gecko/dom/camera/TestGonkCameraHardware.cpp

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/*
* Copyright (C) 2013-2014 Mozilla Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "TestGonkCameraHardware.h"
#include "CameraPreferences.h"
#include "nsThreadUtils.h"
using namespace android;
using namespace mozilla;
TestGonkCameraHardware::TestGonkCameraHardware(nsGonkCameraControl* aTarget,
uint32_t aCameraId,
const sp<Camera>& aCamera)
: GonkCameraHardware(aTarget, aCameraId, aCamera)
{
DOM_CAMERA_LOGA("v===== Created TestGonkCameraHardware =====v\n");
DOM_CAMERA_LOGT("%s:%d : this=%p (aTarget=%p)\n",
__func__, __LINE__, this, aTarget);
MOZ_COUNT_CTOR(TestGonkCameraHardware);
}
TestGonkCameraHardware::~TestGonkCameraHardware()
{
MOZ_COUNT_DTOR(TestGonkCameraHardware);
DOM_CAMERA_LOGA("^===== Destroyed TestGonkCameraHardware =====^\n");
}
void
TestGonkCameraHardware::InjectFakeSystemFailure()
{
DOM_CAMERA_LOGA("====== Fake Camera Hardware Failure ======\n");
// The values '100' and '0' below seem to be what the AOSP layer
// throws back when the mediaserver process fails.
OnSystemError(mTarget, CameraControlListener::kSystemService, 100, 0);
}
nsresult
TestGonkCameraHardware::Init()
{
class DeferredSystemFailure : public nsRunnable
{
public:
DeferredSystemFailure(TestGonkCameraHardware* aCameraHw)
: mCameraHw(aCameraHw)
{ }
NS_IMETHODIMP
Run()
{
mCameraHw->InjectFakeSystemFailure();
return NS_OK;
}
protected:
android::sp<TestGonkCameraHardware> mCameraHw;
};
if (IsTestCase("init-failure")) {
return NS_ERROR_NOT_INITIALIZED;
}
if (IsTestCase("post-init-system-failure")) {
nsCOMPtr<nsIThread> me = NS_GetCurrentThread();
if (me) {
me->Dispatch(new DeferredSystemFailure(this), NS_DISPATCH_NORMAL);
}
}
return GonkCameraHardware::Init();
}
const nsCString
TestGonkCameraHardware::TestCase()
{
nsCString test;
CameraPreferences::GetPref("camera.control.test.hardware", test);
return test;
}
const nsCString
TestGonkCameraHardware::GetExtraParameters()
{
/**
* The contents of this pref are appended to the flattened string of
* parameters stuffed into GonkCameraParameters by the camera library.
* It consists of semicolon-delimited key=value pairs, e.g.
*
* focus-mode=auto;flash-mode=auto;preview-size=1024x768
*
* The unflattening process breaks this string up on semicolon boundaries
* and sets an entry in a hashtable of strings with the token before
* the equals sign as the key, and the token after as the value. Because
* the string is parsed in order, key=value pairs occuring later in the
* string will replace value pairs appearing earlier, making it easy to
* inject fake, testable values into the parameters table.
*
* One constraint of this approach is that neither the key nor the value
* may contain equals signs or semicolons. We don't enforce that here
* so that we can also test correct handling of improperly-formatted values.
*/
nsCString parameters;
CameraPreferences::GetPref("camera.control.test.hardware.gonk.parameters", parameters);
DOM_CAMERA_LOGA("TestGonkCameraHardware : extra-parameters '%s'\n",
parameters.get());
return parameters;
}
bool
TestGonkCameraHardware::IsTestCaseInternal(const char* aTest, const char* aFile, int aLine)
{
if (TestCase().EqualsASCII(aTest)) {
DOM_CAMERA_LOGA("TestGonkCameraHardware : test-case '%s' (%s:%d)\n",
aTest, aFile, aLine);
return true;
}
return false;
}
int
TestGonkCameraHardware::TestCaseError(int aDefaultError)
{
// for now, just return the default error
return aDefaultError;
}
int
TestGonkCameraHardware::AutoFocus()
{
class AutoFocusFailure : public nsRunnable
{
public:
AutoFocusFailure(nsGonkCameraControl* aTarget)
: mTarget(aTarget)
{ }
NS_IMETHODIMP
Run()
{
OnAutoFocusComplete(mTarget, false);
return NS_OK;
}
protected:
nsGonkCameraControl* mTarget;
};
if (IsTestCase("auto-focus-failure")) {
return TestCaseError(UNKNOWN_ERROR);
}
if (IsTestCase("auto-focus-process-failure")) {
nsresult rv = NS_DispatchToCurrentThread(new AutoFocusFailure(mTarget));
if (NS_SUCCEEDED(rv)) {
return OK;
}
DOM_CAMERA_LOGE("Failed to dispatch AutoFocusFailure runnable (0x%08x)\n", rv);
return UNKNOWN_ERROR;
}
return GonkCameraHardware::AutoFocus();
}
// These classes have to be external to StartFaceDetection(), at least
// until we pick up gcc 4.5, which supports local classes as template
// arguments.
class FaceDetected : public nsRunnable
{
public:
FaceDetected(nsGonkCameraControl* aTarget)
: mTarget(aTarget)
{ }
~FaceDetected()
{
ReleaseFacesArray();
}
NS_IMETHODIMP
Run()
{
InitMetaData();
OnFacesDetected(mTarget, &mMetaData);
return NS_OK;
}
protected:
virtual nsresult InitMetaData() = 0;
nsresult
AllocateFacesArray(uint32_t num)
{
mMetaData.faces = new camera_face_t[num];
return NS_OK;
}
nsresult
ReleaseFacesArray()
{
delete [] mMetaData.faces;
mMetaData.faces = nullptr;
return NS_OK;
}
nsRefPtr<nsGonkCameraControl> mTarget;
camera_frame_metadata_t mMetaData;
};
class OneFaceDetected : public FaceDetected
{
public:
OneFaceDetected(nsGonkCameraControl* aTarget)
: FaceDetected(aTarget)
{ }
nsresult
InitMetaData() MOZ_OVERRIDE
{
mMetaData.number_of_faces = 1;
AllocateFacesArray(1);
mMetaData.faces[0].id = 1;
mMetaData.faces[0].score = 2;
mMetaData.faces[0].rect[0] = 3;
mMetaData.faces[0].rect[1] = 4;
mMetaData.faces[0].rect[2] = 5;
mMetaData.faces[0].rect[3] = 6;
mMetaData.faces[0].left_eye[0] = 7;
mMetaData.faces[0].left_eye[1] = 8;
mMetaData.faces[0].right_eye[0] = 9;
mMetaData.faces[0].right_eye[1] = 10;
mMetaData.faces[0].mouth[0] = 11;
mMetaData.faces[0].mouth[1] = 12;
return NS_OK;
}
};
class TwoFacesDetected : public FaceDetected
{
public:
TwoFacesDetected(nsGonkCameraControl* aTarget)
: FaceDetected(aTarget)
{ }
nsresult
InitMetaData() MOZ_OVERRIDE
{
mMetaData.number_of_faces = 2;
AllocateFacesArray(2);
mMetaData.faces[0].id = 1;
mMetaData.faces[0].score = 2;
mMetaData.faces[0].rect[0] = 3;
mMetaData.faces[0].rect[1] = 4;
mMetaData.faces[0].rect[2] = 5;
mMetaData.faces[0].rect[3] = 6;
mMetaData.faces[0].left_eye[0] = 7;
mMetaData.faces[0].left_eye[1] = 8;
mMetaData.faces[0].right_eye[0] = 9;
mMetaData.faces[0].right_eye[1] = 10;
mMetaData.faces[0].mouth[0] = 11;
mMetaData.faces[0].mouth[1] = 12;
mMetaData.faces[1].id = 13;
mMetaData.faces[1].score = 14;
mMetaData.faces[1].rect[0] = 15;
mMetaData.faces[1].rect[1] = 16;
mMetaData.faces[1].rect[2] = 17;
mMetaData.faces[1].rect[3] = 18;
mMetaData.faces[1].left_eye[0] = 19;
mMetaData.faces[1].left_eye[1] = 20;
mMetaData.faces[1].right_eye[0] = 21;
mMetaData.faces[1].right_eye[1] = 22;
mMetaData.faces[1].mouth[0] = 23;
mMetaData.faces[1].mouth[1] = 24;
return NS_OK;
}
};
class OneFaceNoFeaturesDetected : public FaceDetected
{
public:
OneFaceNoFeaturesDetected(nsGonkCameraControl* aTarget)
: FaceDetected(aTarget)
{ }
nsresult
InitMetaData() MOZ_OVERRIDE
{
mMetaData.number_of_faces = 1;
AllocateFacesArray(1);
mMetaData.faces[0].id = 1;
// Test clamping 'score' to 100.
mMetaData.faces[0].score = 1000;
mMetaData.faces[0].rect[0] = 3;
mMetaData.faces[0].rect[1] = 4;
mMetaData.faces[0].rect[2] = 5;
mMetaData.faces[0].rect[3] = 6;
// Nullable values set to 'not-supported' specific values
mMetaData.faces[0].left_eye[0] = -2000;
mMetaData.faces[0].left_eye[1] = -2000;
// Test other 'not-supported' values as well. We treat
// anything outside the range [-1000, 1000] as invalid.
mMetaData.faces[0].right_eye[0] = 1001;
mMetaData.faces[0].right_eye[1] = -1001;
mMetaData.faces[0].mouth[0] = -2000;
mMetaData.faces[0].mouth[1] = 2000;
return NS_OK;
}
};
class NoFacesDetected : public FaceDetected
{
public:
NoFacesDetected(nsGonkCameraControl* aTarget)
: FaceDetected(aTarget)
{ }
nsresult
InitMetaData() MOZ_OVERRIDE
{
mMetaData.number_of_faces = 0;
mMetaData.faces = nullptr;
return NS_OK;
}
};
int
TestGonkCameraHardware::StartFaceDetection()
{
nsRefPtr<FaceDetected> faceDetected;
if (IsTestCase("face-detection-detected-one-face")) {
faceDetected = new OneFaceDetected(mTarget);
} else if (IsTestCase("face-detection-detected-two-faces")) {
faceDetected = new TwoFacesDetected(mTarget);
} else if (IsTestCase("face-detection-detected-one-face-no-features")) {
faceDetected = new OneFaceNoFeaturesDetected(mTarget);
} else if (IsTestCase("face-detection-no-faces-detected")) {
faceDetected = new NoFacesDetected(mTarget);
}
if (!faceDetected) {
return GonkCameraHardware::StartFaceDetection();
}
nsresult rv = NS_DispatchToCurrentThread(faceDetected);
if (NS_FAILED(rv)) {
DOM_CAMERA_LOGE("Failed to dispatch FaceDetected runnable (0x%08x)\n", rv);
return UNKNOWN_ERROR;
}
return OK;
}
int
TestGonkCameraHardware::StopFaceDetection()
{
if (IsTestCase("face-detection-detected-one-face") ||
IsTestCase("face-detection-detected-two-faces") ||
IsTestCase("face-detection-detected-one-face-no-features") ||
IsTestCase("face-detection-no-faces-detected"))
{
return OK;
}
return GonkCameraHardware::StopFaceDetection();
}
int
TestGonkCameraHardware::TakePicture()
{
class TakePictureFailure : public nsRunnable
{
public:
TakePictureFailure(nsGonkCameraControl* aTarget)
: mTarget(aTarget)
{ }
NS_IMETHODIMP
Run()
{
OnTakePictureError(mTarget);
return NS_OK;
}
protected:
nsGonkCameraControl* mTarget;
};
if (IsTestCase("take-picture-failure")) {
return TestCaseError(UNKNOWN_ERROR);
}
if (IsTestCase("take-picture-process-failure")) {
nsresult rv = NS_DispatchToCurrentThread(new TakePictureFailure(mTarget));
if (NS_SUCCEEDED(rv)) {
return OK;
}
DOM_CAMERA_LOGE("Failed to dispatch TakePictureFailure runnable (0x%08x)\n", rv);
return UNKNOWN_ERROR;
}
return GonkCameraHardware::TakePicture();
}
int
TestGonkCameraHardware::StartPreview()
{
if (IsTestCase("start-preview-failure")) {
return TestCaseError(UNKNOWN_ERROR);
}
return GonkCameraHardware::StartPreview();
}
int
TestGonkCameraHardware::StartAutoFocusMoving(bool aIsMoving)
{
class AutoFocusMoving : public nsRunnable
{
public:
AutoFocusMoving(nsGonkCameraControl* aTarget, bool aIsMoving)
: mTarget(aTarget)
, mIsMoving(aIsMoving)
{ }
NS_IMETHODIMP
Run()
{
OnAutoFocusMoving(mTarget, mIsMoving);
return NS_OK;
}
protected:
nsGonkCameraControl* mTarget;
bool mIsMoving;
};
nsresult rv = NS_DispatchToCurrentThread(new AutoFocusMoving(mTarget, aIsMoving));
if (NS_SUCCEEDED(rv)) {
return OK;
}
DOM_CAMERA_LOGE("Failed to dispatch AutoFocusMoving runnable (0x%08x)\n", rv);
return UNKNOWN_ERROR;
}
int
TestGonkCameraHardware::PushParameters(const GonkCameraParameters& aParams)
{
if (IsTestCase("push-parameters-failure")) {
return TestCaseError(UNKNOWN_ERROR);
}
nsString focusMode;
GonkCameraParameters& params = const_cast<GonkCameraParameters&>(aParams);
params.Get(CAMERA_PARAM_FOCUSMODE, focusMode);
if (focusMode.EqualsASCII("continuous-picture") ||
focusMode.EqualsASCII("continuous-video"))
{
if (IsTestCase("autofocus-moving-true")) {
return StartAutoFocusMoving(true);
} else if (IsTestCase("autofocus-moving-false")) {
return StartAutoFocusMoving(false);
}
}
return GonkCameraHardware::PushParameters(aParams);
}
nsresult
TestGonkCameraHardware::PullParameters(GonkCameraParameters& aParams)
{
if (IsTestCase("pull-parameters-failure")) {
return static_cast<nsresult>(TestCaseError(UNKNOWN_ERROR));
}
String8 s = mCamera->getParameters();
nsCString extra = GetExtraParameters();
if (!extra.IsEmpty()) {
s += ";";
s += extra.get();
}
return aParams.Unflatten(s);
}
int
TestGonkCameraHardware::StartRecording()
{
if (IsTestCase("start-recording-failure")) {
return TestCaseError(UNKNOWN_ERROR);
}
return GonkCameraHardware::StartRecording();
}
int
TestGonkCameraHardware::StopRecording()
{
if (IsTestCase("stop-recording-failure")) {
return TestCaseError(UNKNOWN_ERROR);
}
return GonkCameraHardware::StopRecording();
}
int
TestGonkCameraHardware::SetListener(const sp<GonkCameraListener>& aListener)
{
if (IsTestCase("set-listener-failure")) {
return TestCaseError(UNKNOWN_ERROR);
}
return GonkCameraHardware::SetListener(aListener);
}
int
TestGonkCameraHardware::StoreMetaDataInBuffers(bool aEnabled)
{
if (IsTestCase("store-metadata-in-buffers-failure")) {
return TestCaseError(UNKNOWN_ERROR);
}
return GonkCameraHardware::StoreMetaDataInBuffers(aEnabled);
}