# summary provider for CFBinaryHeap import lldb import ctypes import objc_runtime import metrics statistics = metrics.Metrics() statistics.add_metric('invalid_isa') statistics.add_metric('invalid_pointer') statistics.add_metric('unknown_class') statistics.add_metric('code_notrun') # despite the similary to synthetic children providers, these classes are not # trying to provide anything but the length for an CFBinaryHeap, so they need not # obey the interface specification for synthetic children providers class CFBinaryHeapRef_SummaryProvider: def adjust_for_architecture(self): pass def __init__(self, valobj, params): self.valobj = valobj; self.sys_params = params if not(self.sys_params.types_cache.NSUInteger): if self.sys_params.is_64_bit: self.sys_params.types_cache.NSUInteger = self.valobj.GetType().GetBasicType(lldb.eBasicTypeUnsignedLong) else: self.sys_params.types_cache.NSUInteger = self.valobj.GetType().GetBasicType(lldb.eBasicTypeUnsignedInt) self.update(); def update(self): self.adjust_for_architecture(); # 8 bytes on i386 # 16 bytes on x64 # most probably 2 pointers def offset(self): return 2 * self.sys_params.pointer_size def length(self): size = self.valobj.CreateChildAtOffset("count", self.offset(), self.sys_params.types_cache.NSUInteger) return size.GetValueAsUnsigned(0) class CFBinaryHeapUnknown_SummaryProvider: def adjust_for_architecture(self): pass def __init__(self, valobj, params): self.valobj = valobj; self.sys_params = params self.update(); def update(self): self.adjust_for_architecture(); def length(self): stream = lldb.SBStream() self.valobj.GetExpressionPath(stream) num_children_vo = self.valobj.CreateValueFromExpression("count","(int)CFBinaryHeapGetCount(" + stream.GetData() + " )"); return num_children_vo.GetValueAsUnsigned(0) def GetSummary_Impl(valobj): global statistics class_data = objc_runtime.ObjCRuntime(valobj) if class_data.is_valid() == False: statistics.metric_hit('invalid_pointer',valobj) wrapper = None return class_data = class_data.read_class_data() if class_data.is_valid() == False: statistics.metric_hit('invalid_isa',valobj) wrapper = None return if class_data.is_kvo(): class_data = class_data.get_superclass() if class_data.is_valid() == False: statistics.metric_hit('invalid_isa',valobj) wrapper = None return name_string = class_data.class_name() if name_string == '__NSCFType': # CFBinaryHeap does not expose an actual NSWrapper type, so we have to check that this is # an NSCFType and then check we are a pointer-to CFBinaryHeap valobj_type = valobj.GetType() if valobj_type.IsValid() and valobj_type.IsPointerType(): pointee_type = valobj_type.GetPointeeType() if pointee_type.GetName() == '__CFBinaryHeap': wrapper = CFBinaryHeapRef_SummaryProvider(valobj, class_data.sys_params) statistics.metric_hit('code_notrun',valobj) return wrapper wrapper = CFBinaryHeapUnknown_SummaryProvider(valobj, class_data.sys_params) statistics.metric_hit('unknown_class',str(valobj) + " seen as " + name_string) return wrapper; def CFBinaryHeap_SummaryProvider (valobj,dict): provider = GetSummary_Impl(valobj); if provider != None: try: summary = provider.length(); except: summary = None # for some reason, one needs to clear some bits for the count # to be correct when using CF(Mutable)BagRef on x64 # the bit mask was derived through experimentation # (if counts start looking weird, then most probably # the mask needs to be changed) if summary == None: summary = 'no valid set here' else: if provider.sys_params.is_64_bit: summary = summary & ~0x1fff000000000000 if summary == 1: return '1 item' return str(summary) + " items" return '' def __lldb_init_module(debugger,dict): debugger.HandleCommand("type summary add -F CFBinaryHeap.CFBinaryHeap_SummaryProvider CFBinaryHeapRef")