2012-06-29 05:18:28 +00:00
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# -*- coding: binary -*-
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2011-04-30 18:51:50 +00:00
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require 'thread'
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2005-05-25 05:07:22 +00:00
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module Msf
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###
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#
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# The purpose of the session manager is to keep track of sessions that are
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# created during the course of a framework instance's lifetime. When
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# exploits succeed, the payloads they use will create a session object,
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# where applicable, there will implement zero or more of the core
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# supplied interfaces for interacting with that session. For instance,
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# if the payload supports reading and writing from an executed process,
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# the session would implement SimpleCommandShell in a method that is
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2010-03-08 22:58:43 +00:00
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# applicable to the way that the command interpreter is communicated
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2005-05-25 05:07:22 +00:00
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# with.
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#
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###
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2005-07-16 08:12:58 +00:00
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class SessionManager < Hash
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2005-05-25 05:07:22 +00:00
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2013-08-30 21:28:33 +00:00
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include Framework::Offspring
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LAST_SEEN_INTERVAL = 60 * 2.5
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SCHEDULER_THREAD_COUNT = 5
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def initialize(framework)
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self.framework = framework
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self.sid_pool = 0
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self.mutex = Mutex.new
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self.scheduler_queue = ::Queue.new
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self.initialize_scheduler_threads
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self.monitor_thread = framework.threads.spawn("SessionManager", true) do
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last_seen_timer = Time.now.utc
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respawn_max = 30
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respawn_cnt = 0
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begin
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while true
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#
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# Process incoming data from all stream-based sessions and queue the
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# data into the associated ring buffers.
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#
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rings = values.select{|s| s.respond_to?(:ring) and s.ring and s.rstream }
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ready = ::IO.select(rings.map{|s| s.rstream}, nil, nil, 0.5) || [[],[],[]]
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ready[0].each do |fd|
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s = rings.select{|s| s.rstream == fd}.first
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next if not s
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begin
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buff = fd.get_once(-1)
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if buff
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# Store the data in the associated ring
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s.ring.store_data(buff)
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# Store the session event into the database.
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# Rescue anything the event handlers raise so they
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# don't break our session.
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framework.events.on_session_output(s, buff) rescue nil
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end
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rescue ::Exception => e
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wlog("Exception reading from Session #{s.sid}: #{e.class} #{e}")
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unless e.kind_of? EOFError
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# Don't bother with a call stack if it's just a
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# normal EOF
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dlog("Call Stack\n#{e.backtrace.join("\n")}", 'core', LEV_3)
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end
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# Flush any ring data in the queue
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s.ring.clear_data rescue nil
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# Shut down the socket itself
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s.rstream.close rescue nil
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# Deregister the session
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deregister(s, "Died from #{e.class}")
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end
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end
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#
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# TODO: Call the dispatch entry point of each Meterpreter thread instead of
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# dedicating specific processing threads to each session
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#
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#
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# Check for closed / dead / terminated sessions
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#
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values.each do |s|
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if not s.alive?
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deregister(s, "Died")
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wlog("Session #{s.sid} has died")
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next
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end
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end
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#
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# Mark all open session as alive every LAST_SEEN_INTERVAL
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#
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if (Time.now.utc - last_seen_timer) >= LAST_SEEN_INTERVAL
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# Update this timer BEFORE processing the session list, this will prevent
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# processing time for large session lists from skewing our update interval.
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last_seen_timer = Time.now.utc
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if framework.db.active
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::ActiveRecord::Base.connection_pool.with_connection do
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values.each do |s|
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# Update the database entry on a regular basis, marking alive threads
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# as recently seen. This notifies other framework instances that this
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# session is being maintained.
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if s.db_record
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s.db_record.last_seen = Time.now.utc
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s.db_record.save
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end
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end
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end
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end
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end
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#
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# Skip the database cleanup code below if there is no database
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#
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next if not (framework.db and framework.db.active)
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#
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# Clean out any stale sessions that have been orphaned by a dead
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# framework instance.
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#
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::ActiveRecord::Base.connection_pool.with_connection do |conn|
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::Mdm::Session.find_all_by_closed_at(nil).each do |db_session|
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if db_session.last_seen.nil? or ((Time.now.utc - db_session.last_seen) > (2*LAST_SEEN_INTERVAL))
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db_session.closed_at = db_session.last_seen || Time.now.utc
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db_session.close_reason = "Orphaned"
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db_session.save
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end
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end
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end
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end
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#
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# All session management falls apart when any exception is raised to this point. Log it.
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#
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rescue ::Exception => e
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respawn_cnt += 1
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elog("Exception #{respawn_cnt}/#{respawn_max} in monitor thread #{e.class} #{e}")
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elog("Call stack: \n#{e.backtrace.join("\n")}")
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if respawn_cnt < respawn_max
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::IO.select(nil, nil, nil, 10.0)
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retry
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end
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end
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end
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end
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#
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# Dedicated worker threads for pulling data out of new sessions
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#
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def initialize_scheduler_threads
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self.scheduler_threads = []
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1.upto(SCHEDULER_THREAD_COUNT) do |i|
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self.scheduler_threads << framework.threads.spawn("SessionScheduler-#{i}", true) do
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while true
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item = self.scheduler_queue.pop
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begin
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item.call()
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rescue ::Exception => e
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wlog("Exception in scheduler thread #{e.class} #{e}")
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wlog("Call Stack\n#{e.backtrace.join("\n")}", 'core', LEV_3)
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end
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end
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end
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end
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end
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#
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# Add a new task to the loader thread queue. Task is assumed to be
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# a Proc or another object that responds to call()
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#
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def schedule(task)
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self.scheduler_queue.push(task)
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end
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#
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# Enumerates the sorted list of keys.
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#
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def each_sorted(&block)
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self.keys.sort.each(&block)
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end
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#
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# Overrides the builtin 'each' operator to avoid the following exception on Ruby 1.9.2+
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# "can't add a new key into hash during iteration"
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# This allows us to register new sessions while other threads are enumerating the
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# session list.
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#
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def each(&block)
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list = []
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self.keys.sort.each do |sidx|
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list << [sidx, self[sidx]]
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end
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list.each(&block)
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end
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#
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# Registers the supplied session object with the framework and returns
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# a unique session identifier to the caller.
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#
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def register(session)
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if (session.sid)
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wlog("registered session passed to register again (sid #{session.sid}).")
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return nil
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end
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next_sid = allocate_sid
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# Initialize the session's sid and framework instance pointer
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session.sid = next_sid
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session.framework = framework
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# Only register if the session allows for it
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if session.register?
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# Insert the session into the session hash table
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self[next_sid.to_i] = session
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# Notify the framework that we have a new session opening up...
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# Don't let errant event handlers kill our session
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begin
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framework.events.on_session_open(session)
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rescue ::Exception => e
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wlog("Exception in on_session_open event handler: #{e.class}: #{e}")
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wlog("Call Stack\n#{e.backtrace.join("\n")}")
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end
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if session.respond_to?("console")
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session.console.on_command_proc = Proc.new { |command, error| framework.events.on_session_command(session, command) }
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session.console.on_print_proc = Proc.new { |output| framework.events.on_session_output(session, output) }
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end
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end
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return next_sid
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end
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#
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# Deregisters the supplied session object with the framework.
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#
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def deregister(session, reason='')
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return if not session.register?
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if (session.dead? and not self[session.sid.to_i])
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return
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end
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# Tell the framework that we have a parting session
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framework.events.on_session_close(session, reason) rescue nil
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# If this session implements the comm interface, remove any routes
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# that have been created for it.
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if (session.kind_of?(Msf::Session::Comm))
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Rex::Socket::SwitchBoard.remove_by_comm(session)
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end
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# Remove it from the hash
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self.delete(session.sid.to_i)
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# Mark the session as dead
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session.alive = false
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# Close it down
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session.cleanup
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end
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#
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# Returns the session associated with the supplied sid, if any.
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#
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def get(sid)
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return self[sid.to_i]
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end
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#
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# Allocates the next Session ID
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#
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def allocate_sid
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self.mutex.synchronize do
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self.sid_pool += 1
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end
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end
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2005-05-25 05:07:22 +00:00
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2005-05-26 06:35:37 +00:00
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protected
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2010-03-08 22:58:43 +00:00
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2013-08-30 21:28:33 +00:00
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attr_accessor :sid_pool, :sessions # :nodoc:
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attr_accessor :monitor_thread # :nodoc:
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attr_accessor :scheduler_threads # :nodoc:
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attr_accessor :scheduler_queue # :nodoc:
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attr_accessor :mutex # :nodoc:
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2005-05-25 05:07:22 +00:00
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end
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2010-01-06 05:06:12 +00:00
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end
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2010-03-08 22:58:43 +00:00
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