# This file is Copyright 2019 Volatility Foundation and licensed under the Volatility Software License 1.0
# which is available at https://www.volatilityfoundation.org/license/vsl-v1.0
#
import logging
from typing import List, Iterable, Generator
from volatility3.framework import constants
from volatility3.framework import exceptions, interfaces
from volatility3.framework import renderers
from volatility3.framework.configuration import requirements
from volatility3.framework.renderers import format_hints
from volatility3.framework.symbols import intermed
from volatility3.framework.symbols.windows.extensions import pe
from volatility3.plugins.windows import pslist, dlllist
vollog = logging.getLogger(__name__)
[docs]class Modules(interfaces.plugins.PluginInterface):
"""Lists the loaded kernel modules."""
_required_framework_version = (2, 0, 0)
_version = (1, 1, 0)
[docs] @classmethod
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.ModuleRequirement(name = 'kernel', description = 'Windows kernel',
architectures = ["Intel32", "Intel64"]),
requirements.VersionRequirement(name = 'pslist', component = pslist.PsList, version = (2, 0, 0)),
requirements.VersionRequirement(name = 'dlllist', component = dlllist.DllList, version = (2, 0, 0)),
requirements.BooleanRequirement(name = 'dump',
description = "Extract listed modules",
default = False,
optional = True)
]
def _generator(self):
kernel = self.context.modules[self.config['kernel']]
pe_table_name = intermed.IntermediateSymbolTable.create(self.context,
self.config_path,
"windows",
"pe",
class_types = pe.class_types)
for mod in self.list_modules(self.context, kernel.layer_name, kernel.symbol_table_name):
try:
BaseDllName = mod.BaseDllName.get_string()
except exceptions.InvalidAddressException:
BaseDllName = ""
try:
FullDllName = mod.FullDllName.get_string()
except exceptions.InvalidAddressException:
FullDllName = ""
file_output = "Disabled"
if self.config['dump']:
file_handle = dlllist.DllList.dump_pe(self.context, pe_table_name, mod, self.open)
file_output = "Error outputting file"
if file_handle:
file_handle.close()
file_output = file_handle.preferred_filename
yield (0, (format_hints.Hex(mod.vol.offset), format_hints.Hex(mod.DllBase),
format_hints.Hex(mod.SizeOfImage), BaseDllName, FullDllName, file_output))
[docs] @classmethod
def get_session_layers(cls,
context: interfaces.context.ContextInterface,
layer_name: str,
symbol_table: str,
pids: List[int] = None) -> Generator[str, None, None]:
"""Build a cache of possible virtual layers, in priority starting with
the primary/kernel layer. Then keep one layer per session by cycling
through the process list.
Args:
context: The context to retrieve required elements (layers, symbol tables) from
layer_name: The name of the layer on which to operate
symbol_table: The name of the table containing the kernel symbols
pids: A list of process identifiers to include exclusively or None for no filter
Returns:
A list of session layer names
"""
seen_ids: List[interfaces.objects.ObjectInterface] = []
filter_func = pslist.PsList.create_pid_filter(pids or [])
for proc in pslist.PsList.list_processes(context = context,
layer_name = layer_name,
symbol_table = symbol_table,
filter_func = filter_func):
proc_id = "Unknown"
try:
proc_id = proc.UniqueProcessId
proc_layer_name = proc.add_process_layer()
# create the session space object in the process' own layer.
# not all processes have a valid session pointer.
session_space = context.object(symbol_table + constants.BANG + "_MM_SESSION_SPACE",
layer_name = layer_name,
offset = proc.Session)
if session_space.SessionId in seen_ids:
continue
except exceptions.InvalidAddressException:
vollog.log(
constants.LOGLEVEL_VVV,
"Process {} does not have a valid Session or a layer could not be constructed for it".format(
proc_id))
continue
# save the layer if we haven't seen the session yet
seen_ids.append(session_space.SessionId)
yield proc_layer_name
[docs] @classmethod
def find_session_layer(cls, context: interfaces.context.ContextInterface, session_layers: Iterable[str],
base_address: int):
"""Given a base address and a list of layer names, find a layer that
can access the specified address.
Args:
context: The context to retrieve required elements (layers, symbol tables) from
layer_name: The name of the layer on which to operate
symbol_table: The name of the table containing the kernel symbols
session_layers: A list of session layer names
base_address: The base address to identify the layers that can access it
Returns:
Layer name or None if no layers that contain the base address can be found
"""
for layer_name in session_layers:
if context.layers[layer_name].is_valid(base_address):
return layer_name
return None
[docs] @classmethod
def list_modules(cls, context: interfaces.context.ContextInterface, layer_name: str,
symbol_table: str) -> Iterable[interfaces.objects.ObjectInterface]:
"""Lists all the modules in the primary layer.
Args:
context: The context to retrieve required elements (layers, symbol tables) from
layer_name: The name of the layer on which to operate
symbol_table: The name of the table containing the kernel symbols
Returns:
A list of Modules as retrieved from PsLoadedModuleList
"""
kvo = context.layers[layer_name].config['kernel_virtual_offset']
ntkrnlmp = context.module(symbol_table, layer_name = layer_name, offset = kvo)
try:
# use this type if its available (starting with windows 10)
ldr_entry_type = ntkrnlmp.get_type("_KLDR_DATA_TABLE_ENTRY")
except exceptions.SymbolError:
ldr_entry_type = ntkrnlmp.get_type("_LDR_DATA_TABLE_ENTRY")
type_name = ldr_entry_type.type_name.split(constants.BANG)[1]
list_head = ntkrnlmp.get_symbol("PsLoadedModuleList").address
list_entry = ntkrnlmp.object(object_type = "_LIST_ENTRY", offset = list_head)
reloff = ldr_entry_type.relative_child_offset("InLoadOrderLinks")
module = ntkrnlmp.object(object_type = type_name, offset = list_entry.vol.offset - reloff, absolute = True)
for mod in module.InLoadOrderLinks:
yield mod
[docs] def run(self):
return renderers.TreeGrid([("Offset", format_hints.Hex), ("Base", format_hints.Hex), ("Size", format_hints.Hex),
("Name", str), ("Path", str), ("File output", str)], self._generator())