require 'msf/core' module Msf ### # # This class drives the exploitation process from start to finish for a given # exploit module instance. It's responsible for payload generation, encoding, # and padding as well as initialization handlers and finally launching the # exploit. # ### class ExploitDriver # # Initializes the exploit driver using the supplied framework instance. # def initialize(framework) self.payload = nil self.exploit = nil self.use_job = false self.job_id = nil self.force_wait_for_session = false end # # Specification of the exploit target index. # def target_idx=(target_idx) if (target_idx) # Make sure the target index is valid if (target_idx >= exploit.targets.length) raise Rex::ArgumentError, "Invalid target index.", caller end end # Set the active target @target_idx = target_idx end # # This method returns the currently selected target index. # def target_idx @target_idx end # # Checks to see if the supplied payload is compatible with the # current exploit. Assumes that target_idx is valid. # def compatible_payload?(payload) # Try to use the target's platform in preference of the exploit's exp_platform = exploit.targets[target_idx].platform || exploit.platform return ((payload.platform & exp_platform).empty? == false) end ## # # Exploit execution # ## # # Makes sure everything's in tip-top condition prior to launching the # exploit. For things that aren't good to go, an exception is thrown. # def validate # First, validate that a target has been selected if (target_idx == nil) raise MissingTargetError, "A payload cannot be selected until a target is specified.", caller end # Next, validate that a payload has been selected if (payload == nil) raise MissingPayloadError, "A payload has not been selected.", caller end # Make sure the payload is compatible after all if (compatible_payload?(payload) == false) raise IncompatiblePayloadError.new(payload.refname), "Incompatible payload", caller end # Associate the payload instance with the exploit payload.assoc_exploit = exploit # Finally, validate options on the exploit module to ensure that things # are ready to operate as they should. exploit.options.validate(exploit.datastore) # Validate the payload's options. The payload's datastore is # most likely shared against the exploit's datastore, but in case it # isn't. payload.options.validate(payload.datastore) return true end # # Kicks off an exploitation attempt and performs the following four major # operations: # # - Generates the payload # - Initializes & monitors the handler # - Launches the exploit # - Cleans up the handler # def run # Set up the run context ctx = [ exploit, payload ] # First thing's first -- validate the state. Make sure all requirement # parameters are set, including those that are derived from the # datastore. validate() # After validation has occurred, it's time to set some values on the # exploit instance and begin preparing the payload exploit.datastore['TARGET'] = target_idx # Generate the encoded version of the supplied payload on the exploit # module instance exploit.generate_payload(payload) # Default the session to nil self.session = nil # If we are being instructed to run as a job then let's create that job # like a good person. if (use_job or exploit.stance == Msf::Exploit::Stance::Passive) self.job_id = exploit.framework.jobs.start_bg_job( "Exploit: #{exploit.refname}", ctx, Proc.new { |ctx_| job_run_proc(ctx_) }, Proc.new { |ctx_| job_cleanup_proc(ctx_) } ) else job_run_proc(ctx) job_cleanup_proc(ctx) end return session end attr_accessor :exploit # :nodoc: attr_accessor :payload # :nodoc: attr_accessor :use_job # :nodoc: # # The identifier of the job this exploit is launched as, if it's run as a # job. # attr_accessor :job_id attr_accessor :force_wait_for_session # :nodoc: protected attr_accessor :session # :nodoc: # # Job run proc, sets up the exploit and kicks it off. # def job_run_proc(ctx) begin exploit, payload = ctx # Set the exploit up the bomb exploit.setup exploit.framework.events.on_module_run(exploit) # Launch the exploit exploit.exploit # Wait the payload to acquire a session if this isn't a passive-style # exploit. if (exploit.passive? == false or force_wait_for_session == true) self.session = payload.wait_for_session( (exploit.passive? == true) ? nil : payload.wfs_delay + exploit.wfs_delay) end rescue ::Exception exploit.framework.events.on_module_error(exploit, $!) exploit.print_error("Exploit failed: #{$!}") exploit.error = $! elog("Exploit failed (#{exploit.refname}): #{$!}", 'core', LEV_0) dlog("Call stack:\n#{$@.join("\n")}", 'core', LEV_3) payload.stop_handler exploit.cleanup return end end # # Clean up the exploit and the handler after the job completes. # def job_cleanup_proc(ctx) exploit, payload = ctx # Ensure that, no matter what, clean up of the handler occurs payload.stop_handler exploit.framework.events.on_module_complete(exploit) # Allow the exploit to cleanup after itself, that messy bugger. exploit.cleanup end end end