/* * Copyright (C) 2011 The Android Open Source Project * * 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. */ /* * Contains implementation of an abstract class EmulatedCameraDevice that defines * functionality expected from an emulated physical camera device: * - Obtaining and setting camera parameters * - Capturing frames * - Streaming video * - etc. */ #define LOG_NDEBUG 0 #define LOG_TAG "EmulatedCamera_Device" #include <cutils/log.h> #include <sys/select.h> #include <cmath> #include "EmulatedCameraDevice.h" namespace android { const float GAMMA_CORRECTION = 2.2f; EmulatedCameraDevice::EmulatedCameraDevice(EmulatedCamera* camera_hal) : mObjectLock(), mCurFrameTimestamp(0), mCameraHAL(camera_hal), mCurrentFrame(NULL), mExposureCompensation(1.0f), mWhiteBalanceScale(NULL), mSupportedWhiteBalanceScale(), mState(ECDS_CONSTRUCTED) { } EmulatedCameraDevice::~EmulatedCameraDevice() { ALOGV("EmulatedCameraDevice destructor"); if (mCurrentFrame != NULL) { delete[] mCurrentFrame; } for (size_t i = 0; i < mSupportedWhiteBalanceScale.size(); ++i) { if (mSupportedWhiteBalanceScale.valueAt(i) != NULL) { delete[] mSupportedWhiteBalanceScale.valueAt(i); } } } /**************************************************************************** * Emulated camera device public API ***************************************************************************/ status_t EmulatedCameraDevice::Initialize() { if (isInitialized()) { ALOGW("%s: Emulated camera device is already initialized: mState = %d", __FUNCTION__, mState); return NO_ERROR; } /* Instantiate worker thread object. */ mWorkerThread = new WorkerThread(this); if (getWorkerThread() == NULL) { ALOGE("%s: Unable to instantiate worker thread object", __FUNCTION__); return ENOMEM; } mState = ECDS_INITIALIZED; return NO_ERROR; } status_t EmulatedCameraDevice::startDeliveringFrames(bool one_burst) { ALOGV("%s", __FUNCTION__); if (!isStarted()) { ALOGE("%s: Device is not started", __FUNCTION__); return EINVAL; } /* Frames will be delivered from the thread routine. */ const status_t res = startWorkerThread(one_burst); ALOGE_IF(res != NO_ERROR, "%s: startWorkerThread failed", __FUNCTION__); return res; } status_t EmulatedCameraDevice::stopDeliveringFrames() { ALOGV("%s", __FUNCTION__); if (!isStarted()) { ALOGW("%s: Device is not started", __FUNCTION__); return NO_ERROR; } const status_t res = stopWorkerThread(); ALOGE_IF(res != NO_ERROR, "%s: startWorkerThread failed", __FUNCTION__); return res; } void EmulatedCameraDevice::setExposureCompensation(const float ev) { ALOGV("%s", __FUNCTION__); if (!isStarted()) { ALOGW("%s: Fake camera device is not started.", __FUNCTION__); } mExposureCompensation = std::pow(2.0f, ev / GAMMA_CORRECTION); ALOGV("New exposure compensation is %f", mExposureCompensation); } void EmulatedCameraDevice::initializeWhiteBalanceModes(const char* mode, const float r_scale, const float b_scale) { ALOGV("%s with %s, %f, %f", __FUNCTION__, mode, r_scale, b_scale); float* value = new float[3]; value[0] = r_scale; value[1] = 1.0f; value[2] = b_scale; mSupportedWhiteBalanceScale.add(String8(mode), value); } void EmulatedCameraDevice::setWhiteBalanceMode(const char* mode) { ALOGV("%s with white balance %s", __FUNCTION__, mode); mWhiteBalanceScale = mSupportedWhiteBalanceScale.valueFor(String8(mode)); } /* Computes the pixel value after adjusting the white balance to the current * one. The input the y, u, v channel of the pixel and the adjusted value will * be stored in place. The adjustment is done in RGB space. */ void EmulatedCameraDevice::changeWhiteBalance(uint8_t& y, uint8_t& u, uint8_t& v) const { float r_scale = mWhiteBalanceScale[0]; float b_scale = mWhiteBalanceScale[2]; int r = static_cast<float>(YUV2R(y, u, v)) / r_scale; int g = YUV2G(y, u, v); int b = static_cast<float>(YUV2B(y, u, v)) / b_scale; y = RGB2Y(r, g, b); u = RGB2U(r, g, b); v = RGB2V(r, g, b); } status_t EmulatedCameraDevice::getCurrentPreviewFrame(void* buffer) { if (!isStarted()) { ALOGE("%s: Device is not started", __FUNCTION__); return EINVAL; } if (mCurrentFrame == NULL || buffer == NULL) { ALOGE("%s: No framebuffer", __FUNCTION__); return EINVAL; } /* In emulation the framebuffer is never RGB. */ switch (mPixelFormat) { case V4L2_PIX_FMT_YVU420: YV12ToRGB32(mCurrentFrame, buffer, mFrameWidth, mFrameHeight); return NO_ERROR; case V4L2_PIX_FMT_YUV420: YU12ToRGB32(mCurrentFrame, buffer, mFrameWidth, mFrameHeight); return NO_ERROR; case V4L2_PIX_FMT_NV21: NV21ToRGB32(mCurrentFrame, buffer, mFrameWidth, mFrameHeight); return NO_ERROR; case V4L2_PIX_FMT_NV12: NV12ToRGB32(mCurrentFrame, buffer, mFrameWidth, mFrameHeight); return NO_ERROR; default: ALOGE("%s: Unknown pixel format %.4s", __FUNCTION__, reinterpret_cast<const char*>(&mPixelFormat)); return EINVAL; } } /**************************************************************************** * Emulated camera device private API ***************************************************************************/ status_t EmulatedCameraDevice::commonStartDevice(int width, int height, uint32_t pix_fmt) { /* Validate pixel format, and calculate framebuffer size at the same time. */ switch (pix_fmt) { case V4L2_PIX_FMT_YVU420: case V4L2_PIX_FMT_YUV420: case V4L2_PIX_FMT_NV21: case V4L2_PIX_FMT_NV12: mFrameBufferSize = (width * height * 12) / 8; break; default: ALOGE("%s: Unknown pixel format %.4s", __FUNCTION__, reinterpret_cast<const char*>(&pix_fmt)); return EINVAL; } /* Cache framebuffer info. */ mFrameWidth = width; mFrameHeight = height; mPixelFormat = pix_fmt; mTotalPixels = width * height; /* Allocate framebuffer. */ mCurrentFrame = new uint8_t[mFrameBufferSize]; if (mCurrentFrame == NULL) { ALOGE("%s: Unable to allocate framebuffer", __FUNCTION__); return ENOMEM; } ALOGV("%s: Allocated %p %zu bytes for %d pixels in %.4s[%dx%d] frame", __FUNCTION__, mCurrentFrame, mFrameBufferSize, mTotalPixels, reinterpret_cast<const char*>(&mPixelFormat), mFrameWidth, mFrameHeight); return NO_ERROR; } void EmulatedCameraDevice::commonStopDevice() { mFrameWidth = mFrameHeight = mTotalPixels = 0; mPixelFormat = 0; if (mCurrentFrame != NULL) { delete[] mCurrentFrame; mCurrentFrame = NULL; } } /**************************************************************************** * Worker thread management. ***************************************************************************/ status_t EmulatedCameraDevice::startWorkerThread(bool one_burst) { ALOGV("%s", __FUNCTION__); if (!isInitialized()) { ALOGE("%s: Emulated camera device is not initialized", __FUNCTION__); return EINVAL; } const status_t res = getWorkerThread()->startThread(one_burst); ALOGE_IF(res != NO_ERROR, "%s: Unable to start worker thread", __FUNCTION__); return res; } status_t EmulatedCameraDevice::stopWorkerThread() { ALOGV("%s", __FUNCTION__); if (!isInitialized()) { ALOGE("%s: Emulated camera device is not initialized", __FUNCTION__); return EINVAL; } const status_t res = getWorkerThread()->stopThread(); ALOGE_IF(res != NO_ERROR, "%s: Unable to stop worker thread", __FUNCTION__); return res; } bool EmulatedCameraDevice::inWorkerThread() { /* This will end the thread loop, and will terminate the thread. Derived * classes must override this method. */ return false; } /**************************************************************************** * Worker thread implementation. ***************************************************************************/ status_t EmulatedCameraDevice::WorkerThread::readyToRun() { ALOGV("Starting emulated camera device worker thread..."); ALOGW_IF(mThreadControl >= 0 || mControlFD >= 0, "%s: Thread control FDs are opened", __FUNCTION__); /* Create a pair of FDs that would be used to control the thread. */ int thread_fds[2]; if (pipe(thread_fds) == 0) { mThreadControl = thread_fds[1]; mControlFD = thread_fds[0]; ALOGV("Emulated device's worker thread has been started."); return NO_ERROR; } else { ALOGE("%s: Unable to create thread control FDs: %d -> %s", __FUNCTION__, errno, strerror(errno)); return errno; } } status_t EmulatedCameraDevice::WorkerThread::stopThread() { ALOGV("Stopping emulated camera device's worker thread..."); status_t res = EINVAL; if (mThreadControl >= 0) { /* Send "stop" message to the thread loop. */ const ControlMessage msg = THREAD_STOP; const int wres = TEMP_FAILURE_RETRY(write(mThreadControl, &msg, sizeof(msg))); if (wres == sizeof(msg)) { /* Stop the thread, and wait till it's terminated. */ res = requestExitAndWait(); if (res == NO_ERROR) { /* Close control FDs. */ if (mThreadControl >= 0) { close(mThreadControl); mThreadControl = -1; } if (mControlFD >= 0) { close(mControlFD); mControlFD = -1; } ALOGV("Emulated camera device's worker thread has been stopped."); } else { ALOGE("%s: requestExitAndWait failed: %d -> %s", __FUNCTION__, res, strerror(-res)); } } else { ALOGE("%s: Unable to send THREAD_STOP message: %d -> %s", __FUNCTION__, errno, strerror(errno)); res = errno ? errno : EINVAL; } } else { ALOGE("%s: Thread control FDs are not opened", __FUNCTION__); } return res; } EmulatedCameraDevice::WorkerThread::SelectRes EmulatedCameraDevice::WorkerThread::Select(int fd, int timeout) { fd_set fds[1]; struct timeval tv, *tvp = NULL; const int fd_num = (fd >= 0) ? max(fd, mControlFD) + 1 : mControlFD + 1; FD_ZERO(fds); FD_SET(mControlFD, fds); if (fd >= 0) { FD_SET(fd, fds); } if (timeout) { tv.tv_sec = timeout / 1000000; tv.tv_usec = timeout % 1000000; tvp = &tv; } int res = TEMP_FAILURE_RETRY(select(fd_num, fds, NULL, NULL, tvp)); if (res < 0) { ALOGE("%s: select returned %d and failed: %d -> %s", __FUNCTION__, res, errno, strerror(errno)); return ERROR; } else if (res == 0) { /* Timeout. */ return TIMEOUT; } else if (FD_ISSET(mControlFD, fds)) { /* A control event. Lets read the message. */ ControlMessage msg; res = TEMP_FAILURE_RETRY(read(mControlFD, &msg, sizeof(msg))); if (res != sizeof(msg)) { ALOGE("%s: Unexpected message size %d, or an error %d -> %s", __FUNCTION__, res, errno, strerror(errno)); return ERROR; } /* THREAD_STOP is the only message expected here. */ if (msg == THREAD_STOP) { ALOGV("%s: THREAD_STOP message is received", __FUNCTION__); return EXIT_THREAD; } else { ALOGE("Unknown worker thread message %d", msg); return ERROR; } } else { /* Must be an FD. */ ALOGW_IF(fd < 0 || !FD_ISSET(fd, fds), "%s: Undefined 'select' result", __FUNCTION__); return READY; } } }; /* namespace android */