/* * 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 #include #include "Enumerator.h" #include "HalDisplay.h" namespace android { namespace automotive { namespace evs { namespace V1_0 { namespace implementation { bool Enumerator::init(const char* hardwareServiceName) { ALOGD("init"); // Connect with the underlying hardware enumerator mHwEnumerator = IEvsEnumerator::getService(hardwareServiceName); bool result = (mHwEnumerator.get() != nullptr); return result; } bool Enumerator::checkPermission() { hardware::IPCThreadState *ipc = hardware::IPCThreadState::self(); if (AID_AUTOMOTIVE_EVS != ipc->getCallingUid()) { ALOGE("EVS access denied: pid = %d, uid = %d", ipc->getCallingPid(), ipc->getCallingUid()); return false; } return true; } // Methods from ::android::hardware::automotive::evs::V1_0::IEvsEnumerator follow. Return Enumerator::getCameraList(getCameraList_cb list_cb) { ALOGD("getCameraList"); if (!checkPermission()) { return Void(); } // Simply pass through to hardware layer return mHwEnumerator->getCameraList(list_cb); } Return> Enumerator::openCamera(const hidl_string& cameraId) { ALOGD("openCamera"); if (!checkPermission()) { return nullptr; } // Is the underlying hardware camera already open? sp hwCamera; for (auto &&cam : mCameras) { bool match = false; cam->getHwCamera()->getCameraInfo([cameraId, &match](CameraDesc desc) { if (desc.cameraId == cameraId) { match = true; } } ); if (match) { hwCamera = cam; break; } } // Do we need to open a new hardware camera? if (hwCamera == nullptr) { // Is the hardware camera available? sp device = mHwEnumerator->openCamera(cameraId); if (device == nullptr) { ALOGE("Failed to open hardware camera %s", cameraId.c_str()); } else { hwCamera = new HalCamera(device); if (hwCamera == nullptr) { ALOGE("Failed to allocate camera wrapper object"); mHwEnumerator->closeCamera(device); } } } // Construct a virtual camera wrapper for this hardware camera sp clientCamera; if (hwCamera != nullptr) { clientCamera = hwCamera->makeVirtualCamera(); } // Add the hardware camera to our list, which will keep it alive via ref count if (clientCamera != nullptr) { mCameras.push_back(hwCamera); } else { ALOGE("Requested camera %s not found or not available", cameraId.c_str()); } // Send the virtual camera object back to the client by strong pointer which will keep it alive return clientCamera; } Return Enumerator::closeCamera(const ::android::sp& clientCamera) { ALOGD("closeCamera"); if (clientCamera.get() == nullptr) { ALOGE("Ignoring call with null camera pointer."); return Void(); } // All our client cameras are actually VirtualCamera objects sp virtualCamera = reinterpret_cast(clientCamera.get()); // Find the parent camera that backs this virtual camera sp halCamera = virtualCamera->getHalCamera(); // Tell the virtual camera's parent to clean it up and drop it // NOTE: The camera objects will only actually destruct when the sp<> ref counts get to // zero, so it is important to break all cyclic references. halCamera->disownVirtualCamera(virtualCamera); // Did we just remove the last client of this camera? if (halCamera->getClientCount() == 0) { // Take this now unused camera out of our list // NOTE: This should drop our last reference to the camera, resulting in its // destruction. mCameras.remove(halCamera); } return Void(); } Return> Enumerator::openDisplay() { ALOGD("openDisplay"); if (!checkPermission()) { return nullptr; } // We simply keep track of the most recently opened display instance. // In the underlying layers we expect that a new open will cause the previous // object to be destroyed. This avoids any race conditions associated with // create/destroy order and provides a cleaner restart sequence if the previous owner // is non-responsive for some reason. // Request exclusive access to the EVS display sp pActiveDisplay = mHwEnumerator->openDisplay(); if (pActiveDisplay == nullptr) { ALOGE("EVS Display unavailable"); return nullptr; } // Remember (via weak pointer) who we think the most recently opened display is so that // we can proxy state requests from other callers to it. // TODO: Because of b/129284474, an additional class, HalDisplay, has been defined and // wraps the IEvsDisplay object the driver returns. We may want to remove this // additional class when it is fixed properly. sp pHalDisplay = new HalDisplay(pActiveDisplay); mActiveDisplay = pHalDisplay; return pHalDisplay; } Return Enumerator::closeDisplay(const ::android::sp& display) { ALOGD("closeDisplay"); sp pActiveDisplay = mActiveDisplay.promote(); // Drop the active display if (display.get() != pActiveDisplay.get()) { ALOGW("Ignoring call to closeDisplay with unrecognized display object."); } else { // Pass this request through to the hardware layer sp halDisplay = reinterpret_cast(pActiveDisplay.get()); mHwEnumerator->closeDisplay(halDisplay->getHwDisplay()); mActiveDisplay = nullptr; } return Void(); } Return Enumerator::getDisplayState() { ALOGD("getDisplayState"); if (!checkPermission()) { return DisplayState::DEAD; } // Do we have a display object we think should be active? sp pActiveDisplay = mActiveDisplay.promote(); if (pActiveDisplay != nullptr) { // Pass this request through to the hardware layer return pActiveDisplay->getDisplayState(); } else { // We don't have a live display right now mActiveDisplay = nullptr; return DisplayState::NOT_OPEN; } } } // namespace implementation } // namespace V1_0 } // namespace evs } // namespace automotive } // namespace android