metasploit-framework/lib/msf/ui/console/driver.rb

298 lines
6.3 KiB
Ruby
Raw Normal View History

require 'msf/core'
require 'msf/base'
require 'msf/ui'
require 'msf/ui/console/framework_event_manager'
require 'msf/ui/console/command_dispatcher'
require 'msf/ui/console/table'
require 'find'
module Msf
module Ui
module Console
###
#
# This class implements a user interface driver on a console interface.
#
###
class Driver < Msf::Ui::Driver
ConfigCore = "framework/core"
ConfigGroup = "framework/ui/console"
#
# The console driver processes various framework notified events.
#
include FrameworkEventManager
#
# The console driver is a command shell.
#
include Rex::Ui::Text::DispatcherShell
#
# Initializes a console driver instance with the supplied prompt string and
# prompt character.
#
def initialize(prompt = "%umsf", prompt_char = ">%c")
# Call the parent
super
# Temporarily disable output
self.disable_output = true
# Load pre-configuration
load_preconfig
# Initialize attributes
self.framework = Msf::Simple::Framework.create
# Add the core command dispatcher as the root of the dispatcher
# stack
enstack_dispatcher(CommandDispatcher::Core)
# Register event handlers
register_event_handlers
# Load console-specific configuration
load_config
# Re-enable output
self.disable_output = false
# Process things before we actually display the prompt and get rocking
on_startup
# Process the resource script
process_rc_file
# Initialize the tab completion array
self.tab_words = []
end
#
# Loads configuration that needs to be analyzed before the framework
# instance is created.
#
def load_preconfig
begin
conf = Msf::Config.load
rescue
wlog("Failed to load configuration: #{$!}")
return
end
if (conf.group?(ConfigCore))
conf[ConfigCore].each_pair { |k, v|
on_variable_set(true, k, v)
}
end
end
#
# Loads configuration for the console.
#
def load_config
begin
conf = Msf::Config.load
rescue
wlog("Failed to load configuration: #{$!}")
return
end
# If we have configuration, process it
if (conf.group?(ConfigGroup))
conf[ConfigGroup].each_pair { |k, v|
case k.downcase
when "activemodule"
run_single("use #{v}")
end
}
end
end
#
# Saves configuration for the console.
#
def save_config
# Build out the console config group
group = {}
if (active_module)
group['ActiveModule'] = active_module.fullname
end
# Save it
begin
Msf::Config.save(
ConfigGroup => group)
rescue
log_error("Failed to save console config: #{$!}")
end
end
#
# TODO:
#
# Processes the resource script file for the console.
#
def process_rc_file
end
#
# Called before things actually get rolling such that banners can be
# displayed, scripts can be processed, and other fun can be had.
#
def on_startup
# Recalculate tab completion
run_single("_recalculate_tc")
# Build the banner message
run_single("banner")
end
#
# Called when a variable is set to a specific value. This allows the
# console to do extra processing, such as enabling logging or doing
# some other kind of task. If this routine returns false it will indicate
# that the variable is not being set to a valid value.
#
def on_variable_set(glob, var, val)
case var.downcase
when "payload"
if (framework.modules.valid?(val) == false)
return false
end
when "sessionlogging"
handle_session_logging(val) if (glob)
when "consolelogging"
handle_console_logging(val) if (glob)
when "evasion"
handle_evasion(val) if (glob)
when "loglevel"
handle_loglevel(val) if (glob)
end
end
#
# Called when a variable is unset. If this routine returns false it is an
# indication that the variable should not be allowed to be unset.
#
def on_variable_unset(glob, var)
case var.downcase
when "sessionlogging"
handle_session_logging('0') if (glob)
when "consolelogging"
handle_console_logging('0') if (glob)
when "evasion"
handle_evasion(EVASION_NORMAL) if (glob)
when "loglevel"
handle_loglevel(nil) if (glob)
end
end
#
# The framework instance associated with this driver.
#
attr_reader :framework
#
# The active module associated with the driver.
#
attr_accessor :active_module
protected
attr_writer :framework # :nodoc:
attr_accessor :tab_words # :nodoc:
##
#
# Handlers for various global configuration values
#
##
#
# SessionLogging.
#
def handle_session_logging(val)
if (val =~ /^(yes|y|true|t|1)/i)
Msf::Logging.enable_session_logging(true)
print_line("Session logging will be enabled for future sessions.")
else
Msf::Logging.enable_session_logging(false)
print_line("Session logging will be disabled for future sessions.")
end
end
#
# ConsoleLogging.
#
def handle_console_logging(val)
if (val =~ /^(yes|y|true|t|1)/i)
Msf::Logging.enable_log_source('console')
print_line("Console logging is now enabled.")
set_log_source('console')
rlog("\n[*] Console logging started: #{Time.now}\n\n", 'console')
else
rlog("\n[*] Console logging stopped: #{Time.now}\n\n", 'console')
unset_log_source
Msf::Logging.disable_log_source('console')
print_line("Console logging is now disabled.")
end
end
#
# Evasion. Sets the global evasion level based on the supplied argument.
#
def handle_evasion(val)
if (val =~ /^(normal|low|high)$/i)
Rex::Evasion.set_level(val.downcase)
else
false
end
end
#
# This method handles adjusting the global log level threshold.
#
def handle_loglevel(val)
set_log_level(Rex::LogSource, val)
set_log_level(Msf::LogSource, val)
end
#
# This method accepts the entire line of text from the Readline
# routine, stores all completed words, and passes the partial
# word to the real tab completion function. This works around
# a design problem in the Readline module and depends on the
# Readline.basic_word_break_characters variable being set to \x00
#
def tab_complete(str)
# Check trailing whitespace so we can tell 'x' from 'x '
str_match = str.match(/\s+$/)
str_trail = (str_match.nil?) ? '' : str_match[0]
# Split the line up by whitespace into words
str_words = str.split(/[\s\t\n]/)
# Append an empty word if we had trailing whitespace
str_words << '' if str_trail.length > 0
# Place the word list into an instance variable
self.tab_words = str_words
# Pop the last word and pass it to the parent
super(self.tab_words.pop)
end
end
end
end
end