/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*- * 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/. */ #ifndef XP_WIN #error "Oculus 1.3 runtime support only available for Windows" #endif #include #include "prlink.h" #include "prmem.h" #include "prenv.h" #include "gfxPrefs.h" #include "nsString.h" #include "mozilla/DebugOnly.h" #include "mozilla/Preferences.h" #include "mozilla/TimeStamp.h" #include "mozilla/gfx/DeviceManagerDx.h" #include "ipc/VRLayerParent.h" #include "mozilla/gfx/Quaternion.h" #include #include "CompositorD3D11.h" #include "TextureD3D11.h" #include "gfxVROculus.h" /** XXX The DX11 objects and quad blitting could be encapsulated * into a separate object if either Oculus starts supporting * non-Windows platforms or the blit is needed by other HMD\ * drivers. * Alternately, we could remove the extra blit for * Oculus as well with some more refactoring. */ // See CompositorD3D11Shaders.h struct ShaderBytes { const void* mData; size_t mLength; }; extern ShaderBytes sRGBShader; extern ShaderBytes sLayerQuadVS; #ifndef M_PI # define M_PI 3.14159265358979323846 #endif using namespace mozilla; using namespace mozilla::gfx; using namespace mozilla::gfx::impl; using namespace mozilla::layers; namespace { #ifdef OVR_CAPI_LIMITED_MOZILLA static pfn_ovr_Initialize ovr_Initialize = nullptr; static pfn_ovr_Shutdown ovr_Shutdown = nullptr; static pfn_ovr_GetLastErrorInfo ovr_GetLastErrorInfo = nullptr; static pfn_ovr_GetVersionString ovr_GetVersionString = nullptr; static pfn_ovr_TraceMessage ovr_TraceMessage = nullptr; static pfn_ovr_GetHmdDesc ovr_GetHmdDesc = nullptr; static pfn_ovr_GetTrackerCount ovr_GetTrackerCount = nullptr; static pfn_ovr_GetTrackerDesc ovr_GetTrackerDesc = nullptr; static pfn_ovr_Create ovr_Create = nullptr; static pfn_ovr_Destroy ovr_Destroy = nullptr; static pfn_ovr_GetSessionStatus ovr_GetSessionStatus = nullptr; static pfn_ovr_SetTrackingOriginType ovr_SetTrackingOriginType = nullptr; static pfn_ovr_GetTrackingOriginType ovr_GetTrackingOriginType = nullptr; static pfn_ovr_RecenterTrackingOrigin ovr_RecenterTrackingOrigin = nullptr; static pfn_ovr_ClearShouldRecenterFlag ovr_ClearShouldRecenterFlag = nullptr; static pfn_ovr_GetTrackingState ovr_GetTrackingState = nullptr; static pfn_ovr_GetTrackerPose ovr_GetTrackerPose = nullptr; static pfn_ovr_GetInputState ovr_GetInputState = nullptr; static pfn_ovr_GetConnectedControllerTypes ovr_GetConnectedControllerTypes = nullptr; static pfn_ovr_SetControllerVibration ovr_SetControllerVibration = nullptr; static pfn_ovr_GetTextureSwapChainLength ovr_GetTextureSwapChainLength = nullptr; static pfn_ovr_GetTextureSwapChainCurrentIndex ovr_GetTextureSwapChainCurrentIndex = nullptr; static pfn_ovr_GetTextureSwapChainDesc ovr_GetTextureSwapChainDesc = nullptr; static pfn_ovr_CommitTextureSwapChain ovr_CommitTextureSwapChain = nullptr; static pfn_ovr_DestroyTextureSwapChain ovr_DestroyTextureSwapChain = nullptr; static pfn_ovr_DestroyMirrorTexture ovr_DestroyMirrorTexture = nullptr; static pfn_ovr_GetFovTextureSize ovr_GetFovTextureSize = nullptr; static pfn_ovr_GetRenderDesc ovr_GetRenderDesc = nullptr; static pfn_ovr_SubmitFrame ovr_SubmitFrame = nullptr; static pfn_ovr_GetPredictedDisplayTime ovr_GetPredictedDisplayTime = nullptr; static pfn_ovr_GetTimeInSeconds ovr_GetTimeInSeconds = nullptr; static pfn_ovr_GetBool ovr_GetBool = nullptr; static pfn_ovr_SetBool ovr_SetBool = nullptr; static pfn_ovr_GetInt ovr_GetInt = nullptr; static pfn_ovr_SetInt ovr_SetInt = nullptr; static pfn_ovr_GetFloat ovr_GetFloat = nullptr; static pfn_ovr_SetFloat ovr_SetFloat = nullptr; static pfn_ovr_GetFloatArray ovr_GetFloatArray = nullptr; static pfn_ovr_SetFloatArray ovr_SetFloatArray = nullptr; static pfn_ovr_GetString ovr_GetString = nullptr; static pfn_ovr_SetString ovr_SetString = nullptr; #ifdef XP_WIN static pfn_ovr_CreateTextureSwapChainDX ovr_CreateTextureSwapChainDX = nullptr; static pfn_ovr_GetTextureSwapChainBufferDX ovr_GetTextureSwapChainBufferDX = nullptr; static pfn_ovr_CreateMirrorTextureDX ovr_CreateMirrorTextureDX = nullptr; static pfn_ovr_GetMirrorTextureBufferDX ovr_GetMirrorTextureBufferDX = nullptr; #endif static pfn_ovr_CreateTextureSwapChainGL ovr_CreateTextureSwapChainGL = nullptr; static pfn_ovr_GetTextureSwapChainBufferGL ovr_GetTextureSwapChainBufferGL = nullptr; static pfn_ovr_CreateMirrorTextureGL ovr_CreateMirrorTextureGL = nullptr; static pfn_ovr_GetMirrorTextureBufferGL ovr_GetMirrorTextureBufferGL = nullptr; #ifdef HAVE_64BIT_BUILD #define BUILD_BITS 64 #else #define BUILD_BITS 32 #endif #define OVR_PRODUCT_VERSION 1 #define OVR_MAJOR_VERSION 3 #define OVR_MINOR_VERSION 1 static bool InitializeOculusCAPI() { static PRLibrary *ovrlib = nullptr; if (!ovrlib) { nsTArray libSearchPaths; nsCString libName; nsCString searchPath; #if defined(_WIN32) static const char dirSep = '\\'; #else static const char dirSep = '/'; #endif #if defined(_WIN32) static const int pathLen = 260; searchPath.SetCapacity(pathLen); int realLen = ::GetSystemDirectoryA(searchPath.BeginWriting(), pathLen); if (realLen != 0 && realLen < pathLen) { searchPath.SetLength(realLen); libSearchPaths.AppendElement(searchPath); } libName.AppendPrintf("LibOVRRT%d_%d.dll", BUILD_BITS, OVR_PRODUCT_VERSION); #elif defined(__APPLE__) searchPath.Truncate(); searchPath.AppendPrintf("/Library/Frameworks/LibOVRRT_%d.framework/Versions/%d", OVR_PRODUCT_VERSION, OVR_MAJOR_VERSION); libSearchPaths.AppendElement(searchPath); if (PR_GetEnv("HOME")) { searchPath.Truncate(); searchPath.AppendPrintf("%s/Library/Frameworks/LibOVRRT_%d.framework/Versions/%d", PR_GetEnv("HOME"), OVR_PRODUCT_VERSION, OVR_MAJOR_VERSION); libSearchPaths.AppendElement(searchPath); } // The following will match the va_list overload of AppendPrintf if the product version is 0 // That's bad times. //libName.AppendPrintf("LibOVRRT_%d", OVR_PRODUCT_VERSION); libName.Append("LibOVRRT_"); libName.AppendInt(OVR_PRODUCT_VERSION); #else libSearchPaths.AppendElement(nsCString("/usr/local/lib")); libSearchPaths.AppendElement(nsCString("/usr/lib")); libName.AppendPrintf("libOVRRT%d_%d.so.%d", BUILD_BITS, OVR_PRODUCT_VERSION, OVR_MAJOR_VERSION); #endif // If the pref is present, we override libName nsAdoptingCString prefLibPath = mozilla::Preferences::GetCString("dom.vr.ovr_lib_path"); if (prefLibPath && prefLibPath.get()) { libSearchPaths.InsertElementsAt(0, 1, prefLibPath); } nsAdoptingCString prefLibName = mozilla::Preferences::GetCString("dom.vr.ovr_lib_name"); if (prefLibName && prefLibName.get()) { libName.Assign(prefLibName); } // search the path/module dir libSearchPaths.InsertElementsAt(0, 1, nsCString()); // If the env var is present, we override libName if (PR_GetEnv("OVR_LIB_PATH")) { searchPath = PR_GetEnv("OVR_LIB_PATH"); libSearchPaths.InsertElementsAt(0, 1, searchPath); } if (PR_GetEnv("OVR_LIB_NAME")) { libName = PR_GetEnv("OVR_LIB_NAME"); } for (uint32_t i = 0; i < libSearchPaths.Length(); ++i) { nsCString& libPath = libSearchPaths[i]; nsCString fullName; if (libPath.Length() == 0) { fullName.Assign(libName); } else { fullName.AppendPrintf("%s%c%s", libPath.BeginReading(), dirSep, libName.BeginReading()); } ovrlib = PR_LoadLibrary(fullName.BeginReading()); if (ovrlib) break; } if (!ovrlib) { return false; } } // was it already initialized? if (ovr_Initialize) return true; #define REQUIRE_FUNCTION(_x) do { \ *(void **)&_x = (void *) PR_FindSymbol(ovrlib, #_x); \ if (!_x) { printf_stderr(#_x " symbol missing\n"); goto fail; } \ } while (0) REQUIRE_FUNCTION(ovr_Initialize); REQUIRE_FUNCTION(ovr_Shutdown); REQUIRE_FUNCTION(ovr_GetLastErrorInfo); REQUIRE_FUNCTION(ovr_GetVersionString); REQUIRE_FUNCTION(ovr_TraceMessage); REQUIRE_FUNCTION(ovr_GetHmdDesc); REQUIRE_FUNCTION(ovr_GetTrackerCount); REQUIRE_FUNCTION(ovr_GetTrackerDesc); REQUIRE_FUNCTION(ovr_Create); REQUIRE_FUNCTION(ovr_Destroy); REQUIRE_FUNCTION(ovr_GetSessionStatus); REQUIRE_FUNCTION(ovr_SetTrackingOriginType); REQUIRE_FUNCTION(ovr_GetTrackingOriginType); REQUIRE_FUNCTION(ovr_RecenterTrackingOrigin); REQUIRE_FUNCTION(ovr_ClearShouldRecenterFlag); REQUIRE_FUNCTION(ovr_GetTrackingState); REQUIRE_FUNCTION(ovr_GetTrackerPose); REQUIRE_FUNCTION(ovr_GetInputState); REQUIRE_FUNCTION(ovr_GetConnectedControllerTypes); REQUIRE_FUNCTION(ovr_SetControllerVibration); REQUIRE_FUNCTION(ovr_GetTextureSwapChainLength); REQUIRE_FUNCTION(ovr_GetTextureSwapChainCurrentIndex); REQUIRE_FUNCTION(ovr_GetTextureSwapChainDesc); REQUIRE_FUNCTION(ovr_CommitTextureSwapChain); REQUIRE_FUNCTION(ovr_DestroyTextureSwapChain); REQUIRE_FUNCTION(ovr_DestroyMirrorTexture); REQUIRE_FUNCTION(ovr_GetFovTextureSize); REQUIRE_FUNCTION(ovr_GetRenderDesc); REQUIRE_FUNCTION(ovr_SubmitFrame); REQUIRE_FUNCTION(ovr_GetPredictedDisplayTime); REQUIRE_FUNCTION(ovr_GetTimeInSeconds); REQUIRE_FUNCTION(ovr_GetBool); REQUIRE_FUNCTION(ovr_SetBool); REQUIRE_FUNCTION(ovr_GetInt); REQUIRE_FUNCTION(ovr_SetInt); REQUIRE_FUNCTION(ovr_GetFloat); REQUIRE_FUNCTION(ovr_SetFloat); REQUIRE_FUNCTION(ovr_GetFloatArray); REQUIRE_FUNCTION(ovr_SetFloatArray); REQUIRE_FUNCTION(ovr_GetString); REQUIRE_FUNCTION(ovr_SetString); #ifdef XP_WIN REQUIRE_FUNCTION(ovr_CreateTextureSwapChainDX); REQUIRE_FUNCTION(ovr_GetTextureSwapChainBufferDX); REQUIRE_FUNCTION(ovr_CreateMirrorTextureDX); REQUIRE_FUNCTION(ovr_GetMirrorTextureBufferDX); #endif REQUIRE_FUNCTION(ovr_CreateTextureSwapChainGL); REQUIRE_FUNCTION(ovr_GetTextureSwapChainBufferGL); REQUIRE_FUNCTION(ovr_CreateMirrorTextureGL); REQUIRE_FUNCTION(ovr_GetMirrorTextureBufferGL); #undef REQUIRE_FUNCTION return true; fail: ovr_Initialize = nullptr; return false; } #else #include // we're statically linked; it's available static bool InitializeOculusCAPI() { return true; } #endif ovrFovPort ToFovPort(const VRFieldOfView& aFOV) { ovrFovPort fovPort; fovPort.LeftTan = tan(aFOV.leftDegrees * M_PI / 180.0); fovPort.RightTan = tan(aFOV.rightDegrees * M_PI / 180.0); fovPort.UpTan = tan(aFOV.upDegrees * M_PI / 180.0); fovPort.DownTan = tan(aFOV.downDegrees * M_PI / 180.0); return fovPort; } VRFieldOfView FromFovPort(const ovrFovPort& aFOV) { VRFieldOfView fovInfo; fovInfo.leftDegrees = atan(aFOV.LeftTan) * 180.0 / M_PI; fovInfo.rightDegrees = atan(aFOV.RightTan) * 180.0 / M_PI; fovInfo.upDegrees = atan(aFOV.UpTan) * 180.0 / M_PI; fovInfo.downDegrees = atan(aFOV.DownTan) * 180.0 / M_PI; return fovInfo; } } // namespace VRDisplayOculus::VRDisplayOculus(ovrSession aSession) : VRDisplayHost(VRDeviceType::Oculus) , mSession(aSession) , mTextureSet(nullptr) , mQuadVS(nullptr) , mQuadPS(nullptr) , mLinearSamplerState(nullptr) , mVSConstantBuffer(nullptr) , mPSConstantBuffer(nullptr) , mVertexBuffer(nullptr) , mInputLayout(nullptr) , mIsPresenting(false) { MOZ_COUNT_CTOR_INHERITED(VRDisplayOculus, VRDisplayHost); mDisplayInfo.mDisplayName.AssignLiteral("Oculus VR HMD"); mDisplayInfo.mIsConnected = true; mDesc = ovr_GetHmdDesc(aSession); mDisplayInfo.mCapabilityFlags = VRDisplayCapabilityFlags::Cap_None; if (mDesc.AvailableTrackingCaps & ovrTrackingCap_Orientation) { mDisplayInfo.mCapabilityFlags |= VRDisplayCapabilityFlags::Cap_Orientation; mDisplayInfo.mCapabilityFlags |= VRDisplayCapabilityFlags::Cap_AngularAcceleration; } if (mDesc.AvailableTrackingCaps & ovrTrackingCap_Position) { mDisplayInfo.mCapabilityFlags |= VRDisplayCapabilityFlags::Cap_Position; mDisplayInfo.mCapabilityFlags |= VRDisplayCapabilityFlags::Cap_LinearAcceleration; } mDisplayInfo.mCapabilityFlags |= VRDisplayCapabilityFlags::Cap_External; mDisplayInfo.mCapabilityFlags |= VRDisplayCapabilityFlags::Cap_Present; mFOVPort[VRDisplayInfo::Eye_Left] = mDesc.DefaultEyeFov[ovrEye_Left]; mFOVPort[VRDisplayInfo::Eye_Right] = mDesc.DefaultEyeFov[ovrEye_Right]; mDisplayInfo.mEyeFOV[VRDisplayInfo::Eye_Left] = FromFovPort(mFOVPort[VRDisplayInfo::Eye_Left]); mDisplayInfo.mEyeFOV[VRDisplayInfo::Eye_Right] = FromFovPort(mFOVPort[VRDisplayInfo::Eye_Right]); float pixelsPerDisplayPixel = 1.0; ovrSizei texSize[2]; // get eye parameters and create the mesh for (uint32_t eye = 0; eye < VRDisplayInfo::NumEyes; eye++) { ovrEyeRenderDesc renderDesc = ovr_GetRenderDesc(mSession, (ovrEyeType)eye, mFOVPort[eye]); // As of Oculus 0.6.0, the HmdToEyeOffset values are correct and don't need to be negated. mDisplayInfo.mEyeTranslation[eye] = Point3D(renderDesc.HmdToEyeOffset.x, renderDesc.HmdToEyeOffset.y, renderDesc.HmdToEyeOffset.z); texSize[eye] = ovr_GetFovTextureSize(mSession, (ovrEyeType)eye, mFOVPort[eye], pixelsPerDisplayPixel); } // take the max of both for eye resolution mDisplayInfo.mEyeResolution.width = std::max(texSize[VRDisplayInfo::Eye_Left].w, texSize[VRDisplayInfo::Eye_Right].w); mDisplayInfo.mEyeResolution.height = std::max(texSize[VRDisplayInfo::Eye_Left].h, texSize[VRDisplayInfo::Eye_Right].h); } VRDisplayOculus::~VRDisplayOculus() { StopPresentation(); Destroy(); MOZ_COUNT_DTOR_INHERITED(VRDisplayOculus, VRDisplayHost); } void VRDisplayOculus::Destroy() { if (mSession) { ovr_Destroy(mSession); mSession = nullptr; } } void VRDisplayOculus::ZeroSensor() { ovr_RecenterTrackingOrigin(mSession); } VRHMDSensorState VRDisplayOculus::GetSensorState() { mInputFrameID++; VRHMDSensorState result; double frameDelta = 0.0f; if (gfxPrefs::VRPosePredictionEnabled()) { // XXX We might need to call ovr_GetPredictedDisplayTime even if we don't use the result. // If we don't call it, the Oculus driver will spew out many warnings... double predictedFrameTime = ovr_GetPredictedDisplayTime(mSession, mInputFrameID); frameDelta = predictedFrameTime - ovr_GetTimeInSeconds(); } result = GetSensorState(frameDelta); result.inputFrameID = mInputFrameID; mLastSensorState[result.inputFrameID % kMaxLatencyFrames] = result; return result; } VRHMDSensorState VRDisplayOculus::GetImmediateSensorState() { return GetSensorState(0.0); } VRHMDSensorState VRDisplayOculus::GetSensorState(double timeOffset) { VRHMDSensorState result; result.Clear(); ovrTrackingState state = ovr_GetTrackingState(mSession, timeOffset, true); ovrPoseStatef& pose(state.HeadPose); result.timestamp = pose.TimeInSeconds; if (state.StatusFlags & ovrStatus_OrientationTracked) { result.flags |= VRDisplayCapabilityFlags::Cap_Orientation; result.orientation[0] = pose.ThePose.Orientation.x; result.orientation[1] = pose.ThePose.Orientation.y; result.orientation[2] = pose.ThePose.Orientation.z; result.orientation[3] = pose.ThePose.Orientation.w; result.angularVelocity[0] = pose.AngularVelocity.x; result.angularVelocity[1] = pose.AngularVelocity.y; result.angularVelocity[2] = pose.AngularVelocity.z; result.flags |= VRDisplayCapabilityFlags::Cap_AngularAcceleration; result.angularAcceleration[0] = pose.AngularAcceleration.x; result.angularAcceleration[1] = pose.AngularAcceleration.y; result.angularAcceleration[2] = pose.AngularAcceleration.z; } if (state.StatusFlags & ovrStatus_PositionTracked) { result.flags |= VRDisplayCapabilityFlags::Cap_Position; result.position[0] = pose.ThePose.Position.x; result.position[1] = pose.ThePose.Position.y; result.position[2] = pose.ThePose.Position.z; result.linearVelocity[0] = pose.LinearVelocity.x; result.linearVelocity[1] = pose.LinearVelocity.y; result.linearVelocity[2] = pose.LinearVelocity.z; result.flags |= VRDisplayCapabilityFlags::Cap_LinearAcceleration; result.linearAcceleration[0] = pose.LinearAcceleration.x; result.linearAcceleration[1] = pose.LinearAcceleration.y; result.linearAcceleration[2] = pose.LinearAcceleration.z; } result.flags |= VRDisplayCapabilityFlags::Cap_External; result.flags |= VRDisplayCapabilityFlags::Cap_Present; return result; } void VRDisplayOculus::StartPresentation() { if (mIsPresenting) { return; } mIsPresenting = true; /** * The presentation format is determined by content, which describes the * left and right eye rectangles in the VRLayer. The default, if no * coordinates are passed is to place the left and right eye textures * side-by-side within the buffer. * * XXX - An optimization would be to dynamically resize this buffer * to accomodate sites that are choosing to render in a lower * resolution or are using space outside of the left and right * eye textures for other purposes. (Bug 1291443) */ ovrTextureSwapChainDesc desc; memset(&desc, 0, sizeof(desc)); desc.Type = ovrTexture_2D; desc.ArraySize = 1; desc.Format = OVR_FORMAT_B8G8R8A8_UNORM_SRGB; desc.Width = mDisplayInfo.mEyeResolution.width * 2; desc.Height = mDisplayInfo.mEyeResolution.height; desc.MipLevels = 1; desc.SampleCount = 1; desc.StaticImage = false; desc.MiscFlags = ovrTextureMisc_DX_Typeless; desc.BindFlags = ovrTextureBind_DX_RenderTarget; if (!mDevice) { mDevice = gfx::DeviceManagerDx::Get()->GetCompositorDevice(); if (!mDevice) { NS_WARNING("Failed to get a D3D11Device for Oculus"); return; } } mDevice->GetImmediateContext(getter_AddRefs(mContext)); if (!mContext) { NS_WARNING("Failed to get immediate context for Oculus"); return; } if (FAILED(mDevice->CreateVertexShader(sLayerQuadVS.mData, sLayerQuadVS.mLength, nullptr, &mQuadVS))) { NS_WARNING("Failed to create vertex shader for Oculus"); return; } if (FAILED(mDevice->CreatePixelShader(sRGBShader.mData, sRGBShader.mLength, nullptr, &mQuadPS))) { NS_WARNING("Failed to create pixel shader for Oculus"); return; } CD3D11_BUFFER_DESC cBufferDesc(sizeof(layers::VertexShaderConstants), D3D11_BIND_CONSTANT_BUFFER, D3D11_USAGE_DYNAMIC, D3D11_CPU_ACCESS_WRITE); if (FAILED(mDevice->CreateBuffer(&cBufferDesc, nullptr, getter_AddRefs(mVSConstantBuffer)))) { NS_WARNING("Failed to vertex shader constant buffer for Oculus"); return; } cBufferDesc.ByteWidth = sizeof(layers::PixelShaderConstants); if (FAILED(mDevice->CreateBuffer(&cBufferDesc, nullptr, getter_AddRefs(mPSConstantBuffer)))) { NS_WARNING("Failed to pixel shader constant buffer for Oculus"); return; } CD3D11_SAMPLER_DESC samplerDesc(D3D11_DEFAULT); if (FAILED(mDevice->CreateSamplerState(&samplerDesc, getter_AddRefs(mLinearSamplerState)))) { NS_WARNING("Failed to create sampler state for Oculus"); return; } D3D11_INPUT_ELEMENT_DESC layout[] = { { "POSITION", 0, DXGI_FORMAT_R32G32_FLOAT, 0, 0, D3D11_INPUT_PER_VERTEX_DATA, 0 }, }; if (FAILED(mDevice->CreateInputLayout(layout, sizeof(layout) / sizeof(D3D11_INPUT_ELEMENT_DESC), sLayerQuadVS.mData, sLayerQuadVS.mLength, getter_AddRefs(mInputLayout)))) { NS_WARNING("Failed to create input layout for Oculus"); return; } ovrResult orv = ovr_CreateTextureSwapChainDX(mSession, mDevice, &desc, &mTextureSet); if (orv != ovrSuccess) { NS_WARNING("ovr_CreateTextureSwapChainDX failed"); return; } int textureCount = 0; orv = ovr_GetTextureSwapChainLength(mSession, mTextureSet, &textureCount); if (orv != ovrSuccess) { NS_WARNING("ovr_GetTextureSwapChainLength failed"); return; } Vertex vertices[] = { { { 0.0, 0.0 } },{ { 1.0, 0.0 } },{ { 0.0, 1.0 } },{ { 1.0, 1.0 } } }; CD3D11_BUFFER_DESC bufferDesc(sizeof(vertices), D3D11_BIND_VERTEX_BUFFER); D3D11_SUBRESOURCE_DATA data; data.pSysMem = (void*)vertices; if (FAILED(mDevice->CreateBuffer(&bufferDesc, &data, getter_AddRefs(mVertexBuffer)))) { NS_WARNING("Failed to create vertex buffer for Oculus"); return; } mRenderTargets.SetLength(textureCount); memset(&mVSConstants, 0, sizeof(mVSConstants)); memset(&mPSConstants, 0, sizeof(mPSConstants)); for (int i = 0; i < textureCount; ++i) { RefPtr rt; ID3D11Texture2D* texture = nullptr; orv = ovr_GetTextureSwapChainBufferDX(mSession, mTextureSet, i, IID_PPV_ARGS(&texture)); MOZ_ASSERT(orv == ovrSuccess, "ovr_GetTextureSwapChainBufferDX failed."); rt = new CompositingRenderTargetD3D11(texture, IntPoint(0, 0), DXGI_FORMAT_B8G8R8A8_UNORM); rt->SetSize(IntSize(mDisplayInfo.mEyeResolution.width * 2, mDisplayInfo.mEyeResolution.height)); mRenderTargets[i] = rt; texture->Release(); } } void VRDisplayOculus::StopPresentation() { if (!mIsPresenting) { return; } mIsPresenting = false; ovr_SubmitFrame(mSession, 0, nullptr, nullptr, 0); if (mTextureSet) { ovr_DestroyTextureSwapChain(mSession, mTextureSet); mTextureSet = nullptr; } } /*static*/ already_AddRefed VRDisplayManagerOculus::Create() { MOZ_ASSERT(NS_IsMainThread()); if (!gfxPrefs::VREnabled() || !gfxPrefs::VROculusEnabled()) { return nullptr; } if (!InitializeOculusCAPI()) { return nullptr; } RefPtr manager = new VRDisplayManagerOculus(); return manager.forget(); } bool VRDisplayManagerOculus::Init() { if (!mOculusInitialized) { nsIThread* thread = nullptr; NS_GetCurrentThread(&thread); mOculusThread = already_AddRefed(thread); ovrInitParams params; memset(¶ms, 0, sizeof(params)); params.Flags = ovrInit_RequestVersion; params.RequestedMinorVersion = OVR_MINOR_VERSION; params.LogCallback = nullptr; params.ConnectionTimeoutMS = 0; ovrResult orv = ovr_Initialize(¶ms); if (orv == ovrSuccess) { mOculusInitialized = true; } } return mOculusInitialized; } void VRDisplayManagerOculus::Destroy() { if (mOculusInitialized) { MOZ_ASSERT(NS_GetCurrentThread() == mOculusThread); mOculusThread = nullptr; mHMDInfo = nullptr; ovr_Shutdown(); mOculusInitialized = false; } } void VRDisplayManagerOculus::GetHMDs(nsTArray>& aHMDResult) { if (!mOculusInitialized) { return; } // ovr_Create can be slow when no HMD is present and we wish // to keep the same oculus session when possible, so we detect // presence of an HMD with ovr_GetHmdDesc before calling ovr_Create ovrHmdDesc desc = ovr_GetHmdDesc(NULL); if (desc.Type == ovrHmd_None) { // No HMD connected. mHMDInfo = nullptr; } else if (mHMDInfo == nullptr) { // HMD Detected ovrSession session; ovrGraphicsLuid luid; ovrResult orv = ovr_Create(&session, &luid); if (orv == ovrSuccess) { mHMDInfo = new VRDisplayOculus(session); } } if (mHMDInfo) { aHMDResult.AppendElement(mHMDInfo); } } already_AddRefed VRDisplayOculus::GetNextRenderTarget() { int currentRenderTarget = 0; DebugOnly orv = ovr_GetTextureSwapChainCurrentIndex(mSession, mTextureSet, ¤tRenderTarget); MOZ_ASSERT(orv == ovrSuccess, "ovr_GetTextureSwapChainCurrentIndex failed."); mRenderTargets[currentRenderTarget]->ClearOnBind(); RefPtr rt = mRenderTargets[currentRenderTarget]; return rt.forget(); } bool VRDisplayOculus::UpdateConstantBuffers() { HRESULT hr; D3D11_MAPPED_SUBRESOURCE resource; resource.pData = nullptr; hr = mContext->Map(mVSConstantBuffer, 0, D3D11_MAP_WRITE_DISCARD, 0, &resource); if (FAILED(hr) || !resource.pData) { return false; } *(VertexShaderConstants*)resource.pData = mVSConstants; mContext->Unmap(mVSConstantBuffer, 0); resource.pData = nullptr; hr = mContext->Map(mPSConstantBuffer, 0, D3D11_MAP_WRITE_DISCARD, 0, &resource); if (FAILED(hr) || !resource.pData) { return false; } *(PixelShaderConstants*)resource.pData = mPSConstants; mContext->Unmap(mPSConstantBuffer, 0); ID3D11Buffer *buffer = mVSConstantBuffer; mContext->VSSetConstantBuffers(0, 1, &buffer); buffer = mPSConstantBuffer; mContext->PSSetConstantBuffers(0, 1, &buffer); return true; } void VRDisplayOculus::SubmitFrame(TextureSourceD3D11* aSource, const IntSize& aSize, const VRHMDSensorState& aSensorState, const gfx::Rect& aLeftEyeRect, const gfx::Rect& aRightEyeRect) { if (!mIsPresenting) { return; } if (mRenderTargets.IsEmpty()) { /** * XXX - We should resolve fail the promise returned by * VRDisplay.requestPresent() when the DX11 resources fail allocation * in VRDisplayOculus::StartPresentation(). * Bailing out here prevents the crash but content should be aware * that frames are not being presented. * See Bug 1299309. **/ return; } MOZ_ASSERT(mDevice); MOZ_ASSERT(mContext); RefPtr surface = GetNextRenderTarget(); surface->BindRenderTarget(mContext); Matrix viewMatrix = Matrix::Translation(-1.0, 1.0); viewMatrix.PreScale(2.0f / float(aSize.width), 2.0f / float(aSize.height)); viewMatrix.PreScale(1.0f, -1.0f); Matrix4x4 projection = Matrix4x4::From2D(viewMatrix); projection._33 = 0.0f; Matrix transform2d; gfx::Matrix4x4 transform = gfx::Matrix4x4::From2D(transform2d); D3D11_VIEWPORT viewport; viewport.MinDepth = 0.0f; viewport.MaxDepth = 1.0f; viewport.Width = aSize.width; viewport.Height = aSize.height; viewport.TopLeftX = 0; viewport.TopLeftY = 0; D3D11_RECT scissor; scissor.left = 0; scissor.right = aSize.width; scissor.top = 0; scissor.bottom = aSize.height; memcpy(&mVSConstants.layerTransform, &transform._11, sizeof(mVSConstants.layerTransform)); memcpy(&mVSConstants.projection, &projection._11, sizeof(mVSConstants.projection)); mVSConstants.renderTargetOffset[0] = 0.0f; mVSConstants.renderTargetOffset[1] = 0.0f; mVSConstants.layerQuad = Rect(0.0f, 0.0f, aSize.width, aSize.height); mVSConstants.textureCoords = Rect(0.0f, 1.0f, 1.0f, -1.0f); mPSConstants.layerOpacity[0] = 1.0f; ID3D11Buffer* vbuffer = mVertexBuffer; UINT vsize = sizeof(Vertex); UINT voffset = 0; mContext->IASetVertexBuffers(0, 1, &vbuffer, &vsize, &voffset); mContext->IASetIndexBuffer(nullptr, DXGI_FORMAT_R16_UINT, 0); mContext->IASetInputLayout(mInputLayout); mContext->RSSetViewports(1, &viewport); mContext->RSSetScissorRects(1, &scissor); mContext->IASetPrimitiveTopology(D3D11_PRIMITIVE_TOPOLOGY_TRIANGLESTRIP); mContext->VSSetShader(mQuadVS, nullptr, 0); mContext->PSSetShader(mQuadPS, nullptr, 0); ID3D11ShaderResourceView* srView = aSource->GetShaderResourceView(); mContext->PSSetShaderResources(0 /* 0 == TexSlot::RGB */, 1, &srView); // XXX Use Constant from TexSlot in CompositorD3D11.cpp? ID3D11SamplerState *sampler = mLinearSamplerState; mContext->PSSetSamplers(0, 1, &sampler); if (!UpdateConstantBuffers()) { NS_WARNING("Failed to update constant buffers for Oculus"); return; } mContext->Draw(4, 0); ovrResult orv = ovr_CommitTextureSwapChain(mSession, mTextureSet); if (orv != ovrSuccess) { NS_WARNING("ovr_CommitTextureSwapChain failed.\n"); return; } ovrLayerEyeFov layer; memset(&layer, 0, sizeof(layer)); layer.Header.Type = ovrLayerType_EyeFov; layer.Header.Flags = 0; layer.ColorTexture[0] = mTextureSet; layer.ColorTexture[1] = nullptr; layer.Fov[0] = mFOVPort[0]; layer.Fov[1] = mFOVPort[1]; layer.Viewport[0].Pos.x = aSize.width * aLeftEyeRect.x; layer.Viewport[0].Pos.y = aSize.height * aLeftEyeRect.y; layer.Viewport[0].Size.w = aSize.width * aLeftEyeRect.width; layer.Viewport[0].Size.h = aSize.height * aLeftEyeRect.height; layer.Viewport[1].Pos.x = aSize.width * aRightEyeRect.x; layer.Viewport[1].Pos.y = aSize.height * aRightEyeRect.y; layer.Viewport[1].Size.w = aSize.width * aRightEyeRect.width; layer.Viewport[1].Size.h = aSize.height * aRightEyeRect.height; const Point3D& l = mDisplayInfo.mEyeTranslation[0]; const Point3D& r = mDisplayInfo.mEyeTranslation[1]; const ovrVector3f hmdToEyeViewOffset[2] = { { l.x, l.y, l.z }, { r.x, r.y, r.z } }; for (uint32_t i = 0; i < 2; ++i) { Quaternion o(aSensorState.orientation[0], aSensorState.orientation[1], aSensorState.orientation[2], aSensorState.orientation[3]); Point3D vo(hmdToEyeViewOffset[i].x, hmdToEyeViewOffset[i].y, hmdToEyeViewOffset[i].z); Point3D p = o.RotatePoint(vo); layer.RenderPose[i].Orientation.x = o.x; layer.RenderPose[i].Orientation.y = o.y; layer.RenderPose[i].Orientation.z = o.z; layer.RenderPose[i].Orientation.w = o.w; layer.RenderPose[i].Position.x = p.x + aSensorState.position[0]; layer.RenderPose[i].Position.y = p.y + aSensorState.position[1]; layer.RenderPose[i].Position.z = p.z + aSensorState.position[2]; } ovrLayerHeader *layers = &layer.Header; orv = ovr_SubmitFrame(mSession, aSensorState.inputFrameID, nullptr, &layers, 1); if (orv != ovrSuccess) { printf_stderr("ovr_SubmitFrame failed.\n"); } // Trigger the next VSync immediately VRManager *vm = VRManager::Get(); MOZ_ASSERT(vm); vm->NotifyVRVsync(mDisplayInfo.mDisplayID); } void VRDisplayOculus::NotifyVSync() { ovrSessionStatus sessionStatus; ovrResult ovr = ovr_GetSessionStatus(mSession, &sessionStatus); mDisplayInfo.mIsConnected = (ovr == ovrSuccess && sessionStatus.HmdPresent); }