hanchenye-llvm-project/lldb/examples/summaries/cocoa/NSNumber.py

"""
LLDB AppKit formatters

part of The LLVM Compiler Infrastructure
This file is distributed under the University of Illinois Open Source
License. See LICENSE.TXT for details.
"""
# example summary provider for NSNumber
# the real summary is now C++ code built into LLDB
import lldb
import ctypes
import lldb.runtime.objc.objc_runtime
import lldb.formatters.metrics
import struct
import lldb.formatters.Logger

statistics = lldb.formatters.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 port number of an NSNumber, so they need not
# obey the interface specification for synthetic children providers
class NSTaggedNumber_SummaryProvider:
	def adjust_for_architecture(self):
		pass

	def __init__(self, valobj, info_bits, data, params):
		logger = lldb.formatters.Logger.Logger()
		self.valobj = valobj;
		self.sys_params = params
		self.info_bits = info_bits
		self.data = data
		self.update();

	def update(self):
		logger = lldb.formatters.Logger.Logger()
		self.adjust_for_architecture();

	def value(self):
		logger = lldb.formatters.Logger.Logger()
		# in spite of the plenty of types made available by the public NSNumber API
		# only a bunch of these are actually used in the internal implementation
		# unfortunately, the original type information appears to be lost
		# so we try to at least recover the proper magnitude of the data
		if self.info_bits == 0:
			return '(char)' + str(ord(ctypes.c_char(chr(self.data % 256)).value))
		if self.info_bits == 4:
			return '(short)' + str(ctypes.c_short(self.data % (256*256)).value)
		if self.info_bits == 8:
			return '(int)' + str(ctypes.c_int(self.data % (256*256*256*256)).value)
		if self.info_bits == 12:
			return '(long)' + str(ctypes.c_long(self.data).value)
		else:
			return 'unexpected value:(info=' + str(self.info_bits) + ", value = " + str(self.data) + ')'


class NSUntaggedNumber_SummaryProvider:
	def adjust_for_architecture(self):
		pass

	def __init__(self, valobj, params):
		logger = lldb.formatters.Logger.Logger()
		self.valobj = valobj;
		self.sys_params = params
		if not(self.sys_params.types_cache.char):
			self.sys_params.types_cache.char = self.valobj.GetType().GetBasicType(lldb.eBasicTypeChar)
		if not(self.sys_params.types_cache.short):
			self.sys_params.types_cache.short = self.valobj.GetType().GetBasicType(lldb.eBasicTypeShort)
		if not(self.sys_params.types_cache.ushort):
			self.sys_params.types_cache.ushort = self.valobj.GetType().GetBasicType(lldb.eBasicTypeUnsignedShort)
		if not(self.sys_params.types_cache.int):
			self.sys_params.types_cache.int = self.valobj.GetType().GetBasicType(lldb.eBasicTypeInt)
		if not(self.sys_params.types_cache.long):
			self.sys_params.types_cache.long = self.valobj.GetType().GetBasicType(lldb.eBasicTypeLong)
		if not(self.sys_params.types_cache.ulong):
			self.sys_params.types_cache.ulong = self.valobj.GetType().GetBasicType(lldb.eBasicTypeUnsignedLong)
		if not(self.sys_params.types_cache.longlong):
			self.sys_params.types_cache.longlong = self.valobj.GetType().GetBasicType(lldb.eBasicTypeLongLong)
		if not(self.sys_params.types_cache.ulonglong):
			self.sys_params.types_cache.ulonglong = self.valobj.GetType().GetBasicType(lldb.eBasicTypeUnsignedLongLong)
		if not(self.sys_params.types_cache.float):
			self.sys_params.types_cache.float = self.valobj.GetType().GetBasicType(lldb.eBasicTypeFloat)
		if not(self.sys_params.types_cache.double):
			self.sys_params.types_cache.double = self.valobj.GetType().GetBasicType(lldb.eBasicTypeDouble)
		self.update();

	def update(self):
		logger = lldb.formatters.Logger.Logger()
		self.adjust_for_architecture();

	def value(self):
		logger = lldb.formatters.Logger.Logger()
		global statistics
		# we need to skip the ISA, then the next byte tells us what to read
		# we then skip one other full pointer worth of data and then fetch the contents
		# if we are fetching an int64 value, one more pointer must be skipped to get at our data
		data_type_vo = self.valobj.CreateChildAtOffset("dt",
							self.sys_params.pointer_size,
							self.sys_params.types_cache.char)
		data_type = ((data_type_vo.GetValueAsUnsigned(0) % 256) & 0x1F)
		data_offset = 2 * self.sys_params.pointer_size
		if data_type == 0B00001:
			data_vo = self.valobj.CreateChildAtOffset("data",
								data_offset,
								self.sys_params.types_cache.char)
			statistics.metric_hit('code_notrun',self.valobj)
			return '(char)' + str(ord(ctypes.c_char(chr(data_vo.GetValueAsUnsigned(0))).value))
		elif data_type == 0B0010:
			data_vo = self.valobj.CreateChildAtOffset("data",
								data_offset,
								self.sys_params.types_cache.short)
			statistics.metric_hit('code_notrun',self.valobj)
			return '(short)' + str(ctypes.c_short(data_vo.GetValueAsUnsigned(0) % (256*256)).value)
		# IF tagged pointers are possible on 32bit+v2 runtime
		# (of which the only existing instance should be iOS)
		# then values of this type might be tagged
		elif data_type == 0B0011:
			data_vo = self.valobj.CreateChildAtOffset("data",
								data_offset,
								self.sys_params.types_cache.int)
			statistics.metric_hit('code_notrun',self.valobj)
			return '(int)' + str(ctypes.c_int(data_vo.GetValueAsUnsigned(0)% (256*256*256*256)).value)
		# apparently, on is_64_bit architectures, these are the only values that will ever
		# be represented by a non tagged pointers
		elif data_type == 0B10001:
			data_offset = data_offset + 8 # 8 is needed even if we are on 32bit
			data_vo = self.valobj.CreateChildAtOffset("data",
								data_offset,
								self.sys_params.types_cache.longlong)
			statistics.metric_hit('code_notrun',self.valobj)
			return '(long)' + str(ctypes.c_long(data_vo.GetValueAsUnsigned(0)).value)
		elif data_type == 0B0100:
			if self.sys_params.is_64_bit:
				data_offset = data_offset + self.sys_params.pointer_size
			data_vo = self.valobj.CreateChildAtOffset("data",
								data_offset,
								self.sys_params.types_cache.longlong)
			statistics.metric_hit('code_notrun',self.valobj)
			return '(long)' + str(ctypes.c_long(data_vo.GetValueAsUnsigned(0)).value)
		elif data_type == 0B0101:
			data_vo = self.valobj.CreateChildAtOffset("data",
								data_offset,
								self.sys_params.types_cache.longlong)
			data_plain = int(str(data_vo.GetValueAsUnsigned(0) & 0x00000000FFFFFFFF))
			packed = struct.pack('I', data_plain)
			data_float = struct.unpack('f', packed)[0]
			statistics.metric_hit('code_notrun',self.valobj)
			return '(float)' + str(data_float)
		elif data_type == 0B0110:
			data_vo = self.valobj.CreateChildAtOffset("data",
								data_offset,
								self.sys_params.types_cache.longlong)
			data_plain = data_vo.GetValueAsUnsigned(0)
			data_double = struct.unpack('d', struct.pack('Q', data_plain))[0]
			statistics.metric_hit('code_notrun',self.valobj)
			return '(double)' + str(data_double)
		statistics.metric_hit('unknown_class',str(valobj.GetName()) + " had unknown data_type " + str(data_type))
		return 'unexpected: dt = ' + str(data_type)


class NSUnknownNumber_SummaryProvider:
	def adjust_for_architecture(self):
		pass

	def __init__(self, valobj, params):
		logger = lldb.formatters.Logger.Logger()
		self.valobj = valobj;
		self.sys_params = params
		self.update();

	def update(self):
		logger = lldb.formatters.Logger.Logger()
		self.adjust_for_architecture();

	def value(self):
		logger = lldb.formatters.Logger.Logger()
		stream = lldb.SBStream()
		self.valobj.GetExpressionPath(stream)
		expr = "(NSString*)[" + stream.GetData() + " stringValue]"
		num_children_vo = self.valobj.CreateValueFromExpression("str",expr)
		if num_children_vo.IsValid():
			return num_children_vo.GetSummary()
		return '<variable is not NSNumber>'

def GetSummary_Impl(valobj):
	logger = lldb.formatters.Logger.Logger()
	global statistics
	class_data,wrapper =lldb.runtime.objc.objc_runtime.Utilities.prepare_class_detection(valobj,statistics)
	if wrapper:
		return wrapper
	
	name_string = class_data.class_name()
	logger >> "class name is: " + str(name_string)

	if name_string == 'NSNumber' or name_string == '__NSCFNumber':
		if class_data.is_tagged():
			wrapper = NSTaggedNumber_SummaryProvider(valobj,class_data.info_bits(),class_data.value(), class_data.sys_params)
			statistics.metric_hit('code_notrun',valobj)
		else:
			# the wrapper might be unable to decipher what is into the NSNumber
			# and then have to run code on it
			wrapper = NSUntaggedNumber_SummaryProvider(valobj, class_data.sys_params)
	else:
		wrapper = NSUnknownNumber_SummaryProvider(valobj, class_data.sys_params)
		statistics.metric_hit('unknown_class',valobj.GetName() + " seen as " + name_string)
	return wrapper;


def NSNumber_SummaryProvider (valobj,dict):
	logger = lldb.formatters.Logger.Logger()
	provider = GetSummary_Impl(valobj);
	if provider != None:
		if isinstance(provider,lldb.runtime.objc.objc_runtime.SpecialSituation_Description):
			return provider.message()
		try:
			summary = provider.value();
		except Exception as foo:
			print foo
#		except:
			summary = None
		logger >> "got summary " + str(summary)
		if summary == None:
			summary = '<variable is not NSNumber>'
		return str(summary)
	return 'Summary Unavailable'


def __lldb_init_module(debugger,dict):
	debugger.HandleCommand("type summary add -F NSNumber.NSNumber_SummaryProvider NSNumber")
	debugger.HandleCommand("type summary add -F NSNumber.NSNumber_SummaryProvider __NSCFBoolean")
	debugger.HandleCommand("type summary add -F NSNumber.NSNumber_SummaryProvider __NSCFNumber")