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<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML//EN">
<!-- $Id$ -->
<html>
<head>
<title>ORB & ORB Core Status</title>
</head>
<HR> <H3><A NAME="orb"></A>ORB & ORB Core</H3> Point of
contact: <A HREF="mailto:nanbor@cs.wustl.edu">Nanbor Wang</A>
<p>Last Update: $Date$ </P>
<P>Current status:
<UL>
<LI>Provides dynamically linked wholesale assignment of ORB
strategies for communication, concurrency, demultiplexing,
scheduling, and dispatching using the ACE Service Configurator
framework.</LI>
<LI>Supports several concurrency models out of the box:
Reactive, Thread-per-Connection, and ORB-per-thread. The
ORB-per-thread design is optimized for real-time I/O
subsystems.</LI>
<LI>Supports <TT>resolve_initial_references("NameService")</TT>
using ACE support for multicast.</LI>
</UL>
<p>Known issues:
<dl>
<dt><em>Servers cannot properly report OS-chosen port.</em></dt>
<dd>It is often desireable for a server to start up and not have
to specify the TCP port number on which the ORB will listen,
i.e., let the OS decide. While this works properly (by
providing an argument <code>-ORBport 0</code>), it is very
difficult for the server to publish the IOR for clients' use.
This is because the port is not assigned until
<code>ORB::run</code> is called.</dd>
<dt><em>Demarshalling problems with complex types</em></dt>
<dd>The current demarshalling scheme may not work in cases of
complex types such as sequences of unions or anys or object
references. The engine has difficulty determining the dynamic
type of the objects.</dd>
<dt><em>Object references for objects dynamically created within
a server may not have proper host.</em> (See also <a
href="#hostfix">recent fix</a>.)</dt>
<dd>When an object is dynamically created and its object
reference returned, it simply has to "guess" at the host
information that is returned in the IIOP Profile. Currently, it
guesses using the host name, which is a reasonable guess in most
cases.<p>
However, if there are multiple interfaces on a machine
<i>and</i> they have different host names, it is possible that
the desired effect will not be realized, i.e., the connection to
that new object may use a different interface from the original
object. Currently the only way to change this is to use the <a
href="../Options.html#-ORBhost"><b>-ORBhost</b> option</a> to
manually specify that dynamically-created objects bind to a
specific interface so that their IIOP Profile has the desired
hostname. A more desirable fix is being investigated.</dd>
<dt><em>ORB-per-thread and thread-per-connection models cannot
be mixed.</em></dt>
<dd>
<p>
These two concurrency models do not currently mix because
there is no way for the connection-handling threads to gain
access to the resources held by the ORB in thread-specific
storage (TSS). In order to do this, the Resource Manager
will have to implement some sort of inheritance of
resources.
<p>
There are other problems which will need to be solved as
well for this to work properly. For example, similar to the
problems encountered with
<code>ACE_Reactive_Strategy</code>, we will likely also
encounter problems with the single
<code>ACE_Threaded_Strategy</code>. Various solutions are
possible, some more generalizable into ACE, other (like the
solution taken with the reactive strategy) localized to TAO.
</dd>
</dl>
Recently Completed Work:
<UL>
<li>Added optimization for collocated objects. This
optimization enables TAO to bypass communication layers and
talks to collocated objects directly.</li>
<li>Broke the tight coupling between <code>CORBA_Object</code>
and <code>IIOP_Object</code> so that multiple
<code>CORBA_Object</code>s can share a single
<code>IIOP_Object</code>. This has a big win in
<code>_narrow</code> operations.</li>
<li>Eliminated substantial memory leaks in servers.</li>
<li>Added documentation for <a
href="../Options.html#-ORBpoa"><b>-ORBpoa</b></a>, which allows
individual tweaking of the POA's locality (global
vs. thread-specific) independent of the locality of other ORB
resources. Also, <a
href="../Options.html#-ORBpoalock"><b>-ORBpoalock</b></a> and <a
href="../Options.html#-ORBpoamgrlock"><b>-ORBpoamgrlock</b></a>
control locking in the POA and POA manager, respectively,
according to application needs.</li>
<li>Began the process of changing the internals of TAO to use
the "underbar" namespace mapping. This should be completed
soon.</li>
<li>The ORBs manipulation of object keys and object ids is now
consistent. Canonically, everything is managed as an opaque
sequence of octets. Conversion to/from strings is permitted,
with non-printables turning into a trigraph <b>\hl</b> where
<b>h</b> is the high nibble digit in hex, and <b>l</b> is the
low nibble in hex.</li>
<li><code>CORBA_ORB::run()</code> should be able to be called
multiply in the same execution path now.</li>
<li>Fixed the <b>LOCATION_FORWARD</b> capabilities to work as
described in the CORBA 2.1 and the POA specification.</li>
<li>Fixed problem in the IDL Cubit example which caused the
server to dump core when dealing with <code>_out</code> sequence
types <em>ONLY</em> when compiled with G++. It seems that G++
decided to interpret the expression <code>output == 0</code>
(where <code>output</code> is of type <code>vector_out</code>)
differently from Sun's C++ compiler.</li>
<li>Fixed a slight problem in <a href="#hostfix">other recent
work</a> where a servant listening on <code>INADDR_ANY</code>
reported an IOR with address <tt>0.0.0.0</tt>. It now reports
the default hostname instead.</li>
<LI>Working version of TAO on VxWorks with VME transport.</li>
<li>TAO now reacts gracefully in the face of a non-existent
<code>svc.conf</code> file or simply missing entries in the
file. It logs a warning message and uses default values
versions of items which it would normally obtain from the
Service Repository.</li>
<li><a name="hostfix"></a>Fixed problem where object references
for objects dynamically created within a server do not have
proper host, at least if the desired host was specified using <a
href="../Options.html#-ORBhost"><b>-ORBhost</b></a> on the
command line.</li>
<li>Added support for <a
href="../Options.html#-ORBsndsock"><b>-ORBsndsock</b></a> and <a
href="../Options.html#-ORBrcvsock"><b>-ORBrcvsock</b></a> ORB
options. See <a href="../Options.html">options
documentation</a> for details.</li>
<li>Added support for pre-established connections using the <a
href="../Options.html#-ORBpreconnect"><b>-ORBpreconnect</b></a>
option. This allows connections to be esablished before any
CORBA requests are made. See <a href="../Options.html">options
documentation</a> for details.</li>
<li>Eliminated deprecated <b>-OAxxx</b> options parsed by the
Object Adapter <code>init</code> method but no longer used by
part of the ORB.</li>
<li>Made argument parsing within the ORB and POA consume the
arguments it parses.</li>
<li>Placed an optimization in IIOP::Profile that should speed up
invocations on the client side rather substantially. This was
done by caching an instance of <code>ACE_INET_Addr</code> in
the private portion of <code>Profile</code> because the cost
of constructing one for every invocation (in
<code>TAO_GIOP_Invocation::start</code>) was simply
enormous--the construction was something like 100 cycles on
Solaris. This is all because deep down this ends up calling
<code>gethostbyname()</code>, which can be very costly. Of
course, this is platform-dependent, so the improvements may
not be as great on a different platform.</li>
<li>Got rid of need to have compile in TSS ORB Core
(<code>-DTAO_HAS_TSS_ORBCORE</code>). This is accomplished by
having a Resource Factory (<code>TAO_Resource_Factory</code>)
singleton which the ORB Core consults in order to get pointers
to resources. The Resource Factory can be configured to
return pointers from thread-specific storage, or
process-global storage. By doing this, the ORB Core is
shielded from ever having to know whether or not its resources
are global or not.</li>
<li>Made all command-line like options look like the
standard-professed options, i.e., <b>-ORBxxx</b> or
<b>-OAxxxx</b>.</li>
<li>Moved ORB option parsing into
<code>TAO_ORB_Core::init()</code> rather than in
<code>ORB_init()</code>.</li>
<li>Define <code>_FAR</code> for all cases as an interim fix
for LynxOS.</li>
<li>Fixed TAO so that the default port of 5001 is defined in
<code>orb_core.h</code> config header somewhere rather than in
<code>orbobj.cpp</code>, and use <b>MAXHOSTNAMELEN</b> ACE
constant for the hostname buffer.</li>
<li>Eliminated need for <code>CORBA::Object</code> to keep a
pointer to its orb sitting around anywhere.</li>
<LI>Tested <code>CORBA_ORB::shutdown()</code> as a manner in
which a thread of control can request that
<code>CORBA_ORB::run()</code> should return and no longer
service requests. It only honors a
<em>wait_for_completion</em> argument of <b>FALSE</b> right
now because we haven't fully explored the issues which
surround doing all the completion.</li>
<li>Fixed bugs reported by Steven Wohlever, David Miron,
Manojkumar Acharya.</li>
<li>Created a brief section in <a
href="../../TAO-INSTALL.html"><code>$TAO_ROOT/TAO-INSTALL.html</code></a>
that <em>briefly</em> documents installation on Unix
platforms. There is also a brief section which documents
issues that apply across ALL platforms, such as the fact that
TAO and its application will likely not work well if your ACE
is linked through Orbix, VisiBroker, or another ORB. <a
href="../../ChangeLog">ChangeLog</a> discovery attribution for
this should go to <em>Steve Wohlever
<wohlever@mitre.org></em>.</li>
<LI>Implemented <code>CORBA_ORB::shutdown()</code> as a manner
in which a thread of control can request that
<code>CORBA_ORB::run()</code> should return and no longer
service requests.</li>
<LI>Validated movement of Strategy Connector into
ORB Core.</LI>
<li>Debated details of <code>Svc_Handler</code> modifications
with Irfan.</li>
<li>Tested and commited <code>Connector::connect_n</code>
changes to ACE</code>.</li>
<li>ACE & TAO compiling cleanly using Sun's CC on Solaris and
G++ on Linux. Also, the ACE tests run properly.</li>
<li>Use <code>truss</code> to verify for <a
href="mailto:PAUL.G.WEHLAGE@cdev.com">Paul Wehlage</a> that
TAO really uses <code>select</code> vs. <code>recv</code> for
<b>-R</b> vs. <b>-T</b>.</li>
<li>Renamed <code>boa.*</code> to <code>poa.*</code>.</li>
<LI>Renamed following files: Orb_Core.* ->orb_core.*
& orbobj.* -> corba_orb.*.</LI>
<LI>The lock used in <code>giop.cpp:626</code> originally
appeared in the IIOP-1.4 code base. Its purpose was to
protect access to the <code>fwd_profile</code> data member.
The original features are available, but they are currently
not used because none of our concurrency models present a
thread-unsafe condition. The <a
href="../../ChangeLog">ChangeLog</a> presents more details
on the subject.</li>
<li>Fixed problems seen by <a
href="mailto:brian.r.mendel@boeing.com">Brian Mendel</a> of
Boeing where the Cubit server application was crashing in
<code>TAO_OA_Connection_Handler::handle_message</code> when it
was trying to call <code>CORBA::POA::handle_request</code>
through a NULL <code>root_poa</code> pointer. The NULL
pointer resulted from the inadvertent use of the
Thread-per-Connection concurrency model, which is currently
incompatible with the ORB-per-thread model. It was not caught
because the change is normally done in configuration files
parsed by the Service Configurator, and VxWorks requires
special code in that area which was not tested until Boeing
got hold of the code.</li>
<li>Clean up build under g++. All 'function used before
declared inline' warnings have been eliminated. Also, all
other warnings (except for one that is nearly unavoidable)
have been eliminated.
</li>
<LI>Removed BOA and ROA names from the ORB.</LI>
<LI>Changed <code>CORBA_ORB::open()</code> to return an error
status (first cut at this already there--needs to be checked
out).</LI>
<LI>Added README file to multiCubit test.</li>
</UL>
Ongoing Work:
<UL>
<LI>Verify ACE & TAO on Linux using g++, Solaris using CC, and
Solaris using g++.</LI>
<LI>Use Purify to eliminate straggling problems.</LI>
<LI>Clean up the internals and analyze for performance
bottlenecks using Quantify.</LI>
<li>Resolve <code>// @@</code> comment blocks. These are
questions or comments placed in the code by a reviewer
(typically Doug).</li>
<li>Make more and better documentation on the internals of
TAO.</li>
</UL>
Current Work:
<UL>
<li>Adding a new -ORB option to turn on/off collocation
optimization.
<LI>
<p>Verify that, in the ORB-per-thread concurrency model,
it's possible to have a factory in each thread that creates
a client and returns an object reference to that client
within that thread. This is different from the model that
Sumedh originally had where the factory was trying to turn
out a client in a separate thread/ORB combination.</p>
<p>There is no application which attempts this at the moment,
so both a client and a server will need to be manufactured.
Using existing Cubit-like examples (that poor app is so
weary) should reduce development time to a couple of
hours.</p>
<p>The real strategy/solution is to make
<code>CORBA::Object</code> not keep a pointer to its orb
sitting around anywhere. It should only get it when it needs
it. This should not be difficult to change.</p>
</LI>
</UL>
Critical Work:
<UL>
<LI>Support new concurrency models, e.g., Thread-per-Request,
thread pool, etc..</LI>
</UL>
Future work:
<UL>
<li>Performance optimizations, such as:
<ol>
<li>Strategize the connection management scheme so that we
don't always have to pay the price of a look up in the
connection cache. Basically, we want to be able to "hold" a
service handler for a string of requests. And, of course,
do this in a portable manner.</LI>
<li>Replace all uses of <code>new</code> and
<code>delete</code> with allocators that can be put into
TSS. The main motivation for this is to eliminate lock
contention when multiple threads need to allocate/deallocate
memory, however it might also be possible to substitute an
allocator better-tuned to an application's specific
usage.</li>
</ol>
</li>
<li>Robustness improvements:
<ol>
<li>Improve connection cache so that it won't crash when there
are no more slots or sockets.</li>
<li>Add an option to the ORB core, e.g.,
<b>-ORBnameservicetimeout</b>, to allow specification of an
upper bound on the itime-to-wait for a response from the
ORB's multicast "search" for a running name server.</li>
</ol>
</li>
<li>New features:
<ol>
<li>Implement <code>ORB::perform_work</code> and
<code>ORB::work_pending</code> so that <code>ORB::run</code>
<em>could</em> be implemented in terms of them.</li>
<li>Improve the <code>Service Configurator</code> service
entry faking on VxWorks.</li>
<li>Integrate with realtime upcalls (RTUs).</li>
</ol>
</li>
<li>Internal restructuring:
<ol>
<li>Remove <code>_FAR</code> from all code.</li>
<li>Rework underlayment to eliminate <code>IUnknown</code> class.</li>
<li>Create some sort of internal "request" object which
carries enough context to suport deferred method invocation
such as one might find in the thread-pool approach or
wherever queuing might occur.</li>
<li>Rethink the entire memory allocation model used by the
ORB. The current one from SSIIOP may no longer be suitable
for our purposes.</li>
</ol>
</li>
<li>Documentation:
<ol>
<li>Update ORB Patterns paper to reflect the latest TAO has to
offer. Specifically
<ul>
<li>sections on the Abstract Factory and Concurrency
strategies need to be updated, and the entire paper needs to
be reviewed for accuracy w.r.t the current TAO.</li>
<li>Metrics must be re-computed.</li>
<li>Tighten existing discussions.</li>
<li>Add information on new patterns (such as TSS) which
have been used since initial work.</li>
</ul>
<li>Make the section in <a
href="../../TAO-Install.html"><code>$TAO_ROOT/TAO-Install.html</code></a>
that documents installation on Unix platforms more
complete.</li>
</li>
</ol>
</li>
<li>Miscellany:
<ol>
<LI>Assist in porting higher level services (e.g., <A
HREF="#eventchannel">Event Channel</A>) to TAO.</LI>
<li>Compile and verify ACE and TAO on Linux using the Kuck and
Associates, Inc. (KAI) compiler tools.</li>
<LI>CORBA::TypeCode is causing a memory leak. Since objects
of this type are rather static in nature, this is
currently not a big deal. However, it should be fixed
soon. </LI>
<LI>CORBA_Exception::Release is not working correctly as the
memory is never really freed. </LI>
</ol>
</li>
<li>Potential Optimizations:
<ol>
<LI>There is a certain amount of overhead introduced by the
use of TSS Singletons. TSS singletons are very
convenient as the variable does not have to be passed
from function to function. Even though sort of access is
generally acceptable, the overhead of this approach
maybe too high when used in code which is executed
frequently (e.g., during an upcall). This critical code
may have to be restructured not to use TSS Singletons
because of the high overhead associated with it. </LI>
</ol>
</li>
</UL>
</body>
</html>
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