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cac1b381359652fe623a1bdd320f0877b7b7a300
platform-external-webrtc/talk/app/webrtc/java/jni/peerconnection_jni.cc
Jiayang Liu cac1b38135 Expose RTCConfiguration to java JNI and add an option to disable TCP 
BUG=4585, 4589
R=glaznev@webrtc.org, juberti@google.com, pthatcher@webrtc.org

Review URL: https://webrtc-codereview.appspot.com/49809004

Cr-Commit-Position: refs/heads/master@{#9125}
2015-04-30 19:35:32 +00:00

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/*
* libjingle
* Copyright 2013 Google Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
// Hints for future visitors:
// This entire file is an implementation detail of the org.webrtc Java package,
// the most interesting bits of which are org.webrtc.PeerConnection{,Factory}.
// The layout of this file is roughly:
// - various helper C++ functions & classes that wrap Java counterparts and
// expose a C++ interface that can be passed to the C++ PeerConnection APIs
// - implementations of methods declared "static" in the Java package (named
// things like Java_org_webrtc_OMG_Can_This_Name_Be_Any_Longer, prescribed by
// the JNI spec).
//
// Lifecycle notes: objects are owned where they will be called; in other words
// FooObservers are owned by C++-land, and user-callable objects (e.g.
// PeerConnection and VideoTrack) are owned by Java-land.
// When this file allocates C++ RefCountInterfaces it AddRef()s an artificial
// ref simulating the jlong held in Java-land, and then Release()s the ref in
// the respective free call. Sometimes this AddRef is implicit in the
// construction of a scoped_refptr<> which is then .release()d.
// Any persistent (non-local) references from C++ to Java must be global or weak
// (in which case they must be checked before use)!
//
// Exception notes: pretty much all JNI calls can throw Java exceptions, so each
// call through a JNIEnv* pointer needs to be followed by an ExceptionCheck()
// call. In this file this is done in CHECK_EXCEPTION, making for much easier
// debugging in case of failure (the alternative is to wait for control to
// return to the Java frame that called code in this file, at which point it's
// impossible to tell which JNI call broke).
#include <jni.h>
#undef JNIEXPORT
#define JNIEXPORT __attribute__((visibility("default")))
#include <limits>
#include "talk/app/webrtc/java/jni/classreferenceholder.h"
#include "talk/app/webrtc/java/jni/jni_helpers.h"
#include "talk/app/webrtc/java/jni/native_handle_impl.h"
#include "talk/app/webrtc/mediaconstraintsinterface.h"
#include "talk/app/webrtc/peerconnectioninterface.h"
#include "talk/app/webrtc/videosourceinterface.h"
#include "talk/media/base/videocapturer.h"
#include "talk/media/base/videorenderer.h"
#include "talk/media/devices/videorendererfactory.h"
#include "talk/media/webrtc/webrtcvideocapturer.h"
#include "talk/media/webrtc/webrtcvideodecoderfactory.h"
#include "talk/media/webrtc/webrtcvideoencoderfactory.h"
#include "webrtc/base/bind.h"
#include "webrtc/base/checks.h"
#include "webrtc/base/logging.h"
#include "webrtc/base/messagequeue.h"
#include "webrtc/base/ssladapter.h"
#include "webrtc/base/stringutils.h"
#include "webrtc/system_wrappers/interface/field_trial_default.h"
#include "webrtc/system_wrappers/interface/trace.h"
#include "webrtc/video_engine/include/vie_base.h"
#include "webrtc/voice_engine/include/voe_base.h"
#if defined(ANDROID) && !defined(WEBRTC_CHROMIUM_BUILD)
#include "talk/app/webrtc/androidvideocapturer.h"
#include "talk/app/webrtc/java/jni/androidmediadecoder_jni.h"
#include "talk/app/webrtc/java/jni/androidmediaencoder_jni.h"
#include "talk/app/webrtc/java/jni/androidvideocapturer_jni.h"
#include "webrtc/modules/video_render/video_render_internal.h"
#include "webrtc/system_wrappers/interface/logcat_trace_context.h"
using webrtc::LogcatTraceContext;
#endif
using rtc::Bind;
using rtc::Thread;
using rtc::ThreadManager;
using rtc::scoped_ptr;
using webrtc::AudioSourceInterface;
using webrtc::AudioTrackInterface;
using webrtc::AudioTrackVector;
using webrtc::CreateSessionDescriptionObserver;
using webrtc::DataBuffer;
using webrtc::DataChannelInit;
using webrtc::DataChannelInterface;
using webrtc::DataChannelObserver;
using webrtc::IceCandidateInterface;
using webrtc::MediaConstraintsInterface;
using webrtc::MediaSourceInterface;
using webrtc::MediaStreamInterface;
using webrtc::MediaStreamTrackInterface;
using webrtc::PeerConnectionFactoryInterface;
using webrtc::PeerConnectionInterface;
using webrtc::PeerConnectionObserver;
using webrtc::SessionDescriptionInterface;
using webrtc::SetSessionDescriptionObserver;
using webrtc::StatsObserver;
using webrtc::StatsReport;
using webrtc::StatsReports;
using webrtc::VideoRendererInterface;
using webrtc::VideoSourceInterface;
using webrtc::VideoTrackInterface;
using webrtc::VideoTrackVector;
using webrtc::kVideoCodecVP8;
namespace webrtc_jni {
// Field trials initialization string
static char *field_trials_init_string = NULL;
#if defined(ANDROID) && !defined(WEBRTC_CHROMIUM_BUILD)
// Set in PeerConnectionFactory_initializeAndroidGlobals().
static bool factory_static_initialized = false;
static bool vp8_hw_acceleration_enabled = true;
#endif
extern "C" jint JNIEXPORT JNICALL JNI_OnLoad(JavaVM *jvm, void *reserved) {
jint ret = InitGlobalJniVariables(jvm);
if (ret < 0)
return -1;
CHECK(rtc::InitializeSSL()) << "Failed to InitializeSSL()";
LoadGlobalClassReferenceHolder();
return ret;
}
extern "C" void JNIEXPORT JNICALL JNI_OnUnLoad(JavaVM *jvm, void *reserved) {
FreeGlobalClassReferenceHolder();
CHECK(rtc::CleanupSSL()) << "Failed to CleanupSSL()";
}
// Return the (singleton) Java Enum object corresponding to |index|;
// |state_class_fragment| is something like "MediaSource$State".
static jobject JavaEnumFromIndex(
JNIEnv* jni, const std::string& state_class_fragment, int index) {
const std::string state_class = "org/webrtc/" + state_class_fragment;
return JavaEnumFromIndex(jni, FindClass(jni, state_class.c_str()),
state_class, index);
}
static DataChannelInit JavaDataChannelInitToNative(
JNIEnv* jni, jobject j_init) {
DataChannelInit init;
jclass j_init_class = FindClass(jni, "org/webrtc/DataChannel$Init");
jfieldID ordered_id = GetFieldID(jni, j_init_class, "ordered", "Z");
jfieldID max_retransmit_time_id =
GetFieldID(jni, j_init_class, "maxRetransmitTimeMs", "I");
jfieldID max_retransmits_id =
GetFieldID(jni, j_init_class, "maxRetransmits", "I");
jfieldID protocol_id =
GetFieldID(jni, j_init_class, "protocol", "Ljava/lang/String;");
jfieldID negotiated_id = GetFieldID(jni, j_init_class, "negotiated", "Z");
jfieldID id_id = GetFieldID(jni, j_init_class, "id", "I");
init.ordered = GetBooleanField(jni, j_init, ordered_id);
init.maxRetransmitTime = GetIntField(jni, j_init, max_retransmit_time_id);
init.maxRetransmits = GetIntField(jni, j_init, max_retransmits_id);
init.protocol = JavaToStdString(
jni, GetStringField(jni, j_init, protocol_id));
init.negotiated = GetBooleanField(jni, j_init, negotiated_id);
init.id = GetIntField(jni, j_init, id_id);
return init;
}
class ConstraintsWrapper;
// Adapter between the C++ PeerConnectionObserver interface and the Java
// PeerConnection.Observer interface. Wraps an instance of the Java interface
// and dispatches C++ callbacks to Java.
class PCOJava : public PeerConnectionObserver {
public:
PCOJava(JNIEnv* jni, jobject j_observer)
: j_observer_global_(jni, j_observer),
j_observer_class_(jni, GetObjectClass(jni, *j_observer_global_)),
j_media_stream_class_(jni, FindClass(jni, "org/webrtc/MediaStream")),
j_media_stream_ctor_(GetMethodID(
jni, *j_media_stream_class_, "<init>", "(J)V")),
j_audio_track_class_(jni, FindClass(jni, "org/webrtc/AudioTrack")),
j_audio_track_ctor_(GetMethodID(
jni, *j_audio_track_class_, "<init>", "(J)V")),
j_video_track_class_(jni, FindClass(jni, "org/webrtc/VideoTrack")),
j_video_track_ctor_(GetMethodID(
jni, *j_video_track_class_, "<init>", "(J)V")),
j_data_channel_class_(jni, FindClass(jni, "org/webrtc/DataChannel")),
j_data_channel_ctor_(GetMethodID(
jni, *j_data_channel_class_, "<init>", "(J)V")) {
}
virtual ~PCOJava() {}
void OnIceCandidate(const IceCandidateInterface* candidate) override {
ScopedLocalRefFrame local_ref_frame(jni());
std::string sdp;
CHECK(candidate->ToString(&sdp)) << "got so far: " << sdp;
jclass candidate_class = FindClass(jni(), "org/webrtc/IceCandidate");
jmethodID ctor = GetMethodID(jni(), candidate_class,
"<init>", "(Ljava/lang/String;ILjava/lang/String;)V");
jstring j_mid = JavaStringFromStdString(jni(), candidate->sdp_mid());
jstring j_sdp = JavaStringFromStdString(jni(), sdp);
jobject j_candidate = jni()->NewObject(
candidate_class, ctor, j_mid, candidate->sdp_mline_index(), j_sdp);
CHECK_EXCEPTION(jni()) << "error during NewObject";
jmethodID m = GetMethodID(jni(), *j_observer_class_,
"onIceCandidate", "(Lorg/webrtc/IceCandidate;)V");
jni()->CallVoidMethod(*j_observer_global_, m, j_candidate);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void OnSignalingChange(
PeerConnectionInterface::SignalingState new_state) override {
ScopedLocalRefFrame local_ref_frame(jni());
jmethodID m = GetMethodID(
jni(), *j_observer_class_, "onSignalingChange",
"(Lorg/webrtc/PeerConnection$SignalingState;)V");
jobject new_state_enum =
JavaEnumFromIndex(jni(), "PeerConnection$SignalingState", new_state);
jni()->CallVoidMethod(*j_observer_global_, m, new_state_enum);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void OnIceConnectionChange(
PeerConnectionInterface::IceConnectionState new_state) override {
ScopedLocalRefFrame local_ref_frame(jni());
jmethodID m = GetMethodID(
jni(), *j_observer_class_, "onIceConnectionChange",
"(Lorg/webrtc/PeerConnection$IceConnectionState;)V");
jobject new_state_enum = JavaEnumFromIndex(
jni(), "PeerConnection$IceConnectionState", new_state);
jni()->CallVoidMethod(*j_observer_global_, m, new_state_enum);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void OnIceGatheringChange(
PeerConnectionInterface::IceGatheringState new_state) override {
ScopedLocalRefFrame local_ref_frame(jni());
jmethodID m = GetMethodID(
jni(), *j_observer_class_, "onIceGatheringChange",
"(Lorg/webrtc/PeerConnection$IceGatheringState;)V");
jobject new_state_enum = JavaEnumFromIndex(
jni(), "PeerConnection$IceGatheringState", new_state);
jni()->CallVoidMethod(*j_observer_global_, m, new_state_enum);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void OnAddStream(MediaStreamInterface* stream) override {
ScopedLocalRefFrame local_ref_frame(jni());
jobject j_stream = jni()->NewObject(
*j_media_stream_class_, j_media_stream_ctor_, (jlong)stream);
CHECK_EXCEPTION(jni()) << "error during NewObject";
AudioTrackVector audio_tracks = stream->GetAudioTracks();
for (size_t i = 0; i < audio_tracks.size(); ++i) {
AudioTrackInterface* track = audio_tracks[i];
jstring id = JavaStringFromStdString(jni(), track->id());
jobject j_track = jni()->NewObject(
*j_audio_track_class_, j_audio_track_ctor_, (jlong)track, id);
CHECK_EXCEPTION(jni()) << "error during NewObject";
jfieldID audio_tracks_id = GetFieldID(jni(),
*j_media_stream_class_,
"audioTracks",
"Ljava/util/LinkedList;");
jobject audio_tracks = GetObjectField(jni(), j_stream, audio_tracks_id);
jmethodID add = GetMethodID(jni(),
GetObjectClass(jni(), audio_tracks),
"add",
"(Ljava/lang/Object;)Z");
jboolean added = jni()->CallBooleanMethod(audio_tracks, add, j_track);
CHECK_EXCEPTION(jni()) << "error during CallBooleanMethod";
CHECK(added);
}
VideoTrackVector video_tracks = stream->GetVideoTracks();
for (size_t i = 0; i < video_tracks.size(); ++i) {
VideoTrackInterface* track = video_tracks[i];
jstring id = JavaStringFromStdString(jni(), track->id());
jobject j_track = jni()->NewObject(
*j_video_track_class_, j_video_track_ctor_, (jlong)track, id);
CHECK_EXCEPTION(jni()) << "error during NewObject";
jfieldID video_tracks_id = GetFieldID(jni(),
*j_media_stream_class_,
"videoTracks",
"Ljava/util/LinkedList;");
jobject video_tracks = GetObjectField(jni(), j_stream, video_tracks_id);
jmethodID add = GetMethodID(jni(),
GetObjectClass(jni(), video_tracks),
"add",
"(Ljava/lang/Object;)Z");
jboolean added = jni()->CallBooleanMethod(video_tracks, add, j_track);
CHECK_EXCEPTION(jni()) << "error during CallBooleanMethod";
CHECK(added);
}
streams_[stream] = jni()->NewWeakGlobalRef(j_stream);
CHECK_EXCEPTION(jni()) << "error during NewWeakGlobalRef";
jmethodID m = GetMethodID(jni(), *j_observer_class_, "onAddStream",
"(Lorg/webrtc/MediaStream;)V");
jni()->CallVoidMethod(*j_observer_global_, m, j_stream);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void OnRemoveStream(MediaStreamInterface* stream) override {
ScopedLocalRefFrame local_ref_frame(jni());
NativeToJavaStreamsMap::iterator it = streams_.find(stream);
CHECK(it != streams_.end()) << "unexpected stream: " << std::hex << stream;
WeakRef s(jni(), it->second);
streams_.erase(it);
if (!s.obj())
return;
jmethodID m = GetMethodID(jni(), *j_observer_class_, "onRemoveStream",
"(Lorg/webrtc/MediaStream;)V");
jni()->CallVoidMethod(*j_observer_global_, m, s.obj());
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void OnDataChannel(DataChannelInterface* channel) override {
ScopedLocalRefFrame local_ref_frame(jni());
jobject j_channel = jni()->NewObject(
*j_data_channel_class_, j_data_channel_ctor_, (jlong)channel);
CHECK_EXCEPTION(jni()) << "error during NewObject";
jmethodID m = GetMethodID(jni(), *j_observer_class_, "onDataChannel",
"(Lorg/webrtc/DataChannel;)V");
jni()->CallVoidMethod(*j_observer_global_, m, j_channel);
// Channel is now owned by Java object, and will be freed from
// DataChannel.dispose(). Important that this be done _after_ the
// CallVoidMethod above as Java code might call back into native code and be
// surprised to see a refcount of 2.
int bumped_count = channel->AddRef();
CHECK(bumped_count == 2) << "Unexpected refcount OnDataChannel";
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void OnRenegotiationNeeded() override {
ScopedLocalRefFrame local_ref_frame(jni());
jmethodID m =
GetMethodID(jni(), *j_observer_class_, "onRenegotiationNeeded", "()V");
jni()->CallVoidMethod(*j_observer_global_, m);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void SetConstraints(ConstraintsWrapper* constraints) {
CHECK(!constraints_.get()) << "constraints already set!";
constraints_.reset(constraints);
}
const ConstraintsWrapper* constraints() { return constraints_.get(); }
private:
JNIEnv* jni() {
return AttachCurrentThreadIfNeeded();
}
const ScopedGlobalRef<jobject> j_observer_global_;
const ScopedGlobalRef<jclass> j_observer_class_;
const ScopedGlobalRef<jclass> j_media_stream_class_;
const jmethodID j_media_stream_ctor_;
const ScopedGlobalRef<jclass> j_audio_track_class_;
const jmethodID j_audio_track_ctor_;
const ScopedGlobalRef<jclass> j_video_track_class_;
const jmethodID j_video_track_ctor_;
const ScopedGlobalRef<jclass> j_data_channel_class_;
const jmethodID j_data_channel_ctor_;
typedef std::map<void*, jweak> NativeToJavaStreamsMap;
NativeToJavaStreamsMap streams_; // C++ -> Java streams.
scoped_ptr<ConstraintsWrapper> constraints_;
};
// Wrapper for a Java MediaConstraints object. Copies all needed data so when
// the constructor returns the Java object is no longer needed.
class ConstraintsWrapper : public MediaConstraintsInterface {
public:
ConstraintsWrapper(JNIEnv* jni, jobject j_constraints) {
PopulateConstraintsFromJavaPairList(
jni, j_constraints, "mandatory", &mandatory_);
PopulateConstraintsFromJavaPairList(
jni, j_constraints, "optional", &optional_);
}
virtual ~ConstraintsWrapper() {}
// MediaConstraintsInterface.
const Constraints& GetMandatory() const override { return mandatory_; }
const Constraints& GetOptional() const override { return optional_; }
private:
// Helper for translating a List<Pair<String, String>> to a Constraints.
static void PopulateConstraintsFromJavaPairList(
JNIEnv* jni, jobject j_constraints,
const char* field_name, Constraints* field) {
jfieldID j_id = GetFieldID(jni,
GetObjectClass(jni, j_constraints), field_name, "Ljava/util/List;");
jobject j_list = GetObjectField(jni, j_constraints, j_id);
jmethodID j_iterator_id = GetMethodID(jni,
GetObjectClass(jni, j_list), "iterator", "()Ljava/util/Iterator;");
jobject j_iterator = jni->CallObjectMethod(j_list, j_iterator_id);
CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
jmethodID j_has_next = GetMethodID(jni,
GetObjectClass(jni, j_iterator), "hasNext", "()Z");
jmethodID j_next = GetMethodID(jni,
GetObjectClass(jni, j_iterator), "next", "()Ljava/lang/Object;");
while (jni->CallBooleanMethod(j_iterator, j_has_next)) {
CHECK_EXCEPTION(jni) << "error during CallBooleanMethod";
jobject entry = jni->CallObjectMethod(j_iterator, j_next);
CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
jmethodID get_key = GetMethodID(jni,
GetObjectClass(jni, entry), "getKey", "()Ljava/lang/String;");
jstring j_key = reinterpret_cast<jstring>(
jni->CallObjectMethod(entry, get_key));
CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
jmethodID get_value = GetMethodID(jni,
GetObjectClass(jni, entry), "getValue", "()Ljava/lang/String;");
jstring j_value = reinterpret_cast<jstring>(
jni->CallObjectMethod(entry, get_value));
CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
field->push_back(Constraint(JavaToStdString(jni, j_key),
JavaToStdString(jni, j_value)));
}
CHECK_EXCEPTION(jni) << "error during CallBooleanMethod";
}
Constraints mandatory_;
Constraints optional_;
};
static jobject JavaSdpFromNativeSdp(
JNIEnv* jni, const SessionDescriptionInterface* desc) {
std::string sdp;
CHECK(desc->ToString(&sdp)) << "got so far: " << sdp;
jstring j_description = JavaStringFromStdString(jni, sdp);
jclass j_type_class = FindClass(
jni, "org/webrtc/SessionDescription$Type");
jmethodID j_type_from_canonical = GetStaticMethodID(
jni, j_type_class, "fromCanonicalForm",
"(Ljava/lang/String;)Lorg/webrtc/SessionDescription$Type;");
jstring j_type_string = JavaStringFromStdString(jni, desc->type());
jobject j_type = jni->CallStaticObjectMethod(
j_type_class, j_type_from_canonical, j_type_string);
CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
jclass j_sdp_class = FindClass(jni, "org/webrtc/SessionDescription");
jmethodID j_sdp_ctor = GetMethodID(
jni, j_sdp_class, "<init>",
"(Lorg/webrtc/SessionDescription$Type;Ljava/lang/String;)V");
jobject j_sdp = jni->NewObject(
j_sdp_class, j_sdp_ctor, j_type, j_description);
CHECK_EXCEPTION(jni) << "error during NewObject";
return j_sdp;
}
template <class T> // T is one of {Create,Set}SessionDescriptionObserver.
class SdpObserverWrapper : public T {
public:
SdpObserverWrapper(JNIEnv* jni, jobject j_observer,
ConstraintsWrapper* constraints)
: constraints_(constraints),
j_observer_global_(jni, j_observer),
j_observer_class_(jni, GetObjectClass(jni, j_observer)) {
}
virtual ~SdpObserverWrapper() {}
// Can't mark override because of templating.
virtual void OnSuccess() {
ScopedLocalRefFrame local_ref_frame(jni());
jmethodID m = GetMethodID(jni(), *j_observer_class_, "onSetSuccess", "()V");
jni()->CallVoidMethod(*j_observer_global_, m);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
// Can't mark override because of templating.
virtual void OnSuccess(SessionDescriptionInterface* desc) {
ScopedLocalRefFrame local_ref_frame(jni());
jmethodID m = GetMethodID(
jni(), *j_observer_class_, "onCreateSuccess",
"(Lorg/webrtc/SessionDescription;)V");
jobject j_sdp = JavaSdpFromNativeSdp(jni(), desc);
jni()->CallVoidMethod(*j_observer_global_, m, j_sdp);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
protected:
// Common implementation for failure of Set & Create types, distinguished by
// |op| being "Set" or "Create".
void OnFailure(const std::string& op, const std::string& error) {
jmethodID m = GetMethodID(jni(), *j_observer_class_, "on" + op + "Failure",
"(Ljava/lang/String;)V");
jstring j_error_string = JavaStringFromStdString(jni(), error);
jni()->CallVoidMethod(*j_observer_global_, m, j_error_string);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
JNIEnv* jni() {
return AttachCurrentThreadIfNeeded();
}
private:
scoped_ptr<ConstraintsWrapper> constraints_;
const ScopedGlobalRef<jobject> j_observer_global_;
const ScopedGlobalRef<jclass> j_observer_class_;
};
class CreateSdpObserverWrapper
: public SdpObserverWrapper<CreateSessionDescriptionObserver> {
public:
CreateSdpObserverWrapper(JNIEnv* jni, jobject j_observer,
ConstraintsWrapper* constraints)
: SdpObserverWrapper(jni, j_observer, constraints) {}
void OnFailure(const std::string& error) override {
ScopedLocalRefFrame local_ref_frame(jni());
SdpObserverWrapper::OnFailure(std::string("Create"), error);
}
};
class SetSdpObserverWrapper
: public SdpObserverWrapper<SetSessionDescriptionObserver> {
public:
SetSdpObserverWrapper(JNIEnv* jni, jobject j_observer,
ConstraintsWrapper* constraints)
: SdpObserverWrapper(jni, j_observer, constraints) {}
void OnFailure(const std::string& error) override {
ScopedLocalRefFrame local_ref_frame(jni());
SdpObserverWrapper::OnFailure(std::string("Set"), error);
}
};
// Adapter for a Java DataChannel$Observer presenting a C++ DataChannelObserver
// and dispatching the callback from C++ back to Java.
class DataChannelObserverWrapper : public DataChannelObserver {
public:
DataChannelObserverWrapper(JNIEnv* jni, jobject j_observer)
: j_observer_global_(jni, j_observer),
j_observer_class_(jni, GetObjectClass(jni, j_observer)),
j_buffer_class_(jni, FindClass(jni, "org/webrtc/DataChannel$Buffer")),
j_on_state_change_mid_(GetMethodID(jni, *j_observer_class_,
"onStateChange", "()V")),
j_on_message_mid_(GetMethodID(jni, *j_observer_class_, "onMessage",
"(Lorg/webrtc/DataChannel$Buffer;)V")),
j_buffer_ctor_(GetMethodID(jni, *j_buffer_class_,
"<init>", "(Ljava/nio/ByteBuffer;Z)V")) {
}
virtual ~DataChannelObserverWrapper() {}
void OnStateChange() override {
ScopedLocalRefFrame local_ref_frame(jni());
jni()->CallVoidMethod(*j_observer_global_, j_on_state_change_mid_);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
void OnMessage(const DataBuffer& buffer) override {
ScopedLocalRefFrame local_ref_frame(jni());
jobject byte_buffer = jni()->NewDirectByteBuffer(
const_cast<char*>(buffer.data.data<char>()), buffer.data.size());
jobject j_buffer = jni()->NewObject(*j_buffer_class_, j_buffer_ctor_,
byte_buffer, buffer.binary);
jni()->CallVoidMethod(*j_observer_global_, j_on_message_mid_, j_buffer);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
private:
JNIEnv* jni() {
return AttachCurrentThreadIfNeeded();
}
const ScopedGlobalRef<jobject> j_observer_global_;
const ScopedGlobalRef<jclass> j_observer_class_;
const ScopedGlobalRef<jclass> j_buffer_class_;
const jmethodID j_on_state_change_mid_;
const jmethodID j_on_message_mid_;
const jmethodID j_buffer_ctor_;
};
// Adapter for a Java StatsObserver presenting a C++ StatsObserver and
// dispatching the callback from C++ back to Java.
class StatsObserverWrapper : public StatsObserver {
public:
StatsObserverWrapper(JNIEnv* jni, jobject j_observer)
: j_observer_global_(jni, j_observer),
j_observer_class_(jni, GetObjectClass(jni, j_observer)),
j_stats_report_class_(jni, FindClass(jni, "org/webrtc/StatsReport")),
j_stats_report_ctor_(GetMethodID(
jni, *j_stats_report_class_, "<init>",
"(Ljava/lang/String;Ljava/lang/String;D"
"[Lorg/webrtc/StatsReport$Value;)V")),
j_value_class_(jni, FindClass(
jni, "org/webrtc/StatsReport$Value")),
j_value_ctor_(GetMethodID(
jni, *j_value_class_, "<init>",
"(Ljava/lang/String;Ljava/lang/String;)V")) {
}
virtual ~StatsObserverWrapper() {}
void OnComplete(const StatsReports& reports) override {
ScopedLocalRefFrame local_ref_frame(jni());
jobjectArray j_reports = ReportsToJava(jni(), reports);
jmethodID m = GetMethodID(jni(), *j_observer_class_, "onComplete",
"([Lorg/webrtc/StatsReport;)V");
jni()->CallVoidMethod(*j_observer_global_, m, j_reports);
CHECK_EXCEPTION(jni()) << "error during CallVoidMethod";
}
private:
jobjectArray ReportsToJava(
JNIEnv* jni, const StatsReports& reports) {
jobjectArray reports_array = jni->NewObjectArray(
reports.size(), *j_stats_report_class_, NULL);
int i = 0;
for (const auto* report : reports) {
ScopedLocalRefFrame local_ref_frame(jni);
jstring j_id = JavaStringFromStdString(jni, report->id()->ToString());
jstring j_type = JavaStringFromStdString(jni, report->TypeToString());
jobjectArray j_values = ValuesToJava(jni, report->values());
jobject j_report = jni->NewObject(*j_stats_report_class_,
j_stats_report_ctor_,
j_id,
j_type,
report->timestamp(),
j_values);
jni->SetObjectArrayElement(reports_array, i++, j_report);
}
return reports_array;
}
jobjectArray ValuesToJava(JNIEnv* jni, const StatsReport::Values& values) {
jobjectArray j_values = jni->NewObjectArray(
values.size(), *j_value_class_, NULL);
int i = 0;
for (const auto& it : values) {
ScopedLocalRefFrame local_ref_frame(jni);
// Should we use the '.name' enum value here instead of converting the
// name to a string?
jstring j_name = JavaStringFromStdString(jni, it.second->display_name());
jstring j_value = JavaStringFromStdString(jni, it.second->ToString());
jobject j_element_value =
jni->NewObject(*j_value_class_, j_value_ctor_, j_name, j_value);
jni->SetObjectArrayElement(j_values, i++, j_element_value);
}
return j_values;
}
JNIEnv* jni() {
return AttachCurrentThreadIfNeeded();
}
const ScopedGlobalRef<jobject> j_observer_global_;
const ScopedGlobalRef<jclass> j_observer_class_;
const ScopedGlobalRef<jclass> j_stats_report_class_;
const jmethodID j_stats_report_ctor_;
const ScopedGlobalRef<jclass> j_value_class_;
const jmethodID j_value_ctor_;
};
// Adapter presenting a cricket::VideoRenderer as a
// webrtc::VideoRendererInterface.
class VideoRendererWrapper : public VideoRendererInterface {
public:
static VideoRendererWrapper* Create(cricket::VideoRenderer* renderer) {
if (renderer)
return new VideoRendererWrapper(renderer);
return NULL;
}
virtual ~VideoRendererWrapper() {}
// This wraps VideoRenderer which still has SetSize.
void RenderFrame(const cricket::VideoFrame* video_frame) override {
ScopedLocalRefFrame local_ref_frame(AttachCurrentThreadIfNeeded());
const cricket::VideoFrame* frame =
video_frame->GetCopyWithRotationApplied();
if (width_ != frame->GetWidth() || height_ != frame->GetHeight()) {
width_ = frame->GetWidth();
height_ = frame->GetHeight();
renderer_->SetSize(width_, height_, 0);
}
renderer_->RenderFrame(frame);
}
// TODO(guoweis): Remove this once chrome code base is updated.
bool CanApplyRotation() override { return true; }
private:
explicit VideoRendererWrapper(cricket::VideoRenderer* renderer)
: width_(0), height_(0), renderer_(renderer) {}
int width_, height_;
scoped_ptr<cricket::VideoRenderer> renderer_;
};
// Wrapper dispatching webrtc::VideoRendererInterface to a Java VideoRenderer
// instance.
class JavaVideoRendererWrapper : public VideoRendererInterface {
public:
JavaVideoRendererWrapper(JNIEnv* jni, jobject j_callbacks)
: j_callbacks_(jni, j_callbacks),
j_render_frame_id_(GetMethodID(
jni, GetObjectClass(jni, j_callbacks), "renderFrame",
"(Lorg/webrtc/VideoRenderer$I420Frame;)V")),
j_can_apply_rotation_id_(GetMethodID(
jni, GetObjectClass(jni, j_callbacks),
"canApplyRotation", "()Z")),
j_frame_class_(jni,
FindClass(jni, "org/webrtc/VideoRenderer$I420Frame")),
j_i420_frame_ctor_id_(GetMethodID(
jni, *j_frame_class_, "<init>", "(III[I[Ljava/nio/ByteBuffer;)V")),
j_texture_frame_ctor_id_(GetMethodID(
jni, *j_frame_class_, "<init>",
"(IIILjava/lang/Object;I)V")),
j_byte_buffer_class_(jni, FindClass(jni, "java/nio/ByteBuffer")),
can_apply_rotation_set_(false),
can_apply_rotation_(false) {
CHECK_EXCEPTION(jni);
}
virtual ~JavaVideoRendererWrapper() {}
void RenderFrame(const cricket::VideoFrame* video_frame) override {
ScopedLocalRefFrame local_ref_frame(jni());
// Calling CanApplyRotation here to ensure can_apply_rotation_ is set.
CanApplyRotation();
const cricket::VideoFrame* frame =
can_apply_rotation_ ? video_frame
: video_frame->GetCopyWithRotationApplied();
if (frame->GetNativeHandle() != NULL) {
jobject j_frame = CricketToJavaTextureFrame(frame);
jni()->CallVoidMethod(*j_callbacks_, j_render_frame_id_, j_frame);
CHECK_EXCEPTION(jni());
} else {
jobject j_frame = CricketToJavaI420Frame(frame);
jni()->CallVoidMethod(*j_callbacks_, j_render_frame_id_, j_frame);
CHECK_EXCEPTION(jni());
}
}
// TODO(guoweis): Report that rotation is supported as RenderFrame calls
// GetCopyWithRotationApplied.
virtual bool CanApplyRotation() override {
if (can_apply_rotation_set_) {
return can_apply_rotation_;
}
ScopedLocalRefFrame local_ref_frame(jni());
jboolean ret =
jni()->CallBooleanMethod(*j_callbacks_, j_can_apply_rotation_id_);
CHECK_EXCEPTION(jni());
can_apply_rotation_ = ret;
can_apply_rotation_set_ = true;
return ret;
}
private:
// Return a VideoRenderer.I420Frame referring to the data in |frame|.
jobject CricketToJavaI420Frame(const cricket::VideoFrame* frame) {
jintArray strides = jni()->NewIntArray(3);
jint* strides_array = jni()->GetIntArrayElements(strides, NULL);
strides_array[0] = frame->GetYPitch();
strides_array[1] = frame->GetUPitch();
strides_array[2] = frame->GetVPitch();
jni()->ReleaseIntArrayElements(strides, strides_array, 0);
jobjectArray planes = jni()->NewObjectArray(3, *j_byte_buffer_class_, NULL);
jobject y_buffer = jni()->NewDirectByteBuffer(
const_cast<uint8*>(frame->GetYPlane()),
frame->GetYPitch() * frame->GetHeight());
jobject u_buffer = jni()->NewDirectByteBuffer(
const_cast<uint8*>(frame->GetUPlane()), frame->GetChromaSize());
jobject v_buffer = jni()->NewDirectByteBuffer(
const_cast<uint8*>(frame->GetVPlane()), frame->GetChromaSize());
jni()->SetObjectArrayElement(planes, 0, y_buffer);
jni()->SetObjectArrayElement(planes, 1, u_buffer);
jni()->SetObjectArrayElement(planes, 2, v_buffer);
return jni()->NewObject(
*j_frame_class_, j_i420_frame_ctor_id_,
frame->GetWidth(), frame->GetHeight(),
static_cast<int>(frame->GetVideoRotation()),
strides, planes);
}
// Return a VideoRenderer.I420Frame referring texture object in |frame|.
jobject CricketToJavaTextureFrame(const cricket::VideoFrame* frame) {
NativeHandleImpl* handle =
reinterpret_cast<NativeHandleImpl*>(frame->GetNativeHandle());
jobject texture_object = reinterpret_cast<jobject>(handle->GetHandle());
int texture_id = handle->GetTextureId();
return jni()->NewObject(
*j_frame_class_, j_texture_frame_ctor_id_,
frame->GetWidth(), frame->GetHeight(),
static_cast<int>(frame->GetVideoRotation()),
texture_object, texture_id);
}
JNIEnv* jni() {
return AttachCurrentThreadIfNeeded();
}
ScopedGlobalRef<jobject> j_callbacks_;
jmethodID j_render_frame_id_;
jmethodID j_can_apply_rotation_id_;
ScopedGlobalRef<jclass> j_frame_class_;
jmethodID j_i420_frame_ctor_id_;
jmethodID j_texture_frame_ctor_id_;
ScopedGlobalRef<jclass> j_byte_buffer_class_;
bool can_apply_rotation_set_;
bool can_apply_rotation_;
};
static DataChannelInterface* ExtractNativeDC(JNIEnv* jni, jobject j_dc) {
jfieldID native_dc_id = GetFieldID(jni,
GetObjectClass(jni, j_dc), "nativeDataChannel", "J");
jlong j_d = GetLongField(jni, j_dc, native_dc_id);
return reinterpret_cast<DataChannelInterface*>(j_d);
}
JOW(jlong, DataChannel_registerObserverNative)(
JNIEnv* jni, jobject j_dc, jobject j_observer) {
scoped_ptr<DataChannelObserverWrapper> observer(
new DataChannelObserverWrapper(jni, j_observer));
ExtractNativeDC(jni, j_dc)->RegisterObserver(observer.get());
return jlongFromPointer(observer.release());
}
JOW(void, DataChannel_unregisterObserverNative)(
JNIEnv* jni, jobject j_dc, jlong native_observer) {
ExtractNativeDC(jni, j_dc)->UnregisterObserver();
delete reinterpret_cast<DataChannelObserverWrapper*>(native_observer);
}
JOW(jstring, DataChannel_label)(JNIEnv* jni, jobject j_dc) {
return JavaStringFromStdString(jni, ExtractNativeDC(jni, j_dc)->label());
}
JOW(jobject, DataChannel_state)(JNIEnv* jni, jobject j_dc) {
return JavaEnumFromIndex(
jni, "DataChannel$State", ExtractNativeDC(jni, j_dc)->state());
}
JOW(jlong, DataChannel_bufferedAmount)(JNIEnv* jni, jobject j_dc) {
uint64 buffered_amount = ExtractNativeDC(jni, j_dc)->buffered_amount();
CHECK_LE(buffered_amount, std::numeric_limits<int64>::max())
<< "buffered_amount overflowed jlong!";
return static_cast<jlong>(buffered_amount);
}
JOW(void, DataChannel_close)(JNIEnv* jni, jobject j_dc) {
ExtractNativeDC(jni, j_dc)->Close();
}
JOW(jboolean, DataChannel_sendNative)(JNIEnv* jni, jobject j_dc,
jbyteArray data, jboolean binary) {
jbyte* bytes = jni->GetByteArrayElements(data, NULL);
bool ret = ExtractNativeDC(jni, j_dc)->Send(DataBuffer(
rtc::Buffer(bytes, jni->GetArrayLength(data)),
binary));
jni->ReleaseByteArrayElements(data, bytes, JNI_ABORT);
return ret;
}
JOW(void, DataChannel_dispose)(JNIEnv* jni, jobject j_dc) {
CHECK_RELEASE(ExtractNativeDC(jni, j_dc));
}
JOW(void, Logging_nativeEnableTracing)(
JNIEnv* jni, jclass, jstring j_path, jint nativeLevels,
jint nativeSeverity) {
std::string path = JavaToStdString(jni, j_path);
if (nativeLevels != webrtc::kTraceNone) {
webrtc::Trace::set_level_filter(nativeLevels);
#if defined(ANDROID) && !defined(WEBRTC_CHROMIUM_BUILD)
if (path != "logcat:") {
#endif
CHECK_EQ(0, webrtc::Trace::SetTraceFile(path.c_str(), false))
<< "SetTraceFile failed";
#if defined(ANDROID) && !defined(WEBRTC_CHROMIUM_BUILD)
} else {
// Intentionally leak this to avoid needing to reason about its lifecycle.
// It keeps no state and functions only as a dispatch point.
static LogcatTraceContext* g_trace_callback = new LogcatTraceContext();
}
#endif
}
rtc::LogMessage::LogToDebug(nativeSeverity);
}
JOW(void, PeerConnection_freePeerConnection)(JNIEnv*, jclass, jlong j_p) {
CHECK_RELEASE(reinterpret_cast<PeerConnectionInterface*>(j_p));
}
JOW(void, PeerConnection_freeObserver)(JNIEnv*, jclass, jlong j_p) {
PCOJava* p = reinterpret_cast<PCOJava*>(j_p);
delete p;
}
JOW(void, MediaSource_free)(JNIEnv*, jclass, jlong j_p) {
CHECK_RELEASE(reinterpret_cast<MediaSourceInterface*>(j_p));
}
JOW(void, VideoCapturer_free)(JNIEnv*, jclass, jlong j_p) {
delete reinterpret_cast<cricket::VideoCapturer*>(j_p);
}
JOW(void, VideoRenderer_freeGuiVideoRenderer)(JNIEnv*, jclass, jlong j_p) {
delete reinterpret_cast<VideoRendererWrapper*>(j_p);
}
JOW(void, VideoRenderer_freeWrappedVideoRenderer)(JNIEnv*, jclass, jlong j_p) {
delete reinterpret_cast<JavaVideoRendererWrapper*>(j_p);
}
JOW(void, MediaStreamTrack_free)(JNIEnv*, jclass, jlong j_p) {
CHECK_RELEASE(reinterpret_cast<MediaStreamTrackInterface*>(j_p));
}
JOW(jboolean, MediaStream_nativeAddAudioTrack)(
JNIEnv* jni, jclass, jlong pointer, jlong j_audio_track_pointer) {
return reinterpret_cast<MediaStreamInterface*>(pointer)->AddTrack(
reinterpret_cast<AudioTrackInterface*>(j_audio_track_pointer));
}
JOW(jboolean, MediaStream_nativeAddVideoTrack)(
JNIEnv* jni, jclass, jlong pointer, jlong j_video_track_pointer) {
return reinterpret_cast<MediaStreamInterface*>(pointer)
->AddTrack(reinterpret_cast<VideoTrackInterface*>(j_video_track_pointer));
}
JOW(jboolean, MediaStream_nativeRemoveAudioTrack)(
JNIEnv* jni, jclass, jlong pointer, jlong j_audio_track_pointer) {
return reinterpret_cast<MediaStreamInterface*>(pointer)->RemoveTrack(
reinterpret_cast<AudioTrackInterface*>(j_audio_track_pointer));
}
JOW(jboolean, MediaStream_nativeRemoveVideoTrack)(
JNIEnv* jni, jclass, jlong pointer, jlong j_video_track_pointer) {
return reinterpret_cast<MediaStreamInterface*>(pointer)->RemoveTrack(
reinterpret_cast<VideoTrackInterface*>(j_video_track_pointer));
}
JOW(jstring, MediaStream_nativeLabel)(JNIEnv* jni, jclass, jlong j_p) {
return JavaStringFromStdString(
jni, reinterpret_cast<MediaStreamInterface*>(j_p)->label());
}
JOW(void, MediaStream_free)(JNIEnv*, jclass, jlong j_p) {
CHECK_RELEASE(reinterpret_cast<MediaStreamInterface*>(j_p));
}
JOW(jlong, PeerConnectionFactory_nativeCreateObserver)(
JNIEnv * jni, jclass, jobject j_observer) {
return (jlong)new PCOJava(jni, j_observer);
}
#if defined(ANDROID) && !defined(WEBRTC_CHROMIUM_BUILD)
JOW(jboolean, PeerConnectionFactory_initializeAndroidGlobals)(
JNIEnv* jni, jclass, jobject context,
jboolean initialize_audio, jboolean initialize_video,
jboolean vp8_hw_acceleration, jobject render_egl_context) {
bool failure = false;
vp8_hw_acceleration_enabled = vp8_hw_acceleration;
if (!factory_static_initialized) {
if (initialize_video) {
failure |= webrtc::SetRenderAndroidVM(GetJVM());
failure |= AndroidVideoCapturerJni::SetAndroidObjects(jni, context);
}
if (initialize_audio)
failure |= webrtc::VoiceEngine::SetAndroidObjects(GetJVM(), context);
factory_static_initialized = true;
}
if (initialize_video) {
failure |= MediaCodecVideoDecoderFactory::SetAndroidObjects(jni,
render_egl_context);
}
return !failure;
}
#endif // defined(ANDROID) && !defined(WEBRTC_CHROMIUM_BUILD)
JOW(void, PeerConnectionFactory_initializeFieldTrials)(
JNIEnv* jni, jclass, jstring j_trials_init_string) {
field_trials_init_string = NULL;
if (j_trials_init_string != NULL) {
const char* init_string =
jni->GetStringUTFChars(j_trials_init_string, NULL);
int init_string_length = jni->GetStringUTFLength(j_trials_init_string);
field_trials_init_string = new char[init_string_length + 1];
rtc::strcpyn(field_trials_init_string, init_string_length + 1, init_string);
jni->ReleaseStringUTFChars(j_trials_init_string, init_string);
LOG(LS_INFO) << "initializeFieldTrials: " << field_trials_init_string;
}
webrtc::field_trial::InitFieldTrialsFromString(field_trials_init_string);
}
// Helper struct for working around the fact that CreatePeerConnectionFactory()
// comes in two flavors: either entirely automagical (constructing its own
// threads and deleting them on teardown, but no external codec factory support)
// or entirely manual (requires caller to delete threads after factory
// teardown). This struct takes ownership of its ctor's arguments to present a
// single thing for Java to hold and eventually free.
class OwnedFactoryAndThreads {
public:
OwnedFactoryAndThreads(Thread* worker_thread,
Thread* signaling_thread,
PeerConnectionFactoryInterface* factory)
: worker_thread_(worker_thread),
signaling_thread_(signaling_thread),
factory_(factory) {}
~OwnedFactoryAndThreads() { CHECK_RELEASE(factory_); }
PeerConnectionFactoryInterface* factory() { return factory_; }
private:
const scoped_ptr<Thread> worker_thread_;
const scoped_ptr<Thread> signaling_thread_;
PeerConnectionFactoryInterface* factory_; // Const after ctor except dtor.
};
JOW(jlong, PeerConnectionFactory_nativeCreatePeerConnectionFactory)(
JNIEnv* jni, jclass) {
// talk/ assumes pretty widely that the current Thread is ThreadManager'd, but
// ThreadManager only WrapCurrentThread()s the thread where it is first
// created. Since the semantics around when auto-wrapping happens in
// webrtc/base/ are convoluted, we simply wrap here to avoid having to think
// about ramifications of auto-wrapping there.
rtc::ThreadManager::Instance()->WrapCurrentThread();
webrtc::Trace::CreateTrace();
Thread* worker_thread = new Thread();
worker_thread->SetName("worker_thread", NULL);
Thread* signaling_thread = new Thread();
signaling_thread->SetName("signaling_thread", NULL);
CHECK(worker_thread->Start() && signaling_thread->Start())
<< "Failed to start threads";
scoped_ptr<cricket::WebRtcVideoEncoderFactory> encoder_factory;
scoped_ptr<cricket::WebRtcVideoDecoderFactory> decoder_factory;
#if defined(ANDROID) && !defined(WEBRTC_CHROMIUM_BUILD)
if (vp8_hw_acceleration_enabled) {
encoder_factory.reset(new MediaCodecVideoEncoderFactory());
decoder_factory.reset(new MediaCodecVideoDecoderFactory());
}
#endif
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory(
webrtc::CreatePeerConnectionFactory(worker_thread,
signaling_thread,
NULL,
encoder_factory.release(),
decoder_factory.release()));
OwnedFactoryAndThreads* owned_factory = new OwnedFactoryAndThreads(
worker_thread, signaling_thread, factory.release());
return jlongFromPointer(owned_factory);
}
JOW(void, PeerConnectionFactory_freeFactory)(JNIEnv*, jclass, jlong j_p) {
delete reinterpret_cast<OwnedFactoryAndThreads*>(j_p);
if (field_trials_init_string) {
webrtc::field_trial::InitFieldTrialsFromString(NULL);
delete field_trials_init_string;
field_trials_init_string = NULL;
}
webrtc::Trace::ReturnTrace();
}
static PeerConnectionFactoryInterface* factoryFromJava(jlong j_p) {
return reinterpret_cast<OwnedFactoryAndThreads*>(j_p)->factory();
}
JOW(jlong, PeerConnectionFactory_nativeCreateLocalMediaStream)(
JNIEnv* jni, jclass, jlong native_factory, jstring label) {
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory(
factoryFromJava(native_factory));
rtc::scoped_refptr<MediaStreamInterface> stream(
factory->CreateLocalMediaStream(JavaToStdString(jni, label)));
return (jlong)stream.release();
}
JOW(jlong, PeerConnectionFactory_nativeCreateVideoSource)(
JNIEnv* jni, jclass, jlong native_factory, jlong native_capturer,
jobject j_constraints) {
scoped_ptr<ConstraintsWrapper> constraints(
new ConstraintsWrapper(jni, j_constraints));
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory(
factoryFromJava(native_factory));
rtc::scoped_refptr<VideoSourceInterface> source(
factory->CreateVideoSource(
reinterpret_cast<cricket::VideoCapturer*>(native_capturer),
constraints.get()));
return (jlong)source.release();
}
JOW(jlong, PeerConnectionFactory_nativeCreateVideoTrack)(
JNIEnv* jni, jclass, jlong native_factory, jstring id,
jlong native_source) {
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory(
factoryFromJava(native_factory));
rtc::scoped_refptr<VideoTrackInterface> track(
factory->CreateVideoTrack(
JavaToStdString(jni, id),
reinterpret_cast<VideoSourceInterface*>(native_source)));
return (jlong)track.release();
}
JOW(jlong, PeerConnectionFactory_nativeCreateAudioSource)(
JNIEnv* jni, jclass, jlong native_factory, jobject j_constraints) {
scoped_ptr<ConstraintsWrapper> constraints(
new ConstraintsWrapper(jni, j_constraints));
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory(
factoryFromJava(native_factory));
rtc::scoped_refptr<AudioSourceInterface> source(
factory->CreateAudioSource(constraints.get()));
return (jlong)source.release();
}
JOW(jlong, PeerConnectionFactory_nativeCreateAudioTrack)(
JNIEnv* jni, jclass, jlong native_factory, jstring id,
jlong native_source) {
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory(
factoryFromJava(native_factory));
rtc::scoped_refptr<AudioTrackInterface> track(factory->CreateAudioTrack(
JavaToStdString(jni, id),
reinterpret_cast<AudioSourceInterface*>(native_source)));
return (jlong)track.release();
}
JOW(void, PeerConnectionFactory_nativeSetOptions)(
JNIEnv* jni, jclass, jlong native_factory, jobject options) {
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory(
factoryFromJava(native_factory));
jclass options_class = jni->GetObjectClass(options);
jfieldID network_ignore_mask_field =
jni->GetFieldID(options_class, "networkIgnoreMask", "I");
int network_ignore_mask =
jni->GetIntField(options, network_ignore_mask_field);
PeerConnectionFactoryInterface::Options options_to_set;
// This doesn't necessarily match the c++ version of this struct; feel free
// to add more parameters as necessary.
options_to_set.network_ignore_mask = network_ignore_mask;
factory->SetOptions(options_to_set);
}
static 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);
}
static PeerConnectionInterface::IceTransportsType
JavaIceTransportsTypeToNativeType(JNIEnv* jni, jobject j_ice_transports_type) {
std::string enum_name = GetJavaEnumName(
jni, "org/webrtc/PeerConnection$IceTransportsType",
j_ice_transports_type);
if (enum_name == "ALL")
return PeerConnectionInterface::kAll;
if (enum_name == "RELAY")
return PeerConnectionInterface::kRelay;
if (enum_name == "NOHOST")
return PeerConnectionInterface::kNoHost;
if (enum_name == "NONE")
return PeerConnectionInterface::kNone;
CHECK(false) << "Unexpected IceTransportsType enum_name " << enum_name;
return PeerConnectionInterface::kAll;
}
static PeerConnectionInterface::BundlePolicy
JavaBundlePolicyToNativeType(JNIEnv* jni, jobject j_bundle_policy) {
std::string enum_name = GetJavaEnumName(
jni, "org/webrtc/PeerConnection$BundlePolicy",
j_bundle_policy);
if (enum_name == "BALANCED")
return PeerConnectionInterface::kBundlePolicyBalanced;
if (enum_name == "MAXBUNDLE")
return PeerConnectionInterface::kBundlePolicyMaxBundle;
if (enum_name == "MAXCOMPAT")
return PeerConnectionInterface::kBundlePolicyMaxCompat;
CHECK(false) << "Unexpected BundlePolicy enum_name " << enum_name;
return PeerConnectionInterface::kBundlePolicyBalanced;
}
static PeerConnectionInterface::TcpCandidatePolicy
JavaTcpCandidatePolicyToNativeType(
JNIEnv* jni, jobject j_tcp_candidate_policy) {
std::string enum_name = GetJavaEnumName(
jni, "org/webrtc/PeerConnection$TcpCandidatePolicy",
j_tcp_candidate_policy);
if (enum_name == "ENABLED")
return PeerConnectionInterface::kTcpCandidatePolicyEnabled;
if (enum_name == "DISABLED")
return PeerConnectionInterface::kTcpCandidatePolicyDisabled;
CHECK(false) << "Unexpected TcpCandidatePolicy enum_name " << enum_name;
return PeerConnectionInterface::kTcpCandidatePolicyEnabled;
}
static void JavaIceServersToJsepIceServers(
JNIEnv* jni, jobject j_ice_servers,
PeerConnectionInterface::IceServers* ice_servers) {
jclass list_class = GetObjectClass(jni, j_ice_servers);
jmethodID iterator_id = GetMethodID(
jni, list_class, "iterator", "()Ljava/util/Iterator;");
jobject iterator = jni->CallObjectMethod(j_ice_servers, iterator_id);
CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
jmethodID iterator_has_next = GetMethodID(
jni, GetObjectClass(jni, iterator), "hasNext", "()Z");
jmethodID iterator_next = GetMethodID(
jni, GetObjectClass(jni, iterator), "next", "()Ljava/lang/Object;");
while (jni->CallBooleanMethod(iterator, iterator_has_next)) {
CHECK_EXCEPTION(jni) << "error during CallBooleanMethod";
jobject j_ice_server = jni->CallObjectMethod(iterator, iterator_next);
CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
jclass j_ice_server_class = GetObjectClass(jni, j_ice_server);
jfieldID j_ice_server_uri_id =
GetFieldID(jni, j_ice_server_class, "uri", "Ljava/lang/String;");
jfieldID j_ice_server_username_id =
GetFieldID(jni, j_ice_server_class, "username", "Ljava/lang/String;");
jfieldID j_ice_server_password_id =
GetFieldID(jni, j_ice_server_class, "password", "Ljava/lang/String;");
jstring uri = reinterpret_cast<jstring>(
GetObjectField(jni, j_ice_server, j_ice_server_uri_id));
jstring username = reinterpret_cast<jstring>(
GetObjectField(jni, j_ice_server, j_ice_server_username_id));
jstring password = reinterpret_cast<jstring>(
GetObjectField(jni, j_ice_server, j_ice_server_password_id));
PeerConnectionInterface::IceServer server;
server.uri = JavaToStdString(jni, uri);
server.username = JavaToStdString(jni, username);
server.password = JavaToStdString(jni, password);
ice_servers->push_back(server);
}
CHECK_EXCEPTION(jni) << "error during CallBooleanMethod";
}
JOW(jlong, PeerConnectionFactory_nativeCreatePeerConnection)(
JNIEnv *jni, jclass, jlong factory, jobject j_rtc_config,
jobject j_constraints, jlong observer_p) {
rtc::scoped_refptr<PeerConnectionFactoryInterface> f(
reinterpret_cast<PeerConnectionFactoryInterface*>(
factoryFromJava(factory)));
jclass j_rtc_config_class = GetObjectClass(jni, j_rtc_config);
jfieldID j_ice_transports_type_id = GetFieldID(
jni, j_rtc_config_class, "iceTransportsType",
"Lorg/webrtc/PeerConnection$IceTransportsType;");
jobject j_ice_transports_type = GetObjectField(
jni, j_rtc_config, j_ice_transports_type_id);
jfieldID j_bundle_policy_id = GetFieldID(
jni, j_rtc_config_class, "bundlePolicy",
"Lorg/webrtc/PeerConnection$BundlePolicy;");
jobject j_bundle_policy = GetObjectField(
jni, j_rtc_config, j_bundle_policy_id);
jfieldID j_tcp_candidate_policy_id = GetFieldID(
jni, j_rtc_config_class, "tcpCandidatePolicy",
"Lorg/webrtc/PeerConnection$TcpCandidatePolicy;");
jobject j_tcp_candidate_policy = GetObjectField(
jni, j_rtc_config, j_tcp_candidate_policy_id);
jfieldID j_ice_servers_id = GetFieldID(
jni, j_rtc_config_class, "iceServers",
"Ljava/util/List;");
jobject j_ice_servers = GetObjectField(jni, j_rtc_config, j_ice_servers_id);
PeerConnectionInterface::RTCConfiguration rtc_config;
rtc_config.type =
JavaIceTransportsTypeToNativeType(jni, j_ice_transports_type);
rtc_config.bundle_policy = JavaBundlePolicyToNativeType(jni, j_bundle_policy);
rtc_config.tcp_candidate_policy =
JavaTcpCandidatePolicyToNativeType(jni, j_tcp_candidate_policy);
JavaIceServersToJsepIceServers(jni, j_ice_servers, &rtc_config.servers);
PCOJava* observer = reinterpret_cast<PCOJava*>(observer_p);
observer->SetConstraints(new ConstraintsWrapper(jni, j_constraints));
rtc::scoped_refptr<PeerConnectionInterface> pc(f->CreatePeerConnection(
rtc_config, observer->constraints(), NULL, NULL, observer));
return (jlong)pc.release();
}
static rtc::scoped_refptr<PeerConnectionInterface> ExtractNativePC(
JNIEnv* jni, jobject j_pc) {
jfieldID native_pc_id = GetFieldID(jni,
GetObjectClass(jni, j_pc), "nativePeerConnection", "J");
jlong j_p = GetLongField(jni, j_pc, native_pc_id);
return rtc::scoped_refptr<PeerConnectionInterface>(
reinterpret_cast<PeerConnectionInterface*>(j_p));
}
JOW(jobject, PeerConnection_getLocalDescription)(JNIEnv* jni, jobject j_pc) {
const SessionDescriptionInterface* sdp =
ExtractNativePC(jni, j_pc)->local_description();
return sdp ? JavaSdpFromNativeSdp(jni, sdp) : NULL;
}
JOW(jobject, PeerConnection_getRemoteDescription)(JNIEnv* jni, jobject j_pc) {
const SessionDescriptionInterface* sdp =
ExtractNativePC(jni, j_pc)->remote_description();
return sdp ? JavaSdpFromNativeSdp(jni, sdp) : NULL;
}
JOW(jobject, PeerConnection_createDataChannel)(
JNIEnv* jni, jobject j_pc, jstring j_label, jobject j_init) {
DataChannelInit init = JavaDataChannelInitToNative(jni, j_init);
rtc::scoped_refptr<DataChannelInterface> channel(
ExtractNativePC(jni, j_pc)->CreateDataChannel(
JavaToStdString(jni, j_label), &init));
// Mustn't pass channel.get() directly through NewObject to avoid reading its
// vararg parameter as 64-bit and reading memory that doesn't belong to the
// 32-bit parameter.
jlong nativeChannelPtr = jlongFromPointer(channel.get());
CHECK(nativeChannelPtr) << "Failed to create DataChannel";
jclass j_data_channel_class = FindClass(jni, "org/webrtc/DataChannel");
jmethodID j_data_channel_ctor = GetMethodID(
jni, j_data_channel_class, "<init>", "(J)V");
jobject j_channel = jni->NewObject(
j_data_channel_class, j_data_channel_ctor, nativeChannelPtr);
CHECK_EXCEPTION(jni) << "error during NewObject";
// Channel is now owned by Java object, and will be freed from there.
int bumped_count = channel->AddRef();
CHECK(bumped_count == 2) << "Unexpected refcount";
return j_channel;
}
JOW(void, PeerConnection_createOffer)(
JNIEnv* jni, jobject j_pc, jobject j_observer, jobject j_constraints) {
ConstraintsWrapper* constraints =
new ConstraintsWrapper(jni, j_constraints);
rtc::scoped_refptr<CreateSdpObserverWrapper> observer(
new rtc::RefCountedObject<CreateSdpObserverWrapper>(
jni, j_observer, constraints));
ExtractNativePC(jni, j_pc)->CreateOffer(observer, constraints);
}
JOW(void, PeerConnection_createAnswer)(
JNIEnv* jni, jobject j_pc, jobject j_observer, jobject j_constraints) {
ConstraintsWrapper* constraints =
new ConstraintsWrapper(jni, j_constraints);
rtc::scoped_refptr<CreateSdpObserverWrapper> observer(
new rtc::RefCountedObject<CreateSdpObserverWrapper>(
jni, j_observer, constraints));
ExtractNativePC(jni, j_pc)->CreateAnswer(observer, constraints);
}
// Helper to create a SessionDescriptionInterface from a SessionDescription.
static SessionDescriptionInterface* JavaSdpToNativeSdp(
JNIEnv* jni, jobject j_sdp) {
jfieldID j_type_id = GetFieldID(
jni, GetObjectClass(jni, j_sdp), "type",
"Lorg/webrtc/SessionDescription$Type;");
jobject j_type = GetObjectField(jni, j_sdp, j_type_id);
jmethodID j_canonical_form_id = GetMethodID(
jni, GetObjectClass(jni, j_type), "canonicalForm",
"()Ljava/lang/String;");
jstring j_type_string = (jstring)jni->CallObjectMethod(
j_type, j_canonical_form_id);
CHECK_EXCEPTION(jni) << "error during CallObjectMethod";
std::string std_type = JavaToStdString(jni, j_type_string);
jfieldID j_description_id = GetFieldID(
jni, GetObjectClass(jni, j_sdp), "description", "Ljava/lang/String;");
jstring j_description = (jstring)GetObjectField(jni, j_sdp, j_description_id);
std::string std_description = JavaToStdString(jni, j_description);
return webrtc::CreateSessionDescription(
std_type, std_description, NULL);
}
JOW(void, PeerConnection_setLocalDescription)(
JNIEnv* jni, jobject j_pc,
jobject j_observer, jobject j_sdp) {
rtc::scoped_refptr<SetSdpObserverWrapper> observer(
new rtc::RefCountedObject<SetSdpObserverWrapper>(
jni, j_observer, reinterpret_cast<ConstraintsWrapper*>(NULL)));
ExtractNativePC(jni, j_pc)->SetLocalDescription(
observer, JavaSdpToNativeSdp(jni, j_sdp));
}
JOW(void, PeerConnection_setRemoteDescription)(
JNIEnv* jni, jobject j_pc,
jobject j_observer, jobject j_sdp) {
rtc::scoped_refptr<SetSdpObserverWrapper> observer(
new rtc::RefCountedObject<SetSdpObserverWrapper>(
jni, j_observer, reinterpret_cast<ConstraintsWrapper*>(NULL)));
ExtractNativePC(jni, j_pc)->SetRemoteDescription(
observer, JavaSdpToNativeSdp(jni, j_sdp));
}
JOW(jboolean, PeerConnection_updateIce)(
JNIEnv* jni, jobject j_pc, jobject j_ice_servers, jobject j_constraints) {
PeerConnectionInterface::IceServers ice_servers;
JavaIceServersToJsepIceServers(jni, j_ice_servers, &ice_servers);
scoped_ptr<ConstraintsWrapper> constraints(
new ConstraintsWrapper(jni, j_constraints));
return ExtractNativePC(jni, j_pc)->UpdateIce(ice_servers, constraints.get());
}
JOW(jboolean, PeerConnection_nativeAddIceCandidate)(
JNIEnv* jni, jobject j_pc, jstring j_sdp_mid,
jint j_sdp_mline_index, jstring j_candidate_sdp) {
std::string sdp_mid = JavaToStdString(jni, j_sdp_mid);
std::string sdp = JavaToStdString(jni, j_candidate_sdp);
scoped_ptr<IceCandidateInterface> candidate(
webrtc::CreateIceCandidate(sdp_mid, j_sdp_mline_index, sdp, NULL));
return ExtractNativePC(jni, j_pc)->AddIceCandidate(candidate.get());
}
JOW(jboolean, PeerConnection_nativeAddLocalStream)(
JNIEnv* jni, jobject j_pc, jlong native_stream) {
return ExtractNativePC(jni, j_pc)->AddStream(
reinterpret_cast<MediaStreamInterface*>(native_stream));
}
JOW(void, PeerConnection_nativeRemoveLocalStream)(
JNIEnv* jni, jobject j_pc, jlong native_stream) {
ExtractNativePC(jni, j_pc)->RemoveStream(
reinterpret_cast<MediaStreamInterface*>(native_stream));
}
JOW(bool, PeerConnection_nativeGetStats)(
JNIEnv* jni, jobject j_pc, jobject j_observer, jlong native_track) {
rtc::scoped_refptr<StatsObserverWrapper> observer(
new rtc::RefCountedObject<StatsObserverWrapper>(jni, j_observer));
return ExtractNativePC(jni, j_pc)->GetStats(
observer,
reinterpret_cast<MediaStreamTrackInterface*>(native_track),
PeerConnectionInterface::kStatsOutputLevelStandard);
}
JOW(jobject, PeerConnection_signalingState)(JNIEnv* jni, jobject j_pc) {
PeerConnectionInterface::SignalingState state =
ExtractNativePC(jni, j_pc)->signaling_state();
return JavaEnumFromIndex(jni, "PeerConnection$SignalingState", state);
}
JOW(jobject, PeerConnection_iceConnectionState)(JNIEnv* jni, jobject j_pc) {
PeerConnectionInterface::IceConnectionState state =
ExtractNativePC(jni, j_pc)->ice_connection_state();
return JavaEnumFromIndex(jni, "PeerConnection$IceConnectionState", state);
}
JOW(jobject, PeerConnection_iceGatheringState)(JNIEnv* jni, jobject j_pc) {
PeerConnectionInterface::IceGatheringState state =
ExtractNativePC(jni, j_pc)->ice_gathering_state();
return JavaEnumFromIndex(jni, "PeerConnection$IceGatheringState", state);
}
JOW(void, PeerConnection_close)(JNIEnv* jni, jobject j_pc) {
ExtractNativePC(jni, j_pc)->Close();
return;
}
JOW(jobject, MediaSource_nativeState)(JNIEnv* jni, jclass, jlong j_p) {
rtc::scoped_refptr<MediaSourceInterface> p(
reinterpret_cast<MediaSourceInterface*>(j_p));
return JavaEnumFromIndex(jni, "MediaSource$State", p->state());
}
JOW(jobject, VideoCapturer_nativeCreateVideoCapturer)(
JNIEnv* jni, jclass, jstring j_device_name) {
// Since we can't create platform specific java implementations in Java, we
// defer the creation to C land.
#if defined(ANDROID)
jclass j_video_capturer_class(
FindClass(jni, "org/webrtc/VideoCapturerAndroid"));
const jmethodID j_videocapturer_ctor(GetMethodID(
jni, j_video_capturer_class, "<init>", "()V"));
jobject j_video_capturer = jni->NewObject(j_video_capturer_class,
j_videocapturer_ctor);
CHECK_EXCEPTION(jni) << "error during NewObject";
rtc::scoped_refptr<AndroidVideoCapturerJni> delegate =
AndroidVideoCapturerJni::Create(jni, j_video_capturer, j_device_name);
if (!delegate.get())
return nullptr;
rtc::scoped_ptr<webrtc::AndroidVideoCapturer> capturer(
new webrtc::AndroidVideoCapturer(delegate));
#else
std::string device_name = JavaToStdString(jni, j_device_name);
scoped_ptr<cricket::DeviceManagerInterface> device_manager(
cricket::DeviceManagerFactory::Create());
CHECK(device_manager->Init()) << "DeviceManager::Init() failed";
cricket::Device device;
if (!device_manager->GetVideoCaptureDevice(device_name, &device)) {
LOG(LS_ERROR) << "GetVideoCaptureDevice failed for " << device_name;
return 0;
}
scoped_ptr<cricket::VideoCapturer> capturer(
device_manager->CreateVideoCapturer(device));
jclass j_video_capturer_class(
FindClass(jni, "org/webrtc/VideoCapturer"));
const jmethodID j_videocapturer_ctor(GetMethodID(
jni, j_video_capturer_class, "<init>", "()V"));
jobject j_video_capturer =
jni->NewObject(j_video_capturer_class,
j_videocapturer_ctor);
CHECK_EXCEPTION(jni) << "error during creation of VideoCapturer";
#endif
const jmethodID j_videocapturer_set_native_capturer(GetMethodID(
jni, j_video_capturer_class, "setNativeCapturer", "(J)V"));
jni->CallVoidMethod(j_video_capturer,
j_videocapturer_set_native_capturer,
(jlong)capturer.release());
CHECK_EXCEPTION(jni) << "error during setNativeCapturer";
return j_video_capturer;
}
JOW(jlong, VideoRenderer_nativeCreateGuiVideoRenderer)(
JNIEnv* jni, jclass, int x, int y) {
scoped_ptr<VideoRendererWrapper> renderer(VideoRendererWrapper::Create(
cricket::VideoRendererFactory::CreateGuiVideoRenderer(x, y)));
return (jlong)renderer.release();
}
JOW(jlong, VideoRenderer_nativeWrapVideoRenderer)(
JNIEnv* jni, jclass, jobject j_callbacks) {
scoped_ptr<JavaVideoRendererWrapper> renderer(
new JavaVideoRendererWrapper(jni, j_callbacks));
return (jlong)renderer.release();
}
JOW(void, VideoRenderer_nativeCopyPlane)(
JNIEnv *jni, jclass, jobject j_src_buffer, jint width, jint height,
jint src_stride, jobject j_dst_buffer, jint dst_stride) {
size_t src_size = jni->GetDirectBufferCapacity(j_src_buffer);
size_t dst_size = jni->GetDirectBufferCapacity(j_dst_buffer);
CHECK(src_stride >= width) << "Wrong source stride " << src_stride;
CHECK(dst_stride >= width) << "Wrong destination stride " << dst_stride;
CHECK(src_size >= src_stride * height)
<< "Insufficient source buffer capacity " << src_size;
CHECK(dst_size >= dst_stride * height)
<< "Isufficient destination buffer capacity " << dst_size;
uint8_t *src =
reinterpret_cast<uint8_t*>(jni->GetDirectBufferAddress(j_src_buffer));
uint8_t *dst =
reinterpret_cast<uint8_t*>(jni->GetDirectBufferAddress(j_dst_buffer));
if (src_stride == dst_stride) {
memcpy(dst, src, src_stride * height);
} else {
for (int i = 0; i < height; i++) {
memcpy(dst, src, width);
src += src_stride;
dst += dst_stride;
}
}
}
JOW(void, VideoSource_stop)(JNIEnv* jni, jclass, jlong j_p) {
reinterpret_cast<VideoSourceInterface*>(j_p)->Stop();
}
JOW(void, VideoSource_restart)(
JNIEnv* jni, jclass, jlong j_p_source, jlong j_p_format) {
reinterpret_cast<VideoSourceInterface*>(j_p_source)->Restart();
}
JOW(jstring, MediaStreamTrack_nativeId)(JNIEnv* jni, jclass, jlong j_p) {
return JavaStringFromStdString(
jni, reinterpret_cast<MediaStreamTrackInterface*>(j_p)->id());
}
JOW(jstring, MediaStreamTrack_nativeKind)(JNIEnv* jni, jclass, jlong j_p) {
return JavaStringFromStdString(
jni, reinterpret_cast<MediaStreamTrackInterface*>(j_p)->kind());
}
JOW(jboolean, MediaStreamTrack_nativeEnabled)(JNIEnv* jni, jclass, jlong j_p) {
return reinterpret_cast<MediaStreamTrackInterface*>(j_p)->enabled();
}
JOW(jobject, MediaStreamTrack_nativeState)(JNIEnv* jni, jclass, jlong j_p) {
return JavaEnumFromIndex(
jni,
"MediaStreamTrack$State",
reinterpret_cast<MediaStreamTrackInterface*>(j_p)->state());
}
JOW(jboolean, MediaStreamTrack_nativeSetState)(
JNIEnv* jni, jclass, jlong j_p, jint j_new_state) {
MediaStreamTrackInterface::TrackState new_state =
(MediaStreamTrackInterface::TrackState)j_new_state;
return reinterpret_cast<MediaStreamTrackInterface*>(j_p)
->set_state(new_state);
}
JOW(jboolean, MediaStreamTrack_nativeSetEnabled)(
JNIEnv* jni, jclass, jlong j_p, jboolean enabled) {
return reinterpret_cast<MediaStreamTrackInterface*>(j_p)
->set_enabled(enabled);
}
JOW(void, VideoTrack_nativeAddRenderer)(
JNIEnv* jni, jclass,
jlong j_video_track_pointer, jlong j_renderer_pointer) {
reinterpret_cast<VideoTrackInterface*>(j_video_track_pointer)->AddRenderer(
reinterpret_cast<VideoRendererInterface*>(j_renderer_pointer));
}
JOW(void, VideoTrack_nativeRemoveRenderer)(
JNIEnv* jni, jclass,
jlong j_video_track_pointer, jlong j_renderer_pointer) {
reinterpret_cast<VideoTrackInterface*>(j_video_track_pointer)->RemoveRenderer(
reinterpret_cast<VideoRendererInterface*>(j_renderer_pointer));
}
} // namespace webrtc_jni
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