mirror of https://github.com/python/cpython
255 lines
11 KiB
TeX
255 lines
11 KiB
TeX
\section{\module{asynchat} ---
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Asynchronous socket command/response handler}
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\declaremodule{standard}{asynchat}
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\modulesynopsis{Support for asynchronous command/response protocols.}
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\moduleauthor{Sam Rushing}{rushing@nightmare.com}
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\sectionauthor{Steve Holden}{sholden@holdenweb.com}
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This module builds on the \refmodule{asyncore} infrastructure,
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simplifying asynchronous clients and servers and making it easier to
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handle protocols whose elements are terminated by arbitrary strings, or
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are of variable length. \refmodule{asynchat} defines the abstract class
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\class{async_chat} that you subclass, providing implementations of the
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\method{collect_incoming_data()} and \method{found_terminator()}
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methods. It uses the same asynchronous loop as \refmodule{asyncore}, and
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the two types of channel, \class{asyncore.despatcher} and
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\class{asynchat.async_chat}, can freely be mixed in the channel map.
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Typically an \class{asyncore.despatcher} server channel generates new
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\class{asynchat.async_chat} channel objects as it receives incoming
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connection requests.
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\begin{classdesc}{async_chat}{}
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This class is an abstract subclass of \class{asyncore.despatcher}. To make
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practical use of the code you must subclass \class{async_chat}, providing
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meaningful \method{collect_incoming_data()} and \method{found_terminator()}
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methods. The \class{asyncore.despatcher} methods can be
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used, although not all make sense in a message/response context.
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Like \class{asyncore.despatcher}, \class{async_chat} defines a set of events
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that are generated by an analysis of socket conditions after a
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\cfunction{select()} call. Once the polling loop has been started the
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\class{async_chat} object's methods are called by the event-processing
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framework with no action on the part of the programmer.
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Unlike \class{asyncore.despatcher}, \class{async_chat} allows you to define
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a first-in-first-out queue (fifo) of \emph{producers}. A producer need have
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only one method, \method{more()}, which should return data to be transmitted
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on the channel. The producer indicates exhaustion (\emph{i.e.} that it contains
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no more data) by having its \method{more()} method return the empty string. At
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this point the \class{async_chat} object removes the producer from the fifo
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and starts using the next producer, if any. When the producer fifo is empty
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the \method{handle_write()} method does nothing. You use the channel object's
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\method{set_terminator()} method to describe how to recognize the end
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of, or an important breakpoint in, an incoming transmission from the
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remote endpoint.
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To build a functioning \class{async_chat} subclass your
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input methods \method{collect_incoming_data()} and
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\method{found_terminator()} must handle the data that the channel receives
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asynchronously. The methods are described below.
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\end{classdesc}
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\begin{methoddesc}{close_when_done}{}
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Pushes a \code{None} on to the producer fifo. When this producer is
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popped off the fifo it causes the channel to be closed.
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\end{methoddesc}
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\begin{methoddesc}{collect_incoming_data}{data}
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Called with \var{data} holding an arbitrary amount of received data.
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The default method, which must be overridden, raises a \exception{NotImplementedError} exception.
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\end{methoddesc}
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\begin{methoddesc}{discard_buffers}{}
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In emergencies this method will discard any data held in the input and/or
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output buffers and the producer fifo.
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\end{methoddesc}
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\begin{methoddesc}{found_terminator}{}
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Called when the incoming data stream matches the termination condition
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set by \method{set_terminator}. The default method, which must be overridden,
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raises a \exception{NotImplementedError} exception. The buffered input data should
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be available via an instance attribute.
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\end{methoddesc}
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\begin{methoddesc}{get_terminator}{}
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Returns the current terminator for the channel.
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\end{methoddesc}
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\begin{methoddesc}{handle_close}{}
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Called when the channel is closed. The default method silently closes
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the channel's socket.
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\end{methoddesc}
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\begin{methoddesc}{handle_read}{}
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Called when a read event fires on the channel's socket in the
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asynchronous loop. The default method checks for the termination
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condition established by \method{set_terminator()}, which can be either
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the appearance of a particular string in the input stream or the receipt
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of a particular number of characters. When the terminator is found,
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\method{handle_read} calls the \method{found_terminator()} method after
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calling \method{collect_incoming_data()} with any data preceding the
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terminating condition.
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\end{methoddesc}
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\begin{methoddesc}{handle_write}{}
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Called when the application may write data to the channel.
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The default method calls the \method{initiate_send()} method, which in turn
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will call \method{refill_buffer()} to collect data from the producer
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fifo associated with the channel.
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\end{methoddesc}
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\begin{methoddesc}{push}{data}
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Creates a \class{simple_producer} object (\emph{see below}) containing the data and
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pushes it on to the channel's \code{producer_fifo} to ensure its
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transmission. This is all you need to do to have the channel write
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the data out to the network, although it is possible to use your
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own producers in more complex schemes to implement encryption and
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chunking, for example.
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\end{methoddesc}
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\begin{methoddesc}{push_with_producer}{producer}
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Takes a producer object and adds it to the producer fifo associated with
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the channel. When all currently-pushed producers have been exhausted
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the channel will consume this producer's data by calling its
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\method{more()} method and send the data to the remote endpoint.
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\end{methoddesc}
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\begin{methoddesc}{readable}{}
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Should return \code{True} for the channel to be included in the set of
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channels tested by the \cfunction{select()} loop for readability.
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\end{methoddesc}
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\begin{methoddesc}{refill_buffer}{}
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Refills the output buffer by calling the \method{more()} method of the
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producer at the head of the fifo. If it is exhausted then the
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producer is popped off the fifo and the next producer is activated.
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If the current producer is, or becomes, \code{None} then the channel
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is closed.
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\end{methoddesc}
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\begin{methoddesc}{set_terminator}{term}
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Sets the terminating condition to be recognised on the channel. \code{term}
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may be any of three types of value, corresponding to three different ways
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to handle incoming protocol data.
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\begin{tableii}{l|l}{}{term}{Description}
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\lineii{\emph{string}}{Will call \method{found_terminator()} when the
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string is found in the input stream}
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\lineii{\emph{integer}}{Will call \method{found_terminator()} when the
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indicated number of characters have been received}
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\lineii{\code{None}}{The channel continues to collect data forever}
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\end{tableii}
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Note that any data following the terminator will be available for reading by
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the channel after \method{found_terminator()} is called.
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\end{methoddesc}
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\begin{methoddesc}{writable}{}
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Should return \code{True} as long as items remain on the producer fifo,
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or the channel is connected and the channel's output buffer is non-empty.
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\end{methoddesc}
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\subsection{asynchat - Auxiliary Classes and Functions}
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\begin{classdesc}{simple_producer}{data\optional{, buffer_size=512}}
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A \class{simple_producer} takes a chunk of data and an optional buffer size.
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Repeated calls to its \method{more()} method yield successive chunks of the
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data no larger than \var{buffer_size}.
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\end{classdesc}
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\begin{methoddesc}{more}{}
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Produces the next chunk of information from the producer, or returns the empty string.
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\end{methoddesc}
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\begin{classdesc}{fifo}{\optional{list=None}}
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Each channel maintains a \class{fifo} holding data which has been pushed by the
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application but not yet popped for writing to the channel.
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A \class{fifo} is a list used to hold data and/or producers until they are required.
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If the \var{list} argument is provided then it should contain producers or
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data items to be written to the channel.
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\end{classdesc}
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\begin{methoddesc}{is_empty}{}
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Returns \code{True} iff the fifo is empty.
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\end{methoddesc}
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\begin{methoddesc}{first}{}
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Returns the least-recently \method{push()}ed item from the fifo.
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\end{methoddesc}
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\begin{methoddesc}{push}{data}
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Adds the given data (which may be a string or a producer object) to the
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producer fifo.
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\end{methoddesc}
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\begin{methoddesc}{pop}{}
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If the fifo is not empty, returns \code{True, first()}, deleting the popped
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item. Returns \code{False, None} for an empty fifo.
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\end{methoddesc}
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The \module{asynchat} module also defines one utility function, which may be
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of use in network and textual analysis operations.
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\begin{funcdesc}{find_prefix_at_end}{haystack, needle}
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Returns \code{True} if string \var{haystack} ends with any non-empty
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prefix of string \var{needle}.
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\end{funcdesc}
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\subsection{asynchat Example \label{asynchat-example}}
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The following partial example shows how HTTP requests can be read with
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\class{async_chat}. A web server might create an \class{http_request_handler} object for
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each incoming client connection. Notice that initially the
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channel terminator is set to match the blank line at the end of the HTTP
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headers, and a flag indicates that the headers are being read.
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Once the headers have been read, if the request is of type POST
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(indicating that further data are present in the input stream) then the
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\code{Content-Length:} header is used to set a numeric terminator to
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read the right amount of data from the channel.
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The \method{handle_request()} method is called once all relevant input
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has been marshalled, after setting the channel terminator to \code{None}
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to ensure that any extraneous data sent by the web client are ignored.
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\begin{verbatim}
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class http_request_handler(asynchat.async_chat):
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def __init__(self, conn, addr, sessions, log):
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asynchat.async_chat.__init__(self, conn=conn)
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self.addr = addr
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self.sessions = sessions
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self.ibuffer = []
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self.obuffer = ""
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self.set_terminator("\r\n\r\n")
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self.reading_headers = True
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self.handling = False
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self.cgi_data = None
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self.log = log
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def collect_incoming_data(self, data):
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"""Buffer the data"""
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self.ibuffer.append(data)
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def found_terminator(self):
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if self.reading_headers:
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self.reading_headers = False
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self.parse_headers("".join(self.ibuffer)
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self.ibuffer = []
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if self.op.upper() == "POST":
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clen = self.headers.getheader("content-length")
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self.set_terminator(int(clen))
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else:
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self.handling = True
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self.set_terminator(None)
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self.handle_request()
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elif not self.handling:
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self.set_terminator(None) # browsers sometimes over-send
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self.cgi_data = parse(self.headers, "".join(self.ibuffer))
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self.handling = True
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self.ibuffer = []
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self.handle_request()
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\end{verbatim}
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