Doc/lib/libcookie.tex - platform/external/python/cpython3 - Gitiles

 \section{\module{Cookie} ---
          HTTP state management}

 \declaremodule{standard}{Cookie}
 \modulesynopsis{Support for HTTP state management (cookies).}
 \moduleauthor{Timothy O'Malley}{timo@alum.mit.edu}
 \sectionauthor{Moshe Zadka}{moshez@zadka.site.co.il}


 The \module{Cookie} module defines classes for abstracting the concept of
 cookies, an HTTP state management mechanism. It supports both simple
 string-only cookies, and provides an abstraction for having any serializable
 data-type as cookie value.

 The module formerly strictly applied the parsing rules described in
 the \rfc{2109} and \rfc{2068} specifications.  It has since been discovered
 that MSIE 3.0x doesn't follow the character rules outlined in those
 specs.  As a result, the parsing rules used are a bit less strict.

 \begin{excdesc}{CookieError}
 Exception failing because of \rfc{2109} invalidity: incorrect
 attributes, incorrect \mailheader{Set-Cookie} header, etc.
 \end{excdesc}

 \begin{classdesc}{BaseCookie}{\optional{input}}
 This class is a dictionary-like object whose keys are strings and
 whose values are \class{Morsel} instances. Note that upon setting a key to
 a value, the value is first converted to a \class{Morsel} containing
 the key and the value.

 If \var{input} is given, it is passed to the \method{load()} method.
 \end{classdesc}

 \begin{classdesc}{SimpleCookie}{\optional{input}}
 This class derives from \class{BaseCookie} and overrides
 \method{value_decode()} and \method{value_encode()} to be the identity
 and \function{str()} respectively.
 \end{classdesc}

 \begin{classdesc}{SerialCookie}{\optional{input}}
 This class derives from \class{BaseCookie} and overrides
 \method{value_decode()} and \method{value_encode()} to be the
 \function{pickle.loads()} and \function{pickle.dumps()}.

 \deprecated{2.3}{Reading pickled values from untrusted
 cookie data is a huge security hole, as pickle strings can be crafted
 to cause arbitrary code to execute on your server.  It is supported
 for backwards compatibility only, and may eventually go away.}
 \end{classdesc}

 \begin{classdesc}{SmartCookie}{\optional{input}}
 This class derives from \class{BaseCookie}. It overrides
 \method{value_decode()} to be \function{pickle.loads()} if it is a
 valid pickle, and otherwise the value itself. It overrides
 \method{value_encode()} to be \function{pickle.dumps()} unless it is a
 string, in which case it returns the value itself.

 \deprecated{2.3}{The same security warning from \class{SerialCookie}
 applies here.}
 \end{classdesc}

 A further security note is warranted.  For backwards compatibility,
 the \module{Cookie} module exports a class named \class{Cookie} which
 is just an alias for \class{SmartCookie}.  This is probably a mistake
 and will likely be removed in a future version.  You should not use
 the \class{Cookie} class in your applications, for the same reason why
 you should not use the \class{SerialCookie} class.


 \begin{seealso}
   \seemodule{cookielib}{HTTP cookie handling for for web
     \emph{clients}.  The \module{cookielib} and \module{Cookie}
     modules do not depend on each other.}

   \seerfc{2109}{HTTP State Management Mechanism}{This is the state
                 management specification implemented by this module.}
 \end{seealso}


 \subsection{Cookie Objects \label{cookie-objects}}

 \begin{methoddesc}[BaseCookie]{value_decode}{val}
 Return a decoded value from a string representation. Return value can
 be any type. This method does nothing in \class{BaseCookie} --- it exists
 so it can be overridden.
 \end{methoddesc}

 \begin{methoddesc}[BaseCookie]{value_encode}{val}
 Return an encoded value. \var{val} can be any type, but return value
 must be a string. This method does nothing in \class{BaseCookie} --- it exists
 so it can be overridden

 In general, it should be the case that \method{value_encode()} and
 \method{value_decode()} are inverses on the range of \var{value_decode}.
 \end{methoddesc}

 \begin{methoddesc}[BaseCookie]{output}{\optional{attrs\optional{, header\optional{, sep}}}}
 Return a string representation suitable to be sent as HTTP headers.
 \var{attrs} and \var{header} are sent to each \class{Morsel}'s
 \method{output()} method. \var{sep} is used to join the headers
 together, and is by default a newline.
 \end{methoddesc}

 \begin{methoddesc}[BaseCookie]{js_output}{\optional{attrs}}
 Return an embeddable JavaScript snippet, which, if run on a browser which
 supports JavaScript, will act the same as if the HTTP headers was sent.

 The meaning for \var{attrs} is the same as in \method{output()}.
 \end{methoddesc}

 \begin{methoddesc}[BaseCookie]{load}{rawdata}
 If \var{rawdata} is a string, parse it as an \code{HTTP_COOKIE} and add
 the values found there as \class{Morsel}s. If it is a dictionary, it
 is equivalent to:

 \begin{verbatim}
 for k, v in rawdata.items():
     cookie[k] = v
 \end{verbatim}
 \end{methoddesc}


 \subsection{Morsel Objects \label{morsel-objects}}

 \begin{classdesc}{Morsel}{}
 Abstract a key/value pair, which has some \rfc{2109} attributes.

 Morsels are dictionary-like objects, whose set of keys is constant ---
 the valid \rfc{2109} attributes, which are

 \begin{itemize}
 \item \code{expires}
 \item \code{path}
 \item \code{comment}
 \item \code{domain}
 \item \code{max-age}
 \item \code{secure}
 \item \code{version}
 \end{itemize}

 The keys are case-insensitive.
 \end{classdesc}

 \begin{memberdesc}[Morsel]{value}
 The value of the cookie.
 \end{memberdesc}

 \begin{memberdesc}[Morsel]{coded_value}
 The encoded value of the cookie --- this is what should be sent.
 \end{memberdesc}

 \begin{memberdesc}[Morsel]{key}
 The name of the cookie.
 \end{memberdesc}

 \begin{methoddesc}[Morsel]{set}{key, value, coded_value}
 Set the \var{key}, \var{value} and \var{coded_value} members.
 \end{methoddesc}

 \begin{methoddesc}[Morsel]{isReservedKey}{K}
 Whether \var{K} is a member of the set of keys of a \class{Morsel}.
 \end{methoddesc}

 \begin{methoddesc}[Morsel]{output}{\optional{attrs\optional{, header}}}
 Return a string representation of the Morsel, suitable
 to be sent as an HTTP header. By default, all the attributes are included,
 unless \var{attrs} is given, in which case it should be a list of attributes
 to use. \var{header} is by default \code{"Set-Cookie:"}.
 \end{methoddesc}

 \begin{methoddesc}[Morsel]{js_output}{\optional{attrs}}
 Return an embeddable JavaScript snippet, which, if run on a browser which
 supports JavaScript, will act the same as if the HTTP header was sent.

 The meaning for \var{attrs} is the same as in \method{output()}.
 \end{methoddesc}

 \begin{methoddesc}[Morsel]{OutputString}{\optional{attrs}}
 Return a string representing the Morsel, without any surrounding HTTP
 or JavaScript.

 The meaning for \var{attrs} is the same as in \method{output()}.
 \end{methoddesc}


 \subsection{Example \label{cookie-example}}

 The following example demonstrates how to use the \module{Cookie} module.

 \begin{verbatim}
 >>> import Cookie
 >>> C = Cookie.SimpleCookie()
 >>> C = Cookie.SerialCookie()
 >>> C = Cookie.SmartCookie()
 >>> C["fig"] = "newton"
 >>> C["sugar"] = "wafer"
 >>> print C # generate HTTP headers
 Set-Cookie: sugar=wafer;
 Set-Cookie: fig=newton;
 >>> print C.output() # same thing
 Set-Cookie: sugar=wafer;
 Set-Cookie: fig=newton;
 >>> C = Cookie.SmartCookie()
 >>> C["rocky"] = "road"
 >>> C["rocky"]["path"] = "/cookie"
 >>> print C.output(header="Cookie:")
 Cookie: rocky=road; Path=/cookie;
 >>> print C.output(attrs=[], header="Cookie:")
 Cookie: rocky=road;
 >>> C = Cookie.SmartCookie()
 >>> C.load("chips=ahoy; vienna=finger") # load from a string (HTTP header)
 >>> print C
 Set-Cookie: vienna=finger;
 Set-Cookie: chips=ahoy;
 >>> C = Cookie.SmartCookie()
 >>> C.load('keebler="E=everybody; L=\\"Loves\\"; fudge=\\012;";')
 >>> print C
 Set-Cookie: keebler="E=everybody; L=\"Loves\"; fudge=\012;";
 >>> C = Cookie.SmartCookie()
 >>> C["oreo"] = "doublestuff"
 >>> C["oreo"]["path"] = "/"
 >>> print C
 Set-Cookie: oreo=doublestuff; Path=/;
 >>> C = Cookie.SmartCookie()
 >>> C["twix"] = "none for you"
 >>> C["twix"].value
 'none for you'
 >>> C = Cookie.SimpleCookie()
 >>> C["number"] = 7 # equivalent to C["number"] = str(7)
 >>> C["string"] = "seven"
 >>> C["number"].value
 '7'
 >>> C["string"].value
 'seven'
 >>> print C
 Set-Cookie: number=7;
 Set-Cookie: string=seven;
 >>> C = Cookie.SerialCookie()
 >>> C["number"] = 7
 >>> C["string"] = "seven"
 >>> C["number"].value
 7
 >>> C["string"].value
 'seven'
 >>> print C
 Set-Cookie: number="I7\012.";
 Set-Cookie: string="S'seven'\012p1\012.";
 >>> C = Cookie.SmartCookie()
 >>> C["number"] = 7
 >>> C["string"] = "seven"
 >>> C["number"].value
 7
 >>> C["string"].value
 'seven'
 >>> print C
 Set-Cookie: number="I7\012.";
 Set-Cookie: string=seven;
 \end{verbatim}
	\section{\module{Cookie} ---
	HTTP state management}

	\declaremodule{standard}{Cookie}
	\modulesynopsis{Support for HTTP state management (cookies).}
	\moduleauthor{Timothy O'Malley}{timo@alum.mit.edu}
	\sectionauthor{Moshe Zadka}{moshez@zadka.site.co.il}


	The \module{Cookie} module defines classes for abstracting the concept of
	cookies, an HTTP state management mechanism. It supports both simple
	string-only cookies, and provides an abstraction for having any serializable
	data-type as cookie value.

	The module formerly strictly applied the parsing rules described in
	the \rfc{2109} and \rfc{2068} specifications. It has since been discovered
	that MSIE 3.0x doesn't follow the character rules outlined in those
	specs. As a result, the parsing rules used are a bit less strict.

	\begin{excdesc}{CookieError}
	Exception failing because of \rfc{2109} invalidity: incorrect
	attributes, incorrect \mailheader{Set-Cookie} header, etc.
	\end{excdesc}

	\begin{classdesc}{BaseCookie}{\optional{input}}
	This class is a dictionary-like object whose keys are strings and
	whose values are \class{Morsel} instances. Note that upon setting a key to
	a value, the value is first converted to a \class{Morsel} containing
	the key and the value.

	If \var{input} is given, it is passed to the \method{load()} method.
	\end{classdesc}

	\begin{classdesc}{SimpleCookie}{\optional{input}}
	This class derives from \class{BaseCookie} and overrides
	\method{value_decode()} and \method{value_encode()} to be the identity
	and \function{str()} respectively.
	\end{classdesc}

	\begin{classdesc}{SerialCookie}{\optional{input}}
	This class derives from \class{BaseCookie} and overrides
	\method{value_decode()} and \method{value_encode()} to be the
	\function{pickle.loads()} and \function{pickle.dumps()}.

	\deprecated{2.3}{Reading pickled values from untrusted
	cookie data is a huge security hole, as pickle strings can be crafted
	to cause arbitrary code to execute on your server. It is supported
	for backwards compatibility only, and may eventually go away.}
	\end{classdesc}

	\begin{classdesc}{SmartCookie}{\optional{input}}
	This class derives from \class{BaseCookie}. It overrides
	\method{value_decode()} to be \function{pickle.loads()} if it is a
	valid pickle, and otherwise the value itself. It overrides
	\method{value_encode()} to be \function{pickle.dumps()} unless it is a
	string, in which case it returns the value itself.

	\deprecated{2.3}{The same security warning from \class{SerialCookie}
	applies here.}
	\end{classdesc}

	A further security note is warranted. For backwards compatibility,
	the \module{Cookie} module exports a class named \class{Cookie} which
	is just an alias for \class{SmartCookie}. This is probably a mistake
	and will likely be removed in a future version. You should not use
	the \class{Cookie} class in your applications, for the same reason why
	you should not use the \class{SerialCookie} class.


	\begin{seealso}
	\seemodule{cookielib}{HTTP cookie handling for for web
	\emph{clients}. The \module{cookielib} and \module{Cookie}
	modules do not depend on each other.}

	\seerfc{2109}{HTTP State Management Mechanism}{This is the state
	management specification implemented by this module.}
	\end{seealso}


	\subsection{Cookie Objects \label{cookie-objects}}

	\begin{methoddesc}[BaseCookie]{value_decode}{val}
	Return a decoded value from a string representation. Return value can
	be any type. This method does nothing in \class{BaseCookie} --- it exists
	so it can be overridden.
	\end{methoddesc}

	\begin{methoddesc}[BaseCookie]{value_encode}{val}
	Return an encoded value. \var{val} can be any type, but return value
	must be a string. This method does nothing in \class{BaseCookie} --- it exists
	so it can be overridden

	In general, it should be the case that \method{value_encode()} and
	\method{value_decode()} are inverses on the range of \var{value_decode}.
	\end{methoddesc}

	\begin{methoddesc}[BaseCookie]{output}{\optional{attrs\optional{, header\optional{, sep}}}}
	Return a string representation suitable to be sent as HTTP headers.
	\var{attrs} and \var{header} are sent to each \class{Morsel}'s
	\method{output()} method. \var{sep} is used to join the headers
	together, and is by default a newline.
	\end{methoddesc}

	\begin{methoddesc}[BaseCookie]{js_output}{\optional{attrs}}
	Return an embeddable JavaScript snippet, which, if run on a browser which
	supports JavaScript, will act the same as if the HTTP headers was sent.

	The meaning for \var{attrs} is the same as in \method{output()}.
	\end{methoddesc}

	\begin{methoddesc}[BaseCookie]{load}{rawdata}
	If \var{rawdata} is a string, parse it as an \code{HTTP_COOKIE} and add
	the values found there as \class{Morsel}s. If it is a dictionary, it
	is equivalent to:

	\begin{verbatim}
	for k, v in rawdata.items():
	cookie[k] = v
	\end{verbatim}
	\end{methoddesc}


	\subsection{Morsel Objects \label{morsel-objects}}

	\begin{classdesc}{Morsel}{}
	Abstract a key/value pair, which has some \rfc{2109} attributes.

	Morsels are dictionary-like objects, whose set of keys is constant ---
	the valid \rfc{2109} attributes, which are

	\begin{itemize}
	\item \code{expires}
	\item \code{path}
	\item \code{comment}
	\item \code{domain}
	\item \code{max-age}
	\item \code{secure}
	\item \code{version}
	\end{itemize}

	The keys are case-insensitive.
	\end{classdesc}

	\begin{memberdesc}[Morsel]{value}
	The value of the cookie.
	\end{memberdesc}

	\begin{memberdesc}[Morsel]{coded_value}
	The encoded value of the cookie --- this is what should be sent.
	\end{memberdesc}

	\begin{memberdesc}[Morsel]{key}
	The name of the cookie.
	\end{memberdesc}

	\begin{methoddesc}[Morsel]{set}{key, value, coded_value}
	Set the \var{key}, \var{value} and \var{coded_value} members.
	\end{methoddesc}

	\begin{methoddesc}[Morsel]{isReservedKey}{K}
	Whether \var{K} is a member of the set of keys of a \class{Morsel}.
	\end{methoddesc}

	\begin{methoddesc}[Morsel]{output}{\optional{attrs\optional{, header}}}
	Return a string representation of the Morsel, suitable
	to be sent as an HTTP header. By default, all the attributes are included,
	unless \var{attrs} is given, in which case it should be a list of attributes
	to use. \var{header} is by default \code{"Set-Cookie:"}.
	\end{methoddesc}

	\begin{methoddesc}[Morsel]{js_output}{\optional{attrs}}
	Return an embeddable JavaScript snippet, which, if run on a browser which
	supports JavaScript, will act the same as if the HTTP header was sent.

	The meaning for \var{attrs} is the same as in \method{output()}.
	\end{methoddesc}

	\begin{methoddesc}[Morsel]{OutputString}{\optional{attrs}}
	Return a string representing the Morsel, without any surrounding HTTP
	or JavaScript.

	The meaning for \var{attrs} is the same as in \method{output()}.
	\end{methoddesc}


	\subsection{Example \label{cookie-example}}

	The following example demonstrates how to use the \module{Cookie} module.

	\begin{verbatim}
	>>> import Cookie
	>>> C = Cookie.SimpleCookie()
	>>> C = Cookie.SerialCookie()
	>>> C = Cookie.SmartCookie()
	>>> C["fig"] = "newton"
	>>> C["sugar"] = "wafer"
	>>> print C # generate HTTP headers
	Set-Cookie: sugar=wafer;
	Set-Cookie: fig=newton;
	>>> print C.output() # same thing
	Set-Cookie: sugar=wafer;
	Set-Cookie: fig=newton;
	>>> C = Cookie.SmartCookie()
	>>> C["rocky"] = "road"
	>>> C["rocky"]["path"] = "/cookie"
	>>> print C.output(header="Cookie:")
	Cookie: rocky=road; Path=/cookie;
	>>> print C.output(attrs=[], header="Cookie:")
	Cookie: rocky=road;
	>>> C = Cookie.SmartCookie()
	>>> C.load("chips=ahoy; vienna=finger") # load from a string (HTTP header)
	>>> print C
	Set-Cookie: vienna=finger;
	Set-Cookie: chips=ahoy;
	>>> C = Cookie.SmartCookie()
	>>> C.load('keebler="E=everybody; L=\\"Loves\\"; fudge=\\012;";')
	>>> print C
	Set-Cookie: keebler="E=everybody; L=\"Loves\"; fudge=\012;";
	>>> C = Cookie.SmartCookie()
	>>> C["oreo"] = "doublestuff"
	>>> C["oreo"]["path"] = "/"
	>>> print C
	Set-Cookie: oreo=doublestuff; Path=/;
	>>> C = Cookie.SmartCookie()
	>>> C["twix"] = "none for you"
	>>> C["twix"].value
	'none for you'
	>>> C = Cookie.SimpleCookie()
	>>> C["number"] = 7 # equivalent to C["number"] = str(7)
	>>> C["string"] = "seven"
	>>> C["number"].value
	'7'
	>>> C["string"].value
	'seven'
	>>> print C
	Set-Cookie: number=7;
	Set-Cookie: string=seven;
	>>> C = Cookie.SerialCookie()
	>>> C["number"] = 7
	>>> C["string"] = "seven"
	>>> C["number"].value
	7
	>>> C["string"].value
	'seven'
	>>> print C
	Set-Cookie: number="I7\012.";
	Set-Cookie: string="S'seven'\012p1\012.";
	>>> C = Cookie.SmartCookie()
	>>> C["number"] = 7
	>>> C["string"] = "seven"
	>>> C["number"].value
	7
	>>> C["string"].value
	'seven'
	>>> print C
	Set-Cookie: number="I7\012.";
	Set-Cookie: string=seven;
	\end{verbatim}