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# An FTP client class.  Based on RFC 959: File Transfer Protocol
# (FTP), by J. Postel and J. Reynolds


# Example:
#
# >>> from ftplib import FTP
# >>> ftp = FTP().init('ftp.cwi.nl') # connect to host, default port
# >>> ftp.login() # default, i.e.: user anonymous, passwd user@hostname
# >>> def handle_one_line(line): # callback for ftp.retrlines
# ...     print line
# ... 
# >>> ftp.retrlines('LIST', handle_one_line) # list directory contents
# total 43
# d--x--x--x   2 root     root         512 Jul  1 16:50 bin
# d--x--x--x   2 root     root         512 Sep 16  1991 etc
# drwxr-xr-x   2 root     ftp        10752 Sep 16  1991 lost+found
# drwxr-srwt  15 root     ftp        10240 Nov  5 20:43 pub
# >>> ftp.quit()
#
# To download a file, use ftp.retrlines('RETR ' + filename, handle_one_line),
# or ftp.retrbinary() with slightly different arguments.
# To upload a file, use ftp.storlines() or ftp.storbinary(), which have
# an open file as argument.
# The download/upload functions first issue appropriate TYPE and PORT
# commands.


import os
import sys
import socket
import string


# The standard FTP server control port
FTP_PORT = 21


# Exception raiseds when an error or invalid response is received
error_reply = 'ftplib.error_reply'	# unexpected [123]xx reply
error_temp = 'ftplib.error_temp'	# 4xx errors
error_perm = 'ftplib.error_perm'	# 5xx errors
error_proto = 'ftplib.error_proto'	# response does not begin with [1-5]


# Line terminators (we always output CRLF, but accept any of CRLF, CR, LF)
CRLF = '\r\n'


# Next port to be used by makeport(), with PORT_OFFSET added
# (This is now only used when the python interpreter doesn't support
# the getsockname() method yet)
nextport = 0
PORT_OFFSET = 40000
PORT_CYCLE = 1000


# The class itself
class FTP:

	# Initialize an instance.  Arguments:
	# - host: hostname to connect to
	# - port: port to connect to (default the standard FTP port)
	def init(self, host, *args):
		if len(args) > 1: raise TypeError, 'too many args'
		if args: port = args[0]
		else: port = FTP_PORT
		self.host = host
		self.port = port
		self.debugging = 0
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
		self.sock.connect(self.host, self.port)
		self.file = self.sock.makefile('r')
		self.welcome = self.getresp()
		return self

	# Get the welcome message from the server
	# (this is read and squirreled away by init())
	def getwelcome(self):
		if self.debugging: print '*welcome*', `self.welcome`
		return self.welcome

	# Set the debugging level.  Argument level means:
	# 0: no debugging output (default)
	# 1: print commands and responses but not body text etc.
	# 2: also print raw lines read and sent before stripping CR/LF
	def debug(self, level):
		self.debugging = level

	# Internal: send one line to the server, appending CRLF
	def putline(self, line):
		line = line + CRLF
		if self.debugging > 1: print '*put*', `line`
		self.sock.send(line)

	# Internal: send one command to the server (through putline())
	def putcmd(self, line):
		if self.debugging: print '*cmd*', `line`
		self.putline(line)

	# Internal: return one line from the server, stripping CRLF.
	# Raise EOFError if the connection is closed
	def getline(self):
		line = self.file.readline()
		if self.debugging > 1:
			print '*get*', `line`
		if not line: raise EOFError
		if line[-2:] == CRLF: line = line[:-2]
		elif line[-1:] in CRLF: line = line[:-1]
		return line

	# Internal: get a response from the server, which may possibly
	# consist of multiple lines.  Return a single string with no
	# trailing CRLF.  If the response consists of multiple lines,
	# these are separated by '\n' characters in the string
	def getmultiline(self):
		line = self.getline()
		if line[3:4] == '-':
			code = line[:3]
			while 1:
				nextline = self.getline()
				line = line + ('\n' + nextline)
				if nextline[:3] == code and \
					nextline[3:4] <> '-':
					break
		return line

	# Internal: get a response from the server.
	# Raise various errors if the response indicates an error
	def getresp(self):
		resp = self.getmultiline()
		if self.debugging: print '*resp*', `resp`
		self.lastresp = resp[:3]
		c = resp[:1]
		if c == '4':
			raise error_temp, resp
		if c == '5':
			raise error_perm, resp
		if c not in '123':
			raise error_proto, resp
		return resp

	# Expect a response beginning with '2'
	def voidresp(self):
		resp = self.getresp()
		if resp[0] <> '2':
			raise error_reply, resp

	# Send a command and return the response
	def sendcmd(self, cmd):
		self.putcmd(cmd)
		return self.getresp()

	# Send a command and expect a response beginning with '2'
	def voidcmd(self, cmd):
		self.putcmd(cmd)
		self.voidresp()

	# Send a PORT command with the current host and the given port number
	def sendport(self, port):
		hostname = socket.gethostname()
		hostaddr = socket.gethostbyname(hostname)
		hbytes = string.splitfields(hostaddr, '.')
		pbytes = [`port/256`, `port%256`]
		bytes = hbytes + pbytes
		cmd = 'PORT ' + string.joinfields(bytes, ',')
		self.voidcmd(cmd)

	# Create a new socket and send a PORT command for it
	def makeport(self):
		global nextport
		sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
		try:
			getsockname = sock.getsockname
		except AttributeError:
			if self.debugging > 1:
				print '*** getsockname not supported',
				print '-- using manual port assignment ***'
			port = nextport + PORT_OFFSET
			nextport = (nextport + 1) % PORT_CYCLE
			sock.bind('', port)
			getsockname = None
		sock.listen(0) # Assigns the port if not explicitly bound
		if getsockname:
			host, port = getsockname()
		resp = self.sendport(port)
		return sock

	# Send a port command and a transfer command, accept the connection
	# and return the socket for the connection
	def transfercmd(self, cmd):
		sock = self.makeport()
		resp = self.sendcmd(cmd)
		if resp[0] <> '1':
			raise error_reply, resp
		conn, sockaddr = sock.accept()
		return conn

	# Login, default anonymous
	def login(self, *args):
		user = passwd = acct = ''
		n = len(args)
		if n > 3: raise TypeError, 'too many arguments'
		if n > 0: user = args[0]
		if n > 1: passwd = args[1]
		if n > 2: acct = args[2]
		if not user: user = 'anonymous'
		if user == 'anonymous' and passwd in ('', '-'):
			thishost = socket.gethostname()
			if os.environ.has_key('LOGNAME'):
				realuser = os.environ['LOGNAME']
			elif os.environ.has_key('USER'):
				realuser = os.environ['USER']
			else:
				realuser = 'anonymous'
			passwd = passwd + realuser + '@' + thishost
		resp = self.sendcmd('USER ' + user)
		if resp[0] == '3': resp = self.sendcmd('PASS ' + passwd)
		if resp[0] == '3': resp = self.sendcmd('ACCT ' + acct)
		if resp[0] <> '2':
			raise error_reply, resp

	# Retrieve data in binary mode.
	# The argument is a RETR command.
	# The callback function is called for each block.
	# This creates a new port for you
	def retrbinary(self, cmd, callback, blocksize):
		self.voidcmd('TYPE I')
		conn = self.transfercmd(cmd)
		while 1:
			data = conn.recv(blocksize)
			if not data:
				break
			callback(data)
		conn.close()
		self.voidresp()

	# Retrieve data in line mode.
	# The argument is a RETR or LIST command.
	# The callback function is called for each line, with trailing
	# CRLF stripped.  This creates a new port for you
	def retrlines(self, cmd, callback):
		resp = self.sendcmd('TYPE A')
		conn = self.transfercmd(cmd)
		fp = conn.makefile('r')
		while 1:
			line = fp.readline()
			if not line:
				break
			if line[-2:] == CRLF:
				line = line[:-2]
			elif line[:-1] == '\n':
				line = line[:-1]
			callback(line)
		fp.close()
		conn.close()
		self.voidresp()

	# Store a file in binary mode
	def storbinary(self, cmd, fp, blocksize):
		self.voidcmd('TYPE I')
		conn = self.transfercmd(cmd)
		while 1:
			buf = fp.read(blocksize)
			if not buf: break
			conn.send(buf)
		conn.close()
		self.voidresp()

	# Store a file in line mode
	def storlines(self, cmd, fp):
		self.voidcmd('TYPE A')
		conn = self.transfercmd(cmd)
		while 1:
			buf = fp.readline()
			if not buf: break
			if buf[-2:] <> CRLF:
				if buf[-1] in CRLF: buf = buf[:-1]
				buf = buf + CRLF
			conn.send(buf)
		conn.close()
		self.voidresp()

	# Return a list of files in a given directory (default the current)
	def nlst(self, *args):
		cmd = 'NLST'
		for arg in args:
			cmd = cmd + (' ' + arg)
		files = []
		self.retrlines(cmd, files.append)
		return files

	# Rename a file
	def rename(self, fromname, toname):
		resp = self.sendcmd('RNFR ' + fromname)
		if resp[0] <> '3':
			raise error_reply, resp
		self.voidcmd('RNTO ' + toname)

	# Make a directory, return its full pathname
	def mkd(self, dirname):
		resp = self.sendcmd('MKD ' + dirname)
		return parse257(resp)

	# Return current wording directory
	def pwd(self):
		resp = self.sendcmd('PWD')
		return parse257(resp)

	# Quit, and close the connection
	def quit(self):
		self.voidcmd('QUIT')
		self.file.close()
		self.sock.close()
		del self.file, self.sock


# Parse a response type 257
def parse257(resp):
	if resp[:3] <> '257':
		raise error_reply, resp
	if resp[3:5] <> ' "':
		return '' # Not compliant to RFC 959, but UNIX ftpd does this
	dirname = ''
	i = 5
	n = len(resp)
	while i < n:
		c = resp[i]
		i = i+1
		if c == '"':
			if i >= n or resp[i] <> '"':
				break
			i = i+1
		dirname = dirname + c
	return dirname


# Test program.
# Usage: ftp [-d] host [-l[dir]] [-d[dir]] [file] ...
def test():
	import marshal
	global nextport
	try:
		nextport = marshal.load(open('.@nextport', 'r'))
	except IOError:
		pass
	try:
		debugging = 0
		while sys.argv[1] == '-d':
			debugging = debugging+1
			del sys.argv[1]
		host = sys.argv[1]
		ftp = FTP().init(host)
		ftp.debug(debugging)
		ftp.login()
		def writeln(line): print line
		for file in sys.argv[2:]:
			if file[:2] == '-l':
				cmd = 'LIST'
				if file[2:]: cmd = cmd + ' ' + file[2:]
				ftp.retrlines(cmd, writeln)
			elif file[:2] == '-d':
				cmd = 'CWD'
				if file[2:]: cmd = cmd + ' ' + file[2:]
				resp = ftp.sendcmd(cmd)
			else:
				ftp.retrbinary('RETR ' + file, \
					       sys.stdout.write, 1024)
		ftp.quit()
	finally:
		marshal.dump(nextport, open('.@nextport', 'w'))