85 lines
2.9 KiB
Python
85 lines
2.9 KiB
Python
#!/usr/bin/env python3
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import angr
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import claripy
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import os
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base_addr = 0x400000
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main_fun = base_addr + 0x0 #TODO
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binarypath = "" # TODO
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# Load the binary
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p = angr.Project(binarypath, auto_load_libs=False)
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# If you want debug output
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#import logging
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#logging.getLogger('angr').setLevel('DEBUG')
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class ConcretizationHandler(object):
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def __init__(self, dbg_addr=0xDEADAFFE0000):
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self.DEBUG_ADDR = dbg_addr
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def before_address_concretization(self, state):
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self.index_expr = state.inspect.address_concretization_expr
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state.inspect.address_concretization_expr = self.DEBUG_ADDR
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"""
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Angr API:
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"""
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def after_address_concretization(self, state):
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## TODO
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# Set self.DEBUG_ADDR to a value modeling the array access / mathematical operation that is actually performed
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# memory can be set via state.mem[addr].uint8_t = ..., state.mem[addr].uint16_t = ..., etc.
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# Do not add new path constraints
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state.inspect.address_concretization_add_constraints = False
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# Specify our DEBUG_ADDR as the target of the concretization
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state.inspect.address_concretization_result = [self.DEBUG_ADDR]
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proto = "int main()" # Example for main
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## Initialize call state with useful options
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# ZERO_FILL_UNCONSTRAINED_MEMORY: Memory that is used but not initialized is set to 0
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# ZERO_FILL_UNCONSTRAINED_REGISTERS: Registers that are used but are not initialized are set to 0, this prevents warnings whencallee-saved registers are pushed onto the stack
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# LAZY_SOLVES: This is somewhat of a magic "hack": Do not query the constrained solver unless really necessary. If you're trying to go through a specific code path, this can save tons of time! Experiment with and without it!
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state = p.factory.call_state(main_fun, prototype=proto,
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add_options=({angr.options.ZERO_FILL_UNCONSTRAINED_MEMORY,
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angr.options.ZERO_FILL_UNCONSTRAINED_REGISTERS,
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angr.options.LAZY_SOLVES}),
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)
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# Register concretization hooks
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conc_handler = ConcretizationHandler()
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state.inspect.b('address_concretization', when=angr.BP_BEFORE, action=conc_handler.before_address_concretization)
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state.inspect.b('address_concretization', when=angr.BP_AFTER, action=conc_handler.after_address_concretization)
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# Initialize a simulation manager with the state
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sm = p.factory.simulation_manager(state)
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# Perform explore
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print("Starting explore...")
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# Try to find a state that fulfills a certain condition via exploration
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# Useful: s.posix.dumps(1) to access stdout and s.posix.dumps(2) to access stderr
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# Note: find and avoid can also have single integers (addresses) or lists of integers
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sm.explore(find=lambda s: False, avoid=lambda s: False) # TODO
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# dump stdin and stdout of found states
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for s in sm.found:
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print(s.posix.dumps(1))
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print(s.posix.dumps(0).strip(b'\x00').decode())
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