CFString.py
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"""
LLDB AppKit formatters
Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
See https://llvm.org/LICENSE.txt for license information.
SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
"""
# example synthetic children and summary provider for CFString (and related NSString class)
# the real code is part of the LLDB core
import lldb
import lldb.runtime.objc.objc_runtime
import lldb.formatters.Logger
try:
unichr
except NameError:
unichr = chr
def CFString_SummaryProvider(valobj, dict):
logger = lldb.formatters.Logger.Logger()
provider = CFStringSynthProvider(valobj, dict)
if not provider.invalid:
try:
summary = provider.get_child_at_index(
provider.get_child_index("content"))
if isinstance(summary, lldb.SBValue):
summary = summary.GetSummary()
else:
summary = '"' + summary + '"'
except:
summary = None
if summary is None:
summary = '<variable is not NSString>'
return '@' + summary
return ''
def CFAttributedString_SummaryProvider(valobj, dict):
logger = lldb.formatters.Logger.Logger()
offset = valobj.GetTarget().GetProcess().GetAddressByteSize()
pointee = valobj.GetValueAsUnsigned(0)
summary = '<variable is not NSAttributedString>'
if pointee is not None and pointee != 0:
pointee = pointee + offset
child_ptr = valobj.CreateValueFromAddress(
"string_ptr", pointee, valobj.GetType())
child = child_ptr.CreateValueFromAddress(
"string_data",
child_ptr.GetValueAsUnsigned(),
valobj.GetType()).AddressOf()
provider = CFStringSynthProvider(child, dict)
if not provider.invalid:
try:
summary = provider.get_child_at_index(
provider.get_child_index("content")).GetSummary()
except:
summary = '<variable is not NSAttributedString>'
if summary is None:
summary = '<variable is not NSAttributedString>'
return '@' + summary
def __lldb_init_module(debugger, dict):
debugger.HandleCommand(
"type summary add -F CFString.CFString_SummaryProvider NSString CFStringRef CFMutableStringRef")
debugger.HandleCommand(
"type summary add -F CFString.CFAttributedString_SummaryProvider NSAttributedString")
class CFStringSynthProvider:
def __init__(self, valobj, dict):
logger = lldb.formatters.Logger.Logger()
self.valobj = valobj
self.update()
# children other than "content" are for debugging only and must not be
# used in production code
def num_children(self):
logger = lldb.formatters.Logger.Logger()
if self.invalid:
return 0
return 6
def read_unicode(self, pointer, max_len=2048):
logger = lldb.formatters.Logger.Logger()
process = self.valobj.GetTarget().GetProcess()
error = lldb.SBError()
pystr = u''
# cannot do the read at once because the length value has
# a weird encoding. better play it safe here
while max_len > 0:
content = process.ReadMemory(pointer, 2, error)
new_bytes = bytearray(content)
b0 = new_bytes[0]
b1 = new_bytes[1]
pointer = pointer + 2
if b0 == 0 and b1 == 0:
break
# rearrange bytes depending on endianness
# (do we really need this or is Cocoa going to
# use Windows-compatible little-endian even
# if the target is big endian?)
if self.is_little:
value = b1 * 256 + b0
else:
value = b0 * 256 + b1
pystr = pystr + unichr(value)
# read max_len unicode values, not max_len bytes
max_len = max_len - 1
return pystr
# handle the special case strings
# only use the custom code for the tested LP64 case
def handle_special(self):
logger = lldb.formatters.Logger.Logger()
if not self.is_64_bit:
# for 32bit targets, use safe ObjC code
return self.handle_unicode_string_safe()
offset = 12
pointer = self.valobj.GetValueAsUnsigned(0) + offset
pystr = self.read_unicode(pointer)
return self.valobj.CreateValueFromExpression(
"content", "(char*)\"" + pystr.encode('utf-8') + "\"")
# last resort call, use ObjC code to read; the final aim is to
# be able to strip this call away entirely and only do the read
# ourselves
def handle_unicode_string_safe(self):
return self.valobj.CreateValueFromExpression(
"content", "(char*)\"" + self.valobj.GetObjectDescription() + "\"")
def handle_unicode_string(self):
logger = lldb.formatters.Logger.Logger()
# step 1: find offset
if self.inline:
pointer = self.valobj.GetValueAsUnsigned(
0) + self.size_of_cfruntime_base()
if not self.explicit:
# untested, use the safe code path
return self.handle_unicode_string_safe()
else:
# a full pointer is skipped here before getting to the live
# data
pointer = pointer + self.pointer_size
else:
pointer = self.valobj.GetValueAsUnsigned(
0) + self.size_of_cfruntime_base()
# read 8 bytes here and make an address out of them
try:
char_type = self.valobj.GetType().GetBasicType(
lldb.eBasicTypeChar).GetPointerType()
vopointer = self.valobj.CreateValueFromAddress(
"dummy", pointer, char_type)
pointer = vopointer.GetValueAsUnsigned(0)
except:
return self.valobj.CreateValueFromExpression(
"content", '(char*)"@\"invalid NSString\""')
# step 2: read Unicode data at pointer
pystr = self.read_unicode(pointer)
# step 3: return it
return pystr.encode('utf-8')
def handle_inline_explicit(self):
logger = lldb.formatters.Logger.Logger()
offset = 3 * self.pointer_size
offset = offset + self.valobj.GetValueAsUnsigned(0)
return self.valobj.CreateValueFromExpression(
"content", "(char*)(" + str(offset) + ")")
def handle_mutable_string(self):
logger = lldb.formatters.Logger.Logger()
offset = 2 * self.pointer_size
data = self.valobj.CreateChildAtOffset(
"content", offset, self.valobj.GetType().GetBasicType(
lldb.eBasicTypeChar).GetPointerType())
data_value = data.GetValueAsUnsigned(0)
if self.explicit and self.unicode:
return self.read_unicode(data_value).encode('utf-8')
else:
data_value = data_value + 1
return self.valobj.CreateValueFromExpression(
"content", "(char*)(" + str(data_value) + ")")
def handle_UTF8_inline(self):
logger = lldb.formatters.Logger.Logger()
offset = self.valobj.GetValueAsUnsigned(
0) + self.size_of_cfruntime_base()
if not self.explicit:
offset = offset + 1
return self.valobj.CreateValueFromAddress(
"content", offset, self.valobj.GetType().GetBasicType(
lldb.eBasicTypeChar)).AddressOf()
def handle_UTF8_not_inline(self):
logger = lldb.formatters.Logger.Logger()
offset = self.size_of_cfruntime_base()
return self.valobj.CreateChildAtOffset(
"content", offset, self.valobj.GetType().GetBasicType(
lldb.eBasicTypeChar).GetPointerType())
def get_child_at_index(self, index):
logger = lldb.formatters.Logger.Logger()
logger >> "Querying for child [" + str(index) + "]"
if index == 0:
return self.valobj.CreateValueFromExpression(
"mutable", str(int(self.mutable)))
if index == 1:
return self.valobj.CreateValueFromExpression("inline",
str(int(self.inline)))
if index == 2:
return self.valobj.CreateValueFromExpression(
"explicit", str(int(self.explicit)))
if index == 3:
return self.valobj.CreateValueFromExpression(
"unicode", str(int(self.unicode)))
if index == 4:
return self.valobj.CreateValueFromExpression(
"special", str(int(self.special)))
if index == 5:
# we are handling the several possible combinations of flags.
# for each known combination we have a function that knows how to
# go fetch the data from memory instead of running code. if a string is not
# correctly displayed, one should start by finding a combination of flags that
# makes it different from these known cases, and provide a new reader function
# if this is not possible, a new flag might have to be made up (like the "special" flag
# below, which is not a real flag in CFString), or alternatively one might need to use
# the ObjC runtime helper to detect the new class and deal with it accordingly
# print 'mutable = ' + str(self.mutable)
# print 'inline = ' + str(self.inline)
# print 'explicit = ' + str(self.explicit)
# print 'unicode = ' + str(self.unicode)
# print 'special = ' + str(self.special)
if self.mutable:
return self.handle_mutable_string()
elif self.inline and self.explicit and \
self.unicode == False and self.special == False and \
self.mutable == False:
return self.handle_inline_explicit()
elif self.unicode:
return self.handle_unicode_string()
elif self.special:
return self.handle_special()
elif self.inline:
return self.handle_UTF8_inline()
else:
return self.handle_UTF8_not_inline()
def get_child_index(self, name):
logger = lldb.formatters.Logger.Logger()
logger >> "Querying for child ['" + str(name) + "']"
if name == "content":
return self.num_children() - 1
if name == "mutable":
return 0
if name == "inline":
return 1
if name == "explicit":
return 2
if name == "unicode":
return 3
if name == "special":
return 4
# CFRuntimeBase is defined as having an additional
# 4 bytes (padding?) on LP64 architectures
# to get its size we add up sizeof(pointer)+4
# and then add 4 more bytes if we are on a 64bit system
def size_of_cfruntime_base(self):
logger = lldb.formatters.Logger.Logger()
return self.pointer_size + 4 + (4 if self.is_64_bit else 0)
# the info bits are part of the CFRuntimeBase structure
# to get at them we have to skip a uintptr_t and then get
# at the least-significant byte of a 4 byte array. If we are
# on big-endian this means going to byte 3, if we are on
# little endian (OSX & iOS), this means reading byte 0
def offset_of_info_bits(self):
logger = lldb.formatters.Logger.Logger()
offset = self.pointer_size
if not self.is_little:
offset = offset + 3
return offset
def read_info_bits(self):
logger = lldb.formatters.Logger.Logger()
cfinfo = self.valobj.CreateChildAtOffset(
"cfinfo",
self.offset_of_info_bits(),
self.valobj.GetType().GetBasicType(
lldb.eBasicTypeChar))
cfinfo.SetFormat(11)
info = cfinfo.GetValue()
if info is not None:
self.invalid = False
return int(info, 0)
else:
self.invalid = True
return None
# calculating internal flag bits of the CFString object
# this stuff is defined and discussed in CFString.c
def is_mutable(self):
logger = lldb.formatters.Logger.Logger()
return (self.info_bits & 1) == 1
def is_inline(self):
logger = lldb.formatters.Logger.Logger()
return (self.info_bits & 0x60) == 0
# this flag's name is ambiguous, it turns out
# we must skip a length byte to get at the data
# when this flag is False
def has_explicit_length(self):
logger = lldb.formatters.Logger.Logger()
return (self.info_bits & (1 | 4)) != 4
# probably a subclass of NSString. obtained this from [str pathExtension]
# here info_bits = 0 and Unicode data at the start of the padding word
# in the long run using the isa value might be safer as a way to identify this
# instead of reading the info_bits
def is_special_case(self):
logger = lldb.formatters.Logger.Logger()
return self.info_bits == 0
def is_unicode(self):
logger = lldb.formatters.Logger.Logger()
return (self.info_bits & 0x10) == 0x10
# preparing ourselves to read into memory
# by adjusting architecture-specific info
def adjust_for_architecture(self):
logger = lldb.formatters.Logger.Logger()
self.pointer_size = self.valobj.GetTarget().GetProcess().GetAddressByteSize()
self.is_64_bit = self.pointer_size == 8
self.is_little = self.valobj.GetTarget().GetProcess(
).GetByteOrder() == lldb.eByteOrderLittle
# reading info bits out of the CFString and computing
# useful values to get at the real data
def compute_flags(self):
logger = lldb.formatters.Logger.Logger()
self.info_bits = self.read_info_bits()
if self.info_bits is None:
return
self.mutable = self.is_mutable()
self.inline = self.is_inline()
self.explicit = self.has_explicit_length()
self.unicode = self.is_unicode()
self.special = self.is_special_case()
def update(self):
logger = lldb.formatters.Logger.Logger()
self.adjust_for_architecture()
self.compute_flags()