# 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 datetime
from typing import Iterable
from volatility3.framework import renderers, exceptions, interfaces
from volatility3.framework.configuration import requirements
from volatility3.framework.renderers import format_hints
from volatility3.plugins import timeliner
from volatility3.plugins.windows import poolscanner
[docs]class SymlinkScan(interfaces.plugins.PluginInterface, timeliner.TimeLinerInterface):
"""Scans for links present in a particular windows memory image."""
_required_framework_version = (1, 0, 0)
[docs] @classmethod
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "nt_symbols", description = "Windows kernel symbols"),
]
[docs] @classmethod
def scan_symlinks(cls,
context: interfaces.context.ContextInterface,
layer_name: str,
symbol_table: str) -> \
Iterable[interfaces.objects.ObjectInterface]:
"""Scans for links using the poolscanner module and constraints.
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 symlink objects found by scanning memory for the Symlink pool signatures
"""
constraints = poolscanner.PoolScanner.builtin_constraints(symbol_table, [b'Sym\xe2', b'Symb'])
for result in poolscanner.PoolScanner.generate_pool_scan(context, layer_name, symbol_table, constraints):
_constraint, mem_object, _header = result
yield mem_object
def _generator(self):
for link in self.scan_symlinks(self.context, self.config['primary'], self.config['nt_symbols']):
try:
from_name = link.get_link_name()
except (ValueError, exceptions.InvalidAddressException):
continue
try:
to_name = link.LinkTarget.String
except exceptions.InvalidAddressException:
continue
yield (0, (format_hints.Hex(link.vol.offset), link.get_create_time(), from_name, to_name))
[docs] def generate_timeline(self):
for row in self._generator():
_depth, row_data = row
description = "Symlink: {} -> {}".format(row_data[2], row_data[3])
yield (description, timeliner.TimeLinerType.CREATED, row_data[1])
[docs] def run(self):
return renderers.TreeGrid([
("Offset", format_hints.Hex),
("CreateTime", datetime.datetime),
("From Name", str),
("To Name", str),
], self._generator())