#!/usr/bin/python3 -i # # Copyright (c) 2015-2019 The Khronos Group Inc. # Copyright (c) 2015-2019 Valve Corporation # Copyright (c) 2015-2019 LunarG, Inc. # Copyright (c) 2015-2019 Google Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # Author: Mark Lobodzinski # Author: Dave Houlton import os,re,sys,string,json import xml.etree.ElementTree as etree from generator import * from collections import namedtuple from common_codegen import * # This is a workaround to use a Python 2.7 and 3.x compatible syntax. from io import open # ObjectTrackerGeneratorOptions - subclass of GeneratorOptions. # # Adds options used by ObjectTrackerOutputGenerator objects during # object_tracker layer generation. # # Additional members # prefixText - list of strings to prefix generated header with # (usually a copyright statement + calling convention macros). # protectFile - True if multiple inclusion protection should be # generated (based on the filename) around the entire header. # protectFeature - True if #ifndef..#endif protection should be # generated around a feature interface in the header file. # genFuncPointers - True if function pointer typedefs should be # generated # protectProto - If conditional protection should be generated # around prototype declarations, set to either '#ifdef' # to require opt-in (#ifdef protectProtoStr) or '#ifndef' # to require opt-out (#ifndef protectProtoStr). Otherwise # set to None. # protectProtoStr - #ifdef/#ifndef symbol to use around prototype # declarations, if protectProto is set # apicall - string to use for the function declaration prefix, # such as APICALL on Windows. # apientry - string to use for the calling convention macro, # in typedefs, such as APIENTRY. # apientryp - string to use for the calling convention macro # in function pointer typedefs, such as APIENTRYP. # indentFuncProto - True if prototype declarations should put each # parameter on a separate line # indentFuncPointer - True if typedefed function pointers should put each # parameter on a separate line # alignFuncParam - if nonzero and parameters are being put on a # separate line, align parameter names at the specified column class ObjectTrackerGeneratorOptions(GeneratorOptions): def __init__(self, filename = None, directory = '.', apiname = None, profile = None, versions = '.*', emitversions = '.*', defaultExtensions = None, addExtensions = None, removeExtensions = None, emitExtensions = None, sortProcedure = regSortFeatures, prefixText = "", genFuncPointers = True, protectFile = True, protectFeature = True, apicall = '', apientry = '', apientryp = '', indentFuncProto = True, indentFuncPointer = False, alignFuncParam = 0, expandEnumerants = True, valid_usage_path = ''): GeneratorOptions.__init__(self, filename, directory, apiname, profile, versions, emitversions, defaultExtensions, addExtensions, removeExtensions, emitExtensions, sortProcedure) self.prefixText = prefixText self.genFuncPointers = genFuncPointers self.protectFile = protectFile self.protectFeature = protectFeature self.apicall = apicall self.apientry = apientry self.apientryp = apientryp self.indentFuncProto = indentFuncProto self.indentFuncPointer = indentFuncPointer self.alignFuncParam = alignFuncParam self.expandEnumerants = expandEnumerants self.valid_usage_path = valid_usage_path # ObjectTrackerOutputGenerator - subclass of OutputGenerator. # Generates object_tracker layer object validation code # # ---- methods ---- # ObjectTrackerOutputGenerator(errFile, warnFile, diagFile) - args as for OutputGenerator. Defines additional internal state. # ---- methods overriding base class ---- # beginFile(genOpts) # endFile() # beginFeature(interface, emit) # endFeature() # genCmd(cmdinfo) # genStruct() # genType() class ObjectTrackerOutputGenerator(OutputGenerator): """Generate ObjectTracker code based on XML element attributes""" # This is an ordered list of sections in the header file. ALL_SECTIONS = ['command'] def __init__(self, errFile = sys.stderr, warnFile = sys.stderr, diagFile = sys.stdout): OutputGenerator.__init__(self, errFile, warnFile, diagFile) self.INDENT_SPACES = 4 self.prototypes = [] self.instance_extensions = [] self.device_extensions = [] # Commands which are not autogenerated but still intercepted self.no_autogen_list = [ 'vkDestroyInstance', 'vkCreateInstance', 'vkEnumeratePhysicalDevices', 'vkGetPhysicalDeviceQueueFamilyProperties', 'vkGetPhysicalDeviceQueueFamilyProperties2', 'vkGetPhysicalDeviceQueueFamilyProperties2KHR', 'vkGetDeviceQueue', 'vkGetDeviceQueue2', 'vkCreateDescriptorSetLayout', 'vkDestroyDescriptorPool', 'vkDestroyCommandPool', 'vkAllocateCommandBuffers', 'vkAllocateDescriptorSets', 'vkFreeDescriptorSets', 'vkFreeCommandBuffers', 'vkUpdateDescriptorSets', 'vkBeginCommandBuffer', 'vkGetDescriptorSetLayoutSupport', 'vkGetDescriptorSetLayoutSupportKHR', 'vkDestroySwapchainKHR', 'vkGetSwapchainImagesKHR', 'vkCmdPushDescriptorSetKHR', 'vkDestroyDevice', 'vkResetDescriptorPool', 'vkGetPhysicalDeviceDisplayPropertiesKHR', 'vkGetPhysicalDeviceDisplayProperties2KHR', 'vkGetDisplayModePropertiesKHR', 'vkGetDisplayModeProperties2KHR', ] # These VUIDS are not implicit, but are best handled in this layer. Codegen for vkDestroy calls will generate a key # which is translated here into a good VU. Saves ~40 checks. self.manual_vuids = dict() self.manual_vuids = { "fence-compatalloc": "\"VUID-vkDestroyFence-fence-01121\"", "fence-nullalloc": "\"VUID-vkDestroyFence-fence-01122\"", "event-compatalloc": "\"VUID-vkDestroyEvent-event-01146\"", "event-nullalloc": "\"VUID-vkDestroyEvent-event-01147\"", "buffer-compatalloc": "\"VUID-vkDestroyBuffer-buffer-00923\"", "buffer-nullalloc": "\"VUID-vkDestroyBuffer-buffer-00924\"", "image-compatalloc": "\"VUID-vkDestroyImage-image-01001\"", "image-nullalloc": "\"VUID-vkDestroyImage-image-01002\"", "shaderModule-compatalloc": "\"VUID-vkDestroyShaderModule-shaderModule-01092\"", "shaderModule-nullalloc": "\"VUID-vkDestroyShaderModule-shaderModule-01093\"", "pipeline-compatalloc": "\"VUID-vkDestroyPipeline-pipeline-00766\"", "pipeline-nullalloc": "\"VUID-vkDestroyPipeline-pipeline-00767\"", "sampler-compatalloc": "\"VUID-vkDestroySampler-sampler-01083\"", "sampler-nullalloc": "\"VUID-vkDestroySampler-sampler-01084\"", "renderPass-compatalloc": "\"VUID-vkDestroyRenderPass-renderPass-00874\"", "renderPass-nullalloc": "\"VUID-vkDestroyRenderPass-renderPass-00875\"", "descriptorUpdateTemplate-compatalloc": "\"VUID-vkDestroyDescriptorUpdateTemplate-descriptorSetLayout-00356\"", "descriptorUpdateTemplate-nullalloc": "\"VUID-vkDestroyDescriptorUpdateTemplate-descriptorSetLayout-00357\"", "imageView-compatalloc": "\"VUID-vkDestroyImageView-imageView-01027\"", "imageView-nullalloc": "\"VUID-vkDestroyImageView-imageView-01028\"", "pipelineCache-compatalloc": "\"VUID-vkDestroyPipelineCache-pipelineCache-00771\"", "pipelineCache-nullalloc": "\"VUID-vkDestroyPipelineCache-pipelineCache-00772\"", "pipelineLayout-compatalloc": "\"VUID-vkDestroyPipelineLayout-pipelineLayout-00299\"", "pipelineLayout-nullalloc": "\"VUID-vkDestroyPipelineLayout-pipelineLayout-00300\"", "descriptorSetLayout-compatalloc": "\"VUID-vkDestroyDescriptorSetLayout-descriptorSetLayout-00284\"", "descriptorSetLayout-nullalloc": "\"VUID-vkDestroyDescriptorSetLayout-descriptorSetLayout-00285\"", "semaphore-compatalloc": "\"VUID-vkDestroySemaphore-semaphore-01138\"", "semaphore-nullalloc": "\"VUID-vkDestroySemaphore-semaphore-01139\"", "queryPool-compatalloc": "\"VUID-vkDestroyQueryPool-queryPool-00794\"", "queryPool-nullalloc": "\"VUID-vkDestroyQueryPool-queryPool-00795\"", "bufferView-compatalloc": "\"VUID-vkDestroyBufferView-bufferView-00937\"", "bufferView-nullalloc": "\"VUID-vkDestroyBufferView-bufferView-00938\"", "surface-compatalloc": "\"VUID-vkDestroySurfaceKHR-surface-01267\"", "surface-nullalloc": "\"VUID-vkDestroySurfaceKHR-surface-01268\"", "framebuffer-compatalloc": "\"VUID-vkDestroyFramebuffer-framebuffer-00893\"", "framebuffer-nullalloc": "\"VUID-vkDestroyFramebuffer-framebuffer-00894\"", } # Commands shadowed by interface functions and are not implemented self.interface_functions = [ ] self.headerVersion = None # Internal state - accumulators for different inner block text self.sections = dict([(section, []) for section in self.ALL_SECTIONS]) self.cmd_list = [] # list of commands processed to maintain ordering self.cmd_info_dict = {} # Per entry-point data for code generation and validation self.structMembers = [] # List of StructMemberData records for all Vulkan structs self.extension_structs = [] # List of all structs or sister-structs containing handles # A sister-struct may contain no handles but shares with one that does self.structTypes = dict() # Map of Vulkan struct typename to required VkStructureType self.struct_member_dict = dict() # Named tuples to store struct and command data self.StructType = namedtuple('StructType', ['name', 'value']) self.CmdInfoData = namedtuple('CmdInfoData', ['name', 'cmdinfo', 'members', 'extra_protect', 'alias', 'iscreate', 'isdestroy', 'allocator']) self.CommandParam = namedtuple('CommandParam', ['type', 'name', 'isconst', 'isoptional', 'iscount', 'iscreate', 'len', 'extstructs', 'cdecl', 'islocal']) self.StructMemberData = namedtuple('StructMemberData', ['name', 'members']) self.object_types = [] # List of all handle types self.valid_vuids = set() # Set of all valid VUIDs self.vuid_dict = dict() # VUID dictionary (from JSON) # # Check if the parameter passed in is optional def paramIsOptional(self, param): # See if the handle is optional isoptional = False # Simple, if it's optional, return true optString = param.attrib.get('optional') if optString: if optString == 'true': isoptional = True elif ',' in optString: opts = [] for opt in optString.split(','): val = opt.strip() if val == 'true': opts.append(True) elif val == 'false': opts.append(False) else: print('Unrecognized len attribute value',val) isoptional = opts if not isoptional: # Matching logic in parameter validation and ValidityOutputGenerator.isHandleOptional optString = param.attrib.get('noautovalidity') if optString and optString == 'true': isoptional = True; return isoptional # # Get VUID identifier from implicit VUID tag def GetVuid(self, parent, suffix): vuid_string = 'VUID-%s-%s' % (parent, suffix) vuid = "kVUIDUndefined" if '->' in vuid_string: return vuid if vuid_string in self.valid_vuids: vuid = "\"%s\"" % vuid_string else: alias = self.cmd_info_dict[parent].alias if parent in self.cmd_info_dict else None if alias: alias_string = 'VUID-%s-%s' % (alias, suffix) if alias_string in self.valid_vuids: vuid = "\"%s\"" % vuid_string return vuid # # Increases indent by 4 spaces and tracks it globally def incIndent(self, indent): inc = ' ' * self.INDENT_SPACES if indent: return indent + inc return inc # # Decreases indent by 4 spaces and tracks it globally def decIndent(self, indent): if indent and (len(indent) > self.INDENT_SPACES): return indent[:-self.INDENT_SPACES] return '' # # Override makeProtoName to drop the "vk" prefix def makeProtoName(self, name, tail): return self.genOpts.apientry + name[2:] + tail # # Check if the parameter passed in is a pointer to an array def paramIsArray(self, param): return param.attrib.get('len') is not None # # Generate the object tracker undestroyed object validation function def GenReportFunc(self): output_func = '' output_func += 'bool ObjectLifetimes::ReportUndestroyedObjects(VkDevice device, const std::string& error_code) {\n' output_func += ' bool skip = false;\n' output_func += ' skip |= DeviceReportUndestroyedObjects(device, kVulkanObjectTypeCommandBuffer, error_code);\n' for handle in self.object_types: if self.isHandleTypeNonDispatchable(handle): output_func += ' skip |= DeviceReportUndestroyedObjects(device, %s, error_code);\n' % (self.GetVulkanObjType(handle)) output_func += ' return skip;\n' output_func += '}\n' return output_func # # Generate the object tracker undestroyed object destruction function def GenDestroyFunc(self): output_func = '' output_func += 'void ObjectLifetimes::DestroyUndestroyedObjects(VkDevice device) {\n' output_func += ' DeviceDestroyUndestroyedObjects(device, kVulkanObjectTypeCommandBuffer);\n' for handle in self.object_types: if self.isHandleTypeNonDispatchable(handle): output_func += ' DeviceDestroyUndestroyedObjects(device, %s);\n' % (self.GetVulkanObjType(handle)) output_func += '}\n' return output_func # # Walk the JSON-derived dict and find all "vuid" key values def ExtractVUIDs(self, d): if hasattr(d, 'items'): for k, v in d.items(): if k == "vuid": yield v elif isinstance(v, dict): for s in self.ExtractVUIDs(v): yield s elif isinstance (v, list): for l in v: for s in self.ExtractVUIDs(l): yield s # # Separate content for validation source and header files def otwrite(self, dest, formatstring): if 'object_tracker.h' in self.genOpts.filename and (dest == 'hdr' or dest == 'both'): write(formatstring, file=self.outFile) elif 'object_tracker.cpp' in self.genOpts.filename and (dest == 'cpp' or dest == 'both'): write(formatstring, file=self.outFile) # # Called at beginning of processing as file is opened def beginFile(self, genOpts): OutputGenerator.beginFile(self, genOpts) header_file = (genOpts.filename == 'object_tracker.h') source_file = (genOpts.filename == 'object_tracker.cpp') if not header_file and not source_file: print("Error: Output Filenames have changed, update generator source.\n") sys.exit(1) self.valid_usage_path = genOpts.valid_usage_path vu_json_filename = os.path.join(self.valid_usage_path + os.sep, 'validusage.json') if os.path.isfile(vu_json_filename): json_file = open(vu_json_filename, 'r') self.vuid_dict = json.load(json_file) json_file.close() if len(self.vuid_dict) == 0: print("Error: Could not find, or error loading %s/validusage.json\n", vu_json_filename) sys.exit(1) # Build a set of all vuid text strings found in validusage.json for json_vuid_string in self.ExtractVUIDs(self.vuid_dict): self.valid_vuids.add(json_vuid_string) # File Comment file_comment = '// *** THIS FILE IS GENERATED - DO NOT EDIT ***\n' file_comment += '// See object_tracker_generator.py for modifications\n' self.otwrite('both', file_comment) # Copyright Statement copyright = '' copyright += '\n' copyright += '/***************************************************************************\n' copyright += ' *\n' copyright += ' * Copyright (c) 2015-2019 The Khronos Group Inc.\n' copyright += ' * Copyright (c) 2015-2019 Valve Corporation\n' copyright += ' * Copyright (c) 2015-2019 LunarG, Inc.\n' copyright += ' * Copyright (c) 2015-2019 Google Inc.\n' copyright += ' *\n' copyright += ' * Licensed under the Apache License, Version 2.0 (the "License");\n' copyright += ' * you may not use this file except in compliance with the License.\n' copyright += ' * You may obtain a copy of the License at\n' copyright += ' *\n' copyright += ' * http://www.apache.org/licenses/LICENSE-2.0\n' copyright += ' *\n' copyright += ' * Unless required by applicable law or agreed to in writing, software\n' copyright += ' * distributed under the License is distributed on an "AS IS" BASIS,\n' copyright += ' * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n' copyright += ' * See the License for the specific language governing permissions and\n' copyright += ' * limitations under the License.\n' copyright += ' *\n' copyright += ' * Author: Mark Lobodzinski \n' copyright += ' * Author: Dave Houlton \n' copyright += ' *\n' copyright += ' ****************************************************************************/\n' self.otwrite('both', copyright) self.newline() self.otwrite('cpp', '#include "chassis.h"') self.otwrite('cpp', '#include "object_lifetime_validation.h"') # # Now that the data is all collected and complete, generate and output the object validation routines def endFile(self): self.struct_member_dict = dict(self.structMembers) # Generate the list of APIs that might need to handle wrapped extension structs # self.GenerateCommandWrapExtensionList() self.WrapCommands() # Build undestroyed objects reporting function report_func = self.GenReportFunc() self.newline() # Build undestroyed objects destruction function destroy_func = self.GenDestroyFunc() self.otwrite('cpp', '\n') self.otwrite('cpp', '// ObjectTracker undestroyed objects validation function') self.otwrite('cpp', '%s' % report_func) self.otwrite('cpp', '%s' % destroy_func) # Actually write the interface to the output file. if (self.emit): self.newline() if self.featureExtraProtect is not None: prot = '#ifdef %s' % self.featureExtraProtect self.otwrite('both', '%s' % prot) # Write the object_tracker code to the file if self.sections['command']: source = ('\n'.join(self.sections['command'])) self.otwrite('both', '%s' % source) if (self.featureExtraProtect is not None): prot = '\n#endif // %s', self.featureExtraProtect self.otwrite('both', prot) else: self.otwrite('both', '\n') self.otwrite('hdr', 'void PostCallRecordDestroyInstance(VkInstance instance, const VkAllocationCallbacks *pAllocator);') self.otwrite('hdr', 'void PreCallRecordResetDescriptorPool(VkDevice device, VkDescriptorPool descriptorPool, VkDescriptorPoolResetFlags flags);') self.otwrite('hdr', 'void PostCallRecordGetPhysicalDeviceQueueFamilyProperties(VkPhysicalDevice physicalDevice, uint32_t *pQueueFamilyPropertyCount, VkQueueFamilyProperties *pQueueFamilyProperties);') self.otwrite('hdr', 'void PreCallRecordFreeCommandBuffers(VkDevice device, VkCommandPool commandPool, uint32_t commandBufferCount, const VkCommandBuffer *pCommandBuffers);') self.otwrite('hdr', 'void PreCallRecordFreeDescriptorSets(VkDevice device, VkDescriptorPool descriptorPool, uint32_t descriptorSetCount, const VkDescriptorSet *pDescriptorSets);') self.otwrite('hdr', 'void PostCallRecordGetPhysicalDeviceQueueFamilyProperties2(VkPhysicalDevice physicalDevice, uint32_t *pQueueFamilyPropertyCount, VkQueueFamilyProperties2KHR *pQueueFamilyProperties);') self.otwrite('hdr', 'void PostCallRecordGetPhysicalDeviceQueueFamilyProperties2KHR(VkPhysicalDevice physicalDevice, uint32_t *pQueueFamilyPropertyCount, VkQueueFamilyProperties2KHR *pQueueFamilyProperties);') self.otwrite('hdr', 'void PostCallRecordGetPhysicalDeviceDisplayPropertiesKHR(VkPhysicalDevice physicalDevice, uint32_t *pPropertyCount, VkDisplayPropertiesKHR *pProperties, VkResult result);') self.otwrite('hdr', 'void PostCallRecordGetDisplayModePropertiesKHR(VkPhysicalDevice physicalDevice, VkDisplayKHR display, uint32_t *pPropertyCount, VkDisplayModePropertiesKHR *pProperties, VkResult result);') self.otwrite('hdr', 'void PostCallRecordGetPhysicalDeviceDisplayProperties2KHR(VkPhysicalDevice physicalDevice, uint32_t *pPropertyCount, VkDisplayProperties2KHR *pProperties, VkResult result);') self.otwrite('hdr', 'void PostCallRecordGetDisplayModeProperties2KHR(VkPhysicalDevice physicalDevice, VkDisplayKHR display, uint32_t *pPropertyCount, VkDisplayModeProperties2KHR *pProperties, VkResult result);') OutputGenerator.endFile(self) # # Processing point at beginning of each extension definition def beginFeature(self, interface, emit): # Start processing in superclass OutputGenerator.beginFeature(self, interface, emit) self.headerVersion = None self.featureExtraProtect = GetFeatureProtect(interface) if self.featureName != 'VK_VERSION_1_0' and self.featureName != 'VK_VERSION_1_1': white_list_entry = [] if (self.featureExtraProtect is not None): white_list_entry += [ '#ifdef %s' % self.featureExtraProtect ] white_list_entry += [ '"%s"' % self.featureName ] if (self.featureExtraProtect is not None): white_list_entry += [ '#endif' ] featureType = interface.get('type') if featureType == 'instance': self.instance_extensions += white_list_entry elif featureType == 'device': self.device_extensions += white_list_entry # # Processing point at end of each extension definition def endFeature(self): # Finish processing in superclass OutputGenerator.endFeature(self) # # Process enums, structs, etc. def genType(self, typeinfo, name, alias): OutputGenerator.genType(self, typeinfo, name, alias) typeElem = typeinfo.elem # If the type is a struct type, traverse the imbedded tags generating a structure. # Otherwise, emit the tag text. category = typeElem.get('category') if (category == 'struct' or category == 'union'): self.genStruct(typeinfo, name, alias) if category == 'handle': self.object_types.append(name) # # Append a definition to the specified section def appendSection(self, section, text): # self.sections[section].append('SECTION: ' + section + '\n') self.sections[section].append(text) # # Check if the parameter passed in is a pointer def paramIsPointer(self, param): ispointer = False for elem in param: if ((elem.tag is not 'type') and (elem.tail is not None)) and '*' in elem.tail: ispointer = True return ispointer # # Get the category of a type def getTypeCategory(self, typename): types = self.registry.tree.findall("types/type") for elem in types: if (elem.find("name") is not None and elem.find('name').text == typename) or elem.attrib.get('name') == typename: return elem.attrib.get('category') # # Check if a parent object is dispatchable or not def isHandleTypeObject(self, handletype): handle = self.registry.tree.find("types/type/[name='" + handletype + "'][@category='handle']") if handle is not None: return True else: return False # # Check if a parent object is dispatchable or not def isHandleTypeNonDispatchable(self, handletype): handle = self.registry.tree.find("types/type/[name='" + handletype + "'][@category='handle']") if handle is not None and handle.find('type').text == 'VK_DEFINE_NON_DISPATCHABLE_HANDLE': return True else: return False # # Retrieve the type and name for a parameter def getTypeNameTuple(self, param): type = '' name = '' for elem in param: if elem.tag == 'type': type = noneStr(elem.text) elif elem.tag == 'name': name = noneStr(elem.text) return (type, name) # # Retrieve the value of the len tag def getLen(self, param): result = None len = param.attrib.get('len') if len and len != 'null-terminated': # For string arrays, 'len' can look like 'count,null-terminated', indicating that we # have a null terminated array of strings. We strip the null-terminated from the # 'len' field and only return the parameter specifying the string count if 'null-terminated' in len: result = len.split(',')[0] else: result = len # Spec has now notation for len attributes, using :: instead of platform specific pointer symbol result = str(result).replace('::', '->') return result # # Generate a VkStructureType based on a structure typename def genVkStructureType(self, typename): # Add underscore between lowercase then uppercase value = re.sub('([a-z0-9])([A-Z])', r'\1_\2', typename) # Change to uppercase value = value.upper() # Add STRUCTURE_TYPE_ return re.sub('VK_', 'VK_STRUCTURE_TYPE_', value) # # Struct parameter check generation. # This is a special case of the tag where the contents are interpreted as a set of # tags instead of freeform C type declarations. The tags are just like # tags - they are a declaration of a struct or union member. Only simple member # declarations are supported (no nested structs etc.) def genStruct(self, typeinfo, typeName, alias): OutputGenerator.genStruct(self, typeinfo, typeName, alias) members = typeinfo.elem.findall('.//member') # Iterate over members once to get length parameters for arrays lens = set() for member in members: len = self.getLen(member) if len: lens.add(len) # Generate member info membersInfo = [] for member in members: # Get the member's type and name info = self.getTypeNameTuple(member) type = info[0] name = info[1] cdecl = self.makeCParamDecl(member, 0) # Process VkStructureType if type == 'VkStructureType': # Extract the required struct type value from the comments # embedded in the original text defining the 'typeinfo' element rawXml = etree.tostring(typeinfo.elem).decode('ascii') result = re.search(r'VK_STRUCTURE_TYPE_\w+', rawXml) if result: value = result.group(0) else: value = self.genVkStructureType(typeName) # Store the required type value self.structTypes[typeName] = self.StructType(name=name, value=value) # Store pointer/array/string info extstructs = member.attrib.get('validextensionstructs') if name == 'pNext' else None membersInfo.append(self.CommandParam(type=type, name=name, isconst=True if 'const' in cdecl else False, isoptional=self.paramIsOptional(member), iscount=True if name in lens else False, len=self.getLen(member), extstructs=extstructs, cdecl=cdecl, islocal=False, iscreate=False)) self.structMembers.append(self.StructMemberData(name=typeName, members=membersInfo)) # # Insert a lock_guard line def lock_guard(self, indent): return '%sstd::lock_guard lock(global_lock);\n' % indent # # Determine if a struct has an object as a member or an embedded member def struct_contains_object(self, struct_item): struct_member_dict = dict(self.structMembers) struct_members = struct_member_dict[struct_item] for member in struct_members: if self.isHandleTypeObject(member.type): return True # recurse for member structs, guard against infinite recursion elif member.type in struct_member_dict and member.type != struct_item: if self.struct_contains_object(member.type): return True return False # # Return list of struct members which contain, or whose sub-structures contain an obj in a given list of parameters or members def getParmeterStructsWithObjects(self, item_list): struct_list = set() for item in item_list: paramtype = item.find('type') typecategory = self.getTypeCategory(paramtype.text) if typecategory == 'struct': if self.struct_contains_object(paramtype.text) == True: struct_list.add(item) return struct_list # # Return list of objects from a given list of parameters or members def getObjectsInParameterList(self, item_list, create_func): object_list = set() if create_func == True: member_list = item_list[0:-1] else: member_list = item_list for item in member_list: if self.isHandleTypeObject(paramtype.text): object_list.add(item) return object_list # # Construct list of extension structs containing handles, or extension structs that share a # tag WITH an extension struct containing handles. def GenerateCommandWrapExtensionList(self): for struct in self.structMembers: if (len(struct.members) > 1) and struct.members[1].extstructs is not None: found = False; for item in struct.members[1].extstructs.split(','): if item != '' and self.struct_contains_object(item) == True: found = True if found == True: for item in struct.members[1].extstructs.split(','): if item != '' and item not in self.extension_structs: self.extension_structs.append(item) # # Returns True if a struct may have a pNext chain containing an object def StructWithExtensions(self, struct_type): if struct_type in self.struct_member_dict: param_info = self.struct_member_dict[struct_type] if (len(param_info) > 1) and param_info[1].extstructs is not None: for item in param_info[1].extstructs.split(','): if item in self.extension_structs: return True return False # # Generate VulkanObjectType from object type def GetVulkanObjType(self, type): return 'kVulkanObjectType%s' % type[2:] # # Return correct dispatch table type -- instance or device def GetDispType(self, type): return 'instance' if type in ['VkInstance', 'VkPhysicalDevice'] else 'device' # # Generate source for creating a Vulkan object def generate_create_object_code(self, indent, proto, params, cmd_info, allocator): create_obj_code = '' handle_type = params[-1].find('type') is_create_pipelines = False if self.isHandleTypeObject(handle_type.text): # Check for special case where multiple handles are returned object_array = False if cmd_info[-1].len is not None: object_array = True; handle_name = params[-1].find('name') object_dest = '*%s' % handle_name.text if object_array == True: if 'CreateGraphicsPipelines' in proto.text or 'CreateComputePipelines' in proto.text or 'CreateRayTracingPipelines' in proto.text: is_create_pipelines = True create_obj_code += '%sif (VK_ERROR_VALIDATION_FAILED_EXT == result) return;\n' % indent countispointer = '' if 'uint32_t*' in cmd_info[-2].cdecl: countispointer = '*' create_obj_code += '%sfor (uint32_t index = 0; index < %s%s; index++) {\n' % (indent, countispointer, cmd_info[-1].len) indent = self.incIndent(indent) object_dest = '%s[index]' % cmd_info[-1].name dispobj = params[0].find('type').text if is_create_pipelines: create_obj_code += '%sif (!pPipelines[index]) continue;\n' % indent create_obj_code += '%sCreateObject(%s, %s, %s, %s);\n' % (indent, params[0].find('name').text, object_dest, self.GetVulkanObjType(cmd_info[-1].type), allocator) if object_array == True: indent = self.decIndent(indent) create_obj_code += '%s}\n' % indent indent = self.decIndent(indent) return create_obj_code # # Generate source for destroying a non-dispatchable object def generate_destroy_object_code(self, indent, proto, cmd_info): validate_code = '' record_code = '' object_array = False if True in [destroy_txt in proto.text for destroy_txt in ['Destroy', 'Free']]: # Check for special case where multiple handles are returned if cmd_info[-1].len is not None: object_array = True; param = -1 else: param = -2 compatalloc_vuid_string = '%s-compatalloc' % cmd_info[param].name nullalloc_vuid_string = '%s-nullalloc' % cmd_info[param].name compatalloc_vuid = self.manual_vuids.get(compatalloc_vuid_string, "kVUIDUndefined") nullalloc_vuid = self.manual_vuids.get(nullalloc_vuid_string, "kVUIDUndefined") if self.isHandleTypeObject(cmd_info[param].type) == True: if object_array == True: # This API is freeing an array of handles -- add loop control validate_code += 'HEY, NEED TO DESTROY AN ARRAY\n' else: dispobj = cmd_info[0].type # Call Destroy a single time validate_code += '%sskip |= ValidateDestroyObject(%s, %s, %s, pAllocator, %s, %s);\n' % (indent, cmd_info[0].name, cmd_info[param].name, self.GetVulkanObjType(cmd_info[param].type), compatalloc_vuid, nullalloc_vuid) record_code += '%sRecordDestroyObject(%s, %s, %s);\n' % (indent, cmd_info[0].name, cmd_info[param].name, self.GetVulkanObjType(cmd_info[param].type)) return object_array, validate_code, record_code # # Output validation for a single object (obj_count is NULL) or a counted list of objects def outputObjects(self, obj_type, obj_name, obj_count, prefix, index, indent, disp_name, parent_name, null_allowed, top_level): pre_call_code = '' param_suffix = '%s-parameter' % (obj_name) parent_suffix = '%s-parent' % (obj_name) param_vuid = self.GetVuid(parent_name, param_suffix) parent_vuid = self.GetVuid(parent_name, parent_suffix) # If no parent VUID for this member, look for a commonparent VUID if parent_vuid == 'kVUIDUndefined': parent_vuid = self.GetVuid(parent_name, 'commonparent') if obj_count is not None: pre_call_code += '%sfor (uint32_t %s = 0; %s < %s; ++%s) {\n' % (indent, index, index, obj_count, index) indent = self.incIndent(indent) pre_call_code += '%sskip |= ValidateObject(%s, %s%s[%s], %s, %s, %s, %s);\n' % (indent, disp_name, prefix, obj_name, index, self.GetVulkanObjType(obj_type), null_allowed, param_vuid, parent_vuid) indent = self.decIndent(indent) pre_call_code += '%s}\n' % indent else: pre_call_code += '%sskip |= ValidateObject(%s, %s%s, %s, %s, %s, %s);\n' % (indent, disp_name, prefix, obj_name, self.GetVulkanObjType(obj_type), null_allowed, param_vuid, parent_vuid) return pre_call_code # # first_level_param indicates if elements are passed directly into the function else they're below a ptr/struct def validate_objects(self, members, indent, prefix, array_index, disp_name, parent_name, first_level_param): pre_code = '' index = 'index%s' % str(array_index) array_index += 1 # Process any objects in this structure and recurse for any sub-structs in this struct for member in members: # Handle objects if member.iscreate and first_level_param and member == members[-1]: continue if self.isHandleTypeObject(member.type) == True: count_name = member.len if (count_name is not None): count_name = '%s%s' % (prefix, member.len) null_allowed = member.isoptional tmp_pre = self.outputObjects(member.type, member.name, count_name, prefix, index, indent, disp_name, parent_name, str(null_allowed).lower(), first_level_param) pre_code += tmp_pre # Handle Structs that contain objects at some level elif member.type in self.struct_member_dict: # Structs at first level will have an object if self.struct_contains_object(member.type) == True: struct_info = self.struct_member_dict[member.type] # TODO (jbolz): Can this use paramIsPointer? ispointer = '*' in member.cdecl; # Struct Array if member.len is not None: # Update struct prefix new_prefix = '%s%s' % (prefix, member.name) pre_code += '%sif (%s%s) {\n' % (indent, prefix, member.name) indent = self.incIndent(indent) pre_code += '%sfor (uint32_t %s = 0; %s < %s%s; ++%s) {\n' % (indent, index, index, prefix, member.len, index) indent = self.incIndent(indent) local_prefix = '%s[%s].' % (new_prefix, index) # Process sub-structs in this struct tmp_pre = self.validate_objects(struct_info, indent, local_prefix, array_index, disp_name, member.type, False) pre_code += tmp_pre indent = self.decIndent(indent) pre_code += '%s}\n' % indent indent = self.decIndent(indent) pre_code += '%s}\n' % indent # Single Struct elif ispointer: # Update struct prefix new_prefix = '%s%s->' % (prefix, member.name) # Declare safe_VarType for struct pre_code += '%sif (%s%s) {\n' % (indent, prefix, member.name) indent = self.incIndent(indent) # Process sub-structs in this struct tmp_pre = self.validate_objects(struct_info, indent, new_prefix, array_index, disp_name, member.type, False) pre_code += tmp_pre indent = self.decIndent(indent) pre_code += '%s}\n' % indent return pre_code # # For a particular API, generate the object handling code def generate_wrapping_code(self, cmd): indent = ' ' pre_call_validate = '' pre_call_record = '' post_call_record = '' destroy_array = False validate_destroy_code = '' record_destroy_code = '' proto = cmd.find('proto/name') params = cmd.findall('param') if proto.text is not None: cmddata = self.cmd_info_dict[proto.text] cmd_info = cmddata.members disp_name = cmd_info[0].name # Handle object create operations if last parameter is created by this call if cmddata.iscreate: post_call_record += self.generate_create_object_code(indent, proto, params, cmd_info, cmddata.allocator) # Handle object destroy operations if cmddata.isdestroy: (destroy_array, validate_destroy_code, record_destroy_code) = self.generate_destroy_object_code(indent, proto, cmd_info) pre_call_record += record_destroy_code pre_call_validate += self.validate_objects(cmd_info, indent, '', 0, disp_name, proto.text, True) pre_call_validate += validate_destroy_code return pre_call_validate, pre_call_record, post_call_record # # Capture command parameter info needed to create, destroy, and validate objects def genCmd(self, cmdinfo, cmdname, alias): # Add struct-member type information to command parameter information OutputGenerator.genCmd(self, cmdinfo, cmdname, alias) members = cmdinfo.elem.findall('.//param') # Iterate over members once to get length parameters for arrays lens = set() for member in members: length = self.getLen(member) if length: lens.add(length) struct_member_dict = dict(self.structMembers) # Set command invariant information needed at a per member level in validate... is_create_command = any(filter(lambda pat: pat in cmdname, ('Create', 'Allocate', 'Enumerate', 'RegisterDeviceEvent', 'RegisterDisplayEvent'))) last_member_is_pointer = len(members) and self.paramIsPointer(members[-1]) iscreate = is_create_command or ('vkGet' in cmdname and last_member_is_pointer) isdestroy = any([destroy_txt in cmdname for destroy_txt in ['Destroy', 'Free']]) # Generate member info membersInfo = [] constains_extension_structs = False allocator = 'nullptr' for member in members: # Get type and name of member info = self.getTypeNameTuple(member) type = info[0] name = info[1] cdecl = self.makeCParamDecl(member, 0) # Check for parameter name in lens set iscount = True if name in lens else False length = self.getLen(member) isconst = True if 'const' in cdecl else False # Mark param as local if it is an array of objects islocal = False; if self.isHandleTypeObject(type) == True: if (length is not None) and (isconst == True): islocal = True # Or if it's a struct that contains an object elif type in struct_member_dict: if self.struct_contains_object(type) == True: islocal = True if type == 'VkAllocationCallbacks': allocator = name extstructs = member.attrib.get('validextensionstructs') if name == 'pNext' else None membersInfo.append(self.CommandParam(type=type, name=name, isconst=isconst, isoptional=self.paramIsOptional(member), iscount=iscount, len=length, extstructs=extstructs, cdecl=cdecl, islocal=islocal, iscreate=iscreate)) self.cmd_list.append(cmdname) self.cmd_info_dict[cmdname] =self.CmdInfoData(name=cmdname, cmdinfo=cmdinfo, members=membersInfo, iscreate=iscreate, isdestroy=isdestroy, allocator=allocator, extra_protect=self.featureExtraProtect, alias=alias) # # Create code Create, Destroy, and validate Vulkan objects def WrapCommands(self): for cmdname in self.cmd_list: cmddata = self.cmd_info_dict[cmdname] cmdinfo = cmddata.cmdinfo if cmdname in self.interface_functions: continue manual = False if cmdname in self.no_autogen_list: manual = True # Generate object handling code (pre_call_validate, pre_call_record, post_call_record) = self.generate_wrapping_code(cmdinfo.elem) feature_extra_protect = cmddata.extra_protect if (feature_extra_protect is not None): self.appendSection('command', '') self.appendSection('command', '#ifdef '+ feature_extra_protect) self.prototypes += [ '#ifdef %s' % feature_extra_protect ] # Add intercept to procmap self.prototypes += [ ' {"%s", (void*)%s},' % (cmdname,cmdname[2:]) ] decls = self.makeCDecls(cmdinfo.elem) # Gather the parameter items params = cmdinfo.elem.findall('param/name') # Pull out the text for each of the parameters, separate them by commas in a list paramstext = ', '.join([str(param.text) for param in params]) # Generate the API call template fcn_call = cmdinfo.elem.attrib.get('name').replace('vk', 'TOKEN', 1) + '(' + paramstext + ');' func_decl_template = decls[0][:-1].split('VKAPI_CALL ') func_decl_template = func_decl_template[1] result_type = cmdinfo.elem.find('proto/type') if 'object_tracker.h' in self.genOpts.filename: # Output PreCallValidateAPI prototype if necessary if pre_call_validate: pre_cv_func_decl = 'bool PreCallValidate' + func_decl_template + ';' self.appendSection('command', pre_cv_func_decl) # Output PreCallRecordAPI prototype if necessary if pre_call_record: pre_cr_func_decl = 'void PreCallRecord' + func_decl_template + ';' self.appendSection('command', pre_cr_func_decl) # Output PosCallRecordAPI prototype if necessary if post_call_record: post_cr_func_decl = 'void PostCallRecord' + func_decl_template + ';' if result_type.text == 'VkResult': post_cr_func_decl = post_cr_func_decl.replace(')', ',\n VkResult result)') self.appendSection('command', post_cr_func_decl) if 'object_tracker.cpp' in self.genOpts.filename: # Output PreCallValidateAPI function if necessary if pre_call_validate and not manual: pre_cv_func_decl = 'bool ObjectLifetimes::PreCallValidate' + func_decl_template + ' {' self.appendSection('command', '') self.appendSection('command', pre_cv_func_decl) self.appendSection('command', ' bool skip = false;') self.appendSection('command', pre_call_validate) self.appendSection('command', ' return skip;') self.appendSection('command', '}') # Output PreCallRecordAPI function if necessary if pre_call_record and not manual: pre_cr_func_decl = 'void ObjectLifetimes::PreCallRecord' + func_decl_template + ' {' self.appendSection('command', '') self.appendSection('command', pre_cr_func_decl) self.appendSection('command', pre_call_record) self.appendSection('command', '}') # Output PosCallRecordAPI function if necessary if post_call_record and not manual: post_cr_func_decl = 'void ObjectLifetimes::PostCallRecord' + func_decl_template + ' {' self.appendSection('command', '') if result_type.text == 'VkResult': post_cr_func_decl = post_cr_func_decl.replace(')', ',\n VkResult result)') # The two createpipelines APIs may create on failure -- skip the success result check if 'CreateGraphicsPipelines' not in cmdname and 'CreateComputePipelines' not in cmdname and 'CreateRayTracingPipelines' not in cmdname: post_cr_func_decl = post_cr_func_decl.replace('{', '{\n if (result != VK_SUCCESS) return;') self.appendSection('command', post_cr_func_decl) self.appendSection('command', post_call_record) self.appendSection('command', '}') if (feature_extra_protect is not None): self.appendSection('command', '#endif // '+ feature_extra_protect) self.prototypes += [ '#endif' ]