| #!/usr/bin/env python3 |
| # |
| # XGL |
| # |
| # Copyright (C) 2014 LunarG, Inc. |
| # |
| # 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. |
| # |
| # Authors: |
| # Chia-I Wu <olv@lunarg.com> |
| |
| import sys |
| |
| import xgl |
| |
| class Subcommand(object): |
| def __init__(self, argv): |
| self.argv = argv |
| self.headers = xgl.headers |
| self.protos = xgl.protos |
| |
| def run(self): |
| print(self.generate()) |
| |
| def generate(self): |
| copyright = self.generate_copyright() |
| header = self.generate_header() |
| body = self.generate_body() |
| footer = self.generate_footer() |
| |
| contents = [] |
| if copyright: |
| contents.append(copyright) |
| if header: |
| contents.append(header) |
| if body: |
| contents.append(body) |
| if footer: |
| contents.append(footer) |
| |
| return "\n\n".join(contents) |
| |
| def generate_copyright(self): |
| return """/* THIS FILE IS GENERATED. DO NOT EDIT. */ |
| |
| /* |
| * XGL |
| * |
| * Copyright (C) 2014 LunarG, Inc. |
| * |
| * 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. |
| */""" |
| |
| def generate_header(self): |
| return "\n".join(["#include <" + h + ">" for h in self.headers]) |
| |
| def generate_body(self): |
| pass |
| |
| def generate_footer(self): |
| pass |
| |
| # Return set of printf '%' qualifier and input to that qualifier |
| def _get_printf_params(self, xgl_type, name, output_param): |
| # TODO : Need ENUM and STRUCT checks here |
| if "_TYPE" in xgl_type: # TODO : This should be generic ENUM check |
| return ("%s", "string_%s(%s)" % (xgl_type.strip('const ').strip('*'), name)) |
| if "XGL_CHAR*" == xgl_type: |
| return ("%s", name) |
| if "UINT64" in xgl_type: |
| if '*' in xgl_type: |
| return ("%lu", "*%s" % name) |
| return ("%lu", name) |
| if "SIZE" in xgl_type: |
| if '*' in xgl_type: |
| return ("%zu", "*%s" % name) |
| return ("%zu", name) |
| if "FLOAT" in xgl_type: |
| if '[' in xgl_type: # handle array, current hard-coded to 4 (TODO: Make this dynamic) |
| return ("[%f, %f, %f, %f]", "%s[0], %s[1], %s[2], %s[3]" % (name, name, name, name)) |
| return ("%f", name) |
| if "BOOL" in xgl_type or 'xcb_randr_crtc_t' in xgl_type: |
| return ("%u", name) |
| if True in [t in xgl_type for t in ["INT", "FLAGS", "MASK", "xcb_window_t"]]: |
| if '[' in xgl_type: # handle array, current hard-coded to 4 (TODO: Make this dynamic) |
| return ("[%i, %i, %i, %i]", "%s[0], %s[1], %s[2], %s[3]" % (name, name, name, name)) |
| if '*' in xgl_type: |
| return ("%i", "*(%s)" % name) |
| return ("%i", name) |
| # TODO : This is special-cased as there's only one "format" param currently and it's nice to expand it |
| if "XGL_FORMAT" == xgl_type: |
| return ("{%s.channelFormat = %%s, %s.numericFormat = %%s}" % (name, name), "string_XGL_CHANNEL_FORMAT(%s.channelFormat), string_XGL_NUM_FORMAT(%s.numericFormat)" % (name, name)) |
| if output_param: |
| return ("%p", "(void*)*%s" % name) |
| return ("%p", "(void*)(%s)" % name) |
| |
| def _generate_trace_func_ptrs(self): |
| func_ptrs = [] |
| func_ptrs.append('// Pointers to real functions and declarations of hooked functions') |
| func_ptrs.append('#ifdef WIN32') |
| func_ptrs.append('extern INIT_ONCE gInitOnce;') |
| for proto in self.protos: |
| if True not in [skip_str in proto.name for skip_str in ['Dbg', 'Wsi']]: #Dbg' not in proto.name and 'Wsi' not in proto.name: |
| func_ptrs.append('#define __HOOKED_xgl%s hooked_xgl%s' % (proto.name, proto.name)) |
| |
| func_ptrs.append('\n#elif defined(PLATFORM_LINUX)') |
| func_ptrs.append('extern pthread_once_t gInitOnce;') |
| for proto in self.protos: |
| if True not in [skip_str in proto.name for skip_str in ['Dbg', 'Wsi']]: |
| func_ptrs.append('#define __HOOKED_xgl%s xgl%s' % (proto.name, proto.name)) |
| |
| func_ptrs.append('#endif\n') |
| return "\n".join(func_ptrs) |
| |
| def _generate_trace_func_ptrs_ext(self, func_class='Wsi'): |
| func_ptrs = [] |
| func_ptrs.append('#ifdef WIN32') |
| for proto in self.protos: |
| if func_class in proto.name: |
| func_ptrs.append('#define __HOOKED_xgl%s hooked_xgl%s' % (proto.name, proto.name)) |
| |
| func_ptrs.append('#elif defined(__linux__)') |
| for proto in self.protos: |
| if func_class in proto.name: |
| func_ptrs.append('#define __HOOKED_xgl%s xgl%s' % (proto.name, proto.name)) |
| |
| func_ptrs.append('#endif\n') |
| return "\n".join(func_ptrs) |
| |
| def _generate_trace_func_protos(self): |
| func_protos = [] |
| func_protos.append('// Hooked function prototypes\n') |
| for proto in self.protos: |
| if 'Dbg' not in proto.name and 'Wsi' not in proto.name: |
| func_protos.append('%s;' % proto.c_func(prefix="__HOOKED_xgl", attr="XGLAPI")) |
| |
| return "\n".join(func_protos) |
| |
| def _generate_trace_func_protos_ext(self, func_class='Wsi'): |
| func_protos = [] |
| func_protos.append('// Hooked function prototypes\n') |
| for proto in self.protos: |
| if func_class in proto.name: |
| func_protos.append('%s;' % proto.c_func(prefix="__HOOKED_xgl", attr="XGLAPI")) |
| |
| return "\n".join(func_protos) |
| |
| |
| def _generate_func_ptr_assignments(self): |
| func_ptr_assign = [] |
| for proto in self.protos: |
| if 'Dbg' not in proto.name and 'Wsi' not in proto.name: |
| func_ptr_assign.append('static %s( XGLAPI * real_xgl%s)(' % (proto.ret, proto.name)) |
| for p in proto.params: |
| if 'color' == p.name: |
| func_ptr_assign.append(' %s %s[4],' % (p.ty.replace('[4]', ''), p.name)) |
| else: |
| func_ptr_assign.append(' %s %s,' % (p.ty, p.name)) |
| func_ptr_assign[-1] = func_ptr_assign[-1].replace(',', ') = xgl%s;\n' % (proto.name)) |
| func_ptr_assign.append('static BOOL isHooked = FALSE;\n') |
| return "\n".join(func_ptr_assign) |
| |
| def _generate_func_ptr_assignments_ext(self, func_class='Wsi'): |
| func_ptr_assign = [] |
| for proto in self.protos: |
| if func_class in proto.name: |
| func_ptr_assign.append('static %s( XGLAPI * real_xgl%s)(' % (proto.ret, proto.name)) |
| for p in proto.params: |
| func_ptr_assign.append(' %s %s,' % (p.ty, p.name)) |
| func_ptr_assign[-1] = func_ptr_assign[-1].replace(',', ') = xgl%s;\n' % (proto.name)) |
| return "\n".join(func_ptr_assign) |
| |
| def _generate_attach_hooks(self): |
| hooks_txt = [] |
| hooks_txt.append('void AttachHooks()\n{\n BOOL hookSuccess = TRUE;\n#if defined(WIN32)') |
| hooks_txt.append(' Mhook_BeginMultiOperation(FALSE);') |
| hooks_txt.append(' if (real_xglInitAndEnumerateGpus != NULL)') |
| hooks_txt.append(' {\n isHooked = TRUE;') |
| hook_operator = '=' |
| for proto in self.protos: |
| if 'Dbg' not in proto.name and 'Wsi' not in proto.name: |
| hooks_txt.append(' hookSuccess %s Mhook_SetHook((PVOID*)&real_xgl%s, hooked_xgl%s);' % (hook_operator, proto.name, proto.name)) |
| hook_operator = '&=' |
| hooks_txt.append(' }\n') |
| hooks_txt.append(' if (!hookSuccess)\n {') |
| hooks_txt.append(' glv_LogError("Failed to hook XGL.");\n }\n') |
| hooks_txt.append(' Mhook_EndMultiOperation();\n') |
| hooks_txt.append('#elif defined(__linux__)') |
| hooks_txt.append(' if (real_xglInitAndEnumerateGpus == xglInitAndEnumerateGpus)') |
| hooks_txt.append(' hookSuccess = glv_platform_get_next_lib_sym((PVOID*)&real_xglInitAndEnumerateGpus,"xglInitAndEnumerateGpus");') |
| hooks_txt.append(' isHooked = TRUE;') |
| for proto in self.protos: |
| if 'Dbg' not in proto.name and 'Wsi' not in proto.name and 'InitAndEnumerateGpus' not in proto.name: |
| hooks_txt.append(' hookSuccess %s glv_platform_get_next_lib_sym((PVOID*)&real_xgl%s, "xgl%s");' % (hook_operator, proto.name, proto.name)) |
| hooks_txt.append(' if (!hookSuccess)\n {') |
| hooks_txt.append(' glv_LogError("Failed to hook XGL.");\n }\n') |
| hooks_txt.append('#endif\n}\n') |
| return "\n".join(hooks_txt) |
| |
| def _generate_attach_hooks_ext(self, func_class='Wsi'): |
| func_ext_dict = {'Wsi': '_xglwsix11ext', 'Dbg': '_xgldbg'} |
| first_proto_dict = {'Wsi': 'WsiX11AssociateConnection', 'Dbg': 'DbgSetValidationLevel'} |
| hooks_txt = [] |
| hooks_txt.append('void AttachHooks%s()\n{\n BOOL hookSuccess = TRUE;\n#if defined(WIN32)' % func_ext_dict[func_class]) |
| hooks_txt.append(' Mhook_BeginMultiOperation(FALSE);') |
| hooks_txt.append(' if (real_xgl%s != NULL)' % first_proto_dict[func_class]) |
| hooks_txt.append(' {') |
| hook_operator = '=' |
| for proto in self.protos: |
| if func_class in proto.name: |
| hooks_txt.append(' hookSuccess %s Mhook_SetHook((PVOID*)&real_xgl%s, hooked_xgl%s);' % (hook_operator, proto.name, proto.name)) |
| hook_operator = '&=' |
| hooks_txt.append(' }\n') |
| hooks_txt.append(' if (!hookSuccess)\n {') |
| hooks_txt.append(' glv_LogError("Failed to hook XGL ext %s.");\n }\n' % func_class) |
| hooks_txt.append(' Mhook_EndMultiOperation();\n') |
| hooks_txt.append('#elif defined(__linux__)') |
| hooks_txt.append(' hookSuccess = glv_platform_get_next_lib_sym((PVOID*)&real_xgl%s, "xgl%s");' % (first_proto_dict[func_class], first_proto_dict[func_class])) |
| for proto in self.protos: |
| if func_class in proto.name and first_proto_dict[func_class] not in proto.name: |
| hooks_txt.append(' hookSuccess %s glv_platform_get_next_lib_sym((PVOID*)&real_xgl%s, "xgl%s");' % (hook_operator, proto.name, proto.name)) |
| hooks_txt.append(' if (!hookSuccess)\n {') |
| hooks_txt.append(' glv_LogError("Failed to hook XGL ext %s.");\n }\n' % func_class) |
| hooks_txt.append('#endif\n}\n') |
| return "\n".join(hooks_txt) |
| |
| def _generate_detach_hooks(self): |
| hooks_txt = [] |
| hooks_txt.append('void DetachHooks()\n{\n#ifdef __linux__\n return;\n#elif defined(WIN32)') |
| hooks_txt.append(' BOOL unhookSuccess = TRUE;\n if (real_xglGetGpuInfo != NULL)\n {') |
| hook_operator = '=' |
| for proto in self.protos: |
| if 'Dbg' not in proto.name and 'Wsi' not in proto.name: |
| hooks_txt.append(' unhookSuccess %s Mhook_Unhook((PVOID*)&real_xgl%s);' % (hook_operator, proto.name)) |
| hook_operator = '&=' |
| hooks_txt.append(' }\n isHooked = FALSE;') |
| hooks_txt.append(' if (!unhookSuccess)\n {') |
| hooks_txt.append(' glv_LogError("Failed to unhook XGL.");\n }') |
| hooks_txt.append('#endif\n}') |
| hooks_txt.append('#ifdef WIN32\nINIT_ONCE gInitOnce = INIT_ONCE_STATIC_INIT;\n#elif defined(PLATFORM_LINUX)\npthread_once_t gInitOnce = PTHREAD_ONCE_INIT;\n#endif\n') |
| return "\n".join(hooks_txt) |
| |
| def _generate_detach_hooks_ext(self, func_class='Wsi'): |
| func_ext_dict = {'Wsi': '_xglwsix11ext', 'Dbg': '_xgldbg'} |
| first_proto_dict = {'Wsi': 'WsiX11AssociateConnection', 'Dbg': 'DbgSetValidationLevel'} |
| hooks_txt = [] |
| hooks_txt.append('void DetachHooks%s()\n{\n#ifdef WIN32' % func_ext_dict[func_class]) |
| hooks_txt.append(' BOOL unhookSuccess = TRUE;\n if (real_xgl%s != NULL)\n {' % first_proto_dict[func_class]) |
| hook_operator = '=' |
| for proto in self.protos: |
| if func_class in proto.name: |
| hooks_txt.append(' unhookSuccess %s Mhook_Unhook((PVOID*)&real_xgl%s);' % (hook_operator, proto.name)) |
| hook_operator = '&=' |
| hooks_txt.append(' }') |
| hooks_txt.append(' if (!unhookSuccess)\n {') |
| hooks_txt.append(' glv_LogError("Failed to unhook XGL ext %s.");\n }' % func_class) |
| hooks_txt.append('#elif defined(__linux__)\n return;\n#endif\n}\n') |
| return "\n".join(hooks_txt) |
| |
| def _generate_init_funcs(self): |
| init_tracer = [] |
| init_tracer.append('void send_xgl_api_version_packet()\n{') |
| init_tracer.append(' struct_xglApiVersion* pPacket;') |
| init_tracer.append(' glv_trace_packet_header* pHeader;') |
| init_tracer.append(' pHeader = glv_create_trace_packet(GLV_TID_XGL, GLV_TPI_XGL_xglApiVersion, sizeof(struct_xglApiVersion), 0);') |
| init_tracer.append(' pPacket = interpret_body_as_xglApiVersion(pHeader, FALSE);') |
| init_tracer.append(' pPacket->version = XGL_API_VERSION;') |
| init_tracer.append(' FINISH_TRACE_PACKET();\n}\n') |
| |
| init_tracer.append('void InitTracer()\n{') |
| init_tracer.append('char *ipAddr = glv_get_global_var("GLVLIB_TRACE_IPADDR");') |
| init_tracer.append('if (ipAddr == NULL)') |
| init_tracer.append(' ipAddr = "127.0.0.1";') |
| init_tracer.append(' gMessageStream = glv_MessageStream_create(FALSE, ipAddr, GLV_BASE_PORT + GLV_TID_XGL);') |
| init_tracer.append(' glv_trace_set_trace_file(glv_FileLike_create_msg(gMessageStream));') |
| init_tracer.append('// glv_tracelog_set_log_file(glv_FileLike_create_file(fopen("glv_log_traceside.txt","w")));') |
| init_tracer.append(' glv_tracelog_set_tracer_id(GLV_TID_XGL);') |
| init_tracer.append(' send_xgl_api_version_packet();\n}\n') |
| return "\n".join(init_tracer) |
| |
| # InitAndEnumerateGpus is unique enough that it gets custom generation code |
| def _gen_iande_gpus(self): |
| iae_body = [] |
| iae_body.append('GLVTRACER_EXPORT XGL_RESULT XGLAPI __HOOKED_xglInitAndEnumerateGpus(') |
| iae_body.append(' const XGL_APPLICATION_INFO* pAppInfo,') |
| iae_body.append(' const XGL_ALLOC_CALLBACKS* pAllocCb,') |
| iae_body.append(' XGL_UINT maxGpus,') |
| iae_body.append(' XGL_UINT* pGpuCount,') |
| iae_body.append(' XGL_PHYSICAL_GPU* pGpus)') |
| iae_body.append('{') |
| iae_body.append(' glv_trace_packet_header* pHeader;') |
| iae_body.append(' XGL_RESULT result;') |
| iae_body.append(' uint64_t startTime;') |
| iae_body.append(' struct_xglInitAndEnumerateGpus* pPacket;') |
| iae_body.append('') |
| iae_body.append(' glv_platform_thread_once(&gInitOnce, InitTracer);') |
| iae_body.append(' SEND_ENTRYPOINT_ID(xglInitAndEnumerateGpus);') |
| iae_body.append(' if (real_xglInitAndEnumerateGpus == xglInitAndEnumerateGpus)') |
| iae_body.append(' {') |
| iae_body.append(' glv_platform_get_next_lib_sym((void **) &real_xglInitAndEnumerateGpus,"xglInitAndEnumerateGpus");') |
| iae_body.append(' }') |
| iae_body.append(' startTime = glv_get_time();') |
| iae_body.append(' result = real_xglInitAndEnumerateGpus(pAppInfo, pAllocCb, maxGpus, pGpuCount, pGpus);') |
| iae_body.append('') |
| iae_body.append(' // since we do not know how many gpus will be found must create trace packet after calling xglInit') |
| iae_body.append(' CREATE_TRACE_PACKET(xglInitAndEnumerateGpus, calc_size_XGL_APPLICATION_INFO(pAppInfo) + ((pAllocCb == NULL) ? 0 :sizeof(XGL_ALLOC_CALLBACKS))') |
| iae_body.append(' + sizeof(XGL_UINT) + ((pGpus && pGpuCount) ? *pGpuCount * sizeof(XGL_PHYSICAL_GPU) : 0));') |
| iae_body.append(' pHeader->entrypoint_begin_time = startTime;') |
| iae_body.append(' if (isHooked == FALSE) {') |
| iae_body.append(' AttachHooks();') |
| iae_body.append(' AttachHooks_xgldbg();') |
| iae_body.append(' AttachHooks_xglwsix11ext();') |
| iae_body.append(' }') |
| iae_body.append(' pPacket = interpret_body_as_xglInitAndEnumerateGpus(pHeader);') |
| iae_body.append(' add_XGL_APPLICATION_INFO_to_packet(pHeader, (XGL_APPLICATION_INFO**)&(pPacket->pAppInfo), pAppInfo);') |
| iae_body.append(' if (pAllocCb) {') |
| iae_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pAllocCb), sizeof(XGL_ALLOC_CALLBACKS), pAllocCb);') |
| iae_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pAllocCb));') |
| iae_body.append(' }') |
| iae_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pGpuCount), sizeof(XGL_UINT), pGpuCount);') |
| iae_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pGpuCount));') |
| iae_body.append(' if (pGpuCount && pGpus)') |
| iae_body.append(' {') |
| iae_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pGpus), sizeof(XGL_PHYSICAL_GPU) * *pGpuCount, pGpus);') |
| iae_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pGpus));') |
| iae_body.append(' }') |
| iae_body.append(' pPacket->maxGpus = maxGpus;') |
| iae_body.append(' pPacket->result = result;') |
| iae_body.append(' FINISH_TRACE_PACKET();') |
| iae_body.append(' return result;') |
| iae_body.append('}\n') |
| return "\n".join(iae_body) |
| |
| def _gen_unmap_memory(self): |
| um_body = [] |
| um_body.append('GLVTRACER_EXPORT XGL_RESULT XGLAPI __HOOKED_xglUnmapMemory(') |
| um_body.append(' XGL_GPU_MEMORY mem)') |
| um_body.append('{') |
| um_body.append(' glv_trace_packet_header* pHeader;') |
| um_body.append(' XGL_RESULT result;') |
| um_body.append(' struct_xglUnmapMemory* pPacket;') |
| um_body.append(' XGLAllocInfo *entry;') |
| um_body.append(' SEND_ENTRYPOINT_PARAMS("xglUnmapMemory(mem %p)\\n", mem);') |
| um_body.append(' // insert into packet the data that was written by CPU between the xglMapMemory call and here') |
| um_body.append(' // Note must do this prior to the real xglUnMap() or else may get a FAULT') |
| um_body.append(' entry = find_mem_info_entry(mem);') |
| um_body.append(' CREATE_TRACE_PACKET(xglUnmapMemory, (entry) ? entry->size : 0);') |
| um_body.append(' pPacket = interpret_body_as_xglUnmapMemory(pHeader);') |
| um_body.append(' if (entry)') |
| um_body.append(' {') |
| um_body.append(' assert(entry->handle == mem);') |
| um_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**) &(pPacket->pData), entry->size, entry->pData);') |
| um_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pData));') |
| um_body.append(' entry->pData = NULL;') |
| um_body.append(' }') |
| um_body.append(' result = real_xglUnmapMemory(mem);') |
| um_body.append(' pPacket->mem = mem;') |
| um_body.append(' pPacket->result = result;') |
| um_body.append(' FINISH_TRACE_PACKET();') |
| um_body.append(' return result;') |
| um_body.append('}\n') |
| return "\n".join(um_body) |
| |
| #EL == EnumerateLayers |
| #I think this another case where you have to make the real call prior to CREATE_TRACE_PACKET(). SInce you |
| #don't know how many layers will be returned or how big the strings will be. Alternatively, could be |
| #on the safe side of CREATE_TRACE_PACKET with maxStringSize*maxLayerCount. |
| #EL also needs a loop where add a trace buffer for each layer, depending on how you CREATE_TRACE_PACKET. |
| |
| def _generate_trace_funcs(self): |
| func_body = [] |
| for proto in self.protos: |
| if 'InitAndEnumerateGpus' == proto.name: |
| func_body.append(self._gen_iande_gpus()) |
| elif 'UnmapMemory' == proto.name: |
| func_body.append(self._gen_unmap_memory()) |
| elif 'Dbg' not in proto.name and 'Wsi' not in proto.name: |
| packet_update_txt = '' |
| return_txt = '' |
| packet_size = '' |
| in_data_size = False # flag when we need to capture local input size variable for in/out size |
| buff_ptr_indices = [] |
| func_body.append('GLVTRACER_EXPORT %s XGLAPI __HOOKED_xgl%s(' % (proto.ret, proto.name)) |
| for p in proto.params: # TODO : For all of the ptr types, check them for NULL and return 0 is NULL |
| if 'color' == p.name: |
| func_body.append(' %s %s[4],' % (p.ty.replace('[4]', ''), p.name)) |
| else: |
| func_body.append(' %s %s,' % (p.ty, p.name)) |
| if '*' in p.ty and 'pSysMem' != p.name and 'pReserved' != p.name: |
| if 'pData' == p.name: |
| if 'dataSize' == proto.params[proto.params.index(p)-1].name: |
| packet_size += 'dataSize + ' |
| elif 'counterCount' == proto.params[proto.params.index(p)-1].name: |
| packet_size += 'sizeof(%s) + ' % p.ty.strip('*').strip('const ') |
| else: |
| packet_size += '((pDataSize != NULL && pData != NULL) ? *pDataSize : 0) + ' |
| elif '**' in p.ty and 'VOID' in p.ty: |
| packet_size += 'sizeof(XGL_VOID*) + ' |
| elif 'VOID' in p.ty: |
| packet_size += 'sizeof(%s) + ' % p.name |
| elif 'CHAR' in p.ty: |
| packet_size += '((%s != NULL) ? strlen(%s) + 1 : 0) + ' % (p.name, p.name) |
| elif 'DEVICE_CREATE_INFO' in p.ty: |
| packet_size += 'calc_size_XGL_DEVICE_CREATE_INFO(pCreateInfo) + ' |
| elif 'pDataSize' in p.name: |
| packet_size += '((pDataSize != NULL) ? sizeof(XGL_SIZE) : 0) + ' |
| in_data_size = True; |
| elif 'IMAGE_SUBRESOURCE' in p.ty and 'pSubresource' == p.name: |
| packet_size += '((pSubresource != NULL) ? sizeof(XGL_IMAGE_SUBRESOURCE) : 0) + ' |
| else: |
| packet_size += 'sizeof(%s) + ' % p.ty.strip('*').strip('const ') |
| buff_ptr_indices.append(proto.params.index(p)) |
| else: |
| if 'color' == p.name: |
| packet_update_txt += ' memcpy((void*)pPacket->color, color, 4 * sizeof(XGL_UINT32));\n' |
| else: |
| packet_update_txt += ' pPacket->%s = %s;\n' % (p.name, p.name) |
| if 'Count' in p.name and proto.params[-1].name != p.name and p.name not in ['queryCount', 'vertexCount', 'indexCount', 'startCounter'] and proto.name not in ['CmdLoadAtomicCounters', 'CmdSaveAtomicCounters']: |
| packet_size += '%s*' % p.name |
| if '' == packet_size: |
| packet_size = '0' |
| else: |
| packet_size = packet_size.strip(' + ') |
| func_body[-1] = func_body[-1].replace(',', ')') |
| func_body.append('{\n glv_trace_packet_header* pHeader;') |
| if 'VOID' not in proto.ret or '*' in proto.ret: |
| func_body.append(' %s result;' % proto.ret) |
| return_txt = 'result = ' |
| if in_data_size: |
| func_body.append(' XGL_SIZE dataSizeIn = (pDataSize == NULL) ? 0 : *pDataSize;') |
| func_body.append(' struct_xgl%s* pPacket = NULL;' % proto.name) |
| func_body.append(' SEND_ENTRYPOINT_ID(xgl%s);' % proto.name) |
| if 'EnumerateLayers' == proto.name: |
| func_body.append(' %sreal_xgl%s;' % (return_txt, proto.c_call())) |
| func_body.append(' XGL_SIZE totStringSize = 0;') |
| func_body.append(' uint32_t i = 0;') |
| func_body.append(' for (i = 0; i < *pOutLayerCount; i++)') |
| func_body.append(' totStringSize += (pOutLayers[i] != NULL) ? strlen(pOutLayers[i]) + 1: 0;') |
| func_body.append(' CREATE_TRACE_PACKET(xgl%s, totStringSize + sizeof(XGL_SIZE));' % (proto.name)) |
| elif proto.name in ['CreateShader', 'CreateFramebuffer', 'CreateRenderPass', 'BeginCommandBuffer', 'CreateGraphicsPipeline', 'CreateComputePipeline']: |
| func_body.append(' size_t customSize;') |
| if 'CreateShader' == proto.name: |
| func_body.append(' customSize = (pCreateInfo != NULL) ? pCreateInfo->codeSize : 0;') |
| func_body.append(' CREATE_TRACE_PACKET(xglCreateShader, sizeof(XGL_SHADER_CREATE_INFO) + sizeof(XGL_SHADER) + customSize);') |
| elif 'CreateGraphicsPipeline' == proto.name: |
| func_body.append(' customSize = calculate_pipeline_state_size(pCreateInfo->pNext);') |
| func_body.append(' CREATE_TRACE_PACKET(xglCreateGraphicsPipeline, sizeof(XGL_GRAPHICS_PIPELINE_CREATE_INFO) + sizeof(XGL_PIPELINE) + customSize);') |
| elif 'CreateFramebuffer' == proto.name: |
| func_body.append(' int dsSize = (pCreateInfo != NULL && pCreateInfo->pDepthStencilAttachment != NULL) ? sizeof(XGL_DEPTH_STENCIL_BIND_INFO) : 0;') |
| func_body.append(' int colorCount = (pCreateInfo != NULL && pCreateInfo->pColorAttachments != NULL) ? pCreateInfo->colorAttachmentCount : 0;') |
| func_body.append(' customSize = colorCount * sizeof(XGL_COLOR_ATTACHMENT_BIND_INFO) + dsSize;') |
| func_body.append(' CREATE_TRACE_PACKET(xglCreateFramebuffer, sizeof(XGL_FRAMEBUFFER_CREATE_INFO) + sizeof(XGL_FRAMEBUFFER) + customSize);') |
| elif 'CreateRenderPass' == proto.name: |
| # HACK ALERT, TODO this API currently has insufficient parameters to determine the count of the colorLoadOps, colorStoreOps, in the CREATE_INFO struct |
| # assume number of colorAttachments == 1 for now rather than tracing code keeping a list of framebuffer objects with colorAttachmentCounts |
| func_body.append(' int colorCount = (pCreateInfo != NULL && pCreateInfo->pColorLoadOps != NULL && pCreateInfo->pColorStoreOps != NULL && pCreateInfo->pColorLoadClearValues != NULL) ? 1 : 0; //TODO fixme') |
| func_body.append(' customSize = colorCount * (sizeof(XGL_ATTACHMENT_LOAD_OP) + sizeof(XGL_ATTACHMENT_STORE_OP) + sizeof(XGL_CLEAR_COLOR));') |
| func_body.append(' CREATE_TRACE_PACKET(xglCreateRenderPass, sizeof(XGL_RENDER_PASS_CREATE_INFO) + sizeof(XGL_RENDER_PASS) + customSize);') |
| elif 'BeginCommandBuffer' == proto.name: |
| func_body.append(' customSize = calculate_begin_cmdbuf_size(pBeginInfo->pNext);') |
| func_body.append(' CREATE_TRACE_PACKET(xglBeginCommandBuffer, sizeof(XGL_CMD_BUFFER_BEGIN_INFO) + customSize);') |
| else: #'CreateComputePipeline' |
| func_body.append(' customSize = calculate_pipeline_state_size(pCreateInfo->pNext);') |
| func_body.append(' CREATE_TRACE_PACKET(xglCreateComputePipeline, sizeof(XGL_COMPUTE_PIPELINE_CREATE_INFO) + sizeof(XGL_PIPELINE) + customSize + calculate_pipeline_shader_size(&pCreateInfo->cs));') |
| func_body.append(' %sreal_xgl%s;' % (return_txt, proto.c_call())) |
| else: |
| func_body.append(' CREATE_TRACE_PACKET(xgl%s, %s);' % (proto.name, packet_size)) |
| func_body.append(' %sreal_xgl%s;' % (return_txt, proto.c_call())) |
| func_body.append(' pPacket = interpret_body_as_xgl%s(pHeader);' % proto.name) |
| func_body.append(packet_update_txt.strip('\n')) |
| if 'MapMemory' == proto.name: # Custom code for MapMem case |
| func_body.append(' if (ppData != NULL)') |
| func_body.append(' {') |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->ppData), sizeof(XGL_VOID*), *ppData);') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->ppData));') |
| func_body.append(' add_data_to_mem_info(mem, *ppData);') |
| func_body.append(' }') |
| func_body.append(' pPacket->result = result;') |
| func_body.append(' FINISH_TRACE_PACKET();') |
| elif 'EnumerateLayers' == proto.name: #custom code for EnumerateLayers case |
| func_body.append(' pPacket->gpu = gpu;') |
| func_body.append(' pPacket->maxLayerCount = maxLayerCount;') |
| func_body.append(' pPacket->maxStringSize = maxStringSize;') |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pOutLayerCount), sizeof(XGL_SIZE), pOutLayerCount);') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pOutLayerCount));') |
| func_body.append(' for (i = 0; i < *pOutLayerCount; i++) {') |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pOutLayers[i]), ((pOutLayers[i] != NULL) ? strlen(pOutLayers[i]) + 1 : 0), pOutLayers[i]);') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pOutLayers[i]));') |
| func_body.append(' }') |
| |
| func_body.append(' pPacket->pReserved = pReserved;') |
| func_body.append(' pPacket->result = result;') |
| func_body.append(' FINISH_TRACE_PACKET();') |
| else: |
| # TODO : Clean this up. Too much custom code and branching. |
| for idx in buff_ptr_indices: |
| if 'DEVICE_CREATE_INFO' in proto.params[idx].ty: |
| func_body.append(' add_XGL_DEVICE_CREATE_INFO_to_packet(pHeader, (XGL_DEVICE_CREATE_INFO**) &(pPacket->pCreateInfo), pCreateInfo);') |
| elif 'CHAR' in proto.params[idx].ty: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), ((%s != NULL) ? strlen(%s) + 1 : 0), %s);' % (proto.params[idx].name, proto.params[idx].name, proto.params[idx].name, proto.params[idx].name)) |
| elif 'Count' in proto.params[idx-1].name and 'queryCount' != proto.params[idx-1].name: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), %s*sizeof(%s), %s);' % (proto.params[idx].name, proto.params[idx-1].name, proto.params[idx].ty.strip('*').strip('const '), proto.params[idx].name)) |
| elif 'dataSize' == proto.params[idx].name: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), dataSize, %s);' % (proto.params[idx].name, proto.params[idx].name)) |
| elif 'pDataSize' == proto.params[idx].name: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), sizeof(XGL_SIZE), &dataSizeIn);' % (proto.params[idx].name)) |
| elif 'pData' == proto.params[idx].name: |
| if 'dataSize' == proto.params[idx-1].name: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), dataSize, %s);' % (proto.params[idx].name, proto.params[idx].name)) |
| elif in_data_size: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), dataSizeIn, %s);' % (proto.params[idx].name, proto.params[idx].name)) |
| else: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), (pDataSize != NULL && pData != NULL) ? *pDataSize : 0, %s);' % (proto.params[idx].name, proto.params[idx].name)) |
| else: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), sizeof(%s), %s);' % (proto.params[idx].name, proto.params[idx].ty.strip('*').strip('const '), proto.params[idx].name)) |
| # Some custom add_* and finalize_* function calls for Create* API calls |
| if proto.name in ['CreateShader', 'CreateFramebuffer', 'CreateRenderPass', 'BeginCommandBuffer', 'CreateGraphicsPipeline', 'CreateComputePipeline']: |
| if 'CreateShader' == proto.name: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pCreateInfo->pCode), customSize, pCreateInfo->pCode);') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pCreateInfo->pCode));') |
| elif 'CreateFramebuffer' == proto.name: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pCreateInfo->pColorAttachments), colorCount * sizeof(XGL_COLOR_ATTACHMENT_BIND_INFO), pCreateInfo->pColorAttachments);') |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pCreateInfo->pDepthStencilAttachment), dsSize, pCreateInfo->pDepthStencilAttachment);') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pCreateInfo->pColorAttachments));') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pCreateInfo->pDepthStencilAttachment));') |
| elif 'CreateRenderPass' == proto.name: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pCreateInfo->pColorLoadOps), colorCount * sizeof(XGL_ATTACHMENT_LOAD_OP), pCreateInfo->pColorLoadOps);') |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pCreateInfo->pColorStoreOps), colorCount * sizeof(XGL_ATTACHMENT_STORE_OP), pCreateInfo->pColorStoreOps);') |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->pCreateInfo->pColorLoadClearValues), colorCount * sizeof(XGL_CLEAR_COLOR), pCreateInfo->pColorLoadClearValues);') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pCreateInfo->pColorLoadOps));') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pCreateInfo->pColorStoreOps));') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pCreateInfo->pColorLoadClearValues));') |
| elif 'BeginCommandBuffer' == proto.name: |
| func_body.append(' add_begin_cmdbuf_to_trace_packet(pHeader, (XGL_VOID**)&pPacket->pBeginInfo->pNext, pBeginInfo->pNext);') |
| elif 'CreateGraphicsPipeline' == proto.name: |
| func_body.append(' add_pipeline_state_to_trace_packet(pHeader, (XGL_VOID**)&pPacket->pCreateInfo->pNext, pCreateInfo->pNext);') |
| else: |
| func_body.append(' add_pipeline_state_to_trace_packet(pHeader, (XGL_VOID**)&(pPacket->pCreateInfo->pNext), pCreateInfo->pNext);') |
| func_body.append(' add_pipeline_shader_to_trace_packet(pHeader, (XGL_PIPELINE_SHADER*)&pPacket->pCreateInfo->cs, &pCreateInfo->cs);') |
| func_body.append(' finalize_pipeline_shader_address(pHeader, &pPacket->pCreateInfo->cs);') |
| if 'VOID' not in proto.ret or '*' in proto.ret: |
| func_body.append(' pPacket->result = result;') |
| for idx in buff_ptr_indices: |
| if 'DEVICE_CREATE_INFO' not in proto.params[idx].ty: |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->%s));' % (proto.params[idx].name)) |
| func_body.append(' FINISH_TRACE_PACKET();') |
| if 'AllocMemory' in proto.name: |
| func_body.append(' add_new_handle_to_mem_info(*pMem, pAllocInfo->allocationSize, NULL);') |
| elif 'FreeMemory' in proto.name: |
| func_body.append(' rm_handle_from_mem_info(mem);') |
| if 'VOID' not in proto.ret or '*' in proto.ret: |
| func_body.append(' return result;') |
| func_body.append('}\n') |
| return "\n".join(func_body) |
| |
| def _generate_trace_funcs_ext(self, func_class='Wsi'): |
| thread_once_funcs = ['DbgRegisterMsgCallback', 'DbgUnregisterMsgCallback', 'DbgSetGlobalOption'] |
| func_body = [] |
| for proto in self.protos: |
| if func_class in proto.name: |
| packet_update_txt = '' |
| return_txt = '' |
| packet_size = '' |
| buff_ptr_indices = [] |
| func_body.append('GLVTRACER_EXPORT %s XGLAPI __HOOKED_xgl%s(' % (proto.ret, proto.name)) |
| for p in proto.params: # TODO : For all of the ptr types, check them for NULL and return 0 is NULL |
| func_body.append(' %s %s,' % (p.ty, p.name)) |
| if 'Size' in p.name: |
| packet_size += p.name |
| if '*' in p.ty and 'pSysMem' != p.name: |
| if 'CHAR' in p.ty: |
| packet_size += '((%s != NULL) ? strlen(%s) + 1 : 0) + ' % (p.name, p.name) |
| elif 'Size' not in packet_size: |
| packet_size += 'sizeof(%s) + ' % p.ty.strip('*').strip('const ') |
| buff_ptr_indices.append(proto.params.index(p)) |
| if 'pConnectionInfo' in p.name: |
| packet_size += '((pConnectionInfo->pConnection != NULL) ? sizeof(void *) : 0)' |
| else: |
| packet_update_txt += ' pPacket->%s = %s;\n' % (p.name, p.name) |
| if '' == packet_size: |
| packet_size = '0' |
| else: |
| packet_size = packet_size.strip(' + ') |
| func_body[-1] = func_body[-1].replace(',', ')') |
| func_body.append('{\n glv_trace_packet_header* pHeader;') |
| if 'VOID' not in proto.ret or '*' in proto.ret: |
| func_body.append(' %s result;' % proto.ret) |
| return_txt = 'result = ' |
| func_body.append(' struct_xgl%s* pPacket = NULL;' % proto.name) |
| if proto.name in thread_once_funcs: |
| func_body.append(' glv_platform_thread_once(&gInitOnce, InitTracer);') |
| func_body.append(' SEND_ENTRYPOINT_ID(xgl%s);' % proto.name) |
| func_body.append(' CREATE_TRACE_PACKET(xgl%s, %s);' % (proto.name, packet_size)) |
| func_body.append(' %sreal_xgl%s;' % (return_txt, proto.c_call())) |
| func_body.append(' pPacket = interpret_body_as_xgl%s(pHeader);' % proto.name) |
| func_body.append(packet_update_txt.strip('\n')) |
| for idx in buff_ptr_indices: |
| if 'CHAR' in proto.params[idx].ty: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), ((%s != NULL) ? strlen(%s) + 1 : 0), %s);' % (proto.params[idx].name, proto.params[idx].name, proto.params[idx].name, proto.params[idx].name)) |
| elif 'Size' in proto.params[idx-1].name: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), %s, %s);' % (proto.params[idx].name, proto.params[idx-1].name, proto.params[idx].name)) |
| else: |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(pPacket->%s), sizeof(%s), %s);' % (proto.params[idx].name, proto.params[idx].ty.strip('*').strip('const '), proto.params[idx].name)) |
| if 'WsiX11AssociateConnection' in proto.name: |
| func_body.append(' if (pConnectionInfo->pConnection != NULL) {') |
| func_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**) &(pPacket->pConnectionInfo->pConnection), sizeof(void *), pConnectionInfo->pConnection);') |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**) &(pPacket->pConnectionInfo->pConnection));') |
| func_body.append(' }') |
| if 'VOID' not in proto.ret or '*' in proto.ret: |
| func_body.append(' pPacket->result = result;') |
| for idx in buff_ptr_indices: |
| func_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->%s));' % (proto.params[idx].name)) |
| func_body.append(' FINISH_TRACE_PACKET();') |
| if 'VOID' not in proto.ret or '*' in proto.ret: |
| func_body.append(' return result;') |
| func_body.append('}\n') |
| return "\n".join(func_body) |
| |
| def _generate_helper_funcs(self): |
| hf_body = [] |
| hf_body.append('// Support for shadowing CPU mapped memory') |
| hf_body.append('typedef struct _XGLAllocInfo {') |
| hf_body.append(' XGL_GPU_SIZE size;') |
| hf_body.append(' XGL_GPU_MEMORY handle;') |
| hf_body.append(' XGL_VOID *pData;') |
| hf_body.append(' BOOL valid;') |
| hf_body.append('} XGLAllocInfo;') |
| hf_body.append('typedef struct _XGLMemInfo {') |
| hf_body.append(' unsigned int numEntrys;') |
| hf_body.append(' XGLAllocInfo *pEntrys;') |
| hf_body.append(' XGLAllocInfo *pLastMapped;') |
| hf_body.append(' unsigned int capacity;') |
| hf_body.append('} XGLMemInfo;') |
| hf_body.append('') |
| hf_body.append('static XGLMemInfo mInfo = {0, NULL, NULL, 0};') |
| hf_body.append('') |
| hf_body.append('static void init_mem_info_entrys(XGLAllocInfo *ptr, const unsigned int num)') |
| hf_body.append('{') |
| hf_body.append(' unsigned int i;') |
| hf_body.append(' for (i = 0; i < num; i++)') |
| hf_body.append(' {') |
| hf_body.append(' XGLAllocInfo *entry = ptr + i;') |
| hf_body.append(' entry->pData = NULL;') |
| hf_body.append(' entry->size = 0;') |
| hf_body.append(' entry->handle = NULL;') |
| hf_body.append(' entry->valid = FALSE;') |
| hf_body.append(' }') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static void init_mem_info()') |
| hf_body.append('{') |
| hf_body.append(' mInfo.numEntrys = 0;') |
| hf_body.append(' mInfo.capacity = 1024;') |
| hf_body.append(' mInfo.pLastMapped = NULL;') |
| hf_body.append('') |
| hf_body.append(' mInfo.pEntrys = GLV_NEW_ARRAY(XGLAllocInfo, mInfo.capacity);') |
| hf_body.append('') |
| hf_body.append(' if (mInfo.pEntrys == NULL)') |
| hf_body.append(' glv_LogError("init_mem_info() malloc failed\\n");') |
| hf_body.append(' else') |
| hf_body.append(' init_mem_info_entrys(mInfo.pEntrys, mInfo.capacity);') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static void delete_mem_info()') |
| hf_body.append('{') |
| hf_body.append(' GLV_DELETE(mInfo.pEntrys);') |
| hf_body.append(' mInfo.pEntrys = NULL;') |
| hf_body.append(' mInfo.numEntrys = 0;') |
| hf_body.append(' mInfo.capacity = 0;') |
| hf_body.append(' mInfo.pLastMapped = NULL;') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static XGLAllocInfo * get_mem_info_entry()') |
| hf_body.append('{') |
| hf_body.append(' unsigned int i;') |
| hf_body.append(' XGLAllocInfo *entry;') |
| hf_body.append(' if (mInfo.numEntrys > mInfo.capacity)') |
| hf_body.append(' {') |
| hf_body.append(' glv_LogError("get_mem_info_entry() bad internal state numEntrys\\n");') |
| hf_body.append(' return NULL;') |
| hf_body.append(' }') |
| hf_body.append('') |
| hf_body.append(' if (mInfo.numEntrys == mInfo.capacity)') |
| hf_body.append(' { // grow the array 2x') |
| hf_body.append(' mInfo.capacity *= 2;') |
| hf_body.append(' mInfo.pEntrys = (XGLAllocInfo *) GLV_REALLOC(mInfo.pEntrys, mInfo.capacity * sizeof(XGLAllocInfo));') |
| hf_body.append(' //init the newly added entrys') |
| hf_body.append(' init_mem_info_entrys(mInfo.pEntrys + mInfo.capacity / 2, mInfo.capacity / 2);') |
| hf_body.append(' }') |
| hf_body.append('') |
| hf_body.append(' assert(mInfo.numEntrys < mInfo.capacity);') |
| hf_body.append(' entry = mInfo.pEntrys;') |
| hf_body.append(' for (i = 0; i < mInfo.capacity; i++)') |
| hf_body.append(' {') |
| hf_body.append(' if ((entry + i)->valid == FALSE)') |
| hf_body.append(' return entry + i;') |
| hf_body.append(' }') |
| hf_body.append('') |
| hf_body.append(' glv_LogError("get_mem_info_entry() did not find an entry\\n");') |
| hf_body.append(' return NULL;') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static XGLAllocInfo * find_mem_info_entry(const XGL_GPU_MEMORY handle)') |
| hf_body.append('{') |
| hf_body.append(' XGLAllocInfo *entry = mInfo.pEntrys;') |
| hf_body.append(' unsigned int i;') |
| hf_body.append(' if (mInfo.pLastMapped && mInfo.pLastMapped->handle == handle && mInfo.pLastMapped->valid)') |
| hf_body.append(' return mInfo.pLastMapped;') |
| hf_body.append(' for (i = 0; i < mInfo.numEntrys; i++)') |
| hf_body.append(' {') |
| hf_body.append(' if ((entry + i)->valid && (handle == (entry + i)->handle))') |
| hf_body.append(' return entry + i;') |
| hf_body.append(' }') |
| hf_body.append('') |
| hf_body.append(' return NULL;') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static void add_new_handle_to_mem_info(const XGL_GPU_MEMORY handle, XGL_GPU_SIZE size, XGL_VOID *pData)') |
| hf_body.append('{') |
| hf_body.append(' XGLAllocInfo *entry;') |
| hf_body.append('') |
| hf_body.append(' if (mInfo.capacity == 0)') |
| hf_body.append(' init_mem_info();') |
| hf_body.append('') |
| hf_body.append(' entry = get_mem_info_entry();') |
| hf_body.append(' if (entry)') |
| hf_body.append(' {') |
| hf_body.append(' entry->valid = TRUE;') |
| hf_body.append(' entry->handle = handle;') |
| hf_body.append(' entry->size = size;') |
| hf_body.append(' entry->pData = pData; // NOTE: xglFreeMemory will free this mem, so no malloc()') |
| hf_body.append(' mInfo.numEntrys++;') |
| hf_body.append(' }') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static void add_data_to_mem_info(const XGL_GPU_MEMORY handle, XGL_VOID *pData)') |
| hf_body.append('{') |
| hf_body.append(' XGLAllocInfo *entry = find_mem_info_entry(handle);') |
| hf_body.append('') |
| hf_body.append(' if (entry)') |
| hf_body.append(' {') |
| hf_body.append(' entry->pData = pData;') |
| hf_body.append(' }') |
| hf_body.append(' mInfo.pLastMapped = entry;') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static void rm_handle_from_mem_info(const XGL_GPU_MEMORY handle)') |
| hf_body.append('{') |
| hf_body.append(' XGLAllocInfo *entry = find_mem_info_entry(handle);') |
| hf_body.append('') |
| hf_body.append(' if (entry)') |
| hf_body.append(' {') |
| hf_body.append(' entry->valid = FALSE;') |
| hf_body.append(' entry->pData = NULL;') |
| hf_body.append(' entry->size = 0;') |
| hf_body.append(' entry->handle = NULL;') |
| hf_body.append('') |
| hf_body.append(' mInfo.numEntrys--;') |
| hf_body.append(' if (entry == mInfo.pLastMapped)') |
| hf_body.append(' mInfo.pLastMapped = NULL;') |
| hf_body.append(' if (mInfo.numEntrys == 0)') |
| hf_body.append(' delete_mem_info();') |
| hf_body.append(' }') |
| hf_body.append('}') |
| hf_body.append('') |
| |
| |
| hf_body.append('static void add_begin_cmdbuf_to_trace_packet(glv_trace_packet_header* pHeader, XGL_VOID** ppOut, const XGL_VOID* pIn)') |
| hf_body.append('{') |
| hf_body.append(' const XGL_CMD_BUFFER_BEGIN_INFO* pInNow = pIn;') |
| hf_body.append(' XGL_CMD_BUFFER_BEGIN_INFO** ppOutNext = (XGL_CMD_BUFFER_BEGIN_INFO**)ppOut;') |
| hf_body.append(' while (pInNow != NULL)') |
| hf_body.append(' {') |
| hf_body.append(' XGL_CMD_BUFFER_BEGIN_INFO** ppOutNow = ppOutNext;') |
| hf_body.append(' ppOutNext = NULL;') |
| hf_body.append('') |
| hf_body.append(' switch (pInNow->sType)') |
| hf_body.append(' {') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_CMD_BUFFER_GRAPHICS_BEGIN_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(ppOutNow), sizeof(XGL_CMD_BUFFER_GRAPHICS_BEGIN_INFO), pInNow);') |
| hf_body.append(' ppOutNext = (XGL_CMD_BUFFER_BEGIN_INFO**)&(*ppOutNow)->pNext;') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)(ppOutNow));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' default:') |
| hf_body.append(' assert(!"Encountered an unexpected type in pipeline state list");') |
| hf_body.append(' }') |
| hf_body.append(' pInNow = (XGL_CMD_BUFFER_BEGIN_INFO*)pInNow->pNext;') |
| hf_body.append(' }') |
| hf_body.append(' return;') |
| hf_body.append('}') |
| |
| hf_body.append('static size_t calculate_begin_cmdbuf_size(const XGL_CMD_BUFFER_BEGIN_INFO* pNext)') |
| hf_body.append('{') |
| hf_body.append(' size_t siz = 0;') |
| hf_body.append(' while (pNext != NULL)') |
| hf_body.append(' {') |
| hf_body.append(' switch (pNext->sType)') |
| hf_body.append(' {') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_CMD_BUFFER_GRAPHICS_BEGIN_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' siz += sizeof(XGL_CMD_BUFFER_GRAPHICS_BEGIN_INFO);') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' default:') |
| hf_body.append(' glv_LogError("calculate_begin_cmdbuf_size() bad internal state sType\\n");') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' pNext = (XGL_CMD_BUFFER_BEGIN_INFO*)pNext->pNext;') |
| hf_body.append(' }') |
| hf_body.append(' return siz;') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static size_t calculate_pipeline_shader_size(const XGL_PIPELINE_SHADER* shader)') |
| hf_body.append('{') |
| hf_body.append(' size_t size = 0;') |
| hf_body.append(' XGL_UINT i, j;') |
| hf_body.append(' ') |
| hf_body.append(' size += sizeof(XGL_PIPELINE_SHADER);') |
| hf_body.append(' // descriptor sets') |
| hf_body.append(' for (i = 0; i < XGL_MAX_DESCRIPTOR_SETS; i++)') |
| hf_body.append(' {') |
| hf_body.append(' for (j = 0; j < shader->descriptorSetMapping[i].descriptorCount; j++)') |
| hf_body.append(' {') |
| hf_body.append(' size += sizeof(XGL_DESCRIPTOR_SLOT_INFO);') |
| hf_body.append(' if (shader->descriptorSetMapping[i].pDescriptorInfo[j].slotObjectType == XGL_SLOT_NEXT_DESCRIPTOR_SET)') |
| hf_body.append(' {') |
| hf_body.append(' size += sizeof(XGL_DESCRIPTOR_SET_MAPPING);') |
| hf_body.append(' }') |
| hf_body.append(' }') |
| hf_body.append(' }') |
| hf_body.append('') |
| hf_body.append(' // constant buffers') |
| hf_body.append(' if (shader->linkConstBufferCount > 0 && shader->pLinkConstBufferInfo != NULL)') |
| hf_body.append(' {') |
| hf_body.append(' XGL_UINT i;') |
| hf_body.append(' for (i = 0; i < shader->linkConstBufferCount; i++)') |
| hf_body.append(' {') |
| hf_body.append(' size += sizeof(XGL_LINK_CONST_BUFFER);') |
| hf_body.append(' size += shader->pLinkConstBufferInfo[i].bufferSize;') |
| hf_body.append(' }') |
| hf_body.append(' }') |
| hf_body.append(' return size;') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static void add_pipeline_shader_to_trace_packet(glv_trace_packet_header* pHeader, XGL_PIPELINE_SHADER* packetShader, const XGL_PIPELINE_SHADER* paramShader)') |
| hf_body.append('{') |
| hf_body.append(' XGL_UINT i, j;') |
| hf_body.append(' // descriptor sets') |
| hf_body.append(' for (i = 0; i < XGL_MAX_DESCRIPTOR_SETS; i++)') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(packetShader->descriptorSetMapping[i].pDescriptorInfo), sizeof(XGL_DESCRIPTOR_SLOT_INFO)* paramShader->descriptorSetMapping[i].descriptorCount, paramShader->descriptorSetMapping[i].pDescriptorInfo);') |
| hf_body.append(' for (j = 0; j < paramShader->descriptorSetMapping[i].descriptorCount; j++)') |
| hf_body.append(' {') |
| hf_body.append(' if (paramShader->descriptorSetMapping[i].pDescriptorInfo[j].slotObjectType == XGL_SLOT_NEXT_DESCRIPTOR_SET)') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(packetShader->descriptorSetMapping[i].pDescriptorInfo[j].pNextLevelSet), sizeof(XGL_DESCRIPTOR_SET_MAPPING), paramShader->descriptorSetMapping[i].pDescriptorInfo[j].pNextLevelSet);') |
| hf_body.append(' }') |
| hf_body.append(' }') |
| hf_body.append(' packetShader->descriptorSetMapping[i].descriptorCount = paramShader->descriptorSetMapping[i].descriptorCount;') |
| hf_body.append(' }') |
| hf_body.append('') |
| hf_body.append(' // constant buffers') |
| hf_body.append(' if (paramShader->linkConstBufferCount > 0 && paramShader->pLinkConstBufferInfo != NULL)') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(packetShader->pLinkConstBufferInfo), sizeof(XGL_LINK_CONST_BUFFER) * paramShader->linkConstBufferCount, paramShader->pLinkConstBufferInfo);') |
| hf_body.append(' for (i = 0; i < paramShader->linkConstBufferCount; i++)') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(packetShader->pLinkConstBufferInfo[i].pBufferData), packetShader->pLinkConstBufferInfo[i].bufferSize, paramShader->pLinkConstBufferInfo[i].pBufferData);') |
| hf_body.append(' }') |
| hf_body.append(' }') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static void finalize_pipeline_shader_address(glv_trace_packet_header* pHeader, const XGL_PIPELINE_SHADER* packetShader)') |
| hf_body.append('{') |
| hf_body.append(' XGL_UINT i, j;') |
| hf_body.append(' // descriptor sets') |
| hf_body.append(' for (i = 0; i < XGL_MAX_DESCRIPTOR_SETS; i++)') |
| hf_body.append(' {') |
| hf_body.append(' for (j = 0; j < packetShader->descriptorSetMapping[i].descriptorCount; j++)') |
| hf_body.append(' {') |
| hf_body.append(' if (packetShader->descriptorSetMapping[i].pDescriptorInfo[j].slotObjectType == XGL_SLOT_NEXT_DESCRIPTOR_SET)') |
| hf_body.append(' {') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(packetShader->descriptorSetMapping[i].pDescriptorInfo[j].pNextLevelSet));') |
| hf_body.append(' }') |
| hf_body.append(' }') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(packetShader->descriptorSetMapping[i].pDescriptorInfo));') |
| hf_body.append(' }') |
| hf_body.append('') |
| hf_body.append(' // constant buffers') |
| hf_body.append(' if (packetShader->linkConstBufferCount > 0 && packetShader->pLinkConstBufferInfo != NULL)') |
| hf_body.append(' {') |
| hf_body.append(' for (i = 0; i < packetShader->linkConstBufferCount; i++)') |
| hf_body.append(' {') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(packetShader->pLinkConstBufferInfo[i].pBufferData));') |
| hf_body.append(' }') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(packetShader->pLinkConstBufferInfo));') |
| hf_body.append(' }') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static size_t calculate_pipeline_state_size(const XGL_VOID* pState)') |
| hf_body.append('{') |
| hf_body.append(' const XGL_GRAPHICS_PIPELINE_CREATE_INFO* pNext = pState;') |
| hf_body.append(' size_t totalStateSize = 0;') |
| hf_body.append(' while (pNext)') |
| hf_body.append(' {') |
| hf_body.append(' switch (pNext->sType)') |
| hf_body.append(' {') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_IA_STATE_CREATE_INFO:') |
| hf_body.append(' totalStateSize += sizeof(XGL_PIPELINE_IA_STATE_CREATE_INFO);') |
| hf_body.append(' break;') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_TESS_STATE_CREATE_INFO:') |
| hf_body.append(' totalStateSize += sizeof(XGL_PIPELINE_TESS_STATE_CREATE_INFO);') |
| hf_body.append(' break;') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_RS_STATE_CREATE_INFO:') |
| hf_body.append(' totalStateSize += sizeof(XGL_PIPELINE_RS_STATE_CREATE_INFO);') |
| hf_body.append(' break;') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_DB_STATE_CREATE_INFO:') |
| hf_body.append(' totalStateSize += sizeof(XGL_PIPELINE_DB_STATE_CREATE_INFO);') |
| hf_body.append(' break;') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_CB_STATE_CREATE_INFO:') |
| hf_body.append(' totalStateSize += sizeof(XGL_PIPELINE_CB_STATE);') |
| hf_body.append(' break;') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' const XGL_PIPELINE_SHADER_STAGE_CREATE_INFO* pShaderStage = (const XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*)pNext;') |
| hf_body.append(' totalStateSize += (sizeof(XGL_PIPELINE_SHADER_STAGE_CREATE_INFO) + calculate_pipeline_shader_size(&pShaderStage->shader));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' const XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO* pVi = (const XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO*)pNext;') |
| hf_body.append(' totalStateSize += sizeof(XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO) + pVi->bindingCount * sizeof(XGL_VERTEX_INPUT_BINDING_DESCRIPTION)') |
| hf_body.append(' + pVi->attributeCount * sizeof(XGL_VERTEX_INPUT_ATTRIBUTE_DESCRIPTION);') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' default:') |
| hf_body.append(' assert(0);') |
| hf_body.append(' }') |
| hf_body.append(' pNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO*)pNext->pNext;') |
| hf_body.append(' }') |
| hf_body.append(' return totalStateSize;') |
| hf_body.append('}') |
| hf_body.append('') |
| hf_body.append('static void add_pipeline_state_to_trace_packet(glv_trace_packet_header* pHeader, XGL_VOID** ppOut, const XGL_VOID* pIn)') |
| hf_body.append('{') |
| hf_body.append(' const XGL_GRAPHICS_PIPELINE_CREATE_INFO* pInNow = pIn;') |
| hf_body.append(' XGL_GRAPHICS_PIPELINE_CREATE_INFO** ppOutNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO**)ppOut;') |
| hf_body.append(' while (pInNow != NULL)') |
| hf_body.append(' {') |
| hf_body.append(' XGL_GRAPHICS_PIPELINE_CREATE_INFO** ppOutNow = ppOutNext;') |
| hf_body.append(' ppOutNext = NULL;') |
| hf_body.append('') |
| hf_body.append(' switch (pInNow->sType)') |
| hf_body.append(' {') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_IA_STATE_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(ppOutNow), sizeof(XGL_PIPELINE_IA_STATE_CREATE_INFO), pInNow);') |
| hf_body.append(' ppOutNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO**)&(*ppOutNow)->pNext;') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)(ppOutNow));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_TESS_STATE_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(ppOutNow), sizeof(XGL_PIPELINE_TESS_STATE_CREATE_INFO), pInNow);') |
| hf_body.append(' ppOutNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO**)&(*ppOutNow)->pNext;') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)(ppOutNow));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_RS_STATE_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(ppOutNow), sizeof(XGL_PIPELINE_RS_STATE_CREATE_INFO), pInNow);') |
| hf_body.append(' ppOutNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO**)&(*ppOutNow)->pNext;') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)(ppOutNow));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_DB_STATE_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(ppOutNow), sizeof(XGL_PIPELINE_DB_STATE_CREATE_INFO), pInNow);') |
| hf_body.append(' ppOutNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO**)&(*ppOutNow)->pNext;') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)(ppOutNow));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_CB_STATE_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(ppOutNow), sizeof(XGL_PIPELINE_CB_STATE), pInNow);') |
| hf_body.append(' ppOutNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO**)&(*ppOutNow)->pNext;') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)(ppOutNow));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' XGL_PIPELINE_SHADER_STAGE_CREATE_INFO* pPacket = NULL;') |
| hf_body.append(' XGL_PIPELINE_SHADER_STAGE_CREATE_INFO* pInPacket = NULL;') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(ppOutNow), sizeof(XGL_PIPELINE_SHADER_STAGE_CREATE_INFO), pInNow);') |
| hf_body.append(' pPacket = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*) *ppOutNow;') |
| hf_body.append(' pInPacket = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*) pInNow;') |
| hf_body.append(' add_pipeline_shader_to_trace_packet(pHeader, &pPacket->shader, &pInPacket->shader);') |
| hf_body.append(' finalize_pipeline_shader_address(pHeader, &pPacket->shader);') |
| hf_body.append(' ppOutNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO**)&(*ppOutNow)->pNext;') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)(ppOutNow));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' case XGL_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_CREATE_INFO:') |
| hf_body.append(' {') |
| hf_body.append(' XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO *pPacket = NULL;') |
| hf_body.append(' XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO *pIn = NULL;') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(ppOutNow), sizeof(XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO), pInNow);') |
| hf_body.append(' pPacket = (XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO*) *ppOutNow;') |
| hf_body.append(' pIn = (XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO*) pInNow;') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void **) &pPacket->pVertexBindingDescriptions, pIn->bindingCount * sizeof(XGL_VERTEX_INPUT_BINDING_DESCRIPTION), pIn->pVertexBindingDescriptions);') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pVertexBindingDescriptions));') |
| hf_body.append(' glv_add_buffer_to_trace_packet(pHeader, (void **) &pPacket->pVertexAttributeDescriptions, pIn->attributeCount * sizeof(XGL_VERTEX_INPUT_ATTRIBUTE_DESCRIPTION), pIn->pVertexAttributeDescriptions);') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)&(pPacket->pVertexAttributeDescriptions));') |
| hf_body.append(' ppOutNext = (XGL_GRAPHICS_PIPELINE_CREATE_INFO**)&(*ppOutNow)->pNext;') |
| hf_body.append(' glv_finalize_buffer_address(pHeader, (void**)(ppOutNow));') |
| hf_body.append(' break;') |
| hf_body.append(' }') |
| hf_body.append(' default:') |
| hf_body.append(' assert(!"Encountered an unexpected type in pipeline state list");') |
| hf_body.append(' }') |
| hf_body.append(' pInNow = (XGL_GRAPHICS_PIPELINE_CREATE_INFO*)pInNow->pNext;') |
| hf_body.append(' }') |
| hf_body.append(' return;') |
| hf_body.append('}') |
| return "\n".join(hf_body) |
| |
| def _generate_packet_id_enum(self): |
| pid_enum = [] |
| pid_enum.append('enum GLV_TRACE_PACKET_ID_XGL') |
| pid_enum.append('{') |
| first_func = True |
| for proto in self.protos: |
| if first_func: |
| first_func = False |
| pid_enum.append(' GLV_TPI_XGL_xglApiVersion = GLV_TPI_BEGIN_API_HERE,') |
| pid_enum.append(' GLV_TPI_XGL_xgl%s,' % proto.name) |
| else: |
| pid_enum.append(' GLV_TPI_XGL_xgl%s,' % proto.name) |
| pid_enum.append('};\n') |
| return "\n".join(pid_enum) |
| |
| def _generate_stringify_func(self): |
| func_body = [] |
| func_body.append('static const char *stringify_xgl_packet_id(const enum GLV_TRACE_PACKET_ID_XGL id, const glv_trace_packet_header* pHeader)') |
| func_body.append('{') |
| func_body.append(' static char str[1024];') |
| func_body.append(' switch(id) {') |
| func_body.append(' case GLV_TPI_XGL_xglApiVersion:') |
| func_body.append(' {') |
| func_body.append(' struct_xglApiVersion* pPacket = (struct_xglApiVersion*)(pHeader->pBody);') |
| func_body.append(' snprintf(str, 1024, "xglApiVersion = 0x%x", pPacket->version);') |
| func_body.append(' return str;') |
| func_body.append(' }') |
| for proto in self.protos: |
| func_body.append(' case GLV_TPI_XGL_xgl%s:' % proto.name) |
| func_body.append(' {') |
| func_str = 'xgl%s(' % proto.name |
| print_vals = '' |
| create_func = False |
| if 'Create' in proto.name or 'Alloc' in proto.name or 'MapMemory' in proto.name: |
| create_func = True |
| for p in proto.params: |
| last_param = False |
| if (p.name == proto.params[-1].name): |
| last_param = True |
| if last_param and create_func: # last param of create func |
| (pft, pfi) = self._get_printf_params(p.ty,'pPacket->%s' % p.name, True) |
| else: |
| (pft, pfi) = self._get_printf_params(p.ty, 'pPacket->%s' % p.name, False) |
| if last_param == True: |
| func_str += '%s = %s)' % (p.name, pft) |
| print_vals += ', %s' % (pfi) |
| else: |
| func_str += '%s = %s, ' % (p.name, pft) |
| print_vals += ', %s' % (pfi) |
| func_body.append(' struct_xgl%s* pPacket = (struct_xgl%s*)(pHeader->pBody);' % (proto.name, proto.name)) |
| func_body.append(' snprintf(str, 1024, "%s"%s);' % (func_str, print_vals)) |
| func_body.append(' return str;') |
| func_body.append(' }') |
| func_body.append(' default:') |
| func_body.append(' return NULL;') |
| func_body.append(' }') |
| func_body.append('};\n') |
| return "\n".join(func_body) |
| |
| def _generate_interp_func(self): |
| interp_func_body = [] |
| interp_func_body.append('static glv_trace_packet_header* interpret_trace_packet_xgl(glv_trace_packet_header* pHeader)') |
| interp_func_body.append('{') |
| interp_func_body.append(' if (pHeader == NULL)') |
| interp_func_body.append(' {') |
| interp_func_body.append(' return NULL;') |
| interp_func_body.append(' }') |
| interp_func_body.append(' switch (pHeader->packet_id)') |
| interp_func_body.append(' {') |
| interp_func_body.append(' case GLV_TPI_XGL_xglApiVersion:\n {') |
| interp_func_body.append(' return interpret_body_as_xglApiVersion(pHeader, TRUE)->header;\n }') |
| for proto in self.protos: |
| interp_func_body.append(' case GLV_TPI_XGL_xgl%s:\n {' % proto.name) |
| header_prefix = 'h' |
| if 'Wsi' in proto.name or 'Dbg' in proto.name: |
| header_prefix = 'pH' |
| interp_func_body.append(' return interpret_body_as_xgl%s(pHeader)->%seader;\n }' % (proto.name, header_prefix)) |
| interp_func_body.append(' default:') |
| interp_func_body.append(' return NULL;') |
| interp_func_body.append(' }') |
| interp_func_body.append(' return NULL;') |
| interp_func_body.append('}') |
| return "\n".join(interp_func_body) |
| |
| def _generate_struct_util_funcs(self): |
| pid_enum = [] |
| pid_enum.append('//=============================================================================') |
| pid_enum.append('static uint64_t calc_size_XGL_APPLICATION_INFO(const XGL_APPLICATION_INFO* pStruct)') |
| pid_enum.append('{') |
| pid_enum.append(' return ((pStruct == NULL) ? 0 : sizeof(XGL_APPLICATION_INFO)) + strlen(pStruct->pAppName) + 1 + strlen(pStruct->pEngineName) + 1;') |
| pid_enum.append('}\n') |
| pid_enum.append('static void add_XGL_APPLICATION_INFO_to_packet(glv_trace_packet_header* pHeader, XGL_APPLICATION_INFO** ppStruct, const XGL_APPLICATION_INFO *pInStruct)') |
| pid_enum.append('{') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)ppStruct, sizeof(XGL_APPLICATION_INFO), pInStruct);') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&((*ppStruct)->pAppName), strlen(pInStruct->pAppName) + 1, pInStruct->pAppName);') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&((*ppStruct)->pEngineName), strlen(pInStruct->pEngineName) + 1, pInStruct->pEngineName);') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void**)&((*ppStruct)->pAppName));') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void**)&((*ppStruct)->pEngineName));') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void**)&*ppStruct);') |
| pid_enum.append('};\n') |
| pid_enum.append('//=============================================================================\n') |
| pid_enum.append('static uint64_t calc_size_XGL_DEVICE_CREATE_INFO(const XGL_DEVICE_CREATE_INFO* pStruct)') |
| pid_enum.append('{') |
| pid_enum.append(' uint64_t total_size_ppEnabledExtensionNames = pStruct->extensionCount * sizeof(XGL_CHAR *);') |
| pid_enum.append(' uint32_t i;') |
| pid_enum.append(' for (i = 0; i < pStruct->extensionCount; i++)') |
| pid_enum.append(' {') |
| pid_enum.append(' total_size_ppEnabledExtensionNames += strlen(pStruct->ppEnabledExtensionNames[i]) + 1;') |
| pid_enum.append(' }') |
| pid_enum.append(' uint64_t total_size_layers = 0;') |
| pid_enum.append(' XGL_LAYER_CREATE_INFO *pNext = ( XGL_LAYER_CREATE_INFO *) pStruct->pNext;') |
| pid_enum.append(' while (pNext != NULL)') |
| pid_enum.append(' {') |
| pid_enum.append(' if ((pNext->sType == XGL_STRUCTURE_TYPE_LAYER_CREATE_INFO) && pNext->layerCount > 0)') |
| pid_enum.append(' {') |
| pid_enum.append(' total_size_layers += sizeof(XGL_LAYER_CREATE_INFO);') |
| pid_enum.append(' for (i = 0; i < pNext->layerCount; i++)') |
| pid_enum.append(' {') |
| pid_enum.append(' total_size_layers += strlen(pNext->ppActiveLayerNames[i]) + 1;') |
| pid_enum.append(' }') |
| pid_enum.append(' }') |
| pid_enum.append(' pNext = ( XGL_LAYER_CREATE_INFO *) pNext->pNext;') |
| pid_enum.append(' }') |
| pid_enum.append(' return sizeof(XGL_DEVICE_CREATE_INFO) + (pStruct->queueRecordCount*sizeof(XGL_DEVICE_CREATE_INFO)) + total_size_ppEnabledExtensionNames + total_size_layers;') |
| pid_enum.append('}\n') |
| pid_enum.append('static void add_XGL_DEVICE_CREATE_INFO_to_packet(glv_trace_packet_header* pHeader, XGL_DEVICE_CREATE_INFO** ppStruct, const XGL_DEVICE_CREATE_INFO *pInStruct)') |
| pid_enum.append('{') |
| pid_enum.append(' uint32_t i;') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)ppStruct, sizeof(XGL_DEVICE_CREATE_INFO), pInStruct);') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)&(*ppStruct)->pRequestedQueues, pInStruct->queueRecordCount*sizeof(XGL_DEVICE_CREATE_INFO), pInStruct->pRequestedQueues);') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void**)&(*ppStruct)->pRequestedQueues);') |
| pid_enum.append(' if (pInStruct->extensionCount > 0) ') |
| pid_enum.append(' {') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(&(*ppStruct)->ppEnabledExtensionNames), pInStruct->extensionCount * sizeof(XGL_CHAR *), pInStruct->ppEnabledExtensionNames);') |
| pid_enum.append(' for (i = 0; i < pInStruct->extensionCount; i++)') |
| pid_enum.append(' {') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(&((*ppStruct)->ppEnabledExtensionNames[i])), strlen(pInStruct->ppEnabledExtensionNames[i]) + 1, pInStruct->ppEnabledExtensionNames[i]);') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void**)(&((*ppStruct)->ppEnabledExtensionNames[i])));') |
| pid_enum.append(' }') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void **)&(*ppStruct)->ppEnabledExtensionNames);') |
| pid_enum.append(' }') |
| pid_enum.append(' XGL_LAYER_CREATE_INFO *pNext = ( XGL_LAYER_CREATE_INFO *) pInStruct->pNext;') |
| pid_enum.append(' while (pNext != NULL)') |
| pid_enum.append(' {') |
| pid_enum.append(' if ((pNext->sType == XGL_STRUCTURE_TYPE_LAYER_CREATE_INFO) && pNext->layerCount > 0)') |
| pid_enum.append(' {') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(&((*ppStruct)->pNext)), sizeof(XGL_LAYER_CREATE_INFO), pNext);') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void**)(&((*ppStruct)->pNext)));') |
| pid_enum.append(' XGL_LAYER_CREATE_INFO **ppOutStruct = (XGL_LAYER_CREATE_INFO **) &((*ppStruct)->pNext);') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(&(*ppOutStruct)->ppActiveLayerNames), pNext->layerCount * sizeof(XGL_CHAR *), pNext->ppActiveLayerNames);') |
| pid_enum.append(' for (i = 0; i < pNext->layerCount; i++)') |
| pid_enum.append(' {') |
| pid_enum.append(' glv_add_buffer_to_trace_packet(pHeader, (void**)(&((*ppOutStruct)->ppActiveLayerNames[i])), strlen(pNext->ppActiveLayerNames[i]) + 1, pNext->ppActiveLayerNames[i]);') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void**)(&((*ppOutStruct)->ppActiveLayerNames[i])));') |
| pid_enum.append(' }') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void **)&(*ppOutStruct)->ppActiveLayerNames);') |
| pid_enum.append(' }') |
| pid_enum.append(' pNext = ( XGL_LAYER_CREATE_INFO *) pNext->pNext;') |
| pid_enum.append(' }') |
| pid_enum.append(' glv_finalize_buffer_address(pHeader, (void**)ppStruct);') |
| pid_enum.append('}\n') |
| pid_enum.append('static XGL_DEVICE_CREATE_INFO* interpret_XGL_DEVICE_CREATE_INFO(glv_trace_packet_header* pHeader, intptr_t ptr_variable)') |
| pid_enum.append('{') |
| pid_enum.append(' XGL_DEVICE_CREATE_INFO* pXGL_DEVICE_CREATE_INFO = (XGL_DEVICE_CREATE_INFO*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)ptr_variable);\n') |
| pid_enum.append(' if (pXGL_DEVICE_CREATE_INFO != NULL)') |
| pid_enum.append(' {') |
| pid_enum.append(' uint32_t i;') |
| pid_enum.append(' const XGL_CHAR** pNames;') |
| pid_enum.append(' pXGL_DEVICE_CREATE_INFO->pRequestedQueues = (const XGL_DEVICE_QUEUE_CREATE_INFO*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pXGL_DEVICE_CREATE_INFO->pRequestedQueues);\n') |
| pid_enum.append(' if (pXGL_DEVICE_CREATE_INFO->extensionCount > 0)') |
| pid_enum.append(' {') |
| pid_enum.append(' pXGL_DEVICE_CREATE_INFO->ppEnabledExtensionNames = (const XGL_CHAR *const*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pXGL_DEVICE_CREATE_INFO->ppEnabledExtensionNames);') |
| pid_enum.append(' pNames = (const XGL_CHAR**)pXGL_DEVICE_CREATE_INFO->ppEnabledExtensionNames;') |
| pid_enum.append(' for (i = 0; i < pXGL_DEVICE_CREATE_INFO->extensionCount; i++)') |
| pid_enum.append(' {') |
| pid_enum.append(' pNames[i] = (const XGL_CHAR*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)(pXGL_DEVICE_CREATE_INFO->ppEnabledExtensionNames[i]));') |
| pid_enum.append(' }') |
| pid_enum.append(' }') |
| pid_enum.append(' XGL_LAYER_CREATE_INFO *pNext = ( XGL_LAYER_CREATE_INFO *) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pXGL_DEVICE_CREATE_INFO->pNext);') |
| pid_enum.append(' while (pNext != NULL)') |
| pid_enum.append(' {') |
| pid_enum.append(' if ((pNext->sType == XGL_STRUCTURE_TYPE_LAYER_CREATE_INFO) && pNext->layerCount > 0)') |
| pid_enum.append(' {') |
| pid_enum.append(' pNext->ppActiveLayerNames = (const XGL_CHAR**) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)(pNext->ppActiveLayerNames));') |
| pid_enum.append(' pNames = (const XGL_CHAR**)pNext->ppActiveLayerNames;') |
| pid_enum.append(' for (i = 0; i < pNext->layerCount; i++)') |
| pid_enum.append(' {') |
| pid_enum.append(' pNames[i] = (const XGL_CHAR*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)(pNext->ppActiveLayerNames[i]));') |
| pid_enum.append(' }') |
| pid_enum.append(' }') |
| pid_enum.append(' pNext = ( XGL_LAYER_CREATE_INFO *) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pNext->pNext);') |
| pid_enum.append(' }') |
| pid_enum.append(' }\n') |
| pid_enum.append(' return pXGL_DEVICE_CREATE_INFO;') |
| pid_enum.append('}\n') |
| pid_enum.append('static void interpret_pipeline_shader(glv_trace_packet_header* pHeader, XGL_PIPELINE_SHADER* pShader)') |
| pid_enum.append('{') |
| pid_enum.append(' XGL_UINT i, j;') |
| pid_enum.append(' if (pShader != NULL)') |
| pid_enum.append(' {') |
| pid_enum.append(' // descriptor sets') |
| pid_enum.append(' // TODO: need to ensure XGL_MAX_DESCRIPTOR_SETS is equal in replay as it was at trace time - meta data') |
| pid_enum.append(' for (i = 0; i < XGL_MAX_DESCRIPTOR_SETS; i++)') |
| pid_enum.append(' {') |
| pid_enum.append(' pShader->descriptorSetMapping[i].pDescriptorInfo = (const XGL_DESCRIPTOR_SLOT_INFO*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pShader->descriptorSetMapping[i].pDescriptorInfo);') |
| pid_enum.append(' for (j = 0; j < pShader->descriptorSetMapping[i].descriptorCount; j++)') |
| pid_enum.append(' {') |
| pid_enum.append(' if (pShader->descriptorSetMapping[i].pDescriptorInfo[j].slotObjectType == XGL_SLOT_NEXT_DESCRIPTOR_SET)') |
| pid_enum.append(' {') |
| pid_enum.append(' XGL_DESCRIPTOR_SLOT_INFO* pInfo = (XGL_DESCRIPTOR_SLOT_INFO*)pShader->descriptorSetMapping[i].pDescriptorInfo;') |
| pid_enum.append(' pInfo[j].pNextLevelSet = (const XGL_DESCRIPTOR_SET_MAPPING*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pShader->descriptorSetMapping[i].pDescriptorInfo[j].pNextLevelSet);') |
| pid_enum.append(' }') |
| pid_enum.append(' }') |
| pid_enum.append(' }\n') |
| pid_enum.append(' // constant buffers') |
| pid_enum.append(' if (pShader->linkConstBufferCount > 0)') |
| pid_enum.append(' {') |
| pid_enum.append(' XGL_UINT i;') |
| pid_enum.append(' pShader->pLinkConstBufferInfo = (const XGL_LINK_CONST_BUFFER*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pShader->pLinkConstBufferInfo);') |
| pid_enum.append(' for (i = 0; i < pShader->linkConstBufferCount; i++)') |
| pid_enum.append(' {') |
| pid_enum.append(' XGL_LINK_CONST_BUFFER* pBuffer = (XGL_LINK_CONST_BUFFER*)pShader->pLinkConstBufferInfo;') |
| pid_enum.append(' pBuffer[i].pBufferData = (const XGL_VOID*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pShader->pLinkConstBufferInfo[i].pBufferData);') |
| pid_enum.append(' }') |
| pid_enum.append(' }') |
| pid_enum.append(' }') |
| pid_enum.append('}\n') |
| pid_enum.append('//=============================================================================') |
| return "\n".join(pid_enum) |
| |
| def _generate_interp_funcs(self): |
| # Custom txt for given function and parameter. First check if param is NULL, then insert txt if not |
| custom_case_dict = { 'InitAndEnumerateGpus' : {'param': 'pAppInfo', 'txt': ['XGL_APPLICATION_INFO* pInfo = (XGL_APPLICATION_INFO*)pPacket->pAppInfo;\n', |
| 'pInfo->pAppName = (const XGL_CHAR*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pAppInfo->pAppName);\n', |
| 'pInfo->pEngineName = (const XGL_CHAR*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pAppInfo->pEngineName);']}, |
| 'CreateShader' : {'param': 'pCreateInfo', 'txt': ['XGL_SHADER_CREATE_INFO* pInfo = (XGL_SHADER_CREATE_INFO*)pPacket->pCreateInfo;\n', |
| 'pInfo->pCode = glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pCreateInfo->pCode);']}, |
| 'CreateFramebuffer' : {'param': 'pCreateInfo', 'txt': ['XGL_FRAMEBUFFER_CREATE_INFO* pInfo = (XGL_FRAMEBUFFER_CREATE_INFO*)pPacket->pCreateInfo;\n', |
| 'pInfo->pColorAttachments = (XGL_COLOR_ATTACHMENT_BIND_INFO*) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pCreateInfo->pColorAttachments);\n', |
| 'pInfo->pDepthStencilAttachment = (XGL_DEPTH_STENCIL_BIND_INFO*) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pCreateInfo->pDepthStencilAttachment);\n']}, |
| 'CreateRenderPass' : {'param': 'pCreateInfo', 'txt': ['XGL_RENDER_PASS_CREATE_INFO* pInfo = (XGL_RENDER_PASS_CREATE_INFO*)pPacket->pCreateInfo;\n', |
| 'pInfo->pColorLoadOps = (XGL_ATTACHMENT_LOAD_OP*) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pCreateInfo->pColorLoadOps);\n', |
| 'pInfo->pColorStoreOps = (XGL_ATTACHMENT_STORE_OP*) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pCreateInfo->pColorStoreOps);\n', |
| 'pInfo->pColorLoadClearValues = (XGL_CLEAR_COLOR*) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pCreateInfo->pColorLoadClearValues);\n']}, |
| 'BeginCommandBuffer' : {'param': 'pBeginInfo', 'txt': ['assert(pPacket->pBeginInfo->sType == XGL_STRUCTURE_TYPE_CMD_BUFFER_BEGIN_INFO);\n', |
| '// need to make a non-const pointer to the pointer so that we can properly change the original pointer to the interpretted one\n', |
| 'XGL_VOID** ppNextVoidPtr = (XGL_VOID**)&pPacket->pBeginInfo->pNext;\n', |
| '*ppNextVoidPtr = (XGL_VOID*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pBeginInfo->pNext);\n', |
| 'XGL_CMD_BUFFER_GRAPHICS_BEGIN_INFO* pNext = (XGL_CMD_BUFFER_GRAPHICS_BEGIN_INFO*)pPacket->pBeginInfo->pNext;\n', |
| 'while ((NULL != pNext) && (XGL_NULL_HANDLE != pNext))\n', '{\n', |
| ' switch(pNext->sType)\n', ' {\n', |
| ' case XGL_STRUCTURE_TYPE_CMD_BUFFER_GRAPHICS_BEGIN_INFO:\n', |
| ' {\n', |
| ' XGL_VOID** ppNextVoidPtr = (XGL_VOID**)&pNext->pNext;\n', |
| ' *ppNextVoidPtr = (XGL_VOID*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pNext->pNext);\n', |
| ' break;\n', |
| ' }\n', |
| ' default:\n', |
| ' assert(!"Encountered an unexpected type in begin command buffer list");\n', |
| ' }\n', |
| ' pNext = (XGL_CMD_BUFFER_GRAPHICS_BEGIN_INFO*)pNext->pNext;\n', |
| '}']}, |
| 'CreateGraphicsPipeline' : {'param': 'pCreateInfo', 'txt': ['assert(pPacket->pCreateInfo->sType == XGL_STRUCTURE_TYPE_GRAPHICS_PIPELINE_CREATE_INFO);\n', |
| '// need to make a non-const pointer to the pointer so that we can properly change the original pointer to the interpretted one\n', |
| 'XGL_VOID** ppNextVoidPtr = (XGL_VOID**)&pPacket->pCreateInfo->pNext;\n', |
| '*ppNextVoidPtr = (XGL_VOID*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->pCreateInfo->pNext);\n', |
| 'XGL_PIPELINE_SHADER_STAGE_CREATE_INFO* pNext = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*)pPacket->pCreateInfo->pNext;\n', |
| 'while ((NULL != pNext) && (XGL_NULL_HANDLE != pNext))\n', '{\n', |
| ' switch(pNext->sType)\n', ' {\n', |
| ' case XGL_STRUCTURE_TYPE_PIPELINE_IA_STATE_CREATE_INFO:\n', |
| ' case XGL_STRUCTURE_TYPE_PIPELINE_TESS_STATE_CREATE_INFO:\n', |
| ' case XGL_STRUCTURE_TYPE_PIPELINE_RS_STATE_CREATE_INFO:\n', |
| ' case XGL_STRUCTURE_TYPE_PIPELINE_DB_STATE_CREATE_INFO:\n', |
| ' case XGL_STRUCTURE_TYPE_PIPELINE_CB_STATE_CREATE_INFO:\n', |
| ' {\n', |
| ' XGL_VOID** ppNextVoidPtr = (XGL_VOID**)&pNext->pNext;\n', |
| ' *ppNextVoidPtr = (XGL_VOID*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pNext->pNext);\n', |
| ' break;\n', |
| ' }\n', |
| ' case XGL_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_CREATE_INFO:\n', |
| ' {\n', |
| ' XGL_VOID** ppNextVoidPtr = (XGL_VOID**)&pNext->pNext;\n', |
| ' *ppNextVoidPtr = (XGL_VOID*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pNext->pNext);\n', |
| ' interpret_pipeline_shader(pHeader, &pNext->shader);\n', |
| ' break;\n', |
| ' }\n', |
| ' case XGL_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_CREATE_INFO:\n', |
| ' {\n', |
| ' XGL_VOID** ppNextVoidPtr = (XGL_VOID**)&pNext->pNext;\n', |
| ' XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO *pVi = (XGL_PIPELINE_VERTEX_INPUT_CREATE_INFO *) pNext;\n', |
| ' *ppNextVoidPtr = (XGL_VOID*)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pNext->pNext);\n', |
| ' pVi->pVertexBindingDescriptions = (XGL_VERTEX_INPUT_BINDING_DESCRIPTION*) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pVi->pVertexBindingDescriptions);\n', |
| ' pVi->pVertexAttributeDescriptions = (XGL_VERTEX_INPUT_ATTRIBUTE_DESCRIPTION*) glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pVi->pVertexAttributeDescriptions);\n', |
| ' break;\n', |
| ' }\n', |
| ' default:\n', |
| ' assert(!"Encountered an unexpected type in pipeline state list");\n', |
| ' }\n', |
| ' pNext = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*)pNext->pNext;\n', |
| '}']}, |
| 'CreateComputePipeline' : {'param': 'pCreateInfo', 'txt': ['interpret_pipeline_shader(pHeader, (XGL_PIPELINE_SHADER*)(&pPacket->pCreateInfo->cs));']}} |
| if_body = [] |
| if_body.append('typedef struct struct_xglApiVersion {') |
| if_body.append(' glv_trace_packet_header* header;') |
| if_body.append(' uint32_t version;') |
| if_body.append('} struct_xglApiVersion;\n') |
| if_body.append('static struct_xglApiVersion* interpret_body_as_xglApiVersion(glv_trace_packet_header* pHeader, BOOL check_version)') |
| if_body.append('{') |
| if_body.append(' struct_xglApiVersion* pPacket = (struct_xglApiVersion*)pHeader->pBody;') |
| if_body.append(' pPacket->header = pHeader;') |
| if_body.append(' if (check_version && pPacket->version != XGL_API_VERSION)') |
| if_body.append(' glv_LogError("Trace file from older XGL version 0x%x, xgl replayer built from version 0x%x, replayer may fail\\n", pPacket->version, XGL_API_VERSION);') |
| if_body.append(' return pPacket;') |
| if_body.append('}\n') |
| for proto in self.protos: |
| if 'Wsi' not in proto.name and 'Dbg' not in proto.name: |
| if 'UnmapMemory' == proto.name: |
| proto.params.append(xgl.Param("XGL_VOID*", "pData")) |
| if_body.append('typedef struct struct_xgl%s {' % proto.name) |
| if_body.append(' glv_trace_packet_header* header;') |
| for p in proto.params: |
| if '[4]' in p.ty: |
| if_body.append(' %s %s[4];' % (p.ty.strip('[4]'), p.name)) |
| else: |
| if_body.append(' %s %s;' % (p.ty, p.name)) |
| if 'XGL_VOID' != proto.ret: |
| if_body.append(' %s result;' % proto.ret) |
| if_body.append('} struct_xgl%s;\n' % proto.name) |
| if_body.append('static struct_xgl%s* interpret_body_as_xgl%s(glv_trace_packet_header* pHeader)' % (proto.name, proto.name)) |
| if_body.append('{') |
| if_body.append(' struct_xgl%s* pPacket = (struct_xgl%s*)pHeader->pBody;' % (proto.name, proto.name)) |
| if_body.append(' pPacket->header = pHeader;') |
| for p in proto.params: |
| if '*' in p.ty: |
| if 'DEVICE_CREATE_INFO' in p.ty: |
| if_body.append(' pPacket->%s = interpret_XGL_DEVICE_CREATE_INFO(pHeader, (intptr_t)pPacket->%s);' % (p.name, p.name)) |
| else: |
| if_body.append(' pPacket->%s = (%s)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->%s);' % (p.name, p.ty, p.name)) |
| if proto.name in custom_case_dict and p.name == custom_case_dict[proto.name]['param']: |
| if_body.append(' if (pPacket->%s != NULL)' % custom_case_dict[proto.name]['param']) |
| if_body.append(' {') |
| if_body.append(' %s' % " ".join(custom_case_dict[proto.name]['txt'])) |
| if_body.append(' }') |
| if_body.append(' return pPacket;') |
| if_body.append('}\n') |
| return "\n".join(if_body) |
| |
| def _generate_interp_funcs_ext(self, func_class='Wsi'): |
| if_body = [] |
| for proto in self.protos: |
| if func_class in proto.name: |
| if_body.append('typedef struct struct_xgl%s {' % proto.name) |
| if_body.append(' glv_trace_packet_header* pHeader;') |
| for p in proto.params: |
| if_body.append(' %s %s;' % (p.ty, p.name)) |
| if 'XGL_VOID' != proto.ret: |
| if_body.append(' %s result;' % proto.ret) |
| if_body.append('} struct_xgl%s;\n' % proto.name) |
| if_body.append('static struct_xgl%s* interpret_body_as_xgl%s(glv_trace_packet_header* pHeader)' % (proto.name, proto.name)) |
| if_body.append('{') |
| if_body.append(' struct_xgl%s* pPacket = (struct_xgl%s*)pHeader->pBody;' % (proto.name, proto.name)) |
| if_body.append(' pPacket->pHeader = pHeader;') |
| for p in proto.params: |
| if '*' in p.ty: |
| if_body.append(' pPacket->%s = (%s)glv_trace_packet_interpret_buffer_pointer(pHeader, (intptr_t)pPacket->%s);' % (p.name, p.ty, p.name)) |
| if_body.append(' return pPacket;') |
| if_body.append('}\n') |
| return "\n".join(if_body) |
| |
| def _generate_replay_class_decls(self): |
| cd_body = [] |
| cd_body.append('class ApiReplay {') |
| cd_body.append('public:') |
| cd_body.append(' virtual ~ApiReplay() { }') |
| cd_body.append(' virtual enum glv_replay::GLV_REPLAY_RESULT replay(glv_trace_packet_header * packet) = 0;') |
| cd_body.append(' virtual int init(glv_replay::Display & disp) = 0;') |
| cd_body.append(' virtual void push_validation_msg(XGL_VALIDATION_LEVEL validationLevel, XGL_BASE_OBJECT srcObject, XGL_SIZE location, XGL_INT msgCode, const char* pMsg) = 0;') |
| cd_body.append(' virtual glv_replay::GLV_REPLAY_RESULT pop_validation_msgs() = 0;') |
| cd_body.append('};\n') |
| cd_body.append('class xglDisplay: public glv_replay::DisplayImp {') |
| cd_body.append('friend class xglReplay;') |
| cd_body.append('public:') |
| cd_body.append(' xglDisplay();') |
| cd_body.append(' ~xglDisplay();') |
| cd_body.append(' int init(const unsigned int gpu_idx);') |
| cd_body.append(' int set_window(glv_window_handle hWindow, unsigned int width, unsigned int height);') |
| cd_body.append(' int create_window(const unsigned int width, const unsigned int height);') |
| cd_body.append(' void resize_window(const unsigned int width, const unsigned int height);') |
| cd_body.append(' void process_event();') |
| cd_body.append(' // XGL_DEVICE get_device() { return m_dev[m_gpuIdx];}') |
| cd_body.append('#if defined(WIN32)') |
| cd_body.append(' HWND get_window_handle() { return m_windowHandle; }') |
| cd_body.append('#elif defined(PLATFORM_LINUX)') |
| cd_body.append(' xcb_window_t get_window_handle() { return m_XcbWindow; }') |
| cd_body.append('#endif') |
| cd_body.append('private:') |
| cd_body.append(' XGL_RESULT init_xgl(const unsigned int gpu_idx);') |
| cd_body.append(' bool m_initedXGL;') |
| cd_body.append('#if defined(WIN32)') |
| cd_body.append(' HWND m_windowHandle;') |
| cd_body.append('#elif defined(PLATFORM_LINUX)') |
| cd_body.append(' XGL_WSI_X11_CONNECTION_INFO m_WsiConnection;') |
| cd_body.append(' xcb_screen_t *m_pXcbScreen;') |
| cd_body.append(' xcb_window_t m_XcbWindow;') |
| cd_body.append('#endif') |
| cd_body.append(' unsigned int m_windowWidth;') |
| cd_body.append(' unsigned int m_windowHeight;') |
| cd_body.append('#if 0') |
| cd_body.append(' XGL_DEVICE m_dev[XGL_MAX_PHYSICAL_GPUS];') |
| cd_body.append(' XGL_UINT32 m_gpuCount;') |
| cd_body.append(' unsigned int m_gpuIdx;') |
| cd_body.append(' XGL_PHYSICAL_GPU m_gpus[XGL_MAX_PHYSICAL_GPUS];') |
| cd_body.append(' XGL_PHYSICAL_GPU_PROPERTIES m_gpuProps[XGL_MAX_PHYSICAL_GPUS];') |
| cd_body.append('#endif') |
| cd_body.append(' std::vector<XGL_CHAR *>m_extensions;') |
| cd_body.append('};\n') |
| cd_body.append('typedef struct _XGLAllocInfo {') |
| cd_body.append(' XGL_GPU_SIZE size;') |
| cd_body.append(' XGL_VOID *pData;') |
| cd_body.append('} XGLAllocInfo;') |
| return "\n".join(cd_body) |
| |
| def _generate_replay_func_ptrs(self): |
| xf_body = [] |
| xf_body.append('struct xglFuncs {') |
| xf_body.append(' void init_funcs(void * libHandle);') |
| xf_body.append(' void *m_libHandle;\n') |
| for proto in self.protos: |
| xf_body.append(' typedef %s( XGLAPI * type_xgl%s)(' % (proto.ret, proto.name)) |
| for p in proto.params: |
| if '[4]' in p.ty: |
| xf_body.append(' %s %s[4],' % (p.ty.strip('[4]'), p.name)) |
| else: |
| xf_body.append(' %s %s,' % (p.ty, p.name)) |
| xf_body[-1] = xf_body[-1].replace(',', ');') |
| xf_body.append(' type_xgl%s real_xgl%s;' % (proto.name, proto.name)) |
| xf_body.append('};') |
| return "\n".join(xf_body) |
| |
| def _map_decl(self, type1, type2, name): |
| return ' std::map<%s, %s> %s;' % (type1, type2, name) |
| |
| def _add_to_map_decl(self, type1, type2, name): |
| txt = ' void add_to_map(%s* pTraceVal, %s* pReplayVal)\n {\n' % (type1, type2) |
| txt += ' assert(pTraceVal != NULL);\n' |
| txt += ' assert(pReplayVal != NULL);\n' |
| txt += ' %s[*pTraceVal] = *pReplayVal;\n }' % name |
| return txt |
| |
| def _rm_from_map_decl(self, ty, name): |
| txt = ' void rm_from_map(const %s& key)\n {\n' % (ty) |
| txt += ' %s.erase(key);\n }' % name |
| return txt |
| |
| def _remap_decl(self, ty, name): |
| txt = ' %s remap(const %s& value)\n {\n' % (ty, ty) |
| txt += ' std::map<%s, %s>::const_iterator q = %s.find(value);\n' % (ty, ty, name) |
| txt += ' return (q == %s.end()) ? XGL_NULL_HANDLE : q->second;\n }' % name |
| return txt |
| |
| def _generate_replay_class(self): |
| obj_map_dict = {'m_gpus': 'XGL_PHYSICAL_GPU', |
| 'm_devices': 'XGL_DEVICE', |
| 'm_queues': 'XGL_QUEUE', |
| 'm_memories': 'XGL_GPU_MEMORY', |
| 'm_images': 'XGL_IMAGE', |
| 'm_imageViews': 'XGL_IMAGE_VIEW', |
| 'm_colorTargetViews': 'XGL_COLOR_ATTACHMENT_VIEW', |
| 'm_depthStencilViews': 'XGL_DEPTH_STENCIL_VIEW', |
| 'm_shader': 'XGL_SHADER', |
| 'm_pipeline': 'XGL_PIPELINE', |
| 'm_pipelineDelta': 'XGL_PIPELINE_DELTA', |
| 'm_sampler': 'XGL_SAMPLER', |
| 'm_descriptorSets': 'XGL_DESCRIPTOR_SET', |
| 'm_viewportStates': 'XGL_VIEWPORT_STATE_OBJECT', |
| 'm_rasterStates': 'XGL_RASTER_STATE_OBJECT', |
| 'm_msaaStates': 'XGL_MSAA_STATE_OBJECT', |
| 'm_colorBlendStates': 'XGL_COLOR_BLEND_STATE_OBJECT', |
| 'm_depthStencilStates': 'XGL_DEPTH_STENCIL_STATE_OBJECT', |
| 'm_cmdBuffers': 'XGL_CMD_BUFFER', |
| 'm_fences': 'XGL_FENCE', |
| 'm_queue_semaphores': 'XGL_QUEUE_SEMAPHORE', |
| 'm_events': 'XGL_EVENT', |
| 'm_queryPools': 'XGL_QUERY_POOL', |
| 'm_framebuffers': 'XGL_FRAMEBUFFER', |
| 'm_renderPasses': 'XGL_RENDER_PASS' |
| } |
| rc_body = [] |
| rc_body.append('class xglReplay : public ApiReplay {') |
| rc_body.append('public:') |
| rc_body.append(' ~xglReplay();') |
| rc_body.append(' xglReplay();\n') |
| rc_body.append(' int init(glv_replay::Display & disp);') |
| rc_body.append(' xglDisplay * get_display() {return m_display;}') |
| rc_body.append(' glv_replay::GLV_REPLAY_RESULT replay(glv_trace_packet_header *packet);') |
| rc_body.append(' glv_replay::GLV_REPLAY_RESULT handle_replay_errors(const char* entrypointName, const XGL_RESULT resCall, const XGL_RESULT resTrace, const glv_replay::GLV_REPLAY_RESULT resIn);\n') |
| rc_body.append(' void push_validation_msg(XGL_VALIDATION_LEVEL validationLevel, XGL_BASE_OBJECT srcObject, XGL_SIZE location, XGL_INT msgCode, const char* pMsg);') |
| rc_body.append(' glv_replay::GLV_REPLAY_RESULT pop_validation_msgs();') |
| rc_body.append('private:') |
| rc_body.append(' struct xglFuncs m_xglFuncs;') |
| rc_body.append(' void copy_mem_remap_range_struct(XGL_VIRTUAL_MEMORY_REMAP_RANGE *outRange, const XGL_VIRTUAL_MEMORY_REMAP_RANGE *inRange);') |
| rc_body.append(' xglDisplay *m_display;') |
| rc_body.append(' XGL_MEMORY_HEAP_PROPERTIES m_heapProps[XGL_MAX_MEMORY_HEAPS];') |
| rc_body.append(' struct shaderPair {') |
| rc_body.append(' XGL_SHADER *addr;') |
| rc_body.append(' XGL_SHADER val;') |
| rc_body.append(' };') |
| rc_body.append(' struct validationMsg {') |
| rc_body.append(' XGL_VALIDATION_LEVEL validationLevel;') |
| rc_body.append(' XGL_BASE_OBJECT srcObject;') |
| rc_body.append(' XGL_SIZE location;') |
| rc_body.append(' XGL_INT msgCode;') |
| rc_body.append(' char msg[256];') |
| rc_body.append(' };') |
| rc_body.append(' std::vector<struct validationMsg> m_validationMsgs;') |
| rc_body.append(self._map_decl('XGL_GPU_MEMORY', 'XGLAllocInfo', 'm_mapData')) |
| # Custom code for 1-off memory mapping functions |
| rc_body.append(' void add_entry_to_mapData(XGL_GPU_MEMORY handle, XGL_GPU_SIZE size)') |
| rc_body.append(' {') |
| rc_body.append(' XGLAllocInfo info;') |
| rc_body.append(' info.pData = NULL;') |
| rc_body.append(' info.size = size;') |
| rc_body.append(' m_mapData.insert(std::pair<XGL_GPU_MEMORY, XGLAllocInfo>(handle, info));') |
| rc_body.append(' }') |
| rc_body.append(' void add_mapping_to_mapData(XGL_GPU_MEMORY handle, XGL_VOID *pData)') |
| rc_body.append(' {') |
| rc_body.append(' std::map<XGL_GPU_MEMORY,XGLAllocInfo>::iterator it = m_mapData.find(handle);') |
| rc_body.append(' if (it == m_mapData.end())') |
| rc_body.append(' {') |
| rc_body.append(' glv_LogWarn("add_mapping_to_mapData() could not find entry\\n");') |
| rc_body.append(' return;') |
| rc_body.append(' }') |
| rc_body.append(' XGLAllocInfo &info = it->second;') |
| rc_body.append(' if (info.pData != NULL)') |
| rc_body.append(' {') |
| rc_body.append(' glv_LogWarn("add_mapping_to_mapData() data already mapped overwrite old mapping\\n");') |
| rc_body.append(' }') |
| rc_body.append(' info.pData = pData;') |
| rc_body.append(' }') |
| rc_body.append(' void rm_entry_from_mapData(XGL_GPU_MEMORY handle)') |
| rc_body.append(' {') |
| rc_body.append(' std::map<XGL_GPU_MEMORY,XGLAllocInfo>::iterator it = m_mapData.find(handle);') |
| rc_body.append(' if (it == m_mapData.end())') |
| rc_body.append(' return;') |
| rc_body.append(' m_mapData.erase(it);') |
| rc_body.append(' }') |
| rc_body.append(' void rm_mapping_from_mapData(XGL_GPU_MEMORY handle, XGL_VOID* pData)') |
| rc_body.append(' {') |
| rc_body.append(' std::map<XGL_GPU_MEMORY,XGLAllocInfo>::iterator it = m_mapData.find(handle);') |
| rc_body.append(' if (it == m_mapData.end())') |
| rc_body.append(' return;\n') |
| rc_body.append(' XGLAllocInfo &info = it->second;') |
| rc_body.append(' if (!pData || !info.pData)') |
| rc_body.append(' {') |
| rc_body.append(' glv_LogWarn("rm_mapping_from_mapData() null src or dest pointers\\n");') |
| rc_body.append(' info.pData = NULL;') |
| rc_body.append(' return;') |
| rc_body.append(' }') |
| rc_body.append(' memcpy(info.pData, pData, info.size);') |
| rc_body.append(' info.pData = NULL;') |
| rc_body.append(' }\n') |
| rc_body.append(' /*std::map<XGL_PHYSICAL_GPU, XGL_PHYSICAL_GPU> m_gpus;') |
| rc_body.append(' void add_to_map(XGL_PHYSICAL_GPU* pTraceGpu, XGL_PHYSICAL_GPU* pReplayGpu)') |
| rc_body.append(' {') |
| rc_body.append(' assert(pTraceGpu != NULL);') |
| rc_body.append(' assert(pReplayGpu != NULL);') |
| rc_body.append(' m_gpus[*pTraceGpu] = *pReplayGpu;') |
| rc_body.append(' }\n') |
| rc_body.append(' XGL_PHYSICAL_GPU remap(const XGL_PHYSICAL_GPU& gpu)') |
| rc_body.append(' {') |
| rc_body.append(' std::map<XGL_PHYSICAL_GPU, XGL_PHYSICAL_GPU>::const_iterator q = m_gpus.find(gpu);') |
| rc_body.append(' return (q == m_gpus.end()) ? XGL_NULL_HANDLE : q->second;') |
| rc_body.append(' }*/\n') |
| rc_body.append(' void clear_all_map_handles()\n {') |
| for var in sorted(obj_map_dict): |
| rc_body.append(' %s.clear();' % var) |
| rc_body.append(' }') |
| for var in sorted(obj_map_dict): |
| rc_body.append(self._map_decl(obj_map_dict[var], obj_map_dict[var], var)) |
| rc_body.append(self._add_to_map_decl(obj_map_dict[var], obj_map_dict[var], var)) |
| rc_body.append(self._rm_from_map_decl(obj_map_dict[var], var)) |
| rc_body.append(self._remap_decl(obj_map_dict[var], var)) |
| # XGL_STATE_OBJECT code |
| state_obj_remap_types = [ |
| 'XGL_VIEWPORT_STATE_OBJECT', |
| 'XGL_RASTER_STATE_OBJECT', |
| 'XGL_MSAA_STATE_OBJECT', |
| 'XGL_COLOR_BLEND_STATE_OBJECT', |
| 'XGL_DEPTH_STENCIL_STATE_OBJECT', |
| ] |
| rc_body.append(' XGL_STATE_OBJECT remap(const XGL_STATE_OBJECT& state)\n {') |
| rc_body.append(' XGL_STATE_OBJECT obj;') |
| for t in state_obj_remap_types: |
| rc_body.append(' if ((obj = remap(static_cast <%s> (state))) != XGL_NULL_HANDLE)' % t) |
| rc_body.append(' return obj;') |
| rc_body.append(' return XGL_NULL_HANDLE;\n }') |
| rc_body.append(' void rm_from_map(const XGL_STATE_OBJECT& state)\n {') |
| for t in state_obj_remap_types: |
| rc_body.append(' rm_from_map(static_cast <%s> (state));' % t) |
| rc_body.append(' }') |
| # OBJECT code |
| rc_body.append(' XGL_OBJECT remap(const XGL_OBJECT& object)\n {') |
| rc_body.append(' XGL_OBJECT obj;') |
| obj_remap_types = [ |
| 'XGL_CMD_BUFFER', |
| 'XGL_IMAGE', |
| 'XGL_IMAGE_VIEW', |
| 'XGL_COLOR_ATTACHMENT_VIEW', |
| 'XGL_DEPTH_STENCIL_VIEW', |
| 'XGL_SHADER', |
| 'XGL_PIPELINE', |
| 'XGL_PIPELINE_DELTA', |
| 'XGL_SAMPLER', |
| 'XGL_DESCRIPTOR_SET', |
| 'XGL_STATE_OBJECT', |
| 'XGL_FENCE', |
| 'XGL_QUEUE_SEMAPHORE', |
| 'XGL_EVENT', |
| 'XGL_QUERY_POOL', |
| ] |
| for var in obj_remap_types: |
| rc_body.append(' if ((obj = remap(static_cast <%s> (object))) != XGL_NULL_HANDLE)' % (var)) |
| rc_body.append(' return obj;') |
| rc_body.append(' return XGL_NULL_HANDLE;\n }') |
| rc_body.append(' void rm_from_map(const XGL_OBJECT & objKey)\n {') |
| for var in obj_remap_types: |
| rc_body.append(' rm_from_map(static_cast <%s> (objKey));' % (var)) |
| rc_body.append(' }') |
| rc_body.append(' XGL_BASE_OBJECT remap(const XGL_BASE_OBJECT& object)\n {') |
| rc_body.append(' XGL_BASE_OBJECT obj;') |
| base_obj_remap_types = ['XGL_DEVICE', 'XGL_QUEUE', 'XGL_GPU_MEMORY', 'XGL_OBJECT'] |
| for t in base_obj_remap_types: |
| rc_body.append(' if ((obj = remap(static_cast <%s> (object))) != XGL_NULL_HANDLE)' % t) |
| rc_body.append(' return obj;') |
| rc_body.append(' return XGL_NULL_HANDLE;\n }') |
| rc_body.append('};') |
| return "\n".join(rc_body) |
| |
| def _generate_replay_display_init_xgl(self): |
| dix_body = [] |
| dix_body.append('XGL_RESULT xglDisplay::init_xgl(unsigned int gpu_idx)') |
| dix_body.append('{') |
| dix_body.append('#if 0') |
| dix_body.append(' XGL_APPLICATION_INFO appInfo = {};') |
| dix_body.append(' appInfo.pAppName = APP_NAME;') |
| dix_body.append(' appInfo.pEngineName = "";') |
| dix_body.append(' appInfo.apiVersion = XGL_API_VERSION;') |
| dix_body.append(' XGL_RESULT res = xglInitAndEnumerateGpus(&appInfo, NULL, XGL_MAX_PHYSICAL_GPUS, &m_gpuCount, m_gpus);') |
| dix_body.append(' if ( res == XGL_SUCCESS ) {') |
| dix_body.append(' // retrieve the GPU information for all GPUs') |
| dix_body.append(' for( XGL_UINT32 gpu = 0; gpu < m_gpuCount; gpu++)') |
| dix_body.append(' {') |
| dix_body.append(' XGL_SIZE gpuInfoSize = sizeof(m_gpuProps[0]);\n') |
| dix_body.append(' // get the GPU physical properties:') |
| dix_body.append(' res = xglGetGpuInfo( m_gpus[gpu], XGL_INFO_TYPE_PHYSICAL_GPU_PROPERTIES, &gpuInfoSize, &m_gpuProps[gpu]);') |
| dix_body.append(' if (res != XGL_SUCCESS)') |
| dix_body.append(' glv_LogWarn("Failed to retrieve properties for gpu[%d] result %d\\n", gpu, res);') |
| dix_body.append(' }') |
| dix_body.append(' res = XGL_SUCCESS;') |
| dix_body.append(' } else if ((gpu_idx + 1) > m_gpuCount) {') |
| dix_body.append(' glv_LogError("xglInitAndEnumerate number of gpus does not include requested index: num %d, requested %d\\n", m_gpuCount, gpu_idx);') |
| dix_body.append(' return -1;') |
| dix_body.append(' } else {') |
| dix_body.append(' glv_LogError("xglInitAndEnumerate failed\\n");') |
| dix_body.append(' return res;') |
| dix_body.append(' }') |
| dix_body.append(' // TODO add multi-gpu support always use gpu[gpu_idx] for now') |
| dix_body.append(' // get all extensions supported by this device gpu[gpu_idx]') |
| dix_body.append(' // first check if extensions are available and save a list of them') |
| dix_body.append(' bool foundWSIExt = false;') |
| dix_body.append(' for( int ext = 0; ext < sizeof( extensions ) / sizeof( extensions[0] ); ext++)') |
| dix_body.append(' {') |
| dix_body.append(' res = xglGetExtensionSupport( m_gpus[gpu_idx], extensions[ext] );') |
| dix_body.append(' if (res == XGL_SUCCESS) {') |
| dix_body.append(' m_extensions.push_back((XGL_CHAR *) extensions[ext]);') |
| dix_body.append(' if (!strcmp(extensions[ext], "XGL_WSI_WINDOWS"))') |
| dix_body.append(' foundWSIExt = true;') |
| dix_body.append(' }') |
| dix_body.append(' }') |
| dix_body.append(' if (!foundWSIExt) {') |
| dix_body.append(' glv_LogError("XGL_WSI_WINDOWS extension not supported by gpu[%d]\\n", gpu_idx);') |
| dix_body.append(' return XGL_ERROR_INCOMPATIBLE_DEVICE;') |
| dix_body.append(' }') |
| dix_body.append(' // TODO generalize this: use one universal queue for now') |
| dix_body.append(' XGL_DEVICE_QUEUE_CREATE_INFO dqci = {};') |
| dix_body.append(' dqci.queueCount = 1;') |
| dix_body.append(' dqci.queueType = XGL_QUEUE_UNIVERSAL;') |
| dix_body.append(' // create the device enabling validation level 4') |
| dix_body.append(' const XGL_CHAR * const * extNames = &m_extensions[0];') |
| dix_body.append(' XGL_DEVICE_CREATE_INFO info = {};') |
| dix_body.append(' info.queueRecordCount = 1;') |
| dix_body.append(' info.pRequestedQueues = &dqci;') |
| dix_body.append(' info.extensionCount = static_cast <XGL_UINT> (m_extensions.size());') |
| dix_body.append(' info.ppEnabledExtensionNames = extNames;') |
| dix_body.append(' info.flags = XGL_DEVICE_CREATE_VALIDATION;') |
| dix_body.append(' info.maxValidationLevel = XGL_VALIDATION_LEVEL_4;') |
| dix_body.append(' XGL_BOOL xglTrue = XGL_TRUE;') |
| dix_body.append(' res = xglDbgSetGlobalOption( XGL_DBG_OPTION_BREAK_ON_ERROR, sizeof( xglTrue ), &xglTrue );') |
| dix_body.append(' if (res != XGL_SUCCESS)') |
| dix_body.append(' glv_LogWarn("Could not set debug option break on error\\n");') |
| dix_body.append(' res = xglCreateDevice( m_gpus[0], &info, &m_dev[gpu_idx]);') |
| dix_body.append(' return res;') |
| dix_body.append('#else') |
| dix_body.append(' return XGL_ERROR_INITIALIZATION_FAILED;') |
| dix_body.append('#endif') |
| dix_body.append('}') |
| return "\n".join(dix_body) |
| |
| def _generate_replay_display_init(self): |
| di_body = [] |
| di_body.append('int xglDisplay::init(const unsigned int gpu_idx)') |
| di_body.append('{') |
| di_body.append(' //m_gpuIdx = gpu_idx;') |
| di_body.append('#if 0') |
| di_body.append(' XGL_RESULT result = init_xgl(gpu_idx);') |
| di_body.append(' if (result != XGL_SUCCESS) {') |
| di_body.append(' glv_LogError("could not init xgl library");') |
| di_body.append(' return -1;') |
| di_body.append(' } else {') |
| di_body.append(' m_initedXGL = true;') |
| di_body.append(' }') |
| di_body.append('#endif') |
| di_body.append('#if defined(PLATFORM_LINUX)') |
| di_body.append(' const xcb_setup_t *setup;') |
| di_body.append(' xcb_screen_iterator_t iter;') |
| di_body.append(' int scr;') |
| di_body.append(' xcb_connection_t *pConnection;') |
| di_body.append(' pConnection = xcb_connect(NULL, &scr);') |
| di_body.append(' setup = xcb_get_setup(pConnection);') |
| di_body.append(' iter = xcb_setup_roots_iterator(setup);') |
| di_body.append(' while (scr-- > 0)') |
| di_body.append(' xcb_screen_next(&iter);') |
| di_body.append(' m_pXcbScreen = iter.data;') |
| di_body.append(' m_WsiConnection.pConnection = pConnection;') |
| di_body.append(' m_WsiConnection.root = m_pXcbScreen->root;') |
| di_body.append('#endif') |
| di_body.append(' return 0;') |
| di_body.append('}') |
| return "\n".join(di_body) |
| |
| def _generate_replay_display_structors(self): |
| ds_body = [] |
| ds_body.append('xglDisplay::xglDisplay()') |
| ds_body.append(' : m_initedXGL(false),') |
| ds_body.append(' m_windowWidth(0),') |
| ds_body.append(' m_windowHeight(0)') |
| ds_body.append('{') |
| ds_body.append('#if defined(WIN32)') |
| ds_body.append(' m_windowHandle = NULL;') |
| ds_body.append('#elif defined(PLATFORM_LINUX)') |
| ds_body.append(' m_WsiConnection.pConnection = NULL;') |
| ds_body.append(' m_WsiConnection.root = 0;') |
| ds_body.append(' m_WsiConnection.provider = 0;') |
| ds_body.append(' m_pXcbScreen = NULL;') |
| ds_body.append(' m_XcbWindow = 0;') |
| ds_body.append('#endif') |
| ds_body.append('}') |
| ds_body.append('xglDisplay::~xglDisplay()') |
| ds_body.append('{') |
| ds_body.append('#ifdef PLATFORM_LINUX') |
| ds_body.append(' if (m_XcbWindow != 0)') |
| ds_body.append(' {') |
| ds_body.append(' xcb_destroy_window(m_WsiConnection.pConnection, m_XcbWindow);') |
| ds_body.append(' }') |
| ds_body.append(' if (m_WsiConnection.pConnection != NULL)') |
| ds_body.append(' {') |
| ds_body.append(' xcb_disconnect(m_WsiConnection.pConnection);') |
| ds_body.append(' }') |
| ds_body.append('#endif') |
| ds_body.append('}') |
| return "\n".join(ds_body) |
| |
| def _generate_replay_display_window(self): |
| dw_body = [] |
| dw_body.append('#if defined(WIN32)') |
| dw_body.append('LRESULT WINAPI WindowProcXgl( HWND window, unsigned int msg, WPARAM wp, LPARAM lp)') |
| dw_body.append('{') |
| dw_body.append(' switch(msg)') |
| dw_body.append(' {') |
| dw_body.append(' case WM_CLOSE:') |
| dw_body.append(' DestroyWindow( window);') |
| dw_body.append(' // fall-thru') |
| dw_body.append(' case WM_DESTROY:') |
| dw_body.append(' PostQuitMessage(0) ;') |
| dw_body.append(' return 0L ;') |
| dw_body.append(' default:') |
| dw_body.append(' return DefWindowProc( window, msg, wp, lp ) ;') |
| dw_body.append(' }') |
| dw_body.append('}') |
| dw_body.append('#endif') |
| dw_body.append('int xglDisplay::set_window(glv_window_handle hWindow, unsigned int width, unsigned int height)') |
| dw_body.append('{') |
| dw_body.append('#if defined(WIN32)') |
| dw_body.append(' m_windowHandle = hWindow;') |
| dw_body.append('#elif defined(PLATFORM_LINUX)') |
| dw_body.append(' m_XcbWindow = hWindow;') |
| dw_body.append('#endif') |
| dw_body.append(' m_windowWidth = width;') |
| dw_body.append(' m_windowHeight = height;') |
| dw_body.append(' return 0;') |
| dw_body.append('}\n') |
| dw_body.append('int xglDisplay::create_window(const unsigned int width, const unsigned int height)') |
| dw_body.append('{') |
| dw_body.append('#if defined(WIN32)') |
| dw_body.append(' // Register Window class') |
| dw_body.append(' WNDCLASSEX wcex = {};') |
| dw_body.append(' wcex.cbSize = sizeof( WNDCLASSEX);') |
| dw_body.append(' wcex.style = CS_HREDRAW | CS_VREDRAW;') |
| dw_body.append(' wcex.lpfnWndProc = WindowProcXgl;') |
| dw_body.append(' wcex.cbClsExtra = 0;') |
| dw_body.append(' wcex.cbWndExtra = 0;') |
| dw_body.append(' wcex.hInstance = GetModuleHandle(0);') |
| dw_body.append(' wcex.hIcon = LoadIcon(wcex.hInstance, MAKEINTRESOURCE( IDI_ICON));') |
| dw_body.append(' wcex.hCursor = LoadCursor( NULL, IDC_ARROW);') |
| dw_body.append(' wcex.hbrBackground = ( HBRUSH )( COLOR_WINDOW + 1);') |
| dw_body.append(' wcex.lpszMenuName = NULL;') |
| dw_body.append(' wcex.lpszClassName = APP_NAME;') |
| dw_body.append(' wcex.hIconSm = LoadIcon( wcex.hInstance, MAKEINTRESOURCE( IDI_ICON));') |
| dw_body.append(' if( !RegisterClassEx( &wcex))') |
| dw_body.append(' {') |
| dw_body.append(' glv_LogError("Failed to register windows class\\n");') |
| dw_body.append(' return -1;') |
| dw_body.append(' }\n') |
| dw_body.append(' // create the window') |
| dw_body.append(' m_windowHandle = CreateWindow(APP_NAME, APP_NAME, WS_OVERLAPPED | WS_CAPTION | WS_SYSMENU, 0, 0,') |
| dw_body.append(' width, height, NULL, NULL, wcex.hInstance, NULL);\n') |
| dw_body.append(' if (m_windowHandle)') |
| dw_body.append(' {') |
| dw_body.append(' ShowWindow( m_windowHandle, SW_SHOWDEFAULT);') |
| dw_body.append(' m_windowWidth = width;') |
| dw_body.append(' m_windowHeight = height;') |
| dw_body.append(' } else {') |
| dw_body.append(' glv_LogError("Failed to create window\\n");') |
| dw_body.append(' return -1;') |
| dw_body.append(' }') |
| dw_body.append(' return 0;') |
| dw_body.append('#elif defined(PLATFORM_LINUX)\n') |
| dw_body.append(' uint32_t value_mask, value_list[32];') |
| dw_body.append(' m_XcbWindow = xcb_generate_id(m_WsiConnection.pConnection);\n') |
| dw_body.append(' value_mask = XCB_CW_BACK_PIXEL | XCB_CW_EVENT_MASK;') |
| dw_body.append(' value_list[0] = m_pXcbScreen->black_pixel;') |
| dw_body.append(' value_list[1] = XCB_EVENT_MASK_KEY_RELEASE |') |
| dw_body.append(' XCB_EVENT_MASK_EXPOSURE;\n') |
| dw_body.append(' xcb_create_window(m_WsiConnection.pConnection,') |
| dw_body.append(' XCB_COPY_FROM_PARENT,') |
| dw_body.append(' m_XcbWindow, m_WsiConnection.root,') |
| dw_body.append(' 0, 0, width, height, 0,') |
| dw_body.append(' XCB_WINDOW_CLASS_INPUT_OUTPUT,') |
| dw_body.append(' m_pXcbScreen->root_visual,') |
| dw_body.append(' value_mask, value_list);\n') |
| dw_body.append(' xcb_map_window(m_WsiConnection.pConnection, m_XcbWindow);') |
| dw_body.append(' xcb_flush(m_WsiConnection.pConnection);') |
| dw_body.append(' return 0;') |
| dw_body.append('#endif') |
| dw_body.append('}\n') |
| dw_body.append('void xglDisplay::resize_window(const unsigned int width, const unsigned int height)') |
| dw_body.append('{') |
| dw_body.append('#if defined(WIN32)') |
| dw_body.append(' if (width != m_windowWidth || height != m_windowHeight)') |
| dw_body.append(' {') |
| dw_body.append(' SetWindowPos(get_window_handle(), HWND_TOP, 0, 0, width, height, SWP_NOMOVE);') |
| dw_body.append(' m_windowWidth = width;') |
| dw_body.append(' m_windowHeight = height;') |
| dw_body.append(' }') |
| dw_body.append('#elif defined(PLATFORM_LINUX)') |
| dw_body.append(' if (width != m_windowWidth || height != m_windowHeight)') |
| dw_body.append(' {') |
| dw_body.append(' uint32_t values[2];') |
| dw_body.append(' values[0] = width;') |
| dw_body.append(' values[1] = height;') |
| dw_body.append(' xcb_configure_window(m_WsiConnection.pConnection, m_XcbWindow, XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT, values);') |
| dw_body.append(' m_windowWidth = width;') |
| dw_body.append(' m_windowHeight = height;') |
| dw_body.append(' }') |
| dw_body.append('#endif') |
| dw_body.append('}\n') |
| dw_body.append('void xglDisplay::process_event()') |
| dw_body.append('{') |
| dw_body.append('}') |
| return "\n".join(dw_body) |
| |
| def _generate_replay_structors(self): |
| rs_body = [] |
| rs_body.append('xglReplay::xglReplay()') |
| rs_body.append('{') |
| rs_body.append(' m_display = new xglDisplay();') |
| rs_body.append('}\n') |
| rs_body.append('xglReplay::~xglReplay()') |
| rs_body.append('{') |
| rs_body.append(' delete m_display;') |
| rs_body.append(' glv_platform_close_library(m_xglFuncs.m_libHandle);') |
| rs_body.append('}') |
| return "\n".join(rs_body) |
| |
| def _generate_replay_init(self): |
| ri_body = [] |
| ri_body.append('int xglReplay::init(glv_replay::Display & disp)') |
| ri_body.append('{') |
| ri_body.append(' int err;') |
| ri_body.append('#if defined _WIN64') |
| ri_body.append(' HMODULE handle = LoadLibrary("xgl64.dll" );') |
| ri_body.append('#elif defined _WIN32') |
| ri_body.append(' HMODULE handle = LoadLibrary("xgl32.dll" );') |
| ri_body.append('#elif defined PLATFORM_LINUX') |
| ri_body.append(' void * handle = dlopen("libXGL.so", RTLD_LAZY);') |
| ri_body.append('#endif\n') |
| ri_body.append(' if (handle == NULL) {') |
| ri_body.append(' glv_LogError("Failed to open xgl library.\\n");') |
| ri_body.append(' return -1;') |
| ri_body.append(' }') |
| ri_body.append(' m_xglFuncs.init_funcs(handle);') |
| ri_body.append(' disp.set_implementation(m_display);') |
| ri_body.append(' if ((err = m_display->init(disp.get_gpu())) != 0) {') |
| ri_body.append(' glv_LogError("Failed to init XGL display.\\n");') |
| ri_body.append(' return err;') |
| ri_body.append(' }') |
| ri_body.append(' if (disp.get_window_handle() == 0)') |
| ri_body.append(' {') |
| ri_body.append(' if ((err = m_display->create_window(disp.get_width(), disp.get_height())) != 0) {') |
| ri_body.append(' glv_LogError("Failed to create Window\\n");') |
| ri_body.append(' return err;') |
| ri_body.append(' }') |
| ri_body.append(' }') |
| ri_body.append(' else') |
| ri_body.append(' {') |
| ri_body.append(' if ((err = m_display->set_window(disp.get_window_handle(), disp.get_width(), disp.get_height())) != 0)') |
| ri_body.append(' {') |
| ri_body.append(' glv_LogError("Failed to set Window\\n");') |
| ri_body.append(' return err;') |
| ri_body.append(' }') |
| ri_body.append(' }') |
| ri_body.append(' return 0;') |
| ri_body.append('}') |
| return "\n".join(ri_body) |
| |
| def _generate_replay_remap(self): |
| # values to map and bool indicates if remap required for source |
| rr_dict = {'pageCount': False, 'realStartPage': False, 'realMem': True, 'virtualStartPage': False, 'virtualMem': True} |
| rr_body = [] |
| rr_body.append('void xglReplay::copy_mem_remap_range_struct(XGL_VIRTUAL_MEMORY_REMAP_RANGE *outRange, const XGL_VIRTUAL_MEMORY_REMAP_RANGE *inRange)\n{') |
| for k in rr_dict: |
| if rr_dict[k]: |
| rr_body.append(' outRange->%s = remap(inRange->%s);' % (k, k)) |
| else: |
| rr_body.append(' outRange->%s = inRange->%s;' % (k, k)) |
| rr_body.append('}') |
| return "\n".join(rr_body) |
| |
| def _generate_replay_errors(self): |
| re_body = [] |
| re_body.append('glv_replay::GLV_REPLAY_RESULT xglReplay::handle_replay_errors(const char* entrypointName, const XGL_RESULT resCall, const XGL_RESULT resTrace, const glv_replay::GLV_REPLAY_RESULT resIn)') |
| re_body.append('{') |
| re_body.append(' glv_replay::GLV_REPLAY_RESULT res = resIn;') |
| re_body.append(' if (resCall != resTrace) {') |
| re_body.append(' glv_LogWarn("Mismatched return from API call (%s) traced result %s, replay result %s\\n", entrypointName,') |
| re_body.append(' string_XGL_RESULT(resTrace), string_XGL_RESULT(resCall));') |
| re_body.append(' res = glv_replay::GLV_REPLAY_BAD_RETURN;') |
| re_body.append(' }') |
| re_body.append('#if 0') |
| re_body.append(' if (resCall != XGL_SUCCESS) {') |
| re_body.append(' glv_LogWarn("API call (%s) returned failed result %s\\n", entrypointName, string_XGL_RESULT(resCall));') |
| re_body.append(' }') |
| re_body.append('#endif') |
| re_body.append(' return res;') |
| re_body.append('}') |
| return "\n".join(re_body) |
| |
| def _generate_replay_validation_funcs(self): |
| rvf_body = [] |
| rvf_body.append('void xglReplay::push_validation_msg(XGL_VALIDATION_LEVEL validationLevel, XGL_BASE_OBJECT srcObject, XGL_SIZE location, XGL_INT msgCode, const char * pMsg)') |
| rvf_body.append('{') |
| rvf_body.append(' struct validationMsg msgObj;') |
| rvf_body.append(' msgObj.validationLevel = validationLevel;') |
| rvf_body.append(' msgObj.srcObject = srcObject;') |
| rvf_body.append(' msgObj.location = location;') |
| rvf_body.append(' msgObj.msgCode = msgCode;') |
| rvf_body.append(' strncpy(msgObj.msg, pMsg, 256);') |
| rvf_body.append(" msgObj.msg[255] = '\\0';") |
| rvf_body.append(' m_validationMsgs.push_back(msgObj);') |
| rvf_body.append('}\n') |
| rvf_body.append('glv_replay::GLV_REPLAY_RESULT xglReplay::pop_validation_msgs()') |
| rvf_body.append('{') |
| rvf_body.append(' if (m_validationMsgs.size() == 0)') |
| rvf_body.append(' return glv_replay::GLV_REPLAY_SUCCESS;') |
| rvf_body.append(' m_validationMsgs.clear();') |
| rvf_body.append(' return glv_replay::GLV_REPLAY_VALIDATION_ERROR;') |
| rvf_body.append('}') |
| return "\n".join(rvf_body) |
| |
| def _generate_replay_init_funcs(self): |
| rif_body = [] |
| rif_body.append('void xglFuncs::init_funcs(void * handle)\n{\n m_libHandle = handle;') |
| for proto in self.protos: |
| rif_body.append(' real_xgl%s = (type_xgl%s)(glv_platform_get_library_entrypoint(handle, "xgl%s"));' % (proto.name, proto.name, proto.name)) |
| rif_body.append('}') |
| return "\n".join(rif_body) |
| |
| def _get_packet_param(self, t, n): |
| # list of types that require remapping |
| remap_list = [ |
| 'XGL_PHYSICAL_GPU', |
| 'XGL_DEVICE', |
| 'XGL_QUEUE', |
| 'XGL_GPU_MEMORY', |
| 'XGL_IMAGE', |
| 'XGL_IMAGE_VIEW', |
| 'XGL_COLOR_ATTACHMENT_VIEW', |
| 'XGL_DEPTH_STENCIL_VIEW', |
| 'XGL_SHADER', |
| 'XGL_PIPELINE', |
| 'XGL_PIPELINE_DELTA', |
| 'XGL_SAMPLER', |
| 'XGL_DESCRIPTOR_SET', |
| 'XGL_VIEWPORT_STATE_OBJECT', |
| 'XGL_RASTER_STATE_OBJECT', |
| 'XGL_MSAA_STATE_OBJECT', |
| 'XGL_COLOR_BLEND_STATE_OBJECT', |
| 'XGL_DEPTH_STENCIL_STATE_OBJECT', |
| 'XGL_CMD_BUFFER', |
| 'XGL_FENCE', |
| 'XGL_QUEUE_SEMAPHORE', |
| 'XGL_EVENT', |
| 'XGL_QUERY_POOL', |
| 'XGL_STATE_OBJECT', |
| 'XGL_BASE_OBJECT', |
| 'XGL_OBJECT', |
| ] |
| param_exclude_list = ['p1', 'p2'] |
| if t.strip('*').strip('const ') in remap_list and n not in param_exclude_list: |
| return 'remap(pPacket->%s)' % (n) |
| return 'pPacket->%s' % (n) |
| |
| def _gen_replay_init_and_enum_gpus(self): |
| ieg_body = [] |
| ieg_body.append(' if (!m_display->m_initedXGL)') |
| ieg_body.append(' {') |
| ieg_body.append(' XGL_UINT gpuCount;') |
| ieg_body.append(' XGL_PHYSICAL_GPU gpus[XGL_MAX_PHYSICAL_GPUS];') |
| ieg_body.append(' XGL_UINT maxGpus = (pPacket->maxGpus < XGL_MAX_PHYSICAL_GPUS) ? pPacket->maxGpus : XGL_MAX_PHYSICAL_GPUS;') |
| ieg_body.append(' replayResult = m_xglFuncs.real_xglInitAndEnumerateGpus(pPacket->pAppInfo, pPacket->pAllocCb, maxGpus, &gpuCount, &gpus[0]);') |
| ieg_body.append(' CHECK_RETURN_VALUE(xglInitAndEnumerateGpus);') |
| ieg_body.append(' //TODO handle different number of gpus in trace versus replay') |
| ieg_body.append(' if (gpuCount != *(pPacket->pGpuCount))') |
| ieg_body.append(' {') |
| ieg_body.append(' glv_LogWarn("number of gpus mismatched in replay %u versus trace %u\\n", gpuCount, *(pPacket->pGpuCount));') |
| ieg_body.append(' }') |
| ieg_body.append(' else if (gpuCount == 0)') |
| ieg_body.append(' {') |
| ieg_body.append(' glv_LogError("xglInitAndEnumerateGpus number of gpus is zero\\n");') |
| ieg_body.append(' }') |
| ieg_body.append(' else') |
| ieg_body.append(' {') |
| ieg_body.append(' glv_LogInfo("Enumerated %d GPUs in the system\\n", gpuCount);') |
| ieg_body.append(' }') |
| ieg_body.append(' clear_all_map_handles();') |
| ieg_body.append(' // TODO handle enumeration results in a different order from trace to replay') |
| ieg_body.append(' for (XGL_UINT i = 0; i < gpuCount; i++)') |
| ieg_body.append(' {') |
| ieg_body.append(' if (pPacket->pGpus)') |
| ieg_body.append(' add_to_map(&(pPacket->pGpus[i]), &(gpus[i]));') |
| ieg_body.append(' }') |
| ieg_body.append(' }') |
| return "\n".join(ieg_body) |
| |
| def _gen_replay_get_gpu_info(self): |
| ggi_body = [] |
| ggi_body.append(' if (!m_display->m_initedXGL)') |
| ggi_body.append(' {') |
| ggi_body.append(' switch (pPacket->infoType) {') |
| ggi_body.append(' case XGL_INFO_TYPE_PHYSICAL_GPU_PROPERTIES:') |
| ggi_body.append(' {') |
| ggi_body.append(' XGL_PHYSICAL_GPU_PROPERTIES gpuProps;') |
| ggi_body.append(' XGL_SIZE dataSize = sizeof(XGL_PHYSICAL_GPU_PROPERTIES);') |
| ggi_body.append(' replayResult = m_xglFuncs.real_xglGetGpuInfo(remap(pPacket->gpu), pPacket->infoType, &dataSize,') |
| ggi_body.append(' (pPacket->pData == NULL) ? NULL : &gpuProps);') |
| ggi_body.append(' if (pPacket->pData != NULL)') |
| ggi_body.append(' {') |
| ggi_body.append(' glv_LogInfo("Replay Gpu Properties\\n");') |
| ggi_body.append(' glv_LogInfo("Vendor ID %x, Device ID %x, name %s\\n",gpuProps.vendorId, gpuProps.deviceId, gpuProps.gpuName);') |
| ggi_body.append(' glv_LogInfo("API version %u, Driver version %u, gpu Type %u\\n",gpuProps.apiVersion, gpuProps.driverVersion, gpuProps.gpuType);') |
| ggi_body.append(' }') |
| ggi_body.append(' break;') |
| ggi_body.append(' }') |
| ggi_body.append(' case XGL_INFO_TYPE_PHYSICAL_GPU_PERFORMANCE:') |
| ggi_body.append(' {') |
| ggi_body.append(' XGL_PHYSICAL_GPU_PERFORMANCE gpuPerfs;') |
| ggi_body.append(' XGL_SIZE dataSize = sizeof(XGL_PHYSICAL_GPU_PERFORMANCE);') |
| ggi_body.append(' replayResult = m_xglFuncs.real_xglGetGpuInfo(remap(pPacket->gpu), pPacket->infoType, &dataSize,') |
| ggi_body.append(' (pPacket->pData == NULL) ? NULL : &gpuPerfs);') |
| ggi_body.append(' if (pPacket->pData != NULL)') |
| ggi_body.append(' {') |
| ggi_body.append(' glv_LogInfo("Replay Gpu Performance\\n");') |
| ggi_body.append(' glv_LogInfo("Max GPU clock %f, max shader ALUs/clock %f, max texel fetches/clock %f\\n",gpuPerfs.maxGpuClock, gpuPerfs.aluPerClock, gpuPerfs.texPerClock);') |
| ggi_body.append(' glv_LogInfo("Max primitives/clock %f, Max pixels/clock %f\\n",gpuPerfs.primsPerClock, gpuPerfs.pixelsPerClock);') |
| ggi_body.append(' }') |
| ggi_body.append(' break;') |
| ggi_body.append(' }') |
| ggi_body.append(' case XGL_INFO_TYPE_PHYSICAL_GPU_QUEUE_PROPERTIES:') |
| ggi_body.append(' {') |
| ggi_body.append(' XGL_PHYSICAL_GPU_QUEUE_PROPERTIES *pGpuQueue, *pQ;') |
| ggi_body.append(' XGL_SIZE dataSize = sizeof(XGL_PHYSICAL_GPU_QUEUE_PROPERTIES);') |
| ggi_body.append(' XGL_SIZE numQueues = 1;') |
| ggi_body.append(' assert(pPacket->pDataSize);') |
| ggi_body.append(' if ((*(pPacket->pDataSize) % dataSize) != 0)') |
| ggi_body.append(' glv_LogWarn("xglGetGpuInfo() for GPU_QUEUE_PROPERTIES not an integral data size assuming 1\\n");') |
| ggi_body.append(' else') |
| ggi_body.append(' numQueues = *(pPacket->pDataSize) / dataSize;') |
| ggi_body.append(' dataSize = numQueues * dataSize;') |
| ggi_body.append(' pQ = static_cast < XGL_PHYSICAL_GPU_QUEUE_PROPERTIES *> (glv_malloc(dataSize));') |
| ggi_body.append(' pGpuQueue = pQ;') |
| ggi_body.append(' replayResult = m_xglFuncs.real_xglGetGpuInfo(remap(pPacket->gpu), pPacket->infoType, &dataSize,') |
| ggi_body.append(' (pPacket->pData == NULL) ? NULL : pGpuQueue);') |
| ggi_body.append(' if (pPacket->pData != NULL)') |
| ggi_body.append(' {') |
| ggi_body.append(' for (unsigned int i = 0; i < numQueues; i++)') |
| ggi_body.append(' {') |
| ggi_body.append(' glv_LogInfo("Replay Gpu Queue Property for index %d, flags %u\\n", i, pGpuQueue->queueFlags);') |
| ggi_body.append(' glv_LogInfo("Max available count %u, max atomic counters %u, supports timestamps %u\\n",pGpuQueue->queueCount, pGpuQueue->maxAtomicCounters, pGpuQueue->supportsTimestamps);') |
| ggi_body.append(' pGpuQueue++;') |
| ggi_body.append(' }') |
| ggi_body.append(' }') |
| ggi_body.append(' glv_free(pQ);') |
| ggi_body.append(' break;') |
| ggi_body.append(' }') |
| ggi_body.append(' default:') |
| ggi_body.append(' {') |
| ggi_body.append(' XGL_SIZE size = 0;') |
| ggi_body.append(' void* pData = NULL;') |
| ggi_body.append(' if (pPacket->pData != NULL && pPacket->pDataSize != NULL)') |
| ggi_body.append(' {') |
| ggi_body.append(' size = *pPacket->pDataSize;') |
| ggi_body.append(' pData = glv_malloc(*pPacket->pDataSize);') |
| ggi_body.append(' }') |
| ggi_body.append(' replayResult = m_xglFuncs.real_xglGetGpuInfo(remap(pPacket->gpu), pPacket->infoType, &size, pData);') |
| ggi_body.append(' if (replayResult == XGL_SUCCESS)') |
| ggi_body.append(' {') |
| ggi_body.append(' if (size != *pPacket->pDataSize && pData == NULL)') |
| ggi_body.append(' {') |
| ggi_body.append(' glv_LogWarn("xglGetGpuInfo returned a differing data size: replay (%d bytes) vs trace (%d bytes)\\n", size, *pPacket->pDataSize);') |
| ggi_body.append(' }') |
| ggi_body.append(' else if (pData != NULL && memcmp(pData, pPacket->pData, size) != 0)') |
| ggi_body.append(' {') |
| ggi_body.append(' glv_LogWarn("xglGetGpuInfo returned differing data contents than the trace file contained.\\n");') |
| ggi_body.append(' }') |
| ggi_body.append(' }') |
| ggi_body.append(' glv_free(pData);') |
| ggi_body.append(' break;') |
| ggi_body.append(' }') |
| ggi_body.append(' };') |
| ggi_body.append(' CHECK_RETURN_VALUE(xglGetGpuInfo);') |
| ggi_body.append(' }') |
| return "\n".join(ggi_body) |
| |
| def _gen_replay_create_device(self): |
| cd_body = [] |
| cd_body.append(' if (!m_display->m_initedXGL)') |
| cd_body.append(' {') |
| cd_body.append(' XGL_DEVICE device;') |
| cd_body.append(' if (g_xglReplaySettings.debugLevel > 0)') |
| cd_body.append(' {') |
| cd_body.append(' XGL_DEVICE_CREATE_INFO cInfo, *ci, *pCreateInfoSaved;') |
| cd_body.append(' // TODO what is the real list of layers to be running with??') |
| # cd_body.append(' const XGL_CHAR * layersStr[2] = {(XGL_CHAR *) "DrawState", (XGL_CHAR *) "ObjectTracker"};') |
| |
| cd_body.append(' unsigned int numLayers = 0;') |
| cd_body.append(' XGL_CHAR ** layersStr = get_enableLayers_list(&numLayers);') |
| cd_body.append(' XGL_LAYER_CREATE_INFO layerInfo;') |
| cd_body.append(' pCreateInfoSaved = (XGL_DEVICE_CREATE_INFO *) pPacket->pCreateInfo;') |
| cd_body.append(' ci = (XGL_DEVICE_CREATE_INFO *) pPacket->pCreateInfo;') |
| |
| cd_body.append(' if (layersStr != NULL && numLayers > 0)') |
| cd_body.append(' {') |
| cd_body.append(' while (ci->pNext != NULL)') |
| cd_body.append(' ci = (XGL_DEVICE_CREATE_INFO *) ci->pNext;') |
| cd_body.append(' ci->pNext = &layerInfo;') |
| cd_body.append(' layerInfo.sType = XGL_STRUCTURE_TYPE_LAYER_CREATE_INFO;') |
| cd_body.append(' layerInfo.pNext = 0;') |
| cd_body.append(' layerInfo.layerCount = numLayers;') |
| cd_body.append(' layerInfo.ppActiveLayerNames = layersStr;') |
| cd_body.append(' }') |
| |
| cd_body.append(' memcpy(&cInfo, pPacket->pCreateInfo, sizeof(XGL_DEVICE_CREATE_INFO));') |
| cd_body.append(' cInfo.flags = pPacket->pCreateInfo->flags | XGL_DEVICE_CREATE_VALIDATION_BIT;') |
| cd_body.append(' cInfo.maxValidationLevel = (XGL_VALIDATION_LEVEL)((g_xglReplaySettings.debugLevel <= 4) ? XGL_VALIDATION_LEVEL_0 + g_xglReplaySettings.debugLevel : XGL_VALIDATION_LEVEL_0);') |
| cd_body.append(' pPacket->pCreateInfo = &cInfo;') |
| cd_body.append(' replayResult = m_xglFuncs.real_xglCreateDevice(remap(pPacket->gpu), pPacket->pCreateInfo, &device);') |
| cd_body.append(' // restore the packet for next replay') |
| cd_body.append(' ci->pNext = NULL;') |
| cd_body.append(' pPacket->pCreateInfo = pCreateInfoSaved;') |
| cd_body.append(' release_enableLayer_list(layersStr);') |
| cd_body.append(' if (xglDbgRegisterMsgCallback(g_fpDbgMsgCallback, NULL) != XGL_SUCCESS)') |
| cd_body.append(' glv_LogError("Failed to register xgl callback for replayer error handling\\n");') |
| cd_body.append(' }') |
| cd_body.append(' else ') |
| cd_body.append(' replayResult = m_xglFuncs.real_xglCreateDevice(remap(pPacket->gpu), pPacket->pCreateInfo, &device);') |
| cd_body.append(' CHECK_RETURN_VALUE(xglCreateDevice);') |
| cd_body.append(' if (replayResult == XGL_SUCCESS)') |
| cd_body.append(' {') |
| cd_body.append(' add_to_map(pPacket->pDevice, &device);') |
| cd_body.append(' }') |
| cd_body.append(' }') |
| return "\n".join(cd_body) |
| |
| def _gen_replay_get_extension_support(self): |
| ges_body = [] |
| ges_body.append(' if (!m_display->m_initedXGL) {') |
| ges_body.append(' replayResult = m_xglFuncs.real_xglGetExtensionSupport(remap(pPacket->gpu), pPacket->pExtName);') |
| ges_body.append(' CHECK_RETURN_VALUE(xglGetExtensionSupport);') |
| ges_body.append(' if (replayResult == XGL_SUCCESS) {') |
| ges_body.append(' for (unsigned int ext = 0; ext < sizeof(g_extensions) / sizeof(g_extensions[0]); ext++)') |
| ges_body.append(' {') |
| ges_body.append(' if (!strncmp(g_extensions[ext], pPacket->pExtName, strlen(g_extensions[ext]))) {') |
| ges_body.append(' bool extInList = false;') |
| ges_body.append(' for (unsigned int j = 0; j < m_display->m_extensions.size(); ++j) {') |
| ges_body.append(' if (!strncmp(m_display->m_extensions[j], g_extensions[ext], strlen(g_extensions[ext])))') |
| ges_body.append(' extInList = true;') |
| ges_body.append(' break;') |
| ges_body.append(' }') |
| ges_body.append(' if (!extInList)') |
| ges_body.append(' m_display->m_extensions.push_back((XGL_CHAR *) g_extensions[ext]);') |
| ges_body.append(' break;') |
| ges_body.append(' }') |
| ges_body.append(' }') |
| ges_body.append(' }') |
| ges_body.append(' }') |
| return "\n".join(ges_body) |
| |
| def _gen_replay_queue_submit(self): |
| qs_body = [] |
| qs_body.append(' XGL_CMD_BUFFER *remappedBuffers = NULL;') |
| qs_body.append(' if (pPacket->pCmdBuffers != NULL)') |
| qs_body.append(' {') |
| qs_body.append(' remappedBuffers = GLV_NEW_ARRAY( XGL_CMD_BUFFER, pPacket->cmdBufferCount);') |
| qs_body.append(' for (XGL_UINT i = 0; i < pPacket->cmdBufferCount; i++)') |
| qs_body.append(' {') |
| qs_body.append(' *(remappedBuffers + i) = remap(*(pPacket->pCmdBuffers + i));') |
| qs_body.append(' }') |
| qs_body.append(' }') |
| qs_body.append(' XGL_MEMORY_REF* memRefs = NULL;') |
| qs_body.append(' if (pPacket->pMemRefs != NULL)') |
| qs_body.append(' {') |
| qs_body.append(' memRefs = GLV_NEW_ARRAY(XGL_MEMORY_REF, pPacket->memRefCount);') |
| qs_body.append(' memcpy(memRefs, pPacket->pMemRefs, sizeof(XGL_MEMORY_REF) * pPacket->memRefCount);') |
| qs_body.append(' for (XGL_UINT i = 0; i < pPacket->memRefCount; i++)') |
| qs_body.append(' {') |
| qs_body.append(' memRefs[i].mem = remap(pPacket->pMemRefs[i].mem);') |
| qs_body.append(' }') |
| qs_body.append(' }') |
| qs_body.append(' replayResult = m_xglFuncs.real_xglQueueSubmit(remap(pPacket->queue), pPacket->cmdBufferCount, remappedBuffers, pPacket->memRefCount,') |
| qs_body.append(' memRefs, remap(pPacket->fence));') |
| qs_body.append(' GLV_DELETE(remappedBuffers);') |
| qs_body.append(' GLV_DELETE(memRefs);') |
| return "\n".join(qs_body) |
| |
| def _gen_replay_get_memory_heap_count(self): |
| mhc_body = [] |
| mhc_body.append(' XGL_UINT count;') |
| mhc_body.append(' replayResult = m_xglFuncs.real_xglGetMemoryHeapCount(remap(pPacket->device), &count);') |
| mhc_body.append(' if (count < 1 || count >= XGL_MAX_MEMORY_HEAPS)') |
| mhc_body.append(' glv_LogError("xglGetMemoryHeapCount returned bad value count = %u\\n", count);') |
| return "\n".join(mhc_body) |
| |
| def _gen_replay_get_memory_heap_info(self): |
| mhi_body = [] |
| mhi_body.append(' // TODO handle case where traced heap count, ids and properties do not match replay heaps') |
| mhi_body.append(' XGL_SIZE dataSize = sizeof(XGL_MEMORY_HEAP_PROPERTIES);') |
| mhi_body.append(' // TODO check returned properties match queried properties if this makes sense') |
| mhi_body.append(' if (pPacket->heapId >= XGL_MAX_MEMORY_HEAPS)') |
| mhi_body.append(' {') |
| mhi_body.append(' glv_LogError("xglGetMemoryHeapInfo bad heapid (%d) skipping packet\\n");') |
| mhi_body.append(' break;') |
| mhi_body.append(' }') |
| mhi_body.append(' replayResult = m_xglFuncs.real_xglGetMemoryHeapInfo(remap(pPacket->device), pPacket->heapId, pPacket->infoType, &dataSize,') |
| mhi_body.append(' static_cast <XGL_VOID *> (&(m_heapProps[pPacket->heapId])));') |
| mhi_body.append(' if (dataSize != sizeof(XGL_MEMORY_HEAP_PROPERTIES))') |
| mhi_body.append(' glv_LogError("xglGetMemoryHeapInfo returned bad size = %u\\n", dataSize);') |
| return "\n".join(mhi_body) |
| |
| def _gen_replay_remap_virtual_memory_pages(self): |
| rvm_body = [] |
| rvm_body.append(' XGL_VIRTUAL_MEMORY_REMAP_RANGE *pRemappedRanges = GLV_NEW_ARRAY( XGL_VIRTUAL_MEMORY_REMAP_RANGE, pPacket->rangeCount);') |
| rvm_body.append(' for (XGL_UINT i = 0; i < pPacket->rangeCount; i++)') |
| rvm_body.append(' {') |
| rvm_body.append(' copy_mem_remap_range_struct(pRemappedRanges + i, (pPacket->pRanges + i));') |
| rvm_body.append(' }') |
| rvm_body.append(' XGL_QUEUE_SEMAPHORE *pRemappedPreSema = GLV_NEW_ARRAY(XGL_QUEUE_SEMAPHORE, pPacket->preWaitSemaphoreCount);') |
| rvm_body.append(' for (XGL_UINT i = 0; i < pPacket->preWaitSemaphoreCount; i++)') |
| rvm_body.append(' {') |
| rvm_body.append(' *(pRemappedPreSema + i) = *(pPacket->pPreWaitSemaphores + i);') |
| rvm_body.append(' }') |
| rvm_body.append(' XGL_QUEUE_SEMAPHORE *pRemappedPostSema = GLV_NEW_ARRAY(XGL_QUEUE_SEMAPHORE, pPacket->postSignalSemaphoreCount);') |
| rvm_body.append(' for (XGL_UINT i = 0; i < pPacket->postSignalSemaphoreCount; i++)') |
| rvm_body.append(' {') |
| rvm_body.append(' *(pRemappedPostSema + i) = *(pPacket->pPostSignalSemaphores + i);') |
| rvm_body.append(' }') |
| rvm_body.append(' replayResult = m_xglFuncs.real_xglRemapVirtualMemoryPages(remap(pPacket->device), pPacket->rangeCount, pRemappedRanges, pPacket->preWaitSemaphoreCount,') |
| rvm_body.append(' pPacket->pPreWaitSemaphores, pPacket->postSignalSemaphoreCount, pPacket->pPostSignalSemaphores);') |
| rvm_body.append(' GLV_DELETE(pRemappedRanges);') |
| rvm_body.append(' GLV_DELETE(pRemappedPreSema);') |
| rvm_body.append(' GLV_DELETE(pRemappedPostSema);') |
| return "\n".join(rvm_body) |
| |
| def _gen_replay_get_object_info(self): |
| goi_body = [] |
| goi_body.append(' XGL_SIZE size = 0;') |
| goi_body.append(' void* pData = NULL;') |
| goi_body.append(' if (pPacket->pData != NULL && pPacket->pDataSize != NULL)') |
| goi_body.append(' {') |
| goi_body.append(' size = *pPacket->pDataSize;') |
| goi_body.append(' pData = glv_malloc(*pPacket->pDataSize);') |
| goi_body.append(' memcpy(pData, pPacket->pData, *pPacket->pDataSize);') |
| goi_body.append(' }') |
| goi_body.append(' replayResult = m_xglFuncs.real_xglGetObjectInfo(remap(pPacket->object), pPacket->infoType, &size, pData);') |
| goi_body.append(' if (replayResult == XGL_SUCCESS)') |
| goi_body.append(' {') |
| goi_body.append(' if (size != *pPacket->pDataSize && pData == NULL)') |
| goi_body.append(' {') |
| goi_body.append(' glv_LogWarn("xglGetObjectInfo returned a differing data size: replay (%d bytes) vs trace (%d bytes)\\n", size, *pPacket->pDataSize);') |
| goi_body.append(' }') |
| goi_body.append(' else if (pData != NULL && memcmp(pData, pPacket->pData, size) != 0)') |
| goi_body.append(' {') |
| goi_body.append(' glv_LogWarn("xglGetObjectInfo returned differing data contents than the trace file contained.\\n");') |
| goi_body.append(' }') |
| goi_body.append(' }') |
| goi_body.append(' glv_free(pData);') |
| return "\n".join(goi_body) |
| |
| def _gen_replay_get_format_info(self): |
| gfi_body = [] |
| gfi_body.append(' XGL_SIZE size = 0;') |
| gfi_body.append(' void* pData = NULL;') |
| gfi_body.append(' if (pPacket->pData != NULL && pPacket->pDataSize != NULL)') |
| gfi_body.append(' {') |
| gfi_body.append(' size = *pPacket->pDataSize;') |
| gfi_body.append(' pData = glv_malloc(*pPacket->pDataSize);') |
| gfi_body.append(' }') |
| gfi_body.append(' replayResult = m_xglFuncs.real_xglGetFormatInfo(remap(pPacket->device), pPacket->format, pPacket->infoType, &size, pData);') |
| gfi_body.append(' if (replayResult == XGL_SUCCESS)') |
| gfi_body.append(' {') |
| gfi_body.append(' if (size != *pPacket->pDataSize && pData == NULL)') |
| gfi_body.append(' {') |
| gfi_body.append(' glv_LogWarn("xglGetFormatInfo returned a differing data size: replay (%d bytes) vs trace (%d bytes)\\n", size, *pPacket->pDataSize);') |
| gfi_body.append(' }') |
| gfi_body.append(' else if (pData != NULL && memcmp(pData, pPacket->pData, size) != 0)') |
| gfi_body.append(' {') |
| gfi_body.append(' glv_LogWarn("xglGetFormatInfo returned differing data contents than the trace file contained.\\n");') |
| gfi_body.append(' }') |
| gfi_body.append(' }') |
| gfi_body.append(' glv_free(pData);') |
| return "\n".join(gfi_body) |
| |
| def _gen_replay_get_image_subresource_info(self): |
| isi_body = [] |
| isi_body.append(' XGL_SIZE size = 0;') |
| isi_body.append(' void* pData = NULL;') |
| isi_body.append(' if (pPacket->pData != NULL && pPacket->pDataSize != NULL)') |
| isi_body.append(' {') |
| isi_body.append(' size = *pPacket->pDataSize;') |
| isi_body.append(' pData = glv_malloc(*pPacket->pDataSize);') |
| isi_body.append(' }') |
| isi_body.append(' replayResult = m_xglFuncs.real_xglGetImageSubresourceInfo(remap(pPacket->image), pPacket->pSubresource, pPacket->infoType, &size, pData);') |
| isi_body.append(' if (replayResult == XGL_SUCCESS)') |
| isi_body.append(' {') |
| isi_body.append(' if (size != *pPacket->pDataSize && pData == NULL)') |
| isi_body.append(' {') |
| isi_body.append(' glv_LogWarn("xglGetImageSubresourceInfo returned a differing data size: replay (%d bytes) vs trace (%d bytes)\\n", size, *pPacket->pDataSize);') |
| isi_body.append(' }') |
| isi_body.append(' else if (pData != NULL && memcmp(pData, pPacket->pData, size) != 0)') |
| isi_body.append(' {') |
| isi_body.append(' glv_LogWarn("xglGetImageSubresourceInfo returned differing data contents than the trace file contained.\\n");') |
| isi_body.append(' }') |
| isi_body.append(' }') |
| isi_body.append(' glv_free(pData);') |
| return "\n".join(isi_body) |
| |
| def _gen_replay_create_graphics_pipeline(self): |
| cgp_body = [] |
| cgp_body.append(' XGL_GRAPHICS_PIPELINE_CREATE_INFO createInfo;') |
| cgp_body.append(' struct shaderPair saveShader[10];') |
| cgp_body.append(' unsigned int idx = 0;') |
| cgp_body.append(' memcpy(&createInfo, pPacket->pCreateInfo, sizeof(XGL_GRAPHICS_PIPELINE_CREATE_INFO));') |
| cgp_body.append(' // Cast to shader type, as those are of primariy interest and all structs in LL have same header w/ sType & pNext') |
| cgp_body.append(' XGL_PIPELINE_SHADER_STAGE_CREATE_INFO* pPacketNext = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*)pPacket->pCreateInfo->pNext;') |
| cgp_body.append(' XGL_PIPELINE_SHADER_STAGE_CREATE_INFO* pNext = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*)createInfo.pNext;') |
| cgp_body.append(' while (XGL_NULL_HANDLE != pPacketNext)') |
| cgp_body.append(' {') |
| cgp_body.append(' if (XGL_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_CREATE_INFO == pNext->sType)') |
| cgp_body.append(' {') |
| cgp_body.append(' saveShader[idx].val = pNext->shader.shader;') |
| cgp_body.append(' saveShader[idx++].addr = &(pNext->shader.shader);') |
| cgp_body.append(' pNext->shader.shader = remap(pPacketNext->shader.shader);') |
| cgp_body.append(' }') |
| cgp_body.append(' pPacketNext = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*)pPacketNext->pNext;') |
| cgp_body.append(' pNext = (XGL_PIPELINE_SHADER_STAGE_CREATE_INFO*)pNext->pNext;') |
| cgp_body.append(' }') |
| cgp_body.append(' XGL_PIPELINE pipeline;') |
| cgp_body.append(' replayResult = m_xglFuncs.real_xglCreateGraphicsPipeline(remap(pPacket->device), &createInfo, &pipeline);') |
| cgp_body.append(' if (replayResult == XGL_SUCCESS)') |
| cgp_body.append(' {') |
| cgp_body.append(' add_to_map(pPacket->pPipeline, &pipeline);') |
| cgp_body.append(' }') |
| cgp_body.append(' for (unsigned int i = 0; i < idx; i++)') |
| cgp_body.append(' *(saveShader[i].addr) = saveShader[i].val;') |
| return "\n".join(cgp_body) |
| |
| def _gen_replay_create_framebuffer(self): |
| cf_body = [] |
| cf_body.append(' XGL_FRAMEBUFFER_CREATE_INFO *pInfo = (XGL_FRAMEBUFFER_CREATE_INFO *) pPacket->pCreateInfo;') |
| cf_body.append(' XGL_COLOR_ATTACHMENT_BIND_INFO *pColorAttachments, *pSavedColor = (XGL_COLOR_ATTACHMENT_BIND_INFO*)pInfo->pColorAttachments;') |
| cf_body.append(' bool allocatedColorAttachments = false;') |
| cf_body.append(' if (pSavedColor != NULL)') |
| cf_body.append(' {') |
| cf_body.append(' allocatedColorAttachments = true;') |
| cf_body.append(' pColorAttachments = GLV_NEW_ARRAY(XGL_COLOR_ATTACHMENT_BIND_INFO, pInfo->colorAttachmentCount);') |
| cf_body.append(' memcpy(pColorAttachments, pSavedColor, sizeof(XGL_COLOR_ATTACHMENT_BIND_INFO) * pInfo->colorAttachmentCount);') |
| cf_body.append(' for (XGL_UINT i = 0; i < pInfo->colorAttachmentCount; i++)') |
| cf_body.append(' {') |
| cf_body.append(' pColorAttachments[i].view = remap(pInfo->pColorAttachments[i].view);') |
| cf_body.append(' }') |
| cf_body.append(' pInfo->pColorAttachments = pColorAttachments;') |
| cf_body.append(' }') |
| cf_body.append(' // remap depth stencil target') |
| cf_body.append(' XGL_DEPTH_STENCIL_BIND_INFO *pSavedDS = pInfo->pDepthStencilAttachment;') |
| cf_body.append(' XGL_DEPTH_STENCIL_BIND_INFO depthTarget;') |
| cf_body.append(' if (pSavedDS != NULL)') |
| cf_body.append(' {') |
| cf_body.append(' memcpy(&depthTarget, pSavedDS, sizeof(XGL_DEPTH_STENCIL_BIND_INFO));') |
| cf_body.append(' depthTarget.view = remap(pSavedDS->view);') |
| cf_body.append(' pInfo->pDepthStencilAttachment = &depthTarget;') |
| cf_body.append(' }') |
| cf_body.append(' XGL_FRAMEBUFFER local_framebuffer;') |
| cf_body.append(' replayResult = m_xglFuncs.real_xglCreateFramebuffer(remap(pPacket->device), pPacket->pCreateInfo, &local_framebuffer);') |
| cf_body.append(' pInfo->pColorAttachments = pSavedColor;') |
| cf_body.append(' pInfo->pDepthStencilAttachment = pSavedDS;') |
| cf_body.append(' if (replayResult == XGL_SUCCESS)') |
| cf_body.append(' {') |
| cf_body.append(' add_to_map(pPacket->pFramebuffer, &local_framebuffer);') |
| cf_body.append(' }') |
| cf_body.append(' if (allocatedColorAttachments)') |
| cf_body.append(' {') |
| cf_body.append(' GLV_DELETE((void*)pColorAttachments);') |
| cf_body.append(' }') |
| return "\n".join(cf_body) |
| |
| def _gen_replay_create_renderpass(self): |
| cr_body = [] |
| cr_body.append(' XGL_RENDER_PASS_CREATE_INFO *pInfo = (XGL_RENDER_PASS_CREATE_INFO *) pPacket->pCreateInfo;') |
| cr_body.append(' // remap framebuffer') |
| cr_body.append(' XGL_FRAMEBUFFER savedFB, *pFB = &(pInfo->framebuffer);') |
| cr_body.append(' if (*pFB != NULL)') |
| cr_body.append(' {') |
| cr_body.append(' savedFB = pInfo->framebuffer;') |
| cr_body.append(' *pFB = remap(pInfo->framebuffer);') |
| cr_body.append(' }') |
| cr_body.append(' XGL_RENDER_PASS local_renderpass;') |
| cr_body.append(' replayResult = m_xglFuncs.real_xglCreateRenderPass(remap(pPacket->device), pPacket->pCreateInfo, &local_renderpass);') |
| cr_body.append(' pInfo->framebuffer = savedFB;') |
| cr_body.append(' if (replayResult == XGL_SUCCESS)') |
| cr_body.append(' {') |
| cr_body.append(' add_to_map(pPacket->pRenderPass, &local_renderpass);') |
| cr_body.append(' }') |
| return "\n".join(cr_body) |
| |
| def _gen_replay_begin_command_buffer(self): |
| bcb_body = [] |
| bcb_body.append(' XGL_CMD_BUFFER_BEGIN_INFO* pInfo = (XGL_CMD_BUFFER_BEGIN_INFO*)pPacket->pBeginInfo;') |
| bcb_body.append(' // assume only zero or one graphics_begin_info in the chain') |
| bcb_body.append(' XGL_RENDER_PASS savedRP, *pRP;') |
| bcb_body.append(' XGL_CMD_BUFFER_GRAPHICS_BEGIN_INFO *pGInfo = NULL;') |
| bcb_body.append(' while (pInfo != NULL)') |
| bcb_body.append(' {') |
| bcb_body.append('') |
| bcb_body.append(' if (pInfo->sType == XGL_STRUCTURE_TYPE_CMD_BUFFER_GRAPHICS_BEGIN_INFO)') |
| bcb_body.append(' {') |
| bcb_body.append(' pGInfo = (XGL_CMD_BUFFER_GRAPHICS_BEGIN_INFO *) pInfo;') |
| bcb_body.append(' savedRP = pGInfo->renderPass;') |
| bcb_body.append(' pRP = &(pGInfo->renderPass);') |
| bcb_body.append(' *pRP = remap(pGInfo->renderPass);') |
| bcb_body.append(' break;') |
| bcb_body.append(' }') |
| bcb_body.append(' pInfo = (XGL_CMD_BUFFER_BEGIN_INFO*) pInfo->pNext;') |
| bcb_body.append(' }') |
| bcb_body.append(' replayResult = m_xglFuncs.real_xglBeginCommandBuffer(remap(pPacket->cmdBuffer), pPacket->pBeginInfo);') |
| bcb_body.append(' if (pGInfo != NULL)') |
| bcb_body.append(' pGInfo->renderPass = savedRP;') |
| return "\n".join(bcb_body) |
| |
| def _gen_replay_store_pipeline(self): |
| sp_body = [] |
| sp_body.append(' XGL_SIZE size = 0;') |
| sp_body.append(' void* pData = NULL;') |
| sp_body.append(' if (pPacket->pData != NULL && pPacket->pDataSize != NULL)') |
| sp_body.append(' {') |
| sp_body.append(' size = *pPacket->pDataSize;') |
| sp_body.append(' pData = glv_malloc(*pPacket->pDataSize);') |
| sp_body.append(' }') |
| sp_body.append(' replayResult = m_xglFuncs.real_xglStorePipeline(remap(pPacket->pipeline), &size, pData);') |
| sp_body.append(' if (replayResult == XGL_SUCCESS)') |
| sp_body.append(' {') |
| sp_body.append(' if (size != *pPacket->pDataSize && pData == NULL)') |
| sp_body.append(' {') |
| sp_body.append(' glv_LogWarn("xglStorePipeline returned a differing data size: replay (%d bytes) vs trace (%d bytes)\\n", size, *pPacket->pDataSize);') |
| sp_body.append(' }') |
| sp_body.append(' else if (pData != NULL && memcmp(pData, pPacket->pData, size) != 0)') |
| sp_body.append(' {') |
| sp_body.append(' glv_LogWarn("xglStorePipeline returned differing data contents than the trace file contained.\\n");') |
| sp_body.append(' }') |
| sp_body.append(' }') |
| sp_body.append(' glv_free(pData);') |
| return "\n".join(sp_body) |
| |
| def _gen_replay_get_multi_gpu_compatibility(self): |
| gmgc_body = [] |
| gmgc_body.append(' XGL_GPU_COMPATIBILITY_INFO cInfo;') |
| gmgc_body.append(' XGL_PHYSICAL_GPU handle0, handle1;') |
| gmgc_body.append(' handle0 = remap(pPacket->gpu0);') |
| gmgc_body.append(' handle1 = remap(pPacket->gpu1);') |
| gmgc_body.append(' replayResult = m_xglFuncs.real_xglGetMultiGpuCompatibility(handle0, handle1, &cInfo);') |
| return "\n".join(gmgc_body) |
| |
| def _gen_replay_destroy_object(self): |
| do_body = [] |
| do_body.append(' XGL_OBJECT object = remap(pPacket->object);') |
| do_body.append(' if (object != XGL_NULL_HANDLE)') |
| do_body.append(' replayResult = m_xglFuncs.real_xglDestroyObject(object);') |
| do_body.append(' if (replayResult == XGL_SUCCESS)') |
| do_body.append(' rm_from_map(pPacket->object);') |
| return "\n".join(do_body) |
| |
| def _gen_replay_wait_for_fences(self): |
| wf_body = [] |
| wf_body.append(' XGL_FENCE *pFence = GLV_NEW_ARRAY(XGL_FENCE, pPacket->fenceCount);') |
| wf_body.append(' for (XGL_UINT i = 0; i < pPacket->fenceCount; i++)') |
| wf_body.append(' {') |
| wf_body.append(' *(pFence + i) = remap(*(pPacket->pFences + i));') |
| wf_body.append(' }') |
| wf_body.append(' replayResult = m_xglFuncs.real_xglWaitForFences(remap(pPacket->device), pPacket->fenceCount, pFence, pPacket->waitAll, pPacket->timeout);') |
| wf_body.append(' GLV_DELETE(pFence);') |
| return "\n".join(wf_body) |
| |
| def _gen_replay_wsi_associate_connection(self): |
| wac_body = [] |
| wac_body.append(' //associate with the replayers Wsi connection rather than tracers') |
| wac_body.append(' replayResult = m_xglFuncs.real_xglWsiX11AssociateConnection(remap(pPacket->gpu), &(m_display->m_WsiConnection));') |
| return "\n".join(wac_body) |
| |
| def _gen_replay_wsi_get_msc(self): |
| wgm_body = [] |
| wgm_body.append(' xcb_window_t window = m_display->m_XcbWindow;') |
| wgm_body.append(' replayResult = m_xglFuncs.real_xglWsiX11GetMSC(remap(pPacket->device), window, pPacket->crtc, pPacket->pMsc);') |
| return "\n".join(wgm_body) |
| |
| def _gen_replay_wsi_create_presentable_image(self): |
| cpi_body = [] |
| cpi_body.append(' XGL_IMAGE img;') |
| cpi_body.append(' XGL_GPU_MEMORY mem;') |
| cpi_body.append(' replayResult = m_xglFuncs.real_xglWsiX11CreatePresentableImage(remap(pPacket->device), pPacket->pCreateInfo, &img, &mem);') |
| cpi_body.append(' if (replayResult == XGL_SUCCESS)') |
| cpi_body.append(' {') |
| cpi_body.append(' if (pPacket->pImage != NULL)') |
| cpi_body.append(' add_to_map(pPacket->pImage, &img);') |
| cpi_body.append(' if(pPacket->pMem != NULL)') |
| cpi_body.append(' add_to_map(pPacket->pMem, &mem);') |
| cpi_body.append(' }') |
| return "\n".join(cpi_body) |
| |
| def _gen_replay_wsi_queue_present(self): |
| wqp_body = [] |
| wqp_body.append(' XGL_WSI_X11_PRESENT_INFO pInfo;') |
| wqp_body.append(' memcpy(&pInfo, pPacket->pPresentInfo, sizeof(XGL_WSI_X11_PRESENT_INFO));') |
| wqp_body.append(' pInfo.srcImage = remap(pPacket->pPresentInfo->srcImage);') |
| wqp_body.append(' // use replayers Xcb window') |
| wqp_body.append(' pInfo.destWindow = m_display->m_XcbWindow;') |
| wqp_body.append(' replayResult = m_xglFuncs.real_xglWsiX11QueuePresent(remap(pPacket->queue), &pInfo, remap(pPacket->fence));') |
| return "\n".join(wqp_body) |
| |
| # I don't like making these 3 mem functions 'fully' custom, but just doing it for now to avoid being too cute |
| def _gen_replay_free_memory(self): |
| fm_body = [] |
| fm_body.append(' XGL_GPU_MEMORY handle = remap(pPacket->mem);') |
| fm_body.append(' replayResult = m_xglFuncs.real_xglFreeMemory(handle);') |
| fm_body.append(' if (replayResult == XGL_SUCCESS) ') |
| fm_body.append(' {') |
| fm_body.append(' rm_entry_from_mapData(handle);') |
| fm_body.append(' rm_from_map(pPacket->mem);') |
| fm_body.append(' }') |
| return "\n".join(fm_body) |
| |
| def _gen_replay_map_memory(self): |
| mm_body = [] |
| mm_body.append(' XGL_GPU_MEMORY handle = remap(pPacket->mem);') |
| mm_body.append(' XGL_VOID* pData;') |
| mm_body.append(' replayResult = m_xglFuncs.real_xglMapMemory(handle, pPacket->flags, &pData);') |
| mm_body.append(' if (replayResult == XGL_SUCCESS)') |
| mm_body.append(' add_mapping_to_mapData(handle, pData);') |
| return "\n".join(mm_body) |
| |
| def _gen_replay_unmap_memory(self): |
| um_body = [] |
| um_body.append(' XGL_GPU_MEMORY handle = remap(pPacket->mem);') |
| um_body.append(' rm_mapping_from_mapData(handle, pPacket->pData); // copies data from packet into memory buffer') |
| um_body.append(' replayResult = m_xglFuncs.real_xglUnmapMemory(handle);') |
| return "\n".join(um_body) |
| |
| def _gen_replay_bind_dynamic_memory_view(self): |
| bdmv_body = [] |
| bdmv_body.append(' XGL_MEMORY_VIEW_ATTACH_INFO memView;') |
| bdmv_body.append(' memcpy(&memView, pPacket->pMemView, sizeof(XGL_MEMORY_VIEW_ATTACH_INFO));') |
| bdmv_body.append(' memView.mem = remap(pPacket->pMemView->mem);') |
| bdmv_body.append(' m_xglFuncs.real_xglCmdBindDynamicMemoryView(remap(pPacket->cmdBuffer), pPacket->pipelineBindPoint, &memView);') |
| return "\n".join(bdmv_body) |
| |
| def _generate_replay(self): |
| # map protos to custom functions if body is fully custom |
| custom_body_dict = {'InitAndEnumerateGpus': self._gen_replay_init_and_enum_gpus, |
| 'GetGpuInfo': self._gen_replay_get_gpu_info, |
| 'CreateDevice': self._gen_replay_create_device, |
| 'GetExtensionSupport': self._gen_replay_get_extension_support, |
| 'QueueSubmit': self._gen_replay_queue_submit, |
| 'GetMemoryHeapCount': self._gen_replay_get_memory_heap_count, |
| 'GetMemoryHeapInfo': self._gen_replay_get_memory_heap_info, |
| 'RemapVirtualMemoryPages': self._gen_replay_remap_virtual_memory_pages, |
| 'GetObjectInfo': self._gen_replay_get_object_info, |
| 'GetFormatInfo': self._gen_replay_get_format_info, |
| 'GetImageSubresourceInfo': self._gen_replay_get_image_subresource_info, |
| 'CreateGraphicsPipeline': self._gen_replay_create_graphics_pipeline, |
| 'CreateFramebuffer': self._gen_replay_create_framebuffer, |
| 'CreateRenderPass': self._gen_replay_create_renderpass, |
| 'BeginCommandBuffer': self._gen_replay_begin_command_buffer, |
| 'StorePipeline': self._gen_replay_store_pipeline, |
| 'GetMultiGpuCompatibility': self._gen_replay_get_multi_gpu_compatibility, |
| 'DestroyObject': self._gen_replay_destroy_object, |
| 'WaitForFences': self._gen_replay_wait_for_fences, |
| 'WsiX11AssociateConnection': self._gen_replay_wsi_associate_connection, |
| 'WsiX11GetMSC': self._gen_replay_wsi_get_msc, |
| 'WsiX11CreatePresentableImage': self._gen_replay_wsi_create_presentable_image, |
| 'WsiX11QueuePresent': self._gen_replay_wsi_queue_present, |
| 'FreeMemory': self._gen_replay_free_memory, |
| 'MapMemory': self._gen_replay_map_memory, |
| 'UnmapMemory': self._gen_replay_unmap_memory, |
| 'CmdBindDynamicMemoryView': self._gen_replay_bind_dynamic_memory_view} |
| # Despite returning a value, don't check these funcs b/c custom code includes check already |
| custom_check_ret_val = ['InitAndEnumerateGpus', 'GetGpuInfo', 'CreateDevice', 'GetExtensionSupport'] |
| # multi-gpu Open funcs w/ list of local params to create |
| custom_open_params = {'OpenSharedMemory': (-1,), |
| 'OpenSharedQueueSemaphore': (-1,), |
| 'OpenPeerMemory': (-1,), |
| 'OpenPeerImage': (-1, -2,)} |
| # Functions that create views are unique from other create functions |
| create_view_list = ['CreateImageView', 'CreateColorAttachmentView', 'CreateDepthStencilView', 'CreateComputePipeline'] |
| # Functions to treat as "Create' that don't have 'Create' in the name |
| special_create_list = ['LoadPipeline', 'AllocMemory', 'GetDeviceQueue', 'PinSystemMemory'] |
| # A couple funcs use do while loops |
| do_while_dict = {'GetFenceStatus': 'replayResult != pPacket->result && pPacket->result == XGL_SUCCESS', 'GetEventStatus': '(pPacket->result == XGL_EVENT_SET || pPacket->result == XGL_EVENT_RESET) && replayResult != pPacket->result'} |
| rbody = [] |
| rbody.append('#define CHECK_RETURN_VALUE(entrypoint) returnValue = handle_replay_errors(#entrypoint, replayResult, pPacket->result, returnValue);\n') |
| rbody.append('glv_replay::GLV_REPLAY_RESULT xglReplay::replay(glv_trace_packet_header *packet)') |
| rbody.append('{') |
| rbody.append(' glv_replay::GLV_REPLAY_RESULT returnValue = glv_replay::GLV_REPLAY_SUCCESS;') |
| rbody.append(' XGL_RESULT replayResult = XGL_ERROR_UNKNOWN;') |
| rbody.append(' switch (packet->packet_id)') |
| rbody.append(' {') |
| rbody.append(' case GLV_TPI_XGL_xglApiVersion:') |
| rbody.append(' break; // nothing to replay on the version packet') |
| for proto in self.protos: |
| ret_value = False |
| create_view = False |
| create_func = False |
| transitions = False |
| ds_attach = False |
| # TODO : How to handle VOID* return of GetProcAddr? |
| if ('VOID' not in proto.ret) and (proto.name not in custom_check_ret_val): |
| ret_value = True |
| if proto.name in create_view_list: |
| create_view = True |
| elif 'Create' in proto.name or proto.name in special_create_list: |
| create_func = True |
| elif 'pStateTransitions' in [p.name for p in proto.params]: |
| transitions = True |
| elif proto.name.startswith('Attach'): |
| ds_attach = True |
| rbody.append(' case GLV_TPI_XGL_xgl%s:' % proto.name) |
| rbody.append(' {') |
| rbody.append(' struct_xgl%s* pPacket = (struct_xgl%s*)(packet->pBody);' % (proto.name, proto.name)) |
| if proto.name in custom_body_dict: |
| rbody.append(custom_body_dict[proto.name]()) |
| else: |
| if proto.name in custom_open_params: |
| rbody.append(' XGL_DEVICE handle;') |
| for pidx in custom_open_params[proto.name]: |
| rbody.append(' %s local_%s;' % (proto.params[pidx].ty.strip('const ').strip('*'), proto.params[pidx].name)) |
| rbody.append(' handle = remap(pPacket->device);') |
| elif create_view: |
| rbody.append(' %s createInfo;' % (proto.params[1].ty.strip('*').strip('const '))) |
| rbody.append(' memcpy(&createInfo, pPacket->pCreateInfo, sizeof(%s));' % (proto.params[1].ty.strip('*').strip('const '))) |
| if 'CreateComputePipeline' == proto.name: |
| rbody.append(' createInfo.cs.shader = remap(pPacket->pCreateInfo->cs.shader);') |
| else: |
| rbody.append(' createInfo.image = remap(pPacket->pCreateInfo->image);') |
| rbody.append(' %s local_%s;' % (proto.params[-1].ty.strip('*').strip('const '), proto.params[-1].name)) |
| elif create_func: # Declare local var to store created handle into |
| rbody.append(' %s local_%s;' % (proto.params[-1].ty.strip('*').strip('const '), proto.params[-1].name)) |
| elif transitions: |
| rbody.append(' %s pStateTransitions = (%s)pPacket->pStateTransitions;' % (proto.params[-1].ty.strip('const '), proto.params[-1].ty.strip('const '))) |
| rbody.append(' bool allocatedMem = false;') |
| rbody.append(' if (pStateTransitions != NULL)') |
| rbody.append(' {') |
| rbody.append(' allocatedMem = true;') |
| rbody.append(' pStateTransitions = GLV_NEW_ARRAY(%s, pPacket->transitionCount);' % (proto.params[-1].ty.strip('*').strip('const '))) |
| rbody.append(' memcpy(pStateTransitions, pPacket->pStateTransitions, sizeof(%s) * pPacket->transitionCount);' % (proto.params[-1].ty.strip('*').strip('const '))) |
| rbody.append(' for (XGL_UINT i = 0; i < pPacket->transitionCount; i++)') |
| rbody.append(' {') |
| if 'Memory' in proto.name: |
| rbody.append(' pStateTransitions[i].mem = remap(pPacket->pStateTransitions[i].mem);') |
| else: |
| rbody.append(' pStateTransitions[i].image = remap(pPacket->pStateTransitions[i].image);') |
| rbody.append(' }') |
| rbody.append(' }') |
| elif ds_attach: |
| rbody.append(' %s %s = GLV_NEW_ARRAY(%s, pPacket->slotCount);' % (proto.params[-1].ty.strip('const '), proto.params[-1].name, proto.params[-1].ty.strip('const ').strip('*'))) |
| rbody.append(' memcpy(%s, pPacket->%s, pPacket->slotCount * sizeof(%s));' % (proto.params[-1].name, proto.params[-1].name, proto.params[-1].ty.strip('const ').strip('*'))) |
| rbody.append(' for (XGL_UINT i = 0; i < pPacket->slotCount; i++)') |
| rbody.append(' {') |
| if 'Sampler' in proto.name: |
| rbody.append(' %s[i] = remap(pPacket->%s[i]);' % (proto.params[-1].name, proto.params[-1].name)) |
| elif 'Image' in proto.name: |
| rbody.append(' %s[i].view = remap(pPacket->%s[i].view);' % (proto.params[-1].name, proto.params[-1].name)) |
| elif 'Memory' in proto.name: |
| rbody.append(' %s[i].mem = remap(pPacket->%s[i].mem);' % (proto.params[-1].name, proto.params[-1].name)) |
| else: |
| rbody.append(' %s[i].descriptorSet = remap(pPacket->%s[i].descriptorSet);' % (proto.params[-1].name, proto.params[-1].name)) |
| rbody.append(' }') |
| elif proto.name in do_while_dict: |
| rbody.append(' do {') |
| rr_string = ' ' |
| if ret_value: |
| rr_string = ' replayResult = ' |
| rr_string += 'm_xglFuncs.real_xgl%s(' % proto.name |
| for p in proto.params: |
| # For last param of Create funcs, pass address of param |
| if create_func and p.name == proto.params[-1].name: |
| rr_string += '&local_%s, ' % p.name |
| else: |
| rr_string += '%s, ' % self._get_packet_param(p.ty, p.name) |
| rr_string = '%s);' % rr_string[:-2] |
| if transitions: |
| rr_string = rr_string.replace('pPacket->pState', 'pState') |
| elif ds_attach: |
| rr_list = rr_string.split(', ') |
| rr_list[-1] = '%s);' % proto.params[-1].name |
| rr_string = ', '.join(rr_list) |
| elif proto.name in custom_open_params: |
| rr_list = rr_string.split(', ') |
| rr_list[0] = rr_list[0].replace('remap(pPacket->device)', 'handle') |
| for pidx in custom_open_params[proto.name]: |
| rr_list[pidx] = '&local_%s' % proto.params[pidx].name |
| rr_string = ', '.join(rr_list) |
| rr_string += ');' |
| elif create_view: |
| rr_list = rr_string.split(', ') |
| rr_list[-2] = '&createInfo' |
| rr_list[-1] = '&local_%s);' % proto.params[-1].name |
| rr_string = ', '.join(rr_list) |
| # this is a sneaky shortcut to use generic create code below to add_to_map |
| create_func = True |
| rbody.append(rr_string) |
| if 'DestroyDevice' in proto.name: |
| rbody.append(' if (replayResult == XGL_SUCCESS)') |
| rbody.append(' {') |
| rbody.append(' rm_from_map(pPacket->device);') |
| rbody.append(' m_display->m_initedXGL = false;') |
| rbody.append(' }') |
| elif create_func: # save handle mapping if create successful |
| rbody.append(' if (replayResult == XGL_SUCCESS)') |
| rbody.append(' {') |
| rbody.append(' add_to_map(pPacket->%s, &local_%s);' % (proto.params[-1].name, proto.params[-1].name)) |
| if 'AllocMemory' == proto.name: |
| rbody.append(' add_entry_to_mapData(local_%s, pPacket->pAllocInfo->allocationSize);' % (proto.params[-1].name)) |
| rbody.append(' }') |
| elif transitions: |
| rbody.append(' if (allocatedMem)') |
| rbody.append(' {') |
| rbody.append(' GLV_DELETE((void*)pStateTransitions);') |
| rbody.append(' }') |
| elif ds_attach: |
| rbody.append(' GLV_DELETE(%s);' % proto.params[-1].name) |
| elif proto.name in do_while_dict: |
| rbody[-1] = ' %s' % rbody[-1] |
| rbody.append(' } while (%s);' % do_while_dict[proto.name]) |
| if ret_value: |
| rbody.append(' CHECK_RETURN_VALUE(xgl%s);' % proto.name) |
| if 'MsgCallback' in proto.name: |
| rbody.pop() |
| rbody.pop() |
| rbody.pop() |
| rbody.append(' // Just eating these calls as no way to restore dbg func ptr.') |
| rbody.append(' break;') |
| rbody.append(' }') |
| rbody.append(' default:') |
| rbody.append(' glv_LogWarn("Unrecognized packet_id %u, skipping\\n", packet->packet_id);') |
| rbody.append(' returnValue = glv_replay::GLV_REPLAY_INVALID_ID;') |
| rbody.append(' break;') |
| rbody.append(' }') |
| rbody.append(' return returnValue;') |
| rbody.append('}') |
| return "\n".join(rbody) |
| |
| class GlaveTraceHeader(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#include "glvtrace_xgl_xgl_structs.h"') |
| header_txt.append('#include "glvtrace_xgl_packet_id.h"\n') |
| header_txt.append('void AttachHooks();') |
| header_txt.append('void DetachHooks();') |
| header_txt.append('void InitTracer();\n') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_trace_func_ptrs(), |
| self._generate_trace_func_protos()] |
| |
| return "\n".join(body) |
| |
| class GlaveTraceC(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#include "glv_platform.h"') |
| header_txt.append('#include "glv_common.h"') |
| header_txt.append('#include "glvtrace_xgl_xgl.h"') |
| header_txt.append('#include "glvtrace_xgl_xgldbg.h"') |
| header_txt.append('#include "glvtrace_xgl_xglwsix11ext.h"') |
| header_txt.append('#include "glv_interconnect.h"') |
| header_txt.append('#include "glv_filelike.h"') |
| header_txt.append('#ifdef WIN32') |
| header_txt.append('#include "mhook/mhook-lib/mhook.h"') |
| header_txt.append('#endif') |
| header_txt.append('#include "glv_trace_packet_utils.h"') |
| header_txt.append('#include <stdio.h>\n') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_func_ptr_assignments(), |
| self._generate_attach_hooks(), |
| self._generate_detach_hooks(), |
| self._generate_init_funcs(), |
| self._generate_helper_funcs(), |
| self._generate_trace_funcs()] |
| |
| return "\n".join(body) |
| |
| class GlavePacketID(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#pragma once\n') |
| header_txt.append('#include "glv_trace_packet_utils.h"') |
| header_txt.append('#include "glv_trace_packet_identifiers.h"') |
| header_txt.append('#include "glv_interconnect.h"') |
| header_txt.append('#include "glvtrace_xgl_xgl_structs.h"') |
| header_txt.append('#include "glvtrace_xgl_xgldbg_structs.h"') |
| header_txt.append('#include "glvtrace_xgl_xglwsix11ext_structs.h"') |
| header_txt.append('#include "xgl_enum_string_helper.h"') |
| header_txt.append('#define SEND_ENTRYPOINT_ID(entrypoint) ;') |
| header_txt.append('//#define SEND_ENTRYPOINT_ID(entrypoint) glv_TraceInfo(#entrypoint "\\n");\n') |
| header_txt.append('#define SEND_ENTRYPOINT_PARAMS(entrypoint, ...) ;') |
| header_txt.append('//#define SEND_ENTRYPOINT_PARAMS(entrypoint, ...) glv_TraceInfo(entrypoint, __VA_ARGS__);\n') |
| header_txt.append('#define CREATE_TRACE_PACKET(entrypoint, buffer_bytes_needed) \\') |
| header_txt.append(' pHeader = glv_create_trace_packet(GLV_TID_XGL, GLV_TPI_XGL_##entrypoint, sizeof(struct_##entrypoint), buffer_bytes_needed);\n') |
| header_txt.append('#define FINISH_TRACE_PACKET() \\') |
| header_txt.append(' glv_finalize_trace_packet(pHeader); \\') |
| header_txt.append(' glv_write_trace_packet(pHeader, glv_trace_get_trace_file()); \\') |
| header_txt.append(' glv_delete_trace_packet(&pHeader);') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_packet_id_enum(), |
| self._generate_stringify_func(), |
| self._generate_interp_func()] |
| |
| return "\n".join(body) |
| |
| class GlaveCoreStructs(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#pragma once\n') |
| header_txt.append('#include "xgl.h"') |
| header_txt.append('#include "glv_trace_packet_utils.h"\n') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_struct_util_funcs(), |
| self._generate_interp_funcs()] |
| |
| return "\n".join(body) |
| |
| class GlaveWsiHeader(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#pragma once\n') |
| header_txt.append('#include "xgl.h"') |
| header_txt.append('#include "xglWsiX11Ext.h"\n') |
| header_txt.append('void AttachHooks_xglwsix11ext();') |
| header_txt.append('void DetachHooks_xglwsix11ext();') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_trace_func_ptrs_ext(), |
| self._generate_trace_func_protos_ext()] |
| |
| return "\n".join(body) |
| |
| class GlaveWsiC(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#include "glv_platform.h"') |
| header_txt.append('#include "glv_common.h"') |
| header_txt.append('#include "glvtrace_xgl_xglwsix11ext.h"') |
| header_txt.append('#include "glvtrace_xgl_xglwsix11ext_structs.h"') |
| header_txt.append('#include "glvtrace_xgl_packet_id.h"') |
| header_txt.append('#ifdef WIN32') |
| header_txt.append('#include "mhook/mhook-lib/mhook.h"') |
| header_txt.append('#endif') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_func_ptr_assignments_ext(), |
| self._generate_attach_hooks_ext(), |
| self._generate_detach_hooks_ext(), |
| self._generate_trace_funcs_ext()] |
| |
| return "\n".join(body) |
| |
| class GlaveWsiStructs(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#pragma once\n') |
| header_txt.append('#include "xglWsiX11Ext.h"') |
| header_txt.append('#include "glv_trace_packet_utils.h"\n') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_interp_funcs_ext()] |
| |
| return "\n".join(body) |
| |
| class GlaveDbgHeader(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#pragma once\n') |
| header_txt.append('#include "xgl.h"') |
| header_txt.append('#include "xglDbg.h"\n') |
| header_txt.append('void AttachHooks_xgldbg();') |
| header_txt.append('void DetachHooks_xgldbg();') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_trace_func_ptrs_ext('Dbg'), |
| self._generate_trace_func_protos_ext('Dbg')] |
| |
| return "\n".join(body) |
| |
| class GlaveDbgC(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#include "glv_platform.h"') |
| header_txt.append('#include "glv_common.h"') |
| header_txt.append('#include "glvtrace_xgl_xgl.h"') |
| header_txt.append('#include "glvtrace_xgl_xgldbg.h"') |
| header_txt.append('#include "glvtrace_xgl_xgldbg_structs.h"') |
| header_txt.append('#include "glvtrace_xgl_packet_id.h"') |
| header_txt.append('#ifdef WIN32') |
| header_txt.append('#include "mhook/mhook-lib/mhook.h"') |
| header_txt.append('#endif') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_func_ptr_assignments_ext('Dbg'), |
| self._generate_attach_hooks_ext('Dbg'), |
| self._generate_detach_hooks_ext('Dbg'), |
| self._generate_trace_funcs_ext('Dbg')] |
| |
| return "\n".join(body) |
| |
| class GlaveDbgStructs(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#pragma once\n') |
| header_txt.append('#include "xglDbg.h"') |
| header_txt.append('#include "glv_trace_packet_utils.h"\n') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_interp_funcs_ext('Dbg')] |
| |
| return "\n".join(body) |
| |
| class GlaveReplayHeader(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#pragma once\n') |
| header_txt.append('#include <set>') |
| header_txt.append('#include <map>') |
| header_txt.append('#include <vector>') |
| header_txt.append('#include <xcb/xcb.h>\n') |
| header_txt.append('#include "glvreplay_window.h"') |
| header_txt.append('#include "glvreplay_factory.h"') |
| header_txt.append('#include "glv_trace_packet_identifiers.h"\n') |
| header_txt.append('#include "xgl.h"') |
| header_txt.append('#include "xglDbg.h"') |
| header_txt.append('#include "xglWsiX11Ext.h"') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_replay_class_decls(), |
| self._generate_replay_func_ptrs(), |
| self._generate_replay_class()] |
| |
| return "\n".join(body) |
| |
| class GlaveReplayC(Subcommand): |
| def generate_header(self): |
| header_txt = [] |
| header_txt.append('#include "glvreplay_xgl_replay.h"\n') |
| header_txt.append('#include "glvreplay_xgl.h"\n') |
| header_txt.append('extern "C" {') |
| header_txt.append('#include "glvtrace_xgl_xgl_structs.h"') |
| header_txt.append('#include "glvtrace_xgl_xgldbg_structs.h"') |
| header_txt.append('#include "glvtrace_xgl_xglwsix11ext_structs.h"') |
| header_txt.append('#include "glvtrace_xgl_packet_id.h"') |
| header_txt.append('#include "xgl_enum_string_helper.h"\n}\n') |
| header_txt.append('#define APP_NAME "glvreplay_xgl"') |
| header_txt.append('#define IDI_ICON 101\n') |
| header_txt.append('static const char* g_extensions[] =') |
| header_txt.append('{') |
| header_txt.append(' "XGL_WSI_WINDOWS",') |
| header_txt.append(' "XGL_TIMER_QUEUE",') |
| header_txt.append(' "XGL_GPU_TIMESTAMP_CALIBRATION",') |
| header_txt.append(' "XGL_DMA_QUEUE",') |
| header_txt.append(' "XGL_COMMAND_BUFFER_CONTROL_FLOW",') |
| header_txt.append(' "XGL_COPY_OCCLUSION_QUERY_DATA",') |
| header_txt.append(' "XGL_ADVANCED_MULTISAMPLING",') |
| header_txt.append(' "XGL_BORDER_COLOR_PALETTE"') |
| header_txt.append('};') |
| return "\n".join(header_txt) |
| |
| def generate_body(self): |
| body = [self._generate_replay_display_init_xgl(), |
| self._generate_replay_display_init(), |
| self._generate_replay_display_structors(), |
| self._generate_replay_display_window(), |
| self._generate_replay_structors(), |
| self._generate_replay_init(), |
| self._generate_replay_remap(), |
| self._generate_replay_errors(), |
| self._generate_replay_validation_funcs(), |
| self._generate_replay_init_funcs(), |
| self._generate_replay()] |
| |
| return "\n".join(body) |
| |
| def main(): |
| subcommands = { |
| "glave-trace-h" : GlaveTraceHeader, |
| "glave-trace-c" : GlaveTraceC, |
| "glave-packet-id" : GlavePacketID, |
| "glave-core-structs" : GlaveCoreStructs, |
| "glave-wsi-trace-h" : GlaveWsiHeader, |
| "glave-wsi-trace-c" : GlaveWsiC, |
| "glave-wsi-trace-structs" : GlaveWsiStructs, |
| "glave-dbg-trace-h" : GlaveDbgHeader, |
| "glave-dbg-trace-c" : GlaveDbgC, |
| "glave-dbg-trace-structs" : GlaveDbgStructs, |
| "glave-replay-h" : GlaveReplayHeader, |
| "glave-replay-c" : GlaveReplayC, |
| } |
| |
| if len(sys.argv) < 2 or sys.argv[1] not in subcommands: |
| print("Usage: %s <subcommand> [options]" % sys.argv[0]) |
| print |
| print("Available sucommands are: %s" % " ".join(subcommands)) |
| exit(1) |
| |
| subcmd = subcommands[sys.argv[1]](sys.argv[2:]) |
| subcmd.run() |
| |
| if __name__ == "__main__": |
| main() |