blob: e396e67722f3694704d3dab7a3deabfa769a479a [file] [log] [blame]
//========= Copyright Valve Corporation ============//
#define VR_API_EXPORT 1
#include "openvr.h"
#include "ivrclientcore.h"
#include "pathtools_public.h"
#include "sharedlibtools_public.h"
#include "envvartools_public.h"
#include "hmderrors_public.h"
#include "vrpathregistry_public.h"
#include <mutex>
using vr::EVRInitError;
using vr::IVRSystem;
using vr::IVRClientCore;
using vr::VRInitError_None;
namespace vr
{
static void *g_pVRModule = NULL;
static IVRClientCore *g_pHmdSystem = NULL;
static std::recursive_mutex g_mutexSystem;
typedef void* (*VRClientCoreFactoryFn)(const char *pInterfaceName, int *pReturnCode);
static uint32_t g_nVRToken = 0;
uint32_t VR_GetInitToken()
{
return g_nVRToken;
}
EVRInitError VR_LoadHmdSystemInternal();
void CleanupInternalInterfaces();
uint32_t VR_InitInternal2( EVRInitError *peError, vr::EVRApplicationType eApplicationType, const char *pStartupInfo )
{
std::lock_guard<std::recursive_mutex> lock( g_mutexSystem );
EVRInitError err = VR_LoadHmdSystemInternal();
if ( err == vr::VRInitError_None )
{
err = g_pHmdSystem->Init( eApplicationType, pStartupInfo );
}
if ( peError )
*peError = err;
if ( err != VRInitError_None )
{
SharedLib_Unload( g_pVRModule );
g_pHmdSystem = NULL;
g_pVRModule = NULL;
return 0;
}
return ++g_nVRToken;
}
VR_INTERFACE uint32_t VR_CALLTYPE VR_InitInternal( EVRInitError *peError, EVRApplicationType eApplicationType );
uint32_t VR_InitInternal( EVRInitError *peError, vr::EVRApplicationType eApplicationType )
{
return VR_InitInternal2( peError, eApplicationType, nullptr );
}
void VR_ShutdownInternal()
{
std::lock_guard<std::recursive_mutex> lock( g_mutexSystem );
if ( g_pHmdSystem )
{
g_pHmdSystem->Cleanup();
g_pHmdSystem = NULL;
}
if ( g_pVRModule )
{
SharedLib_Unload( g_pVRModule );
g_pVRModule = NULL;
}
#if !defined( VR_API_PUBLIC )
CleanupInternalInterfaces();
#endif
++g_nVRToken;
}
EVRInitError VR_LoadHmdSystemInternal()
{
std::string sRuntimePath, sConfigPath, sLogPath;
bool bReadPathRegistry = CVRPathRegistry_Public::GetPaths( &sRuntimePath, &sConfigPath, &sLogPath, NULL, NULL );
if( !bReadPathRegistry )
{
return vr::VRInitError_Init_PathRegistryNotFound;
}
// figure out where we're going to look for vrclient.dll
// see if the specified path actually exists.
if( !Path_IsDirectory( sRuntimePath ) )
{
return vr::VRInitError_Init_InstallationNotFound;
}
// Because we don't have a way to select debug vs. release yet we'll just
// use debug if it's there
#if defined( LINUX64 )
std::string sTestPath = Path_Join( sRuntimePath, "bin", PLATSUBDIR );
#else
std::string sTestPath = Path_Join( sRuntimePath, "bin" );
#endif
if( !Path_IsDirectory( sTestPath ) )
{
return vr::VRInitError_Init_InstallationCorrupt;
}
#if defined( WIN64 )
std::string sDLLPath = Path_Join( sTestPath, "vrclient_x64" DYNAMIC_LIB_EXT );
#else
std::string sDLLPath = Path_Join( sTestPath, "vrclient" DYNAMIC_LIB_EXT );
#endif
// only look in the override
void *pMod = SharedLib_Load( sDLLPath.c_str() );
// nothing more to do if we can't load the DLL
if( !pMod )
{
return vr::VRInitError_Init_VRClientDLLNotFound;
}
VRClientCoreFactoryFn fnFactory = ( VRClientCoreFactoryFn )( SharedLib_GetFunction( pMod, "VRClientCoreFactory" ) );
if( !fnFactory )
{
SharedLib_Unload( pMod );
return vr::VRInitError_Init_FactoryNotFound;
}
int nReturnCode = 0;
g_pHmdSystem = static_cast< IVRClientCore * > ( fnFactory( vr::IVRClientCore_Version, &nReturnCode ) );
if( !g_pHmdSystem )
{
SharedLib_Unload( pMod );
return vr::VRInitError_Init_InterfaceNotFound;
}
g_pVRModule = pMod;
return VRInitError_None;
}
void *VR_GetGenericInterface(const char *pchInterfaceVersion, EVRInitError *peError)
{
std::lock_guard<std::recursive_mutex> lock( g_mutexSystem );
if (!g_pHmdSystem)
{
if (peError)
*peError = vr::VRInitError_Init_NotInitialized;
return NULL;
}
return g_pHmdSystem->GetGenericInterface(pchInterfaceVersion, peError);
}
bool VR_IsInterfaceVersionValid(const char *pchInterfaceVersion)
{
std::lock_guard<std::recursive_mutex> lock( g_mutexSystem );
if (!g_pHmdSystem)
{
return false;
}
return g_pHmdSystem->IsInterfaceVersionValid(pchInterfaceVersion) == VRInitError_None;
}
bool VR_IsHmdPresent()
{
std::lock_guard<std::recursive_mutex> lock( g_mutexSystem );
if( g_pHmdSystem )
{
// if we're already initialized, just call through
return g_pHmdSystem->BIsHmdPresent();
}
else
{
// otherwise we need to do a bit more work
EVRInitError err = VR_LoadHmdSystemInternal();
if( err != VRInitError_None )
return false;
bool bHasHmd = g_pHmdSystem->BIsHmdPresent();
g_pHmdSystem = NULL;
SharedLib_Unload( g_pVRModule );
g_pVRModule = NULL;
return bHasHmd;
}
}
/** Returns true if the OpenVR runtime is installed. */
bool VR_IsRuntimeInstalled()
{
std::lock_guard<std::recursive_mutex> lock( g_mutexSystem );
if( g_pHmdSystem )
{
// if we're already initialized, OpenVR is obviously installed
return true;
}
else
{
// otherwise we need to do a bit more work
std::string sRuntimePath, sConfigPath, sLogPath;
bool bReadPathRegistry = CVRPathRegistry_Public::GetPaths( &sRuntimePath, &sConfigPath, &sLogPath, NULL, NULL );
if( !bReadPathRegistry )
{
return false;
}
// figure out where we're going to look for vrclient.dll
// see if the specified path actually exists.
if( !Path_IsDirectory( sRuntimePath ) )
{
return false;
}
// the installation may be corrupt in some way, but it certainly looks installed
return true;
}
}
/** Returns where OpenVR runtime is installed. */
const char *VR_RuntimePath()
{
// otherwise we need to do a bit more work
static std::string sRuntimePath;
std::string sConfigPath, sLogPath;
bool bReadPathRegistry = CVRPathRegistry_Public::GetPaths( &sRuntimePath, &sConfigPath, &sLogPath, NULL, NULL );
if ( !bReadPathRegistry )
{
return nullptr;
}
// figure out where we're going to look for vrclient.dll
// see if the specified path actually exists.
if ( !Path_IsDirectory( sRuntimePath ) )
{
return nullptr;
}
return sRuntimePath.c_str();
}
/** Returns the symbol version of an HMD error. */
const char *VR_GetVRInitErrorAsSymbol( EVRInitError error )
{
std::lock_guard<std::recursive_mutex> lock( g_mutexSystem );
if( g_pHmdSystem )
return g_pHmdSystem->GetIDForVRInitError( error );
else
return GetIDForVRInitError( error );
}
/** Returns the english string version of an HMD error. */
const char *VR_GetVRInitErrorAsEnglishDescription( EVRInitError error )
{
std::lock_guard<std::recursive_mutex> lock( g_mutexSystem );
if ( g_pHmdSystem )
return g_pHmdSystem->GetEnglishStringForHmdError( error );
else
return GetEnglishStringForHmdError( error );
}
VR_INTERFACE const char *VR_CALLTYPE VR_GetStringForHmdError( vr::EVRInitError error );
/** Returns the english string version of an HMD error. */
const char *VR_GetStringForHmdError( EVRInitError error )
{
return VR_GetVRInitErrorAsEnglishDescription( error );
}
}