cpython/Doc/lib/liburllib2.tex

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\section{\module{urllib2} ---
extensible library for opening URLs}
\declaremodule{standard}{urllib2}
\moduleauthor{Jeremy Hylton}{jhylton@users.sourceforge.net}
\sectionauthor{Moshe Zadka}{moshez@users.sourceforge.net}
\modulesynopsis{An extensible library for opening URLs using a variety of
protocols}
The \module{urllib2} module defines functions and classes which help
in opening URLs (mostly HTTP) in a complex world --- basic and digest
authentication, redirections, cookies and more.
The \module{urllib2} module defines the following functions:
\begin{funcdesc}{urlopen}{url\optional{, data}}
Open the URL \var{url}, which can be either a string or a \class{Request}
object.
\var{data} should be a string, which specifies additional data to
send to the server. In HTTP requests, which are the only ones that
support \var{data}, it should be a buffer in the format of
\mimetype{application/x-www-form-urlencoded}, for example one returned
from \function{urllib.urlencode()}.
This function returns a file-like object with two additional methods:
\begin{itemize}
\item \method{geturl()} --- return the URL of the resource retrieved
\item \method{info()} --- return the meta-information of the page, as
a dictionary-like object
\end{itemize}
Raises \exception{URLError} on errors.
Note that \code{None} may be returned if no handler handles the
request (though the default installed global \class{OpenerDirector}
uses \class{UnknownHandler} to ensure this never happens).
\end{funcdesc}
\begin{funcdesc}{install_opener}{opener}
Install an \class{OpenerDirector} instance as the default global
opener. Installing an opener is only necessary if you want urlopen to
use that opener; otherwise, simply call \method{OpenerDirector.open()}
instead of \function{urlopen()}. The code does not check for a real
\class{OpenerDirector}, and any class with the appropriate interface
will work.
\end{funcdesc}
\begin{funcdesc}{build_opener}{\optional{handler, \moreargs}}
Return an \class{OpenerDirector} instance, which chains the
handlers in the order given. \var{handler}s can be either instances
of \class{BaseHandler}, or subclasses of \class{BaseHandler} (in
which case it must be possible to call the constructor without
any parameters). Instances of the following classes will be in
front of the \var{handler}s, unless the \var{handler}s contain
them, instances of them or subclasses of them:
\class{ProxyHandler}, \class{UnknownHandler}, \class{HTTPHandler},
\class{HTTPDefaultErrorHandler}, \class{HTTPRedirectHandler},
\class{FTPHandler}, \class{FileHandler}, \class{HTTPErrorProcessor}.
If the Python installation has SSL support (\function{socket.ssl()}
exists), \class{HTTPSHandler} will also be added.
Beginning in Python 2.3, a \class{BaseHandler} subclass may also
change its \member{handler_order} member variable to modify its
position in the handlers list. Besides \class{ProxyHandler}, which has
\member{handler_order} of \code{100}, all handlers currently have it
set to \code{500}.
\end{funcdesc}
The following attribute is defined:
\begin{datadesc}{httpresponses}
A mapping between HTTP status codes and the W3C names.
Example: \code{urllib2.httpresponses[404]} is \code{'Not Found'}.
\versionadded{2.5}
\end{datadesc}
The following exceptions are raised as appropriate:
\begin{excdesc}{URLError}
The handlers raise this exception (or derived exceptions) when they
run into a problem. It is a subclass of \exception{IOError}.
\end{excdesc}
\begin{excdesc}{HTTPError}
A subclass of \exception{URLError}, it can also function as a
non-exceptional file-like return value (the same thing that
\function{urlopen()} returns). This is useful when handling exotic
HTTP errors, such as requests for authentication.
\end{excdesc}
\begin{excdesc}{GopherError}
A subclass of \exception{URLError}, this is the error raised by the
Gopher handler.
\end{excdesc}
The following classes are provided:
\begin{classdesc}{Request}{url\optional{, data}\optional{, headers}
\optional{, origin_req_host}\optional{, unverifiable}}
This class is an abstraction of a URL request.
\var{url} should be a string which is a valid URL. For a description
of \var{data} see the \method{add_data()} description.
\var{headers} should be a dictionary, and will be treated as if
\method{add_header()} was called with each key and value as arguments.
The final two arguments are only of interest for correct handling of
third-party HTTP cookies:
\var{origin_req_host} should be the request-host of the origin
transaction, as defined by \rfc{2965}. It defaults to
\code{cookielib.request_host(self)}. This is the host name or IP
address of the original request that was initiated by the user. For
example, if the request is for an image in an HTML document, this
should be the request-host of the request for the page containing the
image.
\var{unverifiable} should indicate whether the request is
unverifiable, as defined by RFC 2965. It defaults to False. An
unverifiable request is one whose URL the user did not have the option
to approve. For example, if the request is for an image in an HTML
document, and the user had no option to approve the automatic fetching
of the image, this should be true.
\end{classdesc}
\begin{classdesc}{OpenerDirector}{}
The \class{OpenerDirector} class opens URLs via \class{BaseHandler}s
chained together. It manages the chaining of handlers, and recovery
from errors.
\end{classdesc}
\begin{classdesc}{BaseHandler}{}
This is the base class for all registered handlers --- and handles only
the simple mechanics of registration.
\end{classdesc}
\begin{classdesc}{HTTPDefaultErrorHandler}{}
A class which defines a default handler for HTTP error responses; all
responses are turned into \exception{HTTPError} exceptions.
\end{classdesc}
\begin{classdesc}{HTTPRedirectHandler}{}
A class to handle redirections.
\end{classdesc}
\begin{classdesc}{HTTPCookieProcessor}{\optional{cookiejar}}
A class to handle HTTP Cookies.
\end{classdesc}
\begin{classdesc}{ProxyHandler}{\optional{proxies}}
Cause requests to go through a proxy.
If \var{proxies} is given, it must be a dictionary mapping
protocol names to URLs of proxies.
The default is to read the list of proxies from the environment
variables \envvar{<protocol>_proxy}.
\end{classdesc}
\begin{classdesc}{HTTPPasswordMgr}{}
Keep a database of
\code{(\var{realm}, \var{uri}) -> (\var{user}, \var{password})}
mappings.
\end{classdesc}
\begin{classdesc}{HTTPPasswordMgrWithDefaultRealm}{}
Keep a database of
\code{(\var{realm}, \var{uri}) -> (\var{user}, \var{password})} mappings.
A realm of \code{None} is considered a catch-all realm, which is searched
if no other realm fits.
\end{classdesc}
\begin{classdesc}{AbstractBasicAuthHandler}{\optional{password_mgr}}
This is a mixin class that helps with HTTP authentication, both
to the remote host and to a proxy.
\var{password_mgr}, if given, should be something that is compatible
with \class{HTTPPasswordMgr}; refer to section~\ref{http-password-mgr}
for information on the interface that must be supported.
\end{classdesc}
\begin{classdesc}{HTTPBasicAuthHandler}{\optional{password_mgr}}
Handle authentication with the remote host.
\var{password_mgr}, if given, should be something that is compatible
with \class{HTTPPasswordMgr}; refer to section~\ref{http-password-mgr}
for information on the interface that must be supported.
\end{classdesc}
\begin{classdesc}{ProxyBasicAuthHandler}{\optional{password_mgr}}
Handle authentication with the proxy.
\var{password_mgr}, if given, should be something that is compatible
with \class{HTTPPasswordMgr}; refer to section~\ref{http-password-mgr}
for information on the interface that must be supported.
\end{classdesc}
\begin{classdesc}{AbstractDigestAuthHandler}{\optional{password_mgr}}
This is a mixin class that helps with HTTP authentication, both
to the remote host and to a proxy.
\var{password_mgr}, if given, should be something that is compatible
with \class{HTTPPasswordMgr}; refer to section~\ref{http-password-mgr}
for information on the interface that must be supported.
\end{classdesc}
\begin{classdesc}{HTTPDigestAuthHandler}{\optional{password_mgr}}
Handle authentication with the remote host.
\var{password_mgr}, if given, should be something that is compatible
with \class{HTTPPasswordMgr}; refer to section~\ref{http-password-mgr}
for information on the interface that must be supported.
\end{classdesc}
\begin{classdesc}{ProxyDigestAuthHandler}{\optional{password_mgr}}
Handle authentication with the proxy.
\var{password_mgr}, if given, should be something that is compatible
with \class{HTTPPasswordMgr}; refer to section~\ref{http-password-mgr}
for information on the interface that must be supported.
\end{classdesc}
\begin{classdesc}{HTTPHandler}{}
A class to handle opening of HTTP URLs.
\end{classdesc}
\begin{classdesc}{HTTPSHandler}{}
A class to handle opening of HTTPS URLs.
\end{classdesc}
\begin{classdesc}{FileHandler}{}
Open local files.
\end{classdesc}
\begin{classdesc}{FTPHandler}{}
Open FTP URLs.
\end{classdesc}
\begin{classdesc}{CacheFTPHandler}{}
Open FTP URLs, keeping a cache of open FTP connections to minimize
delays.
\end{classdesc}
\begin{classdesc}{GopherHandler}{}
Open gopher URLs.
\end{classdesc}
\begin{classdesc}{UnknownHandler}{}
A catch-all class to handle unknown URLs.
\end{classdesc}
\subsection{Request Objects \label{request-objects}}
The following methods describe all of \class{Request}'s public interface,
and so all must be overridden in subclasses.
\begin{methoddesc}[Request]{add_data}{data}
Set the \class{Request} data to \var{data}. This is ignored by all
handlers except HTTP handlers --- and there it should be a byte
string, and will change the request to be \code{POST} rather than
\code{GET}.
\end{methoddesc}
\begin{methoddesc}[Request]{get_method}{}
Return a string indicating the HTTP request method. This is only
meaningful for HTTP requests, and currently always returns
\code{'GET'} or \code{'POST'}.
\end{methoddesc}
\begin{methoddesc}[Request]{has_data}{}
Return whether the instance has a non-\code{None} data.
\end{methoddesc}
\begin{methoddesc}[Request]{get_data}{}
Return the instance's data.
\end{methoddesc}
\begin{methoddesc}[Request]{add_header}{key, val}
Add another header to the request. Headers are currently ignored by
all handlers except HTTP handlers, where they are added to the list
of headers sent to the server. Note that there cannot be more than
one header with the same name, and later calls will overwrite
previous calls in case the \var{key} collides. Currently, this is
no loss of HTTP functionality, since all headers which have meaning
when used more than once have a (header-specific) way of gaining the
same functionality using only one header.
\end{methoddesc}
\begin{methoddesc}[Request]{add_unredirected_header}{key, header}
Add a header that will not be added to a redirected request.
\versionadded{2.4}
\end{methoddesc}
\begin{methoddesc}[Request]{has_header}{header}
Return whether the instance has the named header (checks both regular
and unredirected).
\versionadded{2.4}
\end{methoddesc}
\begin{methoddesc}[Request]{get_full_url}{}
Return the URL given in the constructor.
\end{methoddesc}
\begin{methoddesc}[Request]{get_type}{}
Return the type of the URL --- also known as the scheme.
\end{methoddesc}
\begin{methoddesc}[Request]{get_host}{}
Return the host to which a connection will be made.
\end{methoddesc}
\begin{methoddesc}[Request]{get_selector}{}
Return the selector --- the part of the URL that is sent to
the server.
\end{methoddesc}
\begin{methoddesc}[Request]{set_proxy}{host, type}
Prepare the request by connecting to a proxy server. The \var{host}
and \var{type} will replace those of the instance, and the instance's
selector will be the original URL given in the constructor.
\end{methoddesc}
\begin{methoddesc}[Request]{get_origin_req_host}{}
Return the request-host of the origin transaction, as defined by
\rfc{2965}. See the documentation for the \class{Request}
constructor.
\end{methoddesc}
\begin{methoddesc}[Request]{is_unverifiable}{}
Return whether the request is unverifiable, as defined by RFC 2965.
See the documentation for the \class{Request} constructor.
\end{methoddesc}
\subsection{OpenerDirector Objects \label{opener-director-objects}}
\class{OpenerDirector} instances have the following methods:
\begin{methoddesc}[OpenerDirector]{add_handler}{handler}
\var{handler} should be an instance of \class{BaseHandler}. The
following methods are searched, and added to the possible chains (note
that HTTP errors are a special case).
\begin{itemize}
\item \method{\var{protocol}_open()} ---
signal that the handler knows how to open \var{protocol} URLs.
\item \method{http_error_\var{type}()} ---
signal that the handler knows how to handle HTTP errors with HTTP
error code \var{type}.
\item \method{\var{protocol}_error()} ---
signal that the handler knows how to handle errors from
(non-\code{http}) \var{protocol}.
\item \method{\var{protocol}_request()} ---
signal that the handler knows how to pre-process \var{protocol}
requests.
\item \method{\var{protocol}_response()} ---
signal that the handler knows how to post-process \var{protocol}
responses.
\end{itemize}
\end{methoddesc}
\begin{methoddesc}[OpenerDirector]{open}{url\optional{, data}}
Open the given \var{url} (which can be a request object or a string),
optionally passing the given \var{data}.
Arguments, return values and exceptions raised are the same as those
of \function{urlopen()} (which simply calls the \method{open()} method
on the currently installed global \class{OpenerDirector}).
\end{methoddesc}
\begin{methoddesc}[OpenerDirector]{error}{proto\optional{,
arg\optional{, \moreargs}}}
Handle an error of the given protocol. This will call the registered
error handlers for the given protocol with the given arguments (which
are protocol specific). The HTTP protocol is a special case which
uses the HTTP response code to determine the specific error handler;
refer to the \method{http_error_*()} methods of the handler classes.
Return values and exceptions raised are the same as those
of \function{urlopen()}.
\end{methoddesc}
OpenerDirector objects open URLs in three stages:
The order in which these methods are called within each stage is
determined by sorting the handler instances.
\begin{enumerate}
\item Every handler with a method named like
\method{\var{protocol}_request()} has that method called to
pre-process the request.
\item Handlers with a method named like
\method{\var{protocol}_open()} are called to handle the request.
This stage ends when a handler either returns a
non-\constant{None} value (ie. a response), or raises an exception
(usually URLError). Exceptions are allowed to propagate.
In fact, the above algorithm is first tried for methods named
\method{default_open}. If all such methods return
\constant{None}, the algorithm is repeated for methods named like
\method{\var{protocol}_open()}. If all such methods return
\constant{None}, the algorithm is repeated for methods named
\method{unknown_open()}.
Note that the implementation of these methods may involve calls of
the parent \class{OpenerDirector} instance's \method{.open()} and
\method{.error()} methods.
\item Every handler with a method named like
\method{\var{protocol}_response()} has that method called to
post-process the response.
\end{enumerate}
\subsection{BaseHandler Objects \label{base-handler-objects}}
\class{BaseHandler} objects provide a couple of methods that are
directly useful, and others that are meant to be used by derived
classes. These are intended for direct use:
\begin{methoddesc}[BaseHandler]{add_parent}{director}
Add a director as parent.
\end{methoddesc}
\begin{methoddesc}[BaseHandler]{close}{}
Remove any parents.
\end{methoddesc}
The following members and methods should only be used by classes
derived from \class{BaseHandler}. \note{The convention has been
adopted that subclasses defining \method{\var{protocol}_request()} or
\method{\var{protocol}_response()} methods are named
\class{*Processor}; all others are named \class{*Handler}.}
\begin{memberdesc}[BaseHandler]{parent}
A valid \class{OpenerDirector}, which can be used to open using a
different protocol, or handle errors.
\end{memberdesc}
\begin{methoddesc}[BaseHandler]{default_open}{req}
This method is \emph{not} defined in \class{BaseHandler}, but
subclasses should define it if they want to catch all URLs.
This method, if implemented, will be called by the parent
\class{OpenerDirector}. It should return a file-like object as
described in the return value of the \method{open()} of
\class{OpenerDirector}, or \code{None}. It should raise
\exception{URLError}, unless a truly exceptional thing happens (for
example, \exception{MemoryError} should not be mapped to
\exception{URLError}).
This method will be called before any protocol-specific open method.
\end{methoddesc}
\begin{methoddescni}[BaseHandler]{\var{protocol}_open}{req}
This method is \emph{not} defined in \class{BaseHandler}, but
subclasses should define it if they want to handle URLs with the given
protocol.
This method, if defined, will be called by the parent
\class{OpenerDirector}. Return values should be the same as for
\method{default_open()}.
\end{methoddescni}
\begin{methoddesc}[BaseHandler]{unknown_open}{req}
This method is \var{not} defined in \class{BaseHandler}, but
subclasses should define it if they want to catch all URLs with no
specific registered handler to open it.
This method, if implemented, will be called by the \member{parent}
\class{OpenerDirector}. Return values should be the same as for
\method{default_open()}.
\end{methoddesc}
\begin{methoddesc}[BaseHandler]{http_error_default}{req, fp, code, msg, hdrs}
This method is \emph{not} defined in \class{BaseHandler}, but
subclasses should override it if they intend to provide a catch-all
for otherwise unhandled HTTP errors. It will be called automatically
by the \class{OpenerDirector} getting the error, and should not
normally be called in other circumstances.
\var{req} will be a \class{Request} object, \var{fp} will be a
file-like object with the HTTP error body, \var{code} will be the
three-digit code of the error, \var{msg} will be the user-visible
explanation of the code and \var{hdrs} will be a mapping object with
the headers of the error.
Return values and exceptions raised should be the same as those
of \function{urlopen()}.
\end{methoddesc}
\begin{methoddesc}[BaseHandler]{http_error_\var{nnn}}{req, fp, code, msg, hdrs}
\var{nnn} should be a three-digit HTTP error code. This method is
also not defined in \class{BaseHandler}, but will be called, if it
exists, on an instance of a subclass, when an HTTP error with code
\var{nnn} occurs.
Subclasses should override this method to handle specific HTTP
errors.
Arguments, return values and exceptions raised should be the same as
for \method{http_error_default()}.
\end{methoddesc}
\begin{methoddescni}[BaseHandler]{\var{protocol}_request}{req}
This method is \emph{not} defined in \class{BaseHandler}, but
subclasses should define it if they want to pre-process requests of
the given protocol.
This method, if defined, will be called by the parent
\class{OpenerDirector}. \var{req} will be a \class{Request} object.
The return value should be a \class{Request} object.
\end{methoddescni}
\begin{methoddescni}[BaseHandler]{\var{protocol}_response}{req, response}
This method is \emph{not} defined in \class{BaseHandler}, but
subclasses should define it if they want to post-process responses of
the given protocol.
This method, if defined, will be called by the parent
\class{OpenerDirector}. \var{req} will be a \class{Request} object.
\var{response} will be an object implementing the same interface as
the return value of \function{urlopen()}. The return value should
implement the same interface as the return value of
\function{urlopen()}.
\end{methoddescni}
\subsection{HTTPRedirectHandler Objects \label{http-redirect-handler}}
\note{Some HTTP redirections require action from this module's client
code. If this is the case, \exception{HTTPError} is raised. See
\rfc{2616} for details of the precise meanings of the various
redirection codes.}
\begin{methoddesc}[HTTPRedirectHandler]{redirect_request}{req,
fp, code, msg, hdrs}
Return a \class{Request} or \code{None} in response to a redirect.
This is called by the default implementations of the
\method{http_error_30*()} methods when a redirection is received from
the server. If a redirection should take place, return a new
\class{Request} to allow \method{http_error_30*()} to perform the
redirect. Otherwise, raise \exception{HTTPError} if no other handler
should try to handle this URL, or return \code{None} if you can't but
another handler might.
\begin{notice}
The default implementation of this method does not strictly
follow \rfc{2616}, which says that 301 and 302 responses to \code{POST}
requests must not be automatically redirected without confirmation by
the user. In reality, browsers do allow automatic redirection of
these responses, changing the POST to a \code{GET}, and the default
implementation reproduces this behavior.
\end{notice}
\end{methoddesc}
\begin{methoddesc}[HTTPRedirectHandler]{http_error_301}{req,
fp, code, msg, hdrs}
Redirect to the \code{Location:} URL. This method is called by
the parent \class{OpenerDirector} when getting an HTTP
`moved permanently' response.
\end{methoddesc}
\begin{methoddesc}[HTTPRedirectHandler]{http_error_302}{req,
fp, code, msg, hdrs}
The same as \method{http_error_301()}, but called for the
`found' response.
\end{methoddesc}
\begin{methoddesc}[HTTPRedirectHandler]{http_error_303}{req,
fp, code, msg, hdrs}
The same as \method{http_error_301()}, but called for the
`see other' response.
\end{methoddesc}
\begin{methoddesc}[HTTPRedirectHandler]{http_error_307}{req,
fp, code, msg, hdrs}
The same as \method{http_error_301()}, but called for the
`temporary redirect' response.
\end{methoddesc}
\subsection{HTTPCookieProcessor Objects \label{http-cookie-processor}}
\versionadded{2.4}
\class{HTTPCookieProcessor} instances have one attribute:
\begin{memberdesc}{cookiejar}
The \class{cookielib.CookieJar} in which cookies are stored.
\end{memberdesc}
\subsection{ProxyHandler Objects \label{proxy-handler}}
\begin{methoddescni}[ProxyHandler]{\var{protocol}_open}{request}
The \class{ProxyHandler} will have a method
\method{\var{protocol}_open()} for every \var{protocol} which has a
proxy in the \var{proxies} dictionary given in the constructor. The
method will modify requests to go through the proxy, by calling
\code{request.set_proxy()}, and call the next handler in the chain to
actually execute the protocol.
\end{methoddescni}
\subsection{HTTPPasswordMgr Objects \label{http-password-mgr}}
These methods are available on \class{HTTPPasswordMgr} and
\class{HTTPPasswordMgrWithDefaultRealm} objects.
\begin{methoddesc}[HTTPPasswordMgr]{add_password}{realm, uri, user, passwd}
\var{uri} can be either a single URI, or a sequence of URIs. \var{realm},
\var{user} and \var{passwd} must be strings. This causes
\code{(\var{user}, \var{passwd})} to be used as authentication tokens
when authentication for \var{realm} and a super-URI of any of the
given URIs is given.
\end{methoddesc}
\begin{methoddesc}[HTTPPasswordMgr]{find_user_password}{realm, authuri}
Get user/password for given realm and URI, if any. This method will
return \code{(None, None)} if there is no matching user/password.
For \class{HTTPPasswordMgrWithDefaultRealm} objects, the realm
\code{None} will be searched if the given \var{realm} has no matching
user/password.
\end{methoddesc}
\subsection{AbstractBasicAuthHandler Objects
\label{abstract-basic-auth-handler}}
\begin{methoddesc}[AbstractBasicAuthHandler]{handle_authentication_request}
{authreq, host, req, headers}
Handle an authentication request by getting a user/password pair, and
re-trying the request. \var{authreq} should be the name of the header
where the information about the realm is included in the request,
\var{host} is the host to authenticate to, \var{req} should be the
(failed) \class{Request} object, and \var{headers} should be the error
headers.
\end{methoddesc}
\subsection{HTTPBasicAuthHandler Objects
\label{http-basic-auth-handler}}
\begin{methoddesc}[HTTPBasicAuthHandler]{http_error_401}{req, fp, code,
msg, hdrs}
Retry the request with authentication information, if available.
\end{methoddesc}
\subsection{ProxyBasicAuthHandler Objects
\label{proxy-basic-auth-handler}}
\begin{methoddesc}[ProxyBasicAuthHandler]{http_error_407}{req, fp, code,
msg, hdrs}
Retry the request with authentication information, if available.
\end{methoddesc}
\subsection{AbstractDigestAuthHandler Objects
\label{abstract-digest-auth-handler}}
\begin{methoddesc}[AbstractDigestAuthHandler]{handle_authentication_request}
{authreq, host, req, headers}
\var{authreq} should be the name of the header where the information about
the realm is included in the request, \var{host} should be the host to
authenticate to, \var{req} should be the (failed) \class{Request}
object, and \var{headers} should be the error headers.
\end{methoddesc}
\subsection{HTTPDigestAuthHandler Objects
\label{http-digest-auth-handler}}
\begin{methoddesc}[HTTPDigestAuthHandler]{http_error_401}{req, fp, code,
msg, hdrs}
Retry the request with authentication information, if available.
\end{methoddesc}
\subsection{ProxyDigestAuthHandler Objects
\label{proxy-digest-auth-handler}}
\begin{methoddesc}[ProxyDigestAuthHandler]{http_error_407}{req, fp, code,
msg, hdrs}
Retry the request with authentication information, if available.
\end{methoddesc}
\subsection{HTTPHandler Objects \label{http-handler-objects}}
\begin{methoddesc}[HTTPHandler]{http_open}{req}
Send an HTTP request, which can be either GET or POST, depending on
\code{\var{req}.has_data()}.
\end{methoddesc}
\subsection{HTTPSHandler Objects \label{https-handler-objects}}
\begin{methoddesc}[HTTPSHandler]{https_open}{req}
Send an HTTPS request, which can be either GET or POST, depending on
\code{\var{req}.has_data()}.
\end{methoddesc}
\subsection{FileHandler Objects \label{file-handler-objects}}
\begin{methoddesc}[FileHandler]{file_open}{req}
Open the file locally, if there is no host name, or
the host name is \code{'localhost'}. Change the
protocol to \code{ftp} otherwise, and retry opening
it using \member{parent}.
\end{methoddesc}
\subsection{FTPHandler Objects \label{ftp-handler-objects}}
\begin{methoddesc}[FTPHandler]{ftp_open}{req}
Open the FTP file indicated by \var{req}.
The login is always done with empty username and password.
\end{methoddesc}
\subsection{CacheFTPHandler Objects \label{cacheftp-handler-objects}}
\class{CacheFTPHandler} objects are \class{FTPHandler} objects with
the following additional methods:
\begin{methoddesc}[CacheFTPHandler]{setTimeout}{t}
Set timeout of connections to \var{t} seconds.
\end{methoddesc}
\begin{methoddesc}[CacheFTPHandler]{setMaxConns}{m}
Set maximum number of cached connections to \var{m}.
\end{methoddesc}
\subsection{GopherHandler Objects \label{gopher-handler}}
\begin{methoddesc}[GopherHandler]{gopher_open}{req}
Open the gopher resource indicated by \var{req}.
\end{methoddesc}
\subsection{UnknownHandler Objects \label{unknown-handler-objects}}
\begin{methoddesc}[UnknownHandler]{unknown_open}{}
Raise a \exception{URLError} exception.
\end{methoddesc}
\subsection{HTTPErrorProcessor Objects \label{http-error-processor-objects}}
\versionadded{2.4}
\begin{methoddesc}[HTTPErrorProcessor]{unknown_open}{}
Process HTTP error responses.
For 200 error codes, the response object is returned immediately.
For non-200 error codes, this simply passes the job on to the
\method{\var{protocol}_error_\var{code}()} handler methods, via
\method{OpenerDirector.error()}. Eventually,
\class{urllib2.HTTPDefaultErrorHandler} will raise an
\exception{HTTPError} if no other handler handles the error.
\end{methoddesc}
\subsection{Examples \label{urllib2-examples}}
This example gets the python.org main page and displays the first 100
bytes of it:
\begin{verbatim}
>>> import urllib2
>>> f = urllib2.urlopen('http://www.python.org/')
>>> print f.read(100)
<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
<?xml-stylesheet href="./css/ht2html
\end{verbatim}
Here we are sending a data-stream to the stdin of a CGI and reading
the data it returns to us. Note that this example will only work when the
Python installation supports SSL.
\begin{verbatim}
>>> import urllib2
>>> req = urllib2.Request(url='https://localhost/cgi-bin/test.cgi',
... data='This data is passed to stdin of the CGI')
>>> f = urllib2.urlopen(req)
>>> print f.read()
Got Data: "This data is passed to stdin of the CGI"
\end{verbatim}
The code for the sample CGI used in the above example is:
\begin{verbatim}
#!/usr/bin/env python
import sys
data = sys.stdin.read()
print 'Content-type: text-plain\n\nGot Data: "%s"' % data
\end{verbatim}
Use of Basic HTTP Authentication:
\begin{verbatim}
import urllib2
# Create an OpenerDirector with support for Basic HTTP Authentication...
auth_handler = urllib2.HTTPBasicAuthHandler()
auth_handler.add_password('realm', 'host', 'username', 'password')
opener = urllib2.build_opener(auth_handler)
# ...and install it globally so it can be used with urlopen.
urllib2.install_opener(opener)
urllib2.urlopen('http://www.example.com/login.html')
\end{verbatim}
\function{build_opener()} provides many handlers by default, including a
\class{ProxyHandler}. By default, \class{ProxyHandler} uses the
environment variables named \code{<scheme>_proxy}, where \code{<scheme>}
is the URL scheme involved. For example, the \envvar{http_proxy}
environment variable is read to obtain the HTTP proxy's URL.
This example replaces the default \class{ProxyHandler} with one that uses
programatically-supplied proxy URLs, and adds proxy authorization support
with \class{ProxyBasicAuthHandler}.
\begin{verbatim}
proxy_handler = urllib2.ProxyHandler({'http': 'http://www.example.com:3128/'})
proxy_auth_handler = urllib2.HTTPBasicAuthHandler()
proxy_auth_handler.add_password('realm', 'host', 'username', 'password')
opener = build_opener(proxy_handler, proxy_auth_handler)
# This time, rather than install the OpenerDirector, we use it directly:
opener.open('http://www.example.com/login.html')
\end{verbatim}
Adding HTTP headers:
Use the \var{headers} argument to the \class{Request} constructor, or:
\begin{verbatim}
import urllib2
req = urllib2.Request('http://www.example.com/')
req.add_header('Referer', 'http://www.python.org/')
r = urllib2.urlopen(req)
\end{verbatim}
\class{OpenerDirector} automatically adds a \mailheader{User-Agent}
header to every \class{Request}. To change this:
\begin{verbatim}
import urllib2
opener = urllib2.build_opener()
opener.addheaders = [('User-agent', 'Mozilla/5.0')]
opener.open('http://www.example.com/')
\end{verbatim}
Also, remember that a few standard headers
(\mailheader{Content-Length}, \mailheader{Content-Type} and
\mailheader{Host}) are added when the \class{Request} is passed to
\function{urlopen()} (or \method{OpenerDirector.open()}).