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efiutils.py
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efiutils.py
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"""
efiutils.py
Some utility functions to aid with the reverse engineering of EFI executables.
See the following URL for more info and the latest version:
https://github.com/snarez/ida-efiutils
"""
import re
import struct
from idaapi import *
from idautils import *
from idc import *
import efiguids
MAX_STACK_DEPTH = 1
IMAGE_HANDLE_NAME = 'gImageHandle'
SYSTEM_TABLE_NAME = 'gSystemTable'
SYSTEM_TABLE_STRUCT = 'EFI_SYSTEM_TABLE'
BOOT_SERVICES_NAME = 'gBootServices'
BOOT_SERVICES_STRUCT = 'EFI_BOOT_SERVICES'
RUNTIME_SERVICES_NAME = 'gRuntimeServices'
RUNTIME_SERVICES_STRUCT = 'EFI_RUNTIME_SERVICES'
local_guids = { }
class GUID:
Data1 = None
Data2 = None
Data3 = None
Data4 = None
def __init__(self, default=None, bytes=None, string=None, array=None):
if isinstance(default, basestring):
string = default
elif isinstance(default, list):
array = default
if bytes != None:
(self.Data1, self.Data2, self.Data3, d40, d41, d42, d43, d44, d45, d46, d47) = \
struct.unpack("<IHH8B", bytes)
self.Data4 = [d40, d41, d42, d43, d44, d45, d46, d47]
self.bytes = bytes
elif string != None:
s = string.split('-')
self.Data1 = int(s[0], 16)
self.Data2 = int(s[1], 16)
self.Data3 = int(s[2], 16)
self.Data4 = struct.unpack('BBBBBBBB', struct.pack('>Q', int(''.join(s[3:]), 16)))
elif array != None:
(self.Data1, self.Data2, self.Data3, self.Data4) = (array[0], array[1], array[2], array[3:])
def __str__(self):
return "%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x" % tuple(self.array())
def bytes(self):
return self.bytes
def string(self):
return str(self)
def array(self):
d = self.Data4
return [self.Data1, self.Data2, self.Data3, d[0], d[1], d[2], d[3], d[4], d[5], d[6], d[7]]
def go():
rename_tables()
update_structs()
rename_guids()
def rename_tables():
"""
Look at the entry point function and find where the SystemTable parameter is stored, along with the
RuntimeServices and BootServices tables. Rename the globals these are stored in.
The entry point for an EFI executable is called like this:
EFI_STATUS EFIAPI UefiMain(IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE * SystemTable)
ImageHandle is passed in rcx, SystemTable is passed in rdx.
"""
regs = {}
regs['im'] = ['rcx']
regs['st'] = ['rdx']
regs['bs'] = []
regs['rs'] = []
entry = GetEntryOrdinal(0)
rename_tables_internal(entry, regs)
def rename_tables_internal(function, regs, stackdepth=0):
names = {'im': IMAGE_HANDLE_NAME, 'st': SYSTEM_TABLE_NAME, 'bs': BOOT_SERVICES_NAME, 'rs': RUNTIME_SERVICES_NAME}
print "Processing function at 0x%x" % function
for item in FuncItems(function):
#print "regs = " + str(regs)
# Bail out if we hit a call
if GetMnem(item) == "call":
if stackdepth == MAX_STACK_DEPTH:
print " - Hit stack depth limit, bailing!"
return
else:
if GetOpType(item, 0) in [o_imm, o_far, o_near]:
rename_tables_internal(LocByName(GetOpnd(item, 0)), regs, stackdepth+1)
else:
print " - Can't follow call, bailing!"
return
if GetMnem(item) in ["mov", "lea"]:
# Rename data
for key in names:
if GetOpnd(item, 1) in regs[key] and GetOpType(item, 0) == o_mem:
print " - Found a copy to a memory address for %s, updating: %s" % (names[key], GetDisasm(item))
MakeName(LocByName(GetOpnd(item, 0).split(":")[-1]), names[key])
break
# Eliminate overwritten registers
for key in names:
if GetOpnd(item, 0) in regs[key] and GetOpnd(item, 1) not in regs[key]:
print " - Untracking register %s for %s: %s" % (GetOpnd(item, 0), names[key], GetDisasm(item))
regs[key].remove(GetOpnd(item, 0))
# Keep track of registers containing the EFI tables etc
if GetOpnd(item, 1) in regs['im'] and GetOpType(item, 0) == o_reg and GetOpnd(item, 0) not in regs['im']:
# A tracked register was copied to a new register, track the new one
print " - Tracking register %s for image handle: %s" % (GetOpnd(item, 0), GetDisasm(item))
regs['im'].append(GetOpnd(item, 0))
if GetOpnd(item, 1) in regs['st'] and GetOpType(item, 0) == o_reg and GetOpnd(item, 0) not in regs['st']:
# A tracked register was copied to a new register, track the new one
print " - Tracking register %s for system table: %s" % (GetOpnd(item, 0), GetDisasm(item))
regs['st'].append(GetOpnd(item, 0))
if GetOpType(item, 1) == o_displ and reg_from_displ(GetOpnd(item, 1)) in regs['st']:
# A tracked register was used in a right operand with a displacement
offset = GetOperandValue(item, 1)
if offset == 0x60:
print " - Tracking register %s for boot services table: %s" % (GetOpnd(item, 0), GetDisasm(item))
regs['bs'].append(GetOpnd(item, 0))
elif offset == 0x58:
print " - Tracking register %s for runtime services table: %s" % (GetOpnd(item, 0), GetDisasm(item))
regs['rs'].append(GetOpnd(item, 0))
OpStroffEx(item, 1, GetStrucIdByName(SYSTEM_TABLE_STRUCT), 0)
def update_structs():
"""Update xrefs to the major EFI tables to be struct offsets."""
structs = {SYSTEM_TABLE_NAME: SYSTEM_TABLE_STRUCT, BOOT_SERVICES_NAME: BOOT_SERVICES_STRUCT,
RUNTIME_SERVICES_NAME: RUNTIME_SERVICES_STRUCT}
for key in structs:
addr = LocByName(key);
if addr == BADADDR:
print "Couldn't find address for " + key
else:
print "Updating structure references for %s (%s)" % (key, structs[key])
update_struct_offsets(addr, structs[key])
def update_struct_offsets(data_addr, struct_name):
"""
Find xrefs to a struct pointer and change all the offsets to be struct offsets. This is useful for updating
references to function pointers in EFI tables.
For example:
mov rax, cs:qword_whatever
call qword ptr [rax+150h]
Becomes:
mov rax, cs:gBootServices
call [rax+EFI_BOOT_SERVICES.UninstallMultipleProtocolInterfaces]
Parameters:
addr - The address of the struct pointer global
struct_name - The name of the structure to use for offsets
"""
# Find all xrefs to this data in the code
xrefs = list(DataRefsTo(data_addr))
print "Found %d xrefs" % len(xrefs)
# Process xrefs
for xref in xrefs:
# We're only interested in xrefs in code where the left operand is a register, and the right operand is the
# memory address of our data structure.
if GetOpType(xref, 0) == o_reg and GetOpType(xref, 1) == o_mem and GetOperandValue(xref, 1) == struct_name:
print "Processing xref from 0x%x: %s" % (xref, GetDisasm(xref))
update_struct_offsets_for_xref(xref, struct_name)
else:
print "Too hard basket - xref from 0x%x: %s" % (xref, GetDisasm(xref))
def update_struct_offsets_for_xref(xref, struct_name):
regs = {}
regs['hndl'] = []
regs['ptr'] = []
# Are we looking at a handle or a pointer?
if GetMnem(xref) == "mov":
regs['ptr'].append(GetOpnd(xref, 0))
print " - Tracking pointer register %s at 0x%x: %s" % (regs['ptr'][0], xref, GetDisasm(xref))
elif GetMnem(xref) == "lea":
regs['hndl'].append(GetOpnd(xref, 0))
print " - Tracking handle register %s at 0x%x: %s" % (regs['hndl'][0], xref, GetDisasm(xref))
# Get the rest of the instructions in this function
items = list(FuncItems(xref))
if len(items):
idx = items.index(xref)+1
items = items[idx:]
else:
print " - Xref at 0x%x wasn't marked as a function" % xref
cur = next_head(xref, idaapi.cvar.inf.maxEA)
while True:
if cur not in items:
items.append(cur)
print "adding 0x%x: %s" % (cur, GetDisasm(cur))
if GetMnem(cur) in ['call', 'jmp', 'retn']:
break
cur = next_head(cur, idaapi.cvar.inf.maxEA)
# Iterate through the rest of the instructions in this function looking for tracked registers with a displacement
for item in items:
regs['nhndl'] = []
regs['nptr'] = []
# Update any call instruction with a displacement from our register
for op in range(0, 2):
if GetOpType(item, op) == o_displ and reg_from_displ(GetOpnd(item, op)) in regs['ptr']:
print " - Updating operand %d in instruction at 0x%x: %s" % (op, item, GetDisasm(item))
OpStroffEx(item, op, GetStrucIdByName(struct_name), 0)
# If we find a mov instruction that copies a tracked register, track the new register
if GetMnem(item) == 'mov':
if GetOpnd(item, 1) in regs['ptr'] and GetOpnd(item, 0) not in regs['ptr']:
print " - Copied tracked register at 0x%x, tracking register %s" % (item, GetOpnd(item, 0))
regs['ptr'].append(GetOpnd(item, 0))
regs['nptr'].append(GetOpnd(item, 0))
if GetOpnd(item, 1) in regs['hndl'] and GetOpnd(item, 0) not in regs['hndl']:
print " - Copied tracked register at 0x%x, tracking register %s" % (item, GetOpnd(item, 0))
regs['hndl'].append(GetOpnd(item, 0))
regs['nhndl'].append(GetOpnd(item, 0))
# If we find a mov instruction that dereferences a handle, track the destination register
for reg in regs['hndl']:
if GetOpnd(item, 1) == "[%s]" % reg and GetMnem(item) == 'mov' and GetOpnd(item, 0) not in regs['ptr']:
print " - Found a dereference at 0x%x, tracking register %s" % (item, GetOpnd(item, 0))
regs['ptr'].append(GetOpnd(item, 0))
regs['nptr'].append(GetOpnd(item, 0))
# If we've found an instruction that overwrites a tracked register, stop tracking it
if GetMnem(item) in ["mov", "lea"] and GetOpType(item, 0) == o_reg:
if GetOpnd(item, 0) in regs['ptr'] and GetOpnd(item, 0) not in regs['nptr']:
print " - Untracking pointer register %s: " % GetOpnd(item, 0) + GetDisasm(item)
regs['ptr'].remove(GetOpnd(item, 0))
elif GetOpnd(item, 0) in regs['hndl'] and GetOpnd(item, 0) not in regs['nhndl']:
print " - Untracking handle register %s: " % GetOpnd(item, 0) + GetDisasm(item)
regs['hndl'].remove(GetOpnd(item, 0))
# If we hit a call, just bail
if GetMnem(item) == "call":
break
# If we're not tracking any registers, bail
if len(regs['ptr']) == 0 and len(regs['hndl']) == 0:
break
def rename_guids():
# Load GUIDs
guids = dict((str(GUID(array=v)),k) for k, v in efiguids.GUIDs.iteritems())
guids.update(dict((v,k) for k, v in local_guids.iteritems()))
# Find all the data segments in this binary
for seg in Segments():
if isData(GetFlags(seg)):
print "Processing data segment at 0x%x" % seg
# Find any GUIDs we know about in the data segment
addr = seg
seg_end = SegEnd(seg)
while addr < seg_end:
d = [Dword(addr), Dword(addr+0x4), Dword(addr+0x8), Dword(addr+0xC)]
if (d[0] == 0 and d[1] == 0 and d[2] == 0 and d[3] == 0) or \
(d[0] == 0xFFFFFFFF and d[1] == 0xFFFFFFFF and d[2] == 0xFFFFFFFF and d[3] == 0xFFFFFFFF):
pass
else:
guid = GUID(bytes=struct.pack("<LLLL", d[0], d[1], d[2], d[3]))
#print "Checking GUID %s at 0x%x" % (str(guid), addr)
gstr = str(guid)
if gstr in guids.keys():
print " - Found GUID %s (%s) at 0x%x" % (gstr, guids[gstr], addr)
MakeName(addr, underscore_to_global(guids[gstr]))
addr += 0x08
else:
print "Skipping non-data segment at 0x%x" % seg
def update_protocols():
pass
def update_protocol(guid_addr, protocol):
pass
# # Find xrefs to this GUID
# xrefs = list(DataRefsTo(guid_addr))
# print "Found %d xrefs to GUID %s" % (len(xrefs), str(guid_at_addr(guid_addr)))
# # Process xrefs
# for xref in xrefs:
# # We're only interested in xrefs in code where the left operand is a register, and the right operand is the
# # memory address of our GUID.
# if GetOpType(xref, 0) == o_reg and GetOpType(xref, 1) == o_mem and GetOperandValue(xref, 1) == struct_name:
# print "Processing xref from 0x%x: %s" % (xref, GetDisasm(xref))
# update_struct_offsets_for_xref(xref, struct_name)
# else:
# print "Too hard basket - xref from 0x%x: %s" % (xref, GetDisasm(xref))
def find_struct_refs():
isStroff(GetFlags(here()), 0)
def guid_at_addr(guid_addr):
return GUID(bytes=struct.pack("<LLLL", Dword(guid_addr), Dword(guid_addr + 0x4), Dword(guid_addr + 0x8), Dword(guid_addr + 0xC)))
def reg_from_displ(displ):
"""
Return the register to which a displacement is relative.
e.g. qword ptr [rbx+8] -> rbx
"""
m = re.match(r'.*\[(.*)[\+\-]', displ)
return m.group(1)
def underscore_to_global(name):
return 'g'+''.join(list(s.capitalize() for s in name.lower().split('_')))