// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include "base/command_line.h" #include "base/logging.h" #include "base/threading/thread_restrictions.h" #include "build/build_config.h" #include "ui/gl/gl_bindings.h" #include "ui/gl/gl_context_stub_with_extensions.h" #include "ui/gl/gl_egl_api_implementation.h" #include "ui/gl/gl_gl_api_implementation.h" #include "ui/gl/gl_glx_api_implementation.h" #include "ui/gl/gl_implementation.h" #include "ui/gl/gl_implementation_osmesa.h" #include "ui/gl/gl_osmesa_api_implementation.h" #include "ui/gl/gl_switches.h" namespace gfx { namespace { // TODO(piman): it should be Desktop GL marshalling from double to float. Today // on native GLES, we do float->double->float. void GL_BINDING_CALL MarshalClearDepthToClearDepthf(GLclampd depth) { glClearDepthf(static_cast(depth)); } void GL_BINDING_CALL MarshalDepthRangeToDepthRangef(GLclampd z_near, GLclampd z_far) { glDepthRangef(static_cast(z_near), static_cast(z_far)); } #if defined(OS_OPENBSD) const char kGLLibraryName[] = "libGL.so"; #else const char kGLLibraryName[] = "libGL.so.1"; #endif const char kGLESv2LibraryName[] = "libGLESv2.so.2"; const char kEGLLibraryName[] = "libEGL.so.1"; } // namespace void GetAllowedGLImplementations(std::vector* impls) { impls->push_back(kGLImplementationDesktopGL); impls->push_back(kGLImplementationEGLGLES2); impls->push_back(kGLImplementationOSMesaGL); } bool InitializeStaticGLBindings(GLImplementation implementation) { // Prevent reinitialization with a different implementation. Once the gpu // unit tests have initialized with kGLImplementationMock, we don't want to // later switch to another GL implementation. DCHECK_EQ(kGLImplementationNone, GetGLImplementation()); // Allow the main thread or another to initialize these bindings // after instituting restrictions on I/O. Going forward they will // likely be used in the browser process on most platforms. The // one-time initialization cost is small, between 2 and 5 ms. base::ThreadRestrictions::ScopedAllowIO allow_io; switch (implementation) { case kGLImplementationOSMesaGL: return InitializeStaticGLBindingsOSMesaGL(); case kGLImplementationDesktopGL: { base::NativeLibrary library = NULL; const base::CommandLine* command_line = base::CommandLine::ForCurrentProcess(); if (command_line->HasSwitch(switches::kTestGLLib)) library = LoadLibraryAndPrintError( command_line->GetSwitchValueASCII(switches::kTestGLLib).c_str()); if (!library) { library = LoadLibraryAndPrintError(kGLLibraryName); } if (!library) return false; GLGetProcAddressProc get_proc_address = reinterpret_cast( base::GetFunctionPointerFromNativeLibrary( library, "glXGetProcAddress")); if (!get_proc_address) { LOG(ERROR) << "glxGetProcAddress not found."; base::UnloadNativeLibrary(library); return false; } SetGLGetProcAddressProc(get_proc_address); AddGLNativeLibrary(library); SetGLImplementation(kGLImplementationDesktopGL); InitializeStaticGLBindingsGL(); InitializeStaticGLBindingsGLX(); break; } case kGLImplementationEGLGLES2: { base::NativeLibrary gles_library = LoadLibraryAndPrintError(kGLESv2LibraryName); if (!gles_library) return false; base::NativeLibrary egl_library = LoadLibraryAndPrintError(kEGLLibraryName); if (!egl_library) { base::UnloadNativeLibrary(gles_library); return false; } GLGetProcAddressProc get_proc_address = reinterpret_cast( base::GetFunctionPointerFromNativeLibrary( egl_library, "eglGetProcAddress")); if (!get_proc_address) { LOG(ERROR) << "eglGetProcAddress not found."; base::UnloadNativeLibrary(egl_library); base::UnloadNativeLibrary(gles_library); return false; } SetGLGetProcAddressProc(get_proc_address); AddGLNativeLibrary(egl_library); AddGLNativeLibrary(gles_library); SetGLImplementation(kGLImplementationEGLGLES2); InitializeStaticGLBindingsGL(); InitializeStaticGLBindingsEGL(); // These two functions take single precision float rather than double // precision float parameters in GLES. ::gfx::g_driver_gl.fn.glClearDepthFn = MarshalClearDepthToClearDepthf; ::gfx::g_driver_gl.fn.glDepthRangeFn = MarshalDepthRangeToDepthRangef; break; } case kGLImplementationMockGL: { SetGLImplementation(kGLImplementationMockGL); InitializeStaticGLBindingsGL(); break; } default: return false; } return true; } bool InitializeDynamicGLBindings(GLImplementation implementation, GLContext* context) { switch (implementation) { case kGLImplementationOSMesaGL: case kGLImplementationDesktopGL: case kGLImplementationEGLGLES2: InitializeDynamicGLBindingsGL(context); break; case kGLImplementationMockGL: if (!context) { scoped_refptr mock_context( new GLContextStubWithExtensions()); mock_context->SetGLVersionString("3.0"); InitializeDynamicGLBindingsGL(mock_context.get()); } else InitializeDynamicGLBindingsGL(context); break; default: return false; } return true; } void InitializeDebugGLBindings() { InitializeDebugGLBindingsEGL(); InitializeDebugGLBindingsGL(); InitializeDebugGLBindingsGLX(); InitializeDebugGLBindingsOSMESA(); } void ClearGLBindings() { ClearGLBindingsEGL(); ClearGLBindingsGL(); ClearGLBindingsGLX(); ClearGLBindingsOSMESA(); SetGLImplementation(kGLImplementationNone); UnloadGLNativeLibraries(); } bool GetGLWindowSystemBindingInfo(GLWindowSystemBindingInfo* info) { switch (GetGLImplementation()) { case kGLImplementationDesktopGL: return GetGLWindowSystemBindingInfoGLX(info); case kGLImplementationEGLGLES2: return GetGLWindowSystemBindingInfoEGL(info); default: return false; } return false; } } // namespace gfx