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find-ppr.py
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find-ppr.py
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import pykd
import argparse
from enum import Enum, auto
def hex_byte(byte_str):
"""validate user input is a hex representation of an int between 0 and 255 inclusive"""
if byte_str == "??":
# windbg shows ?? when it can't access a memory region, but we shouldn't stop execution because of it
return byte_str
try:
val = int(byte_str, 16)
if 0 <= val <= 255:
return val
else:
raise ValueError
except ValueError:
raise argparse.ArgumentTypeError(
f"only *hex* bytes between 00 and ff are valid, found {byte_str}"
)
class Module:
# 00400000 00465000 diskpls (deferred)
def __init__(self, unparsed):
self.name = "unknown"
self.start = -1
self.end = -1
self.unparsed = unparsed.split()
self.parse()
def parse(self):
if len(self.unparsed) >= 3:
self.start = self.unparsed[0]
self.end = self.unparsed[1]
self.name = self.unparsed[2]
def __str__(self):
return f"{self.name}(start={self.start}, end={self.end})"
class PopR32(Enum):
eax = 0x58
ecx = auto()
edx = auto()
ebx = auto()
esp = auto()
esi = auto()
edi = auto()
def checkBadChars(bAddr, badChars):
for i in bAddr:
if i in badChars:
return "--"
return "OK"
def main(args):
modules = pykd.dbgCommand("lm")
totalGadgets = 0 # This tracks all the total number of usable gadgets
modGadgetCount = {} # This tracks the number of gadgets per module
for mod_line in modules.splitlines():
module = Module(mod_line)
if module.name.lower() not in [mod.lower() for mod in args.modules]:
continue
numGadgets = 0 # This is the number of gadgets found in this module
print(f"[+] searching {module.name} for pop r32; pop r32; ret")
print("[+] BADCHARS: ", end="")
for i in args.bad:
print("\\x{:02X}".format(i), end="")
print()
for pop1 in range(0x58, 0x60):
for pop2 in range(0x58, 0x60):
command = (
f"s-[1]b {module.start} {module.end} {hex(pop1)} {hex(pop2)} c3"
)
result = pykd.dbgCommand(command)
if result is None:
continue
for addr in result.splitlines():
try:
bAddr = int(addr, 16).to_bytes(4, "little")
bcChk = checkBadChars(bAddr, args.bad)
bAddrEsc = "" # This is the escaped string containing the little endian addr for shellcode output
for b in bAddr:
bAddrEsc += "\\x{:02X}".format(b)
if args.showbc and bcChk == "--":
print(
f"[{bcChk}] {module.name}::{addr}: pop {PopR32(pop1).name}; pop {PopR32(pop2).name}; ret ; {bAddrEsc}"
)
elif bcChk == "OK":
print(
f"[{bcChk}] {module.name}::{addr}: pop {PopR32(pop1).name}; pop {PopR32(pop2).name}; ret ; {bAddrEsc}"
)
numGadgets = numGadgets + 1
except ValueError:
# not a valid pop r32
pass
print(f"[+] {module.name}: Found {numGadgets} usable gadgets!")
modGadgetCount[module.name] = numGadgets # Add to the dict
totalGadgets = (
totalGadgets + numGadgets
) # Increment total number of gadgets found
print("\n---- STATS ----") # Print out all the stats
print(">> BADCHARS: ", end="")
for i in args.bad:
print("\\x{:02X}".format(i), end="")
print()
print(f">> Usable Gadgets Found: {totalGadgets}")
print(">> Module Gadget Counts")
for m, c in modGadgetCount.items():
print(" - {}: {} ".format(m, c))
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument(
"-s",
"--showbc",
help="Show addresses with bad chars",
action="store_true"
)
parser.add_argument(
"-b",
"--bad",
help="space separated list of hex bytes that are already known bad (ex: -b 00 0a 0d)",
nargs="+",
type=hex_byte,
default=[],
)
parser.add_argument(
"-m",
"--modules",
help="module name(s) to search for pop pop ret (ex: find-ppr.py libspp diskpls libpal)",
required=True,
nargs="+",
)
args = parser.parse_args()
main(args)
print("Done!")