require 'rex/parser/nmap_xml' require 'rex/parser/nexpose_xml' require 'rex/parser/retina_xml' require 'rex/parser/netsparker_xml' require 'rex/parser/nessus_xml' require 'rex/parser/ip360_xml' require 'rex/parser/ip360_aspl_xml' require 'rex/socket' require 'zip' require 'packetfu' require 'uri' require 'tmpdir' require 'fileutils' module Msf ### # # The states that a host can be in. # ### module HostState # # The host is alive. # Alive = "alive" # # The host is dead. # Dead = "down" # # The host state is unknown. # Unknown = "unknown" end ### # # The states that a service can be in. # ### module ServiceState Open = "open" Closed = "closed" Filtered = "filtered" Unknown = "unknown" end ### # # Events that can occur in the host/service database. # ### module DatabaseEvent # # Called when an existing host's state changes # def on_db_host_state(host, ostate) end # # Called when an existing service's state changes # def on_db_service_state(host, port, ostate) end # # Called when a new host is added to the database. The host parameter is # of type Host. # def on_db_host(host) end # # Called when a new client is added to the database. The client # parameter is of type Client. # def on_db_client(client) end # # Called when a new service is added to the database. The service # parameter is of type Service. # def on_db_service(service) end # # Called when an applicable vulnerability is found for a service. The vuln # parameter is of type Vuln. # def on_db_vuln(vuln) end # # Called when a new reference is created. # def on_db_ref(ref) end end class DBImportError < RuntimeError end ### # # The DB module ActiveRecord definitions for the DBManager # ### class DBManager def rfc3330_reserved(ip) case ip.class.to_s when "PacketFu::Octets" ip_x = ip.to_x ip_i = ip.to_i when "String" if ipv4_validator(ip) ip_x = ip ip_i = Rex::Socket.addr_atoi(ip) else raise ArgumentError, "Invalid IP address: #{ip.inspect}" end when "Fixnum" if (0..2**32-1).include? ip ip_x = Rex::Socket.addr_itoa(ip) ip_i = ip else raise ArgumentError, "Invalid IP address: #{ip.inspect}" end else raise ArgumentError, "Invalid IP address: #{ip.inspect}" end return true if Rex::Socket::RangeWalker.new("0.0.0.0-0.255.255.255").include? ip_x return true if Rex::Socket::RangeWalker.new("127.0.0.0-127.255.255.255").include? ip_x return true if Rex::Socket::RangeWalker.new("169.254.0.0-169.254.255.255").include? ip_x return true if Rex::Socket::RangeWalker.new("224.0.0.0-239.255.255.255").include? ip_x return true if Rex::Socket::RangeWalker.new("255.255.255.255-255.255.255.255").include? ip_x return false end def ipv4_validator(addr) return false unless addr.kind_of? String addr =~ /^(?:(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)\.){3}(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)$/ end # Takes a space-delimited set of ips and ranges, and subjects # them to RangeWalker for validation. Returns true or false. def validate_ips(ips) ret = true begin ips.split(' ').each {|ip| unless Rex::Socket::RangeWalker.new(ip).ranges ret = false break end } rescue ret = false end return ret end # # Determines if the database is functional # def check res = Host.find(:first) end def default_workspace Workspace.default end def find_workspace(name) Workspace.find_by_name(name) end # # Creates a new workspace in the database # def add_workspace(name) Workspace.find_or_create_by_name(name) end def workspaces Workspace.find(:all) end # # Wait for all pending write to finish # def sync task = queue( Proc.new { } ) task.wait end # # Find a host. Performs no database writes. # def get_host(opts) if opts.kind_of? Host return opts elsif opts.kind_of? String raise RuntimeError, "This invokation of get_host is no longer supported: #{caller}" else address = opts[:addr] || opts[:address] || opts[:host] || return return address if address.kind_of? Host end wspace = opts.delete(:workspace) || workspace if wspace.kind_of? String wspace = find_workspace(wspace) end return wspace.hosts.find_by_address(address) end # # Exactly like report_host but waits for the database to create a host and returns it. # def find_or_create_host(opts) report_host(opts.merge({:wait => true})) end # # Report a host's attributes such as operating system and service pack # # The opts parameter MUST contain # :host -- the host's ip address # # The opts parameter can contain: # :state -- one of the Msf::HostState constants # :os_name -- one of the Msf::OperatingSystems constants # :os_flavor -- something like "XP" or "Gentoo" # :os_sp -- something like "SP2" # :os_lang -- something like "English", "French", or "en-US" # :arch -- one of the ARCH_* constants # :mac -- the host's MAC address # def report_host(opts) return if not active addr = opts.delete(:host) || return # Sometimes a host setup through a pivot will see the address as "Remote Pipe" if addr.eql? "Remote Pipe" return end # Ensure the host field updated_at is changed on each report_host() if addr.kind_of? Host queue( Proc.new { addr.updated_at = addr.created_at; addr.save! } ) return addr end addr = normalize_host(addr) wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace if opts[:host_mac] opts[:mac] = opts.delete(:host_mac) end unless ipv4_validator(addr) raise ::ArgumentError, "Invalid IP address in report_host(): #{addr}" end ret = {} task = queue( Proc.new { if opts[:comm] and opts[:comm].length > 0 host = wspace.hosts.find_or_initialize_by_address_and_comm(addr, opts[:comm]) else host = wspace.hosts.find_or_initialize_by_address(addr) end opts.each { |k,v| if (host.attribute_names.include?(k.to_s)) host[k] = v unless host.attribute_locked?(k.to_s) else dlog("Unknown attribute for Host: #{k}") end } host.info = host.info[0,Host.columns_hash["info"].limit] if host.info # Set default fields if needed host.state = HostState::Alive if not host.state host.comm = '' if not host.comm host.workspace = wspace if not host.workspace # Always save the host, helps track updates msf_import_timestamps(opts,host) host.save! ret[:host] = host } ) if wait return nil if task.wait != :done return ret[:host] end return task end # # Iterates over the hosts table calling the supplied block with the host # instance of each entry. # def each_host(wspace=workspace, &block) wspace.hosts.each do |host| block.call(host) end end # # Returns a list of all hosts in the database # def hosts(wspace = workspace, only_up = false, addresses = nil) conditions = {} conditions[:state] = [Msf::HostState::Alive, Msf::HostState::Unknown] if only_up conditions[:address] = addresses if addresses wspace.hosts.all(:conditions => conditions, :order => :address) end def find_or_create_service(opts) report_service(opts.merge({:wait => true})) end # # Record a service in the database. # # opts must contain # :host -- the host where this service is running # :port -- the port where this service listens # :proto -- the transport layer protocol (e.g. tcp, udp) # # opts may contain # :name -- the application layer protocol (e.g. ssh, mssql, smb) # def report_service(opts) return if not active addr = opts.delete(:host) || return hname = opts.delete(:host_name) hmac = opts.delete(:host_mac) wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace hopts = {:workspace => wspace, :host => addr} hopts[:name] = hname if hname hopts[:mac] = hmac if hmac report_host(hopts) ret = {} task = queue(Proc.new { host = get_host(:workspace => wspace, :address => addr) if host host.updated_at = host.created_at host.state = HostState::Alive host.save! end proto = opts[:proto] || 'tcp' opts[:name].downcase! if (opts[:name]) service = host.services.find_or_initialize_by_port_and_proto(opts[:port].to_i, proto) opts.each { |k,v| if (service.attribute_names.include?(k.to_s)) service[k] = v else dlog("Unknown attribute for Service: #{k}") end } if (service.state == nil) service.state = ServiceState::Open end if (service and service.changed?) msf_import_timestamps(opts,service) service.save! end ret[:service] = service }) if wait return nil if task.wait() != :done return ret[:service] end return task end def get_service(wspace, host, proto, port) host = get_host(:workspace => wspace, :address => host) return if not host return host.services.find_by_proto_and_port(proto, port) end # # Iterates over the services table calling the supplied block with the # service instance of each entry. # def each_service(wspace=workspace, &block) services(wspace).each do |service| block.call(service) end end # # Returns a list of all services in the database # def services(wspace = workspace, only_up = false, proto = nil, addresses = nil, ports = nil, names = nil) conditions = {} conditions[:state] = [ServiceState::Open] if only_up conditions[:proto] = proto if proto conditions["hosts.address"] = addresses if addresses conditions[:port] = ports if ports conditions[:name] = names if names wspace.services.all(:include => :host, :conditions => conditions, :order => "hosts.address, port") end # Returns a session based on opened_time, host address, and workspace # (or returns nil) def get_session(opts) return if not active wspace = opts[:workspace] || opts[:wspace] || workspace addr = opts[:addr] || opts[:address] || opts[:host] || return host = get_host(:workspace => wspace, :host => addr) time = opts[:opened_at] || opts[:created_at] || opts[:time] || return Msf::DBManager::Session.find_by_host_id_and_opened_at(host.id, time) end # Record a new session in the database # # opts must contain either # :session - the Msf::Session object we are reporting # :host - the Host object we are reporting a session on. # def report_session(opts) return if not active if opts[:session] raise ArgumentError.new("Invalid :session, expected Msf::Session") unless opts[:session].kind_of? Msf::Session session = opts[:session] wspace = opts[:workspace] || find_workspace(session.workspace) h_opts = { } h_opts[:host] = normalize_host(session) h_opts[:arch] = session.arch if session.respond_to?(:arch) and session.arch h_opts[:workspace] = wspace host = find_or_create_host(h_opts) sess_data = { :host_id => host.id, :stype => session.type, :desc => session.info, :platform => session.platform, :via_payload => session.via_payload, :via_exploit => session.via_exploit, :routes => [], :datastore => session.exploit_datastore.to_h, :opened_at => Time.now.utc, :local_id => session.sid } elsif opts[:host] raise ArgumentError.new("Invalid :host, expected Host object") unless opts[:host].kind_of? Host host = opts[:host] sess_data = { :host_id => host.id, :stype => opts[:stype], :desc => opts[:desc], :platform => opts[:platform], :via_payload => opts[:via_payload], :via_exploit => opts[:via_exploit], :routes => opts[:routes], :datastore => opts[:datastore], :opened_at => opts[:opened_at], :closed_at => opts[:closed_at], :close_reason => opts[:close_reason], } else raise ArgumentError.new("Missing option :session or :host") end ret = {} task = queue(Proc.new { s = Msf::DBManager::Session.create(sess_data) if opts[:session] session.db_record = s else myret = s.save! end ret[:session] = s }) # If this is a live session, we know the host is vulnerable to something. # If the exploit used was multi/handler, though, we don't know what # it's vulnerable to, so it isn't really useful to save it. if opts[:session] if session.via_exploit and session.via_exploit != "exploit/multi/handler" return unless host port = session.exploit_datastore["RPORT"] service = (port ? host.services.find_by_port(port) : nil) mod = framework.modules.create(session.via_exploit) vuln_info = { :host => host.address, :name => session.via_exploit, :refs => mod.references, :workspace => wspace } framework.db.report_vuln(vuln_info) # Exploit info is like vuln info, except it's /just/ for storing # successful exploits in an unserialized way. Yes, there is # duplication, but it makes exporting a score card about a # million times easier. TODO: See if vuln/exploit can get fixed up # to one useful table. exploit_info = { :name => session.via_exploit, :payload => session.via_payload, :workspace => wspace, :host => host, :service => service, :session_uuid => session.uuid } framework.db.report_exploit(exploit_info) end end # Always wait for the task so that session.db_record gets stored # properly. This allows us to have session events immediately after # reporting the new session without having to worry about race # conditions. return nil if task.wait() != :done return ret[:session] end # # Record a session event in the database # # opts must contain one of: # :session -- the Msf::Session OR the Msf::DBManager::Session we are reporting # :etype -- event type, enum: command, output, upload, download, filedelete # # opts may contain # :output -- the data for an output event # :command -- the data for an command event # :remote_path -- path to the associated file for upload, download, and filedelete events # :local_path -- path to the associated file for upload, and download # def report_session_event(opts) return if not active raise ArgumentError.new("Missing required option :session") if opts[:session].nil? raise ArgumentError.new("Expected an :etype") unless opts[:etype] if opts[:session].respond_to? :db_record session = opts[:session].db_record event_data = { :created_at => Time.now } else session = opts[:session] event_data = { :created_at => opts[:created_at] } end unless session.kind_of? Msf::DBManager::Session raise ArgumentError.new("Invalid :session, expected Session object got #{session.class}") end event_data[:session_id] = session.id [:remote_path, :local_path, :output, :command, :etype].each do |attr| event_data[attr] = opts[attr] if opts[attr] end task = queue(Proc.new { s = Msf::DBManager::SessionEvent.create(event_data) }) return task end def report_session_route(session, route) return if not active if session.respond_to? :db_record s = session.db_record else s = session end unless s.kind_of? Msf::DBManager::Session raise ArgumentError.new("Invalid :session, expected Session object got #{session.class}") end task = queue(Proc.new { subnet, netmask = route.split("/") s.routes.create(:subnet => subnet, :netmask => netmask) }) end def report_session_route_remove(session, route) return if not active if session.respond_to? :db_record s = session.db_record else s = session end unless s.kind_of? Msf::DBManager::Session raise ArgumentError.new("Invalid :session, expected Session object got #{session.class}") end task = queue(Proc.new { subnet, netmask = route.split("/") r = s.routes.find_by_subnet_and_netmask(subnet, netmask) r.destroy if r }) end def get_client(opts) wspace = opts.delete(:workspace) || workspace host = get_host(:workspace => wspace, :host => opts[:host]) || return client = host.clients.find(:first, :conditions => {:ua_string => opts[:ua_string]}) return client end def find_or_create_client(opts) report_client(opts.merge({:wait => true})) end # # Report a client running on a host. # # opts must contain # :ua_string -- the value of the User-Agent header # :host -- the host where this client connected from, can be an ip address or a Host object # # opts can contain # :ua_name -- one of the Msf::HttpClients constants # :ua_ver -- detected version of the given client # :campaign -- an id or Campaign object # # Returns a Client. # def report_client(opts) return if not active addr = opts.delete(:host) || return wspace = opts.delete(:workspace) || workspace report_host(:workspace => wspace, :host => addr) wait = opts.delete(:wait) ret = {} task = queue(Proc.new { host = get_host(:workspace => wspace, :host => addr) client = host.clients.find_or_initialize_by_ua_string(opts[:ua_string]) campaign = opts.delete(:campaign) if campaign case campaign when Campaign opts[:campaign_id] = campaign.id else opts[:campaign_id] = campaign end end opts.each { |k,v| if (client.attribute_names.include?(k.to_s)) client[k] = v else dlog("Unknown attribute for Client: #{k}") end } if (client and client.changed?) client.save! end ret[:client] = client }) if wait return nil if task.wait() != :done return ret[:client] end return task end # # This method iterates the vulns table calling the supplied block with the # vuln instance of each entry. # def each_vuln(wspace=workspace,&block) wspace.vulns.each do |vulns| block.call(vulns) end end # # This methods returns a list of all vulnerabilities in the database # def vulns(wspace=workspace) wspace.vulns end # # This methods returns a list of all credentials in the database # def creds(wspace=workspace) Cred.find( :all, :include => {:service => :host}, # That's some magic right there. :conditions => ["hosts.workspace_id = ?", wspace.id] ) end # # This method returns a list of all exploited hosts in the database. # def exploited_hosts(wspace=workspace) wspace.exploited_hosts end # # This method iterates the notes table calling the supplied block with the # note instance of each entry. # def each_note(wspace=workspace, &block) wspace.notes.each do |note| block.call(note) end end # # Find or create a note matching this type/data # def find_or_create_note(opts) report_note(opts.merge({:wait => true})) end # # Report a Note to the database. Notes can be tied to a Workspace, Host, or Service. # # opts MUST contain # :data -- whatever it is you're making a note of # :type -- The type of note, e.g. smb_peer_os # # opts can contain # :workspace -- the workspace to associate with this Note # :host -- an IP address or a Host object to associate with this Note # :service -- a Service object to associate with this Note # :port -- along with :host and proto, a service to associate with this Note # :proto -- along with :host and port, a service to associate with this Note # :update -- what to do in case a similar Note exists, see below # # The :update option can have the following values: # :unique -- allow only a single Note per +host+/+type+ pair # :unique_data -- like :uniqe, but also compare +data+ # :insert -- always insert a new Note even if one with identical values exists # # If the provided :host is an IP address and does not exist in the # database, it will be created. If :workspace, :host and :service are all # omitted, the new Note will be associated with the current workspace. # def report_note(opts) return if not active wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace if wspace.kind_of? String wspace = find_workspace(wspace) end seen = opts.delete(:seen) || false crit = opts.delete(:critical) || false host = nil addr = nil # Report the host so it's there for the Proc to use below if opts[:host] if opts[:host].kind_of? Host host = opts[:host] else addr = normalize_host(opts[:host]) report_host({:workspace => wspace, :host => addr}) end # Do the same for a service if that's also included. if (opts[:port]) proto = nil sname = nil case opts[:proto].to_s.downcase # Catch incorrect usages when 'tcp','udp' proto = opts[:proto] sname = opts[:sname] if opts[:sname] when 'dns','snmp','dhcp' proto = 'udp' sname = opts[:proto] else proto = 'tcp' sname = opts[:proto] end sopts = { :workspace => wspace, :host => opts[:host], :port => opts[:port], :proto => proto } sopts[:name] = sname if sname report_service(sopts) end end # Update Modes can be :unique, :unique_data, :insert mode = opts[:update] || :unique ret = {} task = queue(Proc.new { if addr and not host host = get_host(:workspace => wspace, :host => addr) end if host and (opts[:port] and opts[:proto]) service = get_service(wspace, host, opts[:proto], opts[:port]) elsif opts[:service] and opts[:service].kind_of? Service service = opts[:service] end if host host.updated_at = host.created_at host.state = HostState::Alive host.save! end ntype = opts.delete(:type) || opts.delete(:ntype) || (raise RuntimeError, "A note :type or :ntype is required") data = opts[:data] || (raise RuntimeError, "Note :data is required") method = nil args = [] note = nil conditions = { :ntype => ntype } conditions[:host_id] = host[:id] if host conditions[:service_id] = service[:id] if service case mode when :unique notes = wspace.notes.find(:all, :conditions => conditions) # Only one note of this type should exist, make a new one if it # isn't there. If it is, grab it and overwrite its data. if notes.empty? note = wspace.notes.new(conditions) else note = notes[0] end note.data = data when :unique_data notes = wspace.notes.find(:all, :conditions => conditions) # Don't make a new Note with the same data as one that already # exists for the given: type and (host or service) notes.each do |n| # Compare the deserialized data from the table to the raw # data we're looking for. Because of the serialization we # can't do this easily or reliably in SQL. if n.data == data note = n break end end if not note # We didn't find one with the data we're looking for, make # a new one. note = wspace.notes.new(conditions.merge(:data => data)) end else # Otherwise, assume :insert, which means always make a new one note = wspace.notes.new if host note.host_id = host[:id] end if opts[:service] and opts[:service].kind_of? Service note.service_id = opts[:service][:id] end note.seen = seen note.critical = crit note.ntype = ntype note.data = data end msf_import_timestamps(opts,note) note.save! ret[:note] = note }) if wait return nil if task.wait() != :done return ret[:note] end return task end # # This methods returns a list of all notes in the database # def notes(wspace=workspace) wspace.notes end # This is only exercised by MSF3 XML importing for now. Needs the wait # conditions and return hash as well. def report_host_tag(opts) name = opts.delete(:name) raise DBImportError.new("Missing required option :name") unless name addr = opts.delete(:addr) raise DBImportError.new("Missing required option :addr") unless addr wspace = opts.delete(:wspace) raise DBImportError.new("Missing required option :wspace") unless wspace host = nil report_host(:workspace => wspace, :address => addr) task = queue( Proc.new { host = get_host(:workspace => wspace, :address => addr) desc = opts.delete(:desc) summary = opts.delete(:summary) detail = opts.delete(:detail) crit = opts.delete(:crit) possible_tag = Tag.find(:all, :include => :hosts, :conditions => ["hosts.workspace_id = ? and tags.name = ?", wspace.id, name ] ).first tag = possible_tag || Tag.new tag.name = name tag.desc = desc tag.report_summary = !!summary tag.report_detail = !!detail tag.critical = !!crit tag.hosts = tag.hosts | [host] tag.save! if tag.changed? }) return task end # report_auth_info used to create a note, now it creates # an entry in the creds table. It's much more akin to # report_vuln() now. # # opts must contain # :host -- an IP address # :port -- a port number # # opts can contain # :user -- the username # :pass -- the password, or path to ssh_key # :ptype -- the type of password (password, hash, or ssh_key) # :proto -- a transport name for the port # :sname -- service name # :active -- by default, a cred is active, unless explicitly false # :proof -- data used to prove the account is actually active. # # Sources: Credentials can be sourced from another credential, or from # a vulnerability. For example, if an exploit was used to dump the # smb_hashes, and this credential comes from there, the source_id would # be the Vuln id (as reported by report_vuln) and the type would be "Vuln". # # :source_id -- The Vuln or Cred id of the source of this cred. # :source_type -- Either Vuln or Cred # # TODO: This is written somewhat host-centric, when really the # Service is the thing. Need to revisit someday. def report_auth_info(opts={}) return if not active raise ArgumentError.new("Missing required option :host") if opts[:host].nil? raise ArgumentError.new("Invalid address for :host") unless validate_ips(opts[:host]) raise ArgumentError.new("Missing required option :port") if opts[:port].nil? host = opts.delete(:host) ptype = opts.delete(:type) || "password" token = [opts.delete(:user), opts.delete(:pass)] sname = opts.delete(:sname) port = opts.delete(:port) proto = opts.delete(:proto) || "tcp" proof = opts.delete(:proof) source_id = opts.delete(:source_id) source_type = opts.delete(:source_type) duplicate_ok = opts.delete(:duplicate_ok) # Nil is true for active. active = (opts[:active] || opts[:active].nil?) ? true : false wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace # Service management; assume the user knows what # he's talking about. unless service = get_service(wspace, host, proto, port) report_service(:host => host, :port => port, :proto => proto, :name => sname, :workspace => wspace) end ret = {} task = queue( Proc.new { # Get the service service ||= get_service(wspace, host, proto, port) # If duplicate usernames are okay, find by both user and password (allows # for actual duplicates to get modified updated_at, sources, etc) if duplicate_ok cred = service.creds.find_or_initialize_by_user_and_ptype_and_pass(token[0] || "", ptype, token[1] || "") else # Create the cred by username only (so we can change passwords) cred = service.creds.find_or_initialize_by_user_and_ptype(token[0] || "", ptype) end # Update with the password cred.pass = (token[1] || "") # Annotate the credential cred.ptype = ptype cred.active = active # Update the source ID only if there wasn't already one. if source_id and !cred.source_id cred.source_id = source_id cred.source_type = source_type if source_type end # Safe proof (lazy way) -- doesn't chop expanded # characters correctly, but shouldn't ever be a problem. unless proof.nil? proof = Rex::Text.to_hex_ascii(proof) proof = proof[0,4096] end cred.proof = proof # Update the timestamp if cred.changed? msf_import_timestamps(opts,cred) cred.save! end # Ensure the updated_at is touched any time report_auth_info is called # except when it's set explicitly (as it is for imports) unless opts[:updated_at] || opts["updated_at"] cred.updated_at = Time.now.utc cred.save! end ret[:cred] = cred }) if wait return nil if task.wait() != :done return ret[:cred] end return task end alias :report_cred :report_auth_info alias :report_auth :report_auth_info # # Find or create a credential matching this type/data # def find_or_create_cred(opts) report_auth_info(opts.merge({:wait => true})) end # # This method iterates the creds table calling the supplied block with the # cred instance of each entry. # def each_cred(wspace=workspace,&block) wspace.creds.each do |cred| block.call(cred) end end def each_exploited_host(wspace=workspace,&block) wspace.exploited_hosts.each do |eh| block.call(eh) end end # # Find or create a vuln matching this service/name # def find_or_create_vuln(opts) report_vuln(opts.merge({:wait => true})) end # # opts must contain # :host -- the host where this vulnerability resides # :name -- the scanner-specific id of the vuln (e.g. NEXPOSE-cifs-acct-password-never-expires) # # opts can contain # :info -- a human readable description of the vuln, free-form text # :refs -- an array of Ref objects or string names of references # def report_vuln(opts) return if not active raise ArgumentError.new("Missing required option :host") if opts[:host].nil? raise ArgumentError.new("Deprecated data column for vuln, use .info instead") if opts[:data] name = opts[:name] || return info = opts[:info] wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace rids = nil if opts[:refs] rids = [] opts[:refs].each do |r| if r.respond_to? :ctx_id r = r.ctx_id + '-' + r.ctx_val end rids << find_or_create_ref(:name => r) end end host = nil addr = nil if opts[:host].kind_of? Host host = opts[:host] else report_host({:workspace => wspace, :host => opts[:host]}) addr = normalize_host(opts[:host]) end ret = {} task = queue( Proc.new { if host host.updated_at = host.created_at host.state = HostState::Alive host.save! else host = get_host(:workspace => wspace, :address => addr) end if info and name !~ /^NEXPOSE-/ vuln = host.vulns.find_or_initialize_by_name_and_info(name, info, :include => :refs) else vuln = host.vulns.find_or_initialize_by_name(name, :include => :refs) end vuln.info = info.to_s if info if opts[:port] proto = nil case opts[:proto].to_s.downcase # Catch incorrect usages, as in report_note when 'tcp','udp' proto = opts[:proto] when 'dns','snmp','dhcp' proto = 'udp' sname = opts[:proto] else proto = 'tcp' sname = opts[:proto] end vuln.service = host.services.find_or_create_by_port_and_proto(opts[:port], proto) end if rids vuln.refs << (rids - vuln.refs) end if vuln.changed? msf_import_timestamps(opts,vuln) vuln.save! end ret[:vuln] = vuln }) if wait return nil if task.wait() != :done return ret[:vuln] end return task end def get_vuln(wspace, host, service, name, data='') raise RuntimeError, "Not workspace safe: #{caller.inspect}" vuln = nil if (service) vuln = Vuln.find(:first, :conditions => [ "name = ? and service_id = ? and host_id = ?", name, service.id, host.id]) else vuln = Vuln.find(:first, :conditions => [ "name = ? and host_id = ?", name, host.id]) end return vuln end # # Find or create a reference matching this name # def find_or_create_ref(opts) ret = {} ret[:ref] = get_ref(opts[:name]) return ret[:ref] if ret[:ref] task = queue(Proc.new { ref = Ref.find_or_initialize_by_name(opts[:name]) if ref and ref.changed? ref.save! end ret[:ref] = ref }) return nil if task.wait() != :done return ret[:ref] end def get_ref(name) Ref.find_by_name(name) end def report_exploit(opts={}) return if not active raise ArgumentError.new("Missing required option :host") if opts[:host].nil? wait = opts[:wait] wspace = opts.delete(:workspace) || workspace host = nil addr = nil sname = opts.delete(:sname) port = opts.delete(:port) proto = opts.delete(:proto) || "tcp" name = opts.delete(:name) payload = opts.delete(:payload) session_uuid = opts.delete(:session_uuid) if opts[:host].kind_of? Host host = opts[:host] else report_host({:workspace => wspace, :host => opts[:host]}) addr = normalize_host(opts[:host]) end if opts[:service].kind_of? Service service = opts[:service] elsif port report_service(:host => host, :port => port, :proto => proto, :name => sname) service = get_service(wspace, host, proto, port) else service = nil end ret = {} task = queue( Proc.new { if host host.updated_at = host.created_at host.state = HostState::Alive host.save! else host = get_host(:workspace => wspace, :address => addr) end exploit_info = { :workspace => wspace, :host_id => host.id, :name => name, :payload => payload, } exploit_info[:service_id] = service.id if service exploit_info[:session_uuid] = session_uuid if session_uuid exploit_record = ExploitedHost.create(exploit_info) exploit_record.save! ret[:exploit] = exploit_record } ) if wait return nil if task.wait() != :done return ret[:exploit] end return task end # # Deletes a host and associated data matching this address/comm # def del_host(wspace, address, comm='') host = wspace.hosts.find_by_address_and_comm(address, comm) host.destroy if host end # # Deletes a port and associated vulns matching this port # def del_service(wspace, address, proto, port, comm='') host = get_host(:workspace => wspace, :address => address) return unless host host.services.all(:conditions => {:proto => proto, :port => port}).each { |s| s.destroy } end # # Find a reference matching this name # def has_ref?(name) Ref.find_by_name(name) end # # Find a vulnerability matching this name # def has_vuln?(name) Vuln.find_by_name(name) end # # Look for an address across all comms # def has_host?(wspace,addr) wspace.hosts.find_by_address(addr) end def events(wspace=workspace) wspace.events.find :all, :order => 'created_at ASC' end def report_event(opts = {}) return if not active wspace = opts.delete(:workspace) || workspace uname = opts.delete(:username) if opts[:host] report_host(:workspace => wspace, :host => opts[:host]) end framework.db.queue(Proc.new { opts[:host] = get_host(:workspace => wspace, :host => opts[:host]) if opts[:host] Event.create(opts.merge(:workspace_id => wspace[:id], :username => uname)) }) end # # Loot collection # # # This method iterates the loot table calling the supplied block with the # instance of each entry. # def each_loot(wspace=workspace, &block) wspace.loots.each do |note| block.call(note) end end # # Find or create a loot matching this type/data # def find_or_create_loot(opts) report_loot(opts.merge({:wait => true})) end def report_loot(opts) return if not active wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace path = opts.delete(:path) || (raise RuntimeError, "A loot :path is required") host = nil addr = nil # Report the host so it's there for the Proc to use below if opts[:host] if opts[:host].kind_of? Host host = opts[:host] else report_host({:workspace => wspace, :host => opts[:host]}) addr = normalize_host(opts[:host]) end end ret = {} task = queue(Proc.new { if addr and not host host = get_host(:workspace => wspace, :host => addr) end ltype = opts.delete(:type) || opts.delete(:ltype) || (raise RuntimeError, "A loot :type or :ltype is required") ctype = opts.delete(:ctype) || opts.delete(:content_type) || 'text/plain' name = opts.delete(:name) info = opts.delete(:info) data = opts[:data] loot = wspace.loots.new if host loot.host_id = host[:id] end if opts[:service] and opts[:service].kind_of? Service loot.service_id = opts[:service][:id] end loot.path = path loot.ltype = ltype loot.content_type = ctype loot.data = data loot.name = name if name loot.info = info if info msf_import_timestamps(opts,loot) loot.save! if !opts[:created_at] if host host.updated_at = host.created_at host.state = HostState::Alive host.save! end end ret[:loot] = loot }) if wait return nil if task.wait() != :done return ret[:loot] end return task end # # This methods returns a list of all loot in the database # def loots(wspace=workspace) wspace.loots end # # Find or create a task matching this type/data # def find_or_create_task(opts) report_task(opts.merge({:wait => true})) end def report_task(opts) return if not active wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace path = opts.delete(:path) || (raise RuntimeError, "A task :path is required") ret = {} this_task = queue(Proc.new { user = opts.delete(:user) desc = opts.delete(:desc) error = opts.delete(:error) info = opts.delete(:info) mod = opts.delete(:mod) options = opts.delete(:options) prog = opts.delete(:prog) result = opts.delete(:result) completed_at = opts.delete(:completed_at) task = wspace.tasks.new task.created_by = user task.description = desc task.error = error if error task.info = info task.module = mod task.options = options task.path = path task.progress = prog task.result = result if result msf_import_timestamps(opts,task) # Having blank completed_ats, while accurate, will cause unstoppable tasks. if completed_at.nil? || completed_at.empty? task.completed_at = opts[:updated_at] else task.completed_at = completed_at end task.save! ret[:task] = task }) if wait return nil if this_task.wait() != :done return ret[:task] end return this_task end # # This methods returns a list of all tasks in the database # def tasks(wspace=workspace) wspace.tasks end # # Find or create a task matching this type/data # def find_or_create_report(opts) report_report(opts.merge({:wait => true})) end def report_report(opts) return if not active wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace path = opts.delete(:path) || (raise RuntimeError, "A report :path is required") ret = {} this_task = queue(Proc.new { user = opts.delete(:user) options = opts.delete(:options) rtype = opts.delete(:rtype) report = wspace.reports.new report.created_by = user report.options = options report.rtype = rtype report.path = path msf_import_timestamps(opts,report) report.save! ret[:task] = report }) if wait return nil if this_task.wait() != :done return ret[:task] end return this_task end # # This methods returns a list of all reports in the database # def reports(wspace=workspace) wspace.reports end # # WMAP # Support methods # # # Report a Web Site to the database. WebSites must be tied to an existing Service # # opts MUST contain # :service* -- the service object this site should be associated with # :vhost -- the virtual host name for this particular web site` # If service is NOT specified, the following values are mandatory # :host -- the ip address of the server hosting the web site # :port -- the port number of the associated web site # :ssl -- whether or not SSL is in use on this port # # These values will be used to create new host and service records # # opts can contain # :options -- a hash of options for accessing this particular web site # # Duplicate records for a given host, port, vhost combination will be overwritten # def report_web_site(opts) return if not active wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace vhost = opts.delete(:vhost) addr = nil port = nil name = nil serv = nil if opts[:service] and opts[:service].kind_of?(Service) serv = opts[:service] else addr = opts[:host] port = opts[:port] name = opts[:ssl] ? 'https' : 'http' if not (addr and port) raise ArgumentError, "report_web_site requires service OR host/port/ssl" end # Force addr to be the address and not hostname addr = Rex::Socket.getaddress(addr) end ret = {} task = queue(Proc.new { host = serv ? serv.host : find_or_create_host( :workspace => wspace, :host => addr, :state => Msf::HostState::Alive ) if host.name.to_s.empty? host.name = vhost host.save! end serv = serv ? serv : find_or_create_service( :workspace => wspace, :host => host, :port => port, :proto => 'tcp', :state => 'open' ) # Change the service name if it is blank or it has # been explicitly specified. if opts.keys.include?(:ssl) or serv.name.to_s.empty? name = opts[:ssl] ? 'https' : 'http' serv.name = name serv.save! end host.updated_at = host.created_at host.state = HostState::Alive host.save! vhost ||= host.address site = WebSite.find_or_initialize_by_vhost_and_service_id(vhost, serv[:id]) site.options = opts[:options] if opts[:options] # XXX: msf_import_timestamps(opts, site) site.save! ret[:web_site] = site }) if wait return nil if task.wait() != :done return ret[:web_site] end return task end # # Report a Web Page to the database. WebPage must be tied to an existing Web Site # # opts MUST contain # :web_site* -- the web site object that this page should be associated with # :path -- the virtual host name for this particular web site # :code -- the http status code from requesting this page # :headers -- this is a HASH of headers (lowercase name as key) of ARRAYs of values # :body -- the document body of the server response # :query -- the query string after the path # If web_site is NOT specified, the following values are mandatory # :host -- the ip address of the server hosting the web site # :port -- the port number of the associated web site # :vhost -- the virtual host for this particular web site # :ssl -- whether or not SSL is in use on this port # # These values will be used to create new host, service, and web_site records # # opts can contain # :cookie -- the Set-Cookie headers, merged into a string # :auth -- the Authorization headers, merged into a string # :ctype -- the Content-Type headers, merged into a string # :mtime -- the timestamp returned from the server of the last modification time # :location -- the URL that a redirect points to # # Duplicate records for a given web_site, path, and query combination will be overwritten # def report_web_page(opts) return if not active wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace path = opts[:path] code = opts[:code].to_i body = opts[:body].to_s query = opts[:query].to_s headers = opts[:headers] site = nil if not (path and code and body and headers) raise ArgumentError, "report_web_page requires the path, query, code, body, and headers parameters" end if opts[:web_site] and opts[:web_site].kind_of?(WebSite) site = opts.delete(:web_site) else site = report_web_site( :workspace => wspace, :host => opts[:host], :port => opts[:port], :vhost => opts[:host], :ssl => opts[:ssl], :wait => true ) if not site raise ArgumentError, "report_web_page was unable to create the associated web site" end end ret = {} task = queue(Proc.new { page = WebPage.find_or_initialize_by_web_site_id_and_path_and_query(site[:id], path, query) page.code = code page.body = body page.headers = headers page.cookie = opts[:cookie] if opts[:cookie] page.auth = opts[:auth] if opts[:auth] page.mtime = opts[:mtime] if opts[:mtime] page.ctype = opts[:ctype] if opts[:ctype] page.location = opts[:location] if opts[:location] msf_import_timestamps(opts, page) page.save! ret[:web_page] = page }) if wait return nil if task.wait() != :done return ret[:web_page] end return task end # # Report a Web Form to the database. WebForm must be tied to an existing Web Site # # opts MUST contain # :web_site* -- the web site object that this page should be associated with # :path -- the virtual host name for this particular web site # :query -- the query string that is appended to the path (not valid for GET) # :method -- the form method, one of GET, POST, or PATH # :params -- an ARRAY of all parameters and values specified in the form # # If web_site is NOT specified, the following values are mandatory # :host -- the ip address of the server hosting the web site # :port -- the port number of the associated web site # :vhost -- the virtual host for this particular web site # :ssl -- whether or not SSL is in use on this port # # # Duplicate records for a given web_site, path, method, and params combination will be overwritten # def report_web_form(opts) return if not active wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace path = opts[:path] meth = opts[:method].to_s.upcase para = opts[:params] quer = opts[:query].to_s site = nil if not (path and meth) raise ArgumentError, "report_web_form requires the path and method parameters" end if not %W{GET POST PATH}.include?(meth) raise ArgumentError, "report_web_form requires the method to be one of GET, POST, PATH" end if opts[:web_site] and opts[:web_site].kind_of?(WebSite) site = opts.delete(:web_site) else site = report_web_site( :workspace => wspace, :host => opts[:host], :port => opts[:port], :vhost => opts[:host], :ssl => opts[:ssl], :wait => true ) if not site raise ArgumentError, "report_web_form was unable to create the associated web site" end end ret = {} task = queue(Proc.new { # Since one of our serialized fields is used as a unique parameter, we must do the final # comparisons through ruby and not SQL. form = nil WebForm.find_all_by_web_site_id_and_path_and_method_and_query(site[:id], path, meth, quer).each do |xform| if xform.params == para form = xform break end end if not form form = WebForm.new form.web_site_id = site[:id] form.path = path form.method = meth form.params = para form.query = quer end msf_import_timestamps(opts, form) form.save! ret[:web_form] = form }) if wait return nil if task.wait() != :done return ret[:web_form] end return task end # # Report a Web Vuln to the database. WebVuln must be tied to an existing Web Site # # opts MUST contain # :web_site* -- the web site object that this page should be associated with # :path -- the virtual host name for this particular web site # :query -- the query string appended to the path (not valid for GET method flaws) # :method -- the form method, one of GET, POST, or PATH # :params -- an ARRAY of all parameters and values specified in the form # :pname -- the specific field where the vulnerability occurs # :proof -- the string showing proof of the vulnerability # :risk -- an INTEGER value from 0 to 5 indicating the risk (5 is highest) # :name -- the string indicating the type of vulnerability # # If web_site is NOT specified, the following values are mandatory # :host -- the ip address of the server hosting the web site # :port -- the port number of the associated web site # :vhost -- the virtual host for this particular web site # :ssl -- whether or not SSL is in use on this port # # # Duplicate records for a given web_site, path, method, pname, and name combination will be overwritten # def report_web_vuln(opts) return if not active wait = opts.delete(:wait) wspace = opts.delete(:workspace) || workspace path = opts[:path] meth = opts[:method] para = opts[:params] || [] quer = opts[:query].to_s pname = opts[:pname] proof = opts[:proof] risk = opts[:risk].to_i name = opts[:name].to_s.strip blame = opts[:blame].to_s.strip desc = opts[:description].to_s.strip conf = opts[:confidence].to_i cat = opts[:category].to_s.strip site = nil if not (path and meth and proof and pname) raise ArgumentError, "report_web_vuln requires the path, method, proof, risk, name, params, and pname parameters. Received #{opts.inspect}" end if not %W{GET POST PATH}.include?(meth) raise ArgumentError, "report_web_vuln requires the method to be one of GET, POST, PATH. Received '#{meth}'" end if risk < 0 or risk > 5 raise ArgumentError, "report_web_vuln requires the risk to be between 0 and 5 (inclusive). Received '#{risk}'" end if conf < 0 or conf > 100 raise ArgumentError, "report_web_vuln requires the confidence to be between 1 and 100 (inclusive). Received '#{conf}'" end if cat.empty? raise ArgumentError, "report_web_vuln requires the category to be a valid string" end if name.empty? raise ArgumentError, "report_web_vuln requires the name to be a valid string" end if opts[:web_site] and opts[:web_site].kind_of?(WebSite) site = opts.delete(:web_site) else site = report_web_site( :workspace => wspace, :host => opts[:host], :port => opts[:port], :vhost => opts[:host], :ssl => opts[:ssl], :wait => true ) if not site raise ArgumentError, "report_web_form was unable to create the associated web site" end end ret = {} task = queue(Proc.new { meth = meth.to_s.upcase vuln = WebVuln.find_or_initialize_by_web_site_id_and_path_and_method_and_pname_and_category_and_query(site[:id], path, meth, pname, cat, quer) vuln.name = name vuln.risk = risk vuln.params = para vuln.proof = proof.to_s vuln.category = cat vuln.blame = blame vuln.description = desc vuln.confidence = conf msf_import_timestamps(opts, vuln) vuln.save! ret[:web_vuln] = vuln }) if wait return nil if task.wait() != :done return ret[:web_vuln] end return task end # # WMAP # Selected host # def selected_host selhost = WmapTarget.find(:first, :conditions => ["selected != 0"] ) if selhost return selhost.host else return end end # # WMAP # Selected port # def selected_port WmapTarget.find(:first, :conditions => ["selected != 0"] ).port end # # WMAP # Selected ssl # def selected_ssl WmapTarget.find(:first, :conditions => ["selected != 0"] ).ssl end # # WMAP # Selected id # def selected_id WmapTarget.find(:first, :conditions => ["selected != 0"] ).object_id end # # WMAP # This method iterates the requests table identifiying possible targets # This method wiil be remove on second phase of db merging. # def each_distinct_target(&block) request_distinct_targets.each do |target| block.call(target) end end # # WMAP # This method returns a list of all possible targets available in requests # This method wiil be remove on second phase of db merging. # def request_distinct_targets WmapRequest.find(:all, :select => 'DISTINCT host,address,port,ssl') end # # WMAP # This method iterates the requests table returning a list of all requests of a specific target # def each_request_target_with_path(&block) target_requests('AND wmap_requests.path IS NOT NULL').each do |req| block.call(req) end end # # WMAP # This method iterates the requests table returning a list of all requests of a specific target # def each_request_target_with_query(&block) target_requests('AND wmap_requests.query IS NOT NULL').each do |req| block.call(req) end end # # WMAP # This method iterates the requests table returning a list of all requests of a specific target # def each_request_target_with_body(&block) target_requests('AND wmap_requests.body IS NOT NULL').each do |req| block.call(req) end end # # WMAP # This method iterates the requests table returning a list of all requests of a specific target # def each_request_target_with_headers(&block) target_requests('AND wmap_requests.headers IS NOT NULL').each do |req| block.call(req) end end # # WMAP # This method iterates the requests table returning a list of all requests of a specific target # def each_request_target(&block) target_requests('').each do |req| block.call(req) end end # # WMAP # This method returns a list of all requests from target # def target_requests(extra_condition) WmapRequest.find(:all, :conditions => ["wmap_requests.host = ? AND wmap_requests.port = ? #{extra_condition}",selected_host,selected_port]) end # # WMAP # This method iterates the requests table calling the supplied block with the # request instance of each entry. # def each_request(&block) requests.each do |request| block.call(request) end end # # WMAP # This method allows to query directly the requests table. To be used mainly by modules # def request_sql(host,port,extra_condition) WmapRequest.find(:all, :conditions => ["wmap_requests.host = ? AND wmap_requests.port = ? #{extra_condition}",host,port]) end # # WMAP # This methods returns a list of all targets in the database # def requests WmapRequest.find(:all) end # # WMAP # This method iterates the targets table calling the supplied block with the # target instance of each entry. # def each_target(&block) targets.each do |target| block.call(target) end end # # WMAP # This methods returns a list of all targets in the database # def targets WmapTarget.find(:all) end # # WMAP # This methods deletes all targets from targets table in the database # def delete_all_targets WmapTarget.delete_all end # # WMAP # Find a target matching this id # def get_target(id) target = WmapTarget.find(:first, :conditions => [ "id = ?", id]) return target end # # WMAP # Create a target # def create_target(host,port,ssl,sel) tar = WmapTarget.create( :host => host, :address => host, :port => port, :ssl => ssl, :selected => sel ) #framework.events.on_db_target(rec) end # # WMAP # Create a request (by hand) # def create_request(host,port,ssl,meth,path,headers,query,body,respcode,resphead,response) req = WmapRequest.create( :host => host, :address => host, :port => port, :ssl => ssl, :meth => meth, :path => path, :headers => headers, :query => query, :body => body, :respcode => respcode, :resphead => resphead, :response => response ) #framework.events.on_db_request(rec) end # # WMAP # Quick way to query the database (used by wmap_sql) # def sql_query(sqlquery) ActiveRecord::Base.connection.select_all(sqlquery) end # Returns a REXML::Document from the given data. def rexmlify(data) if data.kind_of?(REXML::Document) return data else # Make an attempt to recover from a REXML import fail, since # it's better than dying outright. begin return REXML::Document.new(data) rescue REXML::ParseException => e dlog("REXML error: Badly formatted XML, attempting to recover. Error was: #{e.inspect}") return REXML::Document.new(data.gsub(/([\x00-\x08\x0b\x0c\x0e-\x1f\x80-\xff])/){ |x| "\\x%.2x" % x.unpack("C*")[0] }) end end end # Handles timestamps from Metasploit Express imports. def msf_import_timestamps(opts,obj) obj.created_at = opts["created_at"] if opts["created_at"] obj.created_at = opts[:created_at] if opts[:created_at] obj.updated_at = opts["updated_at"] ? opts["updated_at"] : obj.created_at obj.updated_at = opts[:updated_at] ? opts[:updated_at] : obj.created_at return obj end ## # # Import methods # ## # # Generic importer that automatically determines the file type being # imported. Since this looks for vendor-specific strings in the given # file, there shouldn't be any false detections, but no guarantees. # def import_file(args={}, &block) filename = args[:filename] || args['filename'] wspace = args[:wspace] || args['wspace'] || workspace @import_filedata = {} @import_filedata[:filename] = filename data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end case data[0,4] when "PK\x03\x04" data = Zip::ZipFile.open(filename) when "\xd4\xc3\xb2\xa1", "\xa1\xb2\xc3\xd4" data = PacketFu::PcapFile.new.readfile(filename) end if block import(args.merge(:data => data)) { |type,data| yield type,data } else import(args.merge(:data => data)) end end # A dispatcher method that figures out the data's file type, # and sends it off to the appropriate importer. Note that # import_file_detect will raise an error if the filetype # is unknown. def import(args={}, &block) data = args[:data] || args['data'] wspace = args[:wspace] || args['wspace'] || workspace ftype = import_filetype_detect(data) yield(:filetype, @import_filedata[:type]) if block self.send "import_#{ftype}".to_sym, args, &block end # Returns one of: :nexpose_simplexml :nexpose_rawxml :nmap_xml :openvas_xml # :nessus_xml :nessus_xml_v2 :qualys_xml :msf_xml :nessus_nbe :amap_mlog # :amap_log :ip_list, :msf_zip, :libpcap # If there is no match, an error is raised instead. def import_filetype_detect(data) if data and data.kind_of? Zip::ZipFile raise DBImportError.new("The zip file provided is empty.") if data.entries.empty? @import_filedata ||= {} @import_filedata[:zip_filename] = File.split(data.to_s).last @import_filedata[:zip_basename] = @import_filedata[:zip_filename].gsub(/\.zip$/,"") @import_filedata[:zip_entry_names] = data.entries.map {|x| x.name} @import_filedata[:zip_xml] = @import_filedata[:zip_entry_names].grep(/^(.*)_[0-9]+\.xml$/).first @import_filedata[:zip_wspace] = @import_filedata[:zip_xml].to_s.match(/^(.*)_[0-9]+\.xml$/)[1] @import_filedata[:type] = "Metasploit ZIP Report" if @import_filedata[:zip_xml] return :msf_zip else raise DBImportError.new("The zip file provided is not a Metasploit ZIP report") end end if data and data.kind_of? PacketFu::PcapFile raise DBImportError.new("The pcap file provided is empty.") if data.body.empty? @import_filedata ||= {} @import_filedata[:type] = "Libpcap Packet Capture" return :libpcap end # Text string kinds of data. if data and data.to_s.strip.size.zero? raise DBImportError.new("The data provided to the import function was empty") end di = data.index("\n") firstline = data[0, di] @import_filedata ||= {} if (firstline.index("")) @import_filedata[:type] = "Retina XML" return :retina_xml elsif (firstline.index("")) @import_filedata[:type] = "Nessus XML (v1)" return :nessus_xml elsif (firstline.index("]/ case $1 when "nmaprun" @import_filedata[:type] = "Nmap XML" return :nmap_xml when "openvas-report" @import_filedata[:type] = "OpenVAS Report" return :openvas_xml when "NessusClientData" @import_filedata[:type] = "Nessus XML (v1)" return :nessus_xml when "NessusClientData_v2" @import_filedata[:type] = "Nessus XML (v2)" return :nessus_xml_v2 when "SCAN" @import_filedata[:type] = "Qualys XML" return :qualys_xml when /MetasploitExpressV[1234]/ @import_filedata[:type] = "Metasploit XML" return :msf_xml when /MetasploitV4/ @import_filedata[:type] = "Metasploit XML" return :msf_xml when /netsparker/ @import_filedata[:type] = "NetSparker XML" return :netsparker_xml when /audits/ @import_filedata[:type] = "IP360 XML v3" return :ip360_xml_v3 else # Give up if we haven't hit the root tag in the first few lines break if line_count > 10 end line_count += 1 } elsif (firstline.index("timestamps|||scan_start")) @import_filedata[:type] = "Nessus NBE Report" # then it's a nessus nbe return :nessus_nbe elsif (firstline.index("# amap v")) # then it's an amap mlog @import_filedata[:type] = "Amap Log -m" return :amap_mlog elsif (firstline.index("amap v")) # then it's an amap log @import_filedata[:type] = "Amap Log" return :amap_log elsif (firstline =~ /^\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}/) # then its an IP list @import_filedata[:type] = "IP Address List" return :ip_list elsif (data[0,1024].index(" data)) end # The libpcap file format is handled by PacketFu for data # extraction. TODO: Make this its own mixin, and possibly # extend PacketFu to do better stream analysis on the fly. def import_libpcap(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] # seen_hosts is only used for determining when to yield an address. Once we get # some packet analysis going, the values will have all sorts of info. The plan # is to ru through all the packets as a first pass and report host and service, # then, once we have everything parsed, we can reconstruct sessions and ngrep # out things like authentication sequences, examine ttl's and window sizes, all # kinds of crazy awesome stuff like that. seen_hosts = {} decoded_packets = 0 last_count = 0 data.body.map {|p| p.data}.each do |p| if (decoded_packets >= last_count + 1000) and block yield(:pcap_count, decoded_packets) last_count = decoded_packets end decoded_packets += 1 pkt = PacketFu::Packet.parse(p) rescue next # Just silently skip bad packets next unless pkt.is_ip? # Skip anything that's not IP. Technically, not Ethernet::Ip saddr = pkt.ip_saddr daddr = pkt.ip_daddr # Handle blacklists and obviously useless IP addresses, and report the host. next if (bl | [saddr,daddr]).size == bl.size # Both hosts are blacklisted, skip everything. unless( bl.include?(saddr) || rfc3330_reserved(saddr)) yield(:address,saddr) if block and !seen_hosts.keys.include?(saddr) report_host(:workspace => wspace, :host => saddr, :state => Msf::HostState::Alive) unless seen_hosts[saddr] seen_hosts[saddr] ||= [] end unless( bl.include?(daddr) || rfc3330_reserved(daddr)) yield(:address,daddr) if block and !seen_hosts.keys.include?(daddr) report_host(:workspace => wspace, :host => daddr, :state => Msf::HostState::Alive) unless seen_hosts[daddr] seen_hosts[daddr] ||= [] end if pkt.is_tcp? # First pass on TCP packets if (pkt.tcp_flags.syn == 1 and pkt.tcp_flags.ack == 1) or # Oh, this kills me pkt.tcp_src < 1024 # If it's a low port, assume it's a proper service. if seen_hosts[saddr] unless seen_hosts[saddr].include? [pkt.tcp_src,"tcp"] report_service( :workspace => wspace, :host => saddr, :proto => "tcp", :port => pkt.tcp_src, :state => Msf::ServiceState::Open ) seen_hosts[saddr] << [pkt.tcp_src,"tcp"] yield(:service,"%s:%d/%s" % [saddr,pkt.tcp_src,"tcp"]) end end end elsif pkt.is_udp? # First pass on UDP packets if pkt.udp_src == pkt.udp_dst # Very basic p2p detection. [saddr,daddr].each do |xaddr| if seen_hosts[xaddr] unless seen_hosts[xaddr].include? [pkt.udp_src,"udp"] report_service( :workspace => wspace, :host => xaddr, :proto => "udp", :port => pkt.udp_src, :state => Msf::ServiceState::Open ) seen_hosts[xaddr] << [pkt.udp_src,"udp"] yield(:service,"%s:%d/%s" % [xaddr,pkt.udp_src,"udp"]) end end end elsif pkt.udp_src < 1024 # Probably a service if seen_hosts[saddr] unless seen_hosts[saddr].include? [pkt.udp_src,"udp"] report_service( :workspace => wspace, :host => saddr, :proto => "udp", :port => pkt.udp_src, :state => Msf::ServiceState::Open ) seen_hosts[saddr] << [pkt.udp_src,"udp"] yield(:service,"%s:%d/%s" % [saddr,pkt.udp_src,"udp"]) end end end end # tcp or udp inspect_single_packet(pkt,wspace) end # data.body.map # Right about here, we should have built up some streams for some stream analysis. # Not sure what form that will take, but people like shoving many hundreds of # thousands of packets through this thing, so it'll need to be memory efficient. end # Do all the single packet analysis we can while churning through the pcap # the first time. Multiple packet inspection will come later, where we can # do stream analysis, compare requests and responses, etc. def inspect_single_packet(pkt,wspace) if pkt.is_tcp? or pkt.is_udp? inspect_single_packet_http(pkt,wspace) end end # Checks for packets that are headed towards port 80, are tcp, contain an HTTP/1.0 # line, contains an Authorization line, contains a b64-encoded credential, and # extracts it. Reports this credential and solidifies the service as HTTP. def inspect_single_packet_http(pkt,wspace) # First, check the server side (data from port 80). if pkt.is_tcp? and pkt.tcp_src == 80 and !pkt.payload.nil? and !pkt.payload.empty? if pkt.payload =~ /^HTTP\x2f1\x2e[01]/ http_server_match = pkt.payload.match(/\nServer:\s+([^\r\n]+)[\r\n]/) if http_server_match.kind_of?(MatchData) and http_server_match[1] report_service( :workspace => wspace, :host => pkt.ip_saddr, :port => pkt.tcp_src, :proto => "tcp", :name => "http", :info => http_server_match[1], :state => Msf::ServiceState::Open ) # That's all we want to know from this service. return :something_significant end end end # Next, check the client side (data to port 80) if pkt.is_tcp? and pkt.tcp_dst == 80 and !pkt.payload.nil? and !pkt.payload.empty? if pkt.payload.match(/[\x00-\x20]HTTP\x2f1\x2e[10]/) auth_match = pkt.payload.match(/\nAuthorization:\s+Basic\s+([A-Za-z0-9=\x2b]+)/) if auth_match.kind_of?(MatchData) and auth_match[1] b64_cred = auth_match[1] else return false end # If we're this far, we can surmise that at least the client is a web browser, # he thinks the server is HTTP and he just made an authentication attempt. At # this point, we'll just believe everything the packet says -- validation ought # to come later. user,pass = b64_cred.unpack("m*").first.split(/:/,2) report_service( :workspace => wspace, :host => pkt.ip_daddr, :port => pkt.tcp_dst, :proto => "tcp", :name => "http" ) report_auth_info( :workspace => wspace, :host => pkt.ip_daddr, :port => pkt.tcp_dst, :proto => "tcp", :type => "password", :active => true, # Once we can build a stream, determine if the auth was successful. For now, assume it is. :user => user, :pass => pass ) # That's all we want to know from this service. return :something_significant end end end # # Metasploit PWDump Export # # This file format is generated by the db_export -f pwdump and # the Metasploit Express and Pro report types of "PWDump." # # This particular block scheme is temporary, since someone is # bound to want to import gigantic lists, so we'll want a # stream parser eventually (just like the other non-nmap formats). # # The file format is: # # 1.2.3.4:23/tcp (telnet) # username password # user2 p\x01a\x02ss2 # pass3 # user3 # smbuser:sid:lmhash:nthash::: # # Note the leading hash for the host:port line. Note also all usernames # and passwords must be in 7-bit ASCII (character sequences of "\x01" # will be interpolated -- this includes spaces, which must be notated # as "\x20". Blank usernames or passwords should be . # def import_msf_pwdump(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] last_host = nil addr = nil port = nil proto = nil sname = nil ptype = nil active = false # Are there cases where imported creds are good? I just hate trusting the import right away. data.each_line do |line| case line when /^[\s]*#/ # Comment lines if line[/^#[\s]*([0-9.]+):([0-9]+)(\x2f(tcp|udp))?[\s]*(\x28([^\x29]*)\x29)?/] addr = $1 port = $2 proto = $4 sname = $6 end when /^[\s]*Warning:/ next # Discard warning messages. when /^[\s]*([^\s:]+):[0-9]+:([A-Fa-f0-9]+:[A-Fa-f0-9]+):[^\s]*$/ # SMB Hash user = ([nil, ""].include?($1)) ? "" : $1 pass = ([nil, ""].include?($2)) ? "" : $2 ptype = "smb_hash" when /^[\s]*([^\s:]+):([0-9]+):NO PASSWORD\*+:NO PASSWORD\*+[^\s]*$/ # SMB Hash user = ([nil, ""].include?($1)) ? "" : $1 pass = "" ptype = "smb_hash" when /^[\s]*([\x21-\x7f]+)[\s]+([\x21-\x7f]+)?/ # Must be a user pass user = ([nil, ""].include?($1)) ? "" : dehex($1) pass = ([nil, ""].include?($2)) ? "" : dehex($2) ptype = "password" else # Some unknown line not broken by a space. next end next unless [addr,port,user,pass].compact.size == 4 next unless ipv4_validator(addr) # Skip Malformed addrs next unless port[/^[0-9]+$/] # Skip malformed ports if bl.include? addr next else yield(:address,addr) if block and addr != last_host last_host = addr end cred_info = { :host => addr, :port => port, :user => user, :pass => pass, :type => ptype, :workspace => wspace } cred_info[:proto] = proto if proto cred_info[:sname] = sname if sname cred_info[:active] = active report_auth_info(cred_info) user = pass = ptype = nil end end # If hex notation is present, turn them into a character. def dehex(str) hexen = str.scan(/\x5cx[0-9a-fA-F]{2}/) hexen.each { |h| str.gsub!(h,h[2,2].to_i(16).chr) } return str end # # Nexpose Simple XML # # XXX At some point we'll want to make this a stream parser for dealing # with large results files # def import_nexpose_simplexml_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_nexpose_simplexml(args.merge(:data => data)) end # Import a Metasploit XML file. def import_msf_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_msf_xml(args.merge(:data => data)) end # Import a Metasploit Express ZIP file. Note that this requires # a fair bit of filesystem manipulation, and is very much tied # up with the Metasploit Express ZIP file format export (for # obvious reasons). In the event directories exist, they will # be reused. If target files exist, they will be overwritten. # # XXX: Refactor so it's not quite as sanity-blasting. def import_msf_zip(args={}, &block) data = args[:data] wpsace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] new_tmp = ::File.join(Dir::tmpdir,"msf","imp_#{Rex::Text::rand_text_alphanumeric(4)}",@import_filedata[:zip_basename]) if ::File.exists? new_tmp unless (::File.directory?(new_tmp) && ::File.writable?(new_tmp)) raise DBImportError.new("Could not extract zip file to #{new_tmp}") end else FileUtils.mkdir_p(new_tmp) end @import_filedata[:zip_tmp] = new_tmp @import_filedata[:zip_tmp_subdirs] = @import_filedata[:zip_entry_names].map {|x| ::File.split(x)}.map {|x| x[0]}.uniq.reject {|x| x == "."} @import_filedata[:zip_tmp_subdirs].each {|sub| tmp_subdirs = ::File.join(@import_filedata[:zip_tmp],sub) if File.exists? tmp_subdirs unless (::File.directory?(tmp_subdirs) && File.writable?(tmp_subdirs)) raise DBImportError.new("Could not extract zip file to #{tmp_subdirs}") end else ::FileUtils.mkdir(tmp_subdirs) end } data.entries.each do |e| target = ::File.join(@import_filedata[:zip_tmp],e.name) ::File.unlink target if ::File.exists?(target) # Yep. Deleted. data.extract(e,target) if target =~ /^.*.xml$/ target_data = ::File.open(target) {|f| f.read 1024} if import_filetype_detect(target_data) == :msf_xml @import_filedata[:zip_extracted_xml] = target break end end end # This will kick the newly-extracted XML file through # the import_file process all over again. if @import_filedata[:zip_extracted_xml] new_args = args.dup new_args[:filename] = @import_filedata[:zip_extracted_xml] new_args[:data] = nil new_args[:ifd] = @import_filedata.dup if block import_file(new_args, &block) else import_file(new_args) end end # Kick down to all the MSFX ZIP specific items if block import_msf_collateral(new_args, &block) else import_msf_collateral(new_args) end end # Imports loot, tasks, and reports from an MSF ZIP report. # XXX: This function is stupidly long. It needs to be refactored. def import_msf_collateral(args={}, &block) data = ::File.open(args[:filename], "rb") {|f| f.read(f.stat.size)} wspace = args[:wspace] || args['wspace'] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] basedir = args[:basedir] || args['basedir'] || ::File.join(Msf::Config.install_root, "data", "msf") allow_yaml = false btag = nil doc = rexmlify(data) if doc.elements["MetasploitExpressV1"] m_ver = 1 allow_yaml = true btag = "MetasploitExpressV1" elsif doc.elements["MetasploitExpressV2"] m_ver = 2 allow_yaml = true btag = "MetasploitExpressV2" elsif doc.elements["MetasploitExpressV3"] m_ver = 3 btag = "MetasploitExpressV3" elsif doc.elements["MetasploitExpressV4"] m_ver = 4 btag = "MetasploitExpressV4" elsif doc.elements["MetasploitV4"] m_ver = 4 btag = "MetasploitV4" else m_ver = nil end unless m_ver and btag raise DBImportError.new("Unsupported Metasploit XML document format") end host_info = {} doc.elements.each("/#{btag}/hosts/host") do |host| host_info[host.elements["id"].text.to_s.strip] = nils_for_nulls(host.elements["address"].text.to_s.strip) end # Import Loot doc.elements.each("/#{btag}/loots/loot") do |loot| next if bl.include? host_info[loot.elements["host-id"].text.to_s.strip] loot_info = {} loot_info[:host] = host_info[loot.elements["host-id"].text.to_s.strip] loot_info[:workspace] = args[:wspace] loot_info[:ctype] = nils_for_nulls(loot.elements["content-type"].text.to_s.strip) loot_info[:info] = nils_for_nulls(unserialize_object(loot.elements["info"], allow_yaml)) loot_info[:ltype] = nils_for_nulls(loot.elements["ltype"].text.to_s.strip) loot_info[:name] = nils_for_nulls(loot.elements["name"].text.to_s.strip) loot_info[:created_at] = nils_for_nulls(loot.elements["created-at"].text.to_s.strip) loot_info[:updated_at] = nils_for_nulls(loot.elements["updated-at"].text.to_s.strip) loot_info[:name] = nils_for_nulls(loot.elements["name"].text.to_s.strip) loot_info[:orig_path] = nils_for_nulls(loot.elements["path"].text.to_s.strip) tmp = args[:ifd][:zip_tmp] loot_info[:orig_path].gsub!(/^\./,tmp) if loot_info[:orig_path] if !loot.elements["service-id"].text.to_s.strip.empty? unless loot.elements["service-id"].text.to_s.strip == "NULL" loot_info[:service] = loot.elements["service-id"].text.to_s.strip end end # Only report loot if we actually have it. # TODO: Copypasta. Seperate this out. if ::File.exists? loot_info[:orig_path] loot_dir = ::File.join(basedir,"loot") loot_file = ::File.split(loot_info[:orig_path]).last if ::File.exists? loot_dir unless (::File.directory?(loot_dir) && ::File.writable?(loot_dir)) raise DBImportError.new("Could not move files to #{loot_dir}") end else ::FileUtils.mkdir_p(loot_dir) end new_loot = ::File.join(loot_dir,loot_file) loot_info[:path] = new_loot if ::File.exists?(new_loot) ::File.unlink new_loot # Delete it, and don't report it. else report_loot(loot_info) # It's new, so report it. end ::FileUtils.copy(loot_info[:orig_path], new_loot) yield(:msf_loot, new_loot) if block end end # Import Tasks doc.elements.each("/#{btag}/tasks/task") do |task| task_info = {} task_info[:workspace] = args[:wspace] # Should user be imported (original) or declared (the importing user)? task_info[:user] = nils_for_nulls(task.elements["created-by"].text.to_s.strip) task_info[:desc] = nils_for_nulls(task.elements["description"].text.to_s.strip) task_info[:info] = nils_for_nulls(unserialize_object(task.elements["info"], allow_yaml)) task_info[:mod] = nils_for_nulls(task.elements["module"].text.to_s.strip) task_info[:options] = nils_for_nulls(task.elements["options"].text.to_s.strip) task_info[:prog] = nils_for_nulls(task.elements["progress"].text.to_s.strip).to_i task_info[:created_at] = nils_for_nulls(task.elements["created-at"].text.to_s.strip) task_info[:updated_at] = nils_for_nulls(task.elements["updated-at"].text.to_s.strip) if !task.elements["completed-at"].text.to_s.empty? task_info[:completed_at] = nils_for_nulls(task.elements["completed-at"].text.to_s.strip) end if !task.elements["error"].text.to_s.empty? task_info[:error] = nils_for_nulls(task.elements["error"].text.to_s.strip) end if !task.elements["result"].text.to_s.empty? task_info[:result] = nils_for_nulls(task.elements["result"].text.to_s.strip) end task_info[:orig_path] = nils_for_nulls(task.elements["path"].text.to_s.strip) tmp = args[:ifd][:zip_tmp] task_info[:orig_path].gsub!(/^\./,tmp) if task_info[:orig_path] # Only report a task if we actually have it. # TODO: Copypasta. Seperate this out. if ::File.exists? task_info[:orig_path] tasks_dir = ::File.join(basedir,"tasks") task_file = ::File.split(task_info[:orig_path]).last if ::File.exists? tasks_dir unless (::File.directory?(tasks_dir) && ::File.writable?(tasks_dir)) raise DBImportError.new("Could not move files to #{tasks_dir}") end else ::FileUtils.mkdir_p(tasks_dir) end new_task = ::File.join(tasks_dir,task_file) task_info[:path] = new_task if ::File.exists?(new_task) ::File.unlink new_task # Delete it, and don't report it. else report_task(task_info) # It's new, so report it. end ::FileUtils.copy(task_info[:orig_path], new_task) yield(:msf_task, new_task) if block end end # Import Reports doc.elements.each("/#{btag}/reports/report") do |report| report_info = {} report_info[:workspace] = args[:wspace] # Should user be imported (original) or declared (the importing user)? report_info[:user] = nils_for_nulls(report.elements["created-by"].text.to_s.strip) report_info[:options] = nils_for_nulls(report.elements["options"].text.to_s.strip) report_info[:rtype] = nils_for_nulls(report.elements["rtype"].text.to_s.strip) report_info[:created_at] = nils_for_nulls(report.elements["created-at"].text.to_s.strip) report_info[:updated_at] = nils_for_nulls(report.elements["updated-at"].text.to_s.strip) report_info[:orig_path] = nils_for_nulls(report.elements["path"].text.to_s.strip) tmp = args[:ifd][:zip_tmp] report_info[:orig_path].gsub!(/^\./,tmp) if report_info[:orig_path] # Only report a report if we actually have it. # TODO: Copypasta. Seperate this out. if ::File.exists? report_info[:orig_path] reports_dir = ::File.join(basedir,"reports") report_file = ::File.split(report_info[:orig_path]).last if ::File.exists? reports_dir unless (::File.directory?(reports_dir) && ::File.writable?(reports_dir)) raise DBImportError.new("Could not move files to #{reports_dir}") end else ::FileUtils.mkdir_p(reports_dir) end new_report = ::File.join(reports_dir,report_file) report_info[:path] = new_report if ::File.exists?(new_report) ::File.unlink new_report else report_report(report_info) end ::FileUtils.copy(report_info[:orig_path], new_report) yield(:msf_report, new_report) if block end end end # For each host, step through services, notes, and vulns, and import # them. # TODO: loot, tasks, and reports def import_msf_xml(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] allow_yaml = false btag = nil doc = rexmlify(data) if doc.elements["MetasploitExpressV1"] m_ver = 1 allow_yaml = true btag = "MetasploitExpressV1" elsif doc.elements["MetasploitExpressV2"] m_ver = 2 allow_yaml = true btag = "MetasploitExpressV2" elsif doc.elements["MetasploitExpressV3"] m_ver = 3 btag = "MetasploitExpressV3" elsif doc.elements["MetasploitExpressV4"] m_ver = 4 btag = "MetasploitExpressV4" elsif doc.elements["MetasploitV4"] m_ver = 4 btag = "MetasploitV4" else m_ver = nil end unless m_ver and btag raise DBImportError.new("Unsupported Metasploit XML document format") end doc.elements.each("/#{btag}/hosts/host") do |host| host_data = {} host_data[:workspace] = wspace host_data[:host] = nils_for_nulls(host.elements["address"].text.to_s.strip) if bl.include? host_data[:host] next else yield(:address,host_data[:host]) if block end host_data[:host_mac] = nils_for_nulls(host.elements["mac"].text.to_s.strip) if host.elements["comm"].text host_data[:comm] = nils_for_nulls(host.elements["comm"].text.to_s.strip) end %W{created-at updated-at name state os-flavor os-lang os-name os-sp purpose}.each { |datum| if host.elements[datum].text host_data[datum.gsub('-','_')] = nils_for_nulls(host.elements[datum].text.to_s.strip) end } host_address = host_data[:host].dup # Preserve after report_host() deletes report_host(host_data.merge(:wait => true)) host.elements.each('services/service') do |service| service_data = {} service_data[:workspace] = wspace service_data[:host] = host_address service_data[:port] = nils_for_nulls(service.elements["port"].text.to_s.strip).to_i service_data[:proto] = nils_for_nulls(service.elements["proto"].text.to_s.strip) %W{created-at updated-at name state info}.each { |datum| if service.elements[datum].text if datum == "info" service_data["info"] = nils_for_nulls(unserialize_object(service.elements[datum], false)) else service_data[datum.gsub("-","_")] = nils_for_nulls(service.elements[datum].text.to_s.strip) end end } report_service(service_data) end host.elements.each('notes/note') do |note| note_data = {} note_data[:workspace] = wspace note_data[:host] = host_address note_data[:type] = nils_for_nulls(note.elements["ntype"].text.to_s.strip) note_data[:data] = nils_for_nulls(unserialize_object(note.elements["data"], allow_yaml)) if note.elements["critical"].text note_data[:critical] = true unless note.elements["critical"].text.to_s.strip == "NULL" end if note.elements["seen"].text note_data[:seen] = true unless note.elements["critical"].text.to_s.strip == "NULL" end %W{created-at updated-at}.each { |datum| if note.elements[datum].text note_data[datum.gsub("-","_")] = nils_for_nulls(note.elements[datum].text.to_s.strip) end } report_note(note_data) end host.elements.each('tags/tag') do |tag| tag_data = {} tag_data[:addr] = host_address tag_data[:wspace] = wspace tag_data[:name] = tag.elements["name"].text.to_s.strip tag_data[:desc] = tag.elements["desc"].text.to_s.strip if tag.elements["report-summary"].text tag_data[:summary] = tag.elements["report-summary"].text.to_s.strip end if tag.elements["report-detail"].text tag_data[:detail] = tag.elements["report-detail"].text.to_s.strip end if tag.elements["critical"].text tag_data[:crit] = true unless tag.elements["critical"].text.to_s.strip == "NULL" end report_host_tag(tag_data) end host.elements.each('vulns/vuln') do |vuln| vuln_data = {} vuln_data[:workspace] = wspace vuln_data[:host] = host_address vuln_data[:info] = nils_for_nulls(unserialize_object(vuln.elements["info"], allow_yaml)) vuln_data[:name] = nils_for_nulls(vuln.elements["name"].text.to_s.strip) %W{created-at updated-at}.each { |datum| if vuln.elements[datum].text vuln_data[datum.gsub("-","_")] = nils_for_nulls(vuln.elements[datum].text.to_s.strip) end } report_vuln(vuln_data) end host.elements.each('creds/cred') do |cred| cred_data = {} cred_data[:workspace] = wspace cred_data[:host] = host_address %W{port ptype sname proto proof active user pass}.each {|datum| if cred.elements[datum].respond_to? :text cred_data[datum.intern] = nils_for_nulls(cred.elements[datum].text.to_s.strip) end } %W{created-at updated-at}.each { |datum| if cred.elements[datum].respond_to? :text cred_data[datum.gsub("-","_")] = nils_for_nulls(cred.elements[datum].text.to_s.strip) end } if cred_data[:pass] == "" cred_data[:pass] = "" cred_data[:active] = false elsif cred_data[:pass] == "*BLANK PASSWORD*" cred_data[:pass] = "" end report_cred(cred_data.merge(:wait => true)) end host.elements.each('sessions/session') do |sess| sess_id = nils_for_nulls(sess.elements["id"].text.to_s.strip.to_i) sess_data = {} sess_data[:host] = get_host(:workspace => wspace, :address => host_address) %W{desc platform port stype}.each {|datum| if sess.elements[datum].respond_to? :text sess_data[datum.intern] = nils_for_nulls(sess.elements[datum].text.to_s.strip) end } %W{opened-at close-reason closed-at via-exploit via-payload}.each {|datum| if sess.elements[datum].respond_to? :text sess_data[datum.gsub("-","_").intern] = nils_for_nulls(sess.elements[datum].text.to_s.strip) end } sess_data[:datastore] = nils_for_nulls(unserialize_object(sess.elements["datastore"], allow_yaml)) sess_data[:routes] = nils_for_nulls(unserialize_object(sess.elements["routes"], allow_yaml)) if not sess_data[:closed_at] # Fake a close if we don't already have one sess_data[:closed_at] = Time.now sess_data[:close_reason] = "Imported at #{Time.now}" end existing_session = get_session( :workspace => sess_data[:host].workspace, :addr => sess_data[:host].address, :time => sess_data[:opened_at] ) this_session = existing_session || report_session(sess_data.merge(:wait => true)) next if existing_session sess.elements.each('events/event') do |sess_event| sess_event_data = {} sess_event_data[:session] = this_session %W{created-at etype local-path remote-path}.each {|datum| if sess_event.elements[datum].respond_to? :text sess_event_data[datum.gsub("-","_").intern] = nils_for_nulls(sess_event.elements[datum].text.to_s.strip) end } %W{command output}.each {|datum| if sess_event.elements[datum].respond_to? :text sess_event_data[datum.gsub("-","_").intern] = nils_for_nulls(unserialize_object(sess_event.elements[datum], allow_yaml)) end } report_session_event(sess_event_data) end end end # Import web sites doc.elements.each("/#{btag}/web_sites/web_site") do |web| info = {} info[:workspace] = wspace %W{host port vhost ssl comments}.each do |datum| if web.elements[datum].respond_to? :text info[datum.intern] = nils_for_nulls(web.elements[datum].text.to_s.strip) end end info[:options] = nils_for_nulls(unserialize_object(web.elements["options"], allow_yaml)) if web.elements["options"].respond_to?(:text) info[:ssl] = (info[:ssl] and info[:ssl].to_s.strip.downcase == "true") ? true : false %W{created-at updated-at}.each { |datum| if web.elements[datum].text info[datum.gsub("-","_")] = nils_for_nulls(web.elements[datum].text.to_s.strip) end } report_web_site(info) yield(:web_site, "#{info[:host]}:#{info[:port]} (#{info[:vhost]})") if block end %W{page form vuln}.each do |wtype| doc.elements.each("/#{btag}/web_#{wtype}s/web_#{wtype}") do |web| info = {} info[:workspace] = wspace info[:host] = nils_for_nulls(web.elements["host"].text.to_s.strip) if web.elements["host"].respond_to?(:text) info[:port] = nils_for_nulls(web.elements["port"].text.to_s.strip) if web.elements["port"].respond_to?(:text) info[:ssl] = nils_for_nulls(web.elements["ssl"].text.to_s.strip) if web.elements["ssl"].respond_to?(:text) info[:vhost] = nils_for_nulls(web.elements["vhost"].text.to_s.strip) if web.elements["vhost"].respond_to?(:text) info[:ssl] = (info[:ssl] and info[:ssl].to_s.strip.downcase == "true") ? true : false case wtype when "page" %W{path code body query cookie auth ctype mtime location}.each do |datum| if web.elements[datum].respond_to? :text info[datum.intern] = nils_for_nulls(web.elements[datum].text.to_s.strip) end end info[:headers] = nils_for_nulls(unserialize_object(web.elements["headers"], allow_yaml)) when "form" %W{path query method}.each do |datum| if web.elements[datum].respond_to? :text info[datum.intern] = nils_for_nulls(web.elements[datum].text.to_s.strip) end end info[:params] = nils_for_nulls(unserialize_object(web.elements["params"], allow_yaml)) when "vuln" %W{path query method pname proof risk name blame description category confidence}.each do |datum| if web.elements[datum].respond_to? :text info[datum.intern] = nils_for_nulls(web.elements[datum].text.to_s.strip) end end info[:params] = nils_for_nulls(unserialize_object(web.elements["params"], allow_yaml)) info[:risk] = info[:risk].to_i info[:confidence] = info[:confidence].to_i end %W{created-at updated-at}.each { |datum| if web.elements[datum].text info[datum.gsub("-","_")] = nils_for_nulls(web.elements[datum].text.to_s.strip) end } self.send("report_web_#{wtype}", info) yield("web_#{wtype}".intern, info[:path]) if block end end end # Convert the string "NULL" to actual nil def nils_for_nulls(str) str == "NULL" ? nil : str end def import_nexpose_simplexml(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] doc = rexmlify(data) doc.elements.each('/NeXposeSimpleXML/devices/device') do |dev| addr = dev.attributes['address'].to_s if bl.include? addr next else yield(:address,addr) if block end fprint = {} dev.elements.each('fingerprint/description') do |str| fprint[:desc] = str.text.to_s.strip end dev.elements.each('fingerprint/vendor') do |str| fprint[:vendor] = str.text.to_s.strip end dev.elements.each('fingerprint/family') do |str| fprint[:family] = str.text.to_s.strip end dev.elements.each('fingerprint/product') do |str| fprint[:product] = str.text.to_s.strip end dev.elements.each('fingerprint/version') do |str| fprint[:version] = str.text.to_s.strip end dev.elements.each('fingerprint/architecture') do |str| fprint[:arch] = str.text.to_s.upcase.strip end conf = { :workspace => wspace, :host => addr, :state => Msf::HostState::Alive } report_host(conf) report_import_note(wspace, addr) report_note( :workspace => wspace, :host => addr, :type => 'host.os.nexpose_fingerprint', :data => fprint ) # Load vulnerabilities not associated with a service dev.elements.each('vulnerabilities/vulnerability') do |vuln| vid = vuln.attributes['id'].to_s.downcase refs = process_nexpose_data_sxml_refs(vuln) next if not refs report_vuln( :workspace => wspace, :host => addr, :name => 'NEXPOSE-' + vid, :info => vid, :refs => refs) end # Load the services dev.elements.each('services/service') do |svc| sname = svc.attributes['name'].to_s sprot = svc.attributes['protocol'].to_s.downcase sport = svc.attributes['port'].to_s.to_i next if sport == 0 name = sname.split('(')[0].strip info = '' svc.elements.each('fingerprint/description') do |str| info = str.text.to_s.strip end if(sname.downcase != '') report_service(:workspace => wspace, :host => addr, :proto => sprot, :port => sport, :name => name, :info => info) else report_service(:workspace => wspace, :host => addr, :proto => sprot, :port => sport, :info => info) end # Load vulnerabilities associated with this service svc.elements.each('vulnerabilities/vulnerability') do |vuln| vid = vuln.attributes['id'].to_s.downcase refs = process_nexpose_data_sxml_refs(vuln) next if not refs report_vuln( :workspace => wspace, :host => addr, :port => sport, :proto => sprot, :name => 'NEXPOSE-' + vid, :info => vid, :refs => refs) end end end end # # Nexpose Raw XML # def import_nexpose_rawxml_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_nexpose_rawxml(args.merge(:data => data)) end def import_nexpose_rawxml(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] # Use a stream parser instead of a tree parser so we can deal with # huge results files without running out of memory. parser = Rex::Parser::NexposeXMLStreamParser.new # Since all the Refs have to be in the database before we can use them # in a Vuln, we store all the hosts until we finish parsing and only # then put everything in the database. This is memory-intensive for # large files, but should be much less so than a tree parser. # # This method is also considerably faster than parsing through the tree # looking for references every time we hit a vuln. hosts = [] vulns = [] # The callback merely populates our in-memory table of hosts and vulns parser.callback = Proc.new { |type, value| case type when :host # XXX: Blacklist should be checked here instead of saving a # host we're just going to throw away later hosts.push(value) when :vuln value["id"] = value["id"].downcase if value["id"] vulns.push(value) end } REXML::Document.parse_stream(data, parser) vuln_refs = nexpose_refs_to_struct(vulns) hosts.each do |host| if bl.include? host["addr"] next else yield(:address,host["addr"]) if block end nexpose_host_from_rawxml(host, vuln_refs, wspace) end end # # Takes an array of vuln hashes, as returned by the NeXpose rawxml stream # parser, like: # [ # {"id"=>"winreg-notes-protocol-handler", severity="8", "refs"=>[{"source"=>"BID", "value"=>"10600"}, ...]} # {"id"=>"windows-zotob-c", severity="8", "refs"=>[{"source"=>"BID", "value"=>"14513"}, ...]} # ] # and transforms it into a struct, containing :id, :refs, :title, and :severity # # Other attributes can be added later, as needed. def nexpose_refs_to_struct(vulns) ret = [] vulns.each do |vuln| next if ret.map {|v| v.id}.include? vuln["id"] vstruct = Struct.new(:id, :refs, :title, :severity).new vstruct.id = vuln["id"] vstruct.title = vuln["title"] vstruct.severity = vuln["severity"] vstruct.refs = [] vuln["refs"].each do |ref| if ref['source'] == 'BID' vstruct.refs.push('BID-' + ref["value"]) elsif ref['source'] == 'CVE' # value is CVE-$ID vstruct.refs.push(ref["value"]) elsif ref['source'] == 'MS' vstruct.refs.push('MSB-' + ref["value"]) elsif ref['source'] == 'URL' vstruct.refs.push('URL-' + ref["value"]) #else # $stdout.puts("Unknown source: #{ref["source"]}") end end ret.push vstruct end return ret end # Takes a Host object, an array of vuln structs (generated by nexpose_refs_to_struct()), # and a workspace, and reports the vulns on that host. def nexpose_host_from_rawxml(h, vstructs, wspace) data = {:workspace => wspace} if h["addr"] addr = h["addr"] else # Can't report it if it doesn't have an IP return end data[:host] = addr if (h["hardware-address"]) # Put colons between each octet of the MAC address data[:mac] = h["hardware-address"].gsub(':', '').scan(/../).join(':') end data[:state] = (h["status"] == "alive") ? Msf::HostState::Alive : Msf::HostState::Dead # Since we only have one name field per host in the database, just # take the first one. if (h["names"] and h["names"].first) data[:name] = h["names"].first end if (data[:state] != Msf::HostState::Dead) report_host(data) report_import_note(wspace, addr) end if h["os_family"] note = { :workspace => wspace, :host => addr, :type => 'host.os.nexpose_fingerprint', :data => { :family => h["os_family"], :certainty => h["os_certainty"] } } note[:data][:vendor] = h["os_vendor"] if h["os_vendor"] note[:data][:product] = h["os_product"] if h["os_product"] note[:data][:version] = h["os_version"] if h["os_version"] note[:data][:arch] = h["arch"] if h["arch"] report_note(note) end h["endpoints"].each { |p| extra = "" extra << p["product"] + " " if p["product"] extra << p["version"] + " " if p["version"] # Skip port-0 endpoints next if p["port"].to_i == 0 # XXX This should probably be handled in a more standard way # extra << "(" + p["certainty"] + " certainty) " if p["certainty"] data = {} data[:workspace] = wspace data[:proto] = p["protocol"].downcase data[:port] = p["port"].to_i data[:state] = p["status"] data[:host] = addr data[:info] = extra if not extra.empty? if p["name"] != "" data[:name] = p["name"] end report_service(data) } h["vulns"].each_pair { |k,v| next if v["status"] !~ /^vulnerable/ vstruct = vstructs.select {|vs| vs.id.to_s.downcase == v["id"].to_s.downcase}.first data = {} data[:workspace] = wspace data[:host] = addr data[:proto] = v["protocol"].downcase if v["protocol"] data[:port] = v["port"].to_i if v["port"] data[:name] = "NEXPOSE-" + v["id"] data[:info] = vstruct.title data[:refs] = vstruct.refs report_vuln(data) } end # # Retina XML # # Process a Retina XML file def import_retina_xml_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_retina_xml(args.merge(:data => data)) end # Process Retina XML def import_retina_xml(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] yield(:warning, "Warning: The Retina XML format does not associate vulnerabilities with the specific service on which they were found.\n" + " This makes it impossible to correlate exploits to discovered vulnerabilities in a reliable fashion." ) parser = Rex::Parser::RetinaXMLStreamParser.new parser.on_found_host = Proc.new do |host| data = {:workspace => wspace} addr = host['address'] next if not addr next if bl.include? addr data[:host] = addr if host['mac'] data[:mac] = host['mac'] end data[:state] = Msf::HostState::Alive if host['hostname'] data[:name] = host['hostname'] end if host['netbios'] data[:name] = host['netbios'] end yield(:address, data[:host]) if block # Import Host report_host(data) report_import_note(wspace, addr) # Import OS fingerprint if host["os"] note = { :workspace => wspace, :host => addr, :type => 'host.os.retina_fingerprint', :data => { :os => host["os"] } } report_note(note) end # Import vulnerabilities host['vulns'].each do |vuln| refs = vuln['refs'].map{|v| v.join("-")} refs << "RETINA-#{vuln['rthid']}" if vuln['rthid'] vuln_info = { :workspace => wspace, :host => addr, :name => vuln['name'], :info => vuln['description'], :refs => refs } report_vuln(vuln_info) end end REXML::Document.parse_stream(data, parser) end # # NetSparker XML # # Process a NetSparker XML file def import_netsparker_xml_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_netsparker_xml(args.merge(:data => data)) end # Process NetSparker XML def import_netsparker_xml(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] addr = nil parser = Rex::Parser::NetSparkerXMLStreamParser.new parser.on_found_vuln = Proc.new do |vuln| data = {:workspace => wspace} # Parse the URL url = vuln['url'] return if not url # Crack the URL into a URI uri = URI(url) rescue nil return if not uri # Resolve the host and cache the IP if not addr baddr = Rex::Socket.addr_aton(uri.host) rescue nil if baddr addr = Rex::Socket.addr_ntoa(baddr) yield(:address, data[:host]) if block end end # Bail early if we have no IP address if not addr raise Interrupt, "Not a valid IP address" end if bl.include?(addr) raise Interrupt, "IP address is on the blacklist" end data[:host] = addr data[:vhost] = uri.host data[:port] = uri.port data[:ssl] = (uri.scheme == "ssl") body = nil # First report a web page if vuln['response'] headers = {} code = 200 head,body = vuln['response'].to_s.split(/\r?\n\r?\n/, 2) if body if head =~ /^HTTP\d+\.\d+\s+(\d+)\s*/ code = $1.to_i end headers = {} head.split(/\r?\n/).each do |line| hname,hval = line.strip.split(/\s*:\s*/, 2) next if hval.to_s.strip.empty? headers[hname.downcase] ||= [] headers[hname.downcase] << hval end info = { :path => uri.path, :query => uri.query, :code => code, :body => body, :headers => headers } info.merge!(data) if headers['content-type'] info[:ctype] = headers['content-type'][0] end if headers['set-cookie'] info[:cookie] = headers['set-cookie'].join("\n") end if headers['authorization'] info[:auth] = headers['authorization'].join("\n") end if headers['location'] info[:location] = headers['location'][0] end if headers['last-modified'] info[:mtime] = headers['last-modified'][0] end # Report the web page to the database report_web_page(info) yield(:web_page, url) if block end end # End web_page reporting details = netsparker_vulnerability_map(vuln) method = netsparker_method_map(vuln) pname = netsparker_pname_map(vuln) params = netsparker_params_map(vuln) proof = '' if vuln['info'] and vuln['info'].length > 0 proof << vuln['info'].map{|x| "#{x[0]}: #{x[1]}\n" }.join + "\n" end if proof.empty? if body proof << body + "\n" else proof << vuln['response'].to_s + "\n" end end if params.empty? and pname params = [[pname, vuln['vparam_name'].to_s]] end info = { :path => uri.path, :query => uri.query, :method => method, :params => params, :pname => pname.to_s, :proof => proof, :risk => details[:risk], :name => details[:name], :blame => details[:blame], :category => details[:category], :description => details[:description], :confidence => details[:confidence], } info.merge!(data) next if vuln['type'].to_s.empty? report_web_vuln(info) yield(:web_vuln, url) if block end # We throw interrupts in our parser when the job is hopeless begin REXML::Document.parse_stream(data, parser) rescue ::Interrupt => e wlog("The netsparker_xml_import() job was interrupted: #{e}") end end def netsparker_method_map(vuln) case vuln['vparam_type'] when "FullQueryString" "GET" when "Querystring" "GET" when "Post" "POST" when "RawUrlInjection" "GET" else "GET" end end def netsparker_pname_map(vuln) case vuln['vparam_name'] when "URI-BASED", "Query Based" "PATH" else vuln['vparam_name'] end end def netsparker_params_map(vuln) [] end def netsparker_vulnerability_map(vuln) res = { :risk => 1, :name => 'Information Disclosure', :blame => 'System Administrator', :category => 'info', :description => "This is an information leak", :confidence => 100 } # Risk is a value from 1-5 indicating the severity of the issue # Examples: 1, 4, 5 # Name is a descriptive name for this vulnerability. # Examples: XSS, ReflectiveXSS, PersistentXSS # Blame indicates who is at fault for the vulnerability # Examples: App Developer, Server Developer, System Administrator # Category indicates the general class of vulnerability # Examples: info, xss, sql, rfi, lfi, cmd # Description is a textual summary of the vulnerability # Examples: "A reflective cross-site scripting attack" # "The web server leaks the internal IP address" # "The cookie is not set to HTTP-only" # # Confidence is a value from 1 to 100 indicating how confident the # software is that the results are valid. # Examples: 100, 90, 75, 15, 10, 0 case vuln['type'].to_s when "ApacheDirectoryListing" res = { :risk => 1, :name => 'Directory Listing', :blame => 'System Administrator', :category => 'info', :description => "", :confidence => 100 } when "ApacheMultiViewsEnabled" res = { :risk => 1, :name => 'Apache MultiViews Enabled', :blame => 'System Administrator', :category => 'info', :description => "", :confidence => 100 } when "ApacheVersion" res = { :risk => 1, :name => 'Web Server Version', :blame => 'System Administrator', :category => 'info', :description => "", :confidence => 100 } when "PHPVersion" res = { :risk => 1, :name => 'PHP Module Version', :blame => 'System Administrator', :category => 'info', :description => "", :confidence => 100 } when "AutoCompleteEnabled" res = { :risk => 1, :name => 'Form AutoComplete Enabled', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "CookieNotMarkedAsHttpOnly" res = { :risk => 1, :name => 'Cookie Not HttpOnly', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "EmailDisclosure" res = { :risk => 1, :name => 'Email Address Disclosure', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "ForbiddenResource" res = { :risk => 1, :name => 'Forbidden Resource', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "FileUploadFound" res = { :risk => 1, :name => 'File Upload Form', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "PasswordOverHTTP" res = { :risk => 2, :name => 'Password Over HTTP', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "MySQL5Identified" res = { :risk => 1, :name => 'MySQL 5 Identified', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "PossibleInternalWindowsPathLeakage" res = { :risk => 1, :name => 'Path Leakage - Windows', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "PossibleInternalUnixPathLeakage" res = { :risk => 1, :name => 'Path Leakage - Unix', :blame => 'App Developer', :category => 'info', :description => "", :confidence => 100 } when "PossibleXSS", "LowPossibilityPermanentXSS", "XSS", "PermanentXSS" conf = 100 conf = 25 if vuln['type'].to_s == "LowPossibilityPermanentXSS" conf = 50 if vuln['type'].to_s == "PossibleXSS" res = { :risk => 3, :name => 'Cross-Site Scripting', :blame => 'App Developer', :category => 'xss', :description => "", :confidence => conf } when "ConfirmedBlindSQLInjection", "ConfirmedSQLInjection", "HighlyPossibleSqlInjection", "DatabaseErrorMessages" conf = 100 conf = 90 if vuln['type'].to_s == "HighlyPossibleSqlInjection" conf = 25 if vuln['type'].to_s == "DatabaseErrorMessages" res = { :risk => 5, :name => 'SQL Injection', :blame => 'App Developer', :category => 'sql', :description => "", :confidence => conf } else conf = 100 res = { :risk => 1, :name => vuln['type'].to_s, :blame => 'App Developer', :category => 'info', :description => "", :confidence => conf } end res end # # Import Nmap's -oX xml output # def import_nmap_xml_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_nmap_xml(args.merge(:data => data)) end # Too many functions in one def! Refactor this. def import_nmap_xml(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] fix_services = args[:fix_services] # Use a stream parser instead of a tree parser so we can deal with # huge results files without running out of memory. parser = Rex::Parser::NmapXMLStreamParser.new # Whenever the parser pulls a host out of the nmap results, store # it, along with any associated services, in the database. parser.on_found_host = Proc.new { |h| data = {:workspace => wspace} if (h["addrs"].has_key?("ipv4")) addr = h["addrs"]["ipv4"] elsif (h["addrs"].has_key?("ipv6")) addr = h["addrs"]["ipv6"] else # Can't report it if it doesn't have an IP raise RuntimeError, "At least one IPv4 or IPv6 address is required" end next if bl.include? addr data[:host] = addr if (h["addrs"].has_key?("mac")) data[:mac] = h["addrs"]["mac"] end data[:state] = (h["status"] == "up") ? Msf::HostState::Alive : Msf::HostState::Dead if ( h["reverse_dns"] ) data[:name] = h["reverse_dns"] end # Only report alive hosts with ports to speak of. if(data[:state] != Msf::HostState::Dead) if h["ports"].size > 0 if fix_services port_states = h["ports"].map {|p| p["state"]}.reject {|p| p == "filtered"} next if port_states.compact.empty? end yield(:address,data[:host]) if block report_host(data) report_import_note(wspace,addr) end end if( h["os_vendor"] ) note = { :workspace => wspace, :host => addr, :type => 'host.os.nmap_fingerprint', :data => { :os_vendor => h["os_vendor"], :os_family => h["os_family"], :os_version => h["os_version"], :os_accuracy => h["os_accuracy"] } } if(h["os_match"]) note[:data][:os_match] = h['os_match'] end report_note(note) end if (h["last_boot"]) report_note( :workspace => wspace, :host => addr, :type => 'host.last_boot', :data => { :time => h["last_boot"] } ) end if (h["trace"]) hops = [] h["trace"]["hops"].each do |hop| hops << { "ttl" => hop["ttl"].to_i, "address" => hop["ipaddr"].to_s, "rtt" => hop["rtt"].to_f, "name" => hop["host"].to_s } end report_note( :workspace => wspace, :host => addr, :type => 'host.nmap.traceroute', :data => { 'port' => h["trace"]["port"].to_i, 'proto' => h["trace"]["proto"].to_s, 'hops' => hops } ) end # Put all the ports, regardless of state, into the db. h["ports"].each { |p| # Localhost port results are pretty unreliable -- if it's # unknown, it's no good (possibly Windows-only) if ( p["state"] == "unknown" && h["status_reason"] == "localhost-response" ) next end extra = "" extra << p["product"] + " " if p["product"] extra << p["version"] + " " if p["version"] extra << p["extrainfo"] + " " if p["extrainfo"] data = {} data[:workspace] = wspace if fix_services data[:proto] = nmap_msf_service_map(p["protocol"]) else data[:proto] = p["protocol"].downcase end data[:port] = p["portid"].to_i data[:state] = p["state"] data[:host] = addr data[:info] = extra if not extra.empty? if p["name"] != "unknown" data[:name] = p["name"] end report_service(data) } } REXML::Document.parse_stream(data, parser) end def nmap_msf_service_map(proto) return proto unless proto.kind_of? String case proto.downcase when "msrpc", "nfs-or-iis"; "dcerpc" when "netbios-ns"; "netbios" when "netbios-ssn", "microsoft-ds"; "smb" when "ms-sql-s"; "mssql" when "ms-sql-m"; "mssql-m" when "postgresql"; "postgres" when "http-proxy"; "http" when "iiimsf"; "db2" else proto.downcase end end def report_import_note(wspace,addr) if @import_filedata.kind_of?(Hash) && @import_filedata[:filename] && @import_filedata[:filename] !~ /msfe-nmap[0-9]{8}/ report_note( :workspace => wspace, :host => addr, :type => 'host.imported', :data => @import_filedata.merge(:time=> Time.now.utc) ) end end # # Import Nessus NBE files # def import_nessus_nbe_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_nessus_nbe(args.merge(:data => data)) end def import_nessus_nbe(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] nbe_copy = data.dup # First pass, just to build the address map. addr_map = {} nbe_copy.each_line do |line| r = line.split('|') next if r[0] != 'results' next if r[4] != "12053" data = r[6] addr,hname = data.match(/([0-9\x2e]+) resolves as (.+)\x2e\\n/)[1,2] addr_map[hname] = addr end data.each_line do |line| r = line.split('|') next if r[0] != 'results' hname = r[2] if addr_map[hname] addr = addr_map[hname] else addr = hname # Must be unresolved, probably an IP address. end port = r[3] nasl = r[4] type = r[5] data = r[6] # If there's no resolution, or if it's malformed, skip it. next unless ipv4_validator(addr) if bl.include? addr next else yield(:address,addr) if block end # Match the NBE types with the XML severity ratings case type # log messages don't actually have any data, they are just # complaints about not being able to perform this or that test # because such-and-such was missing when "Log Message"; next when "Security Hole"; severity = 3 when "Security Warning"; severity = 2 when "Security Note"; severity = 1 # a severity 0 means there's no extra data, it's just an open port else; severity = 0 end if nasl == "11936" os = data.match(/The remote host is running (.*)\\n/)[1] report_note( :workspace => wspace, :host => addr, :type => 'host.os.nessus_fingerprint', :data => { :os => os.to_s.strip } ) end handle_nessus(wspace, addr, port, nasl, severity, data) end end # # Of course they had to change the nessus format. # def import_openvas_xml(args={}, &block) filename = args[:filename] wspace = args[:wspace] || workspace raise DBImportError.new("No OpenVAS XML support. Please submit a patch to msfdev[at]metasploit.com") end # # Import IP360 XML v3 output # def import_ip360_xml_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_ip360_xml_v3(args.merge(:data => data)) end # # Import Nessus XML v1 and v2 output # # Old versions of openvas exported this as well # def import_nessus_xml_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end if data.index("NessusClientData_v2") import_nessus_xml_v2(args.merge(:data => data)) else import_nessus_xml(args.merge(:data => data)) end end def import_nessus_xml(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] doc = rexmlify(data) doc.elements.each('/NessusClientData/Report/ReportHost') do |host| addr = nil hname = nil os = nil # If the name is resolved, the Nessus plugin for DNS # resolution should be there. If not, fall back to the # HostName host.elements.each('ReportItem') do |item| next unless item.elements['pluginID'].text == "12053" addr = item.elements['data'].text.match(/([0-9\x2e]+) resolves as/)[1] hname = host.elements['HostName'].text end addr ||= host.elements['HostName'].text next unless ipv4_validator(addr) # Skip resolved names and SCAN-ERROR. if bl.include? addr next else yield(:address,addr) if block end hinfo = { :workspace => wspace, :host => addr } # Record the hostname hinfo.merge!(:name => hname.to_s.strip) if hname report_host(hinfo) report_import_note(wspace, addr) # Record the OS os ||= host.elements["os_name"] if os report_note( :workspace => wspace, :host => addr, :type => 'host.os.nessus_fingerprint', :data => { :os => os.text.to_s.strip } ) end host.elements.each('ReportItem') do |item| nasl = item.elements['pluginID'].text port = item.elements['port'].text data = item.elements['data'].text severity = item.elements['severity'].text handle_nessus(wspace, addr, port, nasl, severity, data) end end end def import_nessus_xml_v2(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] #@host = { #'hname' => nil, #'addr' => nil, #'mac' => nil, #'os' => nil, #'ports' => [ 'port' => { 'port' => nil, # 'svc_name' => nil, # 'proto' => nil, # 'severity' => nil, # 'nasl' => nil, # 'description' => nil, # 'cve' => [], # 'bid' => [], # 'xref' => [] # } # ] #} parser = Rex::Parser::NessusXMLStreamParser.new parser.on_found_host = Proc.new { |host| addr = host['addr'] || host['hname'] next unless ipv4_validator(addr) # Catches SCAN-ERROR, among others. if bl.include? addr next else yield(:address,addr) if block end os = host['os'] hname = host['hname'] mac = host['mac'] host_info = { :workspace => wspace, :host => addr, } host_info[:name] = hname.to_s.strip if hname host_info[:mac] = mac.to_s.strip.upcase if mac report_host(host_info) report_import_note(wspace, addr) os = host['os'] yield(:os,os) if block if os report_note( :workspace => wspace, :host => addr, :type => 'host.os.nessus_fingerprint', :data => { :os => os.to_s.strip } ) end host['ports'].each do |item| next if item['port'] == 0 msf = nil nasl = item['nasl'].to_s port = item['port'].to_s proto = item['proto'] || "tcp" name = item['svc_name'] severity = item['severity'] description = item['description'] cve = item['cve'] bid = item['bid'] xref = item['xref'] msf = item['msf'] yield(:port,port) if block handle_nessus_v2(wspace, addr, port, proto, hname, nasl, severity, description, cve, bid, xref, msf) end yield(:end,hname) if block } REXML::Document.parse_stream(data, parser) end # # Import IP360's xml output # def import_ip360_xml_v3(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] # @aspl = {'vulns' => {'name' => { }, 'cve' => { }, 'bid' => { } } # 'oses' => {'name' } } aspl_path = File.join(Msf::Config.data_directory, "ncircle", "ip360.aspl") if not ::File.exist?(aspl_path) raise DBImportError.new("The nCircle IP360 ASPL file is not present.\n Download ASPL from nCircle VNE | Administer | Support | Resources, unzip it, and save it as " + aspl_path) end if not ::File.readable?(aspl_path) raise DBImportError.new("Could not read the IP360 ASPL XML file provided at " + aspl_path) end # parse nCircle ASPL file aspl = "" ::File.open(aspl_path, "rb") do |f| aspl = f.read(f.stat.size) end @asplhash = nil parser = Rex::Parser::IP360ASPLXMLStreamParser.new parser.on_found_aspl = Proc.new { |asplh| @asplhash = asplh } REXML::Document.parse_stream(aspl, parser) #@host = {'hname' => nil, 'addr' => nil, 'mac' => nil, 'os' => nil, 'hid' => nil, # 'vulns' => ['vuln' => {'vulnid' => nil, 'port' => nil, 'proto' => nil } ], # 'apps' => ['app' => {'appid' => nil, 'svcid' => nil, 'port' => nil, 'proto' => nil } ], # 'shares' => [] # } # nCircle has some quotes escaped which causes the parser to break # we don't need these lines so just replace \" with " data.gsub!(/\\"/,'"') # parse nCircle Scan Output parser = Rex::Parser::IP360XMLStreamParser.new parser.on_found_host = Proc.new { |host| addr = host['addr'] || host['hname'] next unless ipv4_validator(addr) # Catches SCAN-ERROR, among others. if bl.include? addr next else yield(:address,addr) if block end os = host['os'] hname = host['hname'] mac = host['mac'] host_hash = { :workspace => wspace, :host => addr, } host_hash[:name] = hname.to_s.strip if hname host_hash[:mac] = mac.to_s.strip.upcase if mac report_host(host_hash) yield(:os, os) if block if os report_note( :workspace => wspace, :host => addr, :type => 'host.os.ip360_fingerprint', :data => { :os => @asplhash['oses'][os].to_s.strip } ) end host['apps'].each do |item| port = item['port'].to_s proto = item['proto'].to_s handle_ip360_v3_svc(wspace, addr, port, proto, hname) end host['vulns'].each do |item| vulnid = item['vulnid'].to_s port = item['port'].to_s proto = item['proto'] || "tcp" vulnname = @asplhash['vulns']['name'][vulnid] cves = @asplhash['vulns']['cve'][vulnid] bids = @asplhash['vulns']['bid'][vulnid] yield(:port, port) if block handle_ip360_v3_vuln(wspace, addr, port, proto, hname, vulnid, vulnname, cves, bids) end yield(:end, hname) if block } REXML::Document.parse_stream(data, parser) end # # Import Qualys' xml output # def import_qualys_xml_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_qualys_xml(args.merge(:data => data)) end def import_qualys_xml(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] doc = rexmlify(data) doc.elements.each('/SCAN/IP') do |host| addr = host.attributes['value'] if bl.include? addr next else yield(:address,addr) if block end hname = host.attributes['name'] || '' report_host(:workspace => wspace, :host => addr, :name => hname, :state => Msf::HostState::Alive) report_import_note(wspace, addr) if host.elements["OS"] hos = host.elements["OS"].text report_note( :workspace => wspace, :host => addr, :type => 'host.os.qualys_fingerprint', :data => { :os => hos } ) end # Open TCP Services List (Qualys ID 82023) services_tcp = host.elements["SERVICES/CAT/SERVICE[@number='82023']/RESULT"] if services_tcp services_tcp.text.scan(/([0-9]+)\t(.*?)\t.*?\t([^\t\n]*)/) do |match| if match[2] == nil or match[2].strip == 'unknown' name = match[1].strip else name = match[2].strip end handle_qualys(wspace, addr, match[0].to_s, 'tcp', 0, nil, nil, name) end end # Open UDP Services List (Qualys ID 82004) services_udp = host.elements["SERVICES/CAT/SERVICE[@number='82004']/RESULT"] if services_udp services_udp.text.scan(/([0-9]+)\t(.*?)\t.*?\t([^\t\n]*)/) do |match| if match[2] == nil or match[2].strip == 'unknown' name = match[1].strip else name = match[2].strip end handle_qualys(wspace, addr, match[0].to_s, 'udp', 0, nil, nil, name) end end # VULNS are confirmed, PRACTICES are unconfirmed vulnerabilities host.elements.each('VULNS/CAT | PRACTICES/CAT') do |cat| port = cat.attributes['port'] protocol = cat.attributes['protocol'] cat.elements.each('VULN | PRACTICE') do |vuln| refs = [] qid = vuln.attributes['number'] severity = vuln.attributes['severity'] vuln.elements.each('VENDOR_REFERENCE_LIST/VENDOR_REFERENCE') do |ref| refs.push(ref.elements['ID'].text.to_s) end vuln.elements.each('CVE_ID_LIST/CVE_ID') do |ref| refs.push('CVE-' + /C..-([0-9\-]{9})/.match(ref.elements['ID'].text.to_s)[1]) end vuln.elements.each('BUGTRAQ_ID_LIST/BUGTRAQ_ID') do |ref| refs.push('BID-' + ref.elements['ID'].text.to_s) end handle_qualys(wspace, addr, port, protocol, qid, severity, refs) end end end end def import_ip_list_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end import_ip_list(args.merge(:data => data)) end def import_ip_list(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] data.each_line do |ip| ip.strip! if bl.include? ip next else yield(:address,ip) if block end host = find_or_create_host(:workspace => wspace, :host=> ip, :state => Msf::HostState::Alive) end end def import_amap_log_file(args={}) filename = args[:filename] wspace = args[:wspace] || workspace data = "" ::File.open(filename, 'rb') do |f| data = f.read(f.stat.size) end case import_filetype_detect(data) when :amap_log import_amap_log(args.merge(:data => data)) when :amap_mlog import_amap_mlog(args.merge(:data => data)) else raise DBImportError.new("Could not determine file type") end end def import_amap_log(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] data.each_line do |line| next if line =~ /^#/ next if line !~ /^Protocol on ([^:]+):([^\x5c\x2f]+)[\x5c\x2f](tcp|udp) matches (.*)$/ addr = $1 next if bl.include? addr port = $2.to_i proto = $3.downcase name = $4 host = find_or_create_host(:workspace => wspace, :host => addr, :state => Msf::HostState::Alive) next if not host yield(:address,addr) if block info = { :workspace => wspace, :host => host, :proto => proto, :port => port } if name != "unidentified" info[:name] = name end service = find_or_create_service(info) end end def import_amap_mlog(args={}, &block) data = args[:data] wspace = args[:wspace] || workspace bl = validate_ips(args[:blacklist]) ? args[:blacklist].split : [] data.each_line do |line| next if line =~ /^#/ r = line.split(':') next if r.length < 6 addr = r[0] next if bl.include? addr port = r[1].to_i proto = r[2].downcase status = r[3] name = r[5] next if status != "open" host = find_or_create_host(:workspace => wspace, :host => addr, :state => Msf::HostState::Alive) next if not host yield(:address,addr) if block info = { :workspace => wspace, :host => host, :proto => proto, :port => port } if name != "unidentified" info[:name] = name end service = find_or_create_service(info) end end def unserialize_object(xml_elem, allow_yaml = false) string = xml_elem.text.to_s.strip return string unless string.is_a?(String) return nil if not string return nil if string.empty? begin # Validate that it is properly formed base64 first if string.gsub(/\s+/, '') =~ /^([a-z0-9A-Z\+\/=]+)$/ Marshal.load($1.unpack("m")[0]) else if allow_yaml begin YAML.load(string) rescue dlog("Badly formatted YAML: '#{string}'") string end else string end end rescue ::Exception => e if allow_yaml YAML.load(string) rescue string else string end end end # # Returns something suitable for the +:host+ parameter to the various report_* methods # # Takes a Host object, a Session object, an Msf::Session object or a String # address # def normalize_host(host) return host if host.kind_of? Host norm_host = nil if (host.kind_of? String) # If it's an IPv4 addr with a host on the end, strip the port if host =~ /((\d{1,3}\.){3}\d{1,3}):\d+/ norm_host = $1 else norm_host = host end elsif host.kind_of? Session norm_host = host.host elsif host.respond_to?(:target_host) # Then it's an Msf::Session object with a target but target_host # won't be set in some cases, so try tunnel_peer as well thost = host.target_host if host.tunnel_peer and (!thost or thost.empty?) # tunnel_peer is of the form ip:port, so strip off the port to # get the addr by itself thost = host.tunnel_peer.split(":")[0] end norm_host = thost end # If we got here and don't have a norm_host yet, it could be a # Msf::Session object with an empty or nil tunnel_host and tunnel_peer; # see if it has a socket and use its peerhost if so. if ( norm_host.nil? and host.respond_to?(:sock) and host.sock.respond_to?(:peerhost) and host.sock.peerhost.to_s.length > 0 ) norm_host = session.sock.peerhost end # If We got here and still don't have a real host, there's nothing left # to try, just log it and return what we were given if not norm_host dlog("Host could not be normalized: #{host.inspect}") norm_host = host end norm_host end protected # # This holds all of the shared parsing/handling used by the # Nessus NBE and NESSUS v1 methods # def handle_nessus(wspace, addr, port, nasl, severity, data) # The port section looks like: # http (80/tcp) p = port.match(/^([^\(]+)\((\d+)\/([^\)]+)\)/) return if not p # Unnecessary as the caller should already have reported this host #report_host(:workspace => wspace, :host => addr, :state => Msf::HostState::Alive) name = p[1].strip port = p[2].to_i proto = p[3].downcase info = { :workspace => wspace, :host => addr, :port => port, :proto => proto } if name != "unknown" and name[-1,1] != "?" info[:name] = name end report_service(info) return if not nasl data.gsub!("\\n", "\n") refs = [] if (data =~ /^CVE : (.*)$/) $1.gsub(/C(VE|AN)\-/, '').split(',').map { |r| r.strip }.each do |r| refs.push('CVE-' + r) end end if (data =~ /^BID : (.*)$/) $1.split(',').map { |r| r.strip }.each do |r| refs.push('BID-' + r) end end if (data =~ /^Other references : (.*)$/) $1.split(',').map { |r| r.strip }.each do |r| ref_id, ref_val = r.split(':') ref_val ? refs.push(ref_id + '-' + ref_val) : refs.push(ref_id) end end nss = 'NSS-' + nasl.to_s vuln_info = { :workspace => wspace, :host => addr, :port => port, :proto => proto, :name => nss, :info => data, :refs => refs } report_vuln(vuln_info) end # # NESSUS v2 file format has a dramatically different layout # for ReportItem data # def handle_nessus_v2(wspace,addr,port,proto,name,nasl,severity,description,cve,bid,xref,msf) report_host(:workspace => wspace, :host => addr, :state => Msf::HostState::Alive) info = { :workspace => wspace, :host => addr, :port => port, :proto => proto } if name != "unknown" and name[-1,1] != "?" info[:name] = name end if port.to_i != 0 report_service(info) end return if nasl == "0" refs = [] cve.each do |r| r.to_s.gsub!(/C(VE|AN)\-/, '') refs.push('CVE-' + r.to_s) end if cve bid.each do |r| refs.push('BID-' + r.to_s) end if bid xref.each do |r| ref_id, ref_val = r.to_s.split(':') ref_val ? refs.push(ref_id + '-' + ref_val) : refs.push(ref_id) end if xref msfref = "MSF-" << msf if msf refs.push msfref if msfref nss = 'NSS-' + nasl vuln = { :workspace => wspace, :host => addr, :name => nss, :info => description ? description : "", :refs => refs } if port.to_i != 0 vuln[:port] = port vuln[:proto] = proto end report_vuln(vuln) end # # IP360 v3 vuln # def handle_ip360_v3_svc(wspace,addr,port,proto,hname) report_host(:workspace => wspace, :host => addr, :state => Msf::HostState::Alive) info = { :workspace => wspace, :host => addr, :port => port, :proto => proto } if hname != "unknown" and hname[-1,1] != "?" info[:name] = hname end if port.to_i != 0 report_service(info) end end #handle_ip360_v3_svc # # IP360 v3 vuln # def handle_ip360_v3_vuln(wspace,addr,port,proto,hname,vulnid,vulnname,cves,bids) report_host(:workspace => wspace, :host => addr, :state => Msf::HostState::Alive) info = { :workspace => wspace, :host => addr, :port => port, :proto => proto } if hname != "unknown" and hname[-1,1] != "?" info[:name] = hname end if port.to_i != 0 report_service(info) end refs = [] cves.split(/,/).each do |cve| refs.push(cve.to_s) end if cves bids.split(/,/).each do |bid| refs.push('BID-' + bid.to_s) end if bids description = nil # not working yet vuln = { :workspace => wspace, :host => addr, :name => vulnname, :info => description ? description : "", :refs => refs } if port.to_i != 0 vuln[:port] = port vuln[:proto] = proto end report_vuln(vuln) end #handle_ip360_v3_vuln # # Qualys report parsing/handling # def handle_qualys(wspace, addr, port, protocol, qid, severity, refs, name=nil) port = port.to_i info = { :workspace => wspace, :host => addr, :port => port, :proto => protocol } if name and name != 'unknown' info[:name] = name end if info[:host] && info[:port] && info[:proto] report_service(info) end return if qid == 0 if addr report_vuln( :workspace => wspace, :host => addr, :port => port, :proto => protocol, :name => 'QUALYS-' + qid, :refs => refs ) end end def process_nexpose_data_sxml_refs(vuln) refs = [] vid = vuln.attributes['id'].to_s.downcase vry = vuln.attributes['resultCode'].to_s.upcase # Only process vuln-exploitable and vuln-version statuses return if vry !~ /^V[VE]$/ refs = [] vuln.elements.each('id') do |ref| rtyp = ref.attributes['type'].to_s.upcase rval = ref.text.to_s.strip case rtyp when 'CVE' refs << rval.gsub('CAN', 'CVE') when 'MS' # obsolete? refs << "MSB-MS-#{rval}" else refs << "#{rtyp}-#{rval}" end end refs << "NEXPOSE-#{vid}" refs end # # NeXpose vuln lookup # def nexpose_vuln_lookup(wspace, doc, vid, refs, host, serv=nil) doc.elements.each("/NexposeReport/VulnerabilityDefinitions/vulnerability[@id = '#{vid}']]") do |vulndef| title = vulndef.attributes['title'] pciSeverity = vulndef.attributes['pciSeverity'] cvss_score = vulndef.attributes['cvssScore'] cvss_vector = vulndef.attributes['cvssVector'] vulndef.elements['references'].elements.each('reference') do |ref| if ref.attributes['source'] == 'BID' refs[ 'BID-' + ref.text ] = true elsif ref.attributes['source'] == 'CVE' # ref.text is CVE-$ID refs[ ref.text ] = true elsif ref.attributes['source'] == 'MS' refs[ 'MSB-MS-' + ref.text ] = true end end refs[ 'NEXPOSE-' + vid.downcase ] = true vuln = find_or_create_vuln( :workspace => wspace, :host => host, :service => serv, :name => 'NEXPOSE-' + vid.downcase, :info => title) rids = [] refs.keys.each do |r| rids << find_or_create_ref(:name => r) end vuln.refs << (rids - vuln.refs) end end end end