars;
}
static jsize GetArrayLength(JNIEnv* env, jarray java_array) {
ScopedJniThreadState ts(env);
Object* obj = Decode<Object*>(ts, java_array);
CHECK(obj->IsArrayInstance()); // TODO: ReportJniError
Array* array = obj->AsArray();
return array->GetLength();
}
static jobject GetObjectArrayElement(JNIEnv* env, jobjectArray java_array, jsize index) {
ScopedJniThreadState ts(env);
ObjectArray<Object>* array = Decode<ObjectArray<Object>*>(ts, java_array);
return AddLocalReference<jobject>(env, array->Get(index));
}
static void SetObjectArrayElement(JNIEnv* env,
jobjectArray java_array, jsize index, jobject java_value) {
ScopedJniThreadState ts(env);
ObjectArray<Object>* array = Decode<ObjectArray<Object>*>(ts, java_array);
Object* value = Decode<Object*>(ts, java_value);
array->Set(index, value);
}
static jbooleanArray NewBooleanArray(JNIEnv* env, jsize length) {
ScopedJniThreadState ts(env);
return NewPrimitiveArray<jbooleanArray, BooleanArray>(ts, length);
}
static jbyteArray NewByteArray(JNIEnv* env, jsize length) {
ScopedJniThreadState ts(env);
return NewPrimitiveArray<jbyteArray, ByteArray>(ts, length);
}
static jcharArray NewCharArray(JNIEnv* env, jsize length) {
ScopedJniThreadState ts(env);
return NewPrimitiveArray<jcharArray, CharArray>(ts, length);
}
static jdoubleArray NewDoubleArray(JNIEnv* env, jsize length) {
ScopedJniThreadState ts(env);
return NewPrimitiveArray<jdoubleArray, DoubleArray>(ts, length);
}
static jfloatArray NewFloatArray(JNIEnv* env, jsize length) {
ScopedJniThreadState ts(env);
return NewPrimitiveArray<jfloatArray, FloatArray>(ts, length);
}
static jintArray NewIntArray(JNIEnv* env, jsize length) {
ScopedJniThreadState ts(env);
return NewPrimitiveArray<jintArray, IntArray>(ts, length);
}
static jlongArray NewLongArray(JNIEnv* env, jsize length) {
ScopedJniThreadState ts(env);
return NewPrimitiveArray<jlongArray, LongArray>(ts, length);
}
static jobjectArray NewObjectArray(JNIEnv* env, jsize length, jclass element_jclass, jobject initial_element) {
ScopedJniThreadState ts(env);
CHECK_GE(length, 0); // TODO: ReportJniError
// Compute the array class corresponding to the given element class.
Class* element_class = Decode<Class*>(ts, element_jclass);
std::string descriptor;
descriptor += "[";
descriptor += element_class->GetDescriptor()->ToModifiedUtf8();
// Find the class.
ScopedLocalRef<jclass> java_array_class(env, FindClass(env, descriptor.c_str()));
if (java_array_class.get() == NULL) {
return NULL;
}
// Allocate and initialize if necessary.
Class* array_class = Decode<Class*>(ts, java_array_class.get());
ObjectArray<Object>* result = ObjectArray<Object>::Alloc(array_class, length);
if (initial_element != NULL) {
Object* initial_object = Decode<Object*>(ts, initial_element);
for (jsize i = 0; i < length; ++i) {
result->Set(i, initial_object);
}
}
return AddLocalReference<jobjectArray>(env, result);
}
static jshortArray NewShortArray(JNIEnv* env, jsize length) {
ScopedJniThreadState ts(env);
return NewPrimitiveArray<jshortArray, ShortArray>(ts, length);
}
static void* GetPrimitiveArrayCritical(JNIEnv* env, jarray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jarray, jbyte*, ByteArray>(ts, array, is_copy);
}
static void ReleasePrimitiveArrayCritical(JNIEnv* env, jarray array, void* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static jboolean* GetBooleanArrayElements(JNIEnv* env, jbooleanArray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jbooleanArray, jboolean*, BooleanArray>(ts, array, is_copy);
}
static jbyte* GetByteArrayElements(JNIEnv* env, jbyteArray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jbyteArray, jbyte*, ByteArray>(ts, array, is_copy);
}
static jchar* GetCharArrayElements(JNIEnv* env, jcharArray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jcharArray, jchar*, CharArray>(ts, array, is_copy);
}
static jdouble* GetDoubleArrayElements(JNIEnv* env, jdoubleArray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jdoubleArray, jdouble*, DoubleArray>(ts, array, is_copy);
}
static jfloat* GetFloatArrayElements(JNIEnv* env, jfloatArray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jfloatArray, jfloat*, FloatArray>(ts, array, is_copy);
}
static jint* GetIntArrayElements(JNIEnv* env, jintArray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jintArray, jint*, IntArray>(ts, array, is_copy);
}
static jlong* GetLongArrayElements(JNIEnv* env, jlongArray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jlongArray, jlong*, LongArray>(ts, array, is_copy);
}
static jshort* GetShortArrayElements(JNIEnv* env, jshortArray array, jboolean* is_copy) {
ScopedJniThreadState ts(env);
return GetPrimitiveArray<jshortArray, jshort*, ShortArray>(ts, array, is_copy);
}
static void ReleaseBooleanArrayElements(JNIEnv* env, jbooleanArray array, jboolean* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static void ReleaseByteArrayElements(JNIEnv* env, jbyteArray array, jbyte* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static void ReleaseCharArrayElements(JNIEnv* env, jcharArray array, jchar* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static void ReleaseDoubleArrayElements(JNIEnv* env, jdoubleArray array, jdouble* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static void ReleaseFloatArrayElements(JNIEnv* env, jfloatArray array, jfloat* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static void ReleaseIntArrayElements(JNIEnv* env, jintArray array, jint* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static void ReleaseLongArrayElements(JNIEnv* env, jlongArray array, jlong* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static void ReleaseShortArrayElements(JNIEnv* env, jshortArray array, jshort* data, jint mode) {
ScopedJniThreadState ts(env);
ReleasePrimitiveArray(ts, array, mode);
}
static void GetBooleanArrayRegion(JNIEnv* env, jbooleanArray array, jsize start, jsize length, jboolean* buf) {
ScopedJniThreadState ts(env);
GetPrimitiveArrayRegion<jbooleanArray, jboolean, BooleanArray>(ts, array, start, length, buf);
}
static void GetByteArrayRegion(JNIEnv* env, jbyteArray array, jsize start, jsize length, jbyte* buf) {
ScopedJniThreadState ts(env);
GetPrimitiveArrayRegion<jbyteArray, jbyte, ByteArray>(ts, array, start, length, buf);
}
static void GetCharArrayRegion(JNIEnv* env, jcharArray array, jsize start, jsize length, jchar* buf) {
ScopedJniThreadState ts(env);
GetPrimitiveArrayRegion<jcharArray, jchar, CharArray>(ts, array, start, length, buf);
}
static void GetDoubleArrayRegion(JNIEnv* env, jdoubleArray array, jsize start, jsize length, jdouble* buf) {
ScopedJniThreadState ts(env);
GetPrimitiveArrayRegion<jdoubleArray, jdouble, DoubleArray>(ts, array, start, length, buf);
}
static void GetFloatArrayRegion(JNIEnv* env, jfloatArray array, jsize start, jsize length, jfloat* buf) {
ScopedJniThreadState ts(env);
GetPrimitiveArrayRegion<jfloatArray, jfloat, FloatArray>(ts, array, start, length, buf);
}
static void GetIntArrayRegion(JNIEnv* env, jintArray array, jsize start, jsize length, jint* buf) {
ScopedJniThreadState ts(env);
GetPrimitiveArrayRegion<jintArray, jint, IntArray>(ts, array, start, length, buf);
}
static void GetLongArrayRegion(JNIEnv* env, jlongArray array, jsize start, jsize length, jlong* buf) {
ScopedJniThreadState ts(env);
GetPrimitiveArrayRegion<jlongArray, jlong, LongArray>(ts, array, start, length, buf);
}
static void GetShortArrayRegion(JNIEnv* env, jshortArray array, jsize start, jsize length, jshort* buf) {
ScopedJniThreadState ts(env);
GetPrimitiveArrayRegion<jshortArray, jshort, ShortArray>(ts, array, start, length, buf);
}
static void SetBooleanArrayRegion(JNIEnv* env, jbooleanArray array, jsize start, jsize length, const jboolean* buf) {
ScopedJniThreadState ts(env);
SetPrimitiveArrayRegion<jbooleanArray, jboolean, BooleanArray>(ts, array, start, length, buf);
}
static void SetByteArrayRegion(JNIEnv* env, jbyteArray array, jsize start, jsize length, const jbyte* buf) {
ScopedJniThreadState ts(env);
SetPrimitiveArrayRegion<jbyteArray, jbyte, ByteArray>(ts, array, start, length, buf);
}
static void SetCharArrayRegion(JNIEnv* env, jcharArray array, jsize start, jsize length, const jchar* buf) {
ScopedJniThreadState ts(env);
SetPrimitiveArrayRegion<jcharArray, jchar, CharArray>(ts, array, start, length, buf);
}
static void SetDoubleArrayRegion(JNIEnv* env, jdoubleArray array, jsize start, jsize length, const jdouble* buf) {
ScopedJniThreadState ts(env);
SetPrimitiveArrayRegion<jdoubleArray, jdouble, DoubleArray>(ts, array, start, length, buf);
}
static void SetFloatArrayRegion(JNIEnv* env, jfloatArray array, jsize start, jsize length, const jfloat* buf) {
ScopedJniThreadState ts(env);
SetPrimitiveArrayRegion<jfloatArray, jfloat, FloatArray>(ts, array, start, length, buf);
}
static void SetIntArrayRegion(JNIEnv* env, jintArray array, jsize start, jsize length, const jint* buf) {
ScopedJniThreadState ts(env);
SetPrimitiveArrayRegion<jintArray, jint, IntArray>(ts, array, start, length, buf);
}
static void SetLongArrayRegion(JNIEnv* env, jlongArray array, jsize start, jsize length, const jlong* buf) {
ScopedJniThreadState ts(env);
SetPrimitiveArrayRegion<jlongArray, jlong, LongArray>(ts, array, start, length, buf);
}
static void SetShortArrayRegion(JNIEnv* env, jshortArray array, jsize start, jsize length, const jshort* buf) {
ScopedJniThreadState ts(env);
SetPrimitiveArrayRegion<jshortArray, jshort, ShortArray>(ts, array, start, length, buf);
}
static jint RegisterNatives(JNIEnv* env, jclass java_class, const JNINativeMethod* methods, jint method_count) {
ScopedJniThreadState ts(env);
Class* c = Decode<Class*>(ts, java_class);
for (int i = 0; i < method_count; i++) {
const char* name = methods[i].name;
const char* sig = methods[i].signature;
if (*sig == '!') {
// TODO: fast jni. it's too noisy to log all these.
++sig;
}
Method* m = c->FindDirectMethod(name, sig);
if (m == NULL) {
m = c->FindVirtualMethod(name, sig);
}
if (m == NULL) {
Thread* self = Thread::Current();
std::string class_descriptor(c->GetDescriptor()->ToModifiedUtf8());
self->ThrowNewException("Ljava/lang/NoSuchMethodError;",
"no method \"%s.%s%s\"",
class_descriptor.c_str(), name, sig);
return JNI_ERR;
} else if (!m->IsNative()) {
Thread* self = Thread::Current();
std::string class_descriptor(c->GetDescriptor()->ToModifiedUtf8());
self->ThrowNewException("Ljava/lang/NoSuchMethodError;",
"method \"%s.%s%s\" is not native",
class_descriptor.c_str(), name, sig);
return JNI_ERR;
}
if (ts.Vm()->verbose_jni) {
LOG(INFO) << "[Registering JNI native method " << PrettyMethod(m) << "]";
}
m->RegisterNative(methods[i].fnPtr);
}
return JNI_OK;
}
static jint UnregisterNatives(JNIEnv* env, jclass java_class) {
ScopedJniThreadState ts(env);
Class* c = Decode<Class*>(ts, java_class);
if (ts.Vm()->verbose_jni) {
LOG(INFO) << "[Unregistering JNI native methods for "
<< PrettyDescriptor(c->GetDescriptor()) << "]";
}
for (size_t i = 0; i < c->NumDirectMethods(); ++i) {
Method* m = c->GetDirectMethod(i);
if (m->IsNative()) {
m->UnregisterNative();
}
}
for (size_t i = 0; i < c->NumVirtualMethods(); ++i) {
Method* m = c->GetVirtualMethod(i);
if (m->IsNative()) {
m->UnregisterNative();
}
}
return JNI_OK;
}
static jint MonitorEnter(JNIEnv* env, jobject java_object) {
ScopedJniThreadState ts(env);
Decode<Object*>(ts, java_object)->MonitorEnter();
return ts.Self()->IsExceptionPending() ? JNI_ERR : JNI_OK;
}
static jint MonitorExit(JNIEnv* env, jobject java_object) {
ScopedJniThreadState ts(env);
Decode<Object*>(ts, java_object)->MonitorExit();
return ts.Self()->IsExceptionPending() ? JNI_ERR : JNI_OK;
}
static jint GetJavaVM(JNIEnv* env, JavaVM** vm) {
ScopedJniThreadState ts(env);
Runtime* runtime = Runtime::Current();
if (runtime != NULL) {
*vm = runtime->GetJavaVM();
} else {
*vm = NULL;
}
return (*vm != NULL) ? JNI_OK : JNI_ERR;
}
static jobject NewDirectByteBuffer(JNIEnv* env, void* address, jlong capacity) {
ScopedJniThreadState ts(env);
// The address may not be NULL, and the capacity must be > 0.
CHECK(address != NULL); // TODO: ReportJniError
CHECK_GT(capacity, 0); // TODO: ReportJniError
jclass buffer_class = GetDirectByteBufferClass(env);
jmethodID mid = env->GetMethodID(buffer_class, "<init>", "(II)V");
if (mid == NULL) {
return NULL;
}
// At the moment, the Java side is limited to 32 bits.
CHECK_LE(reinterpret_cast<uintptr_t>(address), 0xffffffff);
CHECK_LE(capacity, 0xffffffff);
jint address_arg = reinterpret_cast<jint>(address);
jint capacity_arg = static_cast<jint>(capacity);
jobject result = env->NewObject(buffer_class, mid, address_arg, capacity_arg);
return ts.Self()->IsExceptionPending() ? NULL : result;
}
static void* GetDirectBufferAddress(JNIEnv* env, jobject java_buffer) {
ScopedJniThreadState ts(env);
static jfieldID fid = env->GetFieldID(GetDirectByteBufferClass(env), "effectiveDirectAddress", "I");
return reinterpret_cast<void*>(env->GetIntField(java_buffer, fid));
}
static jlong GetDirectBufferCapacity(JNIEnv* env, jobject java_buffer) {
ScopedJniThreadState ts(env);
static jfieldID fid = env->GetFieldID(GetDirectByteBufferClass(env), "capacity", "I");
return static_cast<jlong>(env->GetIntField(java_buffer, fid));
}
static jobjectRefType GetObjectRefType(JNIEnv* env, jobject java_object) {
ScopedJniThreadState ts(env);
CHECK(java_object != NULL); // TODO: ReportJniError
// Do we definitely know what kind of reference this is?
IndirectRef ref = reinterpret_cast<IndirectRef>(java_object);
IndirectRefKind kind = GetIndirectRefKind(ref);
switch (kind) {
case kLocal:
return JNILocalRefType;
case kGlobal:
return JNIGlobalRefType;
case kWeakGlobal:
return JNIWeakGlobalRefType;
case kSirtOrInvalid:
// Is it in a stack IRT?
if (ts.Self()->SirtContains(java_object)) {
return JNILocalRefType;
}
if (!ts.Env()->work_around_app_jni_bugs) {
return JNIInvalidRefType;
}
// If we're handing out direct pointers, check whether it's a direct pointer
// to a local reference.
if (Decode<Object*>(ts, java_object) == reinterpret_cast<Object*>(java_object)) {
if (ts.Env()->locals.Contains(java_object)) {
return JNILocalRefType;
}
}
return JNIInvalidRefType;
}
}
};
const JNINativeInterface gNativeInterface = {
NULL, // reserved0.
NULL, // reserved1.
NULL, // reserved2.
NULL, // reserved3.
JNI::GetVersion,
JNI::DefineClass,
JNI::FindClass,
JNI::FromReflectedMethod,
JNI::FromReflectedField,
JNI::ToReflectedMethod,
JNI::GetSuperclass,
JNI::IsAssignableFrom,
JNI::ToReflectedField,
JNI::Throw,
JNI::ThrowNew,
JNI::ExceptionOccurred,
JNI::ExceptionDescribe,
JNI::ExceptionClear,
JNI::FatalError,
JNI::PushLocalFrame,
JNI::PopLocalFrame,
JNI::NewGlobalRef,
JNI::DeleteGlobalRef,
JNI::DeleteLocalRef,
JNI::IsSameObject,
JNI::NewLocalRef,
JNI::EnsureLocalCapacity,
JNI::AllocObject,
JNI::NewObject,
JNI::NewObjectV,
JNI::NewObjectA,
JNI::GetObjectClass,
JNI::IsInstanceOf,
JNI::GetMethodID,
JNI::CallObjectMethod,
JNI::CallObjectMethodV,
JNI::CallObjectMethodA,
JNI::CallBooleanMethod,
JNI::CallBooleanMethodV,
JNI::CallBooleanMethodA,
JNI::CallByteMethod,
JNI::CallByteMethodV,
JNI::CallByteMethodA,
JNI::CallCharMethod,
JNI::CallCharMethodV,
JNI::CallCharMethodA,
JNI::CallShortMethod,
JNI::CallShortMethodV,
JNI::CallShortMethodA,
JNI::CallIntMethod,
JNI::CallIntMethodV,
JNI::CallIntMethodA,
JNI::CallLongMethod,
JNI::CallLongMethodV,
JNI::CallLongMethodA,
JNI::CallFloatMethod,
JNI::CallFloatMethodV,
JNI::CallFloatMethodA,
JNI::CallDoubleMethod,
JNI::CallDoubleMethodV,
JNI::CallDoubleMethodA,
JNI::CallVoidMethod,
JNI::CallVoidMethodV,
JNI::CallVoidMethodA,
JNI::CallNonvirtualObjectMethod,
JNI::CallNonvirtualObjectMethodV,
JNI::CallNonvirtualObjectMethodA,
JNI::CallNonvirtualBooleanMethod,
JNI::CallNonvirtualBooleanMethodV,
JNI::CallNonvirtualBooleanMethodA,
JNI::CallNonvirtualByteMethod,
JNI::CallNonvirtualByteMethodV,
JNI::CallNonvirtualByteMethodA,
JNI::CallNonvirtualCharMethod,
JNI::CallNonvirtualCharMethodV,
JNI::CallNonvirtualCharMethodA,
JNI::CallNonvirtualShortMethod,
JNI::CallNonvirtualShortMethodV,
JNI::CallNonvirtualShortMethodA,
JNI::CallNonvirtualIntMethod,
JNI::CallNonvirtualIntMethodV,
JNI::CallNonvirtualIntMethodA,
JNI::CallNonvirtualLongMethod,
JNI::CallNonvirtualLongMethodV,
JNI::CallNonvirtualLongMethodA,
JNI::CallNonvirtualFloatMethod,
JNI::CallNonvirtualFloatMethodV,
JNI::CallNonvirtualFloatMethodA,
JNI::CallNonvirtualDoubleMethod,
JNI::CallNonvirtualDoubleMethodV,
JNI::CallNonvirtualDoubleMethodA,
JNI::CallNonvirtualVoidMethod,
JNI::CallNonvirtualVoidMethodV,
JNI::CallNonvirtualVoidMethodA,
JNI::GetFieldID,
JNI::GetObjectField,
JNI::GetBooleanField,
JNI::GetByteField,
JNI::GetCharField,
JNI::GetShortField,
JNI::GetIntField,
JNI::GetLongField,
JNI::GetFloatField,
JNI::GetDoubleField,
JNI::SetObjectField,
JNI::SetBooleanField,
JNI::SetByteField,
JNI::SetCharField,
JNI::SetShortField,
JNI::SetIntField,
JNI::SetLongField,
JNI::SetFloatField,
JNI::SetDoubleField,
JNI::GetStaticMethodID,
JNI::CallStaticObjectMethod,
JNI::CallStaticObjectMethodV,
JNI::CallStaticObjectMethodA,
JNI::CallStaticBooleanMethod,
JNI::CallStaticBooleanMethodV,
JNI::CallStaticBooleanMethodA,
JNI::CallStaticByteMethod,
JNI::CallStaticByteMethodV,
JNI::CallStaticByteMethodA,
JNI::CallStaticCharMethod,
JNI::CallStaticCharMethodV,
JNI::CallStaticCharMethodA,
JNI::CallStaticShortMethod,
JNI::CallStaticShortMethodV,
JNI::CallStaticShortMethodA,
JNI::CallStaticIntMethod,
JNI::CallStaticIntMethodV,
JNI::CallStaticIntMethodA,
JNI::CallStaticLongMethod,
JNI::CallStaticLongMethodV,
JNI::CallStaticLongMethodA,
JNI::CallStaticFloatMethod,
JNI::CallStaticFloatMethodV,
JNI::CallStaticFloatMethodA,
JNI::CallStaticDoubleMethod,
JNI::CallStaticDoubleMethodV,
JNI::CallStaticDoubleMethodA,
JNI::CallStaticVoidMethod,
JNI::CallStaticVoidMethodV,
JNI::CallStaticVoidMethodA,
JNI::GetStaticFieldID,
JNI::GetStaticObjectField,
JNI::GetStaticBooleanField,
JNI::GetStaticByteField,
JNI::GetStaticCharField,
JNI::GetStaticShortField,
JNI::GetStaticIntField,
JNI::GetStaticLongField,
JNI::GetStaticFloatField,
JNI::GetStaticDoubleField,
JNI::SetStaticObjectField,
JNI::SetStaticBooleanField,
JNI::SetStaticByteField,
JNI::SetStaticCharField,
JNI::SetStaticShortField,
JNI::SetStaticIntField,
JNI::SetStaticLongField,
JNI::SetStaticFloatField,
JNI::SetStaticDoubleField,
JNI::NewString,
JNI::GetStringLength,
JNI::GetStringChars,
JNI::ReleaseStringChars,
JNI::NewStringUTF,
JNI::GetStringUTFLength,
JNI::GetStringUTFChars,
JNI::ReleaseStringUTFChars,
JNI::GetArrayLength,
JNI::NewObjectArray,
JNI::GetObjectArrayElement,
JNI::SetObjectArrayElement,
JNI::NewBooleanArray,
JNI::NewByteArray,
JNI::NewCharArray,
JNI::NewShortArray,
JNI::NewIntArray,
JNI::NewLongArray,
JNI::NewFloatArray,
JNI::NewDoubleArray,
JNI::GetBooleanArrayElements,
JNI::GetByteArrayElements,
JNI::GetCharArrayElements,
JNI::GetShortArrayElements,
JNI::GetIntArrayElements,
JNI::GetLongArrayElements,
JNI::GetFloatArrayElements,
JNI::GetDoubleArrayElements,
JNI::ReleaseBooleanArrayElements,
JNI::ReleaseByteArrayElements,
JNI::ReleaseCharArrayElements,
JNI::ReleaseShortArrayElements,
JNI::ReleaseIntArrayElements,
JNI::ReleaseLongArrayElements,
JNI::ReleaseFloatArrayElements,
JNI::ReleaseDoubleArrayElements,
JNI::GetBooleanArrayRegion,
JNI::GetByteArrayRegion,
JNI::GetCharArrayRegion,
JNI::GetShortArrayRegion,
JNI::GetIntArrayRegion,
JNI::GetLongArrayRegion,
JNI::GetFloatArrayRegion,
JNI::GetDoubleArrayRegion,
JNI::SetBooleanArrayRegion,
JNI::SetByteArrayRegion,
JNI::SetCharArrayRegion,
JNI::SetShortArrayRegion,
JNI::SetIntArrayRegion,
JNI::SetLongArrayRegion,
JNI::SetFloatArrayRegion,
JNI::SetDoubleArrayRegion,
JNI::RegisterNatives,
JNI::UnregisterNatives,
JNI::MonitorEnter,
JNI::MonitorExit,
JNI::GetJavaVM,
JNI::GetStringRegion,
JNI::GetStringUTFRegion,
JNI::GetPrimitiveArrayCritical,
JNI::ReleasePrimitiveArrayCritical,
JNI::GetStringCritical,
JNI::ReleaseStringCritical,
JNI::NewWeakGlobalRef,
JNI::DeleteWeakGlobalRef,
JNI::ExceptionCheck,
JNI::NewDirectByteBuffer,
JNI::GetDirectBufferAddress,
JNI::GetDirectBufferCapacity,
JNI::GetObjectRefType,
};
static const size_t kMonitorsInitial = 32; // Arbitrary.
static const size_t kMonitorsMax = 4096; // Arbitrary sanity check.
static const size_t kLocalsInitial = 64; // Arbitrary.
static const size_t kLocalsMax = 512; // Arbitrary sanity check.
JNIEnvExt::JNIEnvExt(Thread* self, JavaVMExt* vm)
: self(self),
vm(vm),
check_jni(vm->check_jni),
work_around_app_jni_bugs(vm->work_around_app_jni_bugs),
critical(false),
monitors("monitors", kMonitorsInitial, kMonitorsMax),
locals(kLocalsInitial, kLocalsMax, kLocal) {
functions = unchecked_functions = &gNativeInterface;
if (check_jni) {
functions = GetCheckJniNativeInterface();
}
}
JNIEnvExt::~JNIEnvExt() {
}
// JNI Invocation interface.
extern "C" jint JNI_CreateJavaVM(JavaVM** p_vm, void** p_env, void* vm_args) {
const JavaVMInitArgs* args = static_cast<JavaVMInitArgs*>(vm_args);
if (args->version < JNI_VERSION_1_2) {
return JNI_EVERSION;
}
Runtime::Options options;
for (int i = 0; i < args->nOptions; ++i) {
JavaVMOption* option = &args->options[i];
options.push_back(std::make_pair(StringPiece(option->optionString),
option->extraInfo));
}
bool ignore_unrecognized = args->ignoreUnrecognized;
Runtime* runtime = Runtime::Create(options, ignore_unrecognized);
if (runtime == NULL) {
return JNI_ERR;
}
runtime->Start();
*p_env = Thread::Current()->GetJniEnv();
*p_vm = runtime->GetJavaVM();
return JNI_OK;
}
extern "C" jint JNI_GetCreatedJavaVMs(JavaVM** vms, jsize, jsize* vm_count) {
Runtime* runtime = Runtime::Current();
if (runtime == NULL) {
*vm_count = 0;
} else {
*vm_count = 1;
vms[0] = runtime->GetJavaVM();
}
return JNI_OK;
}
// Historically unsupported.
extern "C" jint JNI_GetDefaultJavaVMInitArgs(void* vm_args) {
return JNI_ERR;
}
class JII {
public:
static jint DestroyJavaVM(JavaVM* vm) {
if (vm == NULL) {
return JNI_ERR;
} else {
JavaVMExt* raw_vm = reinterpret_cast<JavaVMExt*>(vm);
delete raw_vm->runtime;
return JNI_OK;
}
}
static jint AttachCurrentThread(JavaVM* vm, JNIEnv** p_env, void* thr_args) {
return JII_AttachCurrentThread(vm, p_env, thr_args, false);
}
static jint AttachCurrentThreadAsDaemon(JavaVM* vm, JNIEnv** p_env, void* thr_args) {
return JII_AttachCurrentThread(vm, p_env, thr_args, true);
}
static jint DetachCurrentThread(JavaVM* vm) {
if (vm == NULL) {
return JNI_ERR;
} else {
JavaVMExt* raw_vm = reinterpret_cast<JavaVMExt*>(vm);
Runtime* runtime = raw_vm->runtime;
runtime->DetachCurrentThread();
return JNI_OK;
}
}
static jint GetEnv(JavaVM* vm, void** env, jint version) {
if (version < JNI_VERSION_1_1 || version > JNI_VERSION_1_6) {
return JNI_EVERSION;
}
if (vm == NULL || env == NULL) {
return JNI_ERR;
}
Thread* thread = Thread::Current();
if (thread == NULL) {
*env = NULL;
return JNI_EDETACHED;
}
*env = thread->GetJniEnv();
return JNI_OK;
}
};
const JNIInvokeInterface gInvokeInterface = {
NULL, // reserved0
NULL, // reserved1
NULL, // reserved2
JII::DestroyJavaVM,
JII::AttachCurrentThread,
JII::DetachCurrentThread,
JII::GetEnv,
JII::AttachCurrentThreadAsDaemon
};
static const size_t kPinTableInitialSize = 16;
static const size_t kPinTableMaxSize = 1024;
static const size_t kGlobalsInitial = 512; // Arbitrary.
static const size_t kGlobalsMax = 51200; // Arbitrary sanity check.
static const size_t kWeakGlobalsInitial = 16; // Arbitrary.
static const size_t kWeakGlobalsMax = 51200; // Arbitrary sanity check.
JavaVMExt::JavaVMExt(Runtime* runtime, Runtime::ParsedOptions* options)
: runtime(runtime),
check_jni_abort_hook(NULL),
check_jni(options->check_jni_),
force_copy(false), // TODO: add a way to enable this
verbose_jni(options->IsVerbose("jni")),
log_third_party_jni(options->IsVerbose("third-party-jni")),
trace(options->jni_trace_),
work_around_app_jni_bugs(false), // TODO: add a way to enable this
pins_lock(Mutex::Create("JNI pin table lock")),
pin_table("pin table", kPinTableInitialSize, kPinTableMaxSize),
globals_lock(Mutex::Create("JNI global reference table lock")),
globals(kGlobalsInitial, kGlobalsMax, kGlobal),
weak_globals_lock(Mutex::Create("JNI weak global reference table lock")),
weak_globals(kWeakGlobalsInitial, kWeakGlobalsMax, kWeakGlobal),
libraries_lock(Mutex::Create("JNI shared libraries map lock")),
libraries(new Libraries) {
functions = unchecked_functions = &gInvokeInterface;
if (check_jni) {
functions = GetCheckJniInvokeInterface();
}
}
JavaVMExt::~JavaVMExt() {
delete pins_lock;
delete globals_lock;
delete weak_globals_lock;
delete libraries_lock;
delete libraries;
}
bool JavaVMExt::LoadNativeLibrary(const std::string& path, ClassLoader* class_loader, std::string& detail) {
detail.clear();
// See if we've already loaded this library. If we have, and the class loader
// matches, return successfully without doing anything.
// TODO: for better results we should canonicalize the pathname (or even compare
// inodes). This implementation is fine if everybody is using System.loadLibrary.
SharedLibrary* library;
{
// TODO: move the locking (and more of this logic) into Libraries.
MutexLock mu(libraries_lock);
library = libraries->Get(path);
}
if (library != NULL) {
if (library->GetClassLoader() != class_loader) {
// The library will be associated with class_loader. The JNI
// spec says we can't load the same library into more than one
// class loader.
StringAppendF(&detail, "Shared library \"%s\" already opened by "
"ClassLoader %p; can't open in ClassLoader %p",
path.c_str(), library->GetClassLoader(), class_loader);
LOG(WARNING) << detail;
return false;
}
if (verbose_jni) {
LOG(INFO) << "[Shared library \"" << path << "\" already loaded in "
<< "ClassLoader " << class_loader << "]";
}
if (!library->CheckOnLoadResult(this)) {
StringAppendF(&detail, "JNI_OnLoad failed on a previous attempt "
"to load \"%s\"", path.c_str());
return false;
}
return true;
}
// Open the shared library. Because we're using a full path, the system
// doesn't have to search through LD_LIBRARY_PATH. (It may do so to
// resolve this library's dependencies though.)
// Failures here are expected when java.library.path has several entries
// and we have to hunt for the lib.
// The current version of the dynamic linker prints detailed information
// about dlopen() failures. Some things to check if the message is
// cryptic:
// - make sure the library exists on the device
// - verify that the right path is being opened (the debug log message
// above can help with that)
// - check to see if the library is valid (e.g. not zero bytes long)
// - check config/prelink-linux-arm.map to ensure that the library
// is listed and is not being overrun by the previous entry (if
// loading suddenly stops working on a prelinked library, this is
// a good one to check)
// - write a trivial app that calls sleep() then dlopen(), attach
// to it with "strace -p <pid>" while it sleeps, and watch for
// attempts to open nonexistent dependent shared libs
// TODO: automate some of these checks!
// This can execute slowly for a large library on a busy system, so we
// want to switch from RUNNING to VMWAIT while it executes. This allows
// the GC to ignore us.
Thread* self = Thread::Current();
void* handle = NULL;
{
ScopedThreadStateChange tsc(self, Thread::kWaiting); // TODO: VMWAIT
handle = dlopen(path.c_str(), RTLD_LAZY);
}
if (verbose_jni) {
LOG(INFO) << "[Call to dlopen(\"" << path << "\") returned " << handle << "]";
}
if (handle == NULL) {
detail = dlerror();
return false;
}
// Create a new entry.
{
// TODO: move the locking (and more of this logic) into Libraries.
MutexLock mu(libraries_lock);
library = libraries->Get(path);
if (library != NULL) {
LOG(INFO) << "WOW: we lost a race to add shared library: "
<< "\"" << path << "\" ClassLoader=" << class_loader;
return library->CheckOnLoadResult(this);
}
library = new SharedLibrary(path, handle, class_loader);
libraries->Put(path, library);
}
if (verbose_jni) {
LOG(INFO) << "[Added shared library \"" << path << "\" for ClassLoader " << class_loader << "]";
}
bool result = true;
void* sym = dlsym(handle, "JNI_OnLoad");
if (sym == NULL) {
if (verbose_jni) {
LOG(INFO) << "[No JNI_OnLoad found in \"" << path << "\"]";
}
} else {
// Call JNI_OnLoad. We have to override the current class
// loader, which will always be "null" since the stuff at the
// top of the stack is around Runtime.loadLibrary(). (See
// the comments in the JNI FindClass function.)
typedef int (*JNI_OnLoadFn)(JavaVM*, void*);
JNI_OnLoadFn jni_on_load = reinterpret_cast<JNI_OnLoadFn>(sym);
const ClassLoader* old_class_loader = self->GetClassLoaderOverride();
self->SetClassLoaderOverride(class_loader);
int version = 0;
{
ScopedThreadStateChange tsc(self, Thread::kNative);
if (verbose_jni) {
LOG(INFO) << "[Calling JNI_OnLoad in \"" << path << "\"]";
}
version = (*jni_on_load)(this, NULL);
}
self->SetClassLoaderOverride(old_class_loader);;
if (version != JNI_VERSION_1_2 &&
version != JNI_VERSION_1_4 &&
version != JNI_VERSION_1_6) {
LOG(WARNING) << "JNI_OnLoad in \"" << path << "\" returned "
<< "bad version: " << version;
// It's unwise to call dlclose() here, but we can mark it
// as bad and ensure that future load attempts will fail.
// We don't know how far JNI_OnLoad got, so there could
// be some partially-initialized stuff accessible through
// newly-registered native method calls. We could try to
// unregister them, but that doesn't seem worthwhile.
result = false;
} else {
if (verbose_jni) {
LOG(INFO) << "[Returned " << (result ? "successfully" : "failure")
<< " from JNI_OnLoad in \"" << path << "\"]";
}
}
}
library->SetResult(result);
return result;
}
void* JavaVMExt::FindCodeForNativeMethod(Method* m) {
CHECK(m->IsNative());
Class* c = m->GetDeclaringClass();
// If this is a static method, it could be called before the class
// has been initialized.
if (m->IsStatic()) {
if (!Runtime::Current()->GetClassLinker()->EnsureInitialized(c)) {
return NULL;
}
} else {
CHECK_GE(c->GetStatus(), Class::kStatusInitializing);
}
MutexLock mu(libraries_lock);
return libraries->FindNativeMethod(m);
}
void JavaVMExt::VisitRoots(Heap::RootVisitor* visitor, void* arg) {
{
MutexLock mu(globals_lock);
globals.VisitRoots(visitor, arg);
}
{
MutexLock mu(pins_lock);
pin_table.VisitRoots(visitor, arg);
}
// The weak_globals table is visited by the GC itself (because it mutates the table).
}
} // namespace art
std::ostream& operator<<(std::ostream& os, const jobjectRefType& rhs) {
switch (rhs) {
case JNIInvalidRefType:
os << "JNIInvalidRefType";
return os;
case JNILocalRefType:
os << "JNILocalRefType";
return os;
case JNIGlobalRefType:
os << "JNIGlobalRefType";
return os;
case JNIWeakGlobalRefType:
os << "JNIWeakGlobalRefType";
return os;
}
}