<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html xmlns="http://www.w3.org/1999/xhtml">
<head>
<meta name="generator" content="HTML Tidy, see www.w3.org" />
<title>Apache 2.0 Layered I/O</title>
</head>
<!-- Background white, links blue (unvisited), navy (visited), red (active) -->
<body bgcolor="#FFFFFF" text="#000000" link="#0000FF"
vlink="#000080" alink="#FF0000">
<h1 align="center">Apache Layered I/O</h1>
<p>Layered I/O has been the holy grail of Apache module writers
for years. With Apache 2.0, module writers can finally take
advantage of layered I/O in their modules.</p>
<p>In all previous versions of Apache, only one handler was
allowed to modify the data stream that was sent to the client.
With Apache 2.0, one module can modify the data and then
specify that other modules can modify the data if they would
like.</p>
<h2>Taking advantage of layered I/O</h2>
<p>In order to make a module use layered I/O, there are some
modifications needed. A new return value has been added for
modules, RERUN_HANDLERS. When a handler returns this value, the
core searches through the list of handlers looking for another
module that wants to try the request.</p>
<p>When a module returns RERUN_HANDLERS, it must modify two
fields of the request_rec, the handler and content_type fields.
Most modules will set the handler field to NULL, and allow the
core to choose the which module gets run next. If these two
fields are not modified, then the server will loop forever
calling the same module's handler.</p>
<p>Most modules should not write out to the network if they
want to take advantage of layered I/O. Two BUFF structures have
been added to the request_rec, one for input and one for
output. The module should read and write to these BUFFs. The
module will also have to setup the input field for the next
module in the list. A new function has been added,
ap_setup_input, which all modules should call before they do
any reading to get data to modify. This function checks to
determine if the previous module set the input field, if so,
that input is used, if not the file is opened and that data
source is used. The output field is used basically the same
way. The module must set this field before they call ap_r* in
order to take advantage of layered I/O. If this field is not
set, ap_r* will write directly to the client. Usually at the
end of a handler, the input (for the next module) will be the
read side of a pipe, and the output will be the write side of
the same pipe.</p>
<h3>An Example of Layered I/O.</h3>
<p>This example is the most basic layered I/O example possible.
It is basically CGIs generated by mod_cgi and sent to the
network via http_core.</p>
<p>mod_cgi executes the cgi script, and then sets
request_rec->input to the output pipe of the CGI. It then
NULLs out request_rec->handler, and sets
request_rec->content_type to whatever the CGI writes out (in
this case, text/html). Finally, mod_cgi returns
RERUN_HANDLERS.</p>
<p>ap_invoke_handlers() then loops back to the top of the
handler list and searches for a handler that can deal with this
content_type. In this case the correct module is the
default_handler from http_core.</p>
<p>When default handler starts, it calls ap_setup_input, which
has found a valid request_rec->input, so that is used for
all inputs. The output field in the request_rec is NULL, so
when default_handler calls an output primitive it gets sent out
over the network.</p>
<i>Ryan Bloom, 25th March 2000</i>
</body>
</html>
