# Copyright (C) 2016 The Qt Company Ltd. # SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0 import inspect import os import sys import cdbext import re import threading import time from utils import TypeCode sys.path.insert(1, os.path.dirname(os.path.abspath(inspect.getfile(inspect.currentframe())))) from dumper import DumperBase, SubItem, Children, DisplayFormat, UnnamedSubItem class FakeVoidType(cdbext.Type): def __init__(self, name, dumper): cdbext.Type.__init__(self) self.typeName = name.strip() self.dumper = dumper def name(self): return self.typeName def bitsize(self): return self.dumper.ptrSize() * 8 def code(self): if self.typeName.endswith('*'): return TypeCode.Pointer if self.typeName.endswith(']'): return TypeCode.Array return TypeCode.Void def unqualified(self): return self def target(self): code = self.code() if code == TypeCode.Pointer: return FakeVoidType(self.typeName[:-1], self.dumper) if code == TypeCode.Void: return self try: return FakeVoidType(self.typeName[:self.typeName.rindex('[')], self.dumper) except: return FakeVoidType('void', self.dumper) def targetName(self): return self.target().name() def arrayElements(self): try: return int(self.typeName[self.typeName.rindex('[') + 1:self.typeName.rindex(']')]) except: return 0 def stripTypedef(self): return self def fields(self): return [] def templateArgument(self, pos, numeric): return None def templateArguments(self): return [] class Dumper(DumperBase): def __init__(self): DumperBase.__init__(self) self.outputLock = threading.Lock() self.isCdb = True #FIXME def register_known_qt_types(self): DumperBase.register_known_qt_types(self) typeid = self.typeid_for_string('@QVariantMap') del self.type_code_cache[typeid] del self.type_target_cache[typeid] del self.type_size_cache[typeid] del self.type_alignment_cache[typeid] def enumValue(self, nativeValue: cdbext.Value) -> str: val = nativeValue.nativeDebuggerValue() # remove '0n' decimal prefix of the native cdb value output return val.replace('(0n', '(') def fromNativeValue(self, nativeValue: cdbext.Value) -> DumperBase.Value: self.check(isinstance(nativeValue, cdbext.Value)) val = self.Value(self) val.name = nativeValue.name() # There is no cdb api for the size of bitfields. # Workaround this issue by parsing the native debugger text for integral types. if nativeValue.type().code() == TypeCode.Integral: try: integerString = nativeValue.nativeDebuggerValue() except UnicodeDecodeError: integerString = '' # cannot decode - read raw if integerString == 'true': val.ldata = int(1).to_bytes(1, byteorder='little') elif integerString == 'false': val.ldata = int(0).to_bytes(1, byteorder='little') else: integerString = integerString.replace('`', '') integerString = integerString.split(' ')[0] if integerString.startswith('0n'): integerString = integerString[2:] base = 10 elif integerString.startswith('0x'): base = 16 else: base = 10 signed = not nativeValue.type().name().startswith('unsigned') try: val.ldata = int(integerString, base).to_bytes((nativeValue.type().bitsize() +7) // 8, byteorder='little', signed=signed) except: # read raw memory in case the integerString can not be interpreted pass if nativeValue.type().code() == TypeCode.Enum: val.ldisplay = self.enumValue(nativeValue) elif not nativeValue.type().resolved() and nativeValue.type().code() == TypeCode.Struct and not nativeValue.hasChildren(): val.ldisplay = self.enumValue(nativeValue) val.isBaseClass = val.name == nativeValue.type().name() val.typeid = self.from_native_type(nativeValue.type()) val.nativeValue = nativeValue val.laddress = nativeValue.address() val.lbitsize = nativeValue.bitsize() return val def nativeTypeId(self, nativeType: cdbext.Type) -> str: self.check(isinstance(nativeType, cdbext.Type)) name = nativeType.name() if name is None or len(name) == 0: c = '0' elif name == 'struct {...}': c = 's' elif name == 'union {...}': c = 'u' else: return name typeId = c + ''.join(['{%s:%s}' % (f.name(), self.nativeTypeId(f.type())) for f in nativeType.fields()]) return typeId def from_native_type(self, nativeType: cdbext.Type) -> str: self.check(isinstance(nativeType, cdbext.Type)) typeid = self.typeid_for_string(self.nativeTypeId(nativeType)) self.type_nativetype_cache[typeid] = nativeType if nativeType.name().startswith('void'): nativeType = FakeVoidType(nativeType.name(), self) code = nativeType.code() if code == TypeCode.Pointer: if nativeType.name().startswith(''): code = TypeCode.Function elif nativeType.targetName() != nativeType.name(): return self.create_pointer_typeid(self.typeid_for_string(nativeType.targetName())) if code == TypeCode.Array: # cdb reports virtual function tables as arrays those ar handled separetly by # the DumperBase. Declare those types as structs prevents a lookup to a # none existing type if not nativeType.name().startswith('__fptr()') and not nativeType.name().startswith(' int: #DumperBase.warn("NATIVE ALIGN FOR %s" % nativeType.name) def handleItem(nativeFieldType, align): a = self.type_alignment(self.from_native_type(nativeFieldType)) return a if a > align else align align = 1 for f in nativeType.fields(): align = handleItem(f.type(), align) return align def nativeTypeEnumDisplay(self, nativeType: cdbext.Type, intval: int, form) -> str: value = self.nativeParseAndEvaluate('(%s)%d' % (nativeType.name(), intval)) if value is None: return '' return self.enumValue(value) def enumExpression(self, enumType: str, enumValue: str) -> str: ns = self.qtNamespace() return ns + "Qt::" + enumType + "(" \ + ns + "Qt::" + enumType + "::" + enumValue + ")" def pokeValue(self, typeName, *args): return None def parseAndEvaluate(self, exp: str) -> DumperBase.Value: return self.fromNativeValue(self.nativeParseAndEvaluate(exp)) def nativeParseAndEvaluate(self, exp: str) -> cdbext.Value: return cdbext.parseAndEvaluate(exp) def isWindowsTarget(self) -> bool: return True def isQnxTarget(self) -> bool: return False def isArmArchitecture(self) -> bool: return False def isMsvcTarget(self) -> bool: return True def qtCoreModuleName(self) -> str: modules = cdbext.listOfModules() # first check for an exact module name match for coreName in ['Qt6Core', 'Qt6Cored', 'Qt5Cored', 'Qt5Core', 'QtCored4', 'QtCore4']: if coreName in modules: self.qtCoreModuleName = lambda: coreName return coreName # maybe we have a libinfix build. for pattern in ['Qt6Core.*', 'Qt5Core.*', 'QtCore.*']: matches = [module for module in modules if re.match(pattern, module)] if matches: coreName = matches[0] self.qtCoreModuleName = lambda: coreName return coreName return None def qtDeclarativeModuleName(self) -> str: modules = cdbext.listOfModules() for declarativeModuleName in ['Qt6Qmld', 'Qt6Qml', 'Qt5Qmld', 'Qt5Qml']: if declarativeModuleName in modules: self.qtDeclarativeModuleName = lambda: declarativeModuleName return declarativeModuleName matches = [module for module in modules if re.match('Qt[56]Qml.*', module)] if matches: declarativeModuleName = matches[0] self.qtDeclarativeModuleName = lambda: declarativeModuleName return declarativeModuleName return None def qtHookDataSymbolName(self) -> str: hookSymbolName = 'qtHookData' coreModuleName = self.qtCoreModuleName() if coreModuleName is not None: hookSymbolName = '%s!%s%s' % (coreModuleName, self.qtNamespace(), hookSymbolName) else: resolved = cdbext.resolveSymbol('*' + hookSymbolName) if resolved: hookSymbolName = resolved[0] else: hookSymbolName = '*%s' % hookSymbolName self.qtHookDataSymbolName = lambda: hookSymbolName return hookSymbolName def qtDeclarativeHookDataSymbolName(self) -> str: hookSymbolName = 'qtDeclarativeHookData' declarativeModuleName = self.qtDeclarativeModuleName() if declarativeModuleName is not None: hookSymbolName = '%s!%s%s' % (declarativeModuleName, self.qtNamespace(), hookSymbolName) else: resolved = cdbext.resolveSymbol('*' + hookSymbolName) if resolved: hookSymbolName = resolved[0] else: hookSymbolName = '*%s' % hookSymbolName self.qtDeclarativeHookDataSymbolName = lambda: hookSymbolName return hookSymbolName def extractQtVersion(self) -> int: try: qtVersion = self.parseAndEvaluate( '((void**)&%s)[2]' % self.qtHookDataSymbolName()).integer() except: if self.qtCoreModuleName() is not None: try: versionValue = cdbext.call(self.qtCoreModuleName() + '!qVersion()') version = self.extractCString(self.fromNativeValue(versionValue).address()) (major, minor, patch) = version.decode('latin1').split('.') qtVersion = 0x10000 * int(major) + 0x100 * int(minor) + int(patch) except: return None return qtVersion def putVtableItem(self, address: int): funcName = cdbext.getNameByAddress(address) if funcName is None: self.putItem(self.createPointerValue(address, 'void')) else: self.putValue(funcName) self.putType('void*') self.putAddress(address) def putVTableChildren(self, item: DumperBase.Value, itemCount: int) -> int: p = item.address() for i in range(itemCount): deref = self.extractPointer(p) if deref == 0: n = i break with SubItem(self, i): self.putVtableItem(deref) p += self.ptrSize() return itemCount def ptrSize(self) -> int: size = cdbext.pointerSize() self.ptrSize = lambda: size return size def stripQintTypedefs(self, typeName: str) -> str: if typeName.startswith('qint'): prefix = '' size = typeName[4:] elif typeName.startswith('quint'): prefix = 'unsigned ' size = typeName[5:] else: return typeName if size == '8': return '%schar' % prefix elif size == '16': return '%sshort' % prefix elif size == '32': return '%sint' % prefix elif size == '64': return '%sint64' % prefix else: return typeName def lookupNativeType(self, name: str, module=0) -> cdbext.Type: if name.startswith('void'): return FakeVoidType(name, self) return cdbext.lookupType(name, module) def reportResult(self, result, args): cdbext.reportResult('result={%s}' % result) def readRawMemory(self, address: int, size: int) -> int: mem = cdbext.readRawMemory(address, size) if len(mem) != size: raise Exception("Invalid memory request: %d bytes from 0x%x" % (size, address)) return mem def findStaticMetaObject(self, type: DumperBase.Type) -> int: ptr = 0 if type.moduleName is not None: # Try to find the static meta object in the same module as the type definition. This is # an optimization that improves the performance of looking up the meta object for not # exported types. ptr = cdbext.getAddressByName(type.moduleName + '!' + type.name + '::staticMetaObject') if ptr == 0: # If we do not find the meta object in the same module or we do not have the module name # we fall back to the slow lookup over all modules. ptr = cdbext.getAddressByName(type.name + '::staticMetaObject') return ptr def fetchVariables(self, args): start_time = time.perf_counter() self.resetStats() (ok, res) = self.tryFetchInterpreterVariables(args) if ok: self.reportResult(res, args) return self.setVariableFetchingOptions(args) self.output = [] self.currentIName = 'local' self.put('data=[') self.anonNumber = 0 variables = [] try: for val in cdbext.listOfLocals(self.partialVariable): dumperVal = self.fromNativeValue(val) dumperVal.lIsInScope = dumperVal.name not in self.uninitialized variables.append(dumperVal) self.handleLocals(variables) self.handleWatches(args) except Exception: t,v,tb = sys.exc_info() self.showException("FETCH VARIABLES", t, v, tb) self.put('],partial="%d"' % (len(self.partialVariable) > 0)) self.put(',timings=%s' % self.timings) if self.forceQtNamespace: self.qtNamespaceToReport = self.qtNamespace() if self.qtNamespaceToReport: self.put(',qtnamespace="%s"' % self.qtNamespaceToReport) self.qtNamespaceToReport = None runtime = time.perf_counter() - start_time self.put(',runtime="%s"' % runtime) self.reportResult(''.join(self.output), args) self.output = [] def report(self, stuff): sys.stdout.write(stuff + "\n") def nativeValueDereferenceReference(self, value: DumperBase.Value) -> DumperBase.Value: return self.nativeValueDereferencePointer(value) def nativeValueDereferencePointer(self, value: DumperBase.Value) -> DumperBase.Value: def nativeVtCastValue(nativeValue): # If we have a pointer to a derived instance of the pointer type cdb adds a # synthetic '__vtcast_' member as the first child if nativeValue.hasChildren(): vtcastCandidate = nativeValue.childFromIndex(0) vtcastCandidateName = vtcastCandidate.name() if vtcastCandidateName.startswith('__vtcast_'): # found a __vtcast member # make sure that it is not an actual field for field in nativeValue.type().fields(): if field.name() == vtcastCandidateName: return None return vtcastCandidate return None nativeValue = value.nativeValue if nativeValue is None: if not self.isExpanded(): raise Exception("Casting not expanded values is to expensive") nativeValue = self.nativeParseAndEvaluate('(%s)0x%x' % (value.type.name, value.pointer())) castVal = nativeVtCastValue(nativeValue) if castVal is not None: val = self.fromNativeValue(castVal) else: val = self.Value(self) val.laddress = value.pointer() val.typeid = self.type_target(value.typeid) val.nativeValue = value.nativeValue return val def callHelper(self, rettype, value, function, args): raise Exception("cdb does not support calling functions") def nameForCoreId(self, id: int) -> DumperBase.Value: for dll in ['Utilsd', 'Utils']: idName = cdbext.call('%s!Utils::nameForId(%d)' % (dll, id)) if idName is not None: break return self.fromNativeValue(idName) def putCallItem(self, name, rettype, value, func, *args): return def symbolAddress(self, symbolName: str) -> int: res = self.nativeParseAndEvaluate(symbolName) return None if res is None else res.address() def wantQObjectNames(self): return self.showQObjectNames and self.qtCoreModuleName() is not None def fetchInternalFunctions(self): coreModuleName = self.qtCoreModuleName() ns = self.qtNamespace() if coreModuleName is not None: self.qtCustomEventFunc = self.parseAndEvaluate( '%s!%sQObject::customEvent' % (self.qtCoreModuleName(), ns)).address() self.fetchInternalFunctions = lambda: None