metasploit-framework/lib/rex/parser/fs/ntfs.rb

258 lines
10 KiB
Ruby

# -*- coding: binary -*-
module Rex
module Parser
###
#
# This class parses the contents of an NTFS partition file.
# Author : Danil Bazin <danil.bazin[at]hsc.fr> @danilbaz
#
###
class NTFS
#
# Initialize the NTFS class with an already open file handler
#
DATA_ATTRIBUTE_ID = 128
INDEX_ROOT_ID = 144
INDEX_ALLOCATION_ID = 160
def initialize(file_handler)
@file_handler = file_handler
data = @file_handler.read(4096)
# Boot sector reading
@bytes_per_sector = data[11, 2].unpack('v')[0]
@sector_per_cluster = data[13].unpack('C')[0]
@cluster_per_mft_record = data[64].unpack('c')[0]
if @cluster_per_mft_record < 0
@bytes_per_mft_record = 2**(-@cluster_per_mft_record)
@cluster_per_mft_record = @bytes_per_mft_record.to_f / @bytes_per_sector / @sector_per_cluster
else
@bytes_per_mft_record = @bytes_per_sector * @sector_per_cluster * @cluster_per_mft_record
end
@bytes_per_cluster = @sector_per_cluster * @bytes_per_sector
@mft_logical_cluster_number = data[48, 8].unpack('Q<')[0]
@mft_offset = @mft_logical_cluster_number * @sector_per_cluster * @bytes_per_sector
@file_handler.seek(@mft_offset)
@mft = @file_handler.read(@bytes_per_mft_record)
end
#
# Gather the MFT entry corresponding to his number
#
def mft_record_from_mft_num(mft_num)
mft_num_offset = mft_num * @cluster_per_mft_record
mft_data_attribute = mft_record_attribute(@mft)[DATA_ATTRIBUTE_ID]['data']
cluster_from_attribute_non_resident(mft_data_attribute, mft_num_offset, @bytes_per_mft_record)
end
#
# Get the size of the file in the $FILENAME (64) attribute
#
def real_size_from_filenameattribute(attribute)
filename_attribute = attribute
filename_attribute[48, 8].unpack('Q<')[0]
end
#
# Gather the name of the file from the $FILENAME (64) attribute
#
def filename_from_filenameattribute(attribute)
filename_attribute = attribute
length_of_name = filename_attribute[64].ord
# uft16 *2
d = ::Encoding::Converter.new('UTF-16LE', 'UTF-8')
d.convert(filename_attribute[66, (length_of_name * 2)])
end
#
# Get the file from the MFT number
# The size must be gived because the $FILENAME attribute
# in the MFT entry does not contain it
# The file is in $DATA (128) Attribute
#
def file_content_from_mft_num(mft_num, size)
mft_record = mft_record_from_mft_num(mft_num)
attribute_list = mft_record_attribute(mft_record)
if attribute_list[DATA_ATTRIBUTE_ID]['resident']
return attribute_list[DATA_ATTRIBUTE_ID]['data']
else
data_attribute = attribute_list[DATA_ATTRIBUTE_ID]['data']
return cluster_from_attribute_non_resident(data_attribute)[0, size]
end
end
#
# parse one index record and return the name, MFT number and size of the file
#
def parse_index(index_entry)
res = {}
filename_size = index_entry[10, 2].unpack('v')[0]
filename_attribute = index_entry[16, filename_size]
# Should be 8 bytes but it doesn't work
# mft_offset = index_entry[0.unpack('Q<',:8])[0]
# work with 4 bytes
mft_offset = index_entry[0, 4].unpack('V')[0]
res[filename_from_filenameattribute(filename_attribute)] = {
'mft_offset' => mft_offset,
'file_size' => real_size_from_filenameattribute(filename_attribute) }
res
end
#
# parse index_record in $INDEX_ROOT and recursively index_record in
# INDEX_ALLOCATION
#
def parse_index_list(index_record, index_allocation_attribute)
offset_index_entry_list = index_record[0, 4].unpack('V')[0]
index_size = index_record[offset_index_entry_list + 8, 2].unpack('v')[0]
index_size_in_bytes = index_size * @bytes_per_cluster
index_entry = index_record[offset_index_entry_list, index_size]
res = {}
while index_entry[12, 4].unpack('V')[0] & 2 != 2
res.update(parse_index(index_entry))
# if son
if index_entry[12, 4].unpack('V')[0] & 1 == 1
# should be 8 bytes length
vcn = index_entry[-8, 4].unpack('V')[0]
vcn_in_bytes = vcn * @bytes_per_cluster
res_son = parse_index_list(index_allocation_attribute[vcn_in_bytes + 24, index_size_in_bytes], index_allocation_attribute)
res.update(res_son)
end
offset_index_entry_list += index_size
index_size = index_record[offset_index_entry_list + 8, 2].unpack('v')[0]
index_size_in_bytes = index_size * @bytes_per_cluster
index_entry = index_record [offset_index_entry_list, index_size]
end
# if son on the last
if index_entry[12, 4].unpack('V')[0] & 1 == 1
# should be 8 bytes length
vcn = index_entry[-8, 4].unpack('V')[0]
vcn_in_bytes = vcn * @bytes_per_cluster
res_son = parse_index_list(index_allocation_attribute[vcn_in_bytes + 24, index_size_in_bytes], index_allocation_attribute)
res.update(res_son)
end
res
end
#
# return the list of files in attribute directory and their MFT number and size
#
def index_list_from_attributes(attributes)
index_root_attribute = attributes[INDEX_ROOT_ID]
index_record = index_root_attribute[16, index_root_attribute.length - 16]
if attributes.key?(INDEX_ALLOCATION_ID)
return parse_index_list(index_record, attributes[INDEX_ALLOCATION_ID])
else
return parse_index_list(index_record, '')
end
end
def cluster_from_attribute_non_resident(attribute, cluster_num = 0, size_max = ((2**31) - 1))
lowvcn = attribute[16, 8].unpack('Q<')[0]
highvcn = attribute[24, 8].unpack('Q<')[0]
offset = attribute[32, 2].unpack('v')[0]
real_size = attribute[48, 8].unpack('Q<')[0]
attribut = ''
run_list_num = lowvcn
old_offset = 0
while run_list_num <= highvcn
first_runlist_byte = attribute[offset].ord
run_offset_size = first_runlist_byte >> 4
run_length_size = first_runlist_byte & 15
run_length = attribute[offset + 1, run_length_size]
run_length += "\x00" * (8 - run_length_size)
run_length = run_length.unpack('Q<')[0]
offset_run_offset = offset + 1 + run_length_size
run_offset = attribute[offset_run_offset, run_offset_size]
if run_offset[-1].ord & 128 == 128
run_offset += "\xFF" * (8 - run_offset_size)
else
run_offset += "\x00" * (8 - run_offset_size)
end
run_offset = run_offset.unpack('q<')[0]
#offset relative to previous offset
run_offset += old_offset
size_wanted = [run_length * @bytes_per_cluster, size_max - attribut.length].min
if cluster_num + (size_max / @bytes_per_cluster) >= run_list_num && (cluster_num < run_length + run_list_num)
run_list_offset_in_cluster = run_offset + [cluster_num - run_list_num, 0].max
run_list_offset = (run_list_offset_in_cluster) * @bytes_per_cluster
run_list_offset = run_list_offset.to_i
@file_handler.seek(run_list_offset)
data = ''
while data.length < size_wanted
# Use a 4Mb block size to avoid target memory consumption
data << @file_handler.read([size_wanted - data.length, 2**22].min)
end
attribut << data
end
offset += run_offset_size + run_length_size + 1
run_list_num += run_length
old_offset = run_offset
end
attribut = attribut[0, real_size]
attribut
end
#
# return the attribute list from the MFT record
# deal with resident and non resident attributes (but not $DATA due to performance issue)
# if lazy = True, this function only gather essential non resident attributes
# (INDEX_ALLOCATION). Non resident attributes can still be gathered later with
# cluster_from_attribute_non_resident function.
#
def mft_record_attribute(mft_record, lazy=true)
attribute_list_offset = mft_record[20, 2].unpack('C')[0]
curs = attribute_list_offset
attribute_identifier = mft_record[curs, 4].unpack('V')[0]
res = {}
while attribute_identifier != 0xFFFFFFFF
# attribute_size=mft_record[curs + 4, 4].unpack('V')[0]
# should be on 4 bytes but doesnt work
attribute_size = mft_record[curs + 4, 2].unpack('v')[0]
# resident
if mft_record[curs + 8] == "\x00"
content_size = mft_record[curs + 16, 4].unpack('V')[0]
content_offset = mft_record[curs + 20, 2].unpack('v')[0]
res[attribute_identifier] = mft_record[curs + content_offset, content_size]
else
# non resident
if attribute_identifier == INDEX_ALLOCATION_ID or
(!lazy and attribute_identifier != DATA_ATTRIBUTE_ID)
res[attribute_identifier] = cluster_from_attribute_non_resident(mft_record[curs, attribute_size])
else
res[attribute_identifier] = mft_record[curs, attribute_size]
end
end
if attribute_identifier == DATA_ATTRIBUTE_ID
res[attribute_identifier] = {
'data' => res[attribute_identifier],
'resident' => mft_record[curs + 8] == "\x00" }
end
curs += attribute_size
attribute_identifier = mft_record[curs, 4].unpack('V')[0]
end
res
end
#
# return the file path in the NTFS partition
#
def file(path)
repertory = mft_record_from_mft_num(5)
index_entry = {}
path.split('\\').each do |r|
attributes = mft_record_attribute(repertory)
index = index_list_from_attributes(attributes)
unless index.key?(r)
fail ArgumentError, 'File path does not exist', caller
end
index_entry = index[r]
repertory = mft_record_from_mft_num(index_entry['mft_offset'])
end
file_content_from_mft_num(index_entry['mft_offset'], index_entry['file_size'])
end
end
end
end