metasploit-framework/lib/msf/core/db_manager.rb

638 lines
16 KiB
Ruby

# -*- coding: binary -*-
require 'msf/base/config'
require 'msf/core'
require 'msf/core/db'
require 'msf/core/task_manager'
require 'fileutils'
require 'shellwords'
module Msf
###
#
# The db module provides persistent storage and events. This class should be instantiated LAST
# as the active_suppport library overrides Kernel.require, slowing down all future code loads.
#
###
class DBManager
# Mainly, it's Ruby 1.9.1 that cause a lot of problems now, along with Ruby 1.8.6.
# Ruby 1.8.7 actually seems okay, but why tempt fate? Let's say 1.9.3 and beyond.
def warn_about_rubies
if ::RUBY_VERSION =~ /^1\.9\.[012]($|[^\d])/
$stderr.puts "**************************************************************************************"
$stderr.puts "Metasploit requires at least Ruby 1.9.3. For an easy upgrade path, see https://rvm.io/"
$stderr.puts "**************************************************************************************"
end
end
# Provides :framework and other accessors
include Framework::Offspring
# Returns true if we are ready to load/store data
def active
return false if not @usable
# We have established a connection, some connection is active, and we have run migrations
(ActiveRecord::Base.connected? && ActiveRecord::Base.connection_pool.connected? && migrated)# rescue false
end
# Returns true if the prerequisites have been installed
attr_accessor :usable
# Returns the list of usable database drivers
attr_accessor :drivers
# Returns the active driver
attr_accessor :driver
# Stores the error message for why the db was not loaded
attr_accessor :error
# Stores a TaskManager for serializing database events
attr_accessor :sink
# Flag to indicate database migration has completed
attr_accessor :migrated
# Array of additional migration paths
attr_accessor :migration_paths
# Flag to indicate that modules are cached
attr_accessor :modules_cached
# Flag to indicate that the module cacher is running
attr_accessor :modules_caching
def initialize(framework, opts = {})
self.framework = framework
self.migrated = false
self.migration_paths = [ ::File.join(Msf::Config.install_root, "data", "sql", "migrate") ]
self.modules_cached = false
self.modules_caching = false
@usable = false
# Don't load the database if the user said they didn't need it.
if (opts['DisableDatabase'])
self.error = "disabled"
return
end
initialize_database_support
end
#
# Add additional migration paths
#
def add_migration_path(path)
self.migration_paths.push(path)
end
#
# Do what is necessary to load our database support
#
def initialize_database_support
begin
# Database drivers can reset our KCODE, do not let them
$KCODE = 'NONE' if RUBY_VERSION =~ /^1\.8\./
require "active_record"
# Provide access to ActiveRecord models shared w/ commercial versions
require "metasploit_data_models"
# Patches issues with ActiveRecord
require "msf/core/patches/active_record"
@usable = true
rescue ::Exception => e
self.error = e
elog("DB is not enabled due to load error: #{e}")
return false
end
# Only include Mdm if we're not using Metasploit commercial versions
# If Mdm::Host is defined, the dynamically created classes
# are already in the object space
begin
unless defined? Mdm::Host
MetasploitDataModels.require_models
end
rescue NameError => e
warn_about_rubies
raise e
end
#
# Determine what drivers are available
#
initialize_drivers
#
# Instantiate the database sink
#
initialize_sink
true
end
#
# Scan through available drivers
#
def initialize_drivers
self.drivers = []
tdrivers = %W{ postgresql }
tdrivers.each do |driver|
begin
ActiveRecord::Base.default_timezone = :utc
ActiveRecord::Base.establish_connection(:adapter => driver)
if(self.respond_to?("driver_check_#{driver}"))
self.send("driver_check_#{driver}")
end
ActiveRecord::Base.remove_connection
self.drivers << driver
rescue ::Exception
end
end
if(not self.drivers.empty?)
self.driver = self.drivers[0]
end
# Database drivers can reset our KCODE, do not let them
$KCODE = 'NONE' if RUBY_VERSION =~ /^1\.8\./
end
#
# Create a new database sink and initialize it
#
def initialize_sink
self.sink = TaskManager.new(framework)
self.sink.start
end
#
# Add a new task to the sink
#
def queue(proc)
self.sink.queue_proc(proc)
end
#
# Connects this instance to a database
#
def connect(opts={})
return false if not @usable
nopts = opts.dup
if (nopts['port'])
nopts['port'] = nopts['port'].to_i
end
# Prefer the config file's pool setting
nopts['pool'] ||= 75
# Prefer the config file's wait_timeout setting too
nopts['wait_timeout'] ||= 300
begin
self.migrated = false
create_db(nopts)
# Configure the database adapter
ActiveRecord::Base.establish_connection(nopts)
# Migrate the database, if needed
migrate
# Set the default workspace
framework.db.workspace = framework.db.default_workspace
# Flag that migration has completed
self.migrated = true
rescue ::Exception => e
self.error = e
elog("DB.connect threw an exception: #{e}")
dlog("Call stack: #{$@.join"\n"}", LEV_1)
return false
ensure
# Database drivers can reset our KCODE, do not let them
$KCODE = 'NONE' if RUBY_VERSION =~ /^1\.8\./
end
true
end
#
# Attempt to create the database
#
# If the database already exists this will fail and we will continue on our
# merry way, connecting anyway. If it doesn't, we try to create it. If
# that fails, then it wasn't meant to be and the connect will raise a
# useful exception so the user won't be in the dark; no need to raise
# anything at all here.
#
def create_db(opts)
begin
case opts["adapter"]
when 'postgresql'
# Try to force a connection to be made to the database, if it succeeds
# then we know we don't need to create it :)
ActiveRecord::Base.establish_connection(opts)
# Do the checkout, checkin dance here to make sure this thread doesn't
# hold on to a connection we don't need
conn = ActiveRecord::Base.connection_pool.checkout
ActiveRecord::Base.connection_pool.checkin(conn)
end
rescue ::Exception => e
errstr = e.to_s
if errstr =~ /does not exist/i or errstr =~ /Unknown database/
ilog("Database doesn't exist \"#{opts['database']}\", attempting to create it.")
ActiveRecord::Base.establish_connection(opts.merge('database' => nil))
ActiveRecord::Base.connection.create_database(opts['database'])
else
ilog("Trying to continue despite failed database creation: #{e}")
end
end
ActiveRecord::Base.remove_connection
end
#
# Disconnects a database session
#
def disconnect
begin
ActiveRecord::Base.remove_connection
self.migrated = false
self.modules_cached = false
rescue ::Exception => e
self.error = e
elog("DB.disconnect threw an exception: #{e}")
ensure
# Database drivers can reset our KCODE, do not let them
$KCODE = 'NONE' if RUBY_VERSION =~ /^1\.8\./
end
end
#
# Migrate database to latest schema version
#
def migrate(verbose=false)
temp_dir = ::File.expand_path(::File.join( Msf::Config.config_directory, "schema", "#{Time.now.to_i}_#{$$}" ))
::FileUtils.rm_rf(temp_dir)
::FileUtils.mkdir_p(temp_dir)
self.migration_paths.each do |mpath|
dir = Dir.new(mpath) rescue nil
if not dir
elog("Could not access migration path #{mpath}")
next
end
dir.entries.each do |ent|
next unless ent =~ /^\d+.*\.rb$/
::FileUtils.cp( ::File.join(mpath, ent), ::File.join(temp_dir, ent) )
end
end
success = true
begin
::ActiveRecord::Base.connection_pool.with_connection {
ActiveRecord::Migration.verbose = verbose
ActiveRecord::Migrator.migrate(temp_dir, nil)
}
rescue ::Exception => e
self.error = e
elog("DB.migrate threw an exception: #{e}")
dlog("Call stack:\n#{e.backtrace.join "\n"}")
success = false
end
::FileUtils.rm_rf(temp_dir)
return true
end
def workspace=(workspace)
@workspace_name = workspace.name
end
def workspace
framework.db.find_workspace(@workspace_name)
end
def purge_all_module_details
return if not self.migrated
return if self.modules_caching
::ActiveRecord::Base.connection_pool.with_connection do
Mdm::ModuleDetail.destroy_all
end
true
end
def update_all_module_details
return if not self.migrated
return if self.modules_caching
self.framework.cache_thread = Thread.current
self.modules_cached = false
self.modules_caching = true
::ActiveRecord::Base.connection_pool.with_connection {
refresh = []
skipped = []
Mdm::ModuleDetail.find_each do |md|
unless md.ready
refresh << md
next
end
unless md.file and ::File.exists?(md.file)
refresh << md
next
end
if ::File.mtime(md.file).to_i != md.mtime.to_i
refresh << md
next
end
skipped << [md.mtype, md.refname]
end
refresh.each {|md| md.destroy }
refresh = nil
[
[ 'exploit', framework.exploits ],
[ 'auxiliary', framework.auxiliary ],
[ 'post', framework.post ],
[ 'payload', framework.payloads ],
[ 'encoder', framework.encoders ],
[ 'nop', framework.nops ]
].each do |mt|
mt[1].keys.sort.each do |mn|
next if skipped.include?( [ mt[0], mn ] )
obj = mt[1].create(mn)
next if not obj
begin
update_module_details(obj)
rescue ::Exception
elog("Error updating module details for #{obj.fullname}: #{$!.class} #{$!}")
end
end
end
self.framework.cache_initialized = true
self.framework.cache_thread = nil
self.modules_cached = true
self.modules_caching = false
nil
}
end
def update_module_details(obj)
return if not self.migrated
::ActiveRecord::Base.connection_pool.with_connection {
info = module_to_details_hash(obj)
bits = info.delete(:bits) || []
md = Mdm::ModuleDetail.create(info)
bits.each do |args|
otype, vals = args
case otype
when :author
md.add_author(vals[:name], vals[:email])
when :action
md.add_action(vals[:name])
when :arch
md.add_arch(vals[:name])
when :platform
md.add_platform(vals[:name])
when :target
md.add_target(vals[:index], vals[:name])
when :ref
md.add_ref(vals[:name])
when :mixin
# md.add_mixin(vals[:name])
end
end
md.ready = true
md.save
md.id
}
end
def remove_module_details(mtype, refname)
return if not self.migrated
::ActiveRecord::Base.connection_pool.with_connection {
md = Mdm::ModuleDetail.find(:conditions => [ 'mtype = ? and refname = ?', mtype, refname])
md.destroy if md
}
end
def module_to_details_hash(m)
res = {}
bits = []
res[:mtime] = ::File.mtime(m.file_path) rescue Time.now
res[:file] = m.file_path
res[:mtype] = m.type
res[:name] = m.name.to_s
res[:refname] = m.refname
res[:fullname] = m.fullname
res[:rank] = m.rank.to_i
res[:license] = m.license.to_s
res[:description] = m.description.to_s.strip
m.arch.map{ |x|
bits << [ :arch, { :name => x.to_s } ]
}
m.platform.platforms.map{ |x|
bits << [ :platform, { :name => x.to_s.split('::').last.downcase } ]
}
m.author.map{|x|
bits << [ :author, { :name => x.to_s } ]
}
m.references.map do |r|
bits << [ :ref, { :name => [r.ctx_id.to_s, r.ctx_val.to_s].join("-") } ]
end
res[:privileged] = m.privileged?
if m.disclosure_date
begin
res[:disclosure_date] = m.disclosure_date.to_datetime.to_time
rescue ::Exception
res.delete(:disclosure_date)
end
end
if(m.type == "exploit")
m.targets.each_index do |i|
bits << [ :target, { :index => i, :name => m.targets[i].name.to_s } ]
end
if (m.default_target)
res[:default_target] = m.default_target
end
# Some modules are a combination, which means they are actually aggressive
res[:stance] = m.stance.to_s.index("aggressive") ? "aggressive" : "passive"
m.class.mixins.each do |x|
bits << [ :mixin, { :name => x.to_s } ]
end
end
if(m.type == "auxiliary")
m.actions.each_index do |i|
bits << [ :action, { :name => m.actions[i].name.to_s } ]
end
if (m.default_action)
res[:default_action] = m.default_action.to_s
end
res[:stance] = m.passive? ? "passive" : "aggressive"
end
res[:bits] = bits
res
end
#
# This provides a standard set of search filters for every module.
# The search terms are in the form of:
# {
# "text" => [ [ "include_term1", "include_term2", ...], [ "exclude_term1", "exclude_term2"], ... ],
# "cve" => [ [ "include_term1", "include_term2", ...], [ "exclude_term1", "exclude_term2"], ... ]
# }
#
# Returns true on no match, false on match
#
def search_modules(search_string, inclusive=false)
return false if not search_string
search_string += " "
# Split search terms by space, but allow quoted strings
terms = Shellwords.shellwords(search_string)
terms.delete('')
# All terms are either included or excluded
res = {}
terms.each do |t|
f,v = t.split(":", 2)
if not v
v = f
f = 'text'
end
next if v.length == 0
f.downcase!
v.downcase!
res[f] ||= [ ]
res[f] << v
end
::ActiveRecord::Base.connection_pool.with_connection {
where_q = []
where_v = []
res.keys.each do |kt|
res[kt].each do |kv|
kv = kv.downcase
case kt
when 'text'
xv = "%#{kv}%"
where_q << ' ( ' +
'module_details.fullname ILIKE ? OR module_details.name ILIKE ? OR module_details.description ILIKE ? OR ' +
'module_authors.name ILIKE ? OR module_actions.name ILIKE ? OR module_archs.name ILIKE ? OR ' +
'module_targets.name ILIKE ? OR module_platforms.name ILIKE ? OR module_refs.name ILIKE ?' +
') '
where_v << [ xv, xv, xv, xv, xv, xv, xv, xv, xv ]
when 'name'
xv = "%#{kv}%"
where_q << ' ( module_details.fullname ILIKE ? OR module_details.name ILIKE ? ) '
where_v << [ xv, xv ]
when 'author'
xv = "%#{kv}%"
where_q << ' ( module_authors.name ILIKE ? OR module_authors.email ILIKE ? ) '
where_v << [ xv, xv ]
when 'os','platform'
xv = "%#{kv}%"
where_q << ' ( module_platforms.name ILIKE ? OR module_targets.name ILIKE ? ) '
where_v << [ xv, xv ]
when 'port'
# TODO
when 'type'
where_q << ' ( module_details.mtype = ? ) '
where_v << [ kv ]
when 'app'
where_q << ' ( module_details.stance = ? )'
where_v << [ ( kv == "client") ? "passive" : "active" ]
when 'ref'
where_q << ' ( module_refs.name ILIKE ? )'
where_v << [ '%' + kv + '%' ]
when 'cve','bid','osvdb','edb'
where_q << ' ( module_refs.name = ? )'
where_v << [ kt.upcase + '-' + kv ]
end
end
end
qry = Mdm::ModuleDetail.select("DISTINCT(module_details.*)").
joins(
"LEFT OUTER JOIN module_authors ON module_details.id = module_authors.module_detail_id " +
"LEFT OUTER JOIN module_actions ON module_details.id = module_actions.module_detail_id " +
"LEFT OUTER JOIN module_archs ON module_details.id = module_archs.module_detail_id " +
"LEFT OUTER JOIN module_refs ON module_details.id = module_refs.module_detail_id " +
"LEFT OUTER JOIN module_targets ON module_details.id = module_targets.module_detail_id " +
"LEFT OUTER JOIN module_platforms ON module_details.id = module_platforms.module_detail_id "
).
where(where_q.join(inclusive ? " OR " : " AND "), *(where_v.flatten)).
# Compatibility for Postgres installations prior to 9.1 - doesn't have support for wildcard group by clauses
group("module_details.id, module_details.mtime, module_details.file, module_details.mtype, module_details.refname, module_details.fullname, module_details.name, module_details.rank, module_details.description, module_details.license, module_details.privileged, module_details.disclosure_date, module_details.default_target, module_details.default_action, module_details.stance, module_details.ready")
res = qry.all
}
end
end
end