# 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 collections.abc
import logging
from typing import Generator, Iterable, Iterator, Optional, Tuple
from volatility3.framework import constants
from volatility3.framework import exceptions, objects, interfaces, symbols
from volatility3.framework.layers import linear
from volatility3.framework.objects import utility
from volatility3.framework.symbols import generic, linux
from volatility3.framework.symbols import intermed
from volatility3.framework.symbols.linux.extensions import elf
vollog = logging.getLogger(__name__)
# Keep these in a basic module, to prevent import cycles when symbol providers require them
[docs]class module(generic.GenericIntelProcess):
[docs] def get_module_base(self):
if self.has_member("core_layout"):
return self.core_layout.base
else:
return self.module_core
[docs] def get_init_size(self):
if self.has_member("init_layout"):
return self.init_layout.size
elif self.has_member("init_size"):
return self.init_size
raise AttributeError("module -> get_init_size: Unable to determine .init section size of module")
[docs] def get_core_size(self):
if self.has_member("core_layout"):
return self.core_layout.size
elif self.has_member("core_size"):
return self.core_size
raise AttributeError("module -> get_core_size: Unable to determine core size of module")
[docs] def get_module_core(self):
if self.has_member("core_layout"):
return self.core_layout.base
elif self.has_member("module_core"):
return self.module_core
raise AttributeError("module -> get_module_core: Unable to get module core")
[docs] def get_module_init(self):
if self.has_member("init_layout"):
return self.init_layout.base
elif self.has_member("module_init"):
return self.module_init
raise AttributeError("module -> get_module_core: Unable to get module init")
[docs] def get_name(self):
""" Get the name of the module as a string """
return utility.array_to_string(self.name)
def _get_sect_count(self, grp):
""" Try to determine the number of valid sections """
arr = self._context.object(
self.get_symbol_table().name + constants.BANG + "array",
layer_name = self.vol.layer_name,
offset = grp.attrs,
subtype = self._context.symbol_space.get_type(self.get_symbol_table().name + constants.BANG + "pointer"),
count = 25)
idx = 0
while arr[idx]:
idx = idx + 1
return idx
[docs] def get_sections(self):
""" Get sections of the module """
if self.sect_attrs.has_member("nsections"):
num_sects = self.sect_attrs.nsections
else:
num_sects = self._get_sect_count(self.sect_attrs.grp)
arr = self._context.object(self.get_symbol_table().name + constants.BANG + "array",
layer_name = self.vol.layer_name,
offset = self.sect_attrs.attrs.vol.offset,
subtype = self._context.symbol_space.get_type(self.get_symbol_table().name +
constants.BANG + 'module_sect_attr'),
count = num_sects)
for attr in arr:
yield attr
[docs] def get_symbols(self):
if symbols.symbol_table_is_64bit(self._context, self.get_symbol_table().name):
prefix = "Elf64_"
else:
prefix = "Elf32_"
elf_table_name = intermed.IntermediateSymbolTable.create(self.context,
self.config_path,
"linux",
"elf",
native_types = None,
class_types = elf.class_types)
syms = self._context.object(
self.get_symbol_table().name + constants.BANG + "array",
layer_name = self.vol.layer_name,
offset = self.section_symtab,
subtype = self._context.symbol_space.get_type(elf_table_name + constants.BANG + prefix + "Sym"),
count = self.num_symtab + 1)
if self.section_strtab:
for sym in syms:
sym.set_cached_strtab(self.section_strtab)
yield sym
[docs] def get_symbol(self, wanted_sym_name):
""" Get value for a given symbol name """
for sym in self.get_symbols():
sym_name = sym.get_name()
sym_addr = sym.st_value
if wanted_sym_name == sym_name:
return sym_addr
@property
def section_symtab(self):
if self.has_member("kallsyms"):
return self.kallsyms.symtab
elif self.has_member("symtab"):
return self.symtab
raise AttributeError("module -> symtab: Unable to get symtab")
@property
def num_symtab(self):
if self.has_member("kallsyms"):
return int(self.kallsyms.num_symtab)
elif self.has_member("num_symtab"):
return int(self.num_symtab)
raise AttributeError("module -> num_symtab: Unable to determine number of symbols")
@property
def section_strtab(self):
# Newer kernels
if self.has_member("kallsyms"):
return self.kallsyms.strtab
# Older kernels
elif self.has_member("strtab"):
return self.strtab
raise AttributeError("module -> strtab: Unable to get strtab")
[docs]class task_struct(generic.GenericIntelProcess):
[docs] def add_process_layer(self, config_prefix: str = None, preferred_name: str = None) -> Optional[str]:
"""Constructs a new layer based on the process's DTB.
Returns the name of the Layer or None.
"""
parent_layer = self._context.layers[self.vol.layer_name]
try:
pgd = self.mm.pgd
except exceptions.InvalidAddressException:
return None
if not isinstance(parent_layer, linear.LinearlyMappedLayer):
raise TypeError("Parent layer is not a translation layer, unable to construct process layer")
dtb, layer_name = parent_layer.translate(pgd)
if not dtb:
return None
if preferred_name is None:
preferred_name = self.vol.layer_name + f"_Process{self.pid}"
# Add the constructed layer and return the name
return self._add_process_layer(self._context, dtb, config_prefix, preferred_name)
[docs] def get_process_memory_sections(self, heap_only: bool = False) -> Generator[Tuple[int, int], None, None]:
"""Returns a list of sections based on the memory manager's view of
this task's virtual memory."""
for vma in self.mm.get_mmap_iter():
start = int(vma.vm_start)
end = int(vma.vm_end)
if heap_only and not (start <= self.mm.brk and end >= self.mm.start_brk):
continue
else:
# FIXME: Check if this actually needs to be printed out or not
vollog.info(f"adding vma: {start:x} {self.mm.brk:x} | {end:x} {self.mm.start_brk:x}")
yield (start, end - start)
[docs]class fs_struct(objects.StructType):
[docs] def get_root_dentry(self):
# < 2.6.26
if self.has_member("rootmnt"):
return self.root
elif self.root.has_member("dentry"):
return self.root.dentry
raise AttributeError("Unable to find the root dentry")
[docs] def get_root_mnt(self):
# < 2.6.26
if self.has_member("rootmnt"):
return self.rootmnt
elif self.root.has_member("mnt"):
return self.root.mnt
raise AttributeError("Unable to find the root mount")
[docs]class mm_struct(objects.StructType):
[docs] def get_mmap_iter(self) -> Iterable[interfaces.objects.ObjectInterface]:
"""Returns an iterator for the mmap list member of an mm_struct."""
if not self.mmap:
return
yield self.mmap
seen = {self.mmap.vol.offset}
link = self.mmap.vm_next
while link != 0 and link.vol.offset not in seen:
yield link
seen.add(link.vol.offset)
link = link.vm_next
[docs]class super_block(objects.StructType):
# include/linux/kdev_t.h
MINORBITS = 20
@property
def major(self) -> int:
return self.s_dev >> self.MINORBITS
@property
def minor(self) -> int:
return self.s_dev & ((1 << self.MINORBITS) - 1)
[docs]class vm_area_struct(objects.StructType):
perm_flags = {
0x00000001: "r",
0x00000002: "w",
0x00000004: "x",
}
extended_flags = {
0x00000001: "VM_READ",
0x00000002: "VM_WRITE",
0x00000004: "VM_EXEC",
0x00000008: "VM_SHARED",
0x00000010: "VM_MAYREAD",
0x00000020: "VM_MAYWRITE",
0x00000040: "VM_MAYEXEC",
0x00000080: "VM_MAYSHARE",
0x00000100: "VM_GROWSDOWN",
0x00000200: "VM_NOHUGEPAGE",
0x00000400: "VM_PFNMAP",
0x00000800: "VM_DENYWRITE",
0x00001000: "VM_EXECUTABLE",
0x00002000: "VM_LOCKED",
0x00004000: "VM_IO",
0x00008000: "VM_SEQ_READ",
0x00010000: "VM_RAND_READ",
0x00020000: "VM_DONTCOPY",
0x00040000: "VM_DONTEXPAND",
0x00080000: "VM_RESERVED",
0x00100000: "VM_ACCOUNT",
0x00200000: "VM_NORESERVE",
0x00400000: "VM_HUGETLB",
0x00800000: "VM_NONLINEAR",
0x01000000: "VM_MAPPED_COP__VM_HUGEPAGE",
0x02000000: "VM_INSERTPAGE",
0x04000000: "VM_ALWAYSDUMP",
0x08000000: "VM_CAN_NONLINEAR",
0x10000000: "VM_MIXEDMAP",
0x20000000: "VM_SAO",
0x40000000: "VM_PFN_AT_MMAP",
0x80000000: "VM_MERGEABLE",
}
def _parse_flags(self, vm_flags, parse_flags) -> str:
"""Returns an string representation of the flags in a
vm_area_struct."""
retval = ""
for mask, char in parse_flags.items():
if (vm_flags & mask) == mask:
retval = retval + char
else:
retval = retval + '-'
return retval
# only parse the rwx bits
[docs] def get_protection(self) -> str:
return self._parse_flags(self.vm_flags & 0b1111, vm_area_struct.perm_flags)
# used by malfind
[docs] def get_flags(self) -> str:
return self._parse_flags(self.vm_flags, self.extended_flags)
[docs] def get_page_offset(self) -> int:
if self.vm_file == 0:
return 0
return self.vm_pgoff << constants.linux.PAGE_SHIFT
[docs] def get_name(self, context, task):
if self.vm_file != 0:
fname = linux.LinuxUtilities.path_for_file(context, task, self.vm_file)
elif self.vm_start <= task.mm.start_brk and self.vm_end >= task.mm.brk:
fname = "[heap]"
elif self.vm_start <= task.mm.start_stack and self.vm_end >= task.mm.start_stack:
fname = "[stack]"
elif self.vm_mm.context.has_member("vdso") and self.vm_start == self.vm_mm.context.vdso:
fname = "[vdso]"
else:
fname = "Anonymous Mapping"
return fname
# used by malfind
[docs] def is_suspicious(self):
ret = False
flags_str = self.get_protection()
if flags_str == "rwx":
ret = True
elif flags_str == "r-x" and self.vm_file.dereference().vol.offset == 0:
ret = True
return ret
[docs]class qstr(objects.StructType):
[docs] def name_as_str(self) -> str:
if self.has_member("len"):
str_length = self.len + 1 # Maximum length should include null terminator
else:
str_length = 255
try:
ret = objects.utility.pointer_to_string(self.name, str_length)
except (exceptions.InvalidAddressException, ValueError):
ret = ""
return ret
[docs]class dentry(objects.StructType):
[docs] def path(self) -> str:
return self.d_name.name_as_str()
[docs]class struct_file(objects.StructType):
[docs] def get_dentry(self) -> interfaces.objects.ObjectInterface:
if self.has_member("f_dentry"):
return self.f_dentry
elif self.has_member("f_path"):
return self.f_path.dentry
else:
raise AttributeError("Unable to find file -> dentry")
[docs] def get_vfsmnt(self) -> interfaces.objects.ObjectInterface:
if self.has_member("f_vfsmnt"):
return self.f_vfsmnt
elif self.has_member("f_path"):
return self.f_path.mnt
else:
raise AttributeError("Unable to find file -> vfs mount")
[docs]class list_head(objects.StructType, collections.abc.Iterable):
[docs] def to_list(self,
symbol_type: str,
member: str,
forward: bool = True,
sentinel: bool = True,
layer: Optional[str] = None) -> Iterator[interfaces.objects.ObjectInterface]:
"""Returns an iterator of the entries in the list.
Args:
symbol_type: Type of the list elements
member: Name of the list_head member in the list elements
forward: Set false to go backwards
sentinel: Whether self is a "sentinel node", meaning it is not embedded in a member of the list
Sentinel nodes are NOT yielded. See https://en.wikipedia.org/wiki/Sentinel_node for further reference
layer: Name of layer to read from
Yields:
Objects of the type specified via the "symbol_type" argument.
"""
layer = layer or self.vol.layer_name
relative_offset = self._context.symbol_space.get_type(symbol_type).relative_child_offset(member)
direction = 'prev'
if forward:
direction = 'next'
try:
link = getattr(self, direction).dereference()
except exceptions.InvalidAddressException:
return
if not sentinel:
yield self._context.object(symbol_type, layer, offset = self.vol.offset - relative_offset)
seen = {self.vol.offset}
while link.vol.offset not in seen:
obj = self._context.object(symbol_type, layer, offset = link.vol.offset - relative_offset)
yield obj
seen.add(link.vol.offset)
try:
link = getattr(link, direction).dereference()
except exceptions.InvalidAddressException:
break
def __iter__(self) -> Iterator[interfaces.objects.ObjectInterface]:
return self.to_list(self.vol.parent.vol.type_name, self.vol.member_name)
[docs]class files_struct(objects.StructType):
[docs] def get_fds(self) -> interfaces.objects.ObjectInterface:
if self.has_member("fdt"):
return self.fdt.fd.dereference()
elif self.has_member("fd"):
return self.fd.dereference()
else:
raise AttributeError("Unable to find files -> file descriptors")
[docs] def get_max_fds(self) -> interfaces.objects.ObjectInterface:
if self.has_member("fdt"):
return self.fdt.max_fds
elif self.has_member("max_fds"):
return self.max_fds
else:
raise AttributeError("Unable to find files -> maximum file descriptors")
[docs]class mount(objects.StructType):
[docs] def get_mnt_sb(self):
if self.has_member("mnt"):
return self.mnt.mnt_sb
elif self.has_member("mnt_sb"):
return self.mnt_sb
else:
raise AttributeError("Unable to find mount -> super block")
[docs] def get_mnt_root(self):
if self.has_member("mnt"):
return self.mnt.mnt_root
elif self.has_member("mnt_root"):
return self.mnt_root
else:
raise AttributeError("Unable to find mount -> mount root")
[docs] def get_mnt_flags(self):
if self.has_member("mnt"):
return self.mnt.mnt_flags
elif self.has_member("mnt_flags"):
return self.mnt_flags
else:
raise AttributeError("Unable to find mount -> mount flags")
[docs] def get_mnt_parent(self):
return self.mnt_parent
[docs] def get_mnt_mountpoint(self):
return self.mnt_mountpoint
[docs]class vfsmount(objects.StructType):
[docs] def is_valid(self):
return self.get_mnt_sb() != 0 and \
self.get_mnt_root() != 0 and \
self.get_mnt_parent() != 0
def _get_real_mnt(self):
table_name = self.vol.type_name.split(constants.BANG)[0]
mount_struct = f"{table_name}{constants.BANG}mount"
offset = self._context.symbol_space.get_type(mount_struct).relative_child_offset("mnt")
return self._context.object(mount_struct, self.vol.layer_name, offset = self.vol.offset - offset)
[docs] def get_mnt_parent(self):
if self.has_member("mnt_parent"):
return self.mnt_parent
else:
return self._get_real_mnt().mnt_parent
[docs] def get_mnt_mountpoint(self):
if self.has_member("mnt_mountpoint"):
return self.mnt_mountpoint
else:
return self._get_real_mnt().mnt_mountpoint
[docs] def get_mnt_root(self):
return self.mnt_root
[docs]class kobject(objects.StructType):
[docs] def reference_count(self):
refcnt = self.kref.refcount
if self.has_member("counter"):
ret = refcnt.counter
else:
ret = refcnt.refs.counter
return ret