evs/manager/VirtualCamera.cpp - platform/packages/services/Car - Git at Google

 /*
  * Copyright (C) 2016 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.
  */

 #include "VirtualCamera.h"
 #include "HalCamera.h"
 #include "Enumerator.h"

 #include <ui/GraphicBufferAllocator.h>
 #include <ui/GraphicBufferMapper.h>


 namespace android {
 namespace automotive {
 namespace evs {
 namespace V1_0 {
 namespace implementation {


 VirtualCamera::VirtualCamera(sp<HalCamera> halCamera) :
     mHalCamera(halCamera) {
 }


 VirtualCamera::~VirtualCamera() {
     shutdown();
 }


 void VirtualCamera::shutdown() {
     // In normal operation, the stream should already be stopped by the time we get here
     if (mStreamState != STOPPED) {
         // Note that if we hit this case, no terminating frame will be sent to the client,
         // but they're probably already dead anyway.
         ALOGW("Virtual camera being shutdown while stream is running");
         mStreamState = STOPPED;

         if (mFramesHeld.size() > 0) {
             ALOGW("VirtualCamera destructing with frames in flight.");

             // Return to the underlying hardware camera any buffers the client was holding
             for (auto&& heldBuffer : mFramesHeld) {
                 // Tell our parent that we're done with this buffer
                 mHalCamera->doneWithFrame(heldBuffer);
             }
             mFramesHeld.clear();
         }
     }

     // Drop our reference to our associated hardware camera
     mHalCamera = nullptr;
 }


 bool VirtualCamera::deliverFrame(const BufferDesc& buffer) {
     if (buffer.memHandle == nullptr) {
         // Warn if we got an unexpected stream termination
         if (mStreamState != STOPPING) {
             // TODO:  Should we suicide in this case to trigger a restart of the stack?
             ALOGW("Stream unexpectedly stopped");
         }

         // This is the stream end marker, so send it along, then mark the stream as stopped
         mStream->deliverFrame(buffer);
         mStreamState = STOPPED;
         return true;
     } else {
         if (mStreamState == STOPPED) {
             // A stopped stream gets no frames
             return false;
         } else if (mFramesHeld.size() >= mFramesAllowed) {
             // Indicate that we declined to send the frame to the client because they're at quota
             ALOGI("Skipping new frame as we hold %zu of %u allowed.",
                   mFramesHeld.size(), mFramesAllowed);
             return false;
         } else {
             // Keep a record of this frame so we can clean up if we have to in case of client death
             mFramesHeld.push_back(buffer);

             // Pass this buffer through to our client
             mStream->deliverFrame(buffer);
             return true;
         }
     }
 }


 // Methods from ::android::hardware::automotive::evs::V1_0::IEvsCamera follow.
 Return<void> VirtualCamera::getCameraInfo(getCameraInfo_cb info_cb) {
     // Straight pass through to hardware layer
     return mHalCamera->getHwCamera()->getCameraInfo(info_cb);
 }


 Return<EvsResult> VirtualCamera::setMaxFramesInFlight(uint32_t bufferCount) {
     // How many buffers are we trying to add (or remove if negative)
     int bufferCountChange = bufferCount - mFramesAllowed;

     // Ask our parent for more buffers
     bool result = mHalCamera->changeFramesInFlight(bufferCountChange);
     if (!result) {
         ALOGE("Failed to change buffer count by %d to %d", bufferCountChange, bufferCount);
         return EvsResult::BUFFER_NOT_AVAILABLE;
     }

     // Update our notion of how many frames we're allowed
     mFramesAllowed = bufferCount;
     return EvsResult::OK;
 }


 Return<EvsResult> VirtualCamera::startVideoStream(const ::android::sp<IEvsCameraStream>& stream)  {
     // We only support a single stream at a time
     if (mStreamState != STOPPED) {
         ALOGE("ignoring startVideoStream call when a stream is already running.");
         return EvsResult::STREAM_ALREADY_RUNNING;
     }

     // Validate our held frame count is starting out at zero as we expect
     assert(mFramesHeld.size() == 0);

     // Record the user's callback for use when we have a frame ready
     mStream = stream;
     mStreamState = RUNNING;

     // Tell the underlying camera hardware that we want to stream
     Return<EvsResult> result = mHalCamera->clientStreamStarting();
     if ((!result.isOk()) || (result != EvsResult::OK)) {
         // If we failed to start the underlying stream, then we're not actually running
         mStream = nullptr;
         mStreamState = STOPPED;
         return EvsResult::UNDERLYING_SERVICE_ERROR;
     }

     // TODO:  Detect and exit if we encounter a stalled stream or unresponsive driver?
     // Consider using a timer and watching for frame arrival?

     return EvsResult::OK;
 }


 Return<void> VirtualCamera::doneWithFrame(const BufferDesc& buffer) {
     if (buffer.memHandle == nullptr) {
         ALOGE("ignoring doneWithFrame called with invalid handle");
     } else {
         // Find this buffer in our "held" list
         auto it = mFramesHeld.begin();
         while (it != mFramesHeld.end()) {
             if (it->bufferId == buffer.bufferId) {
                 // found it!
                 break;
             }
             ++it;
         }
         if (it == mFramesHeld.end()) {
             // We should always find the frame in our "held" list
             ALOGE("Ignoring doneWithFrame called with unrecognized frameID %d", buffer.bufferId);
         } else {
             // Take this frame out of our "held" list
             mFramesHeld.erase(it);

             // Tell our parent that we're done with this buffer
             mHalCamera->doneWithFrame(buffer);
         }
     }

     return Void();
 }


 Return<void> VirtualCamera::stopVideoStream()  {
     if (mStreamState == RUNNING) {
         // Tell the frame delivery pipeline we don't want any more frames
         mStreamState = STOPPING;

         // Deliver an empty frame to close out the frame stream
         BufferDesc nullBuff = {};
         auto result = mStream->deliverFrame(nullBuff);
         if (!result.isOk()) {
             ALOGE("Error delivering end of stream marker");
         }

         // Since we are single threaded, no frame can be delivered while this function is running,
         // so we can go directly to the STOPPED state here on the server.
         // Note, however, that there still might be frames already queued that client will see
         // after returning from the client side of this call.
         mStreamState = STOPPED;

         // Give the underlying hardware camera the heads up that it might be time to stop
         mHalCamera->clientStreamEnding();
     }

     return Void();
 }


 Return<int32_t> VirtualCamera::getExtendedInfo(uint32_t opaqueIdentifier)  {
     // Pass straight through to the hardware device
     return mHalCamera->getHwCamera()->getExtendedInfo(opaqueIdentifier);
 }


 Return<EvsResult> VirtualCamera::setExtendedInfo(uint32_t opaqueIdentifier, int32_t opaqueValue)  {
     // Pass straight through to the hardware device
     // TODO: Should we restrict access to this entry point somehow?
     return mHalCamera->getHwCamera()->setExtendedInfo(opaqueIdentifier, opaqueValue);
 }

 } // namespace implementation
 } // namespace V1_0
 } // namespace evs
 } // namespace automotive
 } // namespace android
	/*
	* Copyright (C) 2016 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.
	*/

	#include "VirtualCamera.h"
	#include "HalCamera.h"
	#include "Enumerator.h"

	#include <ui/GraphicBufferAllocator.h>
	#include <ui/GraphicBufferMapper.h>


	namespace android {
	namespace automotive {
	namespace evs {
	namespace V1_0 {
	namespace implementation {


	VirtualCamera::VirtualCamera(sp<HalCamera> halCamera) :
	mHalCamera(halCamera) {
	}


	VirtualCamera::~VirtualCamera() {
	shutdown();
	}


	void VirtualCamera::shutdown() {
	// In normal operation, the stream should already be stopped by the time we get here
	if (mStreamState != STOPPED) {
	// Note that if we hit this case, no terminating frame will be sent to the client,
	// but they're probably already dead anyway.
	ALOGW("Virtual camera being shutdown while stream is running");
	mStreamState = STOPPED;

	if (mFramesHeld.size() > 0) {
	ALOGW("VirtualCamera destructing with frames in flight.");

	// Return to the underlying hardware camera any buffers the client was holding
	for (auto&& heldBuffer : mFramesHeld) {
	// Tell our parent that we're done with this buffer
	mHalCamera->doneWithFrame(heldBuffer);
	}
	mFramesHeld.clear();
	}
	}

	// Drop our reference to our associated hardware camera
	mHalCamera = nullptr;
	}


	bool VirtualCamera::deliverFrame(const BufferDesc& buffer) {
	if (buffer.memHandle == nullptr) {
	// Warn if we got an unexpected stream termination
	if (mStreamState != STOPPING) {
	// TODO: Should we suicide in this case to trigger a restart of the stack?
	ALOGW("Stream unexpectedly stopped");
	}

	// This is the stream end marker, so send it along, then mark the stream as stopped
	mStream->deliverFrame(buffer);
	mStreamState = STOPPED;
	return true;
	} else {
	if (mStreamState == STOPPED) {
	// A stopped stream gets no frames
	return false;
	} else if (mFramesHeld.size() >= mFramesAllowed) {
	// Indicate that we declined to send the frame to the client because they're at quota
	ALOGI("Skipping new frame as we hold %zu of %u allowed.",
	mFramesHeld.size(), mFramesAllowed);
	return false;
	} else {
	// Keep a record of this frame so we can clean up if we have to in case of client death
	mFramesHeld.push_back(buffer);

	// Pass this buffer through to our client
	mStream->deliverFrame(buffer);
	return true;
	}
	}
	}


	// Methods from ::android::hardware::automotive::evs::V1_0::IEvsCamera follow.
	Return<void> VirtualCamera::getCameraInfo(getCameraInfo_cb info_cb) {
	// Straight pass through to hardware layer
	return mHalCamera->getHwCamera()->getCameraInfo(info_cb);
	}


	Return<EvsResult> VirtualCamera::setMaxFramesInFlight(uint32_t bufferCount) {
	// How many buffers are we trying to add (or remove if negative)
	int bufferCountChange = bufferCount - mFramesAllowed;

	// Ask our parent for more buffers
	bool result = mHalCamera->changeFramesInFlight(bufferCountChange);
	if (!result) {
	ALOGE("Failed to change buffer count by %d to %d", bufferCountChange, bufferCount);
	return EvsResult::BUFFER_NOT_AVAILABLE;
	}

	// Update our notion of how many frames we're allowed
	mFramesAllowed = bufferCount;
	return EvsResult::OK;
	}


	Return<EvsResult> VirtualCamera::startVideoStream(const ::android::sp<IEvsCameraStream>& stream) {
	// We only support a single stream at a time
	if (mStreamState != STOPPED) {
	ALOGE("ignoring startVideoStream call when a stream is already running.");
	return EvsResult::STREAM_ALREADY_RUNNING;
	}

	// Validate our held frame count is starting out at zero as we expect
	assert(mFramesHeld.size() == 0);

	// Record the user's callback for use when we have a frame ready
	mStream = stream;
	mStreamState = RUNNING;

	// Tell the underlying camera hardware that we want to stream
	Return<EvsResult> result = mHalCamera->clientStreamStarting();
	if ((!result.isOk()) \|\| (result != EvsResult::OK)) {
	// If we failed to start the underlying stream, then we're not actually running
	mStream = nullptr;
	mStreamState = STOPPED;
	return EvsResult::UNDERLYING_SERVICE_ERROR;
	}

	// TODO: Detect and exit if we encounter a stalled stream or unresponsive driver?
	// Consider using a timer and watching for frame arrival?

	return EvsResult::OK;
	}


	Return<void> VirtualCamera::doneWithFrame(const BufferDesc& buffer) {
	if (buffer.memHandle == nullptr) {
	ALOGE("ignoring doneWithFrame called with invalid handle");
	} else {
	// Find this buffer in our "held" list
	auto it = mFramesHeld.begin();
	while (it != mFramesHeld.end()) {
	if (it->bufferId == buffer.bufferId) {
	// found it!
	break;
	}
	++it;
	}
	if (it == mFramesHeld.end()) {
	// We should always find the frame in our "held" list
	ALOGE("Ignoring doneWithFrame called with unrecognized frameID %d", buffer.bufferId);
	} else {
	// Take this frame out of our "held" list
	mFramesHeld.erase(it);

	// Tell our parent that we're done with this buffer
	mHalCamera->doneWithFrame(buffer);
	}
	}

	return Void();
	}


	Return<void> VirtualCamera::stopVideoStream() {
	if (mStreamState == RUNNING) {
	// Tell the frame delivery pipeline we don't want any more frames
	mStreamState = STOPPING;

	// Deliver an empty frame to close out the frame stream
	BufferDesc nullBuff = {};
	auto result = mStream->deliverFrame(nullBuff);
	if (!result.isOk()) {
	ALOGE("Error delivering end of stream marker");
	}

	// Since we are single threaded, no frame can be delivered while this function is running,
	// so we can go directly to the STOPPED state here on the server.
	// Note, however, that there still might be frames already queued that client will see
	// after returning from the client side of this call.
	mStreamState = STOPPED;

	// Give the underlying hardware camera the heads up that it might be time to stop
	mHalCamera->clientStreamEnding();
	}

	return Void();
	}


	Return<int32_t> VirtualCamera::getExtendedInfo(uint32_t opaqueIdentifier) {
	// Pass straight through to the hardware device
	return mHalCamera->getHwCamera()->getExtendedInfo(opaqueIdentifier);
	}


	Return<EvsResult> VirtualCamera::setExtendedInfo(uint32_t opaqueIdentifier, int32_t opaqueValue) {
	// Pass straight through to the hardware device
	// TODO: Should we restrict access to this entry point somehow?
	return mHalCamera->getHwCamera()->setExtendedInfo(opaqueIdentifier, opaqueValue);
	}

	} // namespace implementation
	} // namespace V1_0
	} // namespace evs
	} // namespace automotive
	} // namespace android