video_capture_android.cc

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/*

 *  Copyright (c) 2012 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 "video_capture_android.h"

#include "device_info_android.h"

#include "modules/utility/include/helpers_android.h"

#include "rtc_base/logging.h"

#include "rtc_base/ref_counted_object.h"

#include "rtc_base/time_utils.h"

#include "AndroidBridge.h"

static JavaVM* g_jvm_capture = NULL;

static jclass g_java_capturer_class = NULL;  // VideoCaptureAndroid.class.

static jobject g_context = NULL;             // Owned android.content.Context.

namespace webrtc {

jobject JniCommon_allocateNativeByteBuffer(JNIEnv* env, jclass, jint size) {

  void* new_data = ::operator new(size);

  jobject byte_buffer = env->NewDirectByteBuffer(new_data, size);

  return byte_buffer;

void JniCommon_freeNativeByteBuffer(JNIEnv* env, jclass, jobject byte_buffer) {

  void* data = env->GetDirectBufferAddress(byte_buffer);

  ::operator delete(data);

// Called by Java to get the global application context.

jobject JNICALL GetContext(JNIEnv* env, jclass) {

  assert(g_context);

  return g_context;

// Called by Java when the camera has a new frame to deliver.

void JNICALL ProvideCameraFrame(JNIEnv* env, jobject, jint width, jint height,

                                jobject javaDataY, jint strideY,

                                jobject javaDataU, jint strideU,

                                jobject javaDataV, jint strideV, jint rotation,

                                jlong timeStamp, jlong context) {

  if (!context) {

    return;

  webrtc::videocapturemodule::VideoCaptureAndroid* captureModule =

      reinterpret_cast<webrtc::videocapturemodule::VideoCaptureAndroid*>(

          context);

  uint8_t* dataY =

      reinterpret_cast<uint8_t*>(env->GetDirectBufferAddress(javaDataY));

  uint8_t* dataU =

      reinterpret_cast<uint8_t*>(env->GetDirectBufferAddress(javaDataU));

  uint8_t* dataV =

      reinterpret_cast<uint8_t*>(env->GetDirectBufferAddress(javaDataV));

  rtc::scoped_refptr<I420Buffer> i420Buffer = I420Buffer::Copy(

      width, height, dataY, strideY, dataU, strideU, dataV, strideV);

  captureModule->OnIncomingFrame(i420Buffer, rotation, timeStamp);

int32_t SetCaptureAndroidVM(JavaVM* javaVM) {

  if (g_java_capturer_class) {

    return 0;

  if (javaVM) {

    assert(!g_jvm_capture);

    g_jvm_capture = javaVM;

    AttachThreadScoped ats(g_jvm_capture);

    g_context = mozilla::AndroidBridge::Bridge()->GetGlobalContextRef();

    videocapturemodule::DeviceInfoAndroid::Initialize(g_jvm_capture);

      jclass clsRef = mozilla::jni::GetClassRef(

          ats.env(), "org/webrtc/videoengine/VideoCaptureAndroid");

      g_java_capturer_class =

          static_cast<jclass>(ats.env()->NewGlobalRef(clsRef));

      ats.env()->DeleteLocalRef(clsRef);

      assert(g_java_capturer_class);

      JNINativeMethod native_methods[] = {

          {"GetContext", "()Landroid/content/Context;",

           reinterpret_cast<void*>(&GetContext)},

          {"ProvideCameraFrame",

           "(IILjava/nio/ByteBuffer;ILjava/nio/ByteBuffer;ILjava/nio/"

           "ByteBuffer;IIJJ)V",

           reinterpret_cast<void*>(&ProvideCameraFrame)}};

      if (ats.env()->RegisterNatives(g_java_capturer_class, native_methods,

                                     2) != 0)

        assert(false);

      jclass clsRef =

          mozilla::jni::GetClassRef(ats.env(), "org/webrtc/JniCommon");

      JNINativeMethod native_methods[] = {

          {"nativeAllocateByteBuffer", "(I)Ljava/nio/ByteBuffer;",

           reinterpret_cast<void*>(&JniCommon_allocateNativeByteBuffer)},

          {"nativeFreeByteBuffer", "(Ljava/nio/ByteBuffer;)V",

           reinterpret_cast<void*>(&JniCommon_freeNativeByteBuffer)}};

      if (ats.env()->RegisterNatives(clsRef, native_methods, 2) != 0)

        assert(false);

  } else {

    if (g_jvm_capture) {

      AttachThreadScoped ats(g_jvm_capture);

      ats.env()->UnregisterNatives(g_java_capturer_class);

      ats.env()->DeleteGlobalRef(g_java_capturer_class);

      g_java_capturer_class = NULL;

      g_context = NULL;

      videocapturemodule::DeviceInfoAndroid::DeInitialize();

      g_jvm_capture = NULL;

  return 0;

namespace videocapturemodule {

rtc::scoped_refptr<VideoCaptureModule> VideoCaptureImpl::Create(

    const char* deviceUniqueIdUTF8) {

  rtc::scoped_refptr<VideoCaptureAndroid> implementation(

      new rtc::RefCountedObject<VideoCaptureAndroid>());

  if (implementation->Init(deviceUniqueIdUTF8) != 0) {

    implementation = nullptr;

  return implementation;

void VideoCaptureAndroid::OnIncomingFrame(rtc::scoped_refptr<I420Buffer> buffer,

                                          int32_t degrees,

                                          int64_t captureTime) {

  MutexLock lock(&api_lock_);

  VideoRotation rotation =

      (degrees <= 45 || degrees > 315)    ? kVideoRotation_0

      : (degrees > 45 && degrees <= 135)  ? kVideoRotation_90

      : (degrees > 135 && degrees <= 225) ? kVideoRotation_180

      : (degrees > 225 && degrees <= 315) ? kVideoRotation_270

                                          : kVideoRotation_0;  // Impossible.

  // Historically, we have ignored captureTime. Why?

  VideoFrame captureFrame(I420Buffer::Rotate(*buffer, rotation), 0,

                          rtc::TimeMillis(), rotation);

  DeliverCapturedFrame(captureFrame);

VideoCaptureAndroid::VideoCaptureAndroid()

    : VideoCaptureImpl(),

      _deviceInfo(),

      _jCapturer(NULL),

      _captureStarted(false) {}

int32_t VideoCaptureAndroid::Init(const char* deviceUniqueIdUTF8) {

  const int nameLength = strlen(deviceUniqueIdUTF8);

  if (nameLength >= kVideoCaptureUniqueNameLength) return -1;

  RTC_DCHECK_RUN_ON(&api_checker_);

  // Store the device name

  RTC_LOG(LS_INFO) << "VideoCaptureAndroid::Init: " << deviceUniqueIdUTF8;

  _deviceUniqueId = new char[nameLength + 1];

  memcpy(_deviceUniqueId, deviceUniqueIdUTF8, nameLength + 1);

  AttachThreadScoped ats(g_jvm_capture);

  JNIEnv* env = ats.env();

  jmethodID factory =

      env->GetStaticMethodID(g_java_capturer_class, "create",

                             "(Ljava/lang/String;)"

                             "Lorg/webrtc/videoengine/VideoCaptureAndroid;");

  assert(factory);

  jstring j_deviceName = env->NewStringUTF(_deviceUniqueId);

  _jCapturer = env->NewGlobalRef(env->CallStaticObjectMethod(

      g_java_capturer_class, factory, j_deviceName));

  assert(_jCapturer);

  return 0;

VideoCaptureAndroid::~VideoCaptureAndroid() {

  // Ensure Java camera is released even if our caller didn't explicitly Stop.

  if (_captureStarted) StopCapture();

  AttachThreadScoped ats(g_jvm_capture);

  JNIEnv* env = ats.env();

  env->DeleteGlobalRef(_jCapturer);

int32_t VideoCaptureAndroid::StartCapture(

    const VideoCaptureCapability& capability) {

  AttachThreadScoped ats(g_jvm_capture);

  JNIEnv* env = ats.env();

  int width = 0;

  int height = 0;

  int min_mfps = 0;

  int max_mfps = 0;

    RTC_DCHECK_RUN_ON(&api_checker_);

    MutexLock lock(&api_lock_);

    if (_deviceInfo.GetBestMatchedCapability(_deviceUniqueId, capability,

                                             _captureCapability) < 0) {

      RTC_LOG(LS_ERROR) << __FUNCTION__

                        << "s: GetBestMatchedCapability failed: "

                        << capability.width << "x" << capability.height;

      return -1;

    width = _captureCapability.width;

    height = _captureCapability.height;

    _deviceInfo.GetMFpsRange(_deviceUniqueId, _captureCapability.maxFPS,

                             &min_mfps, &max_mfps);

    // Exit critical section to avoid blocking camera thread inside

    // onIncomingFrame() call.

  jmethodID j_start =

      env->GetMethodID(g_java_capturer_class, "startCapture", "(IIIIJ)Z");

  assert(j_start);

  jlong j_this = reinterpret_cast<intptr_t>(this);

  bool started = env->CallBooleanMethod(_jCapturer, j_start, width, height,

                                        min_mfps, max_mfps, j_this);

  if (started) {

    RTC_DCHECK_RUN_ON(&api_checker_);

    MutexLock lock(&api_lock_);

    _requestedCapability = capability;

    _captureStarted = true;

  return started ? 0 : -1;

int32_t VideoCaptureAndroid::StopCapture() {

  AttachThreadScoped ats(g_jvm_capture);

  JNIEnv* env = ats.env();

    RTC_DCHECK_RUN_ON(&api_checker_);

    MutexLock lock(&api_lock_);

    memset(&_requestedCapability, 0, sizeof(_requestedCapability));

    memset(&_captureCapability, 0, sizeof(_captureCapability));

    _captureStarted = false;

    // Exit critical section to avoid blocking camera thread inside

    // onIncomingFrame() call.

  // try to stop the capturer.

  jmethodID j_stop =

      env->GetMethodID(g_java_capturer_class, "stopCapture", "()Z");

  return env->CallBooleanMethod(_jCapturer, j_stop) ? 0 : -1;

bool VideoCaptureAndroid::CaptureStarted() {

  MutexLock lock(&api_lock_);

  return _captureStarted;

int32_t VideoCaptureAndroid::CaptureSettings(VideoCaptureCapability& settings) {

  RTC_DCHECK_RUN_ON(&api_checker_);

  MutexLock lock(&api_lock_);

  settings = _requestedCapability;

  return 0;

}  // namespace videocapturemodule

}  // namespace webrtc