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fteqw/plugins/openxr.c
Spoike c949500da8 Implement preliminary openxr plugin. inputs are still useless (can HOPEFULLY result in some prints, but nothing else), and there's no considerations for 2d things. 
Fix prediction issues with the ftenq protocol.
Fix some console image previews.
Added mod_precache cvar. set to 0 to significantly reduce memory usage in xonotic...
Prevent xonotic's random file writes from forcing full worker syncs, for faster loading.
QTV connections are now accepted only from localhost peers by default.



git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5694 fc73d0e0-1445-4013-8a0c-d673dee63da5
2020-05-14 15:50:26 +00:00

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#include "plugin.h"
static plugfsfuncs_t *fsfuncs;
#include "../engine/client/vr.h"
//#define XR_NO_PROTOTYPES
//figure out which platforms(read: windowing apis) we need...
#if defined(_WIN32)
#define XR_USE_PLATFORM_WIN32
//#elif defined(ANDROID)
// #define XR_USE_PLATFORM_ANDROID
#else
#ifndef NO_X11
#define XR_USE_PLATFORM_XLIB
#endif
#if defined(GLQUAKE) && defined(USE_EGL)
//wayland, android, and x11-egl can all just use the EGL path...
//at least once the openxr spec gets fixed (the wayland extension is apparently basically unusable)
//note: XR_MND_egl_enable is a vendor extension to work around openxr stupidly trying to ignore it entirely.
#define XR_USE_PLATFORM_EGL
#endif
#endif
//figure out which graphics apis we need...
#ifdef GLQUAKE
#define XR_USE_GRAPHICS_API_OPENGL
#endif
#ifdef VKQUAKE
#define XR_USE_GRAPHICS_API_VULKAN
#endif
#ifdef D3D11QUAKE
#ifdef _WIN32
#define XR_USE_GRAPHICS_API_D3D11
#endif
#endif
//include any headers we need for things to make sense.
#ifdef XR_USE_GRAPHICS_API_OPENGL
#include "glquake.h"
#endif
#ifdef XR_USE_GRAPHICS_API_VULKAN
#include "../engine/vk/vkrenderer.h"
#endif
#ifdef XR_USE_GRAPHICS_API_D3D11
#include <d3d11.h>
#endif
#ifdef XR_USE_PLATFORM_EGL
#include "gl_videgl.h"
#endif
#ifdef XR_USE_PLATFORM_XLIB
#include <GL/glx.h>
#endif
//and finally include openxr stuff now that its hopefully not going to fail about missing typedefs.
#include <openxr/openxr_platform.h>
#ifdef XR_NO_PROTOTYPES
#define XRFUNCS \
XRFUNC(xrGetInstanceProcAddr) \
XRFUNC(xrEnumerateInstanceExtensionProperties) \
XRFUNC(xrCreateInstance) \
XRFUNC(xrGetInstanceProperties) \
XRFUNC(xrGetSystem) \
XRFUNC(xrGetSystemProperties) \
XRFUNC(xrEnumerateViewConfigurations) \
XRFUNC(xrEnumerateViewConfigurationViews) \
XRFUNC(xrCreateSession) \
XRFUNC(xrCreateReferenceSpace) \
XRFUNC(xrCreateActionSet) \
XRFUNC(xrStringToPath) \
XRFUNC(xrCreateAction) \
XRFUNC(xrSuggestInteractionProfileBindings) \
XRFUNC(xrCreateActionSpace) \
XRFUNC(xrAttachSessionActionSets) \
XRFUNC(xrSyncActions) \
XRFUNC(xrGetActionStatePose) \
XRFUNC(xrLocateSpace) \
XRFUNC(xrGetActionStateBoolean) \
XRFUNC(xrGetActionStateFloat) \
XRFUNC(xrGetActionStateVector2f) \
XRFUNC(xrGetCurrentInteractionProfile) \
XRFUNC(xrEnumerateBoundSourcesForAction) \
XRFUNC(xrGetInputSourceLocalizedName) \
XRFUNC(xrPathToString) \
XRFUNC(xrCreateSwapchain) \
XRFUNC(xrEnumerateSwapchainFormats) \
XRFUNC(xrEnumerateSwapchainImages) \
XRFUNC(xrPollEvent) \
XRFUNC(xrBeginSession) \
XRFUNC(xrWaitFrame) \
XRFUNC(xrBeginFrame) \
XRFUNC(xrLocateViews) \
XRFUNC(xrAcquireSwapchainImage) \
XRFUNC(xrWaitSwapchainImage) \
XRFUNC(xrReleaseSwapchainImage) \
XRFUNC(xrEndFrame) \
XRFUNC(xrRequestExitSession) \
XRFUNC(xrEndSession) \
XRFUNC(xrDestroySwapchain) \
XRFUNC(xrDestroySpace) \
XRFUNC(xrDestroySession) \
XRFUNC(xrDestroyInstance)
#define XRFUNC(n) static PFN_##n n;
XRFUNCS
#undef XRFUNC
#endif
#ifdef SVNREVISION
#define APPLICATIONVERSION atoi(STRINGIFY(SVNREVISION))
#define ENGINEVERSION atoi(STRINGIFY(SVNREVISION))
#else
#define APPLICATIONVERSION 0
#define ENGINEVERSION 0
#endif
static cvar_t *xr_enable;
static cvar_t *xr_formfactor;
static cvar_t *xr_viewconfig;
static cvar_t *xr_metresize;
static cvar_t *xr_skipregularview;
#define METRES_TO_QUAKE(x) ((x)*xr_metresize->value)
#define QUAKE_TO_METRES(x) ((x)/xr_metresize->value)
static void XR_PoseToTransform(XrPosef *pose, vec3_t axisorg[4])
{
float xx, xy, xz, xw, yy, yz, yw, zz, zw;
float x2, y2, z2;
x2 = pose->orientation.x + pose->orientation.x;
y2 = pose->orientation.y + pose->orientation.y;
z2 = pose->orientation.z + pose->orientation.z;
xx = pose->orientation.x * x2; xy = pose->orientation.x * y2; xz = pose->orientation.x * z2;
yy = pose->orientation.y * y2; yz = pose->orientation.y * z2; zz = pose->orientation.z * z2;
xw = pose->orientation.w * x2; yw = pose->orientation.w * y2; zw = pose->orientation.w * z2;
axisorg[0][0] = (1.0f - (yy + zz));
axisorg[0][1] = (xy + zw);
axisorg[0][2] = (xz - yw);
axisorg[1][0] = (xy - zw);
axisorg[1][1] = (1.0f - (xx + zz));
axisorg[1][2] = (yz + xw);
axisorg[2][0] = (xz + yw);
axisorg[2][1] = (yz - xw);
axisorg[2][2] = (1.0f - (xx + yy));
axisorg[3][0] = METRES_TO_QUAKE(-pose->position.z); //-z forward
axisorg[3][1] = METRES_TO_QUAKE(pose->position.x); //+x right
axisorg[3][2] = METRES_TO_QUAKE(pose->position.y); //+y up
}
#define VectorAngles VectorAnglesPluginsSuck
void QDECL VectorAngles(const float *forward, const float *up, float *result, qboolean meshpitch) //up may be NULL
{
float yaw, pitch, roll;
if (forward[1] == 0 && forward[0] == 0)
{
if (forward[2] > 0)
{
pitch = -M_PI * 0.5;
yaw = up ? atan2(-up[1], -up[0]) : 0;
}
else
{
pitch = M_PI * 0.5;
yaw = up ? atan2(up[1], up[0]) : 0;
}
roll = 0;
}
else
{
yaw = atan2(forward[1], forward[0]);
pitch = -atan2(forward[2], sqrt (forward[0]*forward[0] + forward[1]*forward[1]));
if (up)
{
vec_t cp = cos(pitch), sp = sin(pitch);
vec_t cy = cos(yaw), sy = sin(yaw);
vec3_t tleft, tup;
tleft[0] = -sy;
tleft[1] = cy;
tleft[2] = 0;
tup[0] = sp*cy;
tup[1] = sp*sy;
tup[2] = cp;
roll = -atan2(DotProduct(up, tleft), DotProduct(up, tup));
}
else
roll = 0;
}
pitch *= 180 / M_PI;
yaw *= 180 / M_PI;
roll *= 180 / M_PI;
// if (meshpitch)
// pitch *= r_meshpitch.value;
if (pitch < 0)
pitch += 360;
if (yaw < 0)
yaw += 360;
if (roll < 0)
roll += 360;
result[0] = pitch;
result[1] = yaw;
result[2] = roll;
}
static struct
{
//instance state (in case we want to start up)
XrInstance instance; //loader context
XrSystemId systemid; //device type thingie we're going for
#define MAX_VIEW_COUNT 12 //kinda abusive, but that's VR for you.
unsigned int viewcount;
XrViewConfigurationView *views;
XrViewConfigurationType viewtype;
//engine context info (for restarting sessions)
int renderer; //rendering api we're using
void *bindinginfo; //appropriate XrGraphicsBinding*KHR struct so we can restart sessions.
//session state
XrSession session; //driver context
XrSessionState state;
XrSpace space;
struct
{ //basically just swapchain state.
XrSwapchain swapchain;
unsigned int numswapimages;
XrSwapchainSubImage subimage;
image_t *swapimages;
} eye[MAX_VIEW_COUNT]; //note that eye is a vauge term.
XrActiveActionSet actionset;
qboolean timeknown;
XrTime time;
XrFrameState framestate;
int srgb; //<0 = gamma-only. 0 = no srgb at all, >0 full srgb, including textures and stuff
unsigned int numactions;
struct
{
XrActionType acttype;
const char *actname; //doubles up as command names for buttons
const char *actdescription; //user-visible string (exposed via openxr runtime somehow)
const char *subactionpath; //somethingblahblah
XrAction action; //for querying.
XrPath path; //for querying.
XrSpace space; //for poses.
qboolean held; //for buttons.
} actions[256];
} xr;
static qboolean QDECL XR_PluginMayUnload(void)
{
if (xr.instance)
return false; //something is still using us... don't let our code go away.
return true;
}
static void XR_SessionEnded(void)
{
size_t u;
if (xr.space)
{
xrDestroySpace(xr.space);
xr.space = XR_NULL_HANDLE;
}
for (u = 0; u < countof(xr.eye); u++)
{
free(xr.eye[u].swapimages);
xr.eye[u].swapimages = NULL;
xr.eye[u].numswapimages = 0;
if (xr.eye[u].swapchain)
{
xrDestroySwapchain(xr.eye[u].swapchain);
xr.eye[u].swapchain = XR_NULL_HANDLE;
}
}
if (xr.session)
{
xrDestroySession(xr.session);
xr.session = XR_NULL_HANDLE;
}
}
static void XR_Shutdown(void)
{ //called on any kind of failure
XR_SessionEnded();
free(xr.bindinginfo);
free(xr.views);
if (xr.instance)
xrDestroyInstance(xr.instance);
memset(&xr, 0, sizeof(xr));
}
static qboolean XR_PreInit(vrsetup_t *qreqs)
{
XrResult res;
const char *ext;
XR_Shutdown(); //just in case...
if (qreqs->structsize != sizeof(*qreqs))
return false; //nope, get lost.
switch(qreqs->vrplatform)
{
/*case VR_HEADLESS:
ext = XR_MND_HEADLESS_EXTENSION_NAME;
break;*/
#ifdef XR_USE_GRAPHICS_API_VULKAN
case VR_VULKAN:
ext = XR_KHR_VULKAN_ENABLE_EXTENSION_NAME;
break;
#endif
#ifdef XR_USE_GRAPHICS_API_OPENGL
#ifdef XR_MND_EGL_ENABLE_EXTENSION_NAME
case VR_EGL:
ext = XR_MND_EGL_ENABLE_EXTENSION_NAME;
break;
#endif
#ifdef XR_USE_PLATFORM_XLIB
case VR_X11_GLX:
#endif
#ifdef XR_USE_PLATFORM_WIN32
case VR_WIN_WGL:
#endif
ext = XR_KHR_OPENGL_ENABLE_EXTENSION_NAME;
break;
#endif
#ifdef XR_USE_GRAPHICS_API_D3D11
case VR_D3D11:
ext = XR_KHR_D3D11_ENABLE_EXTENSION_NAME;
break;
#endif
default:
Con_Printf("OpenXR: windowing-api or rendering-api not supported\n");
return false;
}
#ifdef XR_NO_PROTOTYPES
{
static dllhandle_t *lib;
static dllfunction_t funcs[] = {
#define XRFUNC(n) {(void*)&n, #n},
XRFUNCS
#undef XRFUNC
{NULL}};
#define XR_LOADER_LIBNAME "libopenxr_loader"
if (!lib)
lib = plugfuncs->LoadDLL(XR_LOADER_LIBNAME, funcs);
if (!lib)
{
Con_Printf(CON_ERROR"OpenXR: Unable to load "XR_LOADER_LIBNAME"\n");
return false;
}
}
#endif
{
unsigned int exts = 0, u=0;
XrExtensionProperties *extlist;
res = xrEnumerateInstanceExtensionProperties(NULL, 0, &exts, NULL);
if (XR_SUCCEEDED(res))
{
extlist = calloc(exts, sizeof(*extlist));
for (u = 0; u < exts; u++)
extlist[u].type = XR_TYPE_EXTENSION_PROPERTIES;
xrEnumerateInstanceExtensionProperties(NULL, exts, &exts, extlist);
for (u = 0; u < exts; u++)
if (!strcmp(extlist[u].extensionName, ext))
break;
free(extlist);
}
if (u == exts)
{
Con_Printf("OpenXR: instance driver does not support required %s\n", ext);
return false;
}
}
xr.instance = NULL;
//create our instance
{
XrInstanceCreateInfo createinfo = {XR_TYPE_INSTANCE_CREATE_INFO};
createinfo.createFlags = 0;
Q_strlcpy(createinfo.applicationInfo.applicationName, FULLENGINENAME, sizeof(createinfo.applicationInfo.applicationName));
createinfo.applicationInfo.applicationVersion = APPLICATIONVERSION;
Q_strlcpy(createinfo.applicationInfo.engineName, "FTEQW", sizeof(createinfo.applicationInfo.engineName));
createinfo.applicationInfo.engineVersion = ENGINEVERSION;
createinfo.applicationInfo.apiVersion = XR_CURRENT_API_VERSION;
createinfo.enabledApiLayerCount = 0;
createinfo.enabledApiLayerNames = NULL;
createinfo.enabledExtensionCount = ext?1:0;
createinfo.enabledExtensionNames = &ext;
res = xrCreateInstance(&createinfo, &xr.instance);
}
if (XR_FAILED(res) || !xr.instance)
return false;
{
XrInstanceProperties props = {XR_TYPE_INSTANCE_PROPERTIES};
if (!XR_FAILED(xrGetInstanceProperties(xr.instance, &props)))
Con_Printf("OpenXR Runtime: %s %u.%u.%u\n", props.runtimeName, XR_VERSION_MAJOR(props.runtimeVersion), XR_VERSION_MINOR(props.runtimeVersion), XR_VERSION_PATCH(props.runtimeVersion));
else
Con_Printf("OpenXR Runtime: Unable to determine runtime version\n");
}
{
XrSystemGetInfo systemInfo = { XR_TYPE_SYSTEM_GET_INFO };
if (!strncasecmp(xr_formfactor->string, "hand", 4))
systemInfo.formFactor = XR_FORM_FACTOR_HANDHELD_DISPLAY;
else if (!strncasecmp(xr_formfactor->string, "head",4))
systemInfo.formFactor = XR_FORM_FACTOR_HEAD_MOUNTED_DISPLAY;
else
{
if (*xr_formfactor->string)
Con_Printf("\"%s\" is not a recognised value for xr_formfactor\n", xr_formfactor->string);
else
Con_Printf("xr_formfactor not set, assuming headmounted\n");
systemInfo.formFactor = XR_FORM_FACTOR_HEAD_MOUNTED_DISPLAY;
}
res = xrGetSystem(xr.instance, &systemInfo, &xr.systemid);
if (XR_FAILED(res) || !xr.systemid)
return false;
}
{
XrSystemProperties props = {XR_TYPE_SYSTEM_PROPERTIES};
if (XR_SUCCEEDED(xrGetSystemProperties(xr.instance, xr.systemid, &props)))
{
Con_Printf("OpenXR System: %s\n", props.systemName);
}
}
switch(qreqs->vrplatform)
{
default:
XR_Shutdown();
return false;
case VR_HEADLESS:
break;
#ifdef XR_USE_GRAPHICS_API_VULKAN
case VR_VULKAN:
{
XrGraphicsRequirementsVulkanKHR reqs = {XR_TYPE_GRAPHICS_REQUIREMENTS_VULKAN_KHR};
VkInstance inst = VK_NULL_HANDLE;
VkPhysicalDevice physdev;
uint32_t extlen;
char *extstr; //space-delimited list, for some reason. writable though.
PFN_xrGetVulkanGraphicsRequirementsKHR xrGetVulkanGraphicsRequirementsKHR;
PFN_xrGetVulkanInstanceExtensionsKHR xrGetVulkanInstanceExtensionsKHR;
PFN_xrGetVulkanDeviceExtensionsKHR xrGetVulkanDeviceExtensionsKHR;
PFN_xrGetVulkanGraphicsDeviceKHR xrGetVulkanGraphicsDeviceKHR;
if (XR_FAILED(xrGetInstanceProcAddr(xr.instance, "xrGetVulkanGraphicsRequirementsKHR", (PFN_xrVoidFunction*)&xrGetVulkanGraphicsRequirementsKHR)) ||
XR_FAILED(xrGetInstanceProcAddr(xr.instance, "xrGetVulkanInstanceExtensionsKHR", (PFN_xrVoidFunction*)&xrGetVulkanInstanceExtensionsKHR)) ||
XR_FAILED(xrGetInstanceProcAddr(xr.instance, "xrGetVulkanDeviceExtensionsKHR", (PFN_xrVoidFunction*)&xrGetVulkanDeviceExtensionsKHR)) ||
XR_FAILED(xrGetInstanceProcAddr(xr.instance, "xrGetVulkanGraphicsDeviceKHR", (PFN_xrVoidFunction*)&xrGetVulkanGraphicsDeviceKHR)))
return false;
xrGetVulkanGraphicsRequirementsKHR(xr.instance, xr.systemid, &reqs);
qreqs->maxver.major = XR_VERSION_MAJOR(reqs.maxApiVersionSupported);
qreqs->maxver.minor = XR_VERSION_MINOR(reqs.maxApiVersionSupported);
qreqs->minver.major = XR_VERSION_MAJOR(reqs.minApiVersionSupported);
qreqs->minver.minor = XR_VERSION_MINOR(reqs.minApiVersionSupported);
xrGetVulkanInstanceExtensionsKHR(xr.instance, xr.systemid, 0, &extlen, NULL);
extstr = malloc(extlen);
xrGetVulkanInstanceExtensionsKHR(xr.instance, xr.systemid, extlen, &extlen, extstr);
//create vulkan instance now...
qreqs->createinstance(qreqs, extstr, &inst);
free(extstr);
xrGetVulkanDeviceExtensionsKHR(xr.instance, xr.systemid, 0, &extlen, NULL);
extstr = malloc(extlen);
xrGetVulkanDeviceExtensionsKHR(xr.instance, xr.systemid, extlen, &extlen, extstr);
res = xrGetVulkanGraphicsDeviceKHR(xr.instance, xr.systemid, inst, &physdev);
qreqs->deviceextensions = extstr;
qreqs->vk.physicaldevice = physdev;
}
break;
#endif
#ifdef XR_USE_GRAPHICS_API_OPENGL
case VR_X11_GLX:
case VR_EGL:
case VR_WIN_WGL:
{
XrGraphicsRequirementsOpenGLKHR reqs = {XR_TYPE_GRAPHICS_REQUIREMENTS_OPENGL_KHR};
PFN_xrGetOpenGLGraphicsRequirementsKHR xrGetOpenGLGraphicsRequirementsKHR;
if (XR_SUCCEEDED(xrGetInstanceProcAddr(xr.instance, "xrGetOpenGLGraphicsRequirementsKHR", (PFN_xrVoidFunction*)&xrGetOpenGLGraphicsRequirementsKHR)))
xrGetOpenGLGraphicsRequirementsKHR(xr.instance, xr.systemid, &reqs);
qreqs->maxver.major = XR_VERSION_MAJOR(reqs.maxApiVersionSupported);
qreqs->maxver.minor = XR_VERSION_MINOR(reqs.maxApiVersionSupported);
qreqs->minver.major = XR_VERSION_MAJOR(reqs.minApiVersionSupported);
qreqs->minver.minor = XR_VERSION_MINOR(reqs.minApiVersionSupported);
//caller must validate when creating its context.
}
break;
#endif
#ifdef XR_USE_GRAPHICS_API_D3D11
case VR_D3D11:
{
XrGraphicsRequirementsD3D11KHR reqs = {XR_TYPE_GRAPHICS_REQUIREMENTS_D3D11_KHR};
PFN_xrGetD3D11GraphicsRequirementsKHR xrGetD3D11GraphicsRequirementsKHR;
if (XR_SUCCEEDED(xrGetInstanceProcAddr(xr.instance, "xrGetD3D11GraphicsRequirementsKHR", (PFN_xrVoidFunction*)&xrGetD3D11GraphicsRequirementsKHR)))
xrGetD3D11GraphicsRequirementsKHR(xr.instance, xr.systemid, &reqs);
qreqs->minver.major = reqs.minFeatureLevel;
qreqs->deviceid[0] = reqs.adapterLuid.LowPart;
qreqs->deviceid[1] = reqs.adapterLuid.HighPart;
}
break;
#endif
}
{
XrViewConfigurationType *viewtype;
uint32_t viewtypes, u;
res = xrEnumerateViewConfigurations(xr.instance, xr.systemid, 0, &viewtypes, NULL);
viewtype = alloca(viewtypes*sizeof(viewtype));
res = xrEnumerateViewConfigurations(xr.instance, xr.systemid, viewtypes, &viewtypes, viewtype);
xr.viewtype = (XrViewConfigurationType)0;
for (u = 0; u < viewtypes; u++)
{
switch(viewtype[u])
{
case XR_VIEW_CONFIGURATION_TYPE_PRIMARY_MONO:
if (!strcasecmp(xr_viewconfig->string, "mono"))
xr.viewtype = viewtype[u];
break;
case XR_VIEW_CONFIGURATION_TYPE_PRIMARY_STEREO:
if (!strcasecmp(xr_viewconfig->string, "stereo"))
xr.viewtype = viewtype[u];
break;
case XR_VIEW_CONFIGURATION_TYPE_PRIMARY_QUAD_VARJO:
if (!strcasecmp(xr_viewconfig->string, "quad"))
xr.viewtype = viewtype[u];
break;
default:
break;
}
}
if (!xr.viewtype)
{
if (viewtypes)
xr.viewtype = viewtype[0];
if (*xr_viewconfig->string)
{
Con_Printf("OpenXR: Viewtype %s unavailable, using ", xr_viewconfig->string);
switch(xr.viewtype)
{
case XR_VIEW_CONFIGURATION_TYPE_PRIMARY_MONO: Con_Printf("mono\n"); break;
case XR_VIEW_CONFIGURATION_TYPE_PRIMARY_STEREO: Con_Printf("stereo\n"); break;
case XR_VIEW_CONFIGURATION_TYPE_PRIMARY_QUAD_VARJO: Con_Printf("quad\n"); break;
default:
Con_Printf("unknown (%i)\n", xr.viewtype);
break;
}
}
}
}
res = xrEnumerateViewConfigurationViews(xr.instance, xr.systemid, xr.viewtype, 0, &xr.viewcount, NULL);
if (xr.viewcount > MAX_VIEW_COUNT)
xr.viewcount = MAX_VIEW_COUNT; //oh noes! evile!
xr.views = calloc(1,sizeof(*xr.views)*xr.viewcount);
res = xrEnumerateViewConfigurationViews(xr.instance, xr.systemid, xr.viewtype, xr.viewcount, &xr.viewcount, xr.views);
//caller now knows what device/contextversion/etc to init with
return true;
}
static qboolean XR_Init(vrsetup_t *qreqs, rendererstate_t *info)
{
xr.srgb = info->srgb;
switch(qreqs->vrplatform)
{
case VR_HEADLESS:
break;
default:
return false; //error. not supported in this build.
#ifdef XR_USE_GRAPHICS_API_VULKAN
case VR_VULKAN:
{
XrGraphicsBindingVulkanKHR *vk = xr.bindinginfo = calloc(1, sizeof(*vk));
vk->type = XR_TYPE_GRAPHICS_BINDING_VULKAN_KHR;
vk->instance = qreqs->vk.instance;
vk->physicalDevice = qreqs->vk.physicaldevice;
vk->device = qreqs->vk.device;
vk->queueFamilyIndex = qreqs->vk.queuefamily;
vk->queueIndex = qreqs->vk.queueindex;
xr.renderer = QR_VULKAN;
}
break;
#endif
#ifdef XR_USE_GRAPHICS_API_OPENGL
#ifdef XR_MND_EGL_ENABLE_EXTENSION_NAME
case VR_EGL: //x11-egl, wayland, and hopefully android...
{
XrGraphicsBindingEGLMND *egl = xr.bindinginfo = calloc(1, sizeof(*egl));
egl->type = XR_TYPE_GRAPHICS_BINDING_EGL_MND;
egl->getProcAddress = qreqs->egl.getprocaddr;
egl->display = qreqs->egl.egldisplay;
egl->config = qreqs->egl.eglconfig;
egl->context = qreqs->egl.eglcontext;
xr.renderer = QR_OPENGL;
}
break;
#endif
#ifdef XR_USE_PLATFORM_XLIB
case VR_X11_GLX:
{
XrGraphicsBindingOpenGLXlibKHR *glx = xr.bindinginfo = calloc(1, sizeof(*glx));
glx->type = XR_TYPE_GRAPHICS_BINDING_OPENGL_XLIB_KHR;
glx->xDisplay = qreqs->x11_glx.display;
glx->visualid = qreqs->x11_glx.visualid;
glx->glxFBConfig = qreqs->x11_glx.glxfbconfig;
glx->glxDrawable = qreqs->x11_glx.drawable;
glx->glxContext = qreqs->x11_glx.glxcontext;
xr.renderer = QR_OPENGL;
}
break;
#endif
#ifdef XR_USE_PLATFORM_WIN32
case VR_WIN_WGL:
{
XrGraphicsBindingOpenGLWin32KHR *wgl = xr.bindinginfo = calloc(1, sizeof(*wgl));
wgl->type = XR_TYPE_GRAPHICS_BINDING_OPENGL_WIN32_KHR;
wgl->hDC = qreqs->wgl.hdc;
wgl->hGLRC = qreqs->wgl.hglrc;
xr.renderer = QR_OPENGL;
}
break;
#endif
#endif //def XR_USE_GRAPHICS_API_OPENGL
#ifdef XR_USE_GRAPHICS_API_D3D11
case VR_D3D11:
{
XrGraphicsBindingD3D11KHR *d3d = xr.bindinginfo = calloc(1, sizeof(*d3d));
d3d->type = XR_TYPE_GRAPHICS_BINDING_D3D11_KHR;
d3d->device = qreqs->d3d.device;
xr.renderer = QR_DIRECT3D11;
}
break;
#endif
}
return true;
}
static XrAction XR_DefineAction(XrActionType type, const char *name, const char *description, const char *root)
{
XrActionCreateInfo info = {XR_TYPE_ACTION_CREATE_INFO};
XrResult res;
char *ffs;
size_t u;
int nconflicts = 0;
int dconflicts = 0;
for (u = 0; u < xr.numactions; u++)
{
if (xr.actions[u].acttype == type && !strcmp(xr.actions[u].actname, name) && !strcmp(xr.actions[u].actdescription, description) && !strcmp(xr.actions[u].subactionpath?xr.actions[u].subactionpath:"", root?root:""))
{ //looks like a dupe...
return xr.actions[u].action;
}
if (!strcasecmp(xr.actions[u].actname, name))
nconflicts++; //arse balls knob cock
if (!strcasecmp(xr.actions[u].actdescription, description))
dconflicts++; //arse balls knob cock
}
if (xr.numactions == countof(xr.actions))
return XR_NULL_HANDLE; //nope, list full. sorry.
xr.actions[u].acttype = type;
xr.actions[u].actname = strdup(name);
xr.actions[u].actdescription = strdup(description);
xr.actions[u].subactionpath = (root&&*root)?strdup(root):NULL;
xr.numactions++;
if (xr.actions[u].subactionpath)
xrStringToPath(xr.instance, xr.actions[u].subactionpath, &xr.actions[u].path);
else
xr.actions[u].path = XR_NULL_PATH;
if (xr.actions[u].path == XR_NULL_PATH)
{
info.countSubactionPaths = 0;
info.subactionPaths = NULL;
}
else
{
info.countSubactionPaths = 1;
info.subactionPaths = &xr.actions[u].path;
}
info.actionType = xr.actions[u].acttype;
if (*xr.actions[u].actname == '+')
Q_strlcpy(info.actionName, xr.actions[u].actname+1, sizeof(info.actionName));
else
Q_strlcpy(info.actionName, xr.actions[u].actname, sizeof(info.actionName));
while ((ffs=strchr(info.actionName, ' '))) *ffs = '_'; //convert spaces to underscores.
Q_strlcpy(info.localizedActionName, xr.actions[u].actdescription, sizeof(info.localizedActionName));
res = xrCreateAction(xr.actionset.actionSet, &info, &xr.actions[u].action);
if (XR_FAILED(res))
Con_Printf("openxr: Unable to create action %s [%s] - %i\n", info.actionName, info.localizedActionName, res);
return xr.actions[u].action;
}
static qboolean XR_ReadLine(const char **text, char *buffer, size_t buflen)
{
char in;
char *out = buffer;
size_t len;
if (buflen <= 1)
return false;
len = buflen-1;
while (len > 0)
{
in = *(*text);
if (!in)
{
if (len == buflen-1)
return false;
*out = 0;
return true;
}
(*text)++;
if (in == '\n')
break;
*out++ = in;
len--;
}
*out = '\0';
//if there's a trailing \r, strip it.
if (out > buffer)
if (out[-1] == '\r')
out[-1] = 0;
return true;
}
static int XR_BindProfileStr(const char *fname, const char *file)
{
XrAction act;
XrResult res;
XrPath path;
char line[1024];
char name[1024];
char type[256];
char desc[1024];
char bind[1024];
char root[1024];
unsigned int p;
char prefix[2][1024];
//first line is eg: /interaction_profiles/khr/simple_controller
while (XR_ReadLine(&file, line, sizeof(line)))
{
cmdfuncs->TokenizeString(line);
if (cmdfuncs->Argc())
break;
}
cmdfuncs->Argv(0, name, sizeof(name));
for (p = 0; p < countof(prefix); p++)
cmdfuncs->Argv(p+1, prefix[p], sizeof(prefix[p]));
if (*name && XR_SUCCEEDED(xrStringToPath(xr.instance, name, &path)))
{ //okay, it accepted that path at least...
XrInteractionProfileSuggestedBinding suggestedbindings = {XR_TYPE_INTERACTION_PROFILE_SUGGESTED_BINDING};
unsigned int acts = 0;
XrActionSuggestedBinding bindings[256];
while (XR_ReadLine(&file, line, sizeof(line)))
{
cmdfuncs->TokenizeString(line);
if (cmdfuncs->Argc())
{
cmdfuncs->Argv(0, name, sizeof(name));
cmdfuncs->Argv(1, desc, sizeof(desc));
cmdfuncs->Argv(2, type, sizeof(type));
cmdfuncs->Argv(3, bind, sizeof(bind));
cmdfuncs->Argv(4, root, sizeof(root));
if (*type)
{
XrActionType xrtype;
if (!strcasecmp(type, "button"))
xrtype = XR_ACTION_TYPE_BOOLEAN_INPUT;
else if (!strcasecmp(type, "float"))
xrtype = XR_ACTION_TYPE_FLOAT_INPUT;
else if (!strcasecmp(type, "vector2f"))
xrtype = XR_ACTION_TYPE_VECTOR2F_INPUT;
else if (!strcasecmp(type, "pose"))
xrtype = XR_ACTION_TYPE_POSE_INPUT;
else if (!strcasecmp(type, "vibration"))
xrtype = XR_ACTION_TYPE_VIBRATION_OUTPUT;
else
continue;
act = XR_DefineAction(xrtype, name, desc, root);
if (act != XR_NULL_HANDLE && *bind)
{
if (*bind == '/')
{
res = xrStringToPath(xr.instance, bind, &bindings[acts].binding);
if (XR_SUCCEEDED(res))
bindings[acts++].action = act;
}
else for (p = 0; p < countof(prefix) && *prefix[p]=='/'; p++)
{
res = xrStringToPath(xr.instance, va("%s%s", prefix[p], bind), &bindings[acts].binding);
if (XR_SUCCEEDED(res))
bindings[acts++].action = act;
}
}
}
}
}
if (acts)
{
suggestedbindings.interactionProfile = path;
suggestedbindings.countSuggestedBindings = acts;
suggestedbindings.suggestedBindings = bindings;
res = xrSuggestInteractionProfileBindings(xr.instance, &suggestedbindings);
if (XR_FAILED(res))
Con_Printf("%s: xrSuggestInteractionProfileBindings failed - %i\n", fname, res);
return acts;
}
}
return 0;
}
static int QDECL XR_BindProfileFile(const char *fname, qofs_t fsize, time_t mtime, void *ctx, struct searchpathfuncs_s *package)
{
vfsfile_t *f = fsfuncs->OpenVFS(fname, "rb", FS_GAME);
if (f)
{
size_t len = VFS_GETLEN(f);
char *buf = malloc(len+1);
VFS_READ(f, buf, len);
buf[len] = 0;
*(unsigned int*)ctx += XR_BindProfileStr(fname, buf);
free(buf);
VFS_CLOSE(f);
}
return false;
}
static void XR_SetupInputs(void)
{
unsigned int h;
XrResult res;
//begin instance-level init
{
XrActionSetCreateInfo info = {XR_TYPE_ACTION_SET_CREATE_INFO};
Q_strlcpy(info.actionSetName, "actions", sizeof(info.actionSetName));
Q_strlcpy(info.localizedActionSetName, FULLENGINENAME" Actions", sizeof(info.localizedActionSetName));
info.priority = 0;
xr.actionset.subactionPath = XR_NULL_PATH;
res = xrCreateActionSet(xr.instance, &info, &xr.actionset.actionSet);
if (XR_FAILED(res))
Con_Printf("openxr: Unable to create actionset - %i\n", res);
}
h = 0;
if (fsfuncs)
fsfuncs->EnumerateFiles("oxr_*.binds", XR_BindProfileFile, &h);
if (!h) //no user bindings defined, use fallbacks. probably this needs to be per-mod.
{
//FIXME: set up some proper bindings!
XR_BindProfileStr("khr_simple",
"/interaction_profiles/khr/simple_controller /user/hand/left/ /user/hand/right/\n"
"+select \"Select\" button input/select/click\n"
"togglemenu \"Toggle Menu\" button input/menu/click\n"
"grip_pose \"Grip Pose\" pose input/grip/pose\n"
"aim_pose \"Aim Pose\" pose input/aim/pose\n"
"vibrate \"A Vibrator\" vibration output/haptic\n"
);
XR_BindProfileStr("valve_index",
"/interaction_profiles/valve/index_controller /user/hand/left/ /user/hand/right/\n"
//"unbound \"Unused Button\" button input/system/click\n"
//"unbound \"Unused Button\" button input/system/touch\n"
//"unbound \"Unused Button\" button input/a/click\n"
//"unbound \"Unused Button\" button input/a/touch\n"
//"unbound \"Unused Button\" button input/b/click\n"
//"unbound \"Unused Button\" button input/b/touch\n"
//"unbound \"Unused Button\" float input/squeeze/value\n"
//"unbound \"Unused Button\" button input/squeeze/force\n"
//"unbound \"Unused Button\" button input/trigger/click\n"
//"unbound \"Unused Button\" float input/trigger/value\n"
//"unbound \"Unused Button\" button input/trigger/touch\n"
//"unbound \"Unused Button\" float input/thumbstick/x\n"
//"unbound \"Unused Button\" float input/thumbstick/y\n"
//"unbound \"Unused Button\" button input/thumbstick/click\n"
//"unbound \"Unused Button\" button input/thumbstick/touch\n"
//"unbound \"Unused Button\" float input/trackpad/x\n"
//"unbound \"Unused Button\" float input/trackpad/y\n"
//"unbound \"Unused Button\" button input/trackpad/force\n"
//"unbound \"Unused Button\" button input/trackpad/touch\n"
//"unbound \"Unused Button\" pose input/grip/pose\n"
//"unbound \"Unused Button\" pose input/aim/pose\n"
//"unbound \"Unused Button\" vibration output/haptic\n"
);
//FIXME: map to quake's keys.
XR_BindProfileStr("gamepad", "/interaction_profiles/microsoft/xbox_controller /user/gamepad/\n"
"togglemenu Menu button input/menu/click\n"
//"unbound \"Unused Button\" button input/view/click\n"
//"unbound \"Unused Button\" button input/a/click\n"
//"unbound \"Unused Button\" button input/b/click\n"
//"unbound \"Unused Button\" button input/x/click\n"
//"unbound \"Unused Button\" button input/y/click\n"
"+back \"Move Backwards\" button input/dpad_down/click\n"
"+moveright \"Move Right\" button input/dpad_right/click\n"
"+forward \"Move Forward\" button input/dpad_up/click\n"
"+moveleft \"Move Left\" button input/dpad_left/click\n"
"+jump \"Jump\" button input/shoulder_left/click\n"
"+attack \"Attack\" button input/shoulder_right/click\n"
//"unbound \"Unused Button\" button input/thumbstick_left/click\n"
//"unbound \"Unused Button\" button input/thumbstick_right/click\n"
//"unbound \"Unused Axis\" float input/trigger_left/click\n"
//"unbound \"Unused Axis\" float input/trigger_right/click\n"
//"unbound \"Unused Axis\" float input/thumbstick_left/x\n"
//"unbound \"Unused Axis\" float input/thumbstick_left/y\n"
//"unbound \"Unused Axis\" float input/thumbstick_right/x\n"
//"unbound \"Unused Axis\" float input/thumbstick_right/y\n"
//"unbound \"Unused Vibrator\" vibration output/haptic_left\n"
//"unbound \"Unused Vibrator\" vibration output/haptic_left_trigger\n"
//"unbound \"Unused Vibrator\" vibration output/haptic_right\n"
//"unbound \"Unused Vibrator\" vibration output/haptic_right_trigger\n"
);
}
//begin session specific. stuff
//create action space stuff.
for (h = 0; h < xr.numactions; h++)
{
switch(xr.actions[h].acttype)
{
case XR_ACTION_TYPE_POSE_INPUT:
{
XrActionSpaceCreateInfo info = {XR_TYPE_ACTION_SPACE_CREATE_INFO};
info.action = xr.actions[h].action;
info.subactionPath = xr.actions[h].path;
info.poseInActionSpace.orientation.w = 1; //just fill with identity.
res = xrCreateActionSpace(xr.session, &info, &xr.actions[h].space);
if (XR_FAILED(res))
Con_Printf("openxr: xrCreateActionSpace failed - %i\n", res);
}
break;
default:
xr.actions[h].space = XR_NULL_HANDLE;
break;
}
}
//and attach it.
{
XrSessionActionSetsAttachInfo info = {XR_TYPE_SESSION_ACTION_SETS_ATTACH_INFO};
info.countActionSets = 1;
info.actionSets = &xr.actionset.actionSet;
res = xrAttachSessionActionSets(xr.session, &info);
if (XR_FAILED(res))
Con_Printf("openxr: xrAttachSessionActionSets failed - %i\n", res);
}
#if 1
if (cvarfuncs->GetFloat("developer"))
{
XrInteractionProfileState profile = {XR_TYPE_INTERACTION_PROFILE_STATE};
XrPath path;
unsigned int u;
static const char *paths[] = {"/user/hand/left", "/user/hand/right", "/user/head", "/user/gamepad", "/user/treadmill", "/user/"};
for (u = 0; u < countof(paths); u++)
{
xrStringToPath(xr.instance, paths[u], &path);
res = xrGetCurrentInteractionProfile(xr.session, path, &profile);
if (XR_SUCCEEDED(res))
{
char buf[256];
uint32_t len = sizeof(buf);
if (!profile.interactionProfile)
Con_Printf("openxr: %s == no profile/device\n", paths[u]);
else
{
res = xrPathToString(xr.instance, profile.interactionProfile, sizeof(buf), &len, buf);
Con_Printf("openxr: %s == %s\n", paths[u], buf);
}
}
}
Con_Printf("Bound actions:\n");
for (u = 0; u < xr.numactions; u++)
{
XrBoundSourcesForActionEnumerateInfo info = {XR_TYPE_BOUND_SOURCES_FOR_ACTION_ENUMERATE_INFO};
uint32_t inputs, i, bufsize;
XrPath input[20];
info.action = xr.actions[u].action;
res = xrEnumerateBoundSourcesForAction(xr.session, &info, countof(input), &inputs, input);
if (XR_SUCCEEDED(res))
{
Con_Printf("\t%s:\n", xr.actions[u].actname);
for (i = 0; i < inputs; i++)
{
char buffer[8192];
XrInputSourceLocalizedNameGetInfo info = {XR_TYPE_INPUT_SOURCE_LOCALIZED_NAME_GET_INFO};
info.sourcePath = input[i];
info.whichComponents = XR_INPUT_SOURCE_LOCALIZED_NAME_USER_PATH_BIT| //'left hand'
XR_INPUT_SOURCE_LOCALIZED_NAME_INTERACTION_PROFILE_BIT| //'foo controller'
XR_INPUT_SOURCE_LOCALIZED_NAME_COMPONENT_BIT; //'trigger'
res = xrGetInputSourceLocalizedName(xr.session, &info, sizeof(buffer), &bufsize, buffer);
if (XR_FAILED(res))
Q_snprintf(buffer, sizeof(buffer), "error %i", res);
Con_Printf("\t\t%s\n", buffer);
}
}
else if (res == XR_ERROR_HANDLE_INVALID) //monado reports this for unimplemented things.
Con_Printf("\t%s: error XR_ERROR_HANDLE_INVALID (not implemented?)\n", xr.actions[u].actname);
else
Con_Printf("\t%s: error %i\n", xr.actions[u].actname, res);
}
}
#endif
}
static void XR_UpdateInputs(XrTime time)
{
XrResult res;
unsigned int h;
{
XrActionsSyncInfo syncinfo = {XR_TYPE_ACTIONS_SYNC_INFO};
syncinfo.countActiveActionSets = 1;
syncinfo.activeActionSets = &xr.actionset;
res = xrSyncActions(xr.session, &syncinfo);
if (res == XR_SESSION_NOT_FOCUSED)
; //handle it anyway, giving us a chance to disable various inputs.
else if (XR_FAILED(res))
return;
}
for (h = 0; h < xr.numactions; h++)
{
if (xr.actions[h].action == XR_NULL_HANDLE) //failed to init
continue;
switch(xr.actions[h].acttype)
{
case XR_ACTION_TYPE_POSE_INPUT:
{
XrActionStatePose pose = {XR_TYPE_ACTION_STATE_POSE};
XrActionStateGetInfo info = {XR_TYPE_ACTION_STATE_GET_INFO};
info.action = xr.actions[h].action;
info.subactionPath = xr.actions[h].path;
xrGetActionStatePose(xr.session, &info, &pose);
if (pose.isActive)
{ //its mapped to something, woo.
XrSpaceLocation loc = {XR_TYPE_SPACE_LOCATION};
vec3_t transform[4];
xrLocateSpace(xr.actions[h].space, xr.space, time, &loc);
//if (loc.locationFlags & XR_SPACE_LOCATION_ORIENTATION_VALID_BIT)
//if (loc.locationFlags & XR_SPACE_LOCATION_POSITION_VALID_BIT)
//if (loc.locationFlags & XR_SPACE_LOCATION_ORIENTATION_TRACKED_BIT)
//if (loc.locationFlags & XR_SPACE_LOCATION_POSITION_TRACKED_BIT)
XR_PoseToTransform(&loc.pose, transform);
{
vec3_t angles;
char cmd[256];
VectorAngles(transform[0], transform[2], angles, false);
Q_snprintf(cmd, sizeof(cmd), "echo %s %g %g %g %g %g %g\n", xr.actions[h].actname, angles[0], angles[1], angles[2], transform[3][0], transform[3][1], transform[3][2]);
cmdfuncs->AddText(cmd, false);
}
}
}
break;
case XR_ACTION_TYPE_BOOLEAN_INPUT:
{
XrActionStateBoolean state = {XR_TYPE_ACTION_STATE_BOOLEAN};
XrActionStateGetInfo info = {XR_TYPE_ACTION_STATE_GET_INFO};
info.action = xr.actions[h].action;
info.subactionPath = xr.actions[h].path;
xrGetActionStateBoolean(xr.session, &info, &state);
if (!state.isActive) state.currentState = XR_FALSE;
if ((!!state.currentState) != xr.actions[h].held)
{
xr.actions[h].held = !!state.currentState;
if (xr.actions[h].held || *xr.actions[h].actname == '+')
{
char cmd[256];
Q_strlcpy(cmd, xr.actions[h].actname, sizeof(cmd));
Q_strlcat(cmd, "\n", sizeof(cmd));
if (!xr.actions[h].held)
*cmd = '-'; //release events.
cmdfuncs->AddText(cmd, false);
}
}
}
break;
case XR_ACTION_TYPE_FLOAT_INPUT:
{
XrActionStateFloat state = {XR_TYPE_ACTION_STATE_FLOAT};
XrActionStateGetInfo info = {XR_TYPE_ACTION_STATE_GET_INFO};
info.action = xr.actions[h].action;
info.subactionPath = xr.actions[h].path;
xrGetActionStateFloat(xr.session, &info, &state);
if (!state.isActive) state.currentState = 0.0f;
{
char cmd[256];
Q_snprintf(cmd, sizeof(cmd), "echo %s %g\n", xr.actions[h].actname, state.currentState);
cmdfuncs->AddText(cmd, false);
}
}
break;
case XR_ACTION_TYPE_VECTOR2F_INPUT:
{
XrActionStateVector2f state = {XR_TYPE_ACTION_STATE_VECTOR2F};
XrActionStateGetInfo info = {XR_TYPE_ACTION_STATE_GET_INFO};
info.action = xr.actions[h].action;
info.subactionPath = xr.actions[h].path;
xrGetActionStateVector2f(xr.session, &info, &state);
if (!state.isActive) state.currentState.x = state.currentState.y = 0.0f;
{
char cmd[256];
Q_snprintf(cmd, sizeof(cmd), "echo %s %g %g\n", xr.actions[h].actname, state.currentState.x, state.currentState.y);
cmdfuncs->AddText(cmd, false);
}
}
break;
case XR_ACTION_TYPE_VIBRATION_OUTPUT:
default:
break;
}
}
}
static qboolean XR_Begin(void)
{
uint32_t u;
XrResult res;
uint32_t swapfmts;
int64_t *fmts, fmttouse=0;
{
XrSessionCreateInfo sessioninfo = {XR_TYPE_SESSION_CREATE_INFO};
sessioninfo.next = xr.bindinginfo;
sessioninfo.createFlags = 0;
sessioninfo.systemId = xr.systemid;
res = xrCreateSession(xr.instance, &sessioninfo, &xr.session);
}
if (XR_FAILED(res))
return false;
{
XrReferenceSpaceCreateInfo info = {XR_TYPE_REFERENCE_SPACE_CREATE_INFO};
info.referenceSpaceType = XR_REFERENCE_SPACE_TYPE_VIEW;
info.poseInReferenceSpace.orientation.w = 1;
res = xrCreateReferenceSpace(xr.session, &info, &xr.space);
if (XR_FAILED(res))
return false;
}
xrEnumerateSwapchainFormats(xr.session, 0, &swapfmts, NULL);
fmts = alloca(sizeof(*fmts)*swapfmts);
xrEnumerateSwapchainFormats(xr.session, swapfmts, &swapfmts, fmts);
if (!swapfmts)
Con_Printf("OpenXR: No swapchain formats to use\n");
#ifdef XR_USE_GRAPHICS_API_OPENGL
else if (xr.renderer == QR_OPENGL)
{
fmttouse = fmts[0]; //favour the first... its probably a bad choice though...
for (u = 0; u < swapfmts; u++) switch(fmts[u])
{
case GL_RGBA16F: Con_DPrintf("OpenXr fmt%u: %s\n", u, "GL_RGBA16F"); if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case GL_RGBA8: Con_DPrintf("OpenXr fmt%u: %s\n", u, "GL_RGBA8"); if (!xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case GL_SRGB8_ALPHA8_EXT: Con_DPrintf("OpenXr fmt%u: %s\n", u, "GL_SRGB8_ALPHA8");if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
default:
Con_DPrintf("OpenXr fmt%u: %x\n", u, (unsigned)fmts[u]);
break;
}
}
#endif
#ifdef XR_USE_GRAPHICS_API_VULKAN
else if (xr.renderer == QR_VULKAN)
{
fmttouse = fmts[0]; //favour the first... its probably a bad choice though...
for (u = 0; u < swapfmts; u++) switch(fmts[u])
{
case VK_FORMAT_R16G16B16A16_SFLOAT: Con_DPrintf("OpenXr fmt%u: %s\n", u, "VK_FORMAT_R16G16B16A16_SFLOAT"); if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case VK_FORMAT_B8G8R8A8_UNORM: Con_DPrintf("OpenXr fmt%u: %s\n", u, "VK_FORMAT_B8G8R8A8_UNORM"); if (!xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case VK_FORMAT_R8G8B8A8_UNORM: Con_DPrintf("OpenXr fmt%u: %s\n", u, "VK_FORMAT_R8G8B8A8_UNORM"); if (!xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case VK_FORMAT_B8G8R8A8_SRGB: Con_DPrintf("OpenXr fmt%u: %s\n", u, "VK_FORMAT_B8G8R8A8_SRGB"); if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case VK_FORMAT_R8G8B8A8_SRGB: Con_DPrintf("OpenXr fmt%u: %s\n", u, "VK_FORMAT_R8G8B8A8_SRGB"); if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
default:
Con_DPrintf("OpenXr fmt%u: %u\n", u, (unsigned)fmts[u]);
break;
}
}
#endif
#ifdef XR_USE_GRAPHICS_API_D3D11
else if (xr.renderer == QR_DIRECT3D11)
{
fmttouse = fmts[0]; //favour the first... its probably a bad choice though...
for (u = 0; u < swapfmts; u++) switch(fmts[u])
{
case DXGI_FORMAT_R16G16B16A16_FLOAT: Con_DPrintf("OpenXr fmt%u: %s\n", u, "DXGI_FORMAT_R16G16B16A16_FLOAT"); if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case DXGI_FORMAT_B8G8R8A8_UNORM: Con_DPrintf("OpenXr fmt%u: %s\n", u, "DXGI_FORMAT_B8G8R8A8_UNORM"); if (!xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case DXGI_FORMAT_B8G8R8X8_UNORM: Con_DPrintf("OpenXr fmt%u: %s\n", u, "DXGI_FORMAT_B8G8R8X8_UNORM"); if (!xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case DXGI_FORMAT_R8G8B8A8_UNORM: Con_DPrintf("OpenXr fmt%u: %s\n", u, "DXGI_FORMAT_R8G8B8A8_UNORM"); if (!xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case DXGI_FORMAT_B8G8R8A8_UNORM_SRGB: Con_DPrintf("OpenXr fmt%u: %s\n", u, "DXGI_FORMAT_B8G8R8A8_UNORM_SRGB"); if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case DXGI_FORMAT_B8G8R8X8_UNORM_SRGB: Con_DPrintf("OpenXr fmt%u: %s\n", u, "DXGI_FORMAT_B8G8R8X8_UNORM_SRGB"); if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
case DXGI_FORMAT_R8G8B8A8_UNORM_SRGB: Con_DPrintf("OpenXr fmt%u: %s\n", u, "DXGI_FORMAT_R8G8B8A8_UNORM_SRGB"); if (xr.srgb) fmttouse = fmts[u],u=swapfmts; break;
default:
Con_DPrintf("OpenXr fmt%u: %x\n", u, (unsigned)fmts[u]);
break;
}
}
#endif
else
{
fmttouse = fmts[0];
for (u = 0; u < swapfmts; u++)
Con_Printf("fmt%u: %u / %x\n", u, (unsigned)fmts[u], (unsigned)fmts[u]);
}
for (u = 0; u < xr.viewcount; u++)
{
XrSwapchainCreateInfo swapinfo = {XR_TYPE_SWAPCHAIN_CREATE_INFO};
swapinfo.createFlags = 0;
swapinfo.usageFlags = XR_SWAPCHAIN_USAGE_COLOR_ATTACHMENT_BIT;
swapinfo.format = fmttouse;
swapinfo.sampleCount = 1;//xr.views->recommendedSwapchainSampleCount;
swapinfo.width = xr.views->recommendedImageRectWidth;
swapinfo.height = xr.views->recommendedImageRectHeight;
swapinfo.faceCount = 1; //2d, not a cube
swapinfo.arraySize = 1; //1 for 2d, a 1d array isn't allowed
swapinfo.mipCount = 1;
res = xrCreateSwapchain(xr.session, &swapinfo, &xr.eye[u].swapchain);
if (XR_FAILED(res))
return false;
res = xrEnumerateSwapchainImages(xr.eye[u].swapchain, 0, &xr.eye[u].numswapimages, NULL);
if (XR_FAILED(res))
return false;
//using a separate swapchain for each eye, so just depend upon npot here and use the whole image.
xr.eye[u].subimage.imageRect.offset.x = 0;
xr.eye[u].subimage.imageRect.offset.y = 0;
xr.eye[u].subimage.imageRect.extent.width = swapinfo.width;
xr.eye[u].subimage.imageRect.extent.height = swapinfo.height;
xr.eye[u].subimage.swapchain = xr.eye[u].swapchain;
xr.eye[u].subimage.imageArrayIndex = 0;
//okay, this is annoying. the returned array size has different strides for different apis, etc.
//translate it into something the relevant backend should understand.
switch(xr.renderer)
{
default:
return false; //erk?
#ifdef XR_USE_GRAPHICS_API_D3D11
case QR_DIRECT3D11:
{
uint32_t i;
XrSwapchainImageD3D11KHR *xrimg = calloc(xr.eye[u].numswapimages, sizeof(*xrimg));
for (i = 0; i < xr.eye[u].numswapimages; i++)
xrimg[i].type = XR_TYPE_SWAPCHAIN_IMAGE_VULKAN_KHR;
res = xrEnumerateSwapchainImages(xr.eye[u].swapchain, xr.eye[u].numswapimages, &xr.eye[u].numswapimages, (XrSwapchainImageBaseHeader*)xrimg);
if (XR_FAILED(res))
xr.eye[u].numswapimages = 0;
xr.eye[u].swapimages = calloc(xr.eye[u].numswapimages, sizeof(*xr.eye[u].swapimages));
for (i = 0; i < xr.eye[u].numswapimages; i++)
{
xr.eye[u].swapimages[i].ptr = xrimg[i].texture;
xr.eye[u].swapimages[i].ptr2 = NULL; //view
xr.eye[u].swapimages[i].width = swapinfo.width;
xr.eye[u].swapimages[i].height = swapinfo.height;
xr.eye[u].swapimages[i].depth = 1;
xr.eye[u].swapimages[i].status = TEX_LOADED;
}
}
break;
#endif
#ifdef XR_USE_GRAPHICS_API_VULKAN
case QR_VULKAN:
{
uint32_t i;
XrSwapchainImageVulkanKHR *xrimg = calloc(xr.eye[u].numswapimages, sizeof(*xrimg));
struct vk_image_s *vkimg;
for (i = 0; i < xr.eye[u].numswapimages; i++)
xrimg[i].type = XR_TYPE_SWAPCHAIN_IMAGE_VULKAN_KHR;
res = xrEnumerateSwapchainImages(xr.eye[u].swapchain, xr.eye[u].numswapimages, &xr.eye[u].numswapimages, (XrSwapchainImageBaseHeader*)xrimg);
if (XR_FAILED(res))
xr.eye[u].numswapimages = 0;
xr.eye[u].swapimages = calloc(xr.eye[u].numswapimages, sizeof(*xr.eye[u].swapimages)+sizeof(struct vk_image_s));
vkimg = (struct vk_image_s*)&xr.eye[u].swapimages[xr.eye[u].numswapimages];
for (i = 0; i < xr.eye[u].numswapimages; i++)
{
xr.eye[u].swapimages[i].vkimage = &vkimg[i];
vkimg[i].image = xrimg[i].image;
//vkimg[i].mem.* = 0;
vkimg[i].view = VK_NULL_HANDLE;
vkimg[i].sampler = VK_NULL_HANDLE;
vkimg[i].layout = VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL;
vkimg[i].width = VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL;
xr.eye[u].swapimages[i].width = vkimg[i].width = swapinfo.width;
xr.eye[u].swapimages[i].height = vkimg[i].height = swapinfo.height;
xr.eye[u].swapimages[i].depth = vkimg[i].layers = 1;
vkimg[i].mipcount = swapinfo.mipCount;
vkimg[i].encoding = PTI_INVALID; //blurgh, is this needed?
vkimg[i].type = PTI_2D;
xr.eye[u].swapimages[i].status = TEX_LOADED;
}
}
break;
#endif
#ifdef XR_USE_GRAPHICS_API_OPENGL
case QR_OPENGL:
{
uint32_t i;
XrSwapchainImageOpenGLKHR *xrimg = calloc(xr.eye[u].numswapimages, sizeof(*xrimg));
for (i = 0; i < xr.eye[u].numswapimages; i++)
xrimg[i].type = XR_TYPE_SWAPCHAIN_IMAGE_OPENGL_KHR;
res = xrEnumerateSwapchainImages(xr.eye[u].swapchain, xr.eye[u].numswapimages, &xr.eye[u].numswapimages, (XrSwapchainImageBaseHeader*)xrimg);
if (XR_FAILED(res))
xr.eye[u].numswapimages = 0;
xr.eye[u].swapimages = calloc(xr.eye[u].numswapimages, sizeof(*xr.eye[u].swapimages));
for (i = 0; i < xr.eye[u].numswapimages; i++)
{
xr.eye[u].swapimages[i].num = xrimg[i].image;
xr.eye[u].swapimages[i].width = swapinfo.width;
xr.eye[u].swapimages[i].height = swapinfo.height;
xr.eye[u].swapimages[i].depth = 1;
xr.eye[u].swapimages[i].status = TEX_LOADED;
}
}
break;
#endif
}
}
if (XR_FAILED(res))
return false;
XR_SetupInputs();
return true;
}
static void XR_ProcessEvents(void)
{
XrEventDataBuffer ev;
XrResult res;
for (;;)
{
res = xrPollEvent(xr.instance, &ev);
if (res == XR_EVENT_UNAVAILABLE || XR_FAILED(res))
return; //nothing interesting here folks
switch(ev.type)
{
default: //no idea wtf that is
Con_Printf("openxr event %u\n", ev.type);
break;
case XR_TYPE_EVENT_DATA_SESSION_STATE_CHANGED:
{
XrEventDataSessionStateChanged *s = (XrEventDataSessionStateChanged*)&ev;
switch(s->state)
{
default:
break; //urgh
case XR_SESSION_STATE_READY:
{
XrSessionBeginInfo info = {XR_TYPE_SESSION_BEGIN_INFO};
info.primaryViewConfigurationType = xr.viewtype;
res = xrBeginSession(xr.session, &info);
if (XR_FAILED(res))
Con_Printf("Unable to begin session: %i\n", res);
}
break;
case XR_SESSION_STATE_STOPPING:
res = xrEndSession(xr.session);
if (XR_FAILED(res))
Con_Printf("Unable to end session: %i\n", res);
break;
}
xr.state = s->state;
}
break;
}
}
}
static qboolean XR_SyncFrame(double *frametime)
{
XrResult res;
if (!xr.instance)
return false;
memset(&xr.framestate, 0, sizeof(xr.framestate));
xr.framestate.type = XR_TYPE_FRAME_STATE;
switch(xr.state)
{
case XR_SESSION_STATE_FOCUSED:
case XR_SESSION_STATE_SYNCHRONIZED:
case XR_SESSION_STATE_VISIBLE:
xr.framestate.shouldRender = !!xr.session;
break;
default:
break;
}
if (xr.framestate.shouldRender)
{
XrTime time;
res = xrWaitFrame(xr.session, NULL, &xr.framestate);
if (XR_FAILED(res))
{
Con_Printf("xrWaitFrame: %i\n", res);
return false;
}
time = xr.framestate.predictedDisplayTime;
if (xr.timeknown)
{
if (time < xr.time) //make sure time doesn't go backward...
time = xr.time;
*frametime = (time-xr.time)/1000000000.0;
}
xr.time = time;
xr.timeknown = true;
}
XR_ProcessEvents();
if (xr.session)
XR_UpdateInputs(xr.framestate.predictedDisplayTime);
return true;
}
static qboolean XR_Render(void(*rendereye)(texid_t tex, vec4_t fovoverride, vec3_t axisorg[4]))
{
XrFrameEndInfo endframeinfo = {XR_TYPE_FRAME_END_INFO};
unsigned int u;
XrResult res;
XrCompositionLayerProjection proj = {XR_TYPE_COMPOSITION_LAYER_PROJECTION};
const XrCompositionLayerBaseHeader *projlist[] = {(XrCompositionLayerBaseHeader*)&proj};
XrCompositionLayerProjectionView projviews[MAX_VIEW_COUNT];
if (!xr.instance)
return false; //err... noooes!
if (!xr.session)
{
if (!xr_enable->ival)
return false;
if (!XR_Begin())
{ //something catasrophic went wrong. don't spam begins.
XR_Shutdown();
}
return false;
}
if (!xr_enable->ival)
{
res = xrRequestExitSession(xr.session);
if (XR_FAILED(res))
Con_Printf("openxr: Unable to request session end: %i\n", res);
XR_ProcessEvents();
}
switch(xr.state)
{
case XR_SESSION_STATE_EXITING:
XR_SessionEnded(); //destroys the session but not the instance, so it can be started up again if desired.
return false;
case XR_SESSION_STATE_FOCUSED:
case XR_SESSION_STATE_SYNCHRONIZED:
case XR_SESSION_STATE_VISIBLE:
break;
default:
return false; //not ready.
}
res = xrBeginFrame(xr.session, NULL);
if (XR_FAILED(res))
Con_Printf("xrBeginFrame: %i\n", res);
if (xr.framestate.shouldRender)
{
uint32_t eyecount;
XrViewState viewstate = {XR_TYPE_VIEW_STATE};
XrViewLocateInfo locateinfo = {XR_TYPE_VIEW_LOCATE_INFO};
XrView eyeview[MAX_VIEW_COUNT]={};
vec3_t transform[4];
for (u = 0; u < MAX_VIEW_COUNT; u++)
eyeview[u].type = XR_TYPE_VIEW;
locateinfo.displayTime = xr.framestate.predictedDisplayTime;
locateinfo.space = xr.space;
res = xrLocateViews(xr.session, &locateinfo, &viewstate, xr.viewcount, &eyecount, eyeview);
if (XR_FAILED(res))
Con_Printf("xrLocateViews: %i\n", res);
proj.layerFlags = 0;
proj.space = xr.space;
proj.views = projviews;
endframeinfo.layerCount = 1;
for (u = 0; u < xr.viewcount && u < eyecount; u++)
{
vec4_t fovoverride;
XrSwapchainImageWaitInfo waitinfo = {XR_TYPE_SWAPCHAIN_IMAGE_WAIT_INFO};
unsigned int imgidx = 0;
res = xrAcquireSwapchainImage(xr.eye[u].swapchain, NULL, &imgidx);
if (XR_FAILED(res))
Con_Printf("xrAcquireSwapchainImage: %i\n", res);
memset(&projviews[u], 0, sizeof(projviews[u]));
projviews[u].type = XR_TYPE_COMPOSITION_LAYER_PROJECTION_VIEW;
projviews[u].pose = eyeview[u].pose;
projviews[u].fov = eyeview[u].fov;
projviews[u].subImage = xr.eye[u].subimage;
XR_PoseToTransform(&eyeview[u].pose, transform);
fovoverride[0] = eyeview[u].fov.angleLeft * (180/M_PI);
fovoverride[1] = eyeview[u].fov.angleRight * (180/M_PI);
fovoverride[2] = eyeview[u].fov.angleDown * (180/M_PI);
fovoverride[3] = eyeview[u].fov.angleUp * (180/M_PI);
waitinfo.timeout = 100000;
res = xrWaitSwapchainImage(xr.eye[u].swapchain, &waitinfo);
if (XR_FAILED(res))
Con_Printf("xrWaitSwapchainImage: %i\n", res);
rendereye(&xr.eye[u].swapimages[imgidx], fovoverride, transform);
//GL note: the OpenXR specification says NOTHING about the application having to glFlush or glFinish.
// I take this to mean that the openxr runtime is responsible for setting up barriers or w/e inside ReleaseSwapchainImage.
//VK note: the OpenXR spec does say that it needs to be color_attachment_optimal+owned by queue. which it is.
// I take this to mean that the openxr runtime is responsible for barriers (as it'll need to transition it to general or shader-read anyway).
res = xrReleaseSwapchainImage(xr.eye[u].swapchain, NULL);
if (XR_FAILED(res))
Con_Printf("xrReleaseSwapchainImage: %i\n", res);
}
proj.viewCount = u;
}
endframeinfo.layers = projlist;
endframeinfo.displayTime = xr.framestate.predictedDisplayTime;
endframeinfo.environmentBlendMode = XR_ENVIRONMENT_BLEND_MODE_OPAQUE; //we don't do the alpha channel very well.
res = xrEndFrame(xr.session, &endframeinfo);
if (XR_FAILED(res))
{
Con_Printf("xrEndFrame: %i\n", res);
if (res == XR_ERROR_SESSION_LOST || res == XR_ERROR_SESSION_NOT_RUNNING || res == XR_ERROR_SWAPCHAIN_RECT_INVALID)
XR_SessionEnded(); //something sessiony
else //if (res == XR_ERROR_INSTANCE_LOST)
XR_Shutdown(); //don't really know what it was, just kill everything
}
return xr_skipregularview->ival;
}
static plugvrfuncs_t openxr =
{
"OpenXR",
XR_PreInit,
XR_Init,
XR_SyncFrame,
XR_Render,
XR_Shutdown,
};
qboolean Plug_Init(void)
{
fsfuncs = plugfuncs->GetEngineInterface(plugfsfuncs_name, sizeof(*fsfuncs));
plugfuncs->ExportFunction("MayUnload", XR_PluginMayUnload);
if (plugfuncs->ExportInterface(plugvrfuncs_name, &openxr, sizeof(openxr)))
{
xr_enable = cvarfuncs->GetNVFDG("xr_enable", "1", 0, "Controls whether to use openxr rendering or not.", "OpenXR configuration");
xr_formfactor = cvarfuncs->GetNVFDG("xr_formfactor", "head", CVAR_ARCHIVE, "Controls which VR system to try to use. Valid options are head, or hand", "OpenXR configuration");
xr_viewconfig = cvarfuncs->GetNVFDG("xr_viewconfig", "", CVAR_ARCHIVE, "Controls the type of view we aim for. Valid options are mono, stereo, or quad", "OpenXR configuration");
xr_metresize = cvarfuncs->GetNVFDG("xr_metresize", "26.24671916", CVAR_ARCHIVE, "Size of a metre in game units", "OpenXR configuration");
xr_skipregularview = cvarfuncs->GetNVFDG("xr_skipregularview", "0", CVAR_ARCHIVE, "Skip rendering the regular view when OpenXR is active.", "OpenXR configuration");
return true;
}
return false;
}
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