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import lldb
import Logger
# libcxx STL formatters for LLDB
# These formatters are based upon the implementation of libc++ that
# ships with current releases of OS X - They will not work for other implementations
# of the standard C++ library - and they are bound to use the libc++-specific namespace
# this could probably be made more efficient but since it only reads a handful of bytes at a time
# we probably don't need to worry too much about this for the time being
def make_string(F,L):
strval = ''
G = F.GetData().uint8
for X in range(L):
V = G[X]
if V == 0:
break
strval = strval + chr(V % 256)
return '"' + strval + '"'
# if we ever care about big-endian, these two functions might need to change
def is_short_string(value):
return True if (value & 1) == 0 else False
def extract_short_size(value):
return ((value >> 1) % 256)
# some of the members of libc++ std::string are anonymous or have internal names that convey
# no external significance - we access them by index since this saves a name lookup that would add
# no information for readers of the code, but when possible try to use meaningful variable names
def stdstring_SummaryProvider(valobj,dict):
logger = Logger.Logger()
r = valobj.GetChildAtIndex(0)
B = r.GetChildAtIndex(0)
first = B.GetChildAtIndex(0)
D = first.GetChildAtIndex(0)
l = D.GetChildAtIndex(0)
s = D.GetChildAtIndex(1)
D20 = s.GetChildAtIndex(0)
size_mode = D20.GetChildAtIndex(0).GetValueAsUnsigned(0)
if is_short_string(size_mode):
size = extract_short_size(size_mode)
return make_string(s.GetChildAtIndex(1),size)
else:
data_ptr = l.GetChildAtIndex(2)
size_vo = l.GetChildAtIndex(1)
size = size_vo.GetValueAsUnsigned(0)+1 # the NULL terminator must be accounted for
if size <= 1: # should never be the case
return '""'
data = data_ptr.GetPointeeData(0,size)
error = lldb.SBError()
strval = data.GetString(error,0)
if error.Fail():
return '<error:' + error.GetCString() + '>'
else:
return '"' + strval + '"'
class stdvector_SynthProvider:
def __init__(self, valobj, dict):
logger = Logger.Logger()
self.valobj = valobj;
def num_children(self):
logger = Logger.Logger()
try:
start_val = self.start.GetValueAsUnsigned(0)
finish_val = self.finish.GetValueAsUnsigned(0)
# Before a vector has been constructed, it will contain bad values
# so we really need to be careful about the length we return since
# unitialized data can cause us to return a huge number. We need
# to also check for any of the start, finish or end of storage values
# being zero (NULL). If any are, then this vector has not been
# initialized yet and we should return zero
# Make sure nothing is NULL
if start_val == 0 or finish_val == 0:
return 0
# Make sure start is less than finish
if start_val >= finish_val:
return 0
num_children = (finish_val-start_val)
if (num_children % self.data_size) != 0:
return 0
else:
num_children = num_children/self.data_size
return num_children
except:
return 0;
def get_child_index(self,name):
logger = Logger.Logger()
try:
return int(name.lstrip('[').rstrip(']'))
except:
return -1
def get_child_at_index(self,index):
logger = Logger.Logger()
logger >> "Retrieving child " + str(index)
if index < 0:
return None;
if index >= self.num_children():
return None;
try:
offset = index * self.data_size
return self.start.CreateChildAtOffset('['+str(index)+']',offset,self.data_type)
except:
return None
def update(self):
logger = Logger.Logger()
try:
self.start = self.valobj.GetChildMemberWithName('__begin_')
self.finish = self.valobj.GetChildMemberWithName('__end_')
# the purpose of this field is unclear, but it is the only field whose type is clearly T* for a vector<T>
# if this ends up not being correct, we can use the APIs to get at template arguments
data_type_finder = self.valobj.GetChildMemberWithName('__end_cap_').GetChildMemberWithName('__first_')
self.data_type = data_type_finder.GetType().GetPointeeType()
self.data_size = self.data_type.GetByteSize()
except:
pass
# Just an example: the actual summary is produced by a summary string: size=${svar%#}
def stdvector_SummaryProvider(valobj,dict):
prov = stdvector_SynthProvider(valobj,None)
return 'size=' + str(prov.num_children())
class stdlist_entry:
def __init__(self,entry):
logger = Logger.Logger()
self.entry = entry
def _next_impl(self):
logger = Logger.Logger()
return stdlist_entry(self.entry.GetChildMemberWithName('__next_'))
def _prev_impl(self):
logger = Logger.Logger()
return stdlist_entry(self.entry.GetChildMemberWithName('__prev_'))
def _value_impl(self):
logger = Logger.Logger()
return self.entry.GetValueAsUnsigned(0)
def _isnull_impl(self):
logger = Logger.Logger()
return self._value_impl() == 0
def _sbvalue_impl(self):
logger = Logger.Logger()
return self.entry
next = property(_next_impl,None)
value = property(_value_impl,None)
is_null = property(_isnull_impl,None)
sbvalue = property(_sbvalue_impl,None)
class stdlist_iterator:
def increment_node(self,node):
logger = Logger.Logger()
if node.is_null:
return None
return node.next
def __init__(self,node):
logger = Logger.Logger()
self.node = stdlist_entry(node) # we convert the SBValue to an internal node object on entry
def value(self):
logger = Logger.Logger()
return self.node.sbvalue # and return the SBValue back on exit
def next(self):
logger = Logger.Logger()
node = self.increment_node(self.node)
if node != None and node.sbvalue.IsValid() and not(node.is_null):
self.node = node
return self.value()
else:
return None
def advance(self,N):
logger = Logger.Logger()
if N < 0:
return None
if N == 0:
return self.value()
if N == 1:
return self.next()
while N > 0:
self.next()
N = N - 1
return self.value()
class stdlist_SynthProvider:
def __init__(self, valobj, dict):
logger = Logger.Logger()
self.valobj = valobj
def next_node(self,node):
logger = Logger.Logger()
return node.GetChildMemberWithName('__next_')
def value(self,node):
logger = Logger.Logger()
return node.GetValueAsUnsigned()
# Floyd's cyle-finding algorithm
# try to detect if this list has a loop
def has_loop(self):
global _list_uses_loop_detector
logger = Logger.Logger()
if _list_uses_loop_detector == False:
logger >> "Asked not to use loop detection"
return False
slow = stdlist_entry(self.head)
fast1 = stdlist_entry(self.head)
fast2 = stdlist_entry(self.head)
while slow.next.value != self.node_address:
slow_value = slow.value
fast1 = fast2.next
fast2 = fast1.next
if fast1.value == slow_value or fast2.value == slow_value:
return True
slow = slow.next
return False
def num_children(self):
global _list_capping_size
logger = Logger.Logger()
if self.count == None:
self.count = self.num_children_impl()
if self.count > _list_capping_size:
self.count = _list_capping_size
return self.count
def num_children_impl(self):
global _list_capping_size
logger = Logger.Logger()
try:
next_val = self.head.GetValueAsUnsigned(0)
prev_val = self.tail.GetValueAsUnsigned(0)
# After a std::list has been initialized, both next and prev will be non-NULL
if next_val == 0 or prev_val == 0:
return 0
if next_val == self.node_address:
return 0
if next_val == prev_val:
return 1
if self.has_loop():
return 0
size = 2
current = stdlist_entry(self.head)
while current.next.value != self.node_address:
size = size + 1
current = current.next
if size > _list_capping_size:
return _list_capping_size
return (size - 1)
except:
return 0;
def get_child_index(self,name):
logger = Logger.Logger()
try:
return int(name.lstrip('[').rstrip(']'))
except:
return -1
def get_child_at_index(self,index):
logger = Logger.Logger()
logger >> "Fetching child " + str(index)
if index < 0:
return None;
if index >= self.num_children():
return None;
try:
current = stdlist_iterator(self.head)
current = current.advance(index)
# we do not return __value_ because then all our children would be named __value_
# we need to make a copy of __value__ with the right name - unfortunate
obj = current.GetChildMemberWithName('__value_')
obj_data = obj.GetData()
return self.valobj.CreateValueFromData('[' + str(index) + ']',obj_data,self.data_type)
except:
return None
def extract_type(self):
logger = Logger.Logger()
list_type = self.valobj.GetType().GetUnqualifiedType()
if list_type.IsReferenceType():
list_type = list_type.GetDereferencedType()
if list_type.GetNumberOfTemplateArguments() > 0:
data_type = list_type.GetTemplateArgumentType(0)
else:
data_type = None
return data_type
def update(self):
logger = Logger.Logger()
self.count = None
try:
impl = self.valobj.GetChildMemberWithName('__end_')
self.node_address = self.valobj.AddressOf().GetValueAsUnsigned(0)
self.head = impl.GetChildMemberWithName('__next_')
self.tail = impl.GetChildMemberWithName('__prev_')
self.data_type = self.extract_type()
self.data_size = self.data_type.GetByteSize()
except:
pass
# Just an example: the actual summary is produced by a summary string: size=${svar%#}
def stdlist_SummaryProvider(valobj,dict):
prov = stdlist_SynthProvider(valobj,None)
return 'size=' + str(prov.num_children())
# a tree node - this class makes the syntax in the actual iterator nicer to read and maintain
class stdmap_iterator_node:
def _left_impl(self):
logger = Logger.Logger()
return stdmap_iterator_node(self.node.GetChildMemberWithName("__left_"))
def _right_impl(self):
logger = Logger.Logger()
return stdmap_iterator_node(self.node.GetChildMemberWithName("__right_"))
def _parent_impl(self):
logger = Logger.Logger()
return stdmap_iterator_node(self.node.GetChildMemberWithName("__parent_"))
def _value_impl(self):
logger = Logger.Logger()
return self.node.GetValueAsUnsigned(0)
def _sbvalue_impl(self):
logger = Logger.Logger()
return self.node
def _null_impl(self):
logger = Logger.Logger()
return self.value == 0
def __init__(self,node):
logger = Logger.Logger()
self.node = node
left = property(_left_impl,None)
right = property(_right_impl,None)
parent = property(_parent_impl,None)
value = property(_value_impl,None)
is_null = property(_null_impl,None)
sbvalue = property(_sbvalue_impl,None)
# a Python implementation of the tree iterator used by libc++
class stdmap_iterator:
def tree_min(self,x):
logger = Logger.Logger()
steps = 0
if x.is_null:
return None
while (not x.left.is_null):
x = x.left
steps += 1
if steps > self.max_count:
logger >> "Returning None - we overflowed"
return None
return x
def tree_max(self,x):
logger = Logger.Logger()
if x.is_null:
return None
while (not x.right.is_null):
x = x.right
return x
def tree_is_left_child(self,x):
logger = Logger.Logger()
if x.is_null:
return None
return True if x.value == x.parent.left.value else False
def increment_node(self,node):
logger = Logger.Logger()
if node.is_null:
return None
if not node.right.is_null:
return self.tree_min(node.right)
steps = 0
while (not self.tree_is_left_child(node)):
steps += 1
if steps > self.max_count:
logger >> "Returning None - we overflowed"
return None
node = node.parent
return node.parent
def __init__(self,node,max_count=0):
logger = Logger.Logger()
self.node = stdmap_iterator_node(node) # we convert the SBValue to an internal node object on entry
self.max_count = max_count
def value(self):
logger = Logger.Logger()
return self.node.sbvalue # and return the SBValue back on exit
def next(self):
logger = Logger.Logger()
node = self.increment_node(self.node)
if node != None and node.sbvalue.IsValid() and not(node.is_null):
self.node = node
return self.value()
else:
return None
def advance(self,N):
logger = Logger.Logger()
if N < 0:
return None
if N == 0:
return self.value()
if N == 1:
return self.next()
while N > 0:
if self.next() == None:
return None
N = N - 1
return self.value()
class stdmap_SynthProvider:
def __init__(self, valobj, dict):
logger = Logger.Logger()
self.valobj = valobj;
self.pointer_size = self.valobj.GetProcess().GetAddressByteSize()
def update(self):
logger = Logger.Logger()
self.count = None
try:
# we will set this to True if we find out that discovering a node in the map takes more steps than the overall size of the RB tree
# if this gets set to True, then we will merrily return None for any child from that moment on
self.garbage = False
self.tree = self.valobj.GetChildMemberWithName('__tree_')
self.root_node = self.tree.GetChildMemberWithName('__begin_node_')
# this data is either lazily-calculated, or cannot be inferred at this moment
# we still need to mark it as None, meaning "please set me ASAP"
self.data_type = None
self.data_size = None
self.skip_size = None
except:
pass
def num_children(self):
global _map_capping_size
logger = Logger.Logger()
if self.count == None:
self.count = self.num_children_impl()
if self.count > _map_capping_size:
self.count = _map_capping_size
return self.count
def num_children_impl(self):
logger = Logger.Logger()
try:
return self.valobj.GetChildMemberWithName('__tree_').GetChildMemberWithName('__pair3_').GetChildMemberWithName('__first_').GetValueAsUnsigned()
except:
return 0;
def get_data_type(self):
logger = Logger.Logger()
if self.data_type == None or self.data_size == None:
if self.num_children() == 0:
return False
deref = self.root_node.Dereference()
if not(deref.IsValid()):
return False
value = deref.GetChildMemberWithName('__value_')
if not(value.IsValid()):
return False
self.data_type = value.GetType()
self.data_size = self.data_type.GetByteSize()
self.skip_size = None
return True
else:
return True
def get_value_offset(self,node):
logger = Logger.Logger()
if self.skip_size == None:
node_type = node.GetType()
fields_count = node_type.GetNumberOfFields()
for i in range(fields_count):
field = node_type.GetFieldAtIndex(i)
if field.GetName() == '__value_':
self.skip_size = field.GetOffsetInBytes()
break
return (self.skip_size != None)
def get_child_index(self,name):
logger = Logger.Logger()
try:
return int(name.lstrip('[').rstrip(']'))
except:
return -1
def get_child_at_index(self,index):
logger = Logger.Logger()
logger >> "Retrieving child " + str(index)
if index < 0:
return None
if index >= self.num_children():
return None;
if self.garbage:
logger >> "Returning None since this tree is garbage"
return None
try:
iterator = stdmap_iterator(self.root_node,max_count=self.num_children())
# the debug info for libc++ std::map is such that __begin_node_ has a very nice and useful type
# out of which we can grab the information we need - every other node has a less informative
# type which omits all value information and only contains housekeeping information for the RB tree
# hence, we need to know if we are at a node != 0, so that we can still get at the data
need_to_skip = (index > 0)
current = iterator.advance(index)
if current == None:
logger >> "Tree is garbage - returning None"
self.garbage = True
return None
if self.get_data_type():
if not(need_to_skip):
current = current.Dereference()
obj = current.GetChildMemberWithName('__value_')
obj_data = obj.GetData()
self.get_value_offset(current) # make sure we have a valid offset for the next items
# we do not return __value_ because then we would end up with a child named
# __value_ instead of [0]
return self.valobj.CreateValueFromData('[' + str(index) + ']',obj_data,self.data_type)
else:
# FIXME we need to have accessed item 0 before accessing any other item!
if self.skip_size == None:
logger >> "You asked for item > 0 before asking for item == 0, too bad - I have no clue"
return None
return current.CreateChildAtOffset('[' + str(index) + ']',self.skip_size,self.data_type)
else:
logger >> "Unable to infer data-type - returning None (should mark tree as garbage here?)"
return None
except Exception as err:
logger >> "Hit an exception: " + str(err)
return None
# Just an example: the actual summary is produced by a summary string: size=${svar%#}
def stdmap_SummaryProvider(valobj,dict):
prov = stdmap_SynthProvider(valobj,None)
return 'size=' + str(prov.num_children())
# we can use two different categories for old and new formatters - type names are different enough that we should make no confusion
# talking with libc++ developer: "std::__1::class_name is set in stone until we decide to change the ABI. That shouldn't happen within a 5 year time frame"
def __lldb_init_module(debugger,dict):
debugger.HandleCommand('type summary add -F libcxx.stdstring_SummaryProvider "std::__1::string" -w libcxx')
debugger.HandleCommand('type summary add -F libcxx.stdstring_SummaryProvider "std::__1::basic_string<char, class std::__1::char_traits<char>, class std::__1::allocator<char> >" -w libcxx')
debugger.HandleCommand('type synthetic add -l libcxx.stdvector_SynthProvider -x "^(std::__1::)vector<.+>$" -w libcxx')
debugger.HandleCommand('type summary add -F libcxx.stdvector_SummaryProvider -e -x "^(std::__1::)vector<.+>$" -w libcxx')
debugger.HandleCommand('type synthetic add -l libcxx.stdlist_SynthProvider -x "^(std::__1::)list<.+>$" -w libcxx')
debugger.HandleCommand('type summary add -F libcxx.stdlist_SummaryProvider -e -x "^(std::__1::)list<.+>$" -w libcxx')
debugger.HandleCommand('type synthetic add -l libcxx.stdmap_SynthProvider -x "^(std::__1::)map<.+> >$" -w libcxx')
debugger.HandleCommand('type summary add -F libcxx.stdmap_SummaryProvider -e -x "^(std::__1::)map<.+> >$" -w libcxx')
debugger.HandleCommand("type category enable libcxx")
_map_capping_size = 255
_list_capping_size = 255
_list_uses_loop_detector = True
|
