########################################################################## # # Copyright 2008-2010 VMware, Inc. # All Rights Reserved. # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. # ##########################################################################/ """GL tracing generator.""" import re import sys from trace import Tracer from dispatch import function_pointer_type, function_pointer_value import specs.stdapi as stdapi import specs.glapi as glapi import specs.glparams as glparams from specs.glxapi import glxapi class TypeGetter(stdapi.Visitor): '''Determine which glGet*v function that matches the specified type.''' def __init__(self, prefix = 'glGet', long_suffix = True, ext_suffix = ''): self.prefix = prefix self.long_suffix = long_suffix self.ext_suffix = ext_suffix def visitConst(self, const): return self.visit(const.type) def visitAlias(self, alias): if alias.expr == 'GLboolean': if self.long_suffix: suffix = 'Booleanv' arg_type = alias.expr else: suffix = 'iv' arg_type = 'GLint' elif alias.expr == 'GLdouble': if self.long_suffix: suffix = 'Doublev' arg_type = alias.expr else: suffix = 'dv' arg_type = alias.expr elif alias.expr == 'GLfloat': if self.long_suffix: suffix = 'Floatv' arg_type = alias.expr else: suffix = 'fv' arg_type = alias.expr elif alias.expr in ('GLint', 'GLuint', 'GLsizei'): if self.long_suffix: suffix = 'Integerv' arg_type = 'GLint' else: suffix = 'iv' arg_type = 'GLint' else: print alias.expr assert False function_name = self.prefix + suffix + self.ext_suffix return function_name, arg_type def visitEnum(self, enum): return self.visit(glapi.GLint) def visitBitmask(self, bitmask): return self.visit(glapi.GLint) def visitOpaque(self, pointer): return self.prefix + 'Pointerv' + self.ext_suffix, 'GLvoid *' class GlTracer(Tracer): arrays = [ ("Vertex", "VERTEX"), ("Normal", "NORMAL"), ("Color", "COLOR"), ("Index", "INDEX"), ("TexCoord", "TEXTURE_COORD"), ("EdgeFlag", "EDGE_FLAG"), ("FogCoord", "FOG_COORD"), ("SecondaryColor", "SECONDARY_COLOR"), ] arrays.reverse() # arrays available in ES1 arrays_es1 = ("Vertex", "Normal", "Color", "TexCoord") def header(self, api): Tracer.header(self, api) print '#include ' print print '#include "gltrace.hpp"' print '#include "gltrace_arrays.hpp"' print # Which glVertexAttrib* variant to use print 'enum vertex_attrib {' print ' VERTEX_ATTRIB,' print ' VERTEX_ATTRIB_NV,' print '};' print print 'static vertex_attrib' print '_get_vertex_attrib(gltrace::Context *_ctx)' print '{' print ' if (_ctx->user_arrays_nv) {' print ' GLboolean _vertex_program = GL_FALSE;' print ' _glGetBooleanv(GL_VERTEX_PROGRAM_ARB, &_vertex_program);' print ' if (_vertex_program) {' print ' if (_ctx->user_arrays_nv) {' print ' GLint _vertex_program_binding_nv = _glGetInteger(GL_VERTEX_PROGRAM_BINDING_NV);' print ' if (_vertex_program_binding_nv) {' print ' return VERTEX_ATTRIB_NV;' print ' }' print ' }' print ' }' print ' }' print ' return VERTEX_ATTRIB;' print '}' print # Whether we need user arrays print 'static inline bool _need_user_arrays(gltrace::Context *_ctx)' print '{' print ' if (!_ctx->user_arrays) {' print ' return false;' print ' }' print print ' glfeatures::Profile profile = _ctx->profile;' print ' bool es1 = profile.es() && profile.major == 1;' print for camelcase_name, uppercase_name in self.arrays: # in which profile is the array available? profile_check = 'profile.desktop()' if camelcase_name in self.arrays_es1: profile_check = '(' + profile_check + ' || es1)'; function_name = 'gl%sPointer' % camelcase_name enable_name = 'GL_%s_ARRAY' % uppercase_name binding_name = 'GL_%s_ARRAY_BUFFER_BINDING' % uppercase_name print ' // %s' % function_name print ' if (%s) {' % profile_check self.array_prolog(api, uppercase_name) print ' if (_glIsEnabled(%s) &&' % enable_name print ' _glGetInteger(%s) == 0) {' % binding_name self.array_cleanup(api, uppercase_name) print ' return true;' print ' }' self.array_epilog(api, uppercase_name) print ' }' print print ' // ES1 does not support generic vertex attributes' print ' if (es1)' print ' return false;' print print ' vertex_attrib _vertex_attrib = _get_vertex_attrib(_ctx);' print print ' // glVertexAttribPointer' print ' if (_vertex_attrib == VERTEX_ATTRIB) {' print ' GLint _max_vertex_attribs = _glGetInteger(GL_MAX_VERTEX_ATTRIBS);' print ' for (GLint index = 0; index < _max_vertex_attribs; ++index) {' print ' if (_glGetVertexAttribi(index, GL_VERTEX_ATTRIB_ARRAY_ENABLED) &&' print ' _glGetVertexAttribi(index, GL_VERTEX_ATTRIB_ARRAY_BUFFER_BINDING) == 0) {' print ' return true;' print ' }' print ' }' print ' }' print print ' // glVertexAttribPointerNV' print ' if (_vertex_attrib == VERTEX_ATTRIB_NV) {' print ' for (GLint index = 0; index < 16; ++index) {' print ' if (_glIsEnabled(GL_VERTEX_ATTRIB_ARRAY0_NV + index)) {' print ' return true;' print ' }' print ' }' print ' }' print print ' return false;' print '}' print print r'static void _trace_user_arrays(gltrace::Context *_ctx, GLuint count);' print print r'static void _fakeStringMarker(GLsizei len, const GLvoid * string);' print print r'static inline void' print r'_fakeStringMarker(const std::string &s) {' print r' _fakeStringMarker(s.length(), s.data());' print r'}' print print '// whether glLockArraysEXT() has ever been called' print 'static bool _checkLockArraysEXT = false;' print # Buffer mappings print '// whether glMapBufferRange(GL_MAP_WRITE_BIT) has ever been called' print 'static bool _checkBufferMapRange = false;' print print '// whether glBufferParameteriAPPLE(GL_BUFFER_FLUSHING_UNMAP_APPLE, GL_FALSE) has ever been called' print 'static bool _checkBufferFlushingUnmapAPPLE = false;' print # Generate a helper function to determine whether a parameter name # refers to a symbolic value or not print 'static bool' print 'is_symbolic_pname(GLenum pname) {' print ' switch (pname) {' for function, type, count, name in glparams.parameters: if type is glapi.GLenum: print ' case %s:' % name print ' return true;' print ' default:' print ' return false;' print ' }' print '}' print # Generate a helper function to determine whether a parameter value is # potentially symbolic or not; i.e., if the value can be represented in # an enum or not print 'template' print 'static inline bool' print 'is_symbolic_param(T param) {' print ' return static_cast(static_cast(param)) == param;' print '}' print # Generate a helper function to know how many elements a parameter has print 'static size_t' print '_gl_param_size(GLenum pname) {' print ' switch (pname) {' for function, type, count, name in glparams.parameters: if name == 'GL_PROGRAM_BINARY_FORMATS': count = 0 if type is not None: print ' case %s: return %s;' % (name, count) print ' default:' print r' os::log("apitrace: warning: %s: unknown GLenum 0x%04X\n", __FUNCTION__, pname);' print ' return 1;' print ' }' print '}' print # states such as GL_UNPACK_ROW_LENGTH are not available in GLES print 'static inline bool' print 'can_unpack_subimage(void) {' print ' gltrace::Context *_ctx = gltrace::getContext();' print ' return _ctx->profile.desktop();' print '}' print # VMWX_map_buffer_debug print r'extern "C" PUBLIC' print r'void APIENTRY' print r'glNotifyMappedBufferRangeVMWX(const void * start, GLsizeiptr length) {' self.emit_memcpy('start', 'length') print r'}' print getProcAddressFunctionNames = [] def traceApi(self, api): if self.getProcAddressFunctionNames: # Generate a function to wrap proc addresses getProcAddressFunction = api.getFunctionByName(self.getProcAddressFunctionNames[0]) argType = getProcAddressFunction.args[0].type retType = getProcAddressFunction.type print 'static %s _wrapProcAddress(%s procName, %s procPtr);' % (retType, argType, retType) print Tracer.traceApi(self, api) print 'static %s _wrapProcAddress(%s procName, %s procPtr) {' % (retType, argType, retType) # Provide fallback functions to missing debug functions print ' if (!procPtr) {' else_ = '' for function_name in self.debug_functions: if self.api.getFunctionByName(function_name): print ' %sif (strcmp("%s", (const char *)procName) == 0) {' % (else_, function_name) print ' return (%s)&%s;' % (retType, function_name) print ' }' else_ = 'else ' print ' %s{' % else_ print ' return NULL;' print ' }' print ' }' for function in api.getAllFunctions(): ptype = function_pointer_type(function) pvalue = function_pointer_value(function) print ' if (strcmp("%s", (const char *)procName) == 0) {' % function.name print ' assert(procPtr != (%s)&%s);' % (retType, function.name) print ' %s = (%s)procPtr;' % (pvalue, ptype) print ' return (%s)&%s;' % (retType, function.name,) print ' }' print ' os::log("apitrace: warning: unknown function \\"%s\\"\\n", (const char *)procName);' print ' return procPtr;' print '}' print else: Tracer.traceApi(self, api) array_pointer_function_names = set(( "glVertexPointer", "glNormalPointer", "glColorPointer", "glIndexPointer", "glTexCoordPointer", "glEdgeFlagPointer", "glFogCoordPointer", "glSecondaryColorPointer", "glInterleavedArrays", "glVertexPointerEXT", "glNormalPointerEXT", "glColorPointerEXT", "glIndexPointerEXT", "glTexCoordPointerEXT", "glEdgeFlagPointerEXT", "glFogCoordPointerEXT", "glSecondaryColorPointerEXT", "glVertexAttribPointer", "glVertexAttribPointerARB", "glVertexAttribPointerNV", "glVertexAttribIPointer", "glVertexAttribIPointerEXT", "glVertexAttribLPointer", "glVertexAttribLPointerEXT", #"glMatrixIndexPointerARB", )) # XXX: We currently ignore the gl*Draw*ElementArray* functions draw_function_regex = re.compile(r'^gl([A-Z][a-z]+)*Draw(Range)?(Arrays|Elements)([A-Z][a-zA-Z]*)?$' ) interleaved_formats = [ 'GL_V2F', 'GL_V3F', 'GL_C4UB_V2F', 'GL_C4UB_V3F', 'GL_C3F_V3F', 'GL_N3F_V3F', 'GL_C4F_N3F_V3F', 'GL_T2F_V3F', 'GL_T4F_V4F', 'GL_T2F_C4UB_V3F', 'GL_T2F_C3F_V3F', 'GL_T2F_N3F_V3F', 'GL_T2F_C4F_N3F_V3F', 'GL_T4F_C4F_N3F_V4F', ] def traceFunctionImplBody(self, function): # Defer tracing of user array pointers... if function.name in self.array_pointer_function_names: print ' GLint _array_buffer = _glGetInteger(GL_ARRAY_BUFFER_BINDING);' print ' if (!_array_buffer) {' print ' static bool warned = false;' print ' if (!warned) {' print ' warned = true;' print ' os::log("apitrace: warning: %s: call will be faked due to pointer to user memory (https://github.com/apitrace/apitrace/blob/master/docs/BUGS.markdown#tracing)\\n", __FUNCTION__);' print ' }' print ' gltrace::Context *_ctx = gltrace::getContext();' print ' _ctx->user_arrays = true;' if function.name == "glVertexAttribPointerNV": print ' _ctx->user_arrays_nv = true;' self.invokeFunction(function) # And also break down glInterleavedArrays into the individual calls if function.name == 'glInterleavedArrays': print # Initialize the enable flags for camelcase_name, uppercase_name in self.arrays: flag_name = '_' + uppercase_name.lower() print ' GLboolean %s = GL_FALSE;' % flag_name print # Switch for the interleaved formats print ' switch (format) {' for format in self.interleaved_formats: print ' case %s:' % format for camelcase_name, uppercase_name in self.arrays: flag_name = '_' + uppercase_name.lower() if format.find('_' + uppercase_name[0]) >= 0: print ' %s = GL_TRUE;' % flag_name print ' break;' print ' default:' print ' return;' print ' }' print # Emit fake glEnableClientState/glDisableClientState flags for camelcase_name, uppercase_name in self.arrays: flag_name = '_' + uppercase_name.lower() enable_name = 'GL_%s_ARRAY' % uppercase_name # Emit a fake function print ' {' print ' static const trace::FunctionSig &_sig = %s ? _glEnableClientState_sig : _glDisableClientState_sig;' % flag_name print ' unsigned _call = trace::localWriter.beginEnter(&_sig, true);' print ' trace::localWriter.beginArg(0);' self.serializeValue(glapi.GLenum, enable_name) print ' trace::localWriter.endArg();' print ' trace::localWriter.endEnter();' print ' trace::localWriter.beginLeave(_call);' print ' trace::localWriter.endLeave();' print ' }' # Warn about buggy glGet(GL_*ARRAY_SIZE) not returning GL_BGRA buggyFunctions = { 'glColorPointer': ('glGetIntegerv', '', 'GL_COLOR_ARRAY_SIZE'), 'glSecondaryColorPointer': ('glGetIntegerv', '', 'GL_SECONDARY_COLOR_ARRAY_SIZE'), 'glVertexAttribPointer': ('glGetVertexAttribiv', 'index, ', 'GL_VERTEX_ATTRIB_ARRAY_SIZE'), 'glVertexAttribPointerARB': ('glGetVertexAttribivARB', 'index, ', 'GL_VERTEX_ATTRIB_ARRAY_SIZE_ARB'), } if function.name in buggyFunctions: getter, extraArg, pname = buggyFunctions[function.name] print r' static bool _checked = false;' print r' if (!_checked && size == GL_BGRA) {' print r' GLint _size = 0;' print r' _%s(%s%s, &_size);' % (getter, extraArg, pname) print r' if (_size != GL_BGRA) {' print r' os::log("apitrace: warning: %s(%s) does not return GL_BGRA; trace will be incorrect (https://github.com/apitrace/apitrace/issues/261)\n");' % (getter, pname) print r' }' print r' _checked = true;' print r' }' print ' return;' print ' }' # ... to the draw calls if self.draw_function_regex.match(function.name): print ' gltrace::Context *_ctx = gltrace::getContext();' print ' if (_need_user_arrays(_ctx)) {' if 'Indirect' in function.name: print r' os::log("apitrace: warning: %s: indirect user arrays not supported\n");' % (function.name,) else: arg_names = ', '.join([arg.name for arg in function.args[1:]]) print ' GLuint _count = _%s_count(%s);' % (function.name, arg_names) # Some apps, in particular Quake3, can tell the driver to lock more # vertices than those actually required for the draw call. print ' if (_checkLockArraysEXT) {' print ' GLuint _locked_count = _glGetInteger(GL_ARRAY_ELEMENT_LOCK_FIRST_EXT)' print ' + _glGetInteger(GL_ARRAY_ELEMENT_LOCK_COUNT_EXT);' print ' _count = std::max(_count, _locked_count);' print ' }' print ' _trace_user_arrays(_ctx, _count);' print ' }' if function.name == 'glLockArraysEXT': print ' _checkLockArraysEXT = true;' # Warn if user arrays are used with glBegin/glArrayElement/glEnd. if function.name == 'glBegin': print r' gltrace::Context *_ctx = gltrace::getContext();' print r' _ctx->userArraysOnBegin = _need_user_arrays(_ctx);' if function.name.startswith('glArrayElement'): print r' gltrace::Context *_ctx = gltrace::getContext();' print r' if (_ctx->userArraysOnBegin) {' print r' os::log("apitrace: warning: user arrays with glArrayElement not supported (https://github.com/apitrace/apitrace/issues/276)\n");' print r' _ctx->userArraysOnBegin = false;' print r' }' # Emit a fake memcpy on buffer uploads if function.name == 'glBufferParameteriAPPLE': print ' if (pname == GL_BUFFER_FLUSHING_UNMAP_APPLE && param == GL_FALSE) {' print ' _checkBufferFlushingUnmapAPPLE = true;' print ' }' if function.name in ('glUnmapBuffer', 'glUnmapBufferARB'): if function.name.endswith('ARB'): suffix = 'ARB' else: suffix = '' print ' GLint access_flags = 0;' print ' GLint access = 0;' print ' bool flush;' print ' // GLES3 does not have GL_BUFFER_ACCESS;' print ' if (_checkBufferMapRange) {' print ' _glGetBufferParameteriv%s(target, GL_BUFFER_ACCESS_FLAGS, &access_flags);' % suffix print ' flush = (access_flags & GL_MAP_WRITE_BIT) && !(access_flags & (GL_MAP_FLUSH_EXPLICIT_BIT | GL_MAP_PERSISTENT_BIT));' print ' } else {' print ' _glGetBufferParameteriv%s(target, GL_BUFFER_ACCESS, &access);' % suffix print ' flush = access != GL_READ_ONLY;' print ' }' print ' if (flush) {' print ' GLvoid *map = NULL;' print ' _glGetBufferPointerv%s(target, GL_BUFFER_MAP_POINTER, &map);' % suffix print ' if (map) {' print ' GLint length = -1;' print ' if (_checkBufferMapRange) {' print ' _glGetBufferParameteriv%s(target, GL_BUFFER_MAP_LENGTH, &length);' % suffix print ' if (length == -1) {' print ' // Mesa drivers refuse GL_BUFFER_MAP_LENGTH without GL 3.0 up-to' print ' // http://cgit.freedesktop.org/mesa/mesa/commit/?id=ffee498fb848b253a7833373fe5430f8c7ca0c5f' print ' static bool warned = false;' print ' if (!warned) {' print ' os::log("apitrace: warning: glGetBufferParameteriv%s(GL_BUFFER_MAP_LENGTH) failed\\n");' % suffix print ' warned = true;' print ' }' print ' }' print ' } else {' print ' length = 0;' print ' _glGetBufferParameteriv%s(target, GL_BUFFER_SIZE, &length);' % suffix print ' }' print ' if (_checkBufferFlushingUnmapAPPLE) {' print ' GLint flushing_unmap = GL_TRUE;' print ' _glGetBufferParameteriv%s(target, GL_BUFFER_FLUSHING_UNMAP_APPLE, &flushing_unmap);' % suffix print ' flush = flush && flushing_unmap;' print ' }' print ' if (flush && length > 0) {' self.emit_memcpy('map', 'length') print ' }' print ' }' print ' }' if function.name == 'glUnmapBufferOES': print ' GLint access_flags = 0;' print ' GLint access = 0;' print ' bool flush;' print ' // GLES3 does not have GL_BUFFER_ACCESS;' print ' if (_checkBufferMapRange) {' print ' _glGetBufferParameteriv(target, GL_BUFFER_ACCESS_FLAGS, &access_flags);' print ' flush = (access_flags & GL_MAP_WRITE_BIT) && !(access_flags & (GL_MAP_FLUSH_EXPLICIT_BIT | GL_MAP_PERSISTENT_BIT));' print ' } else {' print ' _glGetBufferParameteriv(target, GL_BUFFER_ACCESS, &access);' print ' flush = access != GL_READ_ONLY;' print ' }' print ' if (flush) {' print ' GLvoid *map = NULL;' print ' _glGetBufferPointervOES(target, GL_BUFFER_MAP_POINTER, &map);' print ' if (map) {' print ' GLint length = 0;' print ' GLint offset = 0;' print ' if (_checkBufferMapRange) {' print ' _glGetBufferParameteriv(target, GL_BUFFER_MAP_LENGTH, &length);' print ' _glGetBufferParameteriv(target, GL_BUFFER_MAP_OFFSET, &offset);' print ' } else {' print ' _glGetBufferParameteriv(target, GL_BUFFER_SIZE, &length);' print ' }' print ' if (flush && length > 0) {' self.emit_memcpy('map', 'length') print ' }' print ' }' print ' }' if function.name == 'glUnmapNamedBuffer': print ' GLint access_flags = 0;' print ' _glGetNamedBufferParameteriv(buffer, GL_BUFFER_ACCESS_FLAGS, &access_flags);' print ' if ((access_flags & GL_MAP_WRITE_BIT) &&' print ' !(access_flags & (GL_MAP_FLUSH_EXPLICIT_BIT | GL_MAP_PERSISTENT_BIT))) {' print ' GLvoid *map = NULL;' print ' _glGetNamedBufferPointerv(buffer, GL_BUFFER_MAP_POINTER, &map);' print ' GLint length = 0;' print ' _glGetNamedBufferParameteriv(buffer, GL_BUFFER_MAP_LENGTH, &length);' print ' if (map && length > 0) {' self.emit_memcpy('map', 'length') print ' }' print ' }' if function.name == 'glUnmapNamedBufferEXT': print ' GLint access_flags = 0;' print ' _glGetNamedBufferParameterivEXT(buffer, GL_BUFFER_ACCESS_FLAGS, &access_flags);' print ' if ((access_flags & GL_MAP_WRITE_BIT) &&' print ' !(access_flags & (GL_MAP_FLUSH_EXPLICIT_BIT | GL_MAP_PERSISTENT_BIT))) {' print ' GLvoid *map = NULL;' print ' _glGetNamedBufferPointervEXT(buffer, GL_BUFFER_MAP_POINTER, &map);' print ' GLint length = 0;' print ' _glGetNamedBufferParameterivEXT(buffer, GL_BUFFER_MAP_LENGTH, &length);' print ' if (map && length > 0) {' self.emit_memcpy('map', 'length') print ' }' print ' }' if function.name == 'glFlushMappedBufferRange': print ' GLvoid *map = NULL;' print ' _glGetBufferPointerv(target, GL_BUFFER_MAP_POINTER, &map);' print ' if (map && length > 0) {' self.emit_memcpy('(const char *)map + offset', 'length') print ' }' if function.name == 'glFlushMappedBufferRangeEXT': print ' GLvoid *map = NULL;' print ' _glGetBufferPointervOES(target, GL_BUFFER_MAP_POINTER_OES, &map);' print ' if (map && length > 0) {' self.emit_memcpy('(const char *)map + offset', 'length') print ' }' if function.name == 'glFlushMappedBufferRangeAPPLE': print ' GLvoid *map = NULL;' print ' _glGetBufferPointerv(target, GL_BUFFER_MAP_POINTER, &map);' print ' if (map && size > 0) {' self.emit_memcpy('(const char *)map + offset', 'size') print ' }' if function.name == 'glFlushMappedNamedBufferRange': print ' GLvoid *map = NULL;' print ' _glGetNamedBufferPointerv(buffer, GL_BUFFER_MAP_POINTER, &map);' print ' if (map && length > 0) {' self.emit_memcpy('(const char *)map + offset', 'length') print ' }' if function.name == 'glFlushMappedNamedBufferRangeEXT': print ' GLvoid *map = NULL;' print ' _glGetNamedBufferPointervEXT(buffer, GL_BUFFER_MAP_POINTER, &map);' print ' if (map && length > 0) {' self.emit_memcpy('(const char *)map + offset', 'length') print ' }' # FIXME: We don't support coherent/pinned memory mappings if function.name in ('glBufferStorage', 'glNamedBufferStorage', 'glNamedBufferStorageEXT'): print r' if (flags & GL_MAP_NOTIFY_EXPLICIT_BIT_VMWX) {' print r' if (!(flags & GL_MAP_PERSISTENT_BIT)) {' print r' os::log("apitrace: warning: %s: MAP_NOTIFY_EXPLICIT_BIT_VMWX set w/o MAP_PERSISTENT_BIT\n", __FUNCTION__);' print r' }' print r' if (!(flags & GL_MAP_WRITE_BIT)) {' print r' os::log("apitrace: warning: %s: MAP_NOTIFY_EXPLICIT_BIT_VMWX set w/o MAP_WRITE_BIT\n", __FUNCTION__);' print r' }' print r' flags &= ~GL_MAP_NOTIFY_EXPLICIT_BIT_VMWX;' print r' }' if function.name in ('glMapBufferRange', 'glMapBufferRangeEXT', 'glMapNamedBufferRange', 'glMapNamedBufferRangeEXT'): print r' if (access & GL_MAP_NOTIFY_EXPLICIT_BIT_VMWX) {' print r' if (!(access & GL_MAP_PERSISTENT_BIT)) {' print r' os::log("apitrace: warning: %s: MAP_NOTIFY_EXPLICIT_BIT_VMWX set w/o MAP_PERSISTENT_BIT\n", __FUNCTION__);' print r' }' print r' if (!(access & GL_MAP_WRITE_BIT)) {' print r' os::log("apitrace: warning: %s: MAP_NOTIFY_EXPLICIT_BIT_VMWX set w/o MAP_WRITE_BIT\n", __FUNCTION__);' print r' }' print r' if (access & GL_MAP_FLUSH_EXPLICIT_BIT) {' print r' os::log("apitrace: warning: %s: MAP_NOTIFY_EXPLICIT_BIT_VMWX set w/ MAP_FLUSH_EXPLICIT_BIT\n", __FUNCTION__);' print r' }' print r' access &= ~GL_MAP_NOTIFY_EXPLICIT_BIT_VMWX;' print r' } else if (access & GL_MAP_WRITE_BIT) {' print r' if (access & GL_MAP_COHERENT_BIT) {' print r' os::log("apitrace: warning: %s: MAP_COHERENT_BIT|MAP_WRITE_BIT unsupported \n", __FUNCTION__);' print r' } else if ((access & GL_MAP_PERSISTENT_BIT) &&' print r' !(access & GL_MAP_FLUSH_EXPLICIT_BIT)) {' print r' os::log("apitrace: warning: %s: MAP_PERSISTENT_BIT|MAP_WRITE_BIT w/o MAP_FLUSH_EXPLICIT_BIT unsupported \n", __FUNCTION__);' print r' }' print r' }' if function.name in ('glBufferData', 'glBufferDataARB'): print r' if (target == GL_EXTERNAL_VIRTUAL_MEMORY_BUFFER_AMD) {' print r' os::log("apitrace: warning: GL_AMD_pinned_memory not fully supported\n");' print r' }' # TODO: We don't track GL_INTEL_map_texture mappings if function.name == 'glMapTexture2DINTEL': print r' if (access & GL_MAP_WRITE_BIT) {' print r' os::log("apitrace: warning: GL_INTEL_map_texture not fully supported\n");' print r' }' # Don't leave vertex attrib locations to chance. Instead emit fake # glBindAttribLocation calls to ensure that the same locations will be # used when retracing. Trying to remap locations after the fact would # be an herculian task given that vertex attrib locations appear in # many entry-points, including non-shader related ones. if function.name == 'glLinkProgram': Tracer.invokeFunction(self, function) print ' GLint active_attributes = 0;' print ' _glGetProgramiv(program, GL_ACTIVE_ATTRIBUTES, &active_attributes);' print ' for (GLint attrib = 0; attrib < active_attributes; ++attrib) {' print ' GLint size = 0;' print ' GLenum type = 0;' print ' GLchar name[256];' # TODO: Use ACTIVE_ATTRIBUTE_MAX_LENGTH instead of 256 print ' _glGetActiveAttrib(program, attrib, sizeof name, NULL, &size, &type, name);' print " if (name[0] != 'g' || name[1] != 'l' || name[2] != '_') {" print ' GLint location = _glGetAttribLocation(program, name);' print ' if (location >= 0) {' bind_function = glapi.glapi.getFunctionByName('glBindAttribLocation') self.fake_call(bind_function, ['program', 'location', 'name']) print ' }' print ' }' print ' }' if function.name == 'glLinkProgramARB': Tracer.invokeFunction(self, function) print ' GLint active_attributes = 0;' print ' _glGetObjectParameterivARB(programObj, GL_OBJECT_ACTIVE_ATTRIBUTES_ARB, &active_attributes);' print ' for (GLint attrib = 0; attrib < active_attributes; ++attrib) {' print ' GLint size = 0;' print ' GLenum type = 0;' print ' GLcharARB name[256];' # TODO: Use ACTIVE_ATTRIBUTE_MAX_LENGTH instead of 256 print ' _glGetActiveAttribARB(programObj, attrib, sizeof name, NULL, &size, &type, name);' print " if (name[0] != 'g' || name[1] != 'l' || name[2] != '_') {" print ' GLint location = _glGetAttribLocationARB(programObj, name);' print ' if (location >= 0) {' bind_function = glapi.glapi.getFunctionByName('glBindAttribLocationARB') self.fake_call(bind_function, ['programObj', 'location', 'name']) print ' }' print ' }' print ' }' Tracer.traceFunctionImplBody(self, function) # These entrypoints are only expected to be implemented by tools; # drivers will probably not implement them. marker_functions = [ # GL_GREMEDY_string_marker 'glStringMarkerGREMEDY', # GL_GREMEDY_frame_terminator 'glFrameTerminatorGREMEDY', ] # These entrypoints may be implemented by drivers, but are also very useful # for debugging / analysis tools. debug_functions = [ # GL_KHR_debug 'glDebugMessageControl', 'glDebugMessageInsert', 'glDebugMessageCallback', 'glGetDebugMessageLog', 'glPushDebugGroup', 'glPopDebugGroup', 'glObjectLabel', 'glGetObjectLabel', 'glObjectPtrLabel', 'glGetObjectPtrLabel', # GL_KHR_debug (for OpenGL ES) 'glDebugMessageControlKHR', 'glDebugMessageInsertKHR', 'glDebugMessageCallbackKHR', 'glGetDebugMessageLogKHR', 'glPushDebugGroupKHR', 'glPopDebugGroupKHR', 'glObjectLabelKHR', 'glGetObjectLabelKHR', 'glObjectPtrLabelKHR', 'glGetObjectPtrLabelKHR', # GL_ARB_debug_output 'glDebugMessageControlARB', 'glDebugMessageInsertARB', 'glDebugMessageCallbackARB', 'glGetDebugMessageLogARB', # GL_AMD_debug_output 'glDebugMessageEnableAMD', 'glDebugMessageInsertAMD', 'glDebugMessageCallbackAMD', 'glGetDebugMessageLogAMD', # GL_EXT_debug_label 'glLabelObjectEXT', 'glGetObjectLabelEXT', # GL_EXT_debug_marker 'glInsertEventMarkerEXT', 'glPushGroupMarkerEXT', 'glPopGroupMarkerEXT', ] def invokeFunction(self, function): if function.name in ('glLinkProgram', 'glLinkProgramARB'): # These functions have been dispatched already return # Force glProgramBinary to fail. Per ARB_get_program_binary this # should signal the app that it needs to recompile. if function.name in ('glProgramBinary', 'glProgramBinaryOES'): print r' binaryFormat = 0xDEADDEAD;' print r' binary = &binaryFormat;' print r' length = sizeof binaryFormat;' Tracer.invokeFunction(self, function) def doInvokeFunction(self, function): # Same as invokeFunction() but called both when trace is enabled or disabled. # # Used to modify the behavior of GL entry-points. # Override GL extensions if function.name in ('glGetString', 'glGetIntegerv', 'glGetStringi'): Tracer.doInvokeFunction(self, function, prefix = 'gltrace::_', suffix = '_override') return # We implement GL_GREMEDY_*, etc., and not the driver if function.name in self.marker_functions: return # We may be faking KHR_debug, so ensure the pointer queries result is # always zeroed to prevent dereference of unitialized pointers if function.name == 'glGetPointerv': print ' if (params &&' print ' (pname == GL_DEBUG_CALLBACK_FUNCTION ||' print ' pname == GL_DEBUG_CALLBACK_USER_PARAM)) {' print ' *params = NULL;' print ' }' if function.name in self.getProcAddressFunctionNames: nameArg = function.args[0].name print ' if (strcmp("glNotifyMappedBufferRangeVMWX", (const char *)%s) == 0) {' % (nameArg,) print ' _result = (%s)&glNotifyMappedBufferRangeVMWX;' % (function.type,) for marker_function in self.marker_functions: if self.api.getFunctionByName(marker_function): print ' } else if (strcmp("%s", (const char *)%s) == 0) {' % (marker_function, nameArg) print ' _result = (%s)&%s;' % (function.type, marker_function) print ' } else {' Tracer.doInvokeFunction(self, function) # Replace function addresses with ours # XXX: Doing this here instead of wrapRet means that the trace will # contain the addresses of the wrapper functions, and not the real # functions, but in practice this should make no difference. if function.name in self.getProcAddressFunctionNames: print ' _result = _wrapProcAddress(%s, _result);' % (nameArg,) print ' }' return if function.name in ('glGetProgramBinary', 'glGetProgramBinaryOES'): print r' bufSize = 0;' Tracer.doInvokeFunction(self, function) if function.name == 'glGetProgramiv': print r' if (params && pname == GL_PROGRAM_BINARY_LENGTH) {' print r' *params = 0;' print r' }' if function.name in ('glGetProgramBinary', 'glGetProgramBinaryOES'): print r' if (length) {' print r' *length = 0;' print r' }' buffer_targets = [ 'ARRAY_BUFFER', 'ELEMENT_ARRAY_BUFFER', 'PIXEL_PACK_BUFFER', 'PIXEL_UNPACK_BUFFER', 'UNIFORM_BUFFER', 'TEXTURE_BUFFER', 'TRANSFORM_FEEDBACK_BUFFER', 'COPY_READ_BUFFER', 'COPY_WRITE_BUFFER', 'DRAW_INDIRECT_BUFFER', 'ATOMIC_COUNTER_BUFFER', ] def wrapRet(self, function, instance): Tracer.wrapRet(self, function, instance) # Keep track of buffer mappings if function.name in ('glMapBufferRange', 'glMapBufferRangeEXT'): print ' if (access & GL_MAP_WRITE_BIT) {' print ' _checkBufferMapRange = true;' print ' }' boolean_names = [ 'GL_FALSE', 'GL_TRUE', ] def gl_boolean(self, value): return self.boolean_names[int(bool(value))] # Regular expression for the names of the functions that unpack from a # pixel buffer object. See the ARB_pixel_buffer_object specification. unpack_function_regex = re.compile(r'^gl(' + r'|'.join([ r'Bitmap', r'PolygonStipple', r'PixelMap[a-z]+v', r'DrawPixels', r'Color(Sub)?Table', r'(Convolution|Separable)Filter[12]D', r'(Compressed)?(Multi)?Tex(ture)?(Sub)?Image[1-4]D', ]) + r')[0-9A-Z]*$') def serializeArgValue(self, function, arg): # Recognize offsets instead of blobs when a PBO is bound if self.unpack_function_regex.match(function.name) \ and (isinstance(arg.type, stdapi.Blob) \ or (isinstance(arg.type, stdapi.Const) \ and isinstance(arg.type.type, stdapi.Blob))): print ' {' print ' gltrace::Context *_ctx = gltrace::getContext();' print ' GLint _unpack_buffer = 0;' print ' if (_ctx->features.pixel_buffer_object)' print ' _glGetIntegerv(GL_PIXEL_UNPACK_BUFFER_BINDING, &_unpack_buffer);' print ' if (_unpack_buffer) {' print ' trace::localWriter.writePointer((uintptr_t)%s);' % arg.name print ' } else {' Tracer.serializeArgValue(self, function, arg) print ' }' print ' }' return # Recognize offsets instead of pointers when query buffer is bound if function.name.startswith('glGetQueryObject') and arg.output: print r' gltrace::Context *_ctx = gltrace::getContext();' print r' GLint _query_buffer = 0;' print r' if (_ctx->features.query_buffer_object) {' print r' _query_buffer = _glGetInteger(GL_QUERY_BUFFER_BINDING);' print r' }' print r' if (_query_buffer) {' print r' trace::localWriter.writePointer((uintptr_t)%s);' % arg.name print r' } else {' Tracer.serializeArgValue(self, function, arg) print r' }' return # Several GL state functions take GLenum symbolic names as # integer/floats; so dump the symbolic name whenever possible if function.name.startswith('gl') \ and arg.type in (glapi.GLint, glapi.GLfloat, glapi.GLdouble) \ and arg.name == 'param': assert arg.index > 0 assert function.args[arg.index - 1].name == 'pname' assert function.args[arg.index - 1].type == glapi.GLenum print ' if (is_symbolic_pname(pname) && is_symbolic_param(%s)) {' % arg.name self.serializeValue(glapi.GLenum, arg.name) print ' } else {' Tracer.serializeArgValue(self, function, arg) print ' }' return Tracer.serializeArgValue(self, function, arg) def footer(self, api): Tracer.footer(self, api) # A simple state tracker to track the pointer values # update the state print 'static void _trace_user_arrays(gltrace::Context *_ctx, GLuint count)' print '{' print ' glfeatures::Profile profile = _ctx->profile;' print ' bool es1 = profile.es() && profile.major == 1;' print # Temporarily unbind the array buffer print ' GLint _array_buffer = _glGetInteger(GL_ARRAY_BUFFER_BINDING);' print ' if (_array_buffer) {' self.fake_glBindBuffer(api, 'GL_ARRAY_BUFFER', '0') print ' }' print for camelcase_name, uppercase_name in self.arrays: # in which profile is the array available? profile_check = 'profile.desktop()' if camelcase_name in self.arrays_es1: profile_check = '(' + profile_check + ' || es1)'; function_name = 'gl%sPointer' % camelcase_name enable_name = 'GL_%s_ARRAY' % uppercase_name binding_name = 'GL_%s_ARRAY_BUFFER_BINDING' % uppercase_name function = api.getFunctionByName(function_name) print ' // %s' % function.prototype() print ' if (%s) {' % profile_check self.array_trace_prolog(api, uppercase_name) self.array_prolog(api, uppercase_name) print ' if (_glIsEnabled(%s)) {' % enable_name print ' GLint _binding = _glGetInteger(%s);' % binding_name print ' if (!_binding) {' # Get the arguments via glGet* for arg in function.args: arg_get_enum = 'GL_%s_ARRAY_%s' % (uppercase_name, arg.name.upper()) arg_get_function, arg_type = TypeGetter().visit(arg.type) print ' %s %s = 0;' % (arg_type, arg.name) print ' _%s(%s, &%s);' % (arg_get_function, arg_get_enum, arg.name) arg_names = ', '.join([arg.name for arg in function.args[:-1]]) print ' size_t _size = _%s_size(%s, count);' % (function.name, arg_names) # Emit a fake function self.array_trace_intermezzo(api, uppercase_name) print ' unsigned _call = trace::localWriter.beginEnter(&_%s_sig, true);' % (function.name,) for arg in function.args: assert not arg.output print ' trace::localWriter.beginArg(%u);' % (arg.index,) if arg.name != 'pointer': self.serializeValue(arg.type, arg.name) else: print ' trace::localWriter.writeBlob((const void *)%s, _size);' % (arg.name) print ' trace::localWriter.endArg();' print ' trace::localWriter.endEnter();' print ' trace::localWriter.beginLeave(_call);' print ' trace::localWriter.endLeave();' print ' }' print ' }' self.array_epilog(api, uppercase_name) self.array_trace_epilog(api, uppercase_name) print ' }' print # Samething, but for glVertexAttribPointer* # # Some variants of glVertexAttribPointer alias conventional and generic attributes: # - glVertexAttribPointer: no # - glVertexAttribPointerARB: implementation dependent # - glVertexAttribPointerNV: yes # # This means that the implementations of these functions do not always # alias, and they need to be considered independently. # print ' // ES1 does not support generic vertex attributes' print ' if (es1)' print ' return;' print print ' vertex_attrib _vertex_attrib = _get_vertex_attrib(_ctx);' print for suffix in ['', 'NV']: if suffix: SUFFIX = '_' + suffix else: SUFFIX = suffix function_name = 'glVertexAttribPointer' + suffix function = api.getFunctionByName(function_name) print ' // %s' % function.prototype() print ' if (_vertex_attrib == VERTEX_ATTRIB%s) {' % SUFFIX if suffix == 'NV': print ' GLint _max_vertex_attribs = 16;' else: print ' GLint _max_vertex_attribs = _glGetInteger(GL_MAX_VERTEX_ATTRIBS);' print ' for (GLint index = 0; index < _max_vertex_attribs; ++index) {' print ' GLint _enabled = 0;' if suffix == 'NV': print ' _glGetIntegerv(GL_VERTEX_ATTRIB_ARRAY0_NV + index, &_enabled);' else: print ' _glGetVertexAttribiv%s(index, GL_VERTEX_ATTRIB_ARRAY_ENABLED%s, &_enabled);' % (suffix, SUFFIX) print ' if (_enabled) {' print ' GLint _binding = 0;' if suffix != 'NV': # It doesn't seem possible to use VBOs with NV_vertex_program. print ' _glGetVertexAttribiv%s(index, GL_VERTEX_ATTRIB_ARRAY_BUFFER_BINDING%s, &_binding);' % (suffix, SUFFIX) print ' if (!_binding) {' # Get the arguments via glGet* for arg in function.args[1:]: if suffix == 'NV': arg_get_enum = 'GL_ATTRIB_ARRAY_%s%s' % (arg.name.upper(), SUFFIX) else: arg_get_enum = 'GL_VERTEX_ATTRIB_ARRAY_%s%s' % (arg.name.upper(), SUFFIX) arg_get_function, arg_type = TypeGetter('glGetVertexAttrib', False, suffix).visit(arg.type) print ' %s %s = 0;' % (arg_type, arg.name) print ' _%s(index, %s, &%s);' % (arg_get_function, arg_get_enum, arg.name) arg_names = ', '.join([arg.name for arg in function.args[1:-1]]) print ' size_t _size = _%s_size(%s, count);' % (function.name, arg_names) # Emit a fake function print ' unsigned _call = trace::localWriter.beginEnter(&_%s_sig, true);' % (function.name,) for arg in function.args: assert not arg.output print ' trace::localWriter.beginArg(%u);' % (arg.index,) if arg.name != 'pointer': self.serializeValue(arg.type, arg.name) else: print ' trace::localWriter.writeBlob((const void *)%s, _size);' % (arg.name) print ' trace::localWriter.endArg();' print ' trace::localWriter.endEnter();' print ' trace::localWriter.beginLeave(_call);' print ' trace::localWriter.endLeave();' print ' }' print ' }' print ' }' print ' }' print # Restore the original array_buffer print ' if (_array_buffer) {' self.fake_glBindBuffer(api, 'GL_ARRAY_BUFFER', '_array_buffer') print ' }' print print '}' print # Fake glStringMarkerGREMEDY print r'static void _fakeStringMarker(GLsizei len, const GLvoid * string) {' glStringMarkerGREMEDY = api.getFunctionByName('glStringMarkerGREMEDY') self.fake_call(glStringMarkerGREMEDY, ['len', 'string']) print r'}' # # Hooks for glTexCoordPointer, which is identical to the other array # pointers except the fact that it is indexed by glClientActiveTexture. # def array_prolog(self, api, uppercase_name): if uppercase_name == 'TEXTURE_COORD': print ' GLint max_units = 0;' print ' if (_ctx->profile.desktop())' print ' _glGetIntegerv(GL_MAX_TEXTURE_COORDS, &max_units);' print ' else' print ' _glGetIntegerv(GL_MAX_TEXTURE_UNITS, &max_units);' print ' GLint client_active_texture = GL_TEXTURE0;' print ' if (max_units > 0) {' print ' _glGetIntegerv(GL_CLIENT_ACTIVE_TEXTURE, &client_active_texture);' print ' }' print ' GLint unit = 0;' print ' do {' print ' GLint texture = GL_TEXTURE0 + unit;' print ' if (max_units > 0) {' print ' _glClientActiveTexture(texture);' print ' }' def array_trace_prolog(self, api, uppercase_name): if uppercase_name == 'TEXTURE_COORD': print ' bool client_active_texture_dirty = false;' def array_epilog(self, api, uppercase_name): if uppercase_name == 'TEXTURE_COORD': print ' } while (++unit < max_units);' self.array_cleanup(api, uppercase_name) def array_cleanup(self, api, uppercase_name): if uppercase_name == 'TEXTURE_COORD': print ' if (max_units > 0) {' print ' _glClientActiveTexture(client_active_texture);' print ' }' def array_trace_intermezzo(self, api, uppercase_name): if uppercase_name == 'TEXTURE_COORD': print ' if (texture != client_active_texture || client_active_texture_dirty) {' print ' client_active_texture_dirty = true;' self.fake_glClientActiveTexture_call(api, "texture"); print ' }' def array_trace_epilog(self, api, uppercase_name): if uppercase_name == 'TEXTURE_COORD': print ' if (client_active_texture_dirty) {' self.fake_glClientActiveTexture_call(api, "client_active_texture"); print ' }' def fake_glBindBuffer(self, api, target, buffer): function = api.getFunctionByName('glBindBuffer') self.fake_call(function, [target, buffer]) def fake_glClientActiveTexture_call(self, api, texture): function = api.getFunctionByName('glClientActiveTexture') self.fake_call(function, [texture]) def emitFakeTexture2D(self): function = glapi.glapi.getFunctionByName('glTexImage2D') instances = function.argNames() print ' unsigned _fake_call = trace::localWriter.beginEnter(&_%s_sig, true);' % (function.name,) for arg in function.args: assert not arg.output self.serializeArg(function, arg) print ' trace::localWriter.endEnter();' print ' trace::localWriter.beginLeave(_fake_call);' print ' trace::localWriter.endLeave();'