Lib/mimetools.py - platform/external/python/cpython3 - Gitiles

 # Various tools used by MIME-reading or MIME-writing programs.


 import os
 import rfc822
 import string
 import tempfile


 # A derived class of rfc822.Message that knows about MIME headers and
 # contains some hooks for decoding encoded and multipart messages.

 class Message(rfc822.Message):

 	def __init__(self, fp, seekable = 1):
 		rfc822.Message.__init__(self, fp, seekable)
 		self.encodingheader = \
 			self.getheader('content-transfer-encoding')
 		self.typeheader = \
 			self.getheader('content-type')
 		self.parsetype()
 		self.parseplist()

 	def parsetype(self):
 		str = self.typeheader
 		if str == None:
 			str = 'text/plain'
 		if ';' in str:
 			i = string.index(str, ';')
 			self.plisttext = str[i:]
 			str = str[:i]
 		else:
 			self.plisttext = ''
 		fields = string.splitfields(str, '/')
 		for i in range(len(fields)):
 			fields[i] = string.lower(string.strip(fields[i]))
 		self.type = string.joinfields(fields, '/')
 		self.maintype = fields[0]
 		self.subtype = string.joinfields(fields[1:], '/')

 	def parseplist(self):
 		str = self.plisttext
 		self.plist = []
 		while str[:1] == ';':
 			str = str[1:]
 			if ';' in str:
 				# XXX Should parse quotes!
 				end = string.index(str, ';')
 			else:
 				end = len(str)
 			f = str[:end]
 			if '=' in f:
 				i = string.index(f, '=')
 				f = string.lower(string.strip(f[:i])) + \
 					'=' + string.strip(f[i+1:])
 			self.plist.append(string.strip(f))
 			str = str[end:]

 	def getplist(self):
 		return self.plist

 	def getparam(self, name):
 		name = string.lower(name) + '='
 		n = len(name)
 		for p in self.plist:
 			if p[:n] == name:
 				return rfc822.unquote(p[n:])
 		return None

 	def getparamnames(self):
 		result = []
 		for p in self.plist:
 			i = string.find(p, '=')
 			if i >= 0:
 				result.append(string.lower(p[:i]))
 		return result

 	def getencoding(self):
 		if self.encodingheader == None:
 			return '7bit'
 		return string.lower(self.encodingheader)

 	def gettype(self):
 		return self.type

 	def getmaintype(self):
 		return self.maintype

 	def getsubtype(self):
 		return self.subtype


 # Utility functions
 # -----------------


 # Return a random string usable as a multipart boundary.
 # The method used is so that it is *very* unlikely that the same
 # string of characters will every occur again in the Universe,
 # so the caller needn't check the data it is packing for the
 # occurrence of the boundary.
 #
 # The boundary contains dots so you have to quote it in the header.

 _prefix = None

 def choose_boundary():
 	global _prefix
 	import time
 	import random
 	if _prefix == None:
 		import socket
 		import os
 		hostid = socket.gethostbyname(socket.gethostname())
 		try:
 		    uid = `os.getuid()`
 		except:
 		    uid = '1'
 		try:
 		    pid = `os.getpid()`
 		except:
 		    pid = '1'
 		_prefix = hostid + '.' + uid + '.' + pid
 	timestamp = '%.3f' % time.time()
 	seed = `random.randint(0, 32767)`
 	return _prefix + '.' + timestamp + '.' + seed


 # Subroutines for decoding some common content-transfer-types

 def decode(input, output, encoding):
 	if encoding == 'base64':
 		import base64
 		return base64.decode(input, output)
 	if encoding == 'quoted-printable':
 		import quopri
 		return quopri.decode(input, output)
 	if encoding in ('uuencode', 'x-uuencode', 'uue', 'x-uue'):
 		import uu
 		return uu.decode(input, output)
 	if decodetab.has_key(encoding):
 		pipethrough(input, decodetab[encoding], output)
 	else:
 		raise ValueError, \
 		      'unknown Content-Transfer-Encoding: %s' % encoding

 def encode(input, output, encoding):
 	if encoding == 'base64':
 		import base64
 		return base64.encode(input, output)
 	if encoding == 'quoted-printable':
 		import quopri
 		return quopri.encode(input, output, 0)
 	if encoding in ('uuencode', 'x-uuencode', 'uue', 'x-uue'):
 		import uu
 		return uu.encode(input, output)
 	if encodetab.has_key(encoding):
 		pipethrough(input, encodetab[encoding], output)
 	else:
 		raise ValueError, \
 		      'unknown Content-Transfer-Encoding: %s' % encoding

 # The following is no longer used for standard encodings

 # XXX This requires that uudecode and mmencode are in $PATH

 uudecode_pipe = '''(
 TEMP=/tmp/@uu.$$
 sed "s%^begin [0-7][0-7]* .*%begin 600 $TEMP%" | uudecode
 cat $TEMP
 rm $TEMP
 )'''

 decodetab = {
 	'uuencode':		uudecode_pipe,
 	'x-uuencode':		uudecode_pipe,
 	'uue':			uudecode_pipe,
 	'x-uue':		uudecode_pipe,
 	'quoted-printable':	'mmencode -u -q',
 	'base64':		'mmencode -u -b',
 }

 encodetab = {
 	'x-uuencode':		'uuencode tempfile',
 	'uuencode':		'uuencode tempfile',
 	'x-uue':		'uuencode tempfile',
 	'uue':			'uuencode tempfile',
 	'quoted-printable':	'mmencode -q',
 	'base64':		'mmencode -b',
 }

 def pipeto(input, command):
 	pipe = os.popen(command, 'w')
 	copyliteral(input, pipe)
 	pipe.close()

 def pipethrough(input, command, output):
 	tempname = tempfile.mktemp()
 	try:
 		temp = open(tempname, 'w')
 	except IOError:
 		print '*** Cannot create temp file', `tempname`
 		return
 	copyliteral(input, temp)
 	temp.close()
 	pipe = os.popen(command + ' <' + tempname, 'r')
 	copybinary(pipe, output)
 	pipe.close()
 	os.unlink(tempname)

 def copyliteral(input, output):
 	while 1:
 		line = input.readline()
 		if not line: break
 		output.write(line)

 def copybinary(input, output):
 	BUFSIZE = 8192
 	while 1:
 		line = input.read(BUFSIZE)
 		if not line: break
 		output.write(line)
	# Various tools used by MIME-reading or MIME-writing programs.


	import os
	import rfc822
	import string
	import tempfile


	# A derived class of rfc822.Message that knows about MIME headers and
	# contains some hooks for decoding encoded and multipart messages.

	class Message(rfc822.Message):

	def __init__(self, fp, seekable = 1):
	rfc822.Message.__init__(self, fp, seekable)
	self.encodingheader = \
	self.getheader('content-transfer-encoding')
	self.typeheader = \
	self.getheader('content-type')
	self.parsetype()
	self.parseplist()

	def parsetype(self):
	str = self.typeheader
	if str == None:
	str = 'text/plain'
	if ';' in str:
	i = string.index(str, ';')
	self.plisttext = str[i:]
	str = str[:i]
	else:
	self.plisttext = ''
	fields = string.splitfields(str, '/')
	for i in range(len(fields)):
	fields[i] = string.lower(string.strip(fields[i]))
	self.type = string.joinfields(fields, '/')
	self.maintype = fields[0]
	self.subtype = string.joinfields(fields[1:], '/')

	def parseplist(self):
	str = self.plisttext
	self.plist = []
	while str[:1] == ';':
	str = str[1:]
	if ';' in str:
	# XXX Should parse quotes!
	end = string.index(str, ';')
	else:
	end = len(str)
	f = str[:end]
	if '=' in f:
	i = string.index(f, '=')
	f = string.lower(string.strip(f[:i])) + \
	'=' + string.strip(f[i+1:])
	self.plist.append(string.strip(f))
	str = str[end:]

	def getplist(self):
	return self.plist

	def getparam(self, name):
	name = string.lower(name) + '='
	n = len(name)
	for p in self.plist:
	if p[:n] == name:
	return rfc822.unquote(p[n:])
	return None

	def getparamnames(self):
	result = []
	for p in self.plist:
	i = string.find(p, '=')
	if i >= 0:
	result.append(string.lower(p[:i]))
	return result

	def getencoding(self):
	if self.encodingheader == None:
	return '7bit'
	return string.lower(self.encodingheader)

	def gettype(self):
	return self.type

	def getmaintype(self):
	return self.maintype

	def getsubtype(self):
	return self.subtype




	# Utility functions
	# -----------------


	# Return a random string usable as a multipart boundary.
	# The method used is so that it is very unlikely that the same
	# string of characters will every occur again in the Universe,
	# so the caller needn't check the data it is packing for the
	# occurrence of the boundary.
	#
	# The boundary contains dots so you have to quote it in the header.

	_prefix = None

	def choose_boundary():
	global _prefix
	import time
	import random
	if _prefix == None:
	import socket
	import os
	hostid = socket.gethostbyname(socket.gethostname())
	try:
	uid = `os.getuid()`
	except:
	uid = '1'
	try:
	pid = `os.getpid()`
	except:
	pid = '1'
	_prefix = hostid + '.' + uid + '.' + pid
	timestamp = '%.3f' % time.time()
	seed = `random.randint(0, 32767)`
	return _prefix + '.' + timestamp + '.' + seed


	# Subroutines for decoding some common content-transfer-types

	def decode(input, output, encoding):
	if encoding == 'base64':
	import base64
	return base64.decode(input, output)
	if encoding == 'quoted-printable':
	import quopri
	return quopri.decode(input, output)
	if encoding in ('uuencode', 'x-uuencode', 'uue', 'x-uue'):
	import uu
	return uu.decode(input, output)
	if decodetab.has_key(encoding):
	pipethrough(input, decodetab[encoding], output)
	else:
	raise ValueError, \
	'unknown Content-Transfer-Encoding: %s' % encoding

	def encode(input, output, encoding):
	if encoding == 'base64':
	import base64
	return base64.encode(input, output)
	if encoding == 'quoted-printable':
	import quopri
	return quopri.encode(input, output, 0)
	if encoding in ('uuencode', 'x-uuencode', 'uue', 'x-uue'):
	import uu
	return uu.encode(input, output)
	if encodetab.has_key(encoding):
	pipethrough(input, encodetab[encoding], output)
	else:
	raise ValueError, \
	'unknown Content-Transfer-Encoding: %s' % encoding

	# The following is no longer used for standard encodings

	# XXX This requires that uudecode and mmencode are in $PATH

	uudecode_pipe = '''(
	TEMP=/tmp/@uu.$$
	sed "s%^begin [0-7][0-7]* .*%begin 600 $TEMP%" \| uudecode
	cat $TEMP
	rm $TEMP
	)'''

	decodetab = {
	'uuencode': uudecode_pipe,
	'x-uuencode': uudecode_pipe,
	'uue': uudecode_pipe,
	'x-uue': uudecode_pipe,
	'quoted-printable': 'mmencode -u -q',
	'base64': 'mmencode -u -b',
	}

	encodetab = {
	'x-uuencode': 'uuencode tempfile',
	'uuencode': 'uuencode tempfile',
	'x-uue': 'uuencode tempfile',
	'uue': 'uuencode tempfile',
	'quoted-printable': 'mmencode -q',
	'base64': 'mmencode -b',
	}

	def pipeto(input, command):
	pipe = os.popen(command, 'w')
	copyliteral(input, pipe)
	pipe.close()

	def pipethrough(input, command, output):
	tempname = tempfile.mktemp()
	try:
	temp = open(tempname, 'w')
	except IOError:
	print '*** Cannot create temp file', `tempname`
	return
	copyliteral(input, temp)
	temp.close()
	pipe = os.popen(command + ' <' + tempname, 'r')
	copybinary(pipe, output)
	pipe.close()
	os.unlink(tempname)

	def copyliteral(input, output):
	while 1:
	line = input.readline()
	if not line: break
	output.write(line)

	def copybinary(input, output):
	BUFSIZE = 8192
	while 1:
	line = input.read(BUFSIZE)
	if not line: break
	output.write(line)