gecko-dev/widget/android/AndroidBridge.cpp

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/* -*- Mode: c++; c-basic-offset: 2; tab-width: 20; indent-tabs-mode: nil; -*-
2012-05-21 15:12:37 +04:00
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include <android/log.h>
#include <dlfcn.h>
#include <math.h>
#include <GLES2/gl2.h>
#include "mozilla/layers/CompositorBridgeChild.h"
#include "mozilla/layers/CompositorBridgeParent.h"
#include "mozilla/Hal.h"
#include "nsXULAppAPI.h"
#include <prthread.h>
#include "AndroidBridge.h"
#include "AndroidBridgeUtilities.h"
#include "nsAlertsUtils.h"
#include "nsAppShell.h"
#include "nsOSHelperAppService.h"
#include "nsWindow.h"
#include "mozilla/Preferences.h"
#include "nsThreadUtils.h"
#include "nsIThreadManager.h"
#include "gfxPlatform.h"
#include "gfxContext.h"
#include "mozilla/gfx/2D.h"
#include "gfxUtils.h"
#include "nsPresContext.h"
#include "nsIDocShell.h"
#include "nsPIDOMWindow.h"
#include "nsIDOMWindowUtils.h"
#include "mozilla/ClearOnShutdown.h"
#include "nsPrintfCString.h"
#include "nsContentUtils.h"
#include "nsIScriptError.h"
#include "nsIHttpChannel.h"
Bug 1307820 - Implement per-GeckoView messaging; r=snorp r=sebastian Bug 1307820 - 1a. Move GeckoApp EventDispatcher to GeckoView; r=snorp Make it a GeckoView-specific EventDispatcher instead of GeckoApp-specific, so that GeckoView consumers can benefit from a per-view EventDispatcher. In addition, a few events like Gecko:Ready are moved back to the global EventDispatcher because that makes more sense. Bug 1307820 - 1b. Don't use GeckoApp EventDispatcher during inflation; r=snorp During layout inflation, we don't yet have GeckoView and therefore the GeckoView EventDispatcher, so we should not register events until later, typically during onAttachedToWindow. Bug 1307820 - 2. Introduce GeckoBundle; r=snorp The Android Bundle class has several disadvantages when used for holding structured data from JS. The most obvious one is the differentiation between int and double, which doesn't exist in JS. So when a JS number is converted to either a Bundle int or double, we run the risk of making a wrong conversion, resulting in a type mismatch exception when Java uses the Bundle. This extends to number arrays from JS. There is one more gotcha when using arrays. When we receive an empty array from JS, there is no way for us to determine the type of the array, because even empty arrays in Java have types. We are forced to pick an arbitrary type like boolean[], which can easily result in a type mismatch exception when using the array on the Java side. In addition, Bundle is fairly cumbersome, and we cannot access the inner structures of Bundle from Java or JNI, making it harder to use. With these factors in mind, this patch introduces GeckoBundle as a better choice for Gecko/Java communication. It is almost fully API-compatible with the Android Bundle; only the Bundle array methods are different. It resolves the numbers problem by performing conversions if necessary, and it is a lot more lightweight than Bundle. Bug 1307820 - 3. Convert BundleEventListener to use GeckoBundle; r=snorp Convert BundleEventListener from using Bundle to using GeckoBundle. Because NativeJSContainer still only supports Bundle, we do an extra conversion when sending Bundle messages, but eventually, as we eliminate the use of NativeJSContainer, that will go away as well. Bug 1307820 - 4. Introduce EventDispatcher interfaces; r=snorp Introduce several new XPCOM interfaces for the new EventDispatcher API, these interfaces are mostly mirrored after their Java counterparts. * nsIAndroidEventDispatcher is the main interface for registering/unregistering listeners and for dispatching events from JS/C++. * nsIAndroidEventListener is the interface that JS/C++ clients implement to receive events. * nsIAndroidEventCallback is the interface that JS/C++ clients implement to receive responses from dispatched events. * nsIAndroidView is the new interface that every window receives that is specific to the window/GeckoView pair. It is passed to chrome scripts through window arguments. Bug 1307820 - 5. Remove EventDispatcher references from gfx code; r=snorp EventDispatcher was used for JPZC, but NPZC doesn't use it anymore. Bug 1307820 - 6. General JNI template improvements; r=snorp This patch includes several improvements to the JNI templates. * Context::RawClassRef is removed to avoid misuse, as Context::ClassRef should be used instead. * Fix a compile error, in certain usages, in the DisposeNative overload in NativeStub. * Add Ref::IsInstanceOf and Context::IsInstanceOf to mirror the JNIEnv::IsInstanceOf call. * Add Ref::operator* and Context::operator* to provide an easy way to get a Context object. * Add built-in declarations for boxed Java objects (e.g. Boolean, Integer, etc). * Add ObjectArray::New for creating new object arrays of specific types. * Add lvalue qualifiers to LocalRef::operator= and GlobalRef::operator=, to prevent accidentally assigning to rvalues. (e.g. `objectArray->GetElement(0) = newObject;`, which won't work as intended.) Bug 1307820 - 7. Support ownership through RefPtr for native JNI objects; r=snorp In addition to direct ownership and weak pointer ownership, add a third ownership model where a native JNI object owns a RefPtr that holds a strong reference to the actual C++ object. This ownership model works well with ref-counted objects such as XPCOM objects, and is activated through the presence of public members AddRef() and Release() in the C++ object. Bug 1307820 - 8. Implement Gecko-side EventDispatcher; r=snorp Add a skeletal implementation of EventDispatcher on the Gecko side. Each widget::EventDispatcher will be associated with a Java EventDispatcher, so events can be dispatched from Gecko to Java and vice versa. AndroidBridge and nsWindow will implement nsIAndroidEventDispatcher through widget::EventDispatcher. Other patches will add more complete functionality such as GeckoBundle/JSObject translation and support for callbacks. Bug 1307820 - 9. Implement dispatching between Gecko/Java; r=snorp Implement translation between JSObject and GeckoBundle, and use that for dispatching events from Gecko to Java and vice versa. Bug 1307820 - 10. Implement callback support; r=snorp Implement callback support for both Gecko-to-Java events and Java-to-Gecko events. For Gecko-to-Java, we translate nsIAndroidEventCallback to a Java EventCallback through NativeCallbackDelegate and pass it to the Java listener. For Java-to-Gecko, we translate EventCallback to a nsIAndroidEventCallback through JavaCallbackDelegate and pass it to the Gecko listener. There is another JavaCallbackDelegate on the Java side that redirects the callback to a particular thread. For example, if the event was dispatched from the UI thread, we make sure the callback happens on the UI thread as well. Bug 1307820 - 11. Add BundleEventListener support for Gecko thread; r=snorp Add support for BundleEventListener on the Gecko thread, so that we can use it to replace any existing GeckoEventListener or NativeEventListener implementations that require the listener be run synchronously on the Gecko thread. Bug 1307820 - 12. Add global EventDispatcher in AndroidBridge; r=snorp Add an instance of EventDispatcher to AndroidBridge to act as a global event dispatcher. Bug 1307820 - 13. Add per-nsWindow EventDispatcher; r=snorp Add an instance of EventDispatcher to each nsWindow through an AndroidView object, which implements nsIAndroidView. The nsIAndroidView is passed to the chrome script through the window argument when opening the window. Bug 1307820 - 14. Update auto-generated bindings; r=me Bug 1307820 - 15. Update testEventDispatcher; r=snorp Update testEventDispatcher to include new functionalities in EventDisptcher. * Add tests for dispatching events to UI/background thread through nsIAndroidEventDispatcher::dispatch. * Add tests for dispatching events to UI/background thread through EventDispatcher.dispatch. * Add tests for dispatching events to Gecko thread through EventDispatcher.dispatch. Each kind of test exercises both the global EventDispatcher through EventDispatcher.getInstance() and the per-GeckoView EventDispatcher through GeckoApp.getEventDispatcher().
2016-11-14 16:29:50 +03:00
#include "EventDispatcher.h"
#include "MediaCodec.h"
#include "SurfaceTexture.h"
#include "GLContextProvider.h"
#include "mozilla/TimeStamp.h"
#include "mozilla/UniquePtr.h"
#include "nsIObserverService.h"
#include "nsISupportsPrimitives.h"
#include "WidgetUtils.h"
#include "FennecJNIWrappers.h"
using namespace mozilla;
using namespace mozilla::gfx;
using namespace mozilla::java;
AndroidBridge* AndroidBridge::sBridge = nullptr;
static jobject sGlobalContext = nullptr;
nsDataHashtable<nsStringHashKey, nsString> AndroidBridge::sStoragePaths;
jmethodID AndroidBridge::GetMethodID(JNIEnv* env, jclass jClass,
const char* methodName,
const char* methodType) {
jmethodID methodID = env->GetMethodID(jClass, methodName, methodType);
if (!methodID) {
ALOG(
">>> FATAL JNI ERROR! GetMethodID(methodName=\"%s\", "
"methodType=\"%s\") failed. Did ProGuard optimize away something it "
"shouldn't have?",
methodName, methodType);
env->ExceptionDescribe();
MOZ_CRASH();
}
return methodID;
}
jmethodID AndroidBridge::GetStaticMethodID(JNIEnv* env, jclass jClass,
const char* methodName,
const char* methodType) {
jmethodID methodID = env->GetStaticMethodID(jClass, methodName, methodType);
if (!methodID) {
ALOG(
">>> FATAL JNI ERROR! GetStaticMethodID(methodName=\"%s\", "
"methodType=\"%s\") failed. Did ProGuard optimize away something it "
"shouldn't have?",
methodName, methodType);
env->ExceptionDescribe();
MOZ_CRASH();
}
return methodID;
}
jfieldID AndroidBridge::GetFieldID(JNIEnv* env, jclass jClass,
const char* fieldName,
const char* fieldType) {
jfieldID fieldID = env->GetFieldID(jClass, fieldName, fieldType);
if (!fieldID) {
ALOG(
">>> FATAL JNI ERROR! GetFieldID(fieldName=\"%s\", "
"fieldType=\"%s\") failed. Did ProGuard optimize away something it "
"shouldn't have?",
fieldName, fieldType);
env->ExceptionDescribe();
MOZ_CRASH();
}
return fieldID;
}
jfieldID AndroidBridge::GetStaticFieldID(JNIEnv* env, jclass jClass,
const char* fieldName,
const char* fieldType) {
jfieldID fieldID = env->GetStaticFieldID(jClass, fieldName, fieldType);
if (!fieldID) {
ALOG(
">>> FATAL JNI ERROR! GetStaticFieldID(fieldName=\"%s\", "
"fieldType=\"%s\") failed. Did ProGuard optimize away something it "
"shouldn't have?",
fieldName, fieldType);
env->ExceptionDescribe();
MOZ_CRASH();
}
return fieldID;
}
void AndroidBridge::ConstructBridge() {
/* NSS hack -- bionic doesn't handle recursive unloads correctly,
* because library finalizer functions are called with the dynamic
* linker lock still held. This results in a deadlock when trying
* to call dlclose() while we're already inside dlclose().
* Conveniently, NSS has an env var that can prevent it from unloading.
*/
putenv(const_cast<char*>("NSS_DISABLE_UNLOAD=1"));
MOZ_ASSERT(!sBridge);
sBridge = new AndroidBridge();
}
void AndroidBridge::DeconstructBridge() {
if (sBridge) {
delete sBridge;
// AndroidBridge destruction requires sBridge to still be valid,
// so we set sBridge to nullptr after deleting it.
sBridge = nullptr;
}
}
AndroidBridge::~AndroidBridge() {}
AndroidBridge::AndroidBridge() {
ALOG_BRIDGE("AndroidBridge::Init");
JNIEnv* const jEnv = jni::GetGeckoThreadEnv();
AutoLocalJNIFrame jniFrame(jEnv);
mMessageQueue = java::GeckoThread::MsgQueue();
auto msgQueueClass = jni::Class::LocalRef::Adopt(
jEnv, jEnv->GetObjectClass(mMessageQueue.Get()));
// mMessageQueueNext must not be null
mMessageQueueNext =
GetMethodID(jEnv, msgQueueClass.Get(), "next", "()Landroid/os/Message;");
// mMessageQueueMessages may be null (e.g. due to proguard optimization)
mMessageQueueMessages = jEnv->GetFieldID(msgQueueClass.Get(), "mMessages",
"Landroid/os/Message;");
AutoJNIClass string(jEnv, "java/lang/String");
jStringClass = string.getGlobalRef();
mAPIVersion = jni::GetAPIVersion();
AutoJNIClass channels(jEnv, "java/nio/channels/Channels");
jChannels = channels.getGlobalRef();
jChannelCreate = channels.getStaticMethod(
"newChannel",
"(Ljava/io/InputStream;)Ljava/nio/channels/ReadableByteChannel;");
AutoJNIClass readableByteChannel(jEnv,
"java/nio/channels/ReadableByteChannel");
jReadableByteChannel = readableByteChannel.getGlobalRef();
jByteBufferRead =
readableByteChannel.getMethod("read", "(Ljava/nio/ByteBuffer;)I");
AutoJNIClass inputStream(jEnv, "java/io/InputStream");
jInputStream = inputStream.getGlobalRef();
jClose = inputStream.getMethod("close", "()V");
jAvailable = inputStream.getMethod("available", "()I");
}
static void getHandlersFromStringArray(
JNIEnv* aJNIEnv, jni::ObjectArray::Param aArr, size_t aLen,
nsIMutableArray* aHandlersArray, nsIHandlerApp** aDefaultApp,
const nsAString& aAction = EmptyString(),
const nsACString& aMimeType = EmptyCString()) {
nsString empty = EmptyString();
auto getNormalizedString = [](jni::Object::Param obj) -> nsString {
nsString out;
if (!obj) {
out.SetIsVoid(true);
} else {
out.Assign(jni::String::Ref::From(obj)->ToString());
}
return out;
};
for (size_t i = 0; i < aLen; i += 4) {
nsString name(getNormalizedString(aArr->GetElement(i)));
nsString isDefault(getNormalizedString(aArr->GetElement(i + 1)));
nsString packageName(getNormalizedString(aArr->GetElement(i + 2)));
nsString className(getNormalizedString(aArr->GetElement(i + 3)));
nsIHandlerApp* app = nsOSHelperAppService::CreateAndroidHandlerApp(
name, className, packageName, className, aMimeType, aAction);
aHandlersArray->AppendElement(app);
if (aDefaultApp && isDefault.Length() > 0) *aDefaultApp = app;
}
}
bool AndroidBridge::GetHandlersForMimeType(const nsAString& aMimeType,
nsIMutableArray* aHandlersArray,
nsIHandlerApp** aDefaultApp,
const nsAString& aAction) {
ALOG_BRIDGE("AndroidBridge::GetHandlersForMimeType");
auto arr = GeckoAppShell::GetHandlersForMimeType(aMimeType, aAction);
if (!arr) return false;
JNIEnv* const env = arr.Env();
size_t len = arr->Length();
if (!aHandlersArray) return len > 0;
getHandlersFromStringArray(env, arr, len, aHandlersArray, aDefaultApp,
aAction, NS_ConvertUTF16toUTF8(aMimeType));
return true;
}
bool AndroidBridge::GetHWEncoderCapability() {
ALOG_BRIDGE("AndroidBridge::GetHWEncoderCapability");
bool value = GeckoAppShell::GetHWEncoderCapability();
return value;
}
bool AndroidBridge::GetHWDecoderCapability() {
ALOG_BRIDGE("AndroidBridge::GetHWDecoderCapability");
bool value = GeckoAppShell::GetHWDecoderCapability();
return value;
}
bool AndroidBridge::GetHandlersForURL(const nsAString& aURL,
nsIMutableArray* aHandlersArray,
nsIHandlerApp** aDefaultApp,
const nsAString& aAction) {
ALOG_BRIDGE("AndroidBridge::GetHandlersForURL");
auto arr = GeckoAppShell::GetHandlersForURL(aURL, aAction);
if (!arr) return false;
JNIEnv* const env = arr.Env();
size_t len = arr->Length();
if (!aHandlersArray) return len > 0;
getHandlersFromStringArray(env, arr, len, aHandlersArray, aDefaultApp,
aAction);
return true;
}
void AndroidBridge::GetMimeTypeFromExtensions(const nsACString& aFileExt,
nsCString& aMimeType) {
ALOG_BRIDGE("AndroidBridge::GetMimeTypeFromExtensions");
auto jstrType = GeckoAppShell::GetMimeTypeFromExtensions(aFileExt);
if (jstrType) {
aMimeType = jstrType->ToCString();
}
}
void AndroidBridge::GetExtensionFromMimeType(const nsACString& aMimeType,
nsACString& aFileExt) {
ALOG_BRIDGE("AndroidBridge::GetExtensionFromMimeType");
auto jstrExt = GeckoAppShell::GetExtensionFromMimeType(aMimeType);
if (jstrExt) {
aFileExt = jstrExt->ToCString();
}
}
int AndroidBridge::GetScreenDepth() {
ALOG_BRIDGE("%s", __PRETTY_FUNCTION__);
static int sDepth = 0;
if (sDepth) return sDepth;
const int DEFAULT_DEPTH = 16;
if (jni::IsAvailable()) {
sDepth = GeckoAppShell::GetScreenDepth();
}
if (!sDepth) return DEFAULT_DEPTH;
return sDepth;
}
void AndroidBridge::Vibrate(const nsTArray<uint32_t>& aPattern) {
ALOG_BRIDGE("%s", __PRETTY_FUNCTION__);
uint32_t len = aPattern.Length();
if (!len) {
ALOG_BRIDGE(" invalid 0-length array");
return;
}
// It's clear if this worth special-casing, but it creates less
// java junk, so dodges the GC.
if (len == 1) {
jlong d = aPattern[0];
if (d < 0) {
ALOG_BRIDGE(" invalid vibration duration < 0");
return;
}
GeckoAppShell::Vibrate(d);
return;
}
// First element of the array vibrate() expects is how long to wait
// *before* vibrating. For us, this is always 0.
JNIEnv* const env = jni::GetGeckoThreadEnv();
AutoLocalJNIFrame jniFrame(env, 1);
jlongArray array = env->NewLongArray(len + 1);
if (!array) {
ALOG_BRIDGE(" failed to allocate array");
return;
}
jlong* elts = env->GetLongArrayElements(array, nullptr);
elts[0] = 0;
for (uint32_t i = 0; i < aPattern.Length(); ++i) {
jlong d = aPattern[i];
if (d < 0) {
ALOG_BRIDGE(" invalid vibration duration < 0");
env->ReleaseLongArrayElements(array, elts, JNI_ABORT);
return;
}
elts[i + 1] = d;
}
env->ReleaseLongArrayElements(array, elts, 0);
GeckoAppShell::Vibrate(jni::LongArray::Ref::From(array),
-1 /* don't repeat */);
}
void AndroidBridge::GetSystemColors(AndroidSystemColors* aColors) {
NS_ASSERTION(aColors != nullptr,
"AndroidBridge::GetSystemColors: aColors is null!");
if (!aColors) return;
auto arr = GeckoAppShell::GetSystemColors();
if (!arr) return;
JNIEnv* const env = arr.Env();
uint32_t len = static_cast<uint32_t>(env->GetArrayLength(arr.Get()));
jint* elements = env->GetIntArrayElements(arr.Get(), 0);
uint32_t colorsCount = sizeof(AndroidSystemColors) / sizeof(nscolor);
if (len < colorsCount) colorsCount = len;
// Convert Android colors to nscolor by switching R and B in the ARGB 32 bit
// value
nscolor* colors = (nscolor*)aColors;
for (uint32_t i = 0; i < colorsCount; i++) {
uint32_t androidColor = static_cast<uint32_t>(elements[i]);
uint8_t r = (androidColor & 0x00ff0000) >> 16;
uint8_t b = (androidColor & 0x000000ff);
colors[i] = (androidColor & 0xff00ff00) | (b << 16) | r;
}
env->ReleaseIntArrayElements(arr.Get(), elements, 0);
}
void AndroidBridge::GetIconForExtension(const nsACString& aFileExt,
uint32_t aIconSize,
uint8_t* const aBuf) {
ALOG_BRIDGE("AndroidBridge::GetIconForExtension");
NS_ASSERTION(aBuf != nullptr,
"AndroidBridge::GetIconForExtension: aBuf is null!");
if (!aBuf) return;
auto arr = GeckoAppShell::GetIconForExtension(NS_ConvertUTF8toUTF16(aFileExt),
aIconSize);
NS_ASSERTION(
arr != nullptr,
"AndroidBridge::GetIconForExtension: Returned pixels array is null!");
if (!arr) return;
JNIEnv* const env = arr.Env();
uint32_t len = static_cast<uint32_t>(env->GetArrayLength(arr.Get()));
jbyte* elements = env->GetByteArrayElements(arr.Get(), 0);
uint32_t bufSize = aIconSize * aIconSize * 4;
NS_ASSERTION(
len == bufSize,
"AndroidBridge::GetIconForExtension: Pixels array is incomplete!");
if (len == bufSize) memcpy(aBuf, elements, bufSize);
env->ReleaseByteArrayElements(arr.Get(), elements, 0);
}
bool AndroidBridge::GetStaticIntField(const char* className,
const char* fieldName, int32_t* aInt,
JNIEnv* jEnv /* = nullptr */) {
ALOG_BRIDGE("AndroidBridge::GetStaticIntField %s", fieldName);
if (!jEnv) {
if (!jni::IsAvailable()) {
return false;
}
jEnv = jni::GetGeckoThreadEnv();
}
AutoJNIClass cls(jEnv, className);
jfieldID field = cls.getStaticField(fieldName, "I");
if (!field) {
return false;
}
*aInt = static_cast<int32_t>(jEnv->GetStaticIntField(cls.getRawRef(), field));
return true;
}
bool AndroidBridge::GetStaticStringField(const char* className,
const char* fieldName,
nsAString& result,
JNIEnv* jEnv /* = nullptr */) {
ALOG_BRIDGE("AndroidBridge::GetStaticStringField %s", fieldName);
if (!jEnv) {
if (!jni::IsAvailable()) {
return false;
}
jEnv = jni::GetGeckoThreadEnv();
}
AutoLocalJNIFrame jniFrame(jEnv, 1);
AutoJNIClass cls(jEnv, className);
jfieldID field = cls.getStaticField(fieldName, "Ljava/lang/String;");
if (!field) {
return false;
}
jstring jstr = (jstring)jEnv->GetStaticObjectField(cls.getRawRef(), field);
if (!jstr) return false;
result.Assign(jni::String::Ref::From(jstr)->ToString());
return true;
}
namespace mozilla {
class TracerRunnable : public Runnable {
public:
TracerRunnable() : Runnable("TracerRunnable") {
mTracerLock = new Mutex("TracerRunnable");
mTracerCondVar = new CondVar(*mTracerLock, "TracerRunnable");
mMainThread = do_GetMainThread();
}
~TracerRunnable() {
delete mTracerCondVar;
delete mTracerLock;
mTracerLock = nullptr;
mTracerCondVar = nullptr;
}
virtual nsresult Run() {
MutexAutoLock lock(*mTracerLock);
if (!AndroidBridge::Bridge()) return NS_OK;
mHasRun = true;
mTracerCondVar->Notify();
return NS_OK;
}
bool Fire() {
if (!mTracerLock || !mTracerCondVar) return false;
MutexAutoLock lock(*mTracerLock);
mHasRun = false;
mMainThread->Dispatch(this, NS_DISPATCH_NORMAL);
while (!mHasRun) mTracerCondVar->Wait();
return true;
}
void Signal() {
MutexAutoLock lock(*mTracerLock);
mHasRun = true;
mTracerCondVar->Notify();
}
private:
Mutex* mTracerLock;
CondVar* mTracerCondVar;
bool mHasRun;
nsCOMPtr<nsIThread> mMainThread;
};
StaticRefPtr<TracerRunnable> sTracerRunnable;
bool InitWidgetTracing() {
if (!sTracerRunnable) sTracerRunnable = new TracerRunnable();
return true;
}
void CleanUpWidgetTracing() { sTracerRunnable = nullptr; }
bool FireAndWaitForTracerEvent() {
if (sTracerRunnable) return sTracerRunnable->Fire();
return false;
}
void SignalTracerThread() {
if (sTracerRunnable) return sTracerRunnable->Signal();
}
} // namespace mozilla
void AndroidBridge::GetCurrentBatteryInformation(
hal::BatteryInformation* aBatteryInfo) {
ALOG_BRIDGE("AndroidBridge::GetCurrentBatteryInformation");
// To prevent calling too many methods through JNI, the Java method returns
// an array of double even if we actually want a double and a boolean.
auto arr = GeckoAppShell::GetCurrentBatteryInformation();
JNIEnv* const env = arr.Env();
if (!arr || env->GetArrayLength(arr.Get()) != 3) {
return;
}
jdouble* info = env->GetDoubleArrayElements(arr.Get(), 0);
aBatteryInfo->level() = info[0];
aBatteryInfo->charging() = info[1] == 1.0f;
aBatteryInfo->remainingTime() = info[2];
env->ReleaseDoubleArrayElements(arr.Get(), info, 0);
}
void AndroidBridge::GetCurrentNetworkInformation(
hal::NetworkInformation* aNetworkInfo) {
ALOG_BRIDGE("AndroidBridge::GetCurrentNetworkInformation");
// To prevent calling too many methods through JNI, the Java method returns
// an array of double even if we actually want an integer, a boolean, and an
// integer.
auto arr = GeckoAppShell::GetCurrentNetworkInformation();
JNIEnv* const env = arr.Env();
if (!arr || env->GetArrayLength(arr.Get()) != 3) {
return;
}
jdouble* info = env->GetDoubleArrayElements(arr.Get(), 0);
aNetworkInfo->type() = info[0];
aNetworkInfo->isWifi() = info[1] == 1.0f;
aNetworkInfo->dhcpGateway() = info[2];
env->ReleaseDoubleArrayElements(arr.Get(), info, 0);
}
jobject AndroidBridge::GetGlobalContextRef() {
// The context object can change, so get a fresh copy every time.
auto context = GeckoAppShell::GetApplicationContext();
sGlobalContext = jni::Object::GlobalRef(context).Forget();
MOZ_ASSERT(sGlobalContext);
return sGlobalContext;
}
/* Implementation file */
NS_IMPL_ISUPPORTS(nsAndroidBridge, nsIAndroidEventDispatcher, nsIAndroidBridge,
nsIObserver)
nsAndroidBridge::nsAndroidBridge() : mAudibleWindowsNum(0) {
if (jni::IsAvailable()) {
RefPtr<widget::EventDispatcher> dispatcher = new widget::EventDispatcher();
dispatcher->Attach(java::EventDispatcher::GetInstance(),
/* window */ nullptr);
mEventDispatcher = dispatcher;
}
Bug 1307820 - Implement per-GeckoView messaging; r=snorp r=sebastian Bug 1307820 - 1a. Move GeckoApp EventDispatcher to GeckoView; r=snorp Make it a GeckoView-specific EventDispatcher instead of GeckoApp-specific, so that GeckoView consumers can benefit from a per-view EventDispatcher. In addition, a few events like Gecko:Ready are moved back to the global EventDispatcher because that makes more sense. Bug 1307820 - 1b. Don't use GeckoApp EventDispatcher during inflation; r=snorp During layout inflation, we don't yet have GeckoView and therefore the GeckoView EventDispatcher, so we should not register events until later, typically during onAttachedToWindow. Bug 1307820 - 2. Introduce GeckoBundle; r=snorp The Android Bundle class has several disadvantages when used for holding structured data from JS. The most obvious one is the differentiation between int and double, which doesn't exist in JS. So when a JS number is converted to either a Bundle int or double, we run the risk of making a wrong conversion, resulting in a type mismatch exception when Java uses the Bundle. This extends to number arrays from JS. There is one more gotcha when using arrays. When we receive an empty array from JS, there is no way for us to determine the type of the array, because even empty arrays in Java have types. We are forced to pick an arbitrary type like boolean[], which can easily result in a type mismatch exception when using the array on the Java side. In addition, Bundle is fairly cumbersome, and we cannot access the inner structures of Bundle from Java or JNI, making it harder to use. With these factors in mind, this patch introduces GeckoBundle as a better choice for Gecko/Java communication. It is almost fully API-compatible with the Android Bundle; only the Bundle array methods are different. It resolves the numbers problem by performing conversions if necessary, and it is a lot more lightweight than Bundle. Bug 1307820 - 3. Convert BundleEventListener to use GeckoBundle; r=snorp Convert BundleEventListener from using Bundle to using GeckoBundle. Because NativeJSContainer still only supports Bundle, we do an extra conversion when sending Bundle messages, but eventually, as we eliminate the use of NativeJSContainer, that will go away as well. Bug 1307820 - 4. Introduce EventDispatcher interfaces; r=snorp Introduce several new XPCOM interfaces for the new EventDispatcher API, these interfaces are mostly mirrored after their Java counterparts. * nsIAndroidEventDispatcher is the main interface for registering/unregistering listeners and for dispatching events from JS/C++. * nsIAndroidEventListener is the interface that JS/C++ clients implement to receive events. * nsIAndroidEventCallback is the interface that JS/C++ clients implement to receive responses from dispatched events. * nsIAndroidView is the new interface that every window receives that is specific to the window/GeckoView pair. It is passed to chrome scripts through window arguments. Bug 1307820 - 5. Remove EventDispatcher references from gfx code; r=snorp EventDispatcher was used for JPZC, but NPZC doesn't use it anymore. Bug 1307820 - 6. General JNI template improvements; r=snorp This patch includes several improvements to the JNI templates. * Context::RawClassRef is removed to avoid misuse, as Context::ClassRef should be used instead. * Fix a compile error, in certain usages, in the DisposeNative overload in NativeStub. * Add Ref::IsInstanceOf and Context::IsInstanceOf to mirror the JNIEnv::IsInstanceOf call. * Add Ref::operator* and Context::operator* to provide an easy way to get a Context object. * Add built-in declarations for boxed Java objects (e.g. Boolean, Integer, etc). * Add ObjectArray::New for creating new object arrays of specific types. * Add lvalue qualifiers to LocalRef::operator= and GlobalRef::operator=, to prevent accidentally assigning to rvalues. (e.g. `objectArray->GetElement(0) = newObject;`, which won't work as intended.) Bug 1307820 - 7. Support ownership through RefPtr for native JNI objects; r=snorp In addition to direct ownership and weak pointer ownership, add a third ownership model where a native JNI object owns a RefPtr that holds a strong reference to the actual C++ object. This ownership model works well with ref-counted objects such as XPCOM objects, and is activated through the presence of public members AddRef() and Release() in the C++ object. Bug 1307820 - 8. Implement Gecko-side EventDispatcher; r=snorp Add a skeletal implementation of EventDispatcher on the Gecko side. Each widget::EventDispatcher will be associated with a Java EventDispatcher, so events can be dispatched from Gecko to Java and vice versa. AndroidBridge and nsWindow will implement nsIAndroidEventDispatcher through widget::EventDispatcher. Other patches will add more complete functionality such as GeckoBundle/JSObject translation and support for callbacks. Bug 1307820 - 9. Implement dispatching between Gecko/Java; r=snorp Implement translation between JSObject and GeckoBundle, and use that for dispatching events from Gecko to Java and vice versa. Bug 1307820 - 10. Implement callback support; r=snorp Implement callback support for both Gecko-to-Java events and Java-to-Gecko events. For Gecko-to-Java, we translate nsIAndroidEventCallback to a Java EventCallback through NativeCallbackDelegate and pass it to the Java listener. For Java-to-Gecko, we translate EventCallback to a nsIAndroidEventCallback through JavaCallbackDelegate and pass it to the Gecko listener. There is another JavaCallbackDelegate on the Java side that redirects the callback to a particular thread. For example, if the event was dispatched from the UI thread, we make sure the callback happens on the UI thread as well. Bug 1307820 - 11. Add BundleEventListener support for Gecko thread; r=snorp Add support for BundleEventListener on the Gecko thread, so that we can use it to replace any existing GeckoEventListener or NativeEventListener implementations that require the listener be run synchronously on the Gecko thread. Bug 1307820 - 12. Add global EventDispatcher in AndroidBridge; r=snorp Add an instance of EventDispatcher to AndroidBridge to act as a global event dispatcher. Bug 1307820 - 13. Add per-nsWindow EventDispatcher; r=snorp Add an instance of EventDispatcher to each nsWindow through an AndroidView object, which implements nsIAndroidView. The nsIAndroidView is passed to the chrome script through the window argument when opening the window. Bug 1307820 - 14. Update auto-generated bindings; r=me Bug 1307820 - 15. Update testEventDispatcher; r=snorp Update testEventDispatcher to include new functionalities in EventDisptcher. * Add tests for dispatching events to UI/background thread through nsIAndroidEventDispatcher::dispatch. * Add tests for dispatching events to UI/background thread through EventDispatcher.dispatch. * Add tests for dispatching events to Gecko thread through EventDispatcher.dispatch. Each kind of test exercises both the global EventDispatcher through EventDispatcher.getInstance() and the per-GeckoView EventDispatcher through GeckoApp.getEventDispatcher().
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AddObservers();
}
nsAndroidBridge::~nsAndroidBridge() {}
NS_IMETHODIMP nsAndroidBridge::ContentDocumentChanged(
mozIDOMWindowProxy* aWindow) {
AndroidBridge::Bridge()->ContentDocumentChanged(aWindow);
return NS_OK;
}
NS_IMETHODIMP nsAndroidBridge::IsContentDocumentDisplayed(
mozIDOMWindowProxy* aWindow, bool* aRet) {
*aRet = AndroidBridge::Bridge()->IsContentDocumentDisplayed(aWindow);
return NS_OK;
}
NS_IMETHODIMP
nsAndroidBridge::Observe(nsISupports* aSubject, const char* aTopic,
const char16_t* aData) {
if (!strcmp(aTopic, "xpcom-shutdown")) {
RemoveObservers();
} else if (!strcmp(aTopic, "audio-playback")) {
ALOG_BRIDGE("nsAndroidBridge::Observe, get audio-playback event.");
nsAutoString activeStr(aData);
bool isPlaying = activeStr.EqualsLiteral("active");
UpdateAudioPlayingWindows(isPlaying);
}
return NS_OK;
}
void nsAndroidBridge::UpdateAudioPlayingWindows(bool aPlaying) {
// Request audio focus for the first audio playing window and abandon focus
// for the last audio playing window.
MOZ_ASSERT(mAudibleWindowsNum >= 0);
if (aPlaying && mAudibleWindowsNum++ == 0) {
ALOG_BRIDGE("nsAndroidBridge, request audio focus.");
AudioFocusAgent::NotifyStartedPlaying();
} else if (!aPlaying && --mAudibleWindowsNum == 0) {
ALOG_BRIDGE("nsAndroidBridge, abandon audio focus.");
AudioFocusAgent::NotifyStoppedPlaying();
}
}
void nsAndroidBridge::AddObservers() {
nsCOMPtr<nsIObserverService> obs = mozilla::services::GetObserverService();
if (obs) {
obs->AddObserver(this, "xpcom-shutdown", false);
if (jni::IsFennec()) { // No AudioFocusAgent in non-Fennec environment.
obs->AddObserver(this, "audio-playback", false);
}
}
}
void nsAndroidBridge::RemoveObservers() {
nsCOMPtr<nsIObserverService> obs = mozilla::services::GetObserverService();
if (obs) {
obs->RemoveObserver(this, "xpcom-shutdown");
if (jni::IsFennec()) { // No AudioFocusAgent in non-Fennec environment.
obs->RemoveObserver(this, "audio-playback");
}
}
}
uint32_t AndroidBridge::GetScreenOrientation() {
ALOG_BRIDGE("AndroidBridge::GetScreenOrientation");
int16_t orientation = GeckoAppShell::GetScreenOrientation();
if (!orientation) return hal::eScreenOrientation_None;
return static_cast<hal::ScreenOrientation>(orientation);
}
uint16_t AndroidBridge::GetScreenAngle() {
return GeckoAppShell::GetScreenAngle();
}
nsresult AndroidBridge::GetProxyForURI(const nsACString& aSpec,
const nsACString& aScheme,
const nsACString& aHost,
const int32_t aPort,
nsACString& aResult) {
if (!jni::IsAvailable()) {
return NS_ERROR_FAILURE;
}
auto jstrRet = GeckoAppShell::GetProxyForURI(aSpec, aScheme, aHost, aPort);
if (!jstrRet) return NS_ERROR_FAILURE;
aResult = jstrRet->ToCString();
return NS_OK;
}
bool AndroidBridge::PumpMessageLoop() {
JNIEnv* const env = jni::GetGeckoThreadEnv();
if (mMessageQueueMessages) {
auto msg = jni::Object::LocalRef::Adopt(
env, env->GetObjectField(mMessageQueue.Get(), mMessageQueueMessages));
// if queue.mMessages is null, queue.next() will block, which we don't
// want. It turns out to be an order of magnitude more performant to do
// this extra check here and block less vs. one fewer checks here and
// more blocking.
if (!msg) {
return false;
}
}
auto msg = jni::Object::LocalRef::Adopt(
env, env->CallObjectMethod(mMessageQueue.Get(), mMessageQueueNext));
if (!msg) {
return false;
}
return GeckoThread::PumpMessageLoop(msg);
}
NS_IMETHODIMP nsAndroidBridge::GetIsFennec(bool* aIsFennec) {
*aIsFennec = jni::IsFennec();
return NS_OK;
}
NS_IMETHODIMP nsAndroidBridge::GetBrowserApp(
nsIAndroidBrowserApp** aBrowserApp) {
nsAppShell* const appShell = nsAppShell::Get();
if (appShell) NS_IF_ADDREF(*aBrowserApp = appShell->GetBrowserApp());
return NS_OK;
}
NS_IMETHODIMP nsAndroidBridge::SetBrowserApp(
nsIAndroidBrowserApp* aBrowserApp) {
nsAppShell* const appShell = nsAppShell::Get();
if (appShell) appShell->SetBrowserApp(aBrowserApp);
return NS_OK;
}
extern "C" __attribute__((visibility("default"))) jobject JNICALL
Java_org_mozilla_gecko_GeckoAppShell_allocateDirectBuffer(JNIEnv* env, jclass,
jlong size);
void AndroidBridge::ContentDocumentChanged(mozIDOMWindowProxy* aWindow) {
if (RefPtr<nsWindow> widget =
nsWindow::From(nsPIDOMWindowOuter::From(aWindow))) {
widget->SetContentDocumentDisplayed(false);
}
}
bool AndroidBridge::IsContentDocumentDisplayed(mozIDOMWindowProxy* aWindow) {
if (RefPtr<nsWindow> widget =
nsWindow::From(nsPIDOMWindowOuter::From(aWindow))) {
return widget->IsContentDocumentDisplayed();
}
return false;
}
jni::Object::LocalRef AndroidBridge::ChannelCreate(jni::Object::Param stream) {
JNIEnv* const env = jni::GetEnvForThread();
auto rv = jni::Object::LocalRef::Adopt(
env, env->CallStaticObjectMethod(sBridge->jChannels,
sBridge->jChannelCreate, stream.Get()));
MOZ_CATCH_JNI_EXCEPTION(env);
return rv;
}
void AndroidBridge::InputStreamClose(jni::Object::Param obj) {
JNIEnv* const env = jni::GetEnvForThread();
env->CallVoidMethod(obj.Get(), sBridge->jClose);
MOZ_CATCH_JNI_EXCEPTION(env);
}
uint32_t AndroidBridge::InputStreamAvailable(jni::Object::Param obj) {
JNIEnv* const env = jni::GetEnvForThread();
auto rv = env->CallIntMethod(obj.Get(), sBridge->jAvailable);
MOZ_CATCH_JNI_EXCEPTION(env);
return rv;
}
nsresult AndroidBridge::InputStreamRead(jni::Object::Param obj, char* aBuf,
uint32_t aCount, uint32_t* aRead) {
JNIEnv* const env = jni::GetEnvForThread();
auto arr = jni::ByteBuffer::New(aBuf, aCount);
jint read =
env->CallIntMethod(obj.Get(), sBridge->jByteBufferRead, arr.Get());
if (env->ExceptionCheck()) {
env->ExceptionClear();
return NS_ERROR_FAILURE;
}
if (read <= 0) {
*aRead = 0;
return NS_OK;
}
*aRead = read;
return NS_OK;
}