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Direktori : /proc/thread-self/root/proc/self/root/opt/alt/ruby25/lib64/ruby/2.5.0/net/ |
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# frozen_string_literal: true # # = net/ftp.rb - FTP Client Library # # Written by Shugo Maeda <shugo@ruby-lang.org>. # # Documentation by Gavin Sinclair, sourced from "Programming Ruby" (Hunt/Thomas) # and "Ruby In a Nutshell" (Matsumoto), used with permission. # # This library is distributed under the terms of the Ruby license. # You can freely distribute/modify this library. # # It is included in the Ruby standard library. # # See the Net::FTP class for an overview. # require "socket" require "monitor" require "net/protocol" require "time" begin require "openssl" rescue LoadError end module Net # :stopdoc: class FTPError < StandardError; end class FTPReplyError < FTPError; end class FTPTempError < FTPError; end class FTPPermError < FTPError; end class FTPProtoError < FTPError; end class FTPConnectionError < FTPError; end # :startdoc: # # This class implements the File Transfer Protocol. If you have used a # command-line FTP program, and are familiar with the commands, you will be # able to use this class easily. Some extra features are included to take # advantage of Ruby's style and strengths. # # == Example # # require 'net/ftp' # # === Example 1 # # ftp = Net::FTP.new('example.com') # ftp.login # files = ftp.chdir('pub/lang/ruby/contrib') # files = ftp.list('n*') # ftp.getbinaryfile('nif.rb-0.91.gz', 'nif.gz', 1024) # ftp.close # # === Example 2 # # Net::FTP.open('example.com') do |ftp| # ftp.login # files = ftp.chdir('pub/lang/ruby/contrib') # files = ftp.list('n*') # ftp.getbinaryfile('nif.rb-0.91.gz', 'nif.gz', 1024) # end # # == Major Methods # # The following are the methods most likely to be useful to users: # - FTP.open # - #getbinaryfile # - #gettextfile # - #putbinaryfile # - #puttextfile # - #chdir # - #nlst # - #size # - #rename # - #delete # class FTP < Protocol include MonitorMixin if defined?(OpenSSL::SSL) include OpenSSL include SSL end # :stopdoc: FTP_PORT = 21 CRLF = "\r\n" DEFAULT_BLOCKSIZE = BufferedIO::BUFSIZE @@default_passive = true # :startdoc: # When +true+, transfers are performed in binary mode. Default: +true+. attr_reader :binary # When +true+, the connection is in passive mode. Default: +true+. attr_accessor :passive # When +true+, all traffic to and from the server is written # to +$stdout+. Default: +false+. attr_accessor :debug_mode # Sets or retrieves the +resume+ status, which decides whether incomplete # transfers are resumed or restarted. Default: +false+. attr_accessor :resume # Number of seconds to wait for the connection to open. Any number # may be used, including Floats for fractional seconds. If the FTP # object cannot open a connection in this many seconds, it raises a # Net::OpenTimeout exception. The default value is +nil+. attr_accessor :open_timeout # Number of seconds to wait for the TLS handshake. Any number # may be used, including Floats for fractional seconds. If the FTP # object cannot complete the TLS handshake in this many seconds, it # raises a Net::OpenTimeout exception. The default value is +nil+. # If +ssl_handshake_timeout+ is +nil+, +open_timeout+ is used instead. attr_accessor :ssl_handshake_timeout # Number of seconds to wait for one block to be read (via one read(2) # call). Any number may be used, including Floats for fractional # seconds. If the FTP object cannot read data in this many seconds, # it raises a Timeout::Error exception. The default value is 60 seconds. attr_reader :read_timeout # Setter for the read_timeout attribute. def read_timeout=(sec) @sock.read_timeout = sec @read_timeout = sec end # The server's welcome message. attr_reader :welcome # The server's last response code. attr_reader :last_response_code alias lastresp last_response_code # The server's last response. attr_reader :last_response # When +true+, connections are in passive mode per default. # Default: +true+. def self.default_passive=(value) @@default_passive = value end # When +true+, connections are in passive mode per default. # Default: +true+. def self.default_passive @@default_passive end # # A synonym for <tt>FTP.new</tt>, but with a mandatory host parameter. # # If a block is given, it is passed the +FTP+ object, which will be closed # when the block finishes, or when an exception is raised. # def FTP.open(host, *args) if block_given? ftp = new(host, *args) begin yield ftp ensure ftp.close end else new(host, *args) end end # :call-seq: # Net::FTP.new(host = nil, options = {}) # # Creates and returns a new +FTP+ object. If a +host+ is given, a connection # is made. # # +options+ is an option hash, each key of which is a symbol. # # The available options are: # # port:: Port number (default value is 21) # ssl:: If options[:ssl] is true, then an attempt will be made # to use SSL (now TLS) to connect to the server. For this # to work OpenSSL [OSSL] and the Ruby OpenSSL [RSSL] # extensions need to be installed. If options[:ssl] is a # hash, it's passed to OpenSSL::SSL::SSLContext#set_params # as parameters. # private_data_connection:: If true, TLS is used for data connections. # Default: +true+ when options[:ssl] is true. # username:: Username for login. If options[:username] is the string # "anonymous" and the options[:password] is +nil+, # "anonymous@" is used as a password. # password:: Password for login. # account:: Account information for ACCT. # passive:: When +true+, the connection is in passive mode. Default: # +true+. # open_timeout:: Number of seconds to wait for the connection to open. # See Net::FTP#open_timeout for details. Default: +nil+. # read_timeout:: Number of seconds to wait for one block to be read. # See Net::FTP#read_timeout for details. Default: +60+. # ssl_handshake_timeout:: Number of seconds to wait for the TLS # handshake. # See Net::FTP#ssl_handshake_timeout for # details. Default: +nil+. # debug_mode:: When +true+, all traffic to and from the server is # written to +$stdout+. Default: +false+. # def initialize(host = nil, user_or_options = {}, passwd = nil, acct = nil) super() begin options = user_or_options.to_hash rescue NoMethodError # for backward compatibility options = {} options[:username] = user_or_options options[:password] = passwd options[:account] = acct end @host = nil if options[:ssl] unless defined?(OpenSSL::SSL) raise "SSL extension not installed" end ssl_params = options[:ssl] == true ? {} : options[:ssl] @ssl_context = SSLContext.new @ssl_context.set_params(ssl_params) if defined?(VerifyCallbackProc) @ssl_context.verify_callback = VerifyCallbackProc end @ssl_context.session_cache_mode = OpenSSL::SSL::SSLContext::SESSION_CACHE_CLIENT | OpenSSL::SSL::SSLContext::SESSION_CACHE_NO_INTERNAL_STORE @ssl_context.session_new_cb = proc {|sock, sess| @ssl_session = sess } @ssl_session = nil if options[:private_data_connection].nil? @private_data_connection = true else @private_data_connection = options[:private_data_connection] end else @ssl_context = nil if options[:private_data_connection] raise ArgumentError, "private_data_connection can be set to true only when ssl is enabled" end @private_data_connection = false end @binary = true if options[:passive].nil? @passive = @@default_passive else @passive = options[:passive] end if options[:debug_mode].nil? @debug_mode = false else @debug_mode = options[:debug_mode] end @resume = false @bare_sock = @sock = NullSocket.new @logged_in = false @open_timeout = options[:open_timeout] @ssl_handshake_timeout = options[:ssl_handshake_timeout] @read_timeout = options[:read_timeout] || 60 if host connect(host, options[:port] || FTP_PORT) if options[:username] login(options[:username], options[:password], options[:account]) end end end # A setter to toggle transfers in binary mode. # +newmode+ is either +true+ or +false+ def binary=(newmode) if newmode != @binary @binary = newmode send_type_command if @logged_in end end # Sends a command to destination host, with the current binary sendmode # type. # # If binary mode is +true+, then "TYPE I" (image) is sent, otherwise "TYPE # A" (ascii) is sent. def send_type_command # :nodoc: if @binary voidcmd("TYPE I") else voidcmd("TYPE A") end end private :send_type_command # Toggles transfers in binary mode and yields to a block. # This preserves your current binary send mode, but allows a temporary # transaction with binary sendmode of +newmode+. # # +newmode+ is either +true+ or +false+ def with_binary(newmode) # :nodoc: oldmode = binary self.binary = newmode begin yield ensure self.binary = oldmode end end private :with_binary # Obsolete def return_code # :nodoc: warn("Net::FTP#return_code is obsolete and do nothing", uplevel: 1) return "\n" end # Obsolete def return_code=(s) # :nodoc: warn("Net::FTP#return_code= is obsolete and do nothing", uplevel: 1) end # Constructs a socket with +host+ and +port+. # # If SOCKSSocket is defined and the environment (ENV) defines # SOCKS_SERVER, then a SOCKSSocket is returned, else a Socket is # returned. def open_socket(host, port) # :nodoc: return Timeout.timeout(@open_timeout, OpenTimeout) { if defined? SOCKSSocket and ENV["SOCKS_SERVER"] @passive = true SOCKSSocket.open(host, port) else Socket.tcp(host, port) end } end private :open_socket def start_tls_session(sock) ssl_sock = SSLSocket.new(sock, @ssl_context) ssl_sock.sync_close = true ssl_sock.hostname = @host if ssl_sock.respond_to? :hostname= if @ssl_session && Process.clock_gettime(Process::CLOCK_REALTIME) < @ssl_session.time.to_f + @ssl_session.timeout # ProFTPD returns 425 for data connections if session is not reused. ssl_sock.session = @ssl_session end ssl_socket_connect(ssl_sock, @ssl_handshake_timeout || @open_timeout) if @ssl_context.verify_mode != VERIFY_NONE ssl_sock.post_connection_check(@host) end return ssl_sock end private :start_tls_session # # Establishes an FTP connection to host, optionally overriding the default # port. If the environment variable +SOCKS_SERVER+ is set, sets up the # connection through a SOCKS proxy. Raises an exception (typically # <tt>Errno::ECONNREFUSED</tt>) if the connection cannot be established. # def connect(host, port = FTP_PORT) if @debug_mode print "connect: ", host, ", ", port, "\n" end synchronize do @host = host @bare_sock = open_socket(host, port) @sock = BufferedSocket.new(@bare_sock, read_timeout: @read_timeout) voidresp if @ssl_context begin voidcmd("AUTH TLS") ssl_sock = start_tls_session(@bare_sock) @sock = BufferedSSLSocket.new(ssl_sock, read_timeout: @read_timeout) if @private_data_connection voidcmd("PBSZ 0") voidcmd("PROT P") end rescue OpenSSL::SSL::SSLError, OpenTimeout @sock.close raise end end end end # # Set the socket used to connect to the FTP server. # # May raise FTPReplyError if +get_greeting+ is false. def set_socket(sock, get_greeting = true) synchronize do @sock = sock if get_greeting voidresp end end end # If string +s+ includes the PASS command (password), then the contents of # the password are cleaned from the string using "*" def sanitize(s) # :nodoc: if s =~ /^PASS /i return s[0, 5] + "*" * (s.length - 5) else return s end end private :sanitize # Ensures that +line+ has a control return / line feed (CRLF) and writes # it to the socket. def putline(line) # :nodoc: if @debug_mode print "put: ", sanitize(line), "\n" end if /[\r\n]/ =~ line raise ArgumentError, "A line must not contain CR or LF" end line = line + CRLF @sock.write(line) end private :putline # Reads a line from the sock. If EOF, then it will raise EOFError def getline # :nodoc: line = @sock.readline # if get EOF, raise EOFError line.sub!(/(\r\n|\n|\r)\z/n, "") if @debug_mode print "get: ", sanitize(line), "\n" end return line end private :getline # Receive a section of lines until the response code's match. def getmultiline # :nodoc: lines = [] lines << getline code = lines.last.slice(/\A([0-9a-zA-Z]{3})-/, 1) if code delimiter = code + " " begin lines << getline end until lines.last.start_with?(delimiter) end return lines.join("\n") + "\n" end private :getmultiline # Receives a response from the destination host. # # Returns the response code or raises FTPTempError, FTPPermError, or # FTPProtoError def getresp # :nodoc: @last_response = getmultiline @last_response_code = @last_response[0, 3] case @last_response_code when /\A[123]/ return @last_response when /\A4/ raise FTPTempError, @last_response when /\A5/ raise FTPPermError, @last_response else raise FTPProtoError, @last_response end end private :getresp # Receives a response. # # Raises FTPReplyError if the first position of the response code is not # equal 2. def voidresp # :nodoc: resp = getresp if !resp.start_with?("2") raise FTPReplyError, resp end end private :voidresp # # Sends a command and returns the response. # def sendcmd(cmd) synchronize do putline(cmd) return getresp end end # # Sends a command and expect a response beginning with '2'. # def voidcmd(cmd) synchronize do putline(cmd) voidresp end end # Constructs and send the appropriate PORT (or EPRT) command def sendport(host, port) # :nodoc: remote_address = @bare_sock.remote_address if remote_address.ipv4? cmd = "PORT " + (host.split(".") + port.divmod(256)).join(",") elsif remote_address.ipv6? cmd = sprintf("EPRT |2|%s|%d|", host, port) else raise FTPProtoError, host end voidcmd(cmd) end private :sendport # Constructs a TCPServer socket def makeport # :nodoc: Addrinfo.tcp(@bare_sock.local_address.ip_address, 0).listen end private :makeport # sends the appropriate command to enable a passive connection def makepasv # :nodoc: if @bare_sock.remote_address.ipv4? host, port = parse227(sendcmd("PASV")) else host, port = parse229(sendcmd("EPSV")) # host, port = parse228(sendcmd("LPSV")) end return host, port end private :makepasv # Constructs a connection for transferring data def transfercmd(cmd, rest_offset = nil) # :nodoc: if @passive host, port = makepasv conn = open_socket(host, port) if @resume and rest_offset resp = sendcmd("REST " + rest_offset.to_s) if !resp.start_with?("3") raise FTPReplyError, resp end end resp = sendcmd(cmd) # skip 2XX for some ftp servers resp = getresp if resp.start_with?("2") if !resp.start_with?("1") raise FTPReplyError, resp end else sock = makeport begin addr = sock.local_address sendport(addr.ip_address, addr.ip_port) if @resume and rest_offset resp = sendcmd("REST " + rest_offset.to_s) if !resp.start_with?("3") raise FTPReplyError, resp end end resp = sendcmd(cmd) # skip 2XX for some ftp servers resp = getresp if resp.start_with?("2") if !resp.start_with?("1") raise FTPReplyError, resp end conn, = sock.accept sock.shutdown(Socket::SHUT_WR) rescue nil sock.read rescue nil ensure sock.close end end if @private_data_connection return BufferedSSLSocket.new(start_tls_session(conn), read_timeout: @read_timeout) else return BufferedSocket.new(conn, read_timeout: @read_timeout) end end private :transfercmd # # Logs in to the remote host. The session must have been # previously connected. If +user+ is the string "anonymous" and # the +password+ is +nil+, "anonymous@" is used as a password. If # the +acct+ parameter is not +nil+, an FTP ACCT command is sent # following the successful login. Raises an exception on error # (typically <tt>Net::FTPPermError</tt>). # def login(user = "anonymous", passwd = nil, acct = nil) if user == "anonymous" and passwd == nil passwd = "anonymous@" end resp = "" synchronize do resp = sendcmd('USER ' + user) if resp.start_with?("3") raise FTPReplyError, resp if passwd.nil? resp = sendcmd('PASS ' + passwd) end if resp.start_with?("3") raise FTPReplyError, resp if acct.nil? resp = sendcmd('ACCT ' + acct) end end if !resp.start_with?("2") raise FTPReplyError, resp end @welcome = resp send_type_command @logged_in = true end # # Puts the connection into binary (image) mode, issues the given command, # and fetches the data returned, passing it to the associated block in # chunks of +blocksize+ characters. Note that +cmd+ is a server command # (such as "RETR myfile"). # def retrbinary(cmd, blocksize, rest_offset = nil) # :yield: data synchronize do with_binary(true) do begin conn = transfercmd(cmd, rest_offset) loop do data = conn.read(blocksize) break if data == nil yield(data) end conn.shutdown(Socket::SHUT_WR) conn.read_timeout = 1 conn.read ensure conn.close if conn end voidresp end end end # # Puts the connection into ASCII (text) mode, issues the given command, and # passes the resulting data, one line at a time, to the associated block. If # no block is given, prints the lines. Note that +cmd+ is a server command # (such as "RETR myfile"). # def retrlines(cmd) # :yield: line synchronize do with_binary(false) do begin conn = transfercmd(cmd) loop do line = conn.gets break if line == nil yield(line.sub(/\r?\n\z/, ""), !line.match(/\n\z/).nil?) end conn.shutdown(Socket::SHUT_WR) conn.read_timeout = 1 conn.read ensure conn.close if conn end voidresp end end end # # Puts the connection into binary (image) mode, issues the given server-side # command (such as "STOR myfile"), and sends the contents of the file named # +file+ to the server. If the optional block is given, it also passes it # the data, in chunks of +blocksize+ characters. # def storbinary(cmd, file, blocksize, rest_offset = nil) # :yield: data if rest_offset file.seek(rest_offset, IO::SEEK_SET) end synchronize do with_binary(true) do conn = transfercmd(cmd) loop do buf = file.read(blocksize) break if buf == nil conn.write(buf) yield(buf) if block_given? end conn.close voidresp end end rescue Errno::EPIPE # EPIPE, in this case, means that the data connection was unexpectedly # terminated. Rather than just raising EPIPE to the caller, check the # response on the control connection. If getresp doesn't raise a more # appropriate exception, re-raise the original exception. getresp raise end # # Puts the connection into ASCII (text) mode, issues the given server-side # command (such as "STOR myfile"), and sends the contents of the file # named +file+ to the server, one line at a time. If the optional block is # given, it also passes it the lines. # def storlines(cmd, file) # :yield: line synchronize do with_binary(false) do conn = transfercmd(cmd) loop do buf = file.gets break if buf == nil if buf[-2, 2] != CRLF buf = buf.chomp + CRLF end conn.write(buf) yield(buf) if block_given? end conn.close voidresp end end rescue Errno::EPIPE # EPIPE, in this case, means that the data connection was unexpectedly # terminated. Rather than just raising EPIPE to the caller, check the # response on the control connection. If getresp doesn't raise a more # appropriate exception, re-raise the original exception. getresp raise end # # Retrieves +remotefile+ in binary mode, storing the result in +localfile+. # If +localfile+ is nil, returns retrieved data. # If a block is supplied, it is passed the retrieved data in +blocksize+ # chunks. # def getbinaryfile(remotefile, localfile = File.basename(remotefile), blocksize = DEFAULT_BLOCKSIZE, &block) # :yield: data f = nil result = nil if localfile if @resume rest_offset = File.size?(localfile) f = File.open(localfile, "a") else rest_offset = nil f = File.open(localfile, "w") end elsif !block_given? result = String.new end begin f&.binmode retrbinary("RETR #{remotefile}", blocksize, rest_offset) do |data| f&.write(data) block&.(data) result&.concat(data) end return result ensure f&.close end end # # Retrieves +remotefile+ in ASCII (text) mode, storing the result in # +localfile+. # If +localfile+ is nil, returns retrieved data. # If a block is supplied, it is passed the retrieved data one # line at a time. # def gettextfile(remotefile, localfile = File.basename(remotefile), &block) # :yield: line f = nil result = nil if localfile f = File.open(localfile, "w") elsif !block_given? result = String.new end begin retrlines("RETR #{remotefile}") do |line, newline| l = newline ? line + "\n" : line f&.print(l) block&.(line, newline) result&.concat(l) end return result ensure f&.close end end # # Retrieves +remotefile+ in whatever mode the session is set (text or # binary). See #gettextfile and #getbinaryfile. # def get(remotefile, localfile = File.basename(remotefile), blocksize = DEFAULT_BLOCKSIZE, &block) # :yield: data if @binary getbinaryfile(remotefile, localfile, blocksize, &block) else gettextfile(remotefile, localfile, &block) end end # # Transfers +localfile+ to the server in binary mode, storing the result in # +remotefile+. If a block is supplied, calls it, passing in the transmitted # data in +blocksize+ chunks. # def putbinaryfile(localfile, remotefile = File.basename(localfile), blocksize = DEFAULT_BLOCKSIZE, &block) # :yield: data if @resume begin rest_offset = size(remotefile) rescue Net::FTPPermError rest_offset = nil end else rest_offset = nil end f = File.open(localfile) begin f.binmode if rest_offset storbinary("APPE #{remotefile}", f, blocksize, rest_offset, &block) else storbinary("STOR #{remotefile}", f, blocksize, rest_offset, &block) end ensure f.close end end # # Transfers +localfile+ to the server in ASCII (text) mode, storing the result # in +remotefile+. If callback or an associated block is supplied, calls it, # passing in the transmitted data one line at a time. # def puttextfile(localfile, remotefile = File.basename(localfile), &block) # :yield: line f = File.open(localfile) begin storlines("STOR #{remotefile}", f, &block) ensure f.close end end # # Transfers +localfile+ to the server in whatever mode the session is set # (text or binary). See #puttextfile and #putbinaryfile. # def put(localfile, remotefile = File.basename(localfile), blocksize = DEFAULT_BLOCKSIZE, &block) if @binary putbinaryfile(localfile, remotefile, blocksize, &block) else puttextfile(localfile, remotefile, &block) end end # # Sends the ACCT command. # # This is a less common FTP command, to send account # information if the destination host requires it. # def acct(account) cmd = "ACCT " + account voidcmd(cmd) end # # Returns an array of filenames in the remote directory. # def nlst(dir = nil) cmd = "NLST" if dir cmd = "#{cmd} #{dir}" end files = [] retrlines(cmd) do |line| files.push(line) end return files end # # Returns an array of file information in the directory (the output is like # `ls -l`). If a block is given, it iterates through the listing. # def list(*args, &block) # :yield: line cmd = "LIST" args.each do |arg| cmd = "#{cmd} #{arg}" end lines = [] retrlines(cmd) do |line| lines << line end if block lines.each(&block) end return lines end alias ls list alias dir list # # MLSxEntry represents an entry in responses of MLST/MLSD. # Each entry has the facts (e.g., size, last modification time, etc.) # and the pathname. # class MLSxEntry attr_reader :facts, :pathname def initialize(facts, pathname) @facts = facts @pathname = pathname end standard_facts = %w(size modify create type unique perm lang media-type charset) standard_facts.each do |factname| define_method factname.gsub(/-/, "_") do facts[factname] end end # # Returns +true+ if the entry is a file (i.e., the value of the type # fact is file). # def file? return facts["type"] == "file" end # # Returns +true+ if the entry is a directory (i.e., the value of the # type fact is dir, cdir, or pdir). # def directory? if /\A[cp]?dir\z/.match(facts["type"]) return true else return false end end # # Returns +true+ if the APPE command may be applied to the file. # def appendable? return facts["perm"].include?(?a) end # # Returns +true+ if files may be created in the directory by STOU, # STOR, APPE, and RNTO. # def creatable? return facts["perm"].include?(?c) end # # Returns +true+ if the file or directory may be deleted by DELE/RMD. # def deletable? return facts["perm"].include?(?d) end # # Returns +true+ if the directory may be entered by CWD/CDUP. # def enterable? return facts["perm"].include?(?e) end # # Returns +true+ if the file or directory may be renamed by RNFR. # def renamable? return facts["perm"].include?(?f) end # # Returns +true+ if the listing commands, LIST, NLST, and MLSD are # applied to the directory. # def listable? return facts["perm"].include?(?l) end # # Returns +true+ if the MKD command may be used to create a new # directory within the directory. # def directory_makable? return facts["perm"].include?(?m) end # # Returns +true+ if the objects in the directory may be deleted, or # the directory may be purged. # def purgeable? return facts["perm"].include?(?p) end # # Returns +true+ if the RETR command may be applied to the file. # def readable? return facts["perm"].include?(?r) end # # Returns +true+ if the STOR command may be applied to the file. # def writable? return facts["perm"].include?(?w) end end CASE_DEPENDENT_PARSER = ->(value) { value } CASE_INDEPENDENT_PARSER = ->(value) { value.downcase } DECIMAL_PARSER = ->(value) { value.to_i } OCTAL_PARSER = ->(value) { value.to_i(8) } TIME_PARSER = ->(value, local = false) { unless /\A(?<year>\d{4})(?<month>\d{2})(?<day>\d{2}) (?<hour>\d{2})(?<min>\d{2})(?<sec>\d{2}) (\.(?<fractions>\d+))?/x =~ value raise FTPProtoError, "invalid time-val: #{value}" end usec = fractions.to_i * 10 ** (6 - fractions.to_s.size) Time.send(local ? :local : :utc, year, month, day, hour, min, sec, usec) } FACT_PARSERS = Hash.new(CASE_DEPENDENT_PARSER) FACT_PARSERS["size"] = DECIMAL_PARSER FACT_PARSERS["modify"] = TIME_PARSER FACT_PARSERS["create"] = TIME_PARSER FACT_PARSERS["type"] = CASE_INDEPENDENT_PARSER FACT_PARSERS["unique"] = CASE_DEPENDENT_PARSER FACT_PARSERS["perm"] = CASE_INDEPENDENT_PARSER FACT_PARSERS["lang"] = CASE_INDEPENDENT_PARSER FACT_PARSERS["media-type"] = CASE_INDEPENDENT_PARSER FACT_PARSERS["charset"] = CASE_INDEPENDENT_PARSER FACT_PARSERS["unix.mode"] = OCTAL_PARSER FACT_PARSERS["unix.owner"] = DECIMAL_PARSER FACT_PARSERS["unix.group"] = DECIMAL_PARSER FACT_PARSERS["unix.ctime"] = TIME_PARSER FACT_PARSERS["unix.atime"] = TIME_PARSER def parse_mlsx_entry(entry) facts, pathname = entry.chomp.split(/ /, 2) unless pathname raise FTPProtoError, entry end return MLSxEntry.new( facts.scan(/(.*?)=(.*?);/).each_with_object({}) { |(factname, value), h| name = factname.downcase h[name] = FACT_PARSERS[name].(value) }, pathname) end private :parse_mlsx_entry # # Returns data (e.g., size, last modification time, entry type, etc.) # about the file or directory specified by +pathname+. # If +pathname+ is omitted, the current directory is assumed. # def mlst(pathname = nil) cmd = pathname ? "MLST #{pathname}" : "MLST" resp = sendcmd(cmd) if !resp.start_with?("250") raise FTPReplyError, resp end line = resp.lines[1] unless line raise FTPProtoError, resp end entry = line.sub(/\A(250-| *)/, "") return parse_mlsx_entry(entry) end # # Returns an array of the entries of the directory specified by # +pathname+. # Each entry has the facts (e.g., size, last modification time, etc.) # and the pathname. # If a block is given, it iterates through the listing. # If +pathname+ is omitted, the current directory is assumed. # def mlsd(pathname = nil, &block) # :yield: entry cmd = pathname ? "MLSD #{pathname}" : "MLSD" entries = [] retrlines(cmd) do |line| entries << parse_mlsx_entry(line) end if block entries.each(&block) end return entries end # # Renames a file on the server. # def rename(fromname, toname) resp = sendcmd("RNFR #{fromname}") if !resp.start_with?("3") raise FTPReplyError, resp end voidcmd("RNTO #{toname}") end # # Deletes a file on the server. # def delete(filename) resp = sendcmd("DELE #{filename}") if resp.start_with?("250") return elsif resp.start_with?("5") raise FTPPermError, resp else raise FTPReplyError, resp end end # # Changes the (remote) directory. # def chdir(dirname) if dirname == ".." begin voidcmd("CDUP") return rescue FTPPermError => e if e.message[0, 3] != "500" raise e end end end cmd = "CWD #{dirname}" voidcmd(cmd) end def get_body(resp) # :nodoc: resp.slice(/\A[0-9a-zA-Z]{3} (.*)$/, 1) end private :get_body # # Returns the size of the given (remote) filename. # def size(filename) with_binary(true) do resp = sendcmd("SIZE #{filename}") if !resp.start_with?("213") raise FTPReplyError, resp end return get_body(resp).to_i end end # # Returns the last modification time of the (remote) file. If +local+ is # +true+, it is returned as a local time, otherwise it's a UTC time. # def mtime(filename, local = false) return TIME_PARSER.(mdtm(filename), local) end # # Creates a remote directory. # def mkdir(dirname) resp = sendcmd("MKD #{dirname}") return parse257(resp) end # # Removes a remote directory. # def rmdir(dirname) voidcmd("RMD #{dirname}") end # # Returns the current remote directory. # def pwd resp = sendcmd("PWD") return parse257(resp) end alias getdir pwd # # Returns system information. # def system resp = sendcmd("SYST") if !resp.start_with?("215") raise FTPReplyError, resp end return get_body(resp) end # # Aborts the previous command (ABOR command). # def abort line = "ABOR" + CRLF print "put: ABOR\n" if @debug_mode @sock.send(line, Socket::MSG_OOB) resp = getmultiline unless ["426", "226", "225"].include?(resp[0, 3]) raise FTPProtoError, resp end return resp end # # Returns the status (STAT command). # pathname - when stat is invoked with pathname as a parameter it acts like # list but alot faster and over the same tcp session. # def status(pathname = nil) line = pathname ? "STAT #{pathname}" : "STAT" if /[\r\n]/ =~ line raise ArgumentError, "A line must not contain CR or LF" end print "put: #{line}\n" if @debug_mode @sock.send(line + CRLF, Socket::MSG_OOB) return getresp end # # Returns the raw last modification time of the (remote) file in the format # "YYYYMMDDhhmmss" (MDTM command). # # Use +mtime+ if you want a parsed Time instance. # def mdtm(filename) resp = sendcmd("MDTM #{filename}") if resp.start_with?("213") return get_body(resp) end end # # Issues the HELP command. # def help(arg = nil) cmd = "HELP" if arg cmd = cmd + " " + arg end sendcmd(cmd) end # # Exits the FTP session. # def quit voidcmd("QUIT") end # # Issues a NOOP command. # # Does nothing except return a response. # def noop voidcmd("NOOP") end # # Issues a SITE command. # def site(arg) cmd = "SITE " + arg voidcmd(cmd) end # # Closes the connection. Further operations are impossible until you open # a new connection with #connect. # def close if @sock and not @sock.closed? begin @sock.shutdown(Socket::SHUT_WR) rescue nil orig, self.read_timeout = self.read_timeout, 3 @sock.read rescue nil ensure @sock.close self.read_timeout = orig end end end # # Returns +true+ iff the connection is closed. # def closed? @sock == nil or @sock.closed? end # handler for response code 227 # (Entering Passive Mode (h1,h2,h3,h4,p1,p2)) # # Returns host and port. def parse227(resp) # :nodoc: if !resp.start_with?("227") raise FTPReplyError, resp end if m = /\((?<host>\d+(,\d+){3}),(?<port>\d+,\d+)\)/.match(resp) return parse_pasv_ipv4_host(m["host"]), parse_pasv_port(m["port"]) else raise FTPProtoError, resp end end private :parse227 # handler for response code 228 # (Entering Long Passive Mode) # # Returns host and port. def parse228(resp) # :nodoc: if !resp.start_with?("228") raise FTPReplyError, resp end if m = /\(4,4,(?<host>\d+(,\d+){3}),2,(?<port>\d+,\d+)\)/.match(resp) return parse_pasv_ipv4_host(m["host"]), parse_pasv_port(m["port"]) elsif m = /\(6,16,(?<host>\d+(,(\d+)){15}),2,(?<port>\d+,\d+)\)/.match(resp) return parse_pasv_ipv6_host(m["host"]), parse_pasv_port(m["port"]) else raise FTPProtoError, resp end end private :parse228 def parse_pasv_ipv4_host(s) return s.tr(",", ".") end private :parse_pasv_ipv4_host def parse_pasv_ipv6_host(s) return s.split(/,/).map { |i| "%02x" % i.to_i }.each_slice(2).map(&:join).join(":") end private :parse_pasv_ipv6_host def parse_pasv_port(s) return s.split(/,/).map(&:to_i).inject { |x, y| (x << 8) + y } end private :parse_pasv_port # handler for response code 229 # (Extended Passive Mode Entered) # # Returns host and port. def parse229(resp) # :nodoc: if !resp.start_with?("229") raise FTPReplyError, resp end if m = /\((?<d>[!-~])\k<d>\k<d>(?<port>\d+)\k<d>\)/.match(resp) return @bare_sock.remote_address.ip_address, m["port"].to_i else raise FTPProtoError, resp end end private :parse229 # handler for response code 257 # ("PATHNAME" created) # # Returns host and port. def parse257(resp) # :nodoc: if !resp.start_with?("257") raise FTPReplyError, resp end return resp.slice(/"(([^"]|"")*)"/, 1).to_s.gsub(/""/, '"') end private :parse257 # :stopdoc: class NullSocket def read_timeout=(sec) end def closed? true end def close end def method_missing(mid, *args) raise FTPConnectionError, "not connected" end end class BufferedSocket < BufferedIO [:local_address, :remote_address, :addr, :peeraddr, :send, :shutdown].each do |method| define_method(method) { |*args| @io.__send__(method, *args) } end def read(len = nil) if len s = super(len, String.new, true) return s.empty? ? nil : s else result = String.new while s = super(DEFAULT_BLOCKSIZE, String.new, true) break if s.empty? result << s end return result end end def gets line = readuntil("\n", true) return line.empty? ? nil : line end def readline line = gets if line.nil? raise EOFError, "end of file reached" end return line end end if defined?(OpenSSL::SSL::SSLSocket) class BufferedSSLSocket < BufferedSocket def initialize(*args) super @is_shutdown = false end def shutdown(*args) # SSL_shutdown() will be called from SSLSocket#close, and # SSL_shutdown() will send the "close notify" alert to the peer, # so shutdown(2) should not be called. @is_shutdown = true end def send(mesg, flags, dest = nil) # Ignore flags and dest. @io.write(mesg) end private def rbuf_fill if @is_shutdown raise EOFError, "shutdown has been called" else super end end end end # :startdoc: end end # Documentation comments: # - sourced from pickaxe and nutshell, with improvements (hopefully)