/* * Copyright (C) 2011 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "GLESv1Decoder.h" #include "aemu/base/synchronization/Lock.h" #include "OpenGLESDispatch/GLESv1Dispatch.h" #include #include #include #include #include #include #include using android::base::AutoLock; using android::base::StaticLock; namespace gfxstream { namespace gl { static inline void* SafePointerFromUInt(GLuint value) { return (void*)(uintptr_t)value; } int gles1_decoder_extended_context::initDispatch( void *(*getProc)(const char *name, void *userData), void *userData) { gles1_server_context_t::initDispatchByName(getProc, userData); // The following could be "not-implemented" in // -gpu swiftshader and -gpu angle. // But we should always have them in // -gpu host and -gpu [swiftshader|angle]_indirect. glColorPointerWithDataSize = (glColorPointerWithDataSize_server_proc_t) getProc("glColorPointerWithDataSize", userData); glNormalPointerWithDataSize = (glNormalPointerWithDataSize_server_proc_t) getProc("glNormalPointerWithDataSize", userData); glTexCoordPointerWithDataSize = (glTexCoordPointerWithDataSize_server_proc_t) getProc("glTexCoordPointerWithDataSize", userData); glVertexPointerWithDataSize = (glVertexPointerWithDataSize_server_proc_t) getProc("glVertexPointerWithDataSize", userData); return 0; } static StaticLock sLock; static GLESv1Decoder::get_proc_func_t sGetProcFunc; static void* sGetProcFuncData; namespace { struct ContextTemplateLoader { ContextTemplateLoader() { context.initDispatch(sGetProcFunc, sGetProcFuncData); } gles1_decoder_extended_context context; }; } // namespace static ContextTemplateLoader* sContextTemplate() { static ContextTemplateLoader* t = new ContextTemplateLoader; return t; } GLESv1Decoder::GLESv1Decoder() { m_contextData = NULL; m_glesDso = NULL; } GLESv1Decoder::~GLESv1Decoder() { } int GLESv1Decoder::initGL(get_proc_func_t getProcFunc, void *getProcFuncData) { AutoLock lock(sLock); sGetProcFunc = getProcFunc; sGetProcFuncData = getProcFuncData; static_cast(*this) = sContextTemplate()->context; glGetCompressedTextureFormats = s_glGetCompressedTextureFormats; glVertexPointerOffset = s_glVertexPointerOffset; glColorPointerOffset = s_glColorPointerOffset; glNormalPointerOffset = s_glNormalPointerOffset; glTexCoordPointerOffset = s_glTexCoordPointerOffset; glPointSizePointerOffset = s_glPointSizePointerOffset; glWeightPointerOffset = s_glWeightPointerOffset; glMatrixIndexPointerOffset = s_glMatrixIndexPointerOffset; glVertexPointerData = s_glVertexPointerData; glColorPointerData = s_glColorPointerData; glNormalPointerData = s_glNormalPointerData; glTexCoordPointerData = s_glTexCoordPointerData; glPointSizePointerData = s_glPointSizePointerData; glWeightPointerData = s_glWeightPointerData; glMatrixIndexPointerData = s_glMatrixIndexPointerData; glDrawElementsOffset = s_glDrawElementsOffset; glDrawElementsData = s_glDrawElementsData; glFinishRoundTrip = s_glFinishRoundTrip; glGenBuffers_dec = s_glGenBuffers; glGenTextures_dec = s_glGenTextures; glGenFramebuffersOES_dec = s_glGenFramebuffersOES; glGenRenderbuffersOES_dec = s_glGenRenderbuffersOES; glGenVertexArraysOES_dec = s_glGenVertexArraysOES; glDeleteBuffers_dec = s_glDeleteBuffers; glDeleteTextures_dec = s_glDeleteTextures; glDeleteRenderbuffersOES_dec = s_glDeleteRenderbuffersOES; glDeleteFramebuffersOES_dec = s_glDeleteFramebuffersOES; glDeleteVertexArraysOES_dec = s_glDeleteVertexArraysOES; return 0; } int GLESv1Decoder::s_glFinishRoundTrip(void *self) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glFinish(); return 0; } void GLESv1Decoder::s_glVertexPointerOffset(void *self, GLint size, GLenum type, GLsizei stride, GLuint offset) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glVertexPointer(size, type, stride, SafePointerFromUInt(offset)); } void GLESv1Decoder::s_glColorPointerOffset(void *self, GLint size, GLenum type, GLsizei stride, GLuint offset) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glColorPointer(size, type, stride, SafePointerFromUInt(offset)); } void GLESv1Decoder::s_glTexCoordPointerOffset(void *self, GLint size, GLenum type, GLsizei stride, GLuint offset) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glTexCoordPointer(size, type, stride, SafePointerFromUInt(offset)); } void GLESv1Decoder::s_glNormalPointerOffset(void *self, GLenum type, GLsizei stride, GLuint offset) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glNormalPointer(type, stride, SafePointerFromUInt(offset)); } void GLESv1Decoder::s_glPointSizePointerOffset(void *self, GLenum type, GLsizei stride, GLuint offset) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glPointSizePointerOES(type, stride, SafePointerFromUInt(offset)); } void GLESv1Decoder::s_glWeightPointerOffset(void * self, GLint size, GLenum type, GLsizei stride, GLuint offset) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glWeightPointerOES(size, type, stride, SafePointerFromUInt(offset)); } void GLESv1Decoder::s_glMatrixIndexPointerOffset(void * self, GLint size, GLenum type, GLsizei stride, GLuint offset) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glMatrixIndexPointerOES(size, type, stride, SafePointerFromUInt(offset)); } #define STORE_POINTER_DATA_OR_ABORT(location) \ if (ctx->m_contextData != NULL) { \ ctx->m_contextData->storePointerData((location), data, datalen); \ } else { \ return; \ } void GLESv1Decoder::s_glVertexPointerData(void *self, GLint size, GLenum type, GLsizei stride, void *data, GLuint datalen) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; STORE_POINTER_DATA_OR_ABORT(GLDecoderContextData::VERTEX_LOCATION); if ((void*)ctx->glVertexPointerWithDataSize != gles1_unimplemented) { ctx->glVertexPointerWithDataSize(size, type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::VERTEX_LOCATION), datalen); } else { assert(0); ctx->glVertexPointer(size, type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::VERTEX_LOCATION)); } } void GLESv1Decoder::s_glColorPointerData(void *self, GLint size, GLenum type, GLsizei stride, void *data, GLuint datalen) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; STORE_POINTER_DATA_OR_ABORT(GLDecoderContextData::COLOR_LOCATION); if ((void*)ctx->glColorPointerWithDataSize != gles1_unimplemented) { ctx->glColorPointerWithDataSize(size, type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::COLOR_LOCATION), datalen); } else { assert(0); ctx->glColorPointer(size, type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::COLOR_LOCATION)); } } void GLESv1Decoder::s_glTexCoordPointerData(void *self, GLint unit, GLint size, GLenum type, GLsizei stride, void *data, GLuint datalen) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; STORE_POINTER_DATA_OR_ABORT((GLDecoderContextData::PointerDataLocation) (GLDecoderContextData::TEXCOORD0_LOCATION + unit)); if ((void*)ctx->glTexCoordPointerWithDataSize != gles1_unimplemented) { ctx->glTexCoordPointerWithDataSize(size, type, 0, ctx->m_contextData->pointerData((GLDecoderContextData::PointerDataLocation) (GLDecoderContextData::TEXCOORD0_LOCATION + unit)), datalen); } else { assert(0); ctx->glTexCoordPointer(size, type, 0, ctx->m_contextData->pointerData((GLDecoderContextData::PointerDataLocation) (GLDecoderContextData::TEXCOORD0_LOCATION + unit))); } } void GLESv1Decoder::s_glNormalPointerData(void *self, GLenum type, GLsizei stride, void *data, GLuint datalen) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; STORE_POINTER_DATA_OR_ABORT(GLDecoderContextData::NORMAL_LOCATION); if ((void*)ctx->glNormalPointerWithDataSize != gles1_unimplemented) { ctx->glNormalPointerWithDataSize(type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::NORMAL_LOCATION), datalen); } else { assert(0); ctx->glNormalPointer(type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::NORMAL_LOCATION)); } } void GLESv1Decoder::s_glPointSizePointerData(void *self, GLenum type, GLsizei stride, void *data, GLuint datalen) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; STORE_POINTER_DATA_OR_ABORT(GLDecoderContextData::POINTSIZE_LOCATION); ctx->glPointSizePointerOES(type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::POINTSIZE_LOCATION)); } void GLESv1Decoder::s_glWeightPointerData(void * self, GLint size, GLenum type, GLsizei stride, void * data, GLuint datalen) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; STORE_POINTER_DATA_OR_ABORT(GLDecoderContextData::WEIGHT_LOCATION); ctx->glWeightPointerOES(size, type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::WEIGHT_LOCATION)); } void GLESv1Decoder::s_glMatrixIndexPointerData(void * self, GLint size, GLenum type, GLsizei stride, void * data, GLuint datalen) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; STORE_POINTER_DATA_OR_ABORT(GLDecoderContextData::MATRIXINDEX_LOCATION); ctx->glMatrixIndexPointerOES(size, type, 0, ctx->m_contextData->pointerData(GLDecoderContextData::MATRIXINDEX_LOCATION)); } void GLESv1Decoder::s_glDrawElementsOffset(void *self, GLenum mode, GLsizei count, GLenum type, GLuint offset) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glDrawElements(mode, count, type, SafePointerFromUInt(offset)); } void GLESv1Decoder::s_glDrawElementsData(void *self, GLenum mode, GLsizei count, GLenum type, void * data, GLuint datalen) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glDrawElements(mode, count, type, data); } void GLESv1Decoder::s_glGetCompressedTextureFormats(void *self, GLint count, GLint *data) { GLESv1Decoder *ctx = (GLESv1Decoder *) self; ctx->glGetIntegerv(GL_COMPRESSED_TEXTURE_FORMATS, data); } void GLESv1Decoder::s_glGenBuffers(void* self, GLsizei n, GLuint* buffers) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glGenBuffers(n, buffers); // TODO: Snapshot names } void GLESv1Decoder::s_glGenTextures(void* self, GLsizei n, GLuint* textures) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glGenTextures(n, textures); // TODO: Snapshot names } void GLESv1Decoder::s_glGenRenderbuffersOES(void* self, GLsizei n, GLuint* renderbuffers) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glGenRenderbuffersOES(n, renderbuffers); // TODO: Snapshot names } void GLESv1Decoder::s_glGenFramebuffersOES(void* self, GLsizei n, GLuint* framebuffers) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glGenFramebuffersOES(n, framebuffers); // TODO: Snapshot names } void GLESv1Decoder::s_glGenVertexArraysOES(void* self, GLsizei n, GLuint* arrays) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glGenVertexArraysOES(n, arrays); // TODO: Snapshot names } void GLESv1Decoder::s_glDeleteBuffers(void* self, GLsizei n, const GLuint *buffers) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glDeleteBuffers(n, buffers); // TODO: Snapshot names } void GLESv1Decoder::s_glDeleteTextures(void* self, GLsizei n, const GLuint *textures) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glDeleteTextures(n, textures); // TODO: Snapshot names } void GLESv1Decoder::s_glDeleteRenderbuffersOES(void* self, GLsizei n, const GLuint* renderbuffers) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glDeleteRenderbuffersOES(n, renderbuffers); // TODO: Snapshot names } void GLESv1Decoder::s_glDeleteFramebuffersOES(void* self, GLsizei n, const GLuint* framebuffers) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glDeleteFramebuffersOES(n, framebuffers); // TODO: Snapshot names } void GLESv1Decoder::s_glDeleteVertexArraysOES(void* self, GLsizei n, const GLuint *arrays) { GLESv1Decoder *ctx = (GLESv1Decoder *)self; ctx->glDeleteVertexArraysOES(n, arrays); // TODO: Snapshot names } void *GLESv1Decoder::s_getProc(const char *name, void *userData) { GLESv1Decoder *ctx = (GLESv1Decoder *)userData; if (ctx == NULL || ctx->m_glesDso == NULL) { return NULL; } void *func = NULL; #ifdef USE_EGL_GETPROCADDRESS func = (void *) eglGetProcAddress(name); #endif if (func == NULL) { func = (void *)(ctx->m_glesDso->findSymbol(name)); } return func; } } // namespace gl } // namespace gfxstream