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

 #!/usr/local/bin/python
 #
 # A class for wrapping the WWW Forms Common Gateway Interface (CGI)
 # Michael McLay, NIST  mclay@eeel.nist.gov  6/14/94
 #
 # modified by Steve Majewski <sdm7g@Virginia.EDU> 12/5/94
 #

 # Several classes to parse the name/value pairs that are passed to
 # a server's CGI by GET, POST or PUT methods by a WWW FORM. This
 # module is based on Mike McLay's original cgi.py after discussing
 # changes with him and others on the comp.lang.python newsgroup, and
 # at the NIST Python workshop.
 #
 # The rationale for changes was:
 #    The original FormContent class was almost, but not quite like
 #    a dictionary object. Besides adding some extra access methods,
 #    it had a values() method with different arguments and semantics
 #    from the standard values() method of a mapping object. Also,
 #    it provided several different access methods that may be necessary
 #    or useful, but made it a little more confusing to figure out how
 #    to use. Also, we wanted to make the most typical cases the simplest
 #    and most convenient access methods. ( Most form fields just return
 #    a single value, and in practice, a lot of code was just assuming
 #    a single value and ignoring all others. On the other hand, the
 #    protocol allows multiple values to be returned.
 #
 #  The new base class (FormContentDict) is just like a dictionary.
 #  In fact, if you just want a dictionary, all of the stuff that was
 #  in __init__ has been extracted into a cgi.parse() function that will
 #  return the "raw" dictionary, but having a class allows you to customize
 #  it further.
 #   Mike McLay's original FormContent class is reimplemented as a
 #  subclass of FormContentDict.
 #   There are two additional sub-classes, but I'm not yet too sure
 #  whether they are what I want.
 #

 import string,regsub,sys,os,urllib
 # since os.environ may often be used in cgi code, we name it in this module.
 from os import environ


 def parse():
 	if environ['REQUEST_METHOD'] == 'POST':
 		qs = sys.stdin.read(string.atoi(environ['CONTENT_LENGTH']))
 		environ['QUERY_STRING'] = qs
 	else:
 		qs = environ['QUERY_STRING']
 	name_value_pairs = string.splitfields(qs, '&')
 	dict = {}
 	for name_value in name_value_pairs:
 		nv = string.splitfields(name_value, '=')
 		if len(nv) != 2:
 			continue
 		name = nv[0]
 		value = urllib.unquote(regsub.gsub('+',' ',nv[1]))
 		if len(value):
 			if dict.has_key (name):
 				dict[name].append(value)
 			else:
 				dict[name] = [value]
 	return dict


 # The FormContent constructor creates a dictionary from the name/value pairs
 # passed through the CGI interface.


 #
 #  form['key']
 #  form.__getitem__('key')
 #  form.has_key('key')
 #  form.keys()
 #  form.values()
 #  form.items()
 #  form.dict

 class FormContentDict:
 	def __init__( self ):
 		self.dict = parse()
 		self.query_string = environ['QUERY_STRING']
 	def __getitem__(self,key):
 		return self.dict[key]
 	def keys(self):
 		return self.dict.keys()
 	def has_key(self, key):
 		return self.dict.has_key(key)
 	def values(self):
 		return self.dict.values()
 	def items(self):
 		return self.dict.items()
 	def __len__( self ):
 		return len(self.dict)


 # This is the "strict" single-value expecting version.
 # IF you only expect a single value for each field, then form[key]
 # will return that single value ( the [0]-th ), and raise an
 # IndexError if that expectation is not true.
 # IF you expect a field to have possible multiple values, than you
 # can use form.getlist( key ) to get all of the values.
 # values() and items() are a compromise: they return single strings
 #  where there is a single value, and lists of strings otherwise.

 class SvFormContentDict(FormContentDict):
 	def __getitem__( self, key ):
 		if len( self.dict[key] ) > 1 :
 			raise IndexError, 'expecting a single value'
 		return self.dict[key][0]
 	def getlist( self, key ):
 		return self.dict[key]
 	def values( self ):
 		lis = []
 		for each in self.dict.values() :
 			if len( each ) == 1 :
 				lis.append( each[0] )
 			else: lis.append( each )
 		return lis
 	def items( self ):
 		lis = []
 		for key,value in self.dict.items():
 			if len(value) == 1 :
 				lis.append( (key,value[0]) )
 			else:	lis.append( (key,value) )
 		return lis


 # And this sub-class is similar to the above, but it will attempt to
 # interpret numerical values. This is here as mostly as an example,
 # but I think the real way to handle typed-data from a form may be
 # to make an additional table driver parsing stage that has a table
 # of allowed input patterns and the output conversion types - it
 # would signal type-errors on parse, not on access.
 class InterpFormContentDict(SvFormContentDict):
 	def __getitem__( self, key ):
 		v = SvFormContentDict.__getitem__( self, key )
 		if v[0] in string.digits+'+-.' :
 			try:  return  string.atoi( v )
 			except ValueError:
 				try:	return string.atof( v )
 				except ValueError: pass
 		return string.strip(v)
 	def values( self ):
 		lis = []
 		for key in self.keys():
 			try:
 				lis.append( self[key] )
 			except IndexError:
 				lis.append( self.dict[key] )
 		return lis
 	def items( self ):
 		lis = []
 		for key in self.keys():
 			try:
 				lis.append( (key, self[key]) )
 			except IndexError:
 				lis.append( (key, self.dict[key]) )
 		return lis


 # class FormContent parses the name/value pairs that are passed to a
 # server's CGI by GET, POST, or PUT methods by a WWW FORM. several
 # specialized FormContent dictionary access methods have been added
 # for convenience.

 # function                   return value
 #
 # form.keys()                     all keys in dictionary
 # form.has_key('key')             test keys existance
 # form[key]                       returns list associated with key
 # form.values('key')              key's list (same as form.[key])
 # form.indexed_value('key' index) nth element in key's value list
 # form.value(key)                 key's unstripped value
 # form.length(key)                number of elements in key's list
 # form.stripped(key)              key's value with whitespace stripped
 # form.pars()                     full dictionary


 class FormContent(FormContentDict):
 # This is the original FormContent semantics of values,
 # not the dictionary like semantics.
 	def values(self,key):
 		if self.dict.has_key(key):return self.dict[key]
 		else: return None
 	def indexed_value(self,key, location):
 		if self.dict.has_key(key):
 			if len (self.dict[key]) > location:
 				return self.dict[key][location]
 			else: return None
 		else: return None
 	def value(self,key):
 		if self.dict.has_key(key):return self.dict[key][0]
 		else: return None
 	def length(self,key):
 		return len (self.dict[key])
 	def stripped(self,key):
 		if self.dict.has_key(key):return string.strip(self.dict[key][0])
 		else: return None
 	def pars(self):
 		return self.dict


 def print_environ_usage():
 	print """
 <H3>These operating system environment variables could have been
 set:</H3> <UL>
 <LI>AUTH_TYPE
 <LI>CONTENT_LENGTH
 <LI>CONTENT_TYPE
 <LI>DATE_GMT
 <LI>DATE_LOCAL
 <LI>DOCUMENT_NAME
 <LI>DOCUMENT_ROOT
 <LI>DOCUMENT_URI
 <LI>GATEWAY_INTERFACE
 <LI>LAST_MODIFIED
 <LI>PATH
 <LI>PATH_INFO
 <LI>PATH_TRANSLATED
 <LI>QUERY_STRING
 <LI>REMOTE_ADDR
 <LI>REMOTE_HOST
 <LI>REMOTE_IDENT
 <LI>REMOTE_USER
 <LI>REQUEST_METHOD
 <LI>SCRIPT_NAME
 <LI>SERVER_NAME
 <LI>SERVER_PORT
 <LI>SERVER_PROTOCOL
 <LI>SERVER_ROOT
 <LI>SERVER_SOFTWARE
 </UL>
 """

 def print_environ():
 	skeys = environ.keys()
 	skeys.sort()
 	print '<h3> The following environment variables were set by the CGI script: </H3>'
 	print '<dl>'
 	for key in skeys:
 		print '<dt>',key, '<dd>', environ[key]
 	print '</dl>'

 def print_form( form ):
 	print '<h3> The following name/value pairs were entered in the form:</h3>'
 	print '<dl>'
 	skeys = form.keys()
 	skeys.sort()
 	for key in skeys:
 		print '<dt>',key, ' : <i> ',escape(`type(form[key])`),' </i>','<dd>', form[key]
 	print '</dl>'

 def escape( s ):
 	return regsub.gsub( '<', '&lt;', regsub.gsub( '>' , '&gt;', s ))

 def test( what ):
 	label = escape(str(what))
 	print 'Content-type: text/html\n\n'
 	print '<HEADER>\n<TITLE>' + label + '</TITLE>\n</HEADER>\n'
 	print '<BODY>\n'
 	print "<H1>" + label +"</H1>\n"
 	form = what()
 	print_form( form )
 	print_environ()
 	print_environ_usage()
 	print '</body>'

 if __name__ == '__main__' :
 	test_classes = ( FormContent, FormContentDict, SvFormContentDict, InterpFormContentDict )
 	test( test_classes[0] )	# by default, test compatibility with
 				# old version, change index to test others.
	#!/usr/local/bin/python
	#
	# A class for wrapping the WWW Forms Common Gateway Interface (CGI)
	# Michael McLay, NIST mclay@eeel.nist.gov 6/14/94
	#
	# modified by Steve Majewski <sdm7g@Virginia.EDU> 12/5/94
	#

	# Several classes to parse the name/value pairs that are passed to
	# a server's CGI by GET, POST or PUT methods by a WWW FORM. This
	# module is based on Mike McLay's original cgi.py after discussing
	# changes with him and others on the comp.lang.python newsgroup, and
	# at the NIST Python workshop.
	#
	# The rationale for changes was:
	# The original FormContent class was almost, but not quite like
	# a dictionary object. Besides adding some extra access methods,
	# it had a values() method with different arguments and semantics
	# from the standard values() method of a mapping object. Also,
	# it provided several different access methods that may be necessary
	# or useful, but made it a little more confusing to figure out how
	# to use. Also, we wanted to make the most typical cases the simplest
	# and most convenient access methods. ( Most form fields just return
	# a single value, and in practice, a lot of code was just assuming
	# a single value and ignoring all others. On the other hand, the
	# protocol allows multiple values to be returned.
	#
	# The new base class (FormContentDict) is just like a dictionary.
	# In fact, if you just want a dictionary, all of the stuff that was
	# in __init__ has been extracted into a cgi.parse() function that will
	# return the "raw" dictionary, but having a class allows you to customize
	# it further.
	# Mike McLay's original FormContent class is reimplemented as a
	# subclass of FormContentDict.
	# There are two additional sub-classes, but I'm not yet too sure
	# whether they are what I want.
	#

	import string,regsub,sys,os,urllib
	# since os.environ may often be used in cgi code, we name it in this module.
	from os import environ


	def parse():
	if environ['REQUEST_METHOD'] == 'POST':
	qs = sys.stdin.read(string.atoi(environ['CONTENT_LENGTH']))
	environ['QUERY_STRING'] = qs
	else:
	qs = environ['QUERY_STRING']
	name_value_pairs = string.splitfields(qs, '&')
	dict = {}
	for name_value in name_value_pairs:
	nv = string.splitfields(name_value, '=')
	if len(nv) != 2:
	continue
	name = nv[0]
	value = urllib.unquote(regsub.gsub('+',' ',nv[1]))
	if len(value):
	if dict.has_key (name):
	dict[name].append(value)
	else:
	dict[name] = [value]
	return dict



	# The FormContent constructor creates a dictionary from the name/value pairs
	# passed through the CGI interface.


	#
	# form['key']
	# form.__getitem__('key')
	# form.has_key('key')
	# form.keys()
	# form.values()
	# form.items()
	# form.dict

	class FormContentDict:
	def __init__( self ):
	self.dict = parse()
	self.query_string = environ['QUERY_STRING']
	def __getitem__(self,key):
	return self.dict[key]
	def keys(self):
	return self.dict.keys()
	def has_key(self, key):
	return self.dict.has_key(key)
	def values(self):
	return self.dict.values()
	def items(self):
	return self.dict.items()
	def __len__( self ):
	return len(self.dict)


	# This is the "strict" single-value expecting version.
	# IF you only expect a single value for each field, then form[key]
	# will return that single value ( the [0]-th ), and raise an
	# IndexError if that expectation is not true.
	# IF you expect a field to have possible multiple values, than you
	# can use form.getlist( key ) to get all of the values.
	# values() and items() are a compromise: they return single strings
	# where there is a single value, and lists of strings otherwise.

	class SvFormContentDict(FormContentDict):
	def __getitem__( self, key ):
	if len( self.dict[key] ) > 1 :
	raise IndexError, 'expecting a single value'
	return self.dict[key][0]
	def getlist( self, key ):
	return self.dict[key]
	def values( self ):
	lis = []
	for each in self.dict.values() :
	if len( each ) == 1 :
	lis.append( each[0] )
	else: lis.append( each )
	return lis
	def items( self ):
	lis = []
	for key,value in self.dict.items():
	if len(value) == 1 :
	lis.append( (key,value[0]) )
	else: lis.append( (key,value) )
	return lis


	# And this sub-class is similar to the above, but it will attempt to
	# interpret numerical values. This is here as mostly as an example,
	# but I think the real way to handle typed-data from a form may be
	# to make an additional table driver parsing stage that has a table
	# of allowed input patterns and the output conversion types - it
	# would signal type-errors on parse, not on access.
	class InterpFormContentDict(SvFormContentDict):
	def __getitem__( self, key ):
	v = SvFormContentDict.__getitem__( self, key )
	if v[0] in string.digits+'+-.' :
	try: return string.atoi( v )
	except ValueError:
	try: return string.atof( v )
	except ValueError: pass
	return string.strip(v)
	def values( self ):
	lis = []
	for key in self.keys():
	try:
	lis.append( self[key] )
	except IndexError:
	lis.append( self.dict[key] )
	return lis
	def items( self ):
	lis = []
	for key in self.keys():
	try:
	lis.append( (key, self[key]) )
	except IndexError:
	lis.append( (key, self.dict[key]) )
	return lis


	# class FormContent parses the name/value pairs that are passed to a
	# server's CGI by GET, POST, or PUT methods by a WWW FORM. several
	# specialized FormContent dictionary access methods have been added
	# for convenience.

	# function return value
	#
	# form.keys() all keys in dictionary
	# form.has_key('key') test keys existance
	# form[key] returns list associated with key
	# form.values('key') key's list (same as form.[key])
	# form.indexed_value('key' index) nth element in key's value list
	# form.value(key) key's unstripped value
	# form.length(key) number of elements in key's list
	# form.stripped(key) key's value with whitespace stripped
	# form.pars() full dictionary



	class FormContent(FormContentDict):
	# This is the original FormContent semantics of values,
	# not the dictionary like semantics.
	def values(self,key):
	if self.dict.has_key(key):return self.dict[key]
	else: return None
	def indexed_value(self,key, location):
	if self.dict.has_key(key):
	if len (self.dict[key]) > location:
	return self.dict[key][location]
	else: return None
	else: return None
	def value(self,key):
	if self.dict.has_key(key):return self.dict[key][0]
	else: return None
	def length(self,key):
	return len (self.dict[key])
	def stripped(self,key):
	if self.dict.has_key(key):return string.strip(self.dict[key][0])
	else: return None
	def pars(self):
	return self.dict






	def print_environ_usage():
	print """
	<H3>These operating system environment variables could have been
	set:</H3> <UL>
	<LI>AUTH_TYPE
	<LI>CONTENT_LENGTH
	<LI>CONTENT_TYPE
	<LI>DATE_GMT
	<LI>DATE_LOCAL
	<LI>DOCUMENT_NAME
	<LI>DOCUMENT_ROOT
	<LI>DOCUMENT_URI
	<LI>GATEWAY_INTERFACE
	<LI>LAST_MODIFIED
	<LI>PATH
	<LI>PATH_INFO
	<LI>PATH_TRANSLATED
	<LI>QUERY_STRING
	<LI>REMOTE_ADDR
	<LI>REMOTE_HOST
	<LI>REMOTE_IDENT
	<LI>REMOTE_USER
	<LI>REQUEST_METHOD
	<LI>SCRIPT_NAME
	<LI>SERVER_NAME
	<LI>SERVER_PORT
	<LI>SERVER_PROTOCOL
	<LI>SERVER_ROOT
	<LI>SERVER_SOFTWARE
	</UL>
	"""

	def print_environ():
	skeys = environ.keys()
	skeys.sort()
	print '<h3> The following environment variables were set by the CGI script: </H3>'
	print '<dl>'
	for key in skeys:
	print '<dt>',key, '<dd>', environ[key]
	print '</dl>'

	def print_form( form ):
	print '<h3> The following name/value pairs were entered in the form:</h3>'
	print '<dl>'
	skeys = form.keys()
	skeys.sort()
	for key in skeys:
	print '<dt>',key, ' : <i> ',escape(`type(form[key])`),' </i>','<dd>', form[key]
	print '</dl>'

	def escape( s ):
	return regsub.gsub( '<', '<', regsub.gsub( '>' , '>', s ))

	def test( what ):
	label = escape(str(what))
	print 'Content-type: text/html\n\n'
	print '<HEADER>\n<TITLE>' + label + '</TITLE>\n</HEADER>\n'
	print '<BODY>\n'
	print "<H1>" + label +"</H1>\n"
	form = what()
	print_form( form )
	print_environ()
	print_environ_usage()
	print '</body>'

	if __name__ == '__main__' :
	test_classes = ( FormContent, FormContentDict, SvFormContentDict, InterpFormContentDict )
	test( test_classes[0] ) # by default, test compatibility with
	# old version, change index to test others.