sdk/android/src/jni/jni_helpers.cc - src/webrtc - Git at Google

 /*
  *  Copyright 2015 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */
 #include "webrtc/sdk/android/src/jni/jni_helpers.h"

 #include <asm/unistd.h>
 #include <sys/prctl.h>
 #include <sys/syscall.h>
 #include <unistd.h>
 #include <vector>

 #include "webrtc/sdk/android/src/jni/classreferenceholder.h"

 namespace webrtc {
 namespace jni {

 static JavaVM* g_jvm = nullptr;

 static pthread_once_t g_jni_ptr_once = PTHREAD_ONCE_INIT;

 // Key for per-thread JNIEnv* data.  Non-NULL in threads attached to |g_jvm| by
 // AttachCurrentThreadIfNeeded(), NULL in unattached threads and threads that
 // were attached by the JVM because of a Java->native call.
 static pthread_key_t g_jni_ptr;

 JavaVM *GetJVM() {
   RTC_CHECK(g_jvm) << "JNI_OnLoad failed to run?";
   return g_jvm;
 }

 // Return a |JNIEnv*| usable on this thread or NULL if this thread is detached.
 JNIEnv* GetEnv() {
   void* env = nullptr;
   jint status = g_jvm->GetEnv(&env, JNI_VERSION_1_6);
   RTC_CHECK(((env != nullptr) && (status == JNI_OK)) ||
             ((env == nullptr) && (status == JNI_EDETACHED)))
       << "Unexpected GetEnv return: " << status << ":" << env;
   return reinterpret_cast<JNIEnv*>(env);
 }

 static void ThreadDestructor(void* prev_jni_ptr) {
   // This function only runs on threads where |g_jni_ptr| is non-NULL, meaning
   // we were responsible for originally attaching the thread, so are responsible
   // for detaching it now.  However, because some JVM implementations (notably
   // Oracle's http://goo.gl/eHApYT) also use the pthread_key_create mechanism,
   // the JVMs accounting info for this thread may already be wiped out by the
   // time this is called. Thus it may appear we are already detached even though
   // it was our responsibility to detach!  Oh well.
   if (!GetEnv())
     return;

   RTC_CHECK(GetEnv() == prev_jni_ptr)
       << "Detaching from another thread: " << prev_jni_ptr << ":" << GetEnv();
   jint status = g_jvm->DetachCurrentThread();
   RTC_CHECK(status == JNI_OK) << "Failed to detach thread: " << status;
   RTC_CHECK(!GetEnv()) << "Detaching was a successful no-op???";
 }

 static void CreateJNIPtrKey() {
   RTC_CHECK(!pthread_key_create(&g_jni_ptr, &ThreadDestructor))
       << "pthread_key_create";
 }

 jint InitGlobalJniVariables(JavaVM *jvm) {
   RTC_CHECK(!g_jvm) << "InitGlobalJniVariables!";
   g_jvm = jvm;
   RTC_CHECK(g_jvm) << "InitGlobalJniVariables handed NULL?";

   RTC_CHECK(!pthread_once(&g_jni_ptr_once, &CreateJNIPtrKey)) << "pthread_once";

   JNIEnv* jni = nullptr;
   if (jvm->GetEnv(reinterpret_cast<void**>(&jni), JNI_VERSION_1_6) != JNI_OK)
     return -1;

   return JNI_VERSION_1_6;
 }

 // Return thread ID as a string.
 static std::string GetThreadId() {
   char buf[21];  // Big enough to hold a kuint64max plus terminating NULL.
   RTC_CHECK_LT(snprintf(buf, sizeof(buf), "%ld",
                         static_cast<long>(syscall(__NR_gettid))),
                sizeof(buf))
       << "Thread id is bigger than uint64??";
   return std::string(buf);
 }

 // Return the current thread's name.
 static std::string GetThreadName() {
   char name[17] = {0};
   if (prctl(PR_GET_NAME, name) != 0)
     return std::string("<noname>");
   return std::string(name);
 }

 // Return a |JNIEnv*| usable on this thread.  Attaches to |g_jvm| if necessary.
 JNIEnv* AttachCurrentThreadIfNeeded() {
   JNIEnv* jni = GetEnv();
   if (jni)
     return jni;
   RTC_CHECK(!pthread_getspecific(g_jni_ptr))
       << "TLS has a JNIEnv* but not attached?";

   std::string name(GetThreadName() + " - " + GetThreadId());
   JavaVMAttachArgs args;
   args.version = JNI_VERSION_1_6;
   args.name = &name[0];
   args.group = nullptr;
   // Deal with difference in signatures between Oracle's jni.h and Android's.
 #ifdef _JAVASOFT_JNI_H_  // Oracle's jni.h violates the JNI spec!
   void* env = nullptr;
 #else
   JNIEnv* env = nullptr;
 #endif
   RTC_CHECK(!g_jvm->AttachCurrentThread(&env, &args))
       << "Failed to attach thread";
   RTC_CHECK(env) << "AttachCurrentThread handed back NULL!";
   jni = reinterpret_cast<JNIEnv*>(env);
   RTC_CHECK(!pthread_setspecific(g_jni_ptr, jni)) << "pthread_setspecific";
   return jni;
 }

 // Return a |jlong| that will correctly convert back to |ptr|.  This is needed
 // because the alternative (of silently passing a 32-bit pointer to a vararg
 // function expecting a 64-bit param) picks up garbage in the high 32 bits.
 jlong jlongFromPointer(void* ptr) {
   static_assert(sizeof(intptr_t) <= sizeof(jlong),
                 "Time to rethink the use of jlongs");
   // Going through intptr_t to be obvious about the definedness of the
   // conversion from pointer to integral type.  intptr_t to jlong is a standard
   // widening by the static_assert above.
   jlong ret = reinterpret_cast<intptr_t>(ptr);
   RTC_DCHECK(reinterpret_cast<void*>(ret) == ptr);
   return ret;
 }

 // JNIEnv-helper methods that RTC_CHECK success: no Java exception thrown and
 // found object/class/method/field is non-null.
 jmethodID GetMethodID(
     JNIEnv* jni, jclass c, const std::string& name, const char* signature) {
   jmethodID m = jni->GetMethodID(c, name.c_str(), signature);
   CHECK_EXCEPTION(jni) << "error during GetMethodID: " << name << ", "
                        << signature;
   RTC_CHECK(m) << name << ", " << signature;
   return m;
 }

 jmethodID GetStaticMethodID(
     JNIEnv* jni, jclass c, const char* name, const char* signature) {
   jmethodID m = jni->GetStaticMethodID(c, name, signature);
   CHECK_EXCEPTION(jni) << "error during GetStaticMethodID: " << name << ", "
                        << signature;
   RTC_CHECK(m) << name << ", " << signature;
   return m;
 }

 jfieldID GetFieldID(
     JNIEnv* jni, jclass c, const char* name, const char* signature) {
   jfieldID f = jni->GetFieldID(c, name, signature);
   CHECK_EXCEPTION(jni) << "error during GetFieldID";
   RTC_CHECK(f) << name << ", " << signature;
   return f;
 }

 jfieldID GetStaticFieldID(JNIEnv* jni,
                           jclass c,
                           const char* name,
                           const char* signature) {
   jfieldID f = jni->GetStaticFieldID(c, name, signature);
   CHECK_EXCEPTION(jni) << "error during GetStaticFieldID";
   RTC_CHECK(f) << name << ", " << signature;
   return f;
 }

 jclass GetObjectClass(JNIEnv* jni, jobject object) {
   jclass c = jni->GetObjectClass(object);
   CHECK_EXCEPTION(jni) << "error during GetObjectClass";
   RTC_CHECK(c) << "GetObjectClass returned NULL";
   return c;
 }

 jobject GetObjectField(JNIEnv* jni, jobject object, jfieldID id) {
   jobject o = jni->GetObjectField(object, id);
   CHECK_EXCEPTION(jni) << "error during GetObjectField";
   RTC_CHECK(!IsNull(jni, o)) << "GetObjectField returned NULL";
   return o;
 }

 jobject GetStaticObjectField(JNIEnv* jni, jclass c, jfieldID id) {
   jobject o = jni->GetStaticObjectField(c, id);
   CHECK_EXCEPTION(jni) << "error during GetStaticObjectField";
   RTC_CHECK(!IsNull(jni, o)) << "GetStaticObjectField returned NULL";
   return o;
 }

 jobject GetNullableObjectField(JNIEnv* jni, jobject object, jfieldID id) {
   jobject o = jni->GetObjectField(object, id);
   CHECK_EXCEPTION(jni) << "error during GetObjectField";
   return o;
 }

 jstring GetStringField(JNIEnv* jni, jobject object, jfieldID id) {
   return static_cast<jstring>(GetObjectField(jni, object, id));
 }

 jlong GetLongField(JNIEnv* jni, jobject object, jfieldID id) {
   jlong l = jni->GetLongField(object, id);
   CHECK_EXCEPTION(jni) << "error during GetLongField";
   return l;
 }

 jint GetIntField(JNIEnv* jni, jobject object, jfieldID id) {
   jint i = jni->GetIntField(object, id);
   CHECK_EXCEPTION(jni) << "error during GetIntField";
   return i;
 }

 bool GetBooleanField(JNIEnv* jni, jobject object, jfieldID id) {
   jboolean b = jni->GetBooleanField(object, id);
   CHECK_EXCEPTION(jni) << "error during GetBooleanField";
   return b;
 }

 bool IsNull(JNIEnv* jni, jobject obj) {
   return jni->IsSameObject(obj, nullptr);
 }

 // Given a UTF-8 encoded |native| string return a new (UTF-16) jstring.
 jstring JavaStringFromStdString(JNIEnv* jni, const std::string& native) {
   jstring jstr = jni->NewStringUTF(native.c_str());
   CHECK_EXCEPTION(jni) << "error during NewStringUTF";
   return jstr;
 }

 // Given a jstring, reinterprets it to a new native string.
 std::string JavaToStdString(JNIEnv* jni, const jstring& j_string) {
   // Invoke String.getBytes(String charsetName) method to convert |j_string|
   // to a byte array.
   const jclass string_class = GetObjectClass(jni, j_string);
   const jmethodID get_bytes =
       GetMethodID(jni, string_class, "getBytes", "(Ljava/lang/String;)[B");
   const jstring charset_name = jni->NewStringUTF("ISO-8859-1");
   CHECK_EXCEPTION(jni) << "error during NewStringUTF";
   const jbyteArray j_byte_array =
       (jbyteArray)jni->CallObjectMethod(j_string, get_bytes, charset_name);
   CHECK_EXCEPTION(jni) << "error during CallObjectMethod";

   const size_t len = jni->GetArrayLength(j_byte_array);
   CHECK_EXCEPTION(jni) << "error during GetArrayLength";
   std::vector<char> buf(len);
   jni->GetByteArrayRegion(j_byte_array, 0, len,
                           reinterpret_cast<jbyte*>(&buf[0]));
   CHECK_EXCEPTION(jni) << "error during GetByteArrayRegion";

   return std::string(buf.begin(), buf.end());
 }

 // Given a list of jstrings, reinterprets it to a new vector of native strings.
 std::vector<std::string> JavaToStdVectorStrings(JNIEnv* jni, jobject list) {
   std::vector<std::string> converted_list;
   if (list != nullptr) {
     for (jobject str : Iterable(jni, list)) {
       converted_list.push_back(
           JavaToStdString(jni, reinterpret_cast<jstring>(str)));
     }
   }
   return converted_list;
 }

 // Return the (singleton) Java Enum object corresponding to |index|;
 jobject JavaEnumFromIndex(JNIEnv* jni, jclass state_class,
                           const std::string& state_class_name, int index) {
   jmethodID state_values_id = GetStaticMethodID(
       jni, state_class, "values", ("()[L" + state_class_name  + ";").c_str());
   jobjectArray state_values = static_cast<jobjectArray>(
       jni->CallStaticObjectMethod(state_class, state_values_id));
   CHECK_EXCEPTION(jni) << "error during CallStaticObjectMethod";
   jobject ret = jni->GetObjectArrayElement(state_values, index);
   CHECK_EXCEPTION(jni) << "error during GetObjectArrayElement";
   return ret;
 }

 jobject JavaEnumFromIndexAndClassName(JNIEnv* jni,
                                       const std::string& state_class_fragment,
                                       int index) {
   const std::string state_class = "org/webrtc/" + state_class_fragment;
   return JavaEnumFromIndex(jni, FindClass(jni, state_class.c_str()),
                            state_class, index);
 }

 std::string GetJavaEnumName(JNIEnv* jni,
                             const std::string& className,
                             jobject j_enum) {
   jclass enumClass = FindClass(jni, className.c_str());
   jmethodID nameMethod =
       GetMethodID(jni, enumClass, "name", "()Ljava/lang/String;");
   jstring name =
       reinterpret_cast<jstring>(jni->CallObjectMethod(j_enum, nameMethod));
   CHECK_EXCEPTION(jni) << "error during CallObjectMethod for " << className
                        << ".name";
   return JavaToStdString(jni, name);
 }

 std::map<std::string, std::string> JavaToStdMapStrings(JNIEnv* jni,
                                                        jobject j_map) {
   jclass map_class = jni->FindClass("java/util/Map");
   jclass set_class = jni->FindClass("java/util/Set");
   jclass iterator_class = jni->FindClass("java/util/Iterator");
   jclass entry_class = jni->FindClass("java/util/Map$Entry");
   jmethodID entry_set_method =
       jni->GetMethodID(map_class, "entrySet", "()Ljava/util/Set;");
   jmethodID iterator_method =
       jni->GetMethodID(set_class, "iterator", "()Ljava/util/Iterator;");
   jmethodID has_next_method =
       jni->GetMethodID(iterator_class, "hasNext", "()Z");
   jmethodID next_method =
       jni->GetMethodID(iterator_class, "next", "()Ljava/lang/Object;");
   jmethodID get_key_method =
       jni->GetMethodID(entry_class, "getKey", "()Ljava/lang/Object;");
   jmethodID get_value_method =
       jni->GetMethodID(entry_class, "getValue", "()Ljava/lang/Object;");

   jobject j_entry_set = jni->CallObjectMethod(j_map, entry_set_method);
   jobject j_iterator = jni->CallObjectMethod(j_entry_set, iterator_method);

   std::map<std::string, std::string> result;
   while (jni->CallBooleanMethod(j_iterator, has_next_method)) {
     jobject j_entry = jni->CallObjectMethod(j_iterator, next_method);
     jstring j_key =
         static_cast<jstring>(jni->CallObjectMethod(j_entry, get_key_method));
     jstring j_value =
         static_cast<jstring>(jni->CallObjectMethod(j_entry, get_value_method));
     result[JavaToStdString(jni, j_key)] = JavaToStdString(jni, j_value);
   }

   return result;
 }

 jobject NewGlobalRef(JNIEnv* jni, jobject o) {
   jobject ret = jni->NewGlobalRef(o);
   CHECK_EXCEPTION(jni) << "error during NewGlobalRef";
   RTC_CHECK(ret);
   return ret;
 }

 void DeleteGlobalRef(JNIEnv* jni, jobject o) {
   jni->DeleteGlobalRef(o);
   CHECK_EXCEPTION(jni) << "error during DeleteGlobalRef";
 }

 // Scope Java local references to the lifetime of this object.  Use in all C++
 // callbacks (i.e. entry points that don't originate in a Java callstack
 // through a "native" method call).
 ScopedLocalRefFrame::ScopedLocalRefFrame(JNIEnv* jni) : jni_(jni) {
   RTC_CHECK(!jni_->PushLocalFrame(0)) << "Failed to PushLocalFrame";
 }
 ScopedLocalRefFrame::~ScopedLocalRefFrame() {
   jni_->PopLocalFrame(nullptr);
 }

 // Creates an iterator representing the end of any collection.
 Iterable::Iterator::Iterator() : iterator_(nullptr) {}

 // Creates an iterator pointing to the beginning of the specified collection.
 Iterable::Iterator::Iterator(JNIEnv* jni, jobject iterable) : jni_(jni) {
   jclass j_class = GetObjectClass(jni, iterable);
   jmethodID iterator_id =
       GetMethodID(jni, j_class, "iterator", "()Ljava/util/Iterator;");
   iterator_ = jni->CallObjectMethod(iterable, iterator_id);
   CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
   RTC_CHECK(iterator_ != nullptr);

   jclass iterator_class = GetObjectClass(jni, iterator_);
   has_next_id_ = GetMethodID(jni, iterator_class, "hasNext", "()Z");
   next_id_ = GetMethodID(jni, iterator_class, "next", "()Ljava/lang/Object;");

   // Start at the first element in the collection.
   ++(*this);
 }

 // Move constructor - necessary to be able to return iterator types from
 // functions.
 Iterable::Iterator::Iterator(Iterator&& other)
     : jni_(std::move(other.jni_)),
       iterator_(std::move(other.iterator_)),
       value_(std::move(other.value_)),
       has_next_id_(std::move(other.has_next_id_)),
       next_id_(std::move(other.next_id_)),
       thread_checker_(std::move(other.thread_checker_)){};

 // Advances the iterator one step.
 Iterable::Iterator& Iterable::Iterator::operator++() {
   RTC_CHECK(thread_checker_.CalledOnValidThread());
   if (AtEnd()) {
     // Can't move past the end.
     return *this;
   }
   bool has_next = jni_->CallBooleanMethod(iterator_, has_next_id_);
   CHECK_EXCEPTION(jni_) << "error during CallBooleanMethod";
   if (!has_next) {
     iterator_ = nullptr;
     value_ = nullptr;
     return *this;
   }

   value_ = jni_->CallObjectMethod(iterator_, next_id_);
   CHECK_EXCEPTION(jni_) << "error during CallObjectMethod";
   return *this;
 }

 // Provides a way to compare the iterator with itself and with the end iterator.
 // Note: all other comparison results are undefined, just like for C++ input
 // iterators.
 bool Iterable::Iterator::operator==(const Iterable::Iterator& other) {
   // Two different active iterators should never be compared.
   RTC_DCHECK(this == &other || AtEnd() || other.AtEnd());
   return AtEnd() == other.AtEnd();
 }

 jobject Iterable::Iterator::operator*() {
   RTC_CHECK(!AtEnd());
   return value_;
 }

 bool Iterable::Iterator::AtEnd() const {
   RTC_CHECK(thread_checker_.CalledOnValidThread());
   return jni_ == nullptr || IsNull(jni_, iterator_);
 }

 }  // namespace jni
 }  // namespace webrtc
	/*
	* Copyright 2015 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/
	#include "webrtc/sdk/android/src/jni/jni_helpers.h"

	#include <asm/unistd.h>
	#include <sys/prctl.h>
	#include <sys/syscall.h>
	#include <unistd.h>
	#include <vector>

	#include "webrtc/sdk/android/src/jni/classreferenceholder.h"

	namespace webrtc {
	namespace jni {

	static JavaVM* g_jvm = nullptr;

	static pthread_once_t g_jni_ptr_once = PTHREAD_ONCE_INIT;

	// Key for per-thread JNIEnv* data. Non-NULL in threads attached to \|g_jvm\| by
	// AttachCurrentThreadIfNeeded(), NULL in unattached threads and threads that
	// were attached by the JVM because of a Java->native call.
	static pthread_key_t g_jni_ptr;

	JavaVM *GetJVM() {
	RTC_CHECK(g_jvm) << "JNI_OnLoad failed to run?";
	return g_jvm;
	}

	// Return a \|JNIEnv*\| usable on this thread or NULL if this thread is detached.
	JNIEnv* GetEnv() {
	void* env = nullptr;
	jint status = g_jvm->GetEnv(&env, JNI_VERSION_1_6);
	RTC_CHECK(((env != nullptr) && (status == JNI_OK)) \|\|
	((env == nullptr) && (status == JNI_EDETACHED)))
	<< "Unexpected GetEnv return: " << status << ":" << env;
	return reinterpret_cast<JNIEnv*>(env);
	}

	static void ThreadDestructor(void* prev_jni_ptr) {
	// This function only runs on threads where \|g_jni_ptr\| is non-NULL, meaning
	// we were responsible for originally attaching the thread, so are responsible
	// for detaching it now. However, because some JVM implementations (notably
	// Oracle's http://goo.gl/eHApYT) also use the pthread_key_create mechanism,
	// the JVMs accounting info for this thread may already be wiped out by the
	// time this is called. Thus it may appear we are already detached even though
	// it was our responsibility to detach! Oh well.
	if (!GetEnv())
	return;

	RTC_CHECK(GetEnv() == prev_jni_ptr)
	<< "Detaching from another thread: " << prev_jni_ptr << ":" << GetEnv();
	jint status = g_jvm->DetachCurrentThread();
	RTC_CHECK(status == JNI_OK) << "Failed to detach thread: " << status;
	RTC_CHECK(!GetEnv()) << "Detaching was a successful no-op???";
	}

	static void CreateJNIPtrKey() {
	RTC_CHECK(!pthread_key_create(&g_jni_ptr, &ThreadDestructor))
	<< "pthread_key_create";
	}

	jint InitGlobalJniVariables(JavaVM *jvm) {
	RTC_CHECK(!g_jvm) << "InitGlobalJniVariables!";
	g_jvm = jvm;
	RTC_CHECK(g_jvm) << "InitGlobalJniVariables handed NULL?";

	RTC_CHECK(!pthread_once(&g_jni_ptr_once, &CreateJNIPtrKey)) << "pthread_once";

	JNIEnv* jni = nullptr;
	if (jvm->GetEnv(reinterpret_cast<void**>(&jni), JNI_VERSION_1_6) != JNI_OK)
	return -1;

	return JNI_VERSION_1_6;
	}

	// Return thread ID as a string.
	static std::string GetThreadId() {
	char buf[21]; // Big enough to hold a kuint64max plus terminating NULL.
	RTC_CHECK_LT(snprintf(buf, sizeof(buf), "%ld",
	static_cast<long>(syscall(__NR_gettid))),
	sizeof(buf))
	<< "Thread id is bigger than uint64??";
	return std::string(buf);
	}

	// Return the current thread's name.
	static std::string GetThreadName() {
	char name[17] = {0};
	if (prctl(PR_GET_NAME, name) != 0)
	return std::string("<noname>");
	return std::string(name);
	}

	// Return a \|JNIEnv*\| usable on this thread. Attaches to \|g_jvm\| if necessary.
	JNIEnv* AttachCurrentThreadIfNeeded() {
	JNIEnv* jni = GetEnv();
	if (jni)
	return jni;
	RTC_CHECK(!pthread_getspecific(g_jni_ptr))
	<< "TLS has a JNIEnv* but not attached?";

	std::string name(GetThreadName() + " - " + GetThreadId());
	JavaVMAttachArgs args;
	args.version = JNI_VERSION_1_6;
	args.name = &name[0];
	args.group = nullptr;
	// Deal with difference in signatures between Oracle's jni.h and Android's.
	#ifdef _JAVASOFT_JNI_H_ // Oracle's jni.h violates the JNI spec!
	void* env = nullptr;
	#else
	JNIEnv* env = nullptr;
	#endif
	RTC_CHECK(!g_jvm->AttachCurrentThread(&env, &args))
	<< "Failed to attach thread";
	RTC_CHECK(env) << "AttachCurrentThread handed back NULL!";
	jni = reinterpret_cast<JNIEnv*>(env);
	RTC_CHECK(!pthread_setspecific(g_jni_ptr, jni)) << "pthread_setspecific";
	return jni;
	}

	// Return a \|jlong\| that will correctly convert back to \|ptr\|. This is needed
	// because the alternative (of silently passing a 32-bit pointer to a vararg
	// function expecting a 64-bit param) picks up garbage in the high 32 bits.
	jlong jlongFromPointer(void* ptr) {
	static_assert(sizeof(intptr_t) <= sizeof(jlong),
	"Time to rethink the use of jlongs");
	// Going through intptr_t to be obvious about the definedness of the
	// conversion from pointer to integral type. intptr_t to jlong is a standard
	// widening by the static_assert above.
	jlong ret = reinterpret_cast<intptr_t>(ptr);
	RTC_DCHECK(reinterpret_cast<void*>(ret) == ptr);
	return ret;
	}

	// JNIEnv-helper methods that RTC_CHECK success: no Java exception thrown and
	// found object/class/method/field is non-null.
	jmethodID GetMethodID(
	JNIEnv* jni, jclass c, const std::string& name, const char* signature) {
	jmethodID m = jni->GetMethodID(c, name.c_str(), signature);
	CHECK_EXCEPTION(jni) << "error during GetMethodID: " << name << ", "
	<< signature;
	RTC_CHECK(m) << name << ", " << signature;
	return m;
	}

	jmethodID GetStaticMethodID(
	JNIEnv* jni, jclass c, const char* name, const char* signature) {
	jmethodID m = jni->GetStaticMethodID(c, name, signature);
	CHECK_EXCEPTION(jni) << "error during GetStaticMethodID: " << name << ", "
	<< signature;
	RTC_CHECK(m) << name << ", " << signature;
	return m;
	}

	jfieldID GetFieldID(
	JNIEnv* jni, jclass c, const char* name, const char* signature) {
	jfieldID f = jni->GetFieldID(c, name, signature);
	CHECK_EXCEPTION(jni) << "error during GetFieldID";
	RTC_CHECK(f) << name << ", " << signature;
	return f;
	}

	jfieldID GetStaticFieldID(JNIEnv* jni,
	jclass c,
	const char* name,
	const char* signature) {
	jfieldID f = jni->GetStaticFieldID(c, name, signature);
	CHECK_EXCEPTION(jni) << "error during GetStaticFieldID";
	RTC_CHECK(f) << name << ", " << signature;
	return f;
	}

	jclass GetObjectClass(JNIEnv* jni, jobject object) {
	jclass c = jni->GetObjectClass(object);
	CHECK_EXCEPTION(jni) << "error during GetObjectClass";
	RTC_CHECK(c) << "GetObjectClass returned NULL";
	return c;
	}

	jobject GetObjectField(JNIEnv* jni, jobject object, jfieldID id) {
	jobject o = jni->GetObjectField(object, id);
	CHECK_EXCEPTION(jni) << "error during GetObjectField";
	RTC_CHECK(!IsNull(jni, o)) << "GetObjectField returned NULL";
	return o;
	}

	jobject GetStaticObjectField(JNIEnv* jni, jclass c, jfieldID id) {
	jobject o = jni->GetStaticObjectField(c, id);
	CHECK_EXCEPTION(jni) << "error during GetStaticObjectField";
	RTC_CHECK(!IsNull(jni, o)) << "GetStaticObjectField returned NULL";
	return o;
	}

	jobject GetNullableObjectField(JNIEnv* jni, jobject object, jfieldID id) {
	jobject o = jni->GetObjectField(object, id);
	CHECK_EXCEPTION(jni) << "error during GetObjectField";
	return o;
	}

	jstring GetStringField(JNIEnv* jni, jobject object, jfieldID id) {
	return static_cast<jstring>(GetObjectField(jni, object, id));
	}

	jlong GetLongField(JNIEnv* jni, jobject object, jfieldID id) {
	jlong l = jni->GetLongField(object, id);
	CHECK_EXCEPTION(jni) << "error during GetLongField";
	return l;
	}

	jint GetIntField(JNIEnv* jni, jobject object, jfieldID id) {
	jint i = jni->GetIntField(object, id);
	CHECK_EXCEPTION(jni) << "error during GetIntField";
	return i;
	}

	bool GetBooleanField(JNIEnv* jni, jobject object, jfieldID id) {
	jboolean b = jni->GetBooleanField(object, id);
	CHECK_EXCEPTION(jni) << "error during GetBooleanField";
	return b;
	}

	bool IsNull(JNIEnv* jni, jobject obj) {
	return jni->IsSameObject(obj, nullptr);
	}

	// Given a UTF-8 encoded \|native\| string return a new (UTF-16) jstring.
	jstring JavaStringFromStdString(JNIEnv* jni, const std::string& native) {
	jstring jstr = jni->NewStringUTF(native.c_str());
	CHECK_EXCEPTION(jni) << "error during NewStringUTF";
	return jstr;
	}

	// Given a jstring, reinterprets it to a new native string.
	std::string JavaToStdString(JNIEnv* jni, const jstring& j_string) {
	// Invoke String.getBytes(String charsetName) method to convert \|j_string\|
	// to a byte array.
	const jclass string_class = GetObjectClass(jni, j_string);
	const jmethodID get_bytes =
	GetMethodID(jni, string_class, "getBytes", "(Ljava/lang/String;)[B");
	const jstring charset_name = jni->NewStringUTF("ISO-8859-1");
	CHECK_EXCEPTION(jni) << "error during NewStringUTF";
	const jbyteArray j_byte_array =
	(jbyteArray)jni->CallObjectMethod(j_string, get_bytes, charset_name);
	CHECK_EXCEPTION(jni) << "error during CallObjectMethod";

	const size_t len = jni->GetArrayLength(j_byte_array);
	CHECK_EXCEPTION(jni) << "error during GetArrayLength";
	std::vector<char> buf(len);
	jni->GetByteArrayRegion(j_byte_array, 0, len,
	reinterpret_cast<jbyte*>(&buf[0]));
	CHECK_EXCEPTION(jni) << "error during GetByteArrayRegion";

	return std::string(buf.begin(), buf.end());
	}

	// Given a list of jstrings, reinterprets it to a new vector of native strings.
	std::vector<std::string> JavaToStdVectorStrings(JNIEnv* jni, jobject list) {
	std::vector<std::string> converted_list;
	if (list != nullptr) {
	for (jobject str : Iterable(jni, list)) {
	converted_list.push_back(
	JavaToStdString(jni, reinterpret_cast<jstring>(str)));
	}
	}
	return converted_list;
	}

	// Return the (singleton) Java Enum object corresponding to \|index\|;
	jobject JavaEnumFromIndex(JNIEnv* jni, jclass state_class,
	const std::string& state_class_name, int index) {
	jmethodID state_values_id = GetStaticMethodID(
	jni, state_class, "values", ("()[L" + state_class_name + ";").c_str());
	jobjectArray state_values = static_cast<jobjectArray>(
	jni->CallStaticObjectMethod(state_class, state_values_id));
	CHECK_EXCEPTION(jni) << "error during CallStaticObjectMethod";
	jobject ret = jni->GetObjectArrayElement(state_values, index);
	CHECK_EXCEPTION(jni) << "error during GetObjectArrayElement";
	return ret;
	}

	jobject JavaEnumFromIndexAndClassName(JNIEnv* jni,
	const std::string& state_class_fragment,
	int index) {
	const std::string state_class = "org/webrtc/" + state_class_fragment;
	return JavaEnumFromIndex(jni, FindClass(jni, state_class.c_str()),
	state_class, index);
	}

	std::string GetJavaEnumName(JNIEnv* jni,
	const std::string& className,
	jobject j_enum) {
	jclass enumClass = FindClass(jni, className.c_str());
	jmethodID nameMethod =
	GetMethodID(jni, enumClass, "name", "()Ljava/lang/String;");
	jstring name =
	reinterpret_cast<jstring>(jni->CallObjectMethod(j_enum, nameMethod));
	CHECK_EXCEPTION(jni) << "error during CallObjectMethod for " << className
	<< ".name";
	return JavaToStdString(jni, name);
	}

	std::map<std::string, std::string> JavaToStdMapStrings(JNIEnv* jni,
	jobject j_map) {
	jclass map_class = jni->FindClass("java/util/Map");
	jclass set_class = jni->FindClass("java/util/Set");
	jclass iterator_class = jni->FindClass("java/util/Iterator");
	jclass entry_class = jni->FindClass("java/util/Map$Entry");
	jmethodID entry_set_method =
	jni->GetMethodID(map_class, "entrySet", "()Ljava/util/Set;");
	jmethodID iterator_method =
	jni->GetMethodID(set_class, "iterator", "()Ljava/util/Iterator;");
	jmethodID has_next_method =
	jni->GetMethodID(iterator_class, "hasNext", "()Z");
	jmethodID next_method =
	jni->GetMethodID(iterator_class, "next", "()Ljava/lang/Object;");
	jmethodID get_key_method =
	jni->GetMethodID(entry_class, "getKey", "()Ljava/lang/Object;");
	jmethodID get_value_method =
	jni->GetMethodID(entry_class, "getValue", "()Ljava/lang/Object;");

	jobject j_entry_set = jni->CallObjectMethod(j_map, entry_set_method);
	jobject j_iterator = jni->CallObjectMethod(j_entry_set, iterator_method);

	std::map<std::string, std::string> result;
	while (jni->CallBooleanMethod(j_iterator, has_next_method)) {
	jobject j_entry = jni->CallObjectMethod(j_iterator, next_method);
	jstring j_key =
	static_cast<jstring>(jni->CallObjectMethod(j_entry, get_key_method));
	jstring j_value =
	static_cast<jstring>(jni->CallObjectMethod(j_entry, get_value_method));
	result[JavaToStdString(jni, j_key)] = JavaToStdString(jni, j_value);
	}

	return result;
	}

	jobject NewGlobalRef(JNIEnv* jni, jobject o) {
	jobject ret = jni->NewGlobalRef(o);
	CHECK_EXCEPTION(jni) << "error during NewGlobalRef";
	RTC_CHECK(ret);
	return ret;
	}

	void DeleteGlobalRef(JNIEnv* jni, jobject o) {
	jni->DeleteGlobalRef(o);
	CHECK_EXCEPTION(jni) << "error during DeleteGlobalRef";
	}

	// Scope Java local references to the lifetime of this object. Use in all C++
	// callbacks (i.e. entry points that don't originate in a Java callstack
	// through a "native" method call).
	ScopedLocalRefFrame::ScopedLocalRefFrame(JNIEnv* jni) : jni_(jni) {
	RTC_CHECK(!jni_->PushLocalFrame(0)) << "Failed to PushLocalFrame";
	}
	ScopedLocalRefFrame::~ScopedLocalRefFrame() {
	jni_->PopLocalFrame(nullptr);
	}

	// Creates an iterator representing the end of any collection.
	Iterable::Iterator::Iterator() : iterator_(nullptr) {}

	// Creates an iterator pointing to the beginning of the specified collection.
	Iterable::Iterator::Iterator(JNIEnv* jni, jobject iterable) : jni_(jni) {
	jclass j_class = GetObjectClass(jni, iterable);
	jmethodID iterator_id =
	GetMethodID(jni, j_class, "iterator", "()Ljava/util/Iterator;");
	iterator_ = jni->CallObjectMethod(iterable, iterator_id);
	CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
	RTC_CHECK(iterator_ != nullptr);

	jclass iterator_class = GetObjectClass(jni, iterator_);
	has_next_id_ = GetMethodID(jni, iterator_class, "hasNext", "()Z");
	next_id_ = GetMethodID(jni, iterator_class, "next", "()Ljava/lang/Object;");

	// Start at the first element in the collection.
	++(*this);
	}

	// Move constructor - necessary to be able to return iterator types from
	// functions.
	Iterable::Iterator::Iterator(Iterator&& other)
	: jni_(std::move(other.jni_)),
	iterator_(std::move(other.iterator_)),
	value_(std::move(other.value_)),
	has_next_id_(std::move(other.has_next_id_)),
	next_id_(std::move(other.next_id_)),
	thread_checker_(std::move(other.thread_checker_)){};

	// Advances the iterator one step.
	Iterable::Iterator& Iterable::Iterator::operator++() {
	RTC_CHECK(thread_checker_.CalledOnValidThread());
	if (AtEnd()) {
	// Can't move past the end.
	return *this;
	}
	bool has_next = jni_->CallBooleanMethod(iterator_, has_next_id_);
	CHECK_EXCEPTION(jni_) << "error during CallBooleanMethod";
	if (!has_next) {
	iterator_ = nullptr;
	value_ = nullptr;
	return *this;
	}

	value_ = jni_->CallObjectMethod(iterator_, next_id_);
	CHECK_EXCEPTION(jni_) << "error during CallObjectMethod";
	return *this;
	}

	// Provides a way to compare the iterator with itself and with the end iterator.
	// Note: all other comparison results are undefined, just like for C++ input
	// iterators.
	bool Iterable::Iterator::operator==(const Iterable::Iterator& other) {
	// Two different active iterators should never be compared.
	RTC_DCHECK(this == &other \|\| AtEnd() \|\| other.AtEnd());
	return AtEnd() == other.AtEnd();
	}

	jobject Iterable::Iterator::operator*() {
	RTC_CHECK(!AtEnd());
	return value_;
	}

	bool Iterable::Iterator::AtEnd() const {
	RTC_CHECK(thread_checker_.CalledOnValidThread());
	return jni_ == nullptr \|\| IsNull(jni_, iterator_);
	}

	} // namespace jni
	} // namespace webrtc