tools/gdb/gdb_chrome.py - chromium/src - Git at Google

 # Copyright 2011 The Chromium Authors
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.
 """GDB support for Chrome types.

 Add this to your gdb by amending your ~/.gdbinit as follows:
   python
   import sys
   sys.path.insert(1, "/path/to/tools/gdb/")
   import gdb_chrome
   end

 Use
   (gdb) p /r any_variable
 to print |any_variable| without using any printers.

 To interactively type Python for development of the printers:
   (gdb) python foo = gdb.parse_and_eval('bar')
 to put the C++ value 'bar' in the current scope into a Python variable 'foo'.
 Then you can interact with that variable:
   (gdb) python print foo['impl_']
 """

 import datetime
 import gdb
 import gdb.printing
 import os
 import re
 import sys

 sys.path.insert(
     1, os.path.join(os.path.dirname(os.path.abspath(__file__)), 'util'))
 import class_methods

 sys.path.insert(
     1,
     os.path.join(
         os.path.dirname(os.path.abspath(__file__)), '..', '..', 'third_party',
         'blink', 'tools', 'gdb'))
 try:
   import blink
 finally:
   sys.path.pop(1)

 # When debugging this module, set the below variable to True, and then use
 #   (gdb) python del sys.modules['gdb_chrome']
 #   (gdb) python import gdb_chrome
 # to reload.
 _DEBUGGING = False

 pp_set = gdb.printing.RegexpCollectionPrettyPrinter("chromium")


 def typed_ptr(ptr):
   """Prints a pointer along with its exact type.

     By default, gdb would print just the address, which takes more
     steps to interpret.
     """
   # Returning this as a cast expression surrounded by parentheses
   # makes it easier to cut+paste inside of gdb.
   return '((%s)%s)' % (ptr.dynamic_type, ptr)


 def yield_fields(val):
   """Use this in a printer's children() method to print an object's fields.

     e.g.
       def children():
         for result in yield_fields(self.val):
           yield result
     """
   try:
     fields = val.type.target().fields()
   except:
     fields = val.type.fields()
   for field in fields:
     if field.is_base_class:
       yield (field.name, val.cast(gdb.lookup_type(field.name)))
     else:
       yield (field.name, val[field.name])


 class Printer(object):

   def __init__(self, val):
     self.val = val


 class StringPrinter(Printer):

   def display_hint(self):
     return 'string'


 class String16Printer(StringPrinter):

   def to_string(self):
     return blink.ustring_to_string(self.val['_M_dataplus']['_M_p'])


 pp_set.add_printer('string16',
                    '^string16|std::basic_string<(unsigned short|char16_t).*>$',
                    String16Printer)


 class GURLPrinter(StringPrinter):

   def to_string(self):
     return self.val['spec_']


 pp_set.add_printer('GURL', '^GURL$', GURLPrinter)


 class FilePathPrinter(StringPrinter):

   def to_string(self):
     return self.val['path_']['_M_dataplus']['_M_p']


 pp_set.add_printer('FilePath', '^FilePath$', FilePathPrinter)


 class SmartPtrPrinter(Printer):

   def to_string(self):
     return '%s%s' % (self.typename, typed_ptr(self.ptr()))


 class ScopedPtrPrinter(SmartPtrPrinter):
   typename = 'scoped_ptr'

   def ptr(self):
     return self.val['impl_']['data_']['ptr']


 pp_set.add_printer('scoped_ptr', '^scoped_ptr<.*>$', ScopedPtrPrinter)


 class ScopedRefPtrPrinter(SmartPtrPrinter):
   typename = 'scoped_refptr'

   def ptr(self):
     return self.val['ptr_']


 pp_set.add_printer('scoped_refptr', '^scoped_refptr<.*>$', ScopedRefPtrPrinter)


 class LinkedPtrPrinter(SmartPtrPrinter):
   typename = 'linked_ptr'

   def ptr(self):
     return self.val['value_']


 pp_set.add_printer('linked_ptr', '^linked_ptr<.*>$', LinkedPtrPrinter)


 class WeakPtrPrinter(SmartPtrPrinter):
   typename = 'base::WeakPtr'

   def ptr(self):
     # Check that the pointer is valid. The invalidated flag is stored at
     # val.ref_.flag_.ptr_->invalidated_.flag_.__a_.__a_value. This is a gdb
     # implementation of base::WeakReference::IsValid(). This is necessary
     # because calling gdb.parse_and_eval('(*(%s*)(%s)).ref_.IsValid()' %
     # (self.val.type, self.val.address))) does not work in all cases.
     ptr = self.val['ref_']['flag_']['ptr_']
     if (ptr and
         not ptr.dereference()['invalidated_']['flag_']['__a_']['__a_value']):
       return self.val['ptr_']
     return gdb.Value(0).cast(self.val['ptr_'].type)


 pp_set.add_printer('base::WeakPtr', '^base::WeakPtr<.*>$', WeakPtrPrinter)


 class CallbackPrinter(Printer):
   """Callbacks provide no usable information so reduce the space they take."""

   def to_string(self):
     return '...'


 pp_set.add_printer('base::OnceCallback', '^base::OnceCallback<.*>$',
                    CallbackPrinter)
 pp_set.add_printer('base::RepeatingCallback', '^base::RepeatingCallback<.*>$',
                    CallbackPrinter)


 class LocationPrinter(Printer):

   def to_string(self):
     return '%s()@%s:%s' % (self.val['function_name_'].string(),
                            self.val['file_name_'].string(),
                            self.val['line_number_'])


 pp_set.add_printer('base::Location', '^base::Location$', LocationPrinter)


 class PendingTaskPrinter(Printer):

   def to_string(self):
     return 'From %s' % (self.val['posted_from'],)

   def children(self):
     for result in yield_fields(self.val):
       if result[0] not in ('task', 'posted_from'):
         yield result


 pp_set.add_printer('base::PendingTask', '^base::PendingTask$',
                    PendingTaskPrinter)


 class LockPrinter(Printer):

   def to_string(self):
     try:
       if self.val['owned_by_thread_']:
         return 'Locked by thread %s' % self.val['owning_thread_id_']
       else:
         return 'Unlocked'
     except gdb.error:
       return 'Unknown state'


 pp_set.add_printer('base::Lock', '^base::Lock$', LockPrinter)


 class AbslOptionalPrinter(Printer):

   def to_string(self):
     if self.val['engaged_']:
       return "%s: %s" % (str(self.val.type.tag), self.val['data_'])
     else:
       return "%s: is empty" % str(self.val.type.tag)


 pp_set.add_printer('absl::optional', '^absl::optional<.*>$',
                    AbslOptionalPrinter)


 class ClampedNumericPrinter(Printer):
   type_re = r'^base::internal::ClampedNumeric<(.*)>$'

   def to_string(self):
     m = type_re.search(self.val.type)
     if m is None:
       return self.val['value']
     return '(%s) %s' % (m.group(1), self.val['value_'])


 pp_set.add_printer('base::internal::ClampedNumeric',
                    '^base::internal::ClampedNumeric<.*>$',
                    ClampedNumericPrinter)


 class TimeDeltaPrinter(object):

   def __init__(self, val):
     self._timedelta = datetime.timedelta(
         microseconds=int(val['delta_']['value_']))

   def timedelta(self):
     return self._timedelta

   def to_string(self):
     return str(self._timedelta)


 pp_set.add_printer('base::TimeDelta', '^base::TimeDelta$', TimeDeltaPrinter)


 class TimeTicksPrinter(TimeDeltaPrinter):

   def __init__(self, val):
     self._timedelta = datetime.timedelta(microseconds=int(val['us_']['value_']))


 pp_set.add_printer('base::TimeTicks', '^base::TimeTicks$', TimeTicksPrinter)


 class TimePrinter(object):

   def __init__(self, val):
     timet_offset = gdb.parse_and_eval('base::Time::kTimeTToMicrosecondsOffset')
     self._datetime = (
         datetime.datetime.fromtimestamp(0) + datetime.timedelta(
             microseconds=int(val['us_']['value_']) - int(timet_offset)))

   def datetime(self):
     return self._datetime

   def to_string(self):
     return str(self._datetime)


 pp_set.add_printer('base::Time', '^base::Time$', TimePrinter)


 class FlatTreePrinter(object):

   def __init__(self, val):
     self.val = val

   def to_string(self):
     # It would be nice to match the output of std::map which is a little
     # nicer than printing the vector of pairs. But iterating over it in
     # Python is much more complicated and this output is reasonable.
     # (Without this printer, a flat_map will output 7 lines of internal
     # template goop before the vector contents.)
     return 'base::flat_tree with ' + str(self.val['body_'])


 pp_set.add_printer('base::flat_map', '^base::flat_map<.*>$', FlatTreePrinter)
 pp_set.add_printer('base::flat_set', '^base::flat_set<.*>$', FlatTreePrinter)
 pp_set.add_printer('base::flat_tree', '^base::internal::flat_tree<.*>$',
                    FlatTreePrinter)


 class ValuePrinter(object):

   def __init__(self, val):
     self.val = val

   def get_type(self):
     return self.val['type_']

   def to_string(self):
     typestr = str(self.get_type())
     # Trim prefix to just get the emum short name.
     typestr = typestr[typestr.rfind(':') + 1:]

     if typestr == 'NONE':
       return 'base::Value of type NONE'
     if typestr == 'BOOLEAN':
       valuestr = self.val['bool_value_']
     if typestr == 'INTEGER':
       valuestr = self.val['int_value_']
     if typestr == 'DOUBLE':
       valuestr = self.val['double_value_']
     if typestr == 'STRING':
       valuestr = self.val['string_value_']
     if typestr == 'BINARY':
       valuestr = self.val['binary_value_']
     if typestr == 'DICTIONARY':
       valuestr = self.val['dict_']
     if typestr == 'LIST':
       valuestr = self.val['list_']

     return "base::Value of type %s = %s" % (typestr, str(valuestr))


 pp_set.add_printer('base::Value', '^base::Value$', ValuePrinter)
 pp_set.add_printer('base::ListValue', '^base::ListValue$', ValuePrinter)
 pp_set.add_printer('base::DictionaryValue', '^base::DictionaryValue$',
                    ValuePrinter)


 class IpcMessagePrinter(Printer):

   def header(self):
     return self.val['header_'].cast(
         gdb.lookup_type('IPC::Message::Header').pointer())

   def to_string(self):
     message_type = self.header()['type']
     return '%s of kind %s line %s' % (self.val.dynamic_type,
                                       (message_type >> 16).cast(
                                           gdb.lookup_type('IPCMessageStart')),
                                       message_type & 0xffff)

   def children(self):
     yield ('header_', self.header().dereference())
     yield ('capacity_after_header_', self.val['capacity_after_header_'])
     for field in self.val.type.fields():
       if field.is_base_class:
         continue
       yield (field.name, self.val[field.name])


 pp_set.add_printer('IPC::Message', '^IPC::Message$', IpcMessagePrinter)


 class NotificationRegistrarPrinter(Printer):

   def to_string(self):
     try:
       registrations = self.val['registered_']
       vector_finish = registrations['_M_impl']['_M_finish']
       vector_start = registrations['_M_impl']['_M_start']
       if vector_start == vector_finish:
         return 'Not watching notifications'
       if vector_start.dereference().type.sizeof == 0:
         # Incomplete type: b/8242773
         return 'Watching some notifications'
       return ('Watching %s notifications; '
               'print %s->registered_ for details') % (int(
                   vector_finish - vector_start), typed_ptr(self.val.address))
     except gdb.error:
       return 'NotificationRegistrar'


 pp_set.add_printer('content::NotificationRegistrar',
                    '^content::NotificationRegistrar$',
                    NotificationRegistrarPrinter)


 class SiteInstanceImplPrinter(object):

   def __init__(self, val):
     self.val = val.cast(val.dynamic_type)

   def to_string(self):
     return 'SiteInstanceImpl@%s for %s' % (self.val.address, self.val['site_'])

   def children(self):
     yield ('id_', self.val['id_'])
     yield ('has_site_', self.val['has_site_'])
     if self.val['browsing_instance_']['ptr_']:
       yield ('browsing_instance_', self.val['browsing_instance_']['ptr_'])
     if self.val['process_']:
       yield ('process_', typed_ptr(self.val['process_']))


 pp_set.add_printer('content::SiteInstanceImpl', '^content::SiteInstanceImpl$',
                    SiteInstanceImplPrinter)


 class RenderProcessHostImplPrinter(object):

   def __init__(self, val):
     self.val = val.cast(val.dynamic_type)

   def to_string(self):
     pid = ''
     try:
       child_process_launcher_ptr = (
           self.val['child_process_launcher_']['impl_']['data_']['ptr'])
       if child_process_launcher_ptr:
         context = (child_process_launcher_ptr['context_']['ptr_'])
         if context:
           pid = ' PID %s' % str(context['process_']['process_'])
     except gdb.error:
       # The definition of the Context type may not be available.
       # b/8242773
       pass
     return 'RenderProcessHostImpl@%s%s' % (self.val.address, pid)

   def children(self):
     yield ('id_', self.val['id_'])
     yield ('listeners_', self.val['listeners_']['data_'])
     yield ('worker_ref_count_', self.val['worker_ref_count_'])
     yield ('fast_shutdown_started_', self.val['fast_shutdown_started_'])
     yield ('deleting_soon_', self.val['deleting_soon_'])
     yield ('pending_views_', self.val['pending_views_'])
     yield ('visible_widgets_', self.val['visible_widgets_'])
     yield ('backgrounded_', self.val['backgrounded_'])
     yield ('widget_helper_', self.val['widget_helper_'])
     yield ('is_initialized_', self.val['is_initialized_'])
     yield ('browser_context_', typed_ptr(self.val['browser_context_']))
     yield ('sudden_termination_allowed_',
            self.val['sudden_termination_allowed_'])
     yield ('ignore_input_events_', self.val['ignore_input_events_'])
     yield ('is_guest_', self.val['is_guest_'])


 pp_set.add_printer('content::RenderProcessHostImpl',
                    '^content::RenderProcessHostImpl$',
                    RenderProcessHostImplPrinter)


 class AtomicPrinter(Printer):
   typename = 'atomic'

   def to_string(self):
     return self.val['__a_']['__a_value']


 pp_set.add_printer('std::__Cr::__atomic', '^std::__Cr::(__)?atomic<.*>$',
                    AtomicPrinter)

 gdb.printing.register_pretty_printer(gdb, pp_set, replace=_DEBUGGING)
 """Implementations of inlined libc++ std container functions."""


 def gdb_running_under_rr():
   try:
     # rr defines the when command to return the current event number.
     gdb.execute('when')

     # If there was no error executing the command, we are running under rr.
     return True
   except gdb.error:
     return False


 def find_nearest_frame_matching(frame, predicate):
   while frame and not predicate(frame):
     frame = frame.older()
   return frame


 class ReverseCallback(gdb.Command):
   """Find when the currently running callback was created."""

   def __init__(self):
     super(ReverseCallback, self).__init__("reverse-callback", gdb.COMMAND_USER)

   def invoke(self, arg, from_tty):
     if not gdb_running_under_rr():
       raise gdb.error('reverse-callback requires debugging under rr: ' +
                       'https://rr-project.org/')

     # Find the stack frame which extracts the bind state from the task.
     bind_state_frame = find_nearest_frame_matching(
         gdb.selected_frame(),
         lambda frame : frame.function() and
             re.match('^base::internal::Invoker<base::internal::BindState<.*>' +
                      '::RunOnce\(base::internal::BindStateBase\*\)$',
                      frame.function().name))
     if bind_state_frame is None:
       raise Exception(
           'base::internal::Invoker frame not found; are you in a callback?')
     bind_state_frame.select()

     # Disable all existing breakpoints.
     was_enabled = []
     for breakpoint in gdb.breakpoints():
       was_enabled.append(breakpoint.enabled)
       breakpoint.enabled = False

     # Break on the initialization of the BindState.
     storage_address = gdb.parse_and_eval('storage')
     watchpoint = gdb.Breakpoint('*' + str(storage_address), gdb.BP_WATCHPOINT)

     # Find the construction.
     gdb.execute('reverse-continue')

     # Restore breakpoints
     watchpoint.delete()
     for breakpoint, enabled in zip(gdb.breakpoints(), was_enabled):
       breakpoint.enabled = enabled

     # Find the stack frame which created the BindState.
     def in_bindstate(frame):
       return frame.function() and frame.function().name.startswith(
           'base::internal::BindState<')

     creation_frame = find_nearest_frame_matching(
         find_nearest_frame_matching(gdb.selected_frame(), in_bindstate),
         lambda frame: not in_bindstate(frame))

     # The callback creates the bindstate, step up once more to get the creator
     # of the callback.
     creation_frame.older().select()


 ReverseCallback()


 @class_methods.Class('std::__1::vector', template_types=['T'])
 class LibcppVector(object):

   @class_methods.member_function('T&', 'operator[]', ['int'])
   def element(obj, i):
     return obj['__begin_'][i]

   @class_methods.member_function('size_t', 'size', [])
   def size(obj):
     return obj['__end_'] - obj['__begin_']


 @class_methods.Class('std::__1::unique_ptr', template_types=['T'])
 class LibcppUniquePtr(object):

   @class_methods.member_function('T*', 'get', [])
   def get(obj):
     return obj['__ptr_']['__value_']

   @class_methods.member_function('T*', 'operator->', [])
   def arrow(obj):
     return obj['__ptr_']['__value_']

   @class_methods.member_function('T&', 'operator*', [])
   def dereference(obj):
     return obj['__ptr_']['__value_'].dereference()
	# Copyright 2011 The Chromium Authors
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.
	"""GDB support for Chrome types.

	Add this to your gdb by amending your ~/.gdbinit as follows:
	python
	import sys
	sys.path.insert(1, "/path/to/tools/gdb/")
	import gdb_chrome
	end

	Use
	(gdb) p /r any_variable
	to print \|any_variable\| without using any printers.

	To interactively type Python for development of the printers:
	(gdb) python foo = gdb.parse_and_eval('bar')
	to put the C++ value 'bar' in the current scope into a Python variable 'foo'.
	Then you can interact with that variable:
	(gdb) python print foo['impl_']
	"""

	import datetime
	import gdb
	import gdb.printing
	import os
	import re
	import sys

	sys.path.insert(
	1, os.path.join(os.path.dirname(os.path.abspath(__file__)), 'util'))
	import class_methods

	sys.path.insert(
	1,
	os.path.join(
	os.path.dirname(os.path.abspath(__file__)), '..', '..', 'third_party',
	'blink', 'tools', 'gdb'))
	try:
	import blink
	finally:
	sys.path.pop(1)

	# When debugging this module, set the below variable to True, and then use
	# (gdb) python del sys.modules['gdb_chrome']
	# (gdb) python import gdb_chrome
	# to reload.
	_DEBUGGING = False

	pp_set = gdb.printing.RegexpCollectionPrettyPrinter("chromium")


	def typed_ptr(ptr):
	"""Prints a pointer along with its exact type.

	By default, gdb would print just the address, which takes more
	steps to interpret.
	"""
	# Returning this as a cast expression surrounded by parentheses
	# makes it easier to cut+paste inside of gdb.
	return '((%s)%s)' % (ptr.dynamic_type, ptr)


	def yield_fields(val):
	"""Use this in a printer's children() method to print an object's fields.

	e.g.
	def children():
	for result in yield_fields(self.val):
	yield result
	"""
	try:
	fields = val.type.target().fields()
	except:
	fields = val.type.fields()
	for field in fields:
	if field.is_base_class:
	yield (field.name, val.cast(gdb.lookup_type(field.name)))
	else:
	yield (field.name, val[field.name])


	class Printer(object):

	def __init__(self, val):
	self.val = val


	class StringPrinter(Printer):

	def display_hint(self):
	return 'string'


	class String16Printer(StringPrinter):

	def to_string(self):
	return blink.ustring_to_string(self.val['_M_dataplus']['_M_p'])


	pp_set.add_printer('string16',
	'^string16\|std::basic_string<(unsigned short\|char16_t).*>$',
	String16Printer)


	class GURLPrinter(StringPrinter):

	def to_string(self):
	return self.val['spec_']


	pp_set.add_printer('GURL', '^GURL$', GURLPrinter)


	class FilePathPrinter(StringPrinter):

	def to_string(self):
	return self.val['path_']['_M_dataplus']['_M_p']


	pp_set.add_printer('FilePath', '^FilePath$', FilePathPrinter)


	class SmartPtrPrinter(Printer):

	def to_string(self):
	return '%s%s' % (self.typename, typed_ptr(self.ptr()))


	class ScopedPtrPrinter(SmartPtrPrinter):
	typename = 'scoped_ptr'

	def ptr(self):
	return self.val['impl_']['data_']['ptr']


	pp_set.add_printer('scoped_ptr', '^scoped_ptr<.*>$', ScopedPtrPrinter)


	class ScopedRefPtrPrinter(SmartPtrPrinter):
	typename = 'scoped_refptr'

	def ptr(self):
	return self.val['ptr_']


	pp_set.add_printer('scoped_refptr', '^scoped_refptr<.*>$', ScopedRefPtrPrinter)


	class LinkedPtrPrinter(SmartPtrPrinter):
	typename = 'linked_ptr'

	def ptr(self):
	return self.val['value_']


	pp_set.add_printer('linked_ptr', '^linked_ptr<.*>$', LinkedPtrPrinter)


	class WeakPtrPrinter(SmartPtrPrinter):
	typename = 'base::WeakPtr'

	def ptr(self):
	# Check that the pointer is valid. The invalidated flag is stored at
	# val.ref_.flag_.ptr_->invalidated_.flag_.__a_.__a_value. This is a gdb
	# implementation of base::WeakReference::IsValid(). This is necessary
	# because calling gdb.parse_and_eval('((%s)(%s)).ref_.IsValid()' %
	# (self.val.type, self.val.address))) does not work in all cases.
	ptr = self.val['ref_']['flag_']['ptr_']
	if (ptr and
	not ptr.dereference()['invalidated_']['flag_']['__a_']['__a_value']):
	return self.val['ptr_']
	return gdb.Value(0).cast(self.val['ptr_'].type)


	pp_set.add_printer('base::WeakPtr', '^base::WeakPtr<.*>$', WeakPtrPrinter)


	class CallbackPrinter(Printer):
	"""Callbacks provide no usable information so reduce the space they take."""

	def to_string(self):
	return '...'


	pp_set.add_printer('base::OnceCallback', '^base::OnceCallback<.*>$',
	CallbackPrinter)
	pp_set.add_printer('base::RepeatingCallback', '^base::RepeatingCallback<.*>$',
	CallbackPrinter)


	class LocationPrinter(Printer):

	def to_string(self):
	return '%s()@%s:%s' % (self.val['function_name_'].string(),
	self.val['file_name_'].string(),
	self.val['line_number_'])


	pp_set.add_printer('base::Location', '^base::Location$', LocationPrinter)


	class PendingTaskPrinter(Printer):

	def to_string(self):
	return 'From %s' % (self.val['posted_from'],)

	def children(self):
	for result in yield_fields(self.val):
	if result[0] not in ('task', 'posted_from'):
	yield result


	pp_set.add_printer('base::PendingTask', '^base::PendingTask$',
	PendingTaskPrinter)


	class LockPrinter(Printer):

	def to_string(self):
	try:
	if self.val['owned_by_thread_']:
	return 'Locked by thread %s' % self.val['owning_thread_id_']
	else:
	return 'Unlocked'
	except gdb.error:
	return 'Unknown state'


	pp_set.add_printer('base::Lock', '^base::Lock$', LockPrinter)


	class AbslOptionalPrinter(Printer):

	def to_string(self):
	if self.val['engaged_']:
	return "%s: %s" % (str(self.val.type.tag), self.val['data_'])
	else:
	return "%s: is empty" % str(self.val.type.tag)


	pp_set.add_printer('absl::optional', '^absl::optional<.*>$',
	AbslOptionalPrinter)


	class ClampedNumericPrinter(Printer):
	type_re = r'^base::internal::ClampedNumeric<(.*)>$'

	def to_string(self):
	m = type_re.search(self.val.type)
	if m is None:
	return self.val['value']
	return '(%s) %s' % (m.group(1), self.val['value_'])


	pp_set.add_printer('base::internal::ClampedNumeric',
	'^base::internal::ClampedNumeric<.*>$',
	ClampedNumericPrinter)


	class TimeDeltaPrinter(object):

	def __init__(self, val):
	self._timedelta = datetime.timedelta(
	microseconds=int(val['delta_']['value_']))

	def timedelta(self):
	return self._timedelta

	def to_string(self):
	return str(self._timedelta)


	pp_set.add_printer('base::TimeDelta', '^base::TimeDelta$', TimeDeltaPrinter)


	class TimeTicksPrinter(TimeDeltaPrinter):

	def __init__(self, val):
	self._timedelta = datetime.timedelta(microseconds=int(val['us_']['value_']))


	pp_set.add_printer('base::TimeTicks', '^base::TimeTicks$', TimeTicksPrinter)


	class TimePrinter(object):

	def __init__(self, val):
	timet_offset = gdb.parse_and_eval('base::Time::kTimeTToMicrosecondsOffset')
	self._datetime = (
	datetime.datetime.fromtimestamp(0) + datetime.timedelta(
	microseconds=int(val['us_']['value_']) - int(timet_offset)))

	def datetime(self):
	return self._datetime

	def to_string(self):
	return str(self._datetime)


	pp_set.add_printer('base::Time', '^base::Time$', TimePrinter)


	class FlatTreePrinter(object):

	def __init__(self, val):
	self.val = val

	def to_string(self):
	# It would be nice to match the output of std::map which is a little
	# nicer than printing the vector of pairs. But iterating over it in
	# Python is much more complicated and this output is reasonable.
	# (Without this printer, a flat_map will output 7 lines of internal
	# template goop before the vector contents.)
	return 'base::flat_tree with ' + str(self.val['body_'])


	pp_set.add_printer('base::flat_map', '^base::flat_map<.*>$', FlatTreePrinter)
	pp_set.add_printer('base::flat_set', '^base::flat_set<.*>$', FlatTreePrinter)
	pp_set.add_printer('base::flat_tree', '^base::internal::flat_tree<.*>$',
	FlatTreePrinter)


	class ValuePrinter(object):

	def __init__(self, val):
	self.val = val

	def get_type(self):
	return self.val['type_']

	def to_string(self):
	typestr = str(self.get_type())
	# Trim prefix to just get the emum short name.
	typestr = typestr[typestr.rfind(':') + 1:]

	if typestr == 'NONE':
	return 'base::Value of type NONE'
	if typestr == 'BOOLEAN':
	valuestr = self.val['bool_value_']
	if typestr == 'INTEGER':
	valuestr = self.val['int_value_']
	if typestr == 'DOUBLE':
	valuestr = self.val['double_value_']
	if typestr == 'STRING':
	valuestr = self.val['string_value_']
	if typestr == 'BINARY':
	valuestr = self.val['binary_value_']
	if typestr == 'DICTIONARY':
	valuestr = self.val['dict_']
	if typestr == 'LIST':
	valuestr = self.val['list_']

	return "base::Value of type %s = %s" % (typestr, str(valuestr))


	pp_set.add_printer('base::Value', '^base::Value$', ValuePrinter)
	pp_set.add_printer('base::ListValue', '^base::ListValue$', ValuePrinter)
	pp_set.add_printer('base::DictionaryValue', '^base::DictionaryValue$',
	ValuePrinter)


	class IpcMessagePrinter(Printer):

	def header(self):
	return self.val['header_'].cast(
	gdb.lookup_type('IPC::Message::Header').pointer())

	def to_string(self):
	message_type = self.header()['type']
	return '%s of kind %s line %s' % (self.val.dynamic_type,
	(message_type >> 16).cast(
	gdb.lookup_type('IPCMessageStart')),
	message_type & 0xffff)

	def children(self):
	yield ('header_', self.header().dereference())
	yield ('capacity_after_header_', self.val['capacity_after_header_'])
	for field in self.val.type.fields():
	if field.is_base_class:
	continue
	yield (field.name, self.val[field.name])


	pp_set.add_printer('IPC::Message', '^IPC::Message$', IpcMessagePrinter)


	class NotificationRegistrarPrinter(Printer):

	def to_string(self):
	try:
	registrations = self.val['registered_']
	vector_finish = registrations['_M_impl']['_M_finish']
	vector_start = registrations['_M_impl']['_M_start']
	if vector_start == vector_finish:
	return 'Not watching notifications'
	if vector_start.dereference().type.sizeof == 0:
	# Incomplete type: b/8242773
	return 'Watching some notifications'
	return ('Watching %s notifications; '
	'print %s->registered_ for details') % (int(
	vector_finish - vector_start), typed_ptr(self.val.address))
	except gdb.error:
	return 'NotificationRegistrar'


	pp_set.add_printer('content::NotificationRegistrar',
	'^content::NotificationRegistrar$',
	NotificationRegistrarPrinter)


	class SiteInstanceImplPrinter(object):

	def __init__(self, val):
	self.val = val.cast(val.dynamic_type)

	def to_string(self):
	return 'SiteInstanceImpl@%s for %s' % (self.val.address, self.val['site_'])

	def children(self):
	yield ('id_', self.val['id_'])
	yield ('has_site_', self.val['has_site_'])
	if self.val['browsing_instance_']['ptr_']:
	yield ('browsing_instance_', self.val['browsing_instance_']['ptr_'])
	if self.val['process_']:
	yield ('process_', typed_ptr(self.val['process_']))


	pp_set.add_printer('content::SiteInstanceImpl', '^content::SiteInstanceImpl$',
	SiteInstanceImplPrinter)


	class RenderProcessHostImplPrinter(object):

	def __init__(self, val):
	self.val = val.cast(val.dynamic_type)

	def to_string(self):
	pid = ''
	try:
	child_process_launcher_ptr = (
	self.val['child_process_launcher_']['impl_']['data_']['ptr'])
	if child_process_launcher_ptr:
	context = (child_process_launcher_ptr['context_']['ptr_'])
	if context:
	pid = ' PID %s' % str(context['process_']['process_'])
	except gdb.error:
	# The definition of the Context type may not be available.
	# b/8242773
	pass
	return 'RenderProcessHostImpl@%s%s' % (self.val.address, pid)

	def children(self):
	yield ('id_', self.val['id_'])
	yield ('listeners_', self.val['listeners_']['data_'])
	yield ('worker_ref_count_', self.val['worker_ref_count_'])
	yield ('fast_shutdown_started_', self.val['fast_shutdown_started_'])
	yield ('deleting_soon_', self.val['deleting_soon_'])
	yield ('pending_views_', self.val['pending_views_'])
	yield ('visible_widgets_', self.val['visible_widgets_'])
	yield ('backgrounded_', self.val['backgrounded_'])
	yield ('widget_helper_', self.val['widget_helper_'])
	yield ('is_initialized_', self.val['is_initialized_'])
	yield ('browser_context_', typed_ptr(self.val['browser_context_']))
	yield ('sudden_termination_allowed_',
	self.val['sudden_termination_allowed_'])
	yield ('ignore_input_events_', self.val['ignore_input_events_'])
	yield ('is_guest_', self.val['is_guest_'])


	pp_set.add_printer('content::RenderProcessHostImpl',
	'^content::RenderProcessHostImpl$',
	RenderProcessHostImplPrinter)


	class AtomicPrinter(Printer):
	typename = 'atomic'

	def to_string(self):
	return self.val['__a_']['__a_value']


	pp_set.add_printer('std::__Cr::__atomic', '^std::__Cr::(__)?atomic<.*>$',
	AtomicPrinter)

	gdb.printing.register_pretty_printer(gdb, pp_set, replace=_DEBUGGING)
	"""Implementations of inlined libc++ std container functions."""


	def gdb_running_under_rr():
	try:
	# rr defines the when command to return the current event number.
	gdb.execute('when')

	# If there was no error executing the command, we are running under rr.
	return True
	except gdb.error:
	return False


	def find_nearest_frame_matching(frame, predicate):
	while frame and not predicate(frame):
	frame = frame.older()
	return frame


	class ReverseCallback(gdb.Command):
	"""Find when the currently running callback was created."""

	def __init__(self):
	super(ReverseCallback, self).__init__("reverse-callback", gdb.COMMAND_USER)

	def invoke(self, arg, from_tty):
	if not gdb_running_under_rr():
	raise gdb.error('reverse-callback requires debugging under rr: ' +
	'https://rr-project.org/')

	# Find the stack frame which extracts the bind state from the task.
	bind_state_frame = find_nearest_frame_matching(
	gdb.selected_frame(),
	lambda frame : frame.function() and
	re.match('^base::internal::Invoker<base::internal::BindState<.*>' +
	'::RunOnce\(base::internal::BindStateBase\*\)$',
	frame.function().name))
	if bind_state_frame is None:
	raise Exception(
	'base::internal::Invoker frame not found; are you in a callback?')
	bind_state_frame.select()

	# Disable all existing breakpoints.
	was_enabled = []
	for breakpoint in gdb.breakpoints():
	was_enabled.append(breakpoint.enabled)
	breakpoint.enabled = False

	# Break on the initialization of the BindState.
	storage_address = gdb.parse_and_eval('storage')
	watchpoint = gdb.Breakpoint('*' + str(storage_address), gdb.BP_WATCHPOINT)

	# Find the construction.
	gdb.execute('reverse-continue')

	# Restore breakpoints
	watchpoint.delete()
	for breakpoint, enabled in zip(gdb.breakpoints(), was_enabled):
	breakpoint.enabled = enabled

	# Find the stack frame which created the BindState.
	def in_bindstate(frame):
	return frame.function() and frame.function().name.startswith(
	'base::internal::BindState<')

	creation_frame = find_nearest_frame_matching(
	find_nearest_frame_matching(gdb.selected_frame(), in_bindstate),
	lambda frame: not in_bindstate(frame))

	# The callback creates the bindstate, step up once more to get the creator
	# of the callback.
	creation_frame.older().select()


	ReverseCallback()


	@class_methods.Class('std::__1::vector', template_types=['T'])
	class LibcppVector(object):

	@class_methods.member_function('T&', 'operator[]', ['int'])
	def element(obj, i):
	return obj['__begin_'][i]

	@class_methods.member_function('size_t', 'size', [])
	def size(obj):
	return obj['__end_'] - obj['__begin_']


	@class_methods.Class('std::__1::unique_ptr', template_types=['T'])
	class LibcppUniquePtr(object):

	@class_methods.member_function('T*', 'get', [])
	def get(obj):
	return obj['__ptr_']['__value_']

	@class_methods.member_function('T*', 'operator->', [])
	def arrow(obj):
	return obj['__ptr_']['__value_']

	@class_methods.member_function('T&', 'operator*', [])
	def dereference(obj):
	return obj['__ptr_']['__value_'].dereference()