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1055 | /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* 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/.
*/
#include <vcl/opengl/OpenGLHelper.hxx>
#include <osl/file.hxx>
#include <rtl/bootstrap.hxx>
#include <rtl/digest.h>
#include <rtl/strbuf.hxx>
#include <rtl/ustring.hxx>
#include <sal/log.hxx>
#include <tools/stream.hxx>
#include <config_folders.h>
#include <memory>
#include <vcl/pngwrite.hxx>
#include <vcl/svapp.hxx>
#include <officecfg/Office/Common.hxx>
#include <com/sun/star/util/XFlushable.hpp>
#include <com/sun/star/configuration/theDefaultProvider.hpp>
#include <stdarg.h>
#include <vector>
#include <unordered_map>
#include <opengl/zone.hxx>
#include <vcl/opengl/OpenGLWrapper.hxx>
#include <vcl/opengl/OpenGLContext.hxx>
#include <desktop/crashreport.hxx>
#include <bitmapwriteaccess.hxx>
#include <watchdog.hxx>
#include <vcl/skia/SkiaHelper.hxx>
#include <vcl/glxtestprocess.hxx>
#if defined UNX && !defined MACOSX && !defined IOS && !defined ANDROID && !defined HAIKU
#include <opengl/x11/X11DeviceInfo.hxx>
#elif defined (_WIN32)
#include <opengl/win/WinDeviceInfo.hxx>
#endif
#include "GLMHelper.hxx"
static bool volatile gbInShaderCompile = false;
namespace {
using namespace rtl;
OUString getShaderFolder()
{
OUString aUrl("$BRAND_BASE_DIR/" LIBO_ETC_FOLDER);
rtl::Bootstrap::expandMacros(aUrl);
return aUrl + "/opengl/";
}
OString loadShader(const OUString& rFilename)
{
OUString aFileURL = getShaderFolder() + rFilename +".glsl";
osl::File aFile(aFileURL);
if(aFile.open(osl_File_OpenFlag_Read) == osl::FileBase::E_None)
{
sal_uInt64 nSize = 0;
aFile.getSize(nSize);
std::unique_ptr<char[]> content(new char[nSize+1]);
sal_uInt64 nBytesRead = 0;
aFile.read(content.get(), nSize, nBytesRead);
assert(nSize == nBytesRead);
content.get()[nBytesRead] = 0;
SAL_INFO("vcl.opengl", "Read " << nBytesRead << " bytes from " << aFileURL);
return content.get();
}
else
{
SAL_WARN("vcl.opengl", "Could not open " << aFileURL);
}
return OString();
}
OString& getShaderSource(const OUString& rFilename)
{
static std::unordered_map<OUString, OString> aMap;
if (aMap.find(rFilename) == aMap.end())
{
aMap[rFilename] = loadShader(rFilename);
}
return aMap[rFilename];
}
}
namespace {
int LogCompilerError(GLuint nId, const OUString &rDetail,
const OUString &rName, bool bShaderNotProgram)
{
OpenGLZone aZone;
int InfoLogLength = 0;
CHECK_GL_ERROR();
if (bShaderNotProgram)
glGetShaderiv (nId, GL_INFO_LOG_LENGTH, &InfoLogLength);
else
glGetProgramiv(nId, GL_INFO_LOG_LENGTH, &InfoLogLength);
CHECK_GL_ERROR();
if ( InfoLogLength > 0 )
{
std::vector<char> ErrorMessage(InfoLogLength+1);
if (bShaderNotProgram)
glGetShaderInfoLog (nId, InfoLogLength, nullptr, ErrorMessage.data());
else
glGetProgramInfoLog(nId, InfoLogLength, nullptr, ErrorMessage.data());
CHECK_GL_ERROR();
ErrorMessage.push_back('\0');
SAL_WARN("vcl.opengl", rDetail << " shader " << nId << " compile for " << rName << " failed : " << ErrorMessage.data());
}
else
SAL_WARN("vcl.opengl", rDetail << " shader: " << rName << " compile " << nId << " failed without error log");
#ifdef DBG_UTIL
abort();
#endif
return 0;
}
}
static void addPreamble(OString& rShaderSource, const OString& rPreamble)
{
if (rPreamble.isEmpty())
return;
int nVersionStrStartPos = rShaderSource.indexOf("#version");
if (nVersionStrStartPos == -1)
{
rShaderSource = rPreamble + "\n" + rShaderSource;
}
else
{
int nVersionStrEndPos = rShaderSource.indexOf('\n', nVersionStrStartPos);
SAL_WARN_IF(nVersionStrEndPos == -1, "vcl.opengl", "syntax error in shader");
if (nVersionStrEndPos == -1)
nVersionStrEndPos = nVersionStrStartPos + 8;
OString aVersionLine = rShaderSource.copy(0, nVersionStrEndPos);
OString aShaderBody = rShaderSource.copy(nVersionStrEndPos + 1);
rShaderSource = aVersionLine + "\n" + rPreamble + "\n" + aShaderBody;
}
}
namespace
{
static const sal_uInt32 GLenumSize = sizeof(GLenum);
OString getHexString(const sal_uInt8* pData, sal_uInt32 nLength)
{
static const char* const pHexData = "0123456789ABCDEF";
bool bIsZero = true;
OStringBuffer aHexStr;
for(size_t i = 0; i < nLength; ++i)
{
sal_uInt8 val = pData[i];
if( val != 0 )
bIsZero = false;
aHexStr.append( pHexData[ val & 0xf ] );
aHexStr.append( pHexData[ val >> 4 ] );
}
if( bIsZero )
return OString();
else
return aHexStr.makeStringAndClear();
}
OString generateMD5(const void* pData, size_t length)
{
sal_uInt8 pBuffer[RTL_DIGEST_LENGTH_MD5];
rtlDigestError aError = rtl_digest_MD5(pData, length,
pBuffer, RTL_DIGEST_LENGTH_MD5);
SAL_WARN_IF(aError != rtl_Digest_E_None, "vcl.opengl", "md5 generation failed");
return getHexString(pBuffer, RTL_DIGEST_LENGTH_MD5);
}
OString getDeviceInfoString()
{
#if defined( SAL_UNX ) && !defined( MACOSX ) && !defined( IOS )&& !defined( ANDROID ) && !defined( HAIKU )
const X11OpenGLDeviceInfo aInfo;
return aInfo.GetOS() +
aInfo.GetOSRelease() +
aInfo.GetRenderer() +
aInfo.GetVendor() +
aInfo.GetVersion();
#elif defined( _WIN32 )
const WinOpenGLDeviceInfo aInfo;
return OUStringToOString(aInfo.GetAdapterVendorID(), RTL_TEXTENCODING_UTF8) +
OUStringToOString(aInfo.GetAdapterDeviceID(), RTL_TEXTENCODING_UTF8) +
OUStringToOString(aInfo.GetDriverVersion(), RTL_TEXTENCODING_UTF8) +
OString::number(DriverBlocklist::GetWindowsVersion());
#else
return rtl::OStringView(reinterpret_cast<const char*>(glGetString(GL_VENDOR))) +
reinterpret_cast<const char*>(glGetString(GL_RENDERER)) +
reinterpret_cast<const char*>(glGetString(GL_VERSION));
#endif
}
OString getStringDigest( const OUString& rVertexShaderName,
const OUString& rFragmentShaderName,
const OString& rPreamble )
{
// read shaders source
OString aVertexShaderSource = getShaderSource( rVertexShaderName );
OString aFragmentShaderSource = getShaderSource( rFragmentShaderName );
// get info about the graphic device
static const OString aDeviceInfo (getDeviceInfoString());
OString aMessage = rPreamble +
aVertexShaderSource +
aFragmentShaderSource +
aDeviceInfo;
return generateMD5(aMessage.getStr(), aMessage.getLength());
}
OString getCacheFolder()
{
OUString url("${$BRAND_BASE_DIR/" LIBO_ETC_FOLDER "/" SAL_CONFIGFILE("bootstrap") ":UserInstallation}/cache/");<--- There is an unknown macro here somewhere. Configuration is required. If SAL_CONFIGFILE is a macro then please configure it.
rtl::Bootstrap::expandMacros(url);
osl::Directory::create(url);
return OUStringToOString(url, RTL_TEXTENCODING_UTF8);
}
bool writeProgramBinary( const OString& rBinaryFileName,
const std::vector<sal_uInt8>& rBinary )
{
osl::File aFile(OStringToOUString(rBinaryFileName, RTL_TEXTENCODING_UTF8));
osl::FileBase::RC eStatus = aFile.open(
osl_File_OpenFlag_Write | osl_File_OpenFlag_Create );
if( eStatus != osl::FileBase::E_None )
{
// when file already exists we do not have to save it:
// we can be sure that the binary to save is exactly equal
// to the already saved binary, since they have the same hash value
if( eStatus == osl::FileBase::E_EXIST )
{
SAL_INFO( "vcl.opengl",
"No binary program saved. A file with the same hash already exists: '" << rBinaryFileName << "'" );
return true;
}
return false;
}
sal_uInt64 nBytesWritten = 0;
aFile.write( rBinary.data(), rBinary.size(), nBytesWritten );
assert( rBinary.size() == nBytesWritten );
return true;
}
bool readProgramBinary( const OString& rBinaryFileName,
std::vector<sal_uInt8>& rBinary )
{
osl::File aFile( OStringToOUString( rBinaryFileName, RTL_TEXTENCODING_UTF8 ) );
if(aFile.open( osl_File_OpenFlag_Read ) == osl::FileBase::E_None)
{
sal_uInt64 nSize = 0;
aFile.getSize( nSize );
rBinary.resize( nSize );
sal_uInt64 nBytesRead = 0;
aFile.read( rBinary.data(), nSize, nBytesRead );
assert( nSize == nBytesRead );
VCL_GL_INFO("Loading file: '" << rBinaryFileName << "': success" );
return true;
}
else
{
VCL_GL_INFO("Loading file: '" << rBinaryFileName << "': FAIL");
}
return false;
}
OString createFileName( const OUString& rVertexShaderName,
const OUString& rFragmentShaderName,
const OUString& rGeometryShaderName,
const OString& rDigest )
{
OString aFileName = getCacheFolder() +
OUStringToOString( rVertexShaderName, RTL_TEXTENCODING_UTF8 ) + "-" +
OUStringToOString( rFragmentShaderName, RTL_TEXTENCODING_UTF8 ) + "-";
if (!rGeometryShaderName.isEmpty())
aFileName += OUStringToOString( rGeometryShaderName, RTL_TEXTENCODING_UTF8 ) + "-";
aFileName += rDigest + ".bin";
return aFileName;
}
GLint loadProgramBinary( GLuint nProgramID, const OString& rBinaryFileName )
{
GLint nResult = GL_FALSE;
GLenum nBinaryFormat;
std::vector<sal_uInt8> aBinary;
if( readProgramBinary( rBinaryFileName, aBinary ) && aBinary.size() > GLenumSize )
{
GLint nBinaryLength = aBinary.size() - GLenumSize;
// Extract binary format
sal_uInt8* pBF = reinterpret_cast<sal_uInt8*>(&nBinaryFormat);
for( size_t i = 0; i < GLenumSize; ++i )
{
pBF[i] = aBinary[nBinaryLength + i];
}
// Load the program
glProgramBinary( nProgramID, nBinaryFormat, aBinary.data(), nBinaryLength );
// Check the program
glGetProgramiv(nProgramID, GL_LINK_STATUS, &nResult);
}
return nResult;
}
void saveProgramBinary( GLint nProgramID, const OString& rBinaryFileName )
{
GLint nBinaryLength = 0;
GLenum nBinaryFormat = GL_NONE;
glGetProgramiv( nProgramID, GL_PROGRAM_BINARY_LENGTH, &nBinaryLength );
if( nBinaryLength <= 0 )
{
SAL_WARN( "vcl.opengl", "Binary size is zero" );
return;
}
std::vector<sal_uInt8> aBinary( nBinaryLength + GLenumSize );
glGetProgramBinary( nProgramID, nBinaryLength, nullptr, &nBinaryFormat, aBinary.data() );
const sal_uInt8* pBF = reinterpret_cast<const sal_uInt8*>(&nBinaryFormat);
aBinary.insert( aBinary.end(), pBF, pBF + GLenumSize );
SAL_INFO("vcl.opengl", "Program id: " << nProgramID );
SAL_INFO("vcl.opengl", "Binary length: " << nBinaryLength );
SAL_INFO("vcl.opengl", "Binary format: " << nBinaryFormat );
if( !writeProgramBinary( rBinaryFileName, aBinary ) )
SAL_WARN("vcl.opengl", "Writing binary file '" << rBinaryFileName << "': FAIL");
else
SAL_INFO("vcl.opengl", "Writing binary file '" << rBinaryFileName << "': success");
}
}
OString OpenGLHelper::GetDigest( const OUString& rVertexShaderName,
const OUString& rFragmentShaderName,
const OString& rPreamble )
{
return getStringDigest(rVertexShaderName, rFragmentShaderName, rPreamble);
}
GLint OpenGLHelper::LoadShaders(const OUString& rVertexShaderName,
const OUString& rFragmentShaderName,
const OUString& rGeometryShaderName,
const OString& preamble,
const OString& rDigest)
{
OpenGLZone aZone;
gbInShaderCompile = true;
bool bHasGeometryShader = !rGeometryShaderName.isEmpty();
// create the program object
GLint ProgramID = glCreateProgram();
// read shaders from file
OString aVertexShaderSource = getShaderSource(rVertexShaderName);
OString aFragmentShaderSource = getShaderSource(rFragmentShaderName);
OString aGeometryShaderSource;
if (bHasGeometryShader)
aGeometryShaderSource = getShaderSource(rGeometryShaderName);
GLint bBinaryResult = GL_FALSE;
if (epoxy_has_gl_extension("GL_ARB_get_program_binary") && !rDigest.isEmpty())
{
OString aFileName =
createFileName(rVertexShaderName, rFragmentShaderName, rGeometryShaderName, rDigest);
bBinaryResult = loadProgramBinary(ProgramID, aFileName);
CHECK_GL_ERROR();
}
if( bBinaryResult != GL_FALSE )
return ProgramID;
if (bHasGeometryShader)
VCL_GL_INFO("Load shader: vertex " << rVertexShaderName << " fragment " << rFragmentShaderName << " geometry " << rGeometryShaderName);
else
VCL_GL_INFO("Load shader: vertex " << rVertexShaderName << " fragment " << rFragmentShaderName);
// Create the shaders
GLuint VertexShaderID = glCreateShader(GL_VERTEX_SHADER);
GLuint FragmentShaderID = glCreateShader(GL_FRAGMENT_SHADER);
GLuint GeometryShaderID = 0;
if (bHasGeometryShader)
GeometryShaderID = glCreateShader(GL_GEOMETRY_SHADER);
GLint Result = GL_FALSE;
// Compile Vertex Shader
if( !preamble.isEmpty())
addPreamble( aVertexShaderSource, preamble );
char const * VertexSourcePointer = aVertexShaderSource.getStr();
glShaderSource(VertexShaderID, 1, &VertexSourcePointer , nullptr);
glCompileShader(VertexShaderID);
// Check Vertex Shader
glGetShaderiv(VertexShaderID, GL_COMPILE_STATUS, &Result);
if (!Result)
return LogCompilerError(VertexShaderID, "vertex",
rVertexShaderName, true);
// Compile Fragment Shader
if( !preamble.isEmpty())
addPreamble( aFragmentShaderSource, preamble );
char const * FragmentSourcePointer = aFragmentShaderSource.getStr();
glShaderSource(FragmentShaderID, 1, &FragmentSourcePointer , nullptr);
glCompileShader(FragmentShaderID);
// Check Fragment Shader
glGetShaderiv(FragmentShaderID, GL_COMPILE_STATUS, &Result);
if (!Result)
return LogCompilerError(FragmentShaderID, "fragment",
rFragmentShaderName, true);
if (bHasGeometryShader)
{
// Compile Geometry Shader
if( !preamble.isEmpty())
addPreamble( aGeometryShaderSource, preamble );
char const * GeometrySourcePointer = aGeometryShaderSource.getStr();
glShaderSource(GeometryShaderID, 1, &GeometrySourcePointer , nullptr);
glCompileShader(GeometryShaderID);
// Check Geometry Shader
glGetShaderiv(GeometryShaderID, GL_COMPILE_STATUS, &Result);
if (!Result)
return LogCompilerError(GeometryShaderID, "geometry",
rGeometryShaderName, true);
}
// Link the program
glAttachShader(ProgramID, VertexShaderID);
glAttachShader(ProgramID, FragmentShaderID);
if (bHasGeometryShader)
glAttachShader(ProgramID, GeometryShaderID);
if (epoxy_has_gl_extension("GL_ARB_get_program_binary") && !rDigest.isEmpty())
{
glProgramParameteri(ProgramID, GL_PROGRAM_BINARY_RETRIEVABLE_HINT, GL_TRUE);
glLinkProgram(ProgramID);
glGetProgramiv(ProgramID, GL_LINK_STATUS, &Result);
if (!Result)
{
SAL_WARN("vcl.opengl", "linking failed: " << Result );
return LogCompilerError(ProgramID, "program", "<both>", false);
}
OString aFileName =
createFileName(rVertexShaderName, rFragmentShaderName, rGeometryShaderName, rDigest);
saveProgramBinary(ProgramID, aFileName);
}
else
{
glLinkProgram(ProgramID);
}
glDeleteShader(VertexShaderID);
glDeleteShader(FragmentShaderID);
if (bHasGeometryShader)
glDeleteShader(GeometryShaderID);
// Check the program
glGetProgramiv(ProgramID, GL_LINK_STATUS, &Result);
if (!Result)
return LogCompilerError(ProgramID, "program", "<both>", false);
CHECK_GL_ERROR();
// Ensure we bump our counts before we leave the shader zone.
{ OpenGLZone aMakeProgress; }
gbInShaderCompile = false;
return ProgramID;
}
GLint OpenGLHelper::LoadShaders(const OUString& rVertexShaderName,
const OUString& rFragmentShaderName,
const OString& preamble,
const OString& rDigest)
{
return LoadShaders(rVertexShaderName, rFragmentShaderName, OUString(), preamble, rDigest);
}
GLint OpenGLHelper::LoadShaders(const OUString& rVertexShaderName,
const OUString& rFragmentShaderName,
const OUString& rGeometryShaderName)
{
return LoadShaders(rVertexShaderName, rFragmentShaderName, rGeometryShaderName, OString(), OString());
}
GLint OpenGLHelper::LoadShaders(const OUString& rVertexShaderName,
const OUString& rFragmentShaderName)
{
return LoadShaders(rVertexShaderName, rFragmentShaderName, OUString(), "", "");
}
void OpenGLHelper::renderToFile(long nWidth, long nHeight, const OUString& rFileName)
{
OpenGLZone aZone;
std::unique_ptr<sal_uInt8[]> pBuffer(new sal_uInt8[nWidth*nHeight*4]);
glReadPixels(0, 0, nWidth, nHeight, OptimalBufferFormat(), GL_UNSIGNED_BYTE, pBuffer.get());
BitmapEx aBitmap = ConvertBufferToBitmapEx(pBuffer.get(), nWidth, nHeight);
try {
vcl::PNGWriter aWriter( aBitmap );
SvFileStream sOutput( rFileName, StreamMode::WRITE );
aWriter.Write( sOutput );
sOutput.Close();
} catch (...) {
SAL_WARN("vcl.opengl", "Error writing png to " << rFileName);
}
CHECK_GL_ERROR();
}
GLenum OpenGLHelper::OptimalBufferFormat()
{
#ifdef _WIN32
return GL_BGRA; // OpenGLSalBitmap is internally ScanlineFormat::N24BitTcBgr
#else
return GL_RGBA; // OpenGLSalBitmap is internally ScanlineFormat::N24BitTcRgb
#endif
}
BitmapEx OpenGLHelper::ConvertBufferToBitmapEx(const sal_uInt8* const pBuffer, long nWidth, long nHeight)
{
assert(pBuffer);
Bitmap aBitmap( Size(nWidth, nHeight), 24 );
AlphaMask aAlpha( Size(nWidth, nHeight) );
{
BitmapScopedWriteAccess pWriteAccess( aBitmap );
AlphaScopedWriteAccess pAlphaWriteAccess( aAlpha );
#ifdef _WIN32
assert(pWriteAccess->GetScanlineFormat() == ScanlineFormat::N24BitTcBgr);
assert(pWriteAccess->IsTopDown());
assert(pAlphaWriteAccess->IsTopDown());
#else
assert(pWriteAccess->GetScanlineFormat() == ScanlineFormat::N24BitTcRgb);
assert(!pWriteAccess->IsTopDown());
assert(!pAlphaWriteAccess->IsTopDown());
#endif
assert(pAlphaWriteAccess->GetScanlineFormat() == ScanlineFormat::N8BitPal);
size_t nCurPos = 0;
for( long y = 0; y < nHeight; ++y)
{
#ifdef _WIN32
Scanline pScan = pWriteAccess->GetScanline(y);
Scanline pAlphaScan = pAlphaWriteAccess->GetScanline(y);
#else
Scanline pScan = pWriteAccess->GetScanline(nHeight-1-y);
Scanline pAlphaScan = pAlphaWriteAccess->GetScanline(nHeight-1-y);
#endif
for( long x = 0; x < nWidth; ++x )
{
*pScan++ = pBuffer[nCurPos];
*pScan++ = pBuffer[nCurPos+1];
*pScan++ = pBuffer[nCurPos+2];
nCurPos += 3;
*pAlphaScan++ = static_cast<sal_uInt8>( 255 - pBuffer[nCurPos++] );
}
}
}
return BitmapEx(aBitmap, aAlpha);
}
const char* OpenGLHelper::GLErrorString(GLenum errorCode)
{
static const struct {
GLenum code;
const char *string;
} errors[]=
{
/* GL */
{GL_NO_ERROR, "no error"},
{GL_INVALID_ENUM, "invalid enumerant"},
{GL_INVALID_VALUE, "invalid value"},
{GL_INVALID_OPERATION, "invalid operation"},
{GL_STACK_OVERFLOW, "stack overflow"},
{GL_STACK_UNDERFLOW, "stack underflow"},
{GL_OUT_OF_MEMORY, "out of memory"},
{GL_INVALID_FRAMEBUFFER_OPERATION, "invalid framebuffer operation"},
{0, nullptr }
};
int i;
for (i=0; errors[i].string; i++)
{
if (errors[i].code == errorCode)
{
return errors[i].string;
}
}
return nullptr;
}
std::ostream& operator<<(std::ostream& rStrm, const glm::vec4& rPos)
{
rStrm << "( " << rPos[0] << ", " << rPos[1] << ", " << rPos[2] << ", " << rPos[3] << ")";
return rStrm;
}
std::ostream& operator<<(std::ostream& rStrm, const glm::vec3& rPos)
{
rStrm << "( " << rPos[0] << ", " << rPos[1] << ", " << rPos[2] << ")";
return rStrm;
}
std::ostream& operator<<(std::ostream& rStrm, const glm::mat4& rMatrix)
{
for(int i = 0; i < 4; ++i)
{
rStrm << "\n( ";
for(int j = 0; j < 4; ++j)
{
rStrm << rMatrix[j][i];
rStrm << " ";
}
rStrm << ")\n";
}
return rStrm;
}
void OpenGLHelper::createFramebuffer(long nWidth, long nHeight, GLuint& nFramebufferId,
GLuint& nRenderbufferDepthId, GLuint& nRenderbufferColorId)
{
OpenGLZone aZone;
// create a renderbuffer for depth attachment
glGenRenderbuffers(1, &nRenderbufferDepthId);
glBindRenderbuffer(GL_RENDERBUFFER, nRenderbufferDepthId);
glRenderbufferStorage(GL_RENDERBUFFER, GL_DEPTH_COMPONENT, nWidth, nHeight);
glBindRenderbuffer(GL_RENDERBUFFER, 0);
glGenTextures(1, &nRenderbufferColorId);
glBindTexture(GL_TEXTURE_2D, nRenderbufferColorId);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA8, nWidth, nHeight, 0,
GL_RGBA, GL_UNSIGNED_BYTE, nullptr);
glBindTexture(GL_TEXTURE_2D, 0);
glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0,
GL_TEXTURE_2D, nRenderbufferColorId, 0);
// create a framebuffer object and attach renderbuffer
glGenFramebuffers(1, &nFramebufferId);
glCheckFramebufferStatus(GL_FRAMEBUFFER);
glBindFramebuffer(GL_FRAMEBUFFER, nFramebufferId);
// attach a renderbuffer to FBO color attachment point
glBindRenderbuffer(GL_RENDERBUFFER, nRenderbufferColorId);
glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_RENDERBUFFER, nRenderbufferColorId);
glCheckFramebufferStatus(GL_FRAMEBUFFER);
// attach a renderbuffer to depth attachment point
glBindRenderbuffer(GL_RENDERBUFFER, nRenderbufferDepthId);
glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, GL_RENDERBUFFER, nRenderbufferDepthId);
GLenum status = glCheckFramebufferStatus(GL_FRAMEBUFFER);
if (status != GL_FRAMEBUFFER_COMPLETE)
{
SAL_WARN("vcl.opengl", "invalid framebuffer status");
}
glBindRenderbuffer(GL_RENDERBUFFER, 0);
glBindFramebuffer(GL_FRAMEBUFFER, 0);
CHECK_GL_ERROR();
}
float OpenGLHelper::getGLVersion()
{
float fVersion = 1.0;
const GLubyte* aVersion = glGetString( GL_VERSION );
if( aVersion && aVersion[0] )
{
fVersion = aVersion[0] - '0';
if( aVersion[1] == '.' && aVersion[2] )
{
fVersion += (aVersion[2] - '0')/10.0;
}
}
CHECK_GL_ERROR();
return fVersion;
}
void OpenGLHelper::checkGLError(const char* pFile, size_t nLine)
{
OpenGLZone aZone;
int nErrors = 0;
for (;;)
{
GLenum glErr = glGetError();
if (glErr == GL_NO_ERROR)
{
break;
}
const char* sError = OpenGLHelper::GLErrorString(glErr);
if (!sError)
sError = "no message available";
SAL_WARN("vcl.opengl", "GL Error " << std::hex << std::setw(4) << std::setfill('0') << glErr << std::dec << std::setw(0) << std::setfill(' ') << " (" << sError << ") in file " << pFile << " at line " << nLine);
// tdf#93798 - apitrace appears to sometimes cause issues with an infinite loop here.
if (++nErrors >= 8)
{
SAL_WARN("vcl.opengl", "Breaking potentially recursive glGetError loop");
break;
}
}
}
bool OpenGLHelper::isDeviceBlacklisted()
{
static bool bSet = false;
static bool bBlacklisted = true; // assume the worst
if (!bSet)
{
OpenGLZone aZone;
#if defined UNX && !defined MACOSX && !defined IOS && !defined ANDROID && !defined HAIKU
X11OpenGLDeviceInfo aInfo;
bBlacklisted = aInfo.isDeviceBlocked();
SAL_INFO("vcl.opengl", "blacklisted: " << bBlacklisted);
#elif defined( _WIN32 )
WinOpenGLDeviceInfo aInfo;
bBlacklisted = aInfo.isDeviceBlocked();
if (DriverBlocklist::GetWindowsVersion() == 0x00060001 && /* Windows 7 */
(aInfo.GetAdapterVendorID() == "0x1002" || aInfo.GetAdapterVendorID() == "0x1022")) /* AMD */
{
SAL_INFO("vcl.opengl", "Relaxing watchdog timings.");
OpenGLZone::relaxWatchdogTimings();
}
#else
bBlacklisted = false;
#endif
bSet = true;
}
return bBlacklisted;
}
bool OpenGLHelper::supportsVCLOpenGL()
{
static bool bDisableGL = !!getenv("SAL_DISABLEGL");
bool bBlacklisted = isDeviceBlacklisted();
return !bDisableGL && !bBlacklisted;
}
namespace
{
enum class CrashWatchdogTimingMode
{
NORMAL,
SHADER_COMPILE
};
class CrashWatchdogTimings
{
private:
std::vector<CrashWatchdogTimingsValues> maTimingValues;
std::atomic<bool> mbRelaxed;
public:
CrashWatchdogTimings();
void setRelax(bool bRelaxed)
{
mbRelaxed = bRelaxed;
}
CrashWatchdogTimingsValues const & getWatchdogTimingsValues(CrashWatchdogTimingMode eMode)
{
size_t index = (eMode == CrashWatchdogTimingMode::SHADER_COMPILE) ? 1 : 0;
index = mbRelaxed ? index + 2 : index;
return maTimingValues[index];
}
};
static CrashWatchdogTimings gWatchdogTimings;
CrashWatchdogTimings::CrashWatchdogTimings()
: maTimingValues{
{{6, 20} /* 1.5s, 5s */, {20, 120} /* 5s, 30s */,
{60, 240} /* 15s, 60s */, {60, 240} /* 15s, 60s */}
}
, mbRelaxed(false)
{
}
} // namespace
/**
* Called from a signal handler or watchdog thread if we get
* a crash or hang in some GL code.
*/
void OpenGLZone::hardDisable()
{
// protect ourselves from double calling etc.
static bool bDisabled = false;
if (!bDisabled)
{
bDisabled = true;
// Disable the OpenGL support
std::shared_ptr<comphelper::ConfigurationChanges> xChanges(
comphelper::ConfigurationChanges::create());
officecfg::Office::Common::VCL::UseOpenGL::set(false, xChanges);
xChanges->commit();
// Force synchronous config write
css::uno::Reference< css::util::XFlushable >(
css::configuration::theDefaultProvider::get(
comphelper::getProcessComponentContext()),
css::uno::UNO_QUERY_THROW)->flush();
}
}
void OpenGLZone::relaxWatchdogTimings()
{
gWatchdogTimings.setRelax(true);
}
void OpenGLZone::checkDebug( int nUnchanged, const CrashWatchdogTimingsValues& aTimingValues )
{
SAL_INFO("vcl.watchdog", "GL watchdog - unchanged "
<< nUnchanged << " enter count " << enterCount() << " type "
<< (gbInShaderCompile ? "in shader" : "normal gl")
<< " breakpoints mid: " << aTimingValues.mnDisableEntries
<< " max " << aTimingValues.mnAbortAfter);
}
const CrashWatchdogTimingsValues& OpenGLZone::getCrashWatchdogTimingsValues()
{
// The shader compiler can take a long time, first time.
CrashWatchdogTimingMode eMode = gbInShaderCompile ? CrashWatchdogTimingMode::SHADER_COMPILE : CrashWatchdogTimingMode::NORMAL;
return gWatchdogTimings.getWatchdogTimingsValues(eMode);
}
OpenGLVCLContextZone::OpenGLVCLContextZone()
{
OpenGLContext::makeVCLCurrent();
}
namespace
{
bool bTempOpenGLDisabled = false;
}
PreDefaultWinNoOpenGLZone::PreDefaultWinNoOpenGLZone()
{
bTempOpenGLDisabled = true;
}
PreDefaultWinNoOpenGLZone::~PreDefaultWinNoOpenGLZone()
{
bTempOpenGLDisabled = false;
}
static void reapGlxTest()
{
// Reap the glxtest child, or it'll stay around as a zombie,
// as X11OpenGLDeviceInfo::GetData() will not get called.
static bool bTestReaped = false;
if(!bTestReaped)
{
reap_glxtest_process();
bTestReaped = true;
}
}
bool OpenGLHelper::isVCLOpenGLEnabled()
{
// Skia always takes precedence if enabled
if( SkiaHelper::isVCLSkiaEnabled())
{
reapGlxTest();
return false;
}
/**
* The !bSet part should only be called once! Changing the results in the same
* run will mix OpenGL and normal rendering.
*/
static bool bSet = false;
static bool bEnable = false;
static bool bForceOpenGL = false;
// No hardware rendering, so no OpenGL
if (Application::IsBitmapRendering())
return false;
//tdf#106155, disable GL while loading certain bitmaps needed for the initial toplevel windows
//under raw X (kde) vclplug
if (bTempOpenGLDisabled)
return false;
if (bSet)
{
return bForceOpenGL || bEnable;
}
/*
* There are a number of cases that these environment variables cover:
* * SAL_FORCEGL forces OpenGL independent of any other option
* * SAL_DISABLEGL or a blacklisted driver avoid the use of OpenGL if SAL_FORCEGL is not set
*/
bSet = true;
bForceOpenGL = !!getenv("SAL_FORCEGL") || officecfg::Office::Common::VCL::ForceOpenGL::get();
bool bRet = false;
bool bSupportsVCLOpenGL = supportsVCLOpenGL();
// always call supportsVCLOpenGL to de-zombie the glxtest child process on X11
if (bForceOpenGL)
{
bRet = true;
}
else if (bSupportsVCLOpenGL)
{
static bool bEnableGLEnv = !!getenv("SAL_ENABLEGL");
bEnable = bEnableGLEnv;
if (officecfg::Office::Common::VCL::UseOpenGL::get())
bEnable = true;
// Force disable in safe mode
if (Application::IsSafeModeEnabled())
bEnable = false;
bRet = bEnable;
}
if (bRet)
WatchdogThread::start();
else
reapGlxTest();
CrashReporter::addKeyValue("UseOpenGL", OUString::boolean(bRet), CrashReporter::Write);
return bRet;
}
bool OpenGLWrapper::isVCLOpenGLEnabled()
{
return OpenGLHelper::isVCLOpenGLEnabled();
}
void OpenGLHelper::debugMsgStream(std::ostringstream const &pStream)
{
debugMsgPrint(
0, "%" SAL_PRIxUINT32 ": %s", osl_getThreadIdentifier(nullptr), pStream.str().c_str());
}
void OpenGLHelper::debugMsgStreamWarn(std::ostringstream const &pStream)
{
debugMsgPrint(
1, "%" SAL_PRIxUINT32 ": %s", osl_getThreadIdentifier(nullptr), pStream.str().c_str());
}
void OpenGLHelper::debugMsgPrint(const int nType, const char *pFormat, ...)
{
va_list aArgs;
va_start (aArgs, pFormat);
char pStr[1044];
#ifdef _WIN32
#define vsnprintf _vsnprintf
#endif
vsnprintf(pStr, sizeof(pStr), pFormat, aArgs);
pStr[sizeof(pStr)-20] = '\0';
bool bHasContext = OpenGLContext::hasCurrent();
if (!bHasContext)
strcat(pStr, " (no GL context)");
if (nType == 0)
{
SAL_INFO("vcl.opengl", pStr);
}
else if (nType == 1)
{
SAL_WARN("vcl.opengl", pStr);
}
if (bHasContext)
{
OpenGLZone aZone;
if (epoxy_has_gl_extension("GL_KHR_debug"))
glDebugMessageInsert(GL_DEBUG_SOURCE_APPLICATION,
GL_DEBUG_TYPE_OTHER,
1, // one[sic] id is as good as another ?
// GL_DEBUG_SEVERITY_NOTIFICATION for >= GL4.3 ?
GL_DEBUG_SEVERITY_LOW,
strlen(pStr), pStr);
else if (epoxy_has_gl_extension("GL_AMD_debug_output"))
glDebugMessageInsertAMD(GL_DEBUG_CATEGORY_APPLICATION_AMD,
GL_DEBUG_SEVERITY_LOW_AMD,
1, // one[sic] id is as good as another ?
strlen(pStr), pStr);
}
va_end (aArgs);
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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